/* Base class for all weather protocols. This and most of the weather protocols uses code from Flipper XTreme codebase ( https://github.com/Flipper-XFW/Xtreme-Firmware/tree/dev/lib/subghz ). Thanks for their work! For comments in a protocol implementation check w-nexus-th.hpp */ #ifndef __FPROTO_SBASE_H__ #define __FPROTO_SBASE_H__ #include "fprotogeneral.hpp" #include "subghztypes.hpp" #include // default values to indicate 'no value' class FProtoSubGhzDBase; typedef void (*SubGhzDProtocolDecoderBaseRxCallback)(FProtoSubGhzDBase* instance); class FProtoSubGhzDBase { public: FProtoSubGhzDBase() {} virtual ~FProtoSubGhzDBase() {} virtual void feed(bool level, uint32_t duration) = 0; // need to be implemented on each protocol handler. void setCallback(SubGhzDProtocolDecoderBaseRxCallback cb) { callback = cb; } // this is called when there is a hit. uint8_t getSensorType() { return sensorType; } uint32_t getSensorSerial() { return serial; } uint16_t getBits() { return data_count_bit; } uint8_t getBtn() { return btn; } uint8_t modulation = FPM_AM; // override this, if FM protected: // Helper functions to keep it as compatible with flipper as we can, so adding new protos will be easy. void subghz_protocol_blocks_add_bit(uint8_t bit) { decode_data = decode_data << 1 | bit; decode_count_bit++; } // General data holder, these will be passed uint8_t sensorType = FPS_Invalid; uint32_t key = SD_NO_KEY; uint8_t btn = SD_NO_BTN; uint32_t cnt = SD_NO_CNT; uint32_t serial = SD_NO_SERIAL; uint16_t data_count_bit = 0; uint32_t seed = SD_NO_SEED; // princeton TE // inner logic stuff, also for flipper compatibility. SubGhzDProtocolDecoderBaseRxCallback callback = NULL; uint16_t header_count = 0; uint8_t parser_step = 0; uint32_t te_last = 0; uint64_t data = 0; uint64_t data_2 = 0; uint64_t decode_data = 0; uint32_t decode_count_bit = 0; uint8_t cnt_2 = 0; ManchesterState manchester_saved_state = ManchesterStateMid1; }; #endif