#ifndef __FPROTO_Acurite_986_H__ #define __FPROTO_Acurite_986_H__ #include "weatherbase.hpp" typedef enum { Acurite_986DecoderStepReset = 0, Acurite_986DecoderStepSync1, Acurite_986DecoderStepSync2, Acurite_986DecoderStepSync3, Acurite_986DecoderStepSaveDuration, Acurite_986DecoderStepCheckDuration, } Acurite_986DecoderStep; class FProtoWeatherAcurite986 : public FProtoWeatherBase { public: FProtoWeatherAcurite986() { sensorType = FPW_Acurite986; } void feed(bool level, uint32_t duration) { switch (parser_step) { case Acurite_986DecoderStepReset: if ((!level) && (DURATION_DIFF(duration, te_long) < te_delta * 15)) { // Found 1st sync bit parser_step = Acurite_986DecoderStepSync1; decode_data = 0; decode_count_bit = 0; } break; case Acurite_986DecoderStepSync1: if (DURATION_DIFF(duration, te_long) < te_delta * 15) { if (!level) { parser_step = Acurite_986DecoderStepSync2; } } else { parser_step = Acurite_986DecoderStepReset; } break; case Acurite_986DecoderStepSync2: if (DURATION_DIFF(duration, te_long) < te_delta * 15) { if (!level) { parser_step = Acurite_986DecoderStepSync3; } } else { parser_step = Acurite_986DecoderStepReset; } break; case Acurite_986DecoderStepSync3: if (DURATION_DIFF(duration, te_long) < te_delta * 15) { if (!level) { parser_step = Acurite_986DecoderStepSaveDuration; } } else { parser_step = Acurite_986DecoderStepReset; } break; case Acurite_986DecoderStepSaveDuration: if (level) { te_last = duration; parser_step = Acurite_986DecoderStepCheckDuration; } else { parser_step = Acurite_986DecoderStepReset; } break; case Acurite_986DecoderStepCheckDuration: if (!level) { if (DURATION_DIFF(duration, te_short) < te_delta * 10) { if (duration < te_short) { subghz_protocol_blocks_add_bit(0); parser_step = Acurite_986DecoderStepSaveDuration; } else { subghz_protocol_blocks_add_bit(1); parser_step = Acurite_986DecoderStepSaveDuration; } } else { // Found syncPostfix parser_step = Acurite_986DecoderStepReset; if ((decode_count_bit == min_count_bit_for_found) && ws_protocol_acurite_986_check()) { data = decode_data; data_count_bit = decode_count_bit; ws_protocol_acurite_986_remote_controller(); if (callback) callback(this); } decode_data = 0; decode_count_bit = 0; } } else { parser_step = Acurite_986DecoderStepReset; } break; } } protected: uint32_t te_short = 800; uint32_t te_long = 1750; uint32_t te_delta = 50; uint32_t min_count_bit_for_found = 40; void ws_protocol_acurite_986_remote_controller() { int temp; id = subghz_protocol_blocks_reverse_key(data >> 24, 8); id = (id << 8) | subghz_protocol_blocks_reverse_key(data >> 16, 8); battery_low = (data >> 14) & 1; channel = ((data >> 15) & 1) + 1; temp = subghz_protocol_blocks_reverse_key(data >> 32, 8); if (temp & 0x80) { temp = -(temp & 0x7F); } temp = locale_fahrenheit_to_celsius((float)temp); btn = WS_NO_BTN; humidity = WS_NO_HUMIDITY; } bool ws_protocol_acurite_986_check() { if (!decode_data) return false; uint8_t msg[] = { (uint8_t)(decode_data >> 32), (uint8_t)(decode_data >> 24), (uint8_t)(decode_data >> 16), (uint8_t)(decode_data >> 8)}; uint8_t crc = subghz_protocol_blocks_crc8(msg, 4, 0x07, 0x00); return (crc == (decode_data & 0xFF)); } }; #endif