ST
3-axis MEMS ultra low power magnetometer
Dependencies: X_NUCLEO_COMMON ST_INTERFACES
Dependents: X_NUCLEO_IKS01A3 X_NUCLEO_IKS01A3
lis2mdl_reg.c
- Committer:
- cparata
- Date:
- 2019-03-05
- Revision:
- 0:671edf39d961
- Child:
- 1:8562ae1a0534
File content as of revision 0:671edf39d961:
/*
******************************************************************************
* @file lis2mdl_reg.c
* @author Sensors Software Solution Team
* @brief LIS2MDL driver file
******************************************************************************
* @attention
*
* <h2><center>© COPYRIGHT(c) 2018 STMicroelectronics</center></h2>
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright notice,
* this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 3. Neither the name of STMicroelectronics nor the names of its
* contributors may be used to endorse or promote products derived from
* this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE
* LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
* POSSIBILITY OF SUCH DAMAGE.
*
*/
#include "lis2mdl_reg.h"
/**
* @defgroup LIS2MDL
* @brief This file provides a set of functions needed to drive the
* lis2mdl enhanced inertial module.
* @{
*
*/
/**
* @defgroup LIS2MDL_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.
* @{
*
*/
/**
* @brief Read generic device register
*
* @param ctx read / write interface definitions(ptr)
* @param reg register to read
* @param data pointer to buffer that store the data read(ptr)
* @param len number of consecutive register to read
* @retval interface status (MANDATORY: return 0 -> no Error)
*
*/
int32_t lis2mdl_read_reg(lis2mdl_ctx_t* ctx, uint8_t reg, uint8_t* data,
uint16_t len)
{
int32_t ret;
ret = ctx->read_reg(ctx->handle, reg, data, len);
return ret;
}
/**
* @brief Write generic device register
*
* @param ctx read / write interface definitions(ptr)
* @param reg register to write
* @param data pointer to data to write in register reg(ptr)
* @param len number of consecutive register to write
* @retval interface status (MANDATORY: return 0 -> no Error)
*
*/
int32_t lis2mdl_write_reg(lis2mdl_ctx_t* ctx, uint8_t reg, uint8_t* data,
uint16_t len)
{
int32_t ret;
ret = ctx->write_reg(ctx->handle, reg, data, len);
return ret;
}
/**
* @}
*
*/
/**
* @defgroup LIS2MDL_Sensitivity
* @brief These functions convert raw-data into engineering units.
* @{
*
*/
float_t lis2mdl_from_lsb_to_mgauss(int16_t lsb)
{
return ((float_t)lsb * 1.5f);
}
float_t lis2mdl_from_lsb_to_celsius(int16_t lsb)
{
return (((float_t)lsb / 8.0f) + 25.0f);
}
/**
* @}
*
*/
/**
* @defgroup LIS2MDL_data_generation
* @brief This section group all the functions concerning
* data generation
* @{
*
*/
/**
* @brief These registers comprise a 3 group of 16-bit number and represent
* hard-iron offset in order to compensate environmental effects.
* Data format is the same of output data raw: two’s complement
* with 1LSb = 1.5mG. These values act on the magnetic output data
* value in order to delete the environmental offset.[set]
*
* @param ctx read / write interface definitions.(ptr)
* @param buff buffer that contains data to write
* @retval interface status.(MANDATORY: return 0 -> no Error)
*
*/
int32_t lis2mdl_mag_user_offset_set(lis2mdl_ctx_t *ctx, uint8_t *buff)
{
int32_t ret;
ret = lis2mdl_write_reg(ctx, LIS2MDL_OFFSET_X_REG_L, buff, 6);
return ret;
}
/**
* @brief These registers comprise a 3 group of 16-bit number and represent
* hard-iron offset in order to compensate environmental effects.
* Data format is the same of output data raw: two’s complement
* with 1LSb = 1.5mG. These values act on the magnetic output data
* value in order to delete the environmental offset.[get]
*
* @param ctx read / write interface definitions.(ptr)
* @param buff that stores data read
* @retval interface status.(MANDATORY: return 0 -> no Error)
*
*/
int32_t lis2mdl_mag_user_offset_get(lis2mdl_ctx_t *ctx, uint8_t *buff)
{
int32_t ret;
ret = lis2mdl_read_reg(ctx, LIS2MDL_OFFSET_X_REG_L, buff, 6);
return ret;
}
/**
* @brief Operating mode selection.[set]
*
* @param ctx read / write interface definitions.(ptr)
* @param val change the values of md in reg CFG_REG_A
* @retval interface status.(MANDATORY: return 0 -> no Error)
*
*/
int32_t lis2mdl_operating_mode_set(lis2mdl_ctx_t *ctx, lis2mdl_md_t val)
{
lis2mdl_cfg_reg_a_t reg;
int32_t ret;
ret = lis2mdl_read_reg(ctx, LIS2MDL_CFG_REG_A, (uint8_t*)®, 1);
if(ret == 0){
reg.md = (uint8_t)val;
ret = lis2mdl_write_reg(ctx, LIS2MDL_CFG_REG_A, (uint8_t*)®, 1);
}
return ret;
}
/**
* @brief Operating mode selection.[get]
*
* @param ctx read / write interface definitions.(ptr)
* @param val Get the values of md in reg CFG_REG_A.(ptr)
* @retval interface status.(MANDATORY: return 0 -> no Error)
*
*/
int32_t lis2mdl_operating_mode_get(lis2mdl_ctx_t *ctx, lis2mdl_md_t *val)
{
lis2mdl_cfg_reg_a_t reg;
int32_t ret;
ret = lis2mdl_read_reg(ctx, LIS2MDL_CFG_REG_A, (uint8_t*)®, 1);
switch (reg.md){
case LIS2MDL_POWER_DOWN:
*val = LIS2MDL_POWER_DOWN;
break;
case LIS2MDL_CONTINUOUS_MODE:
*val = LIS2MDL_CONTINUOUS_MODE;
break;
case LIS2MDL_SINGLE_TRIGGER:
*val = LIS2MDL_SINGLE_TRIGGER;
break;
default:
*val = LIS2MDL_POWER_DOWN;
break;
}
return ret;
}
/**
* @brief Output data rate selection.[set]
*
* @param ctx read / write interface definitions.(ptr)
* @param val change the values of odr in reg CFG_REG_A
* @retval interface status.(MANDATORY: return 0 -> no Error)
*
*/
int32_t lis2mdl_data_rate_set(lis2mdl_ctx_t *ctx, lis2mdl_odr_t val)
{
lis2mdl_cfg_reg_a_t reg;
int32_t ret;
ret = lis2mdl_read_reg(ctx, LIS2MDL_CFG_REG_A, (uint8_t*)®, 1);
if(ret == 0){
reg.odr = (uint8_t)val;
ret = lis2mdl_write_reg(ctx, LIS2MDL_CFG_REG_A, (uint8_t*)®, 1);
}
return ret;
}
/**
* @brief Output data rate selection.[get]
*
* @param ctx read / write interface definitions.(ptr)
* @param val Get the values of odr in reg CFG_REG_A.(ptr)
* @retval interface status.(MANDATORY: return 0 -> no Error)
*
*/
int32_t lis2mdl_data_rate_get(lis2mdl_ctx_t *ctx, lis2mdl_odr_t *val)
{
lis2mdl_cfg_reg_a_t reg;
int32_t ret;
ret = lis2mdl_read_reg(ctx, LIS2MDL_CFG_REG_A, (uint8_t*)®, 1);
switch (reg.odr){
case LIS2MDL_ODR_10Hz:
*val = LIS2MDL_ODR_10Hz;
break;
case LIS2MDL_ODR_20Hz:
*val = LIS2MDL_ODR_20Hz;
break;
case LIS2MDL_ODR_50Hz:
*val = LIS2MDL_ODR_50Hz;
break;
case LIS2MDL_ODR_100Hz:
*val = LIS2MDL_ODR_100Hz;
break;
default:
*val = LIS2MDL_ODR_10Hz;
break;
}
return ret;
}
/**
* @brief Enables high-resolution/low-power mode.[set]
*
* @param ctx read / write interface definitions.(ptr)
* @param val change the values of lp in reg CFG_REG_A
* @retval interface status.(MANDATORY: return 0 -> no Error)
*
*/
int32_t lis2mdl_power_mode_set(lis2mdl_ctx_t *ctx, lis2mdl_lp_t val)
{
lis2mdl_cfg_reg_a_t reg;
int32_t ret;
ret = lis2mdl_read_reg(ctx, LIS2MDL_CFG_REG_A, (uint8_t*)®, 1);
if(ret == 0){
reg.lp = (uint8_t)val;
ret = lis2mdl_write_reg(ctx, LIS2MDL_CFG_REG_A, (uint8_t*)®, 1);
}
return ret;
}
/**
* @brief Enables high-resolution/low-power mode.[get]
*
* @param ctx read / write interface definitions.(ptr)
* @param val Get the values of lp in reg CFG_REG_A.(ptr)
* @retval interface status.(MANDATORY: return 0 -> no Error)
*
*/
int32_t lis2mdl_power_mode_get(lis2mdl_ctx_t *ctx, lis2mdl_lp_t *val)
{
lis2mdl_cfg_reg_a_t reg;
int32_t ret;
ret = lis2mdl_read_reg(ctx, LIS2MDL_CFG_REG_A, (uint8_t*)®, 1);
switch (reg.lp){
case LIS2MDL_HIGH_RESOLUTION:
*val = LIS2MDL_HIGH_RESOLUTION;
break;
case LIS2MDL_LOW_POWER:
*val = LIS2MDL_LOW_POWER;
break;
default:
*val = LIS2MDL_HIGH_RESOLUTION;
break;
}
return ret;
}
/**
* @brief Enables the magnetometer temperature compensation.[set]
*
* @param ctx read / write interface definitions.(ptr)
* @param val change the values of comp_temp_en in reg CFG_REG_A
* @retval interface status.(MANDATORY: return 0 -> no Error)
*
*/
int32_t lis2mdl_offset_temp_comp_set(lis2mdl_ctx_t *ctx, uint8_t val)
{
lis2mdl_cfg_reg_a_t reg;
int32_t ret;
ret = lis2mdl_read_reg(ctx, LIS2MDL_CFG_REG_A, (uint8_t*)®, 1);
if(ret == 0){
reg.comp_temp_en = val;
ret = lis2mdl_write_reg(ctx, LIS2MDL_CFG_REG_A, (uint8_t*)®, 1);
}
return ret;
}
/**
* @brief Enables the magnetometer temperature compensation.[get]
*
* @param ctx read / write interface definitions.(ptr)
* @param val change the values of comp_temp_en in reg CFG_REG_A.(ptr)
* @retval interface status.(MANDATORY: return 0 -> no Error)
*
*/
int32_t lis2mdl_offset_temp_comp_get(lis2mdl_ctx_t *ctx, uint8_t *val)
{
lis2mdl_cfg_reg_a_t reg;
int32_t ret;
ret = lis2mdl_read_reg(ctx, LIS2MDL_CFG_REG_A, (uint8_t*)®, 1);
*val = reg.comp_temp_en;
return ret;
}
/**
* @brief Low-pass bandwidth selection.[set]
*
* @param ctx read / write interface definitions.(ptr)
* @param val change the values of lpf in reg CFG_REG_B
* @retval interface status.(MANDATORY: return 0 -> no Error)
*
*/
int32_t lis2mdl_low_pass_bandwidth_set(lis2mdl_ctx_t *ctx,
lis2mdl_lpf_t val)
{
lis2mdl_cfg_reg_b_t reg;
int32_t ret;
ret = lis2mdl_read_reg(ctx, LIS2MDL_CFG_REG_B, (uint8_t*)®, 1);
if(ret == 0){
reg.lpf = (uint8_t)val;
ret = lis2mdl_write_reg(ctx, LIS2MDL_CFG_REG_B, (uint8_t*)®, 1);
}
return ret;
}
/**
* @brief Low-pass bandwidth selection.[get]
*
* @param ctx read / write interface definitions.(ptr)
* @param val Get the values of lpf in reg CFG_REG_B.(ptr)
* @retval interface status.(MANDATORY: return 0 -> no Error)
*
*/
int32_t lis2mdl_low_pass_bandwidth_get(lis2mdl_ctx_t *ctx,
lis2mdl_lpf_t *val)
{
lis2mdl_cfg_reg_b_t reg;
int32_t ret;
ret = lis2mdl_read_reg(ctx, LIS2MDL_CFG_REG_B, (uint8_t*)®, 1);
switch (reg.lpf){
case LIS2MDL_ODR_DIV_2:
*val = LIS2MDL_ODR_DIV_2;
break;
case LIS2MDL_ODR_DIV_4:
*val = LIS2MDL_ODR_DIV_4;
break;
default:
*val = LIS2MDL_ODR_DIV_2;
break;
}
return ret;
}
/**
* @brief Reset mode.[set]
*
* @param ctx read / write interface definitions.(ptr)
* @param val change the values of set_rst in reg CFG_REG_B
* @retval interface status.(MANDATORY: return 0 -> no Error)
*
*/
int32_t lis2mdl_set_rst_mode_set(lis2mdl_ctx_t *ctx, lis2mdl_set_rst_t val)
{
lis2mdl_cfg_reg_b_t reg;
int32_t ret;
ret = lis2mdl_read_reg(ctx, LIS2MDL_CFG_REG_B, (uint8_t*)®, 1);
if(ret == 0){
reg.set_rst = (uint8_t)val;
ret = lis2mdl_write_reg(ctx, LIS2MDL_CFG_REG_B, (uint8_t*)®, 1);
}
return ret;
}
/**
* @brief Reset mode.[get]
*
* @param ctx read / write interface definitions.(ptr)
* @param val Get the values of set_rst in reg CFG_REG_B.(ptr)
* @retval interface status.(MANDATORY: return 0 -> no Error)
*
*/
int32_t lis2mdl_set_rst_mode_get(lis2mdl_ctx_t *ctx, lis2mdl_set_rst_t *val)
{
lis2mdl_cfg_reg_b_t reg;
int32_t ret;
ret = lis2mdl_read_reg(ctx, LIS2MDL_CFG_REG_B, (uint8_t*)®, 1);
switch (reg.set_rst){
case LIS2MDL_SET_SENS_ODR_DIV_63:
*val = LIS2MDL_SET_SENS_ODR_DIV_63;
break;
case LIS2MDL_SENS_OFF_CANC_EVERY_ODR:
*val = LIS2MDL_SENS_OFF_CANC_EVERY_ODR;
break;
case LIS2MDL_SET_SENS_ONLY_AT_POWER_ON:
*val = LIS2MDL_SET_SENS_ONLY_AT_POWER_ON;
break;
default:
*val = LIS2MDL_SET_SENS_ODR_DIV_63;
break;
}
return ret;
}
/**
* @brief Enables offset cancellation in single measurement mode.
* The OFF_CANC bit must be set to 1 when enabling offset
* cancellation in single measurement mode this means a
* call function: set_rst_mode(SENS_OFF_CANC_EVERY_ODR)
* is need.[set]
*
* @param ctx read / write interface definitions.(ptr)
* @param val change the values of off_canc_one_shot in reg CFG_REG_B
* @retval interface status.(MANDATORY: return 0 -> no Error)
*
*/
int32_t lis2mdl_set_rst_sensor_single_set(lis2mdl_ctx_t *ctx, uint8_t val)
{
lis2mdl_cfg_reg_b_t reg;
int32_t ret;
ret = lis2mdl_read_reg(ctx, LIS2MDL_CFG_REG_B, (uint8_t*)®, 1);
if(ret == 0){
reg.off_canc_one_shot = val;
ret = lis2mdl_write_reg(ctx, LIS2MDL_CFG_REG_B, (uint8_t*)®, 1);
}
return ret;
}
/**
* @brief Enables offset cancellation in single measurement mode.
* The OFF_CANC bit must be set to 1 when enabling offset
* cancellation in single measurement mode this means a
* call function: set_rst_mode(SENS_OFF_CANC_EVERY_ODR)
* is need.[get]
*
* @param ctx read / write interface definitions.(ptr)
* @param val change the values of off_canc_one_shot in reg CFG_REG_B.(ptr)
* @retval interface status.(MANDATORY: return 0 -> no Error)
*
*/
int32_t lis2mdl_set_rst_sensor_single_get(lis2mdl_ctx_t *ctx, uint8_t *val)
{
lis2mdl_cfg_reg_b_t reg;
int32_t ret;
ret = lis2mdl_read_reg(ctx, LIS2MDL_CFG_REG_B, (uint8_t*)®, 1);
*val = reg.off_canc_one_shot;
return ret;
}
/**
* @brief Blockdataupdate.[set]
*
* @param ctx read / write interface definitions.(ptr)
* @param val change the values of bdu in reg CFG_REG_C
* @retval interface status.(MANDATORY: return 0 -> no Error)
*
*/
int32_t lis2mdl_block_data_update_set(lis2mdl_ctx_t *ctx, uint8_t val)
{
lis2mdl_cfg_reg_c_t reg;
int32_t ret;
ret = lis2mdl_read_reg(ctx, LIS2MDL_CFG_REG_C, (uint8_t*)®, 1);
if(ret == 0){
reg.bdu = val;
ret = lis2mdl_write_reg(ctx, LIS2MDL_CFG_REG_C, (uint8_t*)®, 1);
}
return ret;
}
/**
* @brief Blockdataupdate.[get]
*
* @param ctx read / write interface definitions.(ptr)
* @param val change the values of bdu in reg CFG_REG_C.(ptr)
* @retval interface status.(MANDATORY: return 0 -> no Error)
*
*/
int32_t lis2mdl_block_data_update_get(lis2mdl_ctx_t *ctx, uint8_t *val)
{
lis2mdl_cfg_reg_c_t reg;
int32_t ret;
ret = lis2mdl_read_reg(ctx, LIS2MDL_CFG_REG_C, (uint8_t*)®, 1);
*val = reg.bdu;
return ret;
}
/**
* @brief Magnetic set of data available.[get]
*
* @param ctx read / write interface definitions.(ptr)
* @param val change the values of zyxda in reg STATUS_REG.(ptr)
* @retval interface status.(MANDATORY: return 0 -> no Error)
*
*/
int32_t lis2mdl_mag_data_ready_get(lis2mdl_ctx_t *ctx, uint8_t *val)
{
lis2mdl_status_reg_t reg;
int32_t ret;
ret = lis2mdl_read_reg(ctx, LIS2MDL_STATUS_REG, (uint8_t*)®, 1);
*val = reg.zyxda;
return ret;
}
/**
* @brief Magnetic set of data overrun.[get]
*
* @param ctx read / write interface definitions.(ptr)
* @param val change the values of zyxor in reg STATUS_REG.(ptr)
* @retval interface status.(MANDATORY: return 0 -> no Error)
*
*/
int32_t lis2mdl_mag_data_ovr_get(lis2mdl_ctx_t *ctx, uint8_t *val)
{
lis2mdl_status_reg_t reg;
int32_t ret;
ret = lis2mdl_read_reg(ctx, LIS2MDL_STATUS_REG, (uint8_t*)®, 1);
*val = reg.zyxor;
return ret;
}
/**
* @brief Magnetic output value.[get]
*
* @param ctx read / write interface definitions.(ptr)
* @param buff that stores data read
* @retval interface status.(MANDATORY: return 0 -> no Error)
*
*/
int32_t lis2mdl_magnetic_raw_get(lis2mdl_ctx_t *ctx, uint8_t *buff)
{
int32_t ret;
ret = lis2mdl_read_reg(ctx, LIS2MDL_OUTX_L_REG, buff, 6);
return ret;
}
/**
* @brief Temperature output value.[get]
*
* @param ctx read / write interface definitions.(ptr)
* @param buff that stores data read
* @retval interface status.(MANDATORY: return 0 -> no Error)
*
*/
int32_t lis2mdl_temperature_raw_get(lis2mdl_ctx_t *ctx, uint8_t *buff)
{
int32_t ret;
ret = lis2mdl_read_reg(ctx, LIS2MDL_TEMP_OUT_L_REG, buff, 2);
return ret;
}
/**
* @}
*
*/
/**
* @defgroup LIS2MDL_common
* @brief This section group common usefull functions
* @{
*
*/
/**
* @brief DeviceWhoamI.[get]
*
* @param ctx read / write interface definitions.(ptr)
* @param buff that stores data read
* @retval interface status.(MANDATORY: return 0 -> no Error)
*
*/
int32_t lis2mdl_device_id_get(lis2mdl_ctx_t *ctx, uint8_t *buff)
{
int32_t ret;
ret = lis2mdl_read_reg(ctx, LIS2MDL_WHO_AM_I, buff, 1);
return ret;
}
/**
* @brief Software reset. Restore the default values in user registers.[set]
*
* @param ctx read / write interface definitions.(ptr)
* @param val change the values of soft_rst in reg CFG_REG_A
* @retval interface status.(MANDATORY: return 0 -> no Error)
*
*/
int32_t lis2mdl_reset_set(lis2mdl_ctx_t *ctx, uint8_t val)
{
lis2mdl_cfg_reg_a_t reg;
int32_t ret;
ret = lis2mdl_read_reg(ctx, LIS2MDL_CFG_REG_A, (uint8_t*)®, 1);
if(ret == 0){
reg.soft_rst = val;
ret = lis2mdl_write_reg(ctx, LIS2MDL_CFG_REG_A, (uint8_t*)®, 1);
}
return ret;
}
/**
* @brief Software reset. Restore the default values in user registers.[get]
*
* @param ctx read / write interface definitions.(ptr)
* @param val change the values of soft_rst in reg CFG_REG_A.(ptr)
* @retval interface status.(MANDATORY: return 0 -> no Error)
*
*/
int32_t lis2mdl_reset_get(lis2mdl_ctx_t *ctx, uint8_t *val)
{
lis2mdl_cfg_reg_a_t reg;
int32_t ret;
ret = lis2mdl_read_reg(ctx, LIS2MDL_CFG_REG_A, (uint8_t*)®, 1);
*val = reg.soft_rst;
return ret;
}
/**
* @brief Reboot memory content. Reload the calibration parameters.[set]
*
* @param ctx read / write interface definitions.(ptr)
* @param val change the values of reboot in reg CFG_REG_A
* @retval interface status.(MANDATORY: return 0 -> no Error)
*
*/
int32_t lis2mdl_boot_set(lis2mdl_ctx_t *ctx, uint8_t val)
{
lis2mdl_cfg_reg_a_t reg;
int32_t ret;
ret = lis2mdl_read_reg(ctx, LIS2MDL_CFG_REG_A, (uint8_t*)®, 1);
if(ret == 0){
reg.reboot = val;
ret = lis2mdl_write_reg(ctx, LIS2MDL_CFG_REG_A, (uint8_t*)®, 1);
}
return ret;
}
/**
* @brief Reboot memory content. Reload the calibration parameters.[get]
*
* @param ctx read / write interface definitions.(ptr)
* @param val change the values of reboot in reg CFG_REG_A.(ptr)
* @retval interface status.(MANDATORY: return 0 -> no Error)
*
*/
int32_t lis2mdl_boot_get(lis2mdl_ctx_t *ctx, uint8_t *val)
{
lis2mdl_cfg_reg_a_t reg;
int32_t ret;
ret = lis2mdl_read_reg(ctx, LIS2MDL_CFG_REG_A, (uint8_t*)®, 1);
*val = reg.reboot;
return ret;
}
/**
* @brief Selftest.[set]
*
* @param ctx read / write interface definitions.(ptr)
* @param val change the values of self_test in reg CFG_REG_C
* @retval interface status.(MANDATORY: return 0 -> no Error)
*
*/
int32_t lis2mdl_self_test_set(lis2mdl_ctx_t *ctx, uint8_t val)
{
lis2mdl_cfg_reg_c_t reg;
int32_t ret;
ret = lis2mdl_read_reg(ctx, LIS2MDL_CFG_REG_C, (uint8_t*)®, 1);
if(ret == 0){
reg.self_test = val;
ret = lis2mdl_write_reg(ctx, LIS2MDL_CFG_REG_C, (uint8_t*)®, 1);
}
return ret;
}
/**
* @brief Selftest.[get]
*
* @param ctx read / write interface definitions.(ptr)
* @param val change the values of self_test in reg CFG_REG_C.(ptr)
* @retval interface status.(MANDATORY: return 0 -> no Error)
*
*/
int32_t lis2mdl_self_test_get(lis2mdl_ctx_t *ctx, uint8_t *val)
{
lis2mdl_cfg_reg_c_t reg;
int32_t ret;
ret = lis2mdl_read_reg(ctx, LIS2MDL_CFG_REG_C, (uint8_t*)®, 1);
*val = reg.self_test;
return ret;
}
/**
* @brief Big/Little Endian data selection.[set]
*
* @param ctx read / write interface definitions.(ptr)
* @param val change the values of ble in reg CFG_REG_C
* @retval interface status.(MANDATORY: return 0 -> no Error)
*
*/
int32_t lis2mdl_data_format_set(lis2mdl_ctx_t *ctx, lis2mdl_ble_t val)
{
lis2mdl_cfg_reg_c_t reg;
int32_t ret;
ret = lis2mdl_read_reg(ctx, LIS2MDL_CFG_REG_C, (uint8_t*)®, 1);
if(ret == 0){
reg.ble = (uint8_t)val;
ret = lis2mdl_write_reg(ctx, LIS2MDL_CFG_REG_C, (uint8_t*)®, 1);
}
return ret;
}
/**
* @brief Big/Little Endian data selection.[get]
*
* @param ctx read / write interface definitions.(ptr)
* @param val Get the values of ble in reg CFG_REG_C.(ptr)
* @retval interface status.(MANDATORY: return 0 -> no Error)
*
*/
int32_t lis2mdl_data_format_get(lis2mdl_ctx_t *ctx, lis2mdl_ble_t *val)
{
lis2mdl_cfg_reg_c_t reg;
int32_t ret;
ret = lis2mdl_read_reg(ctx, LIS2MDL_CFG_REG_C, (uint8_t*)®, 1);
switch (reg.ble){
case LIS2MDL_LSB_AT_LOW_ADD:
*val = LIS2MDL_LSB_AT_LOW_ADD;
break;
case LIS2MDL_MSB_AT_LOW_ADD:
*val = LIS2MDL_MSB_AT_LOW_ADD;
break;
default:
*val = LIS2MDL_LSB_AT_LOW_ADD;
break;
}
return ret;
}
/**
* @brief Info about device status.[get]
*
* @param ctx read / write interface definitions.(ptr)
* @param val registers STATUS_REG.(ptr)
* @retval interface status.(MANDATORY: return 0 -> no Error)
*
*/
int32_t lis2mdl_status_get(lis2mdl_ctx_t *ctx, lis2mdl_status_reg_t *val)
{
int32_t ret;
ret = lis2mdl_read_reg(ctx, LIS2MDL_STATUS_REG, (uint8_t*) val, 1);
return ret;
}
/**
* @}
*
*/
/**
* @defgroup LIS2MDL_interrupts
* @brief This section group all the functions that manage interrupts
* @{
*
*/
/**
* @brief The interrupt block recognition checks data after/before the
* hard-iron correction to discover the interrupt.[set]
*
* @param ctx read / write interface definitions.(ptr)
* @param val change the values of int_on_dataoff in reg CFG_REG_B
* @retval interface status.(MANDATORY: return 0 -> no Error)
*
*/
int32_t lis2mdl_offset_int_conf_set(lis2mdl_ctx_t *ctx,
lis2mdl_int_on_dataoff_t val)
{
lis2mdl_cfg_reg_b_t reg;
int32_t ret;
ret = lis2mdl_read_reg(ctx, LIS2MDL_CFG_REG_B, (uint8_t*)®, 1);
if(ret == 0){
reg.int_on_dataoff = (uint8_t)val;
ret = lis2mdl_write_reg(ctx, LIS2MDL_CFG_REG_B, (uint8_t*)®, 1);
}
return ret;
}
/**
* @brief The interrupt block recognition checks data after/before the
* hard-iron correction to discover the interrupt.[get]
*
* @param ctx read / write interface definitions.(ptr)
* @param val Get the values of int_on_dataoff in reg CFG_REG_B.(ptr)
* @retval interface status.(MANDATORY: return 0 -> no Error)
*
*/
int32_t lis2mdl_offset_int_conf_get(lis2mdl_ctx_t *ctx,
lis2mdl_int_on_dataoff_t *val)
{
lis2mdl_cfg_reg_b_t reg;
int32_t ret;
ret = lis2mdl_read_reg(ctx, LIS2MDL_CFG_REG_B, (uint8_t*)®, 1);
switch (reg.int_on_dataoff){
case LIS2MDL_CHECK_BEFORE:
*val = LIS2MDL_CHECK_BEFORE;
break;
case LIS2MDL_CHECK_AFTER:
*val = LIS2MDL_CHECK_AFTER;
break;
default:
*val = LIS2MDL_CHECK_BEFORE;
break;
}
return ret;
}
/**
* @brief Data-ready signal on INT_DRDY pin.[set]
*
* @param ctx read / write interface definitions.(ptr)
* @param val change the values of drdy_on_pin in reg CFG_REG_C
* @retval interface status.(MANDATORY: return 0 -> no Error)
*
*/
int32_t lis2mdl_drdy_on_pin_set(lis2mdl_ctx_t *ctx, uint8_t val)
{
lis2mdl_cfg_reg_c_t reg;
int32_t ret;
ret = lis2mdl_read_reg(ctx, LIS2MDL_CFG_REG_C, (uint8_t*)®, 1);
if(ret == 0){
reg.drdy_on_pin = val;
ret = lis2mdl_write_reg(ctx, LIS2MDL_CFG_REG_C, (uint8_t*)®, 1);
}
return ret;
}
/**
* @brief Data-ready signal on INT_DRDY pin.[get]
*
* @param ctx read / write interface definitions.(ptr)
* @param val change the values of drdy_on_pin in reg CFG_REG_C.(ptr)
* @retval interface status.(MANDATORY: return 0 -> no Error)
*
*/
int32_t lis2mdl_drdy_on_pin_get(lis2mdl_ctx_t *ctx, uint8_t *val)
{
lis2mdl_cfg_reg_c_t reg;
int32_t ret;
ret = lis2mdl_read_reg(ctx, LIS2MDL_CFG_REG_C, (uint8_t*)®, 1);
*val = reg.drdy_on_pin;
return ret;
}
/**
* @brief Interrupt signal on INT_DRDY pin.[set]
*
* @param ctx read / write interface definitions.(ptr)
* @param val change the values of int_on_pin in reg CFG_REG_C
* @retval interface status.(MANDATORY: return 0 -> no Error)
*
*/
int32_t lis2mdl_int_on_pin_set(lis2mdl_ctx_t *ctx, uint8_t val)
{
lis2mdl_cfg_reg_c_t reg;
int32_t ret;
ret = lis2mdl_read_reg(ctx, LIS2MDL_CFG_REG_C, (uint8_t*)®, 1);
if(ret == 0){
reg.int_on_pin = val;
ret = lis2mdl_write_reg(ctx, LIS2MDL_CFG_REG_C, (uint8_t*)®, 1);
}
return ret;
}
/**
* @brief Interrupt signal on INT_DRDY pin.[get]
*
* @param ctx read / write interface definitions.(ptr)
* @param val change the values of int_on_pin in reg CFG_REG_C.(ptr)
* @retval interface status.(MANDATORY: return 0 -> no Error)
*
*/
int32_t lis2mdl_int_on_pin_get(lis2mdl_ctx_t *ctx, uint8_t *val)
{
lis2mdl_cfg_reg_c_t reg;
int32_t ret;
ret = lis2mdl_read_reg(ctx, LIS2MDL_CFG_REG_C, (uint8_t*)®, 1);
*val = reg.int_on_pin;
return ret;
}
/**
* @brief Interrupt generator configuration register.[set]
*
* @param ctx read / write interface definitions.(ptr)
* @param val registers INT_CRTL_REG.(ptr)
* @retval interface status.(MANDATORY: return 0 -> no Error)
*
*/
int32_t lis2mdl_int_gen_conf_set(lis2mdl_ctx_t *ctx,
lis2mdl_int_crtl_reg_t *val)
{
int32_t ret;
ret = lis2mdl_write_reg(ctx, LIS2MDL_INT_CRTL_REG, (uint8_t*) val, 1);
return ret;
}
/**
* @brief Interrupt generator configuration register.[get]
*
* @param ctx read / write interface definitions.(ptr)
* @param val registers INT_CRTL_REG.(ptr)
* @retval interface status.(MANDATORY: return 0 -> no Error)
*
*/
int32_t lis2mdl_int_gen_conf_get(lis2mdl_ctx_t *ctx,
lis2mdl_int_crtl_reg_t *val)
{
int32_t ret;
ret = lis2mdl_read_reg(ctx, LIS2MDL_INT_CRTL_REG, (uint8_t*) val, 1);
return ret;
}
/**
* @brief Interrupt generator source register.[get]
*
* @param ctx read / write interface definitions.(ptr)
* @param val registers INT_SOURCE_REG.(ptr)
* @retval interface status.(MANDATORY: return 0 -> no Error)
*
*/
int32_t lis2mdl_int_gen_source_get(lis2mdl_ctx_t *ctx,
lis2mdl_int_source_reg_t *val)
{
int32_t ret;
ret = lis2mdl_read_reg(ctx, LIS2MDL_INT_SOURCE_REG, (uint8_t*) val, 1);
return ret;
}
/**
* @brief User-defined threshold value for xl interrupt event on generator.
* Data format is the same of output data raw: two’s complement with
* 1LSb = 1.5mG.[set]
*
* @param ctx read / write interface definitions.(ptr)
* @param buff that contains data to write
* @retval interface status.(MANDATORY: return 0 -> no Error)
*
*/
int32_t lis2mdl_int_gen_treshold_set(lis2mdl_ctx_t *ctx, uint8_t *buff)
{
int32_t ret;
ret = lis2mdl_write_reg(ctx, LIS2MDL_INT_THS_L_REG, buff, 2);
return ret;
}
/**
* @brief User-defined threshold value for xl interrupt event on generator.
* Data format is the same of output data raw: two’s complement with
* 1LSb = 1.5mG.[get]
*
* @param ctx read / write interface definitions.(ptr)
* @param buff that stores data read
* @retval interface status.(MANDATORY: return 0 -> no Error)
*
*/
int32_t lis2mdl_int_gen_treshold_get(lis2mdl_ctx_t *ctx, uint8_t *buff)
{
int32_t ret;
ret = lis2mdl_read_reg(ctx, LIS2MDL_INT_THS_L_REG, buff, 2);
return ret;
}
/**
* @}
*
*/
/**
* @defgroup LIS2MDL_serial_interface
* @brief This section group all the functions concerning serial
* interface management
* @{
*
*/
/**
* @brief Enable/Disable I2C interface.[set]
*
* @param ctx read / write interface definitions.(ptr)
* @param val change the values of i2c_dis in reg CFG_REG_C
* @retval interface status.(MANDATORY: return 0 -> no Error)
*
*/
int32_t lis2mdl_i2c_interface_set(lis2mdl_ctx_t *ctx, lis2mdl_i2c_dis_t val)
{
lis2mdl_cfg_reg_c_t reg;
int32_t ret;
ret = lis2mdl_read_reg(ctx, LIS2MDL_CFG_REG_C, (uint8_t*)®, 1);
if(ret == 0){
reg.i2c_dis = (uint8_t)val;
ret = lis2mdl_write_reg(ctx, LIS2MDL_CFG_REG_C, (uint8_t*)®, 1);
}
return ret;
}
/**
* @brief Enable/Disable I2C interface.[get]
*
* @param ctx read / write interface definitions.(ptr)
* @param val Get the values of i2c_dis in reg CFG_REG_C.(ptr)
* @retval interface status.(MANDATORY: return 0 -> no Error)
*
*/
int32_t lis2mdl_i2c_interface_get(lis2mdl_ctx_t *ctx, lis2mdl_i2c_dis_t *val)
{
lis2mdl_cfg_reg_c_t reg;
int32_t ret;
ret = lis2mdl_read_reg(ctx, LIS2MDL_CFG_REG_C, (uint8_t*)®, 1);
switch (reg.i2c_dis){
case LIS2MDL_I2C_ENABLE:
*val = LIS2MDL_I2C_ENABLE;
break;
case LIS2MDL_I2C_DISABLE:
*val = LIS2MDL_I2C_DISABLE;
break;
default:
*val = LIS2MDL_I2C_ENABLE;
break;
}
return ret;
}
/**
* @}
*
*/
/************************ (C) COPYRIGHT STMicroelectronics *****END OF FILE****/