/* * 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 "AP_RCProtocol_config.h" #if AP_RCPROTOCOL_IBUS_ENABLED #include "AP_RCProtocol_IBUS.h" // constructor AP_RCProtocol_IBUS::AP_RCProtocol_IBUS(AP_RCProtocol &_frontend) : AP_RCProtocol_Backend(_frontend) {} // decode a full IBUS frame bool AP_RCProtocol_IBUS::ibus_decode(const uint8_t frame[IBUS_FRAME_SIZE], uint16_t *values, bool *ibus_failsafe) { uint32_t chksum = 96; /* check frame boundary markers to avoid out-of-sync cases */ if ((frame[0] != 0x20) || (frame[1] != 0x40)) { return false; } /* use the decoder matrix to extract channel data */ for (uint8_t channel = 0, pick=2; channel < IBUS_INPUT_CHANNELS; channel++, pick+=2) { values[channel]=frame[pick]|(frame[pick+1] & 0x0F)<<8; chksum+=frame[pick]+frame[pick+1]; } chksum += frame[IBUS_FRAME_SIZE-2]|frame[IBUS_FRAME_SIZE-1]<<8; if (chksum!=0xFFFF) { return false; } if ((frame[3]&0xF0) || (frame[9]&0xF0)) { *ibus_failsafe = true; } else { *ibus_failsafe = false; } return true; } /* process an IBUS input pulse of the given width */ void AP_RCProtocol_IBUS::process_pulse(uint32_t w0, uint32_t w1) { uint8_t b; if (ss.process_pulse(w0, w1, b)) { _process_byte(ss.get_byte_timestamp_us(), b); } } // support byte input void AP_RCProtocol_IBUS::_process_byte(uint32_t timestamp_us, uint8_t b) { const bool have_frame_gap = (timestamp_us - byte_input.last_byte_us >= 2000U); byte_input.last_byte_us = timestamp_us; if (have_frame_gap) { // if we have a frame gap then this must be the start of a new // frame byte_input.ofs = 0; } if (b != 0x20 && byte_input.ofs == 0) { // definately not IBUS, missing header byte return; } if (byte_input.ofs == 0 && !have_frame_gap) { // must have a frame gap before the start of a new IBUS frame return; } byte_input.buf[byte_input.ofs++] = b; if (byte_input.ofs == sizeof(byte_input.buf)) { uint16_t values[IBUS_INPUT_CHANNELS]; bool ibus_failsafe = false; log_data(AP_RCProtocol::IBUS, timestamp_us, byte_input.buf, byte_input.ofs); if (ibus_decode(byte_input.buf, values, &ibus_failsafe)) { add_input(IBUS_INPUT_CHANNELS, values, ibus_failsafe); } byte_input.ofs = 0; } } // support byte input void AP_RCProtocol_IBUS::process_byte(uint8_t b, uint32_t baudrate) { if (baudrate != 115200) { return; } _process_byte(AP_HAL::micros(), b); } #endif // AP_RCPROTOCOL_IBUS_ENABLED