/* 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 #include #include #ifndef HAL_CRSF_TELEM_ENABLED #define HAL_CRSF_TELEM_ENABLED AP_FRSKY_SPORT_PASSTHROUGH_ENABLED #endif #ifndef HAL_CRSF_TELEM_TEXT_SELECTION_ENABLED #define HAL_CRSF_TELEM_TEXT_SELECTION_ENABLED OSD_ENABLED && OSD_PARAM_ENABLED && HAL_CRSF_TELEM_ENABLED && BOARD_FLASH_SIZE > 1024 #endif #if HAL_CRSF_TELEM_ENABLED #include #include "AP_RCTelemetry.h" #include class AP_OSD_ParamSetting; class AP_CRSF_Telem : public AP_RCTelemetry { public: AP_CRSF_Telem(); ~AP_CRSF_Telem() override; /* Do not allow copies */ CLASS_NO_COPY(AP_CRSF_Telem); // init - perform required initialisation virtual bool init() override; static AP_CRSF_Telem *get_singleton(void); void queue_message(MAV_SEVERITY severity, const char *text) override; static const uint8_t PASSTHROUGH_STATUS_TEXT_FRAME_MAX_SIZE = 50U; static const uint8_t PASSTHROUGH_MULTI_PACKET_FRAME_MAX_SIZE = 9U; static const uint8_t CRSF_RX_DEVICE_PING_MAX_RETRY = 50U; // Broadcast frame definitions courtesy of TBS struct PACKED GPSFrame { // curious fact, calling this GPS makes sizeof(GPS) return 1! int32_t latitude; // ( degree / 10`000`000 ) int32_t longitude; // (degree / 10`000`000 ) uint16_t groundspeed; // ( km/h / 100 ) uint16_t gps_heading; // ( degree / 100 ) uint16_t altitude; // ( meter - 1000m offset ) uint8_t satellites; // in use ( counter ) }; struct HeartbeatFrame { uint8_t origin; // Device address }; struct PACKED BatteryFrame { uint16_t voltage; // ( mV * 100 ) uint16_t current; // ( mA * 100 ) uint8_t capacity[3]; // ( mAh ) uint8_t remaining; // ( percent ) }; struct PACKED VTXFrame { #if __BYTE_ORDER != __LITTLE_ENDIAN #error "Only supported on little-endian architectures" #endif uint8_t origin; // address // status uint8_t is_in_pitmode : 1; uint8_t is_in_user_frequency_mode : 1; uint8_t unused : 2; uint8_t is_vtx_available : 1; uint8_t smart_audio_ver : 3; // SmartAudio_V1 = 0, SmartAudio_V2 = 1 // band / channel uint8_t channel : 3; // 1x-8x uint8_t band : 5; // A, B, E, AirWave, Race uint16_t user_frequency; uint8_t power : 4; // 25mW = 0, 200mW = 1, 500mW = 2, 800mW = 3 uint8_t pitmode : 4; // off = 0, In_Band = 1, Out_Band = 2; }; struct PACKED VTXTelemetryFrame { uint8_t origin; // address uint8_t power; // power in dBm uint16_t frequency; // frequency in Mhz uint8_t pitmode; // disable 0, enable 1 }; struct PACKED AttitudeFrame { int16_t pitch_angle; // ( rad * 10000 ) int16_t roll_angle; // ( rad * 10000 ) int16_t yaw_angle; // ( rad * 10000 ) }; struct PACKED FlightModeFrame { char flight_mode[16]; // ( Null-terminated string ) }; // CRSF_FRAMETYPE_COMMAND struct PACKED CommandFrame { uint8_t destination; uint8_t origin; uint8_t command_id; uint8_t payload[9]; // 8 maximum for LED command + crc8 }; // CRSF_FRAMETYPE_PARAM_DEVICE_PING struct PACKED ParameterPingFrame { uint8_t destination; uint8_t origin; }; // CRSF_FRAMETYPE_PARAM_DEVICE_INFO struct PACKED ParameterDeviceInfoFrame { uint8_t destination; uint8_t origin; uint8_t payload[58]; // largest possible frame is 60 }; enum ParameterType : uint8_t { UINT8 = 0, INT8 = 1, UINT16 = 2, INT16 = 3, FLOAT = 8, TEXT_SELECTION = 9, STRING = 10, FOLDER = 11, INFO = 12, COMMAND = 13, OUT_OF_RANGE = 127 }; // CRSF_FRAMETYPE_PARAMETER_SETTINGS_ENTRY struct PACKED ParameterSettingsEntryHeader { uint8_t destination; uint8_t origin; uint8_t param_num; uint8_t chunks_left; }; // CRSF_FRAMETYPE_PARAMETER_SETTINGS_ENTRY struct PACKED ParameterSettingsEntry { ParameterSettingsEntryHeader header; uint8_t payload[56]; // largest possible frame is 60 }; // CRSF_FRAMETYPE_PARAMETER_READ struct PACKED ParameterSettingsReadFrame { uint8_t destination; uint8_t origin; uint8_t param_num; uint8_t param_chunk; } _param_request; // CRSF_FRAMETYPE_PARAMETER_WRITE struct PACKED ParameterSettingsWriteFrame { uint8_t destination; uint8_t origin; uint8_t param_num; uint8_t payload[57]; // largest possible frame is 60 }; // Frame to hold passthrough telemetry struct PACKED PassthroughSinglePacketFrame { uint8_t sub_type; uint16_t appid; uint32_t data; }; // Frame to hold passthrough telemetry struct PACKED PassthroughMultiPacketFrame { uint8_t sub_type; uint8_t size; struct PACKED PassthroughTelemetryPacket { uint16_t appid; uint32_t data; } packets[PASSTHROUGH_MULTI_PACKET_FRAME_MAX_SIZE]; }; // Frame to hold status text message struct PACKED StatusTextFrame { uint8_t sub_type; uint8_t severity; char text[PASSTHROUGH_STATUS_TEXT_FRAME_MAX_SIZE]; // ( Null-terminated string ) }; // ardupilot frametype container union PACKED APCustomTelemFrame { PassthroughSinglePacketFrame single_packet_passthrough; PassthroughMultiPacketFrame multi_packet_passthrough; StatusTextFrame status_text; }; union PACKED BroadcastFrame { GPSFrame gps; HeartbeatFrame heartbeat; BatteryFrame battery; VTXFrame vtx; AttitudeFrame attitude; FlightModeFrame flightmode; APCustomTelemFrame custom_telem; }; union PACKED ExtendedFrame { CommandFrame command; ParameterPingFrame ping; ParameterDeviceInfoFrame info; ParameterSettingsEntry param_entry; ParameterSettingsReadFrame param_read; ParameterSettingsWriteFrame param_write; }; union PACKED TelemetryPayload { BroadcastFrame bcast; ExtendedFrame ext; }; // get the protocol string const char* get_protocol_string() const { if (_crsf_version.is_elrs) { return "ELRS"; } else { const AP_RCProtocol_CRSF* crsf = AP::crsf(); if (crsf && crsf->is_crsf_v3_active()) { return "CRSFv3"; } return "CRSFv2"; } }; // Process a frame from the CRSF protocol decoder static bool process_frame(AP_RCProtocol_CRSF::FrameType frame_type, void* data); // process any changed settings and schedule for transmission void update(); // get next telemetry data for external consumers of SPort data static bool get_telem_data(AP_RCProtocol_CRSF::Frame* frame, bool is_tx_active); private: enum SensorType { HEARTBEAT, PARAMETERS, ATTITUDE, VTX_PARAMETERS, BATTERY, GPS, FLIGHT_MODE, PASSTHROUGH, STATUS_TEXT, GENERAL_COMMAND, VERSION_PING, DEVICE_PING, NUM_SENSORS }; // passthrough WFQ scheduler bool is_packet_ready(uint8_t idx, bool queue_empty) override; void process_packet(uint8_t idx) override; void adjust_packet_weight(bool queue_empty) override; void setup_custom_telemetry(); void update_custom_telemetry_rates(const AP_RCProtocol_CRSF::RFMode rf_mode); void calc_parameter_ping(); void calc_heartbeat(); void calc_battery(); void calc_gps(); void calc_attitude(); void calc_flight_mode(); void calc_device_info(); void calc_device_ping(uint8_t destination); void calc_command_response(); void calc_parameter(); #if HAL_CRSF_TELEM_TEXT_SELECTION_ENABLED void calc_text_selection( AP_OSD_ParamSetting* param, uint8_t chunk); #endif void process_pending_requests(); void update_vtx_params(); void get_single_packet_passthrough_telem_data(); void get_multi_packet_passthrough_telem_data(uint8_t size = PASSTHROUGH_MULTI_PACKET_FRAME_MAX_SIZE); void calc_status_text(); bool process_rf_mode_changes(); uint8_t get_custom_telem_frame_id() const; AP_RCProtocol_CRSF::RFMode get_rf_mode() const; uint16_t get_telemetry_rate() const; bool is_high_speed_telemetry(const AP_RCProtocol_CRSF::RFMode rf_mode) const; void process_vtx_frame(VTXFrame* vtx); void process_vtx_telem_frame(VTXTelemetryFrame* vtx); void process_ping_frame(ParameterPingFrame* ping); void process_param_read_frame(ParameterSettingsReadFrame* read); void process_param_write_frame(ParameterSettingsWriteFrame* write); void process_device_info_frame(ParameterDeviceInfoFrame* info); void process_command_frame(CommandFrame* command); // setup ready for passthrough operation void setup_wfq_scheduler(void) override; // setup the scheduler for parameters download void enter_scheduler_params_mode(); void exit_scheduler_params_mode(); void disable_tx_entries(); void enable_tx_entries(); // get next telemetry data for external consumers bool _get_telem_data(AP_RCProtocol_CRSF::Frame* data, bool is_tx_active); bool _process_frame(AP_RCProtocol_CRSF::FrameType frame_type, void* data); TelemetryPayload _telem; uint8_t _telem_size; uint8_t _telem_type; AP_RCProtocol_CRSF::RFMode _telem_rf_mode; // reporting telemetry rate uint32_t _telem_last_report_ms; uint16_t _telem_last_avg_rate; // do we need to report the initial state bool _telem_bootstrap_msg_pending; bool _telem_is_high_speed; bool _telem_pending; bool _enable_telemetry; // used to limit telemetry when in a failsafe condition bool _is_tx_active; struct { uint8_t destination = AP_RCProtocol_CRSF::CRSF_ADDRESS_BROADCAST; uint8_t frame_type; } _pending_request; struct { uint8_t minor; uint8_t major; uint8_t retry_count; bool use_rf_mode; bool is_tracer; bool pending = true; bool is_elrs; } _crsf_version; struct { bool init_done; uint32_t params_mode_start_ms; bool params_mode_active; } _custom_telem; struct { bool pending; bool valid; uint8_t port_id; } _baud_rate_request; // vtx state bool _vtx_freq_update; // update using the frequency method or not bool _vtx_dbm_update; // update using the dbm method or not 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 _noted_lq_as_rssi_active; static AP_CRSF_Telem *singleton; }; namespace AP { AP_CRSF_Telem *crsf_telem(); }; #endif