/* This program 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 program 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 . */ #pragma once #include #ifndef HAL_SMARTAUDIO_ENABLED #define HAL_SMARTAUDIO_ENABLED !HAL_MINIMIZE_FEATURES #endif #if HAL_SMARTAUDIO_ENABLED #include #include #include #include "AP_VideoTX.h" #define SMARTAUDIO_BUFFER_CAPACITY 5 // SmartAudio Serial Protocol #define AP_SMARTAUDIO_UART_BAUD 4800 #define AP_SMARTAUDIO_SMARTBAUD_MIN 4560 // -5% #define AP_SMARTAUDIO_SMARTBAUD_MAX 5040 // +5% #define AP_SMARTAUDIO_SMARTBAUD_STEP 60 #define AP_SMARTAUDIO_UART_BUFSIZE_RX 16 #define AP_SMARTAUDIO_UART_BUFSIZE_TX 16 #define AP_SMARTAUDIO_MAX_PACKET_SIZE 32 #define SMARTAUDIO_SYNC_BYTE 0xAA #define SMARTAUDIO_HEADER_BYTE 0x55 #define SMARTAUDIO_START_CODE SMARTAUDIO_SYNC_BYTE + SMARTAUDIO_HEADER_BYTE #define SMARTAUDIO_GET_PITMODE_FREQ (1 << 14) #define SMARTAUDIO_SET_PITMODE_FREQ (1 << 15) #define SMARTAUDIO_FREQUENCY_MASK 0x3FFF #define SMARTAUDIO_CMD_GET_SETTINGS 0x03 #define SMARTAUDIO_CMD_SET_POWER 0x05 #define SMARTAUDIO_CMD_SET_CHANNEL 0x07 #define SMARTAUDIO_CMD_SET_FREQUENCY 0x09 #define SMARTAUDIO_CMD_SET_MODE 0x0B #define SMARTAUDIO_COMMAND_FRAME_SIZE (sizeof(FrameHeader) + 1) #define SMARTAUDIO_U8_COMMAND_FRAME_SIZE (sizeof(FrameHeader) + 2) #define SMARTAUDIO_U16_COMMAND_FRAME_SIZE (sizeof(FrameHeader) + 3) #define SMARTAUDIO_RSP_GET_SETTINGS_V1 SMARTAUDIO_CMD_GET_SETTINGS >> 1 #define SMARTAUDIO_RSP_GET_SETTINGS_V2 (SMARTAUDIO_CMD_GET_SETTINGS >> 1) | 0x08 #define SMARTAUDIO_RSP_GET_SETTINGS_V21 (SMARTAUDIO_CMD_GET_SETTINGS >> 1) | 0x10 #define SMARTAUDIO_RSP_SET_POWER SMARTAUDIO_CMD_SET_POWER >> 1 #define SMARTAUDIO_RSP_SET_CHANNEL SMARTAUDIO_CMD_SET_CHANNEL >> 1 #define SMARTAUDIO_RSP_SET_FREQUENCY SMARTAUDIO_CMD_SET_FREQUENCY >> 1 #define SMARTAUDIO_RSP_SET_MODE SMARTAUDIO_CMD_SET_MODE >> 1 #define SMARTAUDIO_BANDCHAN_TO_INDEX(band, channel) (band * VTX_MAX_CHANNELS + (channel)) // #define SA_DEBUG class AP_SmartAudio { public: enum ProtocolVersion { SMARTAUDIO_SPEC_PROTOCOL_v1 = 0, SMARTAUDIO_SPEC_PROTOCOL_v2 = 1, SMARTAUDIO_SPEC_PROTOCOL_v21 = 2 }; struct Settings { uint8_t version; uint8_t mode; uint8_t channel; uint8_t power; uint16_t frequency; uint8_t band; uint8_t* power_levels; uint8_t power_in_dbm; uint16_t pitmodeFrequency; bool userFrequencyMode; // user is setting freq bool initialized; }; struct FrameHeader { uint8_t syncByte; uint8_t headerByte; uint8_t command; uint8_t length; void init(uint8_t cmd, uint8_t payloadLength) { syncByte = SMARTAUDIO_SYNC_BYTE; headerByte= SMARTAUDIO_HEADER_BYTE; length = payloadLength; command = cmd; } } PACKED; struct Frame { FrameHeader header; uint8_t payload[3]; } PACKED; struct U8ResponseFrame { FrameHeader header; uint8_t payload; //uint8_t reserved; //uint8_t crc; } PACKED; struct U16ResponseFrame { FrameHeader header; uint16_t payload; //uint8_t reserved; //uint8_t crc; } PACKED; struct SettingsResponseFrame { FrameHeader header; uint8_t channel; uint8_t power; uint8_t operationMode; uint16_t frequency; //uint8_t crc; } PACKED; struct SettingsExtendedResponseFrame { FrameHeader header; uint8_t channel; uint8_t power; uint8_t operationMode; uint16_t frequency; uint8_t power_dbm; uint8_t power_levels_len; uint8_t power_dbm_levels; // first in the list of dbm levels //uint8_t crc; } PACKED; // v 2.1 additions to response frame //0x0E (current power in dBm) 0x03 (amount of power levels) 0x00(dBm level 1) 0x0E (dBm level 2) 0x14 (dBm level 3) 0x1A (dBm level 4) 0x01(CRC8) // request packet to be processed struct Packet { Frame frame; uint8_t frame_size; } PACKED; AP_SmartAudio(); static AP_SmartAudio *get_singleton(void) { return _singleton; } /* Do not allow copies */ AP_SmartAudio(const AP_SmartAudio &other) = delete; AP_SmartAudio &operator=(const AP_SmartAudio&) = delete; // init threads and lookup for io uart. bool init(); private: // serial interface AP_HAL::UARTDriver *_port; // UART used to send data to SmartAudio VTX //Pointer to singleton static AP_SmartAudio* _singleton; // response buffer length, permit splitted responses uint8_t _inline_buffer_length; // expected packet size uint8_t _packet_size; ProtocolVersion _protocol_version; // statistics uint16_t _packets_sent; uint16_t _packets_rcvd; bool _vtx_freq_change_pending; // a vtx command has been issued but not confirmed by a vtx broadcast frame bool _vtx_power_change_pending; bool _vtx_options_change_pending; bool _vtx_gcs_pending; bool _vtx_use_set_freq; // should frequency set by band/channel or frequency // value for current baud adjust int32_t _smartbaud = AP_SMARTAUDIO_UART_BAUD; int32_t _smartbaud_direction = 1; // hw vtx state control with 2 elements array use methods _push _peek uint8_t _vtx_state_idx; Settings _vtx_states_buffer[2]; Settings *_vtx_current_state; // ready to go volatile bool _initialised; // RingBuffer to store outgoing request. ObjectBuffer requests_queue{SMARTAUDIO_BUFFER_CAPACITY}; // time the last_request is process uint32_t _last_request_sent_ms; // loops is waiting a response after a request bool _is_waiting_response; #ifdef SA_DEBUG // utility method for debugging. void print_bytes_to_hex_string(const char* msg, const uint8_t buf[], uint8_t x,uint8_t offset); #endif void print_settings(const Settings* settings); void update_vtx_params(); void update_vtx_settings(const Settings& settings); // looping over requests void loop(); // send a frame over the wire void send_request(const Frame& requestFrame, uint8_t size); // receive a frame response over the wire bool read_response(uint8_t *response_buffer); // parses the response and updates the vtx settings bool parse_frame_response(const uint8_t *buffer); bool parse_response_buffer(const uint8_t *buffer); // get last reading from the fifo queue bool get_readings(AP_VideoTX *vtx_dest); // command functions // request settings void request_settings(); // change the mode void set_operation_mode(uint8_t mode); // change the frequency void set_frequency(uint16_t frequency, bool isPitModeFreq); // change the channel void set_channel(uint8_t chan); // get the pitmode frequency void request_pit_mode_frequency(); // set the power void set_power(uint16_t power_mw, uint16_t dbm); // set the power using power_level, spec versions 1 and 2 or dbm value for spec version 2.1 void set_power(uint8_t power_level); // set the band and channel void set_band_channel(const uint8_t band, const uint8_t channel); // command functions void push_command_only_frame(uint8_t command); void push_uint8_command_frame(uint8_t command, uint8_t data); void push_uint16_command_frame(uint8_t command, uint16_t data); static void unpack_frequency(Settings *settings, const uint16_t frequency); static void unpack_settings(Settings *settings, const SettingsResponseFrame *frame); static void unpack_settings(Settings *settings, const SettingsExtendedResponseFrame *frame); // change baud automatically when request-response fails many times void update_baud_rate(); }; #endif