/* ChibiOS - Copyright (C) 2016 Rocco Marco Guglielmi This file is part of ChibiOS. ChibiOS is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 3 of the License, or (at your option) any later version. ChibiOS is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see . */ /** * @file l3gd20.c * @brief L3GD20 MEMS interface module code. * * @addtogroup l3gd20 * @{ */ #include "hal.h" #include "l3gd20.h" /*===========================================================================*/ /* Driver local definitions. */ /*===========================================================================*/ #define PI 3.14159f /*===========================================================================*/ /* Driver exported variables. */ /*===========================================================================*/ /*===========================================================================*/ /* Driver local variables and types. */ /*===========================================================================*/ /*===========================================================================*/ /* Driver local functions. */ /*===========================================================================*/ #if (L3GD20_USE_SPI) || defined(__DOXYGEN__) /** * @brief Reads a generic register value using SPI. * @pre The SPI interface must be initialized and the driver started. * * @param[in] spip pointer to the SPI interface * @param[in] reg starting register address * @param[in] n number of adjacent registers to write * @param[in] b pointer to a buffer. */ static void l3gd20SPIReadRegister(SPIDriver *spip, uint8_t reg, size_t n, uint8_t* b) { uint8_t cmd; (n == 1) ? (cmd = reg | L3GD20_RW) : (cmd = reg | L3GD20_RW | L3GD20_MS); spiSelect(spip); spiSend(spip, 1, &cmd); spiReceive(spip, n, b); spiUnselect(spip); } /** * @brief Writes a value into a generic register using SPI. * @pre The SPI interface must be initialized and the driver started. * * @param[in] spip pointer to the SPI interface * @param[in] reg starting register address * @param[in] n number of adjacent registers to write * @param[in] value pointer to a buffer of values. */ static void l3gd20SPIWriteRegister(SPIDriver *spip, uint8_t reg, size_t n, uint8_t* b) { uint8_t cmd; (n == 1) ? (cmd = reg) : (cmd = reg | L3GD20_MS); spiSelect(spip); spiSend(spip, 1, &cmd); spiSend(spip, n, b); spiUnselect(spip); } #endif /* L3GD20_USE_SPI */ /* * Interface implementation. */ static size_t get_axes_number(void *ip) { osalDbgCheck(ip != NULL); return L3GD20_NUMBER_OF_AXES; } static msg_t read_raw(void *ip, int32_t axes[L3GD20_NUMBER_OF_AXES]) { uint8_t buff [L3GD20_NUMBER_OF_AXES * 2], i; int16_t tmp; osalDbgCheck((ip != NULL) && (axes != NULL)); osalDbgAssert((((L3GD20Driver *)ip)->state == L3GD20_READY), "read_raw(), invalid state"); #if L3GD20_USE_SPI osalDbgAssert((((L3GD20Driver *)ip)->config->spip->state == SPI_READY), "read_raw(), channel not ready"); #if L3GD20_SHARED_SPI spiAcquireBus(((L3GD20Driver *)ip)->config->spip); spiStart(((L3GD20Driver *)ip)->config->spip, ((L3GD20Driver *)ip)->config->spicfg); #endif /* L3GD20_SHARED_SPI */ l3gd20SPIReadRegister(((L3GD20Driver *)ip)->config->spip, L3GD20_AD_OUT_X_L, L3GD20_NUMBER_OF_AXES * 2, buff); for(i = 0; i < L3GD20_NUMBER_OF_AXES; i++) { tmp = buff[2*i] + (buff[2*i+1] << 8); axes[i] = (int32_t)tmp; } #if L3GD20_SHARED_SPI spiReleaseBus(((L3GD20Driver *)ip)->config->spip); #endif /* L3GD20_SHARED_SPI */ #endif /* L3GD20_USE_SPI */ return MSG_OK; } static msg_t read_cooked(void *ip, float axes[]) { uint32_t i; int32_t raw[L3GD20_NUMBER_OF_AXES]; msg_t msg; osalDbgCheck((ip != NULL) && (axes != NULL)); osalDbgAssert((((L3GD20Driver *)ip)->state == L3GD20_READY), "read_cooked(), invalid state"); msg = read_raw(ip, raw); for(i = 0; i < L3GD20_NUMBER_OF_AXES ; i++){ axes[i] = (raw[i] * ((L3GD20Driver *)ip)->sensitivity[i]); axes[i] -= ((L3GD20Driver *)ip)->bias[i]; } return msg; } static msg_t sample_bias(void *ip) { uint32_t i, j; int32_t raw[L3GD20_NUMBER_OF_AXES]; int32_t buff[L3GD20_NUMBER_OF_AXES] = {0, 0, 0}; osalDbgCheck(ip != NULL); osalDbgAssert((((L3GD20Driver *)ip)->state == L3GD20_READY), "sample_bias(), invalid state"); for(i = 0; i < L3GD20_BIAS_ACQ_TIMES; i++){ read_raw(ip, raw); for(j = 0; j < L3GD20_NUMBER_OF_AXES; j++){ buff[j] += raw[j]; } osalThreadSleepMicroseconds(L3GD20_BIAS_SETTLING_uS); } for(i = 0; i < L3GD20_NUMBER_OF_AXES; i++){ ((L3GD20Driver *)ip)->bias[i] = (buff[i] / L3GD20_BIAS_ACQ_TIMES); ((L3GD20Driver *)ip)->bias[i] *= ((L3GD20Driver *)ip)->sensitivity[i]; } return MSG_OK; } static msg_t set_bias(void *ip, int32_t *bp) { uint32_t i; osalDbgCheck((ip != NULL) && (bp !=NULL)); osalDbgAssert((((L3GD20Driver *)ip)->state == L3GD20_READY) || (((L3GD20Driver *)ip)->state == L3GD20_STOP), "set_bias(), invalid state"); for(i = 0; i < L3GD20_NUMBER_OF_AXES; i++) { ((L3GD20Driver *)ip)->bias[i] = bp[i]; } return MSG_OK; } static msg_t reset_bias(void *ip) { uint32_t i; osalDbgCheck(ip != NULL); osalDbgAssert((((L3GD20Driver *)ip)->state == L3GD20_READY) || (((L3GD20Driver *)ip)->state == L3GD20_STOP), "reset_bias(), invalid state"); for(i = 0; i < L3GD20_NUMBER_OF_AXES; i++) ((L3GD20Driver *)ip)->bias[i] = 0; return MSG_OK; } static msg_t set_sensivity(void *ip, float *sp) { uint32_t i; osalDbgCheck((ip != NULL) && (sp !=NULL)); osalDbgAssert((((L3GD20Driver *)ip)->state == L3GD20_READY), "set_sensivity(), invalid state"); for(i = 0; i < L3GD20_NUMBER_OF_AXES; i++) { ((L3GD20Driver *)ip)->sensitivity[i] = sp[i]; } return MSG_OK; } static msg_t reset_sensivity(void *ip) { uint32_t i; osalDbgCheck(ip != NULL); osalDbgAssert((((L3GD20Driver *)ip)->state == L3GD20_READY), "reset_sensivity(), invalid state"); if(((L3GD20Driver *)ip)->config->fullscale == L3GD20_FS_250DPS) for(i = 0; i < L3GD20_NUMBER_OF_AXES; i++) ((L3GD20Driver *)ip)->sensitivity[i] = L3GD20_SENS_250DPS; else if(((L3GD20Driver *)ip)->config->fullscale == L3GD20_FS_500DPS) for(i = 0; i < L3GD20_NUMBER_OF_AXES; i++) ((L3GD20Driver *)ip)->sensitivity[i] = L3GD20_SENS_500DPS; else if(((L3GD20Driver *)ip)->config->fullscale == L3GD20_FS_2000DPS) for(i = 0; i < L3GD20_NUMBER_OF_AXES; i++) ((L3GD20Driver *)ip)->sensitivity[i] = L3GD20_SENS_2000DPS; else { osalDbgAssert(FALSE, "reset_sensivity(), full scale issue"); return MSG_RESET; } return MSG_OK; } static msg_t set_full_scale(void *ip, l3gd20_fs_t fs) { float newfs, scale; unsigned i; if(fs == L3GD20_FS_250DPS) { newfs = L3GD20_250DPS; } else if(fs == L3GD20_FS_500DPS) { newfs = L3GD20_500DPS; } else if(fs == L3GD20_FS_2000DPS) { newfs = L3GD20_2000DPS; } else { return MSG_RESET; } if(newfs != ((L3GD20Driver *)ip)->fullscale) { scale = newfs / ((L3GD20Driver *)ip)->fullscale; ((L3GD20Driver *)ip)->fullscale = newfs; /* Scaling sensitivity and bias. Re-calibration is suggested anyway. */ for(i = 0; i < L3GD20_NUMBER_OF_AXES; i++) { ((L3GD20Driver *)ip)->sensitivity[i] *= scale; ((L3GD20Driver *)ip)->bias[i] *= scale; } } return MSG_OK; } static const struct BaseSensorVMT vmt_basesensor = { get_axes_number, read_raw, read_cooked }; static const struct BaseGyroscopeVMT vmt_basegyroscope = { get_axes_number, read_raw, read_cooked, sample_bias, set_bias, reset_bias, set_sensivity, reset_sensivity }; static const struct L3GD20VMT vmt_l3gd20 = { get_axes_number, read_raw, read_cooked, sample_bias, set_bias, reset_bias, set_sensivity, reset_sensivity, set_full_scale }; /*===========================================================================*/ /* Driver exported functions. */ /*===========================================================================*/ /** * @brief Initializes an instance. * * @param[out] devp pointer to the @p L3GD20Driver object * * @init */ void l3gd20ObjectInit(L3GD20Driver *devp) { uint32_t i; devp->vmt_basesensor = &vmt_basesensor; devp->vmt_basegyroscope = &vmt_basegyroscope; devp->vmt_l3gd20 = &vmt_l3gd20; devp->config = NULL; for(i = 0; i < L3GD20_NUMBER_OF_AXES; i++) devp->bias[i] = 0; devp->state = L3GD20_STOP; } /** * @brief Configures and activates L3GD20 Complex Driver peripheral. * * @param[in] devp pointer to the @p L3GD20Driver object * @param[in] config pointer to the @p L3GD20Config object * * @api */ void l3gd20Start(L3GD20Driver *devp, const L3GD20Config *config) { uint32_t i; uint8_t cr[5] = {0, 0, 0, 0, 0}; osalDbgCheck((devp != NULL) && (config != NULL)); osalDbgAssert((devp->state == L3GD20_STOP) || (devp->state == L3GD20_READY), "l3gd20Start(), invalid state"); devp->config = config; #if L3GD20_USE_SPI #if L3GD20_SHARED_SPI spiAcquireBus((devp)->config->spip); #endif /* L3GD20_SHARED_SPI */ spiStart((devp)->config->spip, (devp)->config->spicfg); /* Control register 1 configuration block.*/ { cr[0] = L3GD20_CTRL_REG1_XEN | L3GD20_CTRL_REG1_YEN | L3GD20_CTRL_REG1_ZEN | L3GD20_CTRL_REG1_PD | devp->config->outputdatarate; #if L3GD20_USE_ADVANCED || defined(__DOXYGEN__) cr[0] |= devp->config->bandwidth; #endif } /* Control register 2 configuration block.*/ { #if L3GD20_USE_ADVANCED || defined(__DOXYGEN__) if(devp->config->hpmode != L3GD20_HPM_BYPASSED) cr[1] = devp->config->hpmode | devp->config->hpconfiguration; #endif } /* Control register 4 configuration block.*/ { cr[3] = devp->config->fullscale; #if L3GD20_USE_ADVANCED || defined(__DOXYGEN__) cr[3] |= devp->config->blockdataupdate | devp->config->endianness; #endif } /* Control register 5 configuration block.*/ { #if L3GD20_USE_ADVANCED || defined(__DOXYGEN__) if((devp->config->hpmode != L3GD20_HPM_BYPASSED)) { cr[4] = L3GD20_CTRL_REG5_HPEN; if(devp->config->lp2mode != L3GD20_LP2M_BYPASSED) { cr[4] |= L3GD20_CTRL_REG5_INT1_SEL1 | L3GD20_CTRL_REG5_OUT_SEL1; } else { cr[4] |= L3GD20_CTRL_REG5_INT1_SEL0 | L3GD20_CTRL_REG5_OUT_SEL0; } } #endif } l3gd20SPIWriteRegister(devp->config->spip, L3GD20_AD_CTRL_REG1, 5, cr); #if L3GD20_SHARED_SPI spiReleaseBus((devp)->config->spip); #endif /* L3GD20_SHARED_SPI */ #endif /* L3GD20_USE_SPI */ /* Storing sensitivity information according to full scale.*/ if(devp->config->fullscale == L3GD20_FS_250DPS) { devp->fullscale = L3GD20_250DPS; for(i = 0; i < L3GD20_NUMBER_OF_AXES; i++) devp->sensitivity[i] = L3GD20_SENS_250DPS; } else if(devp->config->fullscale == L3GD20_FS_500DPS) { devp->fullscale = L3GD20_500DPS; for(i = 0; i < L3GD20_NUMBER_OF_AXES; i++) devp->sensitivity[i] = L3GD20_SENS_500DPS; } else if(devp->config->fullscale == L3GD20_FS_2000DPS) { devp->fullscale = L3GD20_2000DPS; for(i = 0; i < L3GD20_NUMBER_OF_AXES; i++) devp->sensitivity[i] = L3GD20_SENS_2000DPS; } else osalDbgAssert(FALSE, "l3gd20Start(), full scale issue"); /* This is the Gyroscope transient recovery time.*/ osalThreadSleepMilliseconds(10); devp->state = L3GD20_READY; } /** * @brief Deactivates the L3GD20 Complex Driver peripheral. * * @param[in] devp pointer to the @p L3GD20Driver object * * @api */ void l3gd20Stop(L3GD20Driver *devp) { uint8_t cr1; osalDbgCheck(devp != NULL); osalDbgAssert((devp->state == L3GD20_STOP) || (devp->state == L3GD20_READY), "l3gd20Stop(), invalid state"); #if (L3GD20_USE_SPI) if (devp->state == L3GD20_STOP) { #if L3GD20_SHARED_SPI spiAcquireBus((devp)->config->spip); spiStart((devp)->config->spip, (devp)->config->spicfg); #endif /* L3GD20_SHARED_SPI */ /* Disabling all axes and enabling power down mode.*/ cr1 = 0; l3gd20SPIWriteRegister(devp->config->spip, L3GD20_AD_CTRL_REG1, 1, &cr1); spiStop((devp)->config->spip); #if L3GD20_SHARED_SPI spiReleaseBus((devp)->config->spip); #endif /* L3GD20_SHARED_SPI */ } #endif /* L3GD20_USE_SPI */ devp->state = L3GD20_STOP; } /** @} */