/* * 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 3 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 "SoftSigReaderInt.h" #include "hwdef/common/stm32_util.h" #if CONFIG_HAL_BOARD == HAL_BOARD_CHIBIOS using namespace ChibiOS; extern const AP_HAL::HAL& hal; #if HAL_USE_EICU == TRUE #if STM32_EICU_USE_TIM10 || STM32_EICU_USE_TIM11 || STM32_EICU_USE_TIM13 || STM32_EICU_USE_TIM14 #error "Timers with only one channel are not supported" #endif // singleton instance SoftSigReaderInt *SoftSigReaderInt::_singleton; SoftSigReaderInt::SoftSigReaderInt() { _singleton = this; } eicuchannel_t SoftSigReaderInt::get_pair_channel(eicuchannel_t channel) { switch (channel) { case EICU_CHANNEL_1: return EICU_CHANNEL_2; case EICU_CHANNEL_2: return EICU_CHANNEL_1; case EICU_CHANNEL_3: return EICU_CHANNEL_4; case EICU_CHANNEL_4: return EICU_CHANNEL_3; case EICU_CHANNEL_ENUM_END: return EICU_CHANNEL_ENUM_END; } return EICU_CHANNEL_ENUM_END; } void SoftSigReaderInt::init(EICUDriver* icu_drv, eicuchannel_t chan) { last_value = 0; _icu_drv = icu_drv; eicuchannel_t aux_chan = get_pair_channel(chan); icucfg.dier = 0; icucfg.frequency = INPUT_CAPTURE_FREQUENCY; for (int i=0; i< EICU_CHANNEL_ENUM_END; i++) { icucfg.iccfgp[i]=nullptr; } //configure main channel icucfg.iccfgp[chan] = &channel_config; #ifdef HAL_RCIN_IS_INVERTED channel_config.alvl = EICU_INPUT_ACTIVE_HIGH; #else channel_config.alvl = EICU_INPUT_ACTIVE_LOW; #endif channel_config.capture_cb = nullptr; //configure aux channel icucfg.iccfgp[aux_chan] = &aux_channel_config; #ifdef HAL_RCIN_IS_INVERTED aux_channel_config.alvl = EICU_INPUT_ACTIVE_LOW; #else aux_channel_config.alvl = EICU_INPUT_ACTIVE_HIGH; #endif aux_channel_config.capture_cb = _irq_handler; eicuStart(_icu_drv, &icucfg); //sets input filtering to 4 timer clock stm32_timer_set_input_filter(_icu_drv->tim, chan, 2); //sets input for aux_chan stm32_timer_set_channel_input(_icu_drv->tim, aux_chan, 2); eicuEnable(_icu_drv); } void SoftSigReaderInt::_irq_handler(EICUDriver *eicup, eicuchannel_t aux_channel) { eicuchannel_t channel = get_pair_channel(aux_channel); pulse_t pulse; pulse.w0 = eicup->tim->CCR[channel]; pulse.w1 = eicup->tim->CCR[aux_channel]; _singleton->sigbuf.push(pulse); //check for missed interrupt uint32_t mask = (STM32_TIM_SR_CC1OF << channel) | (STM32_TIM_SR_CC1OF << aux_channel); if ((eicup->tim->SR & mask) != 0) { //we have missed some pulses //try to reset RCProtocol parser by returning invalid value (i.e. 0 width pulse) pulse.w0 = 0; pulse.w1 = 0; _singleton->sigbuf.push(pulse); //reset overcapture mask eicup->tim->SR &= ~mask; } } bool SoftSigReaderInt::read(uint32_t &widths0, uint32_t &widths1) { if (sigbuf.available() >= 2) { pulse_t pulse; if (sigbuf.pop(pulse)) { widths0 = uint16_t(pulse.w0 - last_value); widths1 = uint16_t(pulse.w1 - pulse.w0); last_value = pulse.w1; return true; } } return false; } #endif // HAL_USE_EICU #endif //CONFIG_HAL_BOARD == HAL_BOARD_CHIBIOS