#include #include #include "irda_i.h" static bool irda_check_preamble(IrdaCommonDecoder* decoder) { furi_assert(decoder); bool result = false; bool start_level = (decoder->level + decoder->timings_cnt + 1) % 2; // align to start at Mark timing if (start_level) { if (decoder->timings_cnt > 0) { --decoder->timings_cnt; shift_left_array(decoder->timings, decoder->timings_cnt, 1); } } while ((!result) && (decoder->timings_cnt >= 2)) { float preamble_tolerance = decoder->protocol->timings.preamble_tolerance; uint16_t preamble_mark = decoder->protocol->timings.preamble_mark; uint16_t preamble_space = decoder->protocol->timings.preamble_space; if ((MATCH_PREAMBLE_TIMING(decoder->timings[0], preamble_mark, preamble_tolerance)) && (MATCH_PREAMBLE_TIMING(decoder->timings[1], preamble_space, preamble_tolerance))) { result = true; } decoder->timings_cnt -= 2; shift_left_array(decoder->timings, decoder->timings_cnt, 2); } return result; } // Pulse Distance-Width Modulation DecodeStatus irda_common_decode_pdwm(IrdaCommonDecoder* decoder) { furi_assert(decoder); uint32_t* timings = decoder->timings; uint16_t index = 0; uint8_t shift = 0; DecodeStatus status = DecodeStatusError; uint32_t bit_tolerance = decoder->protocol->timings.bit_tolerance; uint16_t bit1_mark = decoder->protocol->timings.bit1_mark; uint16_t bit1_space = decoder->protocol->timings.bit1_space; uint16_t bit0_mark = decoder->protocol->timings.bit0_mark; uint16_t bit0_space = decoder->protocol->timings.bit0_space; while (1) { // Stop bit if ((decoder->databit_cnt == decoder->protocol->databit_len) && (decoder->timings_cnt == 1)) { if (MATCH_BIT_TIMING(timings[0], bit1_mark, bit_tolerance)) { decoder->timings_cnt = 0; status = DecodeStatusReady; } else { status = DecodeStatusError; } break; } if (decoder->timings_cnt >= 2) { index = decoder->databit_cnt / 8; shift = decoder->databit_cnt % 8; // LSB first if (!shift) decoder->data[index] = 0; if (MATCH_BIT_TIMING(timings[0], bit1_mark, bit_tolerance) && MATCH_BIT_TIMING(timings[1], bit1_space, bit_tolerance)) { decoder->data[index] |= (0x1 << shift); // add 1 } else if (MATCH_BIT_TIMING(timings[0], bit0_mark, bit_tolerance) && MATCH_BIT_TIMING(timings[1], bit0_space, bit_tolerance)) { (void) decoder->data[index]; // add 0 } else { status = DecodeStatusError; break; } ++decoder->databit_cnt; decoder->timings_cnt -= 2; shift_left_array(decoder->timings, decoder->timings_cnt, 2); } else { status = DecodeStatusOk; break; } } return status; } IrdaMessage* irda_common_decode(IrdaCommonDecoder* decoder, bool level, uint32_t duration) { furi_assert(decoder); IrdaMessage* message = 0; DecodeStatus status = DecodeStatusError; if (decoder->level == level) { furi_assert(0); decoder->timings_cnt = 0; } decoder->level = level; // start with high level (Space timing) decoder->timings[decoder->timings_cnt] = duration; decoder->timings_cnt++; furi_check(decoder->timings_cnt <= sizeof(decoder->timings)); while(1) { switch (decoder->state) { case IrdaCommonStateWaitPreamble: if (irda_check_preamble(decoder)) { decoder->state = IrdaCommonStateDecode; decoder->databit_cnt = 0; } break; case IrdaCommonStateDecode: status = decoder->protocol->decode(decoder); if (status == DecodeStatusReady) { if (decoder->protocol->interpret(decoder)) { message = &decoder->message; decoder->state = IrdaCommonStateProcessRepeat; } else { decoder->state = IrdaCommonStateWaitPreamble; } } else if (status == DecodeStatusError) { decoder->state = IrdaCommonStateWaitPreamble; continue; } break; case IrdaCommonStateProcessRepeat: if (!decoder->protocol->decode_repeat) { decoder->state = IrdaCommonStateWaitPreamble; continue; } status = decoder->protocol->decode_repeat(decoder); if (status == DecodeStatusError) { decoder->state = IrdaCommonStateWaitPreamble; continue; } else if (status == DecodeStatusReady) { decoder->message.repeat = true; message = &decoder->message; } break; } break; } return message; } void* irda_common_decoder_alloc(const IrdaCommonProtocolSpec* protocol) { furi_assert(protocol); uint32_t alloc_size = sizeof(IrdaCommonDecoder) + protocol->databit_len / 8 + !!(protocol->databit_len % 8); IrdaCommonDecoder* decoder = furi_alloc(alloc_size); memset(decoder, 0, alloc_size); decoder->protocol = protocol; return decoder; } void irda_common_decoder_free(void* decoder) { furi_assert(decoder); free(decoder); }