/* * Copyright (C) 2018 Lucas De Marchi. All rights reserved. * * This file 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 2 of the License, or * (at your option) any later version. * * This file 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 . */ #include "AP_Compass_IST8308.h" #include #include #include #include #include #define WAI_REG 0x0 #define DEVICE_ID 0x08 #define STAT1_REG 0x10 #define STAT1_VAL_DRDY 0x1 #define STAT1_VAL_DOR 0x2 #define DATAX_L_REG 0x11 #define DATAX_H_REG 0x12 #define DATAY_L_REG 0x13 #define DATAY_H_REG 0x14 #define DATAZ_L_REG 0x15 #define DATAZ_H_REG 0x16 #define CNTL1_REG 0x30 #define CNTL2_REG 0x31 #define CNTL2_VAL_STANDBY_MODE 0x0 #define CNTL2_VAL_SINGLE_MODE 0x1 #define CNTL2_VAL_CONT_ODR10_MODE 0x2 #define CNTL2_VAL_CONT_ODR20_MODE 0x4 #define CNTL2_VAL_CONT_ODR50_MODE 0x6 #define CNTL2_VAL_CONT_ODR100_MODE 0x8 #define CNTL2_VAL_CONT_ODR200_MODE 0xA #define CNTL2_VAL_CONT_ODR8_MODE 0xB #define CNTL2_VAL_CONT_ODR1_MODE 0xC #define CNTL2_VAL_CONT_ODR0P5_MODE 0xD #define CNTL2_VAL_SINGLE_TEST_MODE 0x10 #define CNTL3_REG 0x32 #define CNTL3_VAL_SRST 1 #define CNTL3_VAL_DRDY_POLARITY_HIGH (1 << 2) #define CNTL3_VAL_DRDY_EN (1 << 3) #define CNTL4_REG 0x34 #define CNTL4_VAL_DYNAMIC_RANGE_500 0 #define CNTL4_VAL_DYNAMIC_RANGE_200 0x1 #define OSRCNTL_REG 0x41 #define OSRCNTL_VAL_XZ_1 (0) #define OSRCNTL_VAL_XZ_2 (1) #define OSRCNTL_VAL_XZ_4 (2) #define OSRCNTL_VAL_XZ_8 (3) #define OSRCNTL_VAL_XZ_16 (4) #define OSRCNTL_VAL_XZ_32 (4) #define OSRCNTL_VAL_Y_1 (0 << 3) #define OSRCNTL_VAL_Y_2 (1 << 3) #define OSRCNTL_VAL_Y_4 (2 << 3) #define OSRCNTL_VAL_Y_8 (3 << 3) #define OSRCNTL_VAL_Y_16 (4 << 3) #define OSRCNTL_VAL_Y_32 (5 << 3) #define SAMPLING_PERIOD_USEC (10 * AP_USEC_PER_MSEC) extern const AP_HAL::HAL &hal; AP_Compass_Backend *AP_Compass_IST8308::probe(AP_HAL::OwnPtr dev, bool force_external, enum Rotation rotation) { if (!dev) { return nullptr; } AP_Compass_IST8308 *sensor = new AP_Compass_IST8308(std::move(dev), force_external, rotation); if (!sensor || !sensor->init()) { delete sensor; return nullptr; } return sensor; } AP_Compass_IST8308::AP_Compass_IST8308(AP_HAL::OwnPtr dev, bool force_external, enum Rotation rotation) : _dev(std::move(dev)) , _rotation(rotation) , _force_external(force_external) { } bool AP_Compass_IST8308::init() { uint8_t reset_count = 0; if (!_dev->get_semaphore()->take(HAL_SEMAPHORE_BLOCK_FOREVER)) { return false; } // high retries for init _dev->set_retries(10); uint8_t whoami; if (!_dev->read_registers(WAI_REG, &whoami, 1) || whoami != DEVICE_ID) { // not an IST8308 goto fail; } for (; reset_count < 5; reset_count++) { if (!_dev->write_register(CNTL3_REG, CNTL3_VAL_SRST)) { hal.scheduler->delay(10); continue; } hal.scheduler->delay(20); uint8_t cntl3 = 0xFF; if (_dev->read_registers(CNTL3_REG, &cntl3, 1) && (cntl3 & 0x01) == 0) { break; } } if (reset_count == 5) { printf("IST8308: failed to reset device\n"); goto fail; } // DRDY enabled // Dynamic Range=±500 uT, Sensitivity=6.6 LSB/uT // OSR 16 (max 100Hz) // Start continuous mode at 100Hz if (!_dev->write_register(CNTL3_REG, CNTL3_VAL_DRDY_EN) || !_dev->write_register(CNTL4_REG, CNTL4_VAL_DYNAMIC_RANGE_500) || !_dev->write_register(OSRCNTL_REG, OSRCNTL_VAL_Y_16 | OSRCNTL_VAL_XZ_16) || !_dev->write_register(CNTL2_REG, CNTL2_VAL_CONT_ODR100_MODE)) { printf("IST8308: found device but could not set it up\n"); goto fail; } // lower retries for run _dev->set_retries(3); _dev->get_semaphore()->give(); _instance = register_compass(); printf("%s found on bus %u id %u address 0x%02x\n", name, _dev->bus_num(), _dev->get_bus_id(), _dev->get_bus_address()); set_rotation(_instance, _rotation); _dev->set_device_type(DEVTYPE_IST8308); set_dev_id(_instance, _dev->get_bus_id()); if (_force_external) { set_external(_instance, true); } _dev->register_periodic_callback(SAMPLING_PERIOD_USEC, FUNCTOR_BIND_MEMBER(&AP_Compass_IST8308::timer, void)); _perf_xfer_err = hal.util->perf_alloc(AP_HAL::Util::PC_COUNT, "IST8308_xfer_err"); return true; fail: _dev->get_semaphore()->give(); return false; } void AP_Compass_IST8308::timer() { struct PACKED { le16_t rx; le16_t ry; le16_t rz; } buffer; uint8_t stat; if (!_dev->read_registers(STAT1_REG, &stat, 1) || !(stat & STAT1_VAL_DRDY)) { hal.util->perf_count(_perf_xfer_err); return; } if (stat & STAT1_VAL_DOR) { printf("IST8308: data overrun\n"); } if (!_dev->read_registers(DATAX_L_REG, (uint8_t *) &buffer, sizeof(buffer))) { hal.util->perf_count(_perf_xfer_err); return; } auto x = static_cast(le16toh(buffer.rx)); auto y = static_cast(le16toh(buffer.ry)); auto z = static_cast(le16toh(buffer.rz)); // flip Z to conform to right-hand rule convention z = -z; /* Resolution: 0.1515 µT/LSB - already convert to milligauss */ Vector3f field = Vector3f{x * 1.515f, y * 1.515f, z * 1.515f}; accumulate_sample(field, _instance); } void AP_Compass_IST8308::read() { drain_accumulated_samples(_instance); }