/* This program 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. This program 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_RangeFinder_TOFSenseF_I2C.h" #if AP_RANGEFINDER_TOFSENSEF_I2C_ENABLED #define TOFSENSEP_I2C_COMMAND_TAKE_RANGE_READING 0x24 #define TOFSENSEP_I2C_COMMAND_SIGNAL_STATUS 0x28 #include #include #include extern const AP_HAL::HAL& hal; AP_RangeFinder_TOFSenseF_I2C::AP_RangeFinder_TOFSenseF_I2C(RangeFinder::RangeFinder_State &_state, AP_RangeFinder_Params &_params, AP_HAL::OwnPtr dev) : AP_RangeFinder_Backend(_state, _params) , _dev(std::move(dev)) { } // detect if a TOFSenseP rangefinder is connected. We'll detect by // trying to take a reading on I2C. If we get a result the sensor is // there. AP_RangeFinder_Backend *AP_RangeFinder_TOFSenseF_I2C::detect(RangeFinder::RangeFinder_State &_state, AP_RangeFinder_Params &_params, AP_HAL::OwnPtr dev) { if (!dev) { return nullptr; } AP_RangeFinder_TOFSenseF_I2C *sensor = NEW_NOTHROW AP_RangeFinder_TOFSenseF_I2C(_state, _params, std::move(dev)); if (!sensor) { return nullptr; } if (!sensor->init()) { delete sensor; return nullptr; } return sensor; } // initialise sensor bool AP_RangeFinder_TOFSenseF_I2C::init(void) { _dev->get_semaphore()->take_blocking(); if (!start_reading()) { _dev->get_semaphore()->give(); return false; } // give time for the sensor to process the request hal.scheduler->delay(100); uint32_t reading_mm; uint16_t status; uint16_t signal_strength; if (!get_reading(reading_mm, signal_strength, status)) { _dev->get_semaphore()->give(); return false; } _dev->get_semaphore()->give(); _dev->register_periodic_callback(100000, FUNCTOR_BIND_MEMBER(&AP_RangeFinder_TOFSenseF_I2C::timer, void)); return true; } // start_reading() - ask sensor to make a range reading bool AP_RangeFinder_TOFSenseF_I2C::start_reading() { uint8_t cmd[] = {TOFSENSEP_I2C_COMMAND_TAKE_RANGE_READING, TOFSENSEP_I2C_COMMAND_SIGNAL_STATUS}; // send command to take reading return _dev->transfer(cmd, sizeof(cmd), nullptr, 0); } // read - return last value measured by sensor bool AP_RangeFinder_TOFSenseF_I2C::get_reading(uint32_t &reading_mm, uint16_t &signal_strength, uint16_t &status) { struct PACKED { uint32_t distance_mm; uint32_t signal_strength_and_status; } packet; // take range reading and read back results const bool ret = _dev->transfer(nullptr, 0, (uint8_t *) &packet, sizeof(packet)); if (ret) { // combine results into distance reading_mm = packet.distance_mm; signal_strength = (uint16_t)(packet.signal_strength_and_status >> 16); status = (uint16_t)(packet.signal_strength_and_status); } // trigger a new reading start_reading(); return ret; } // timer called at 10Hz void AP_RangeFinder_TOFSenseF_I2C::timer(void) { uint32_t dist_mm; uint16_t status; uint16_t signal_strength; if (get_reading(dist_mm, signal_strength, status)) { WITH_SEMAPHORE(_sem); if (status == 1) { // healthy data distance_mm = dist_mm; new_distance = true; state.last_reading_ms = AP_HAL::millis(); } } } // update the state of the sensor void AP_RangeFinder_TOFSenseF_I2C::update(void) { WITH_SEMAPHORE(_sem); if (new_distance) { state.distance_m = distance_mm * 0.001f; new_distance = false; update_status(); } else if (AP_HAL::millis() - state.last_reading_ms > 300) { // if no updates for 0.3 seconds set no-data set_status(RangeFinder::Status::NoData); } } #endif // AP_RANGEFINDER_TOFSENSEF_I2C_ENABLED