/* * 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 . * * Author: Eugene Shamaev, Siddharth Bharat Purohit */ #pragma once #include #if HAL_ENABLE_LIBUAVCAN_DRIVERS #include #include "AP_UAVCAN_IfaceMgr.h" #include "AP_UAVCAN_Clock.h" #include #include #include #include #include #include #include #ifndef UAVCAN_SRV_NUMBER #define UAVCAN_SRV_NUMBER NUM_SERVO_CHANNELS #endif #ifndef AP_DRONECAN_SEND_GPS #define AP_DRONECAN_SEND_GPS (BOARD_FLASH_SIZE > 1024) #endif #define AP_UAVCAN_SW_VERS_MAJOR 1 #define AP_UAVCAN_SW_VERS_MINOR 0 #define AP_UAVCAN_HW_VERS_MAJOR 1 #define AP_UAVCAN_HW_VERS_MINOR 0 #define AP_UAVCAN_MAX_LED_DEVICES 4 // fwd-declare callback classes class ButtonCb; class TrafficReportCb; class ActuatorStatusCb; class ActuatorStatusVolzCb; class ESCStatusCb; class DebugCb; class ParamGetSetCb; class ParamExecuteOpcodeCb; class AP_PoolAllocator; class AP_UAVCAN_DNA_Server; #if defined(__GNUC__) && (__GNUC__ > 8) #define DISABLE_W_CAST_FUNCTION_TYPE_PUSH \ _Pragma("GCC diagnostic push") \ _Pragma("GCC diagnostic ignored \"-Wcast-function-type\"") #define DISABLE_W_CAST_FUNCTION_TYPE_POP \ _Pragma("GCC diagnostic pop") #else #define DISABLE_W_CAST_FUNCTION_TYPE_PUSH #define DISABLE_W_CAST_FUNCTION_TYPE_POP #endif #if defined(__GNUC__) && (__GNUC__ >= 11) #define DISABLE_W_CAST_FUNCTION_TYPE_WITH_VOID (void*) #else #define DISABLE_W_CAST_FUNCTION_TYPE_WITH_VOID #endif /* Frontend Backend-Registry Binder: Whenever a message of said DataType_ from new node is received, the Callback will invoke registry to register the node as separate backend. */ #define UC_REGISTRY_BINDER(ClassName_, DataType_) \ class ClassName_ : public AP_UAVCAN::RegistryBinder { \ typedef void (*CN_Registry)(AP_UAVCAN*, uint8_t, const ClassName_&); \ public: \ ClassName_() : RegistryBinder() {} \ DISABLE_W_CAST_FUNCTION_TYPE_PUSH \ ClassName_(AP_UAVCAN* uc, CN_Registry ffunc) : \ RegistryBinder(uc, (Registry)DISABLE_W_CAST_FUNCTION_TYPE_WITH_VOID ffunc) {} \ DISABLE_W_CAST_FUNCTION_TYPE_POP \ } #define UC_CLIENT_CALL_REGISTRY_BINDER(ClassName_, DataType_) \ class ClassName_ : public AP_UAVCAN::ClientCallRegistryBinder { \ typedef void (*CN_Registry)(AP_UAVCAN*, uint8_t, const ClassName_&); \ public: \ ClassName_() : ClientCallRegistryBinder() {} \ DISABLE_W_CAST_FUNCTION_TYPE_PUSH \ ClassName_(AP_UAVCAN* uc, CN_Registry ffunc) : \ ClientCallRegistryBinder(uc, (ClientCallRegistry)DISABLE_W_CAST_FUNCTION_TYPE_WITH_VOID ffunc) {} \ DISABLE_W_CAST_FUNCTION_TYPE_POP \ } class AP_UAVCAN : public AP_CANDriver, public AP_ESC_Telem_Backend { friend class AP_UAVCAN_DNA_Server; public: AP_UAVCAN(); ~AP_UAVCAN(); static const struct AP_Param::GroupInfo var_info[]; // Return uavcan from @driver_index or nullptr if it's not ready or doesn't exist static AP_UAVCAN *get_uavcan(uint8_t driver_index); bool prearm_check(char* fail_msg, uint8_t fail_msg_len) const; void init(uint8_t driver_index, bool enable_filters) override; bool add_interface(AP_HAL::CANIface* can_iface) override; uavcan::Node<0>* get_node() { return _node; } uint8_t get_driver_index() const { return _driver_index; } FUNCTOR_TYPEDEF(ParamGetSetIntCb, bool, AP_UAVCAN*, const uint8_t, const char*, int32_t &); FUNCTOR_TYPEDEF(ParamGetSetFloatCb, bool, AP_UAVCAN*, const uint8_t, const char*, float &); FUNCTOR_TYPEDEF(ParamSaveCb, void, AP_UAVCAN*, const uint8_t, bool); ///// SRV output ///// void SRV_push_servos(void); ///// LED ///// bool led_write(uint8_t led_index, uint8_t red, uint8_t green, uint8_t blue); // buzzer void set_buzzer_tone(float frequency, float duration_s); // send RTCMStream packets void send_RTCMStream(const uint8_t *data, uint32_t len); // Send Reboot command // Note: Do not call this from outside UAVCAN thread context, // you can call this from uavcan callbacks and handlers. // THIS IS NOT A THREAD SAFE API! void send_reboot_request(uint8_t node_id); // set param value bool set_parameter_on_node(uint8_t node_id, const char *name, float value, ParamGetSetFloatCb *cb); bool set_parameter_on_node(uint8_t node_id, const char *name, int32_t value, ParamGetSetIntCb *cb); bool get_parameter_on_node(uint8_t node_id, const char *name, ParamGetSetFloatCb *cb); bool get_parameter_on_node(uint8_t node_id, const char *name, ParamGetSetIntCb *cb); // Save parameters bool save_parameters_on_node(uint8_t node_id, ParamSaveCb *cb); template class RegistryBinder { protected: typedef void (*Registry)(AP_UAVCAN* _ap_uavcan, uint8_t _node_id, const RegistryBinder& _cb); AP_UAVCAN* _uc; Registry _ffunc; public: RegistryBinder() : _uc(), _ffunc(), msg() {} RegistryBinder(AP_UAVCAN* uc, Registry ffunc) : _uc(uc), _ffunc(ffunc), msg(nullptr) {} void operator()(const uavcan::ReceivedDataStructure& _msg) { msg = &_msg; _ffunc(_uc, _msg.getSrcNodeID().get(), *this); } const uavcan::ReceivedDataStructure *msg; }; // ClientCallRegistryBinder template class ClientCallRegistryBinder { protected: typedef void (*ClientCallRegistry)(AP_UAVCAN* _ap_uavcan, uint8_t _node_id, const ClientCallRegistryBinder& _cb); AP_UAVCAN* _uc; ClientCallRegistry _ffunc; public: ClientCallRegistryBinder() : _uc(), _ffunc(), rsp() {} ClientCallRegistryBinder(AP_UAVCAN* uc, ClientCallRegistry ffunc) : _uc(uc), _ffunc(ffunc), rsp(nullptr) {} void operator()(const uavcan::ServiceCallResult& _rsp) { rsp = &_rsp; _ffunc(_uc, _rsp.getCallID().server_node_id.get(), *this); } const uavcan::ServiceCallResult *rsp; }; // options bitmask enum class Options : uint16_t { DNA_CLEAR_DATABASE = (1U<<0), DNA_IGNORE_DUPLICATE_NODE = (1U<<1), CANFD_ENABLED = (1U<<2), DNA_IGNORE_UNHEALTHY_NODE = (1U<<3), USE_ACTUATOR_PWM = (1U<<4), SEND_GNSS = (1U<<5), }; // check if a option is set bool option_is_set(Options option) const { return (uint16_t(_options.get()) & uint16_t(option)) != 0; } // check if a option is set and if it is then reset it to // 0. return true if it was set bool check_and_reset_option(Options option); // This will be needed to implement if UAVCAN is used with multithreading // Such cases will be firmware update, etc. class RaiiSynchronizer {}; private: void loop(void); ///// SRV output ///// void SRV_send_actuator(); void SRV_send_esc(); ///// LED ///// void led_out_send(); // buzzer void buzzer_send(); // SafetyState void safety_state_send(); // send notify vehicle state void notify_state_send(); // send GNSS injection void rtcm_stream_send(); // send parameter get/set request void send_parameter_request(); // send parameter save request void send_parameter_save_request(); // periodic logging void logging(); // set parameter on a node ParamGetSetIntCb *param_int_cb; ParamGetSetFloatCb *param_float_cb; bool param_request_sent = true; HAL_Semaphore _param_sem; uint8_t param_request_node_id; // save parameters on a node ParamSaveCb *save_param_cb; bool param_save_request_sent = true; HAL_Semaphore _param_save_sem; uint8_t param_save_request_node_id; // UAVCAN parameters AP_Int8 _uavcan_node; AP_Int32 _servo_bm; AP_Int32 _esc_bm; AP_Int8 _esc_offset; AP_Int16 _servo_rate_hz; AP_Int16 _options; AP_Int16 _notify_state_hz; AP_Int16 _pool_size; AP_PoolAllocator *_allocator; AP_UAVCAN_DNA_Server *_dna_server; uavcan::Node<0> *_node; uint8_t _driver_index; uavcan::CanIfaceMgr* _iface_mgr; char _thread_name[13]; bool _initialized; ///// SRV output ///// struct { uint16_t pulse; bool esc_pending; bool servo_pending; } _SRV_conf[UAVCAN_SRV_NUMBER]; uint32_t _esc_send_count; uint32_t _srv_send_count; uint32_t _fail_send_count; uint8_t _SRV_armed; uint32_t _SRV_last_send_us; HAL_Semaphore SRV_sem; // last log time uint32_t last_log_ms; ///// LED ///// struct led_device { uint8_t led_index; uint8_t red; uint8_t green; uint8_t blue; }; struct { led_device devices[AP_UAVCAN_MAX_LED_DEVICES]; uint8_t devices_count; uint64_t last_update; } _led_conf; HAL_Semaphore _led_out_sem; // buzzer struct { HAL_Semaphore sem; float frequency; float duration; uint8_t pending_mask; // mask of interfaces to send to } _buzzer; #if AP_DRONECAN_SEND_GPS // send GNSS Fix and yaw, same thing AP_GPS_UAVCAN would receive void gnss_send_fix(); void gnss_send_yaw(); // GNSS Fix and Status struct { uint32_t last_gps_lib_fix_ms; uint32_t last_send_status_ms; uint32_t last_lib_yaw_time_ms; } _gnss; #endif // GNSS RTCM injection struct { HAL_Semaphore sem; uint32_t last_send_ms; ByteBuffer *buf; } _rtcm_stream; // ESC static HAL_Semaphore _telem_sem; // safety status send state uint32_t _last_safety_state_ms; // notify vehicle state uint32_t _last_notify_state_ms; // incoming button handling static void handle_button(AP_UAVCAN* ap_uavcan, uint8_t node_id, const ButtonCb &cb); static void handle_traffic_report(AP_UAVCAN* ap_uavcan, uint8_t node_id, const TrafficReportCb &cb); static void handle_actuator_status(AP_UAVCAN* ap_uavcan, uint8_t node_id, const ActuatorStatusCb &cb); static void handle_actuator_status_Volz(AP_UAVCAN* ap_uavcan, uint8_t node_id, const ActuatorStatusVolzCb &cb); static void handle_ESC_status(AP_UAVCAN* ap_uavcan, uint8_t node_id, const ESCStatusCb &cb); static bool is_esc_data_index_valid(const uint8_t index); static void handle_debug(AP_UAVCAN* ap_uavcan, uint8_t node_id, const DebugCb &cb); static void handle_param_get_set_response(AP_UAVCAN* ap_uavcan, uint8_t node_id, const ParamGetSetCb &cb); static void handle_param_save_response(AP_UAVCAN* ap_uavcan, uint8_t node_id, const ParamExecuteOpcodeCb &cb); }; #endif // #if HAL_ENABLE_LIBUAVCAN_DRIVERS