/* * 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 . */ /* soft serial receive implementation, based on pulse width inputs */ #include "SoftSerial.h" #include #include SoftSerial::SoftSerial(uint32_t _baudrate, serial_config _config) : baudrate(_baudrate), half_bit((1000000U / baudrate)/2), config(_config) { switch (config) { case SERIAL_CONFIG_8N1: case SERIAL_CONFIG_8N1I: data_width = 8; byte_width = 10; stop_mask = 0x200; break; case SERIAL_CONFIG_8E2I: data_width = 9; byte_width = 12; stop_mask = 0xC00; break; } } /* process a pulse made up of a width of values at high voltage followed by a width at low voltage */ bool SoftSerial::process_pulse(uint32_t width_high, uint32_t width_low, uint8_t &byte) { // convert to bit widths, allowing for a half bit error uint16_t bits_high = ((width_high+half_bit)*baudrate) / 1000000; uint16_t bits_low = ((width_low+half_bit)*baudrate) / 1000000; byte_timestamp_us = timestamp_us; timestamp_us += (width_high + width_low); if (bits_high == 0 || bits_low == 0) { // invalid data goto reset; } if (bits_high >= byte_width) { // if we have a start bit and a stop bit then we can have at // most 9 bits in high state for data. The rest must be idle // bits bits_high = byte_width-1; } if (state.bit_ofs == 0) { // we are in idle state, waiting for first low bit. swallow // the high bits bits_high = 0; } state.byte |= ((1U<= byte_width) { // check start bit if ((state.byte & 1) != 0) { goto reset; } // check stop bits if ((state.byte & stop_mask) != stop_mask) { goto reset; } if (config == SERIAL_CONFIG_8E2I) { // check parity if (parity((state.byte>>1)&0xFF) != (state.byte&0x200)>>9) { goto reset; } } byte = ((state.byte>>1) & 0xFF); state.byte >>= byte_width; state.bit_ofs -= byte_width; if (state.bit_ofs > byte_width) { state.byte = 0; state.bit_ofs = bits_low; } // swallow idle bits while (state.bit_ofs > 0 && (state.byte & 1)) { state.bit_ofs--; state.byte >>= 1; } return true; } return false; reset: state.byte = 0; state.bit_ofs = 0; return false; }