/* * This file 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 file 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 "AP_RCProtocol_config.h" #if AP_RCPROTOCOL_GHST_ENABLED #include "AP_RCProtocol.h" #include #include #include "SoftSerial.h" #define GHST_MAX_CHANNELS 16U // Maximum number of channels from GHST datastream #define GHST_FRAMELEN_MAX 14U // maximum possible framelength #define GHST_HEADER_LEN 2U // header length #define GHST_FRAME_PAYLOAD_MAX (GHST_FRAMELEN_MAX - GHST_HEADER_LEN) // maximum size of the frame length field in a packet #define GHST_BAUDRATE 420000U #define GHST_TX_TIMEOUT 500000U // the period after which the transmitter is considered disconnected (matches copters failsafe) #define GHST_RX_TIMEOUT 150000U // the period after which the receiver is considered disconnected (>ping frequency) class AP_RCProtocol_GHST : public AP_RCProtocol_Backend { public: AP_RCProtocol_GHST(AP_RCProtocol &_frontend); virtual ~AP_RCProtocol_GHST(); void process_byte(uint8_t byte, uint32_t baudrate) override; void process_handshake(uint32_t baudrate) override; void update(void) override; // is the receiver active, used to detect power loss and baudrate changes bool is_rx_active() const override { return AP_HAL::micros() < _last_rx_frame_time_us + GHST_RX_TIMEOUT; } // is the transmitter active, used to adjust telemetry data bool is_tx_active() const { // this is the same as the Copter failsafe timeout return AP_HAL::micros() < _last_tx_frame_time_us + GHST_TX_TIMEOUT; } // get singleton instance static AP_RCProtocol_GHST* get_singleton() { return _singleton; } enum FrameType { GHST_UL_RC_CHANS_HS4_5TO8 = 0x10, // Control packet with 4 primary channels + CH5-8 GHST_UL_RC_CHANS_HS4_9TO12 = 0x11, // Control packet with 4 primary channels + CH9-12 GHST_UL_RC_CHANS_HS4_13TO16 = 0x12, // Control packet with 4 primary channels + CH13-16 GHST_UL_RC_CHANS_RSSI = 0x13, // Control packet with RSSI and LQ data GHST_UL_RC_VTX_CTRL = 0x14, // Goggle/FC channel changing // -> 0x1F reserved GHST_UL_VTX_SETUP = 0x20, // vTx Setup w/o 4 primary channels (GECO Only) GHST_UL_MSP_REQ = 0x21, // MSP frame, Request GHST_UL_MSP_WRITE = 0x22, // MSP frame, Write GHST_DL_PACK_STAT = 0x23, // Battery Status GHST_DL_GPS_PRIMARY = 0x25, // Primary GPS Data GHST_DL_GPS_SECONDARY = 0x26, // Secondary GPS Data GHST_DL_MAGBARO = 0x27, // Magnetometer, Barometer (and Vario) Data GHST_DL_MSP_RESP = 0x28, // MSP Response GHST_UL_RC_CHANS_HS4_12_5TO8 = 0x30, // Control packet with 4 primary channels + CH5-8 GHST_UL_RC_CHANS_HS4_12_9TO12 = 0x31, // Control packet with 4 primary channels + CH9-12 GHST_UL_RC_CHANS_HS4_12_13TO16 = 0x32, // Control packet with 4 primary channels + CH13-16 GHST_UL_RC_CHANS_12_RSSI = 0x33, // Control packet with RSSI and LQ data // 0x30 -> 0x3f - raw 12 bit packets }; enum DeviceAddress { GHST_ADDRESS_FLIGHT_CONTROLLER = 0x82, GHST_ADDRESS_GOGGLES = 0x83, GHST_ADDRESS_GHST_RECEIVER = 0x89, }; struct Frame { uint8_t device_address; uint8_t length; uint8_t type; uint8_t payload[GHST_FRAME_PAYLOAD_MAX - 1]; // type is already accounted for } PACKED; struct Channels12Bit_4Chan { #if __BYTE_ORDER != __LITTLE_ENDIAN #error "Only supported on little-endian architectures" #endif uint32_t ch0 : 12; uint32_t ch1 : 12; uint32_t ch2 : 12; uint32_t ch3 : 12; } PACKED; struct RadioFrame { #if __BYTE_ORDER != __LITTLE_ENDIAN #error "Only supported on little-endian architectures" #endif Channels12Bit_4Chan channels; // high-res channels uint8_t lowres_channels[4]; // low-res channels } PACKED; struct LinkStatisticsFrame { #if __BYTE_ORDER != __LITTLE_ENDIAN #error "Only supported on little-endian architectures" #endif Channels12Bit_4Chan channels; uint8_t link_quality; // ( 0 - 100) uint8_t rssi_dbm; // ( dBm * -1 ) uint8_t protocol : 5; uint8_t telemetry : 1; uint8_t alt_scale : 1; uint8_t reserved : 1; int8_t tx_power; } PACKED; enum RFMode { GHST_RF_MODE_NORMAL = 5, // 55Hz GHST_RF_MODE_RACE = 6, // 160Hz GHST_RF_MODE_PURERACE = 7, // 250Hz GHST_RF_MODE_LR = 8, // 19Hz GHST_RF_MODE_RACE250 = 10, // 250Hz GHST_RF_MODE_RACE500 = 11, // 500Hz GHTS_RF_MODE_SOLID150 = 12, // 150Hz GHST_RF_MODE_SOLID250 = 13, // 250Hz RF_MODE_MAX_MODES, RF_MODE_UNKNOWN, }; struct LinkStatus { int16_t rssi = -1; int16_t link_quality = -1; uint8_t rf_mode; }; bool is_telemetry_supported() const; // this will be used by AP_GHST_Telem to access link status data // from within AP_RCProtocol_GHST thread so no need for cross-thread synch const volatile LinkStatus& get_link_status() const { return _link_status; } // return the link rate as defined by the LinkStatistics uint16_t get_link_rate() const; // return the protocol string const char* get_protocol_string() const; private: struct Frame _frame; struct Frame _telemetry_frame; uint8_t _frame_ofs; uint8_t _frame_crc; const uint8_t MAX_CHANNELS = MIN((uint8_t)GHST_MAX_CHANNELS, (uint8_t)MAX_RCIN_CHANNELS); static AP_RCProtocol_GHST* _singleton; void _process_byte(uint32_t timestamp_us, uint8_t byte); bool decode_ghost_packet(); bool process_telemetry(bool check_constraint = true); void process_link_stats_frame(const void* data); bool write_frame(Frame* frame); AP_HAL::UARTDriver* get_current_UART() { return get_available_UART(); } uint16_t _channels[GHST_MAX_CHANNELS]; /* buffer for extracted RC channel data as pulsewidth in microseconds */ void add_to_buffer(uint8_t index, uint8_t b) { ((uint8_t*)&_frame)[index] = b; } uint32_t _last_frame_time_us; uint32_t _last_tx_frame_time_us; uint32_t _last_rx_frame_time_us; uint32_t _start_frame_time_us; bool telem_available; bool _use_lq_for_rssi; int16_t derive_scaled_lq_value(uint8_t uplink_lq); volatile struct LinkStatus _link_status; static const uint16_t RF_MODE_RATES[RFMode::RF_MODE_MAX_MODES]; }; namespace AP { AP_RCProtocol_GHST* ghost(); }; #endif // AP_RCPROTOCOL_GHST_ENABLED