#pragma once #include #if HAL_WITH_UAVCAN #include #ifndef AP_CAN_DEBUG #define AP_CAN_DEBUG 0 #endif class AP_BoardConfig_CAN { public: AP_BoardConfig_CAN(); /* Do not allow copies */ AP_BoardConfig_CAN(const AP_BoardConfig_CAN &other) = delete; AP_BoardConfig_CAN &operator=(const AP_BoardConfig_CAN&) = delete; static AP_BoardConfig_CAN* get_singleton() { return _singleton; } enum Protocol_Type : uint8_t { Protocol_Type_None = 0, Protocol_Type_UAVCAN = 1, Protocol_Type_KDECAN = 2, Protocol_Type_ToshibaCAN = 3, Protocol_Type_selfCAN = 6, }; void init(void); // returns number of active CAN drivers uint8_t get_num_drivers(void) const { return _num_drivers; } // return debug level for interface i uint8_t get_debug_level(uint8_t i) const { #if AP_CAN_DEBUG if (i < MAX_NUMBER_OF_CAN_INTERFACES) { return _interfaces[i]._driver_number_cache ? _interfaces[i]._debug_level : 0; } #endif return 0; } // return maximum level of debug of all interfaces uint8_t get_debug_level(void) const { uint8_t ret = 0; #if AP_CAN_DEBUG for (uint8_t i = 0; i < MAX_NUMBER_OF_CAN_INTERFACES; i++) { uint8_t dbg = get_debug_level(i); ret = (dbg > ret) ? dbg : ret; } #endif return ret; } // return maximum level of debug for driver index i uint8_t get_debug_level_driver(uint8_t i) const { uint8_t ret = 0; #if AP_CAN_DEBUG for (uint8_t j = 0; j < MAX_NUMBER_OF_CAN_INTERFACES; j++) { if (_interfaces[j]._driver_number_cache == i) { uint8_t dbg = get_debug_level(j); ret = (dbg > ret) ? dbg : ret; } } #endif return ret; } // return driver for index i AP_HAL::CANProtocol* get_driver(uint8_t i) const { if (i < MAX_NUMBER_OF_CAN_DRIVERS) { return _drivers[i]._driver; } return nullptr; } // return protocol type index i Protocol_Type get_protocol_type(uint8_t i) const { if (i < MAX_NUMBER_OF_CAN_DRIVERS) { return _drivers[i]._protocol_type_cache; } return Protocol_Type_None; } static const struct AP_Param::GroupInfo var_info[]; #if AP_UAVCAN_SLCAN_ENABLED AP_HAL::UARTDriver *get_slcan_serial(); uint8_t get_slcan_timeout() { return _slcan._timeout; } void reset_slcan_serial() { _slcan._ser_port.set_and_save_ifchanged(-1); } #endif private: class Interface { friend class AP_BoardConfig_CAN; public: Interface() { AP_Param::setup_object_defaults(this, var_info); } static const struct AP_Param::GroupInfo var_info[]; private: AP_Int8 _driver_number; uint8_t _driver_number_cache; AP_Int32 _bitrate; #if AP_CAN_DEBUG AP_Int8 _debug_level; #endif }; class Driver { friend class AP_BoardConfig_CAN; public: Driver() { AP_Param::setup_object_defaults(this, var_info); } static const struct AP_Param::GroupInfo var_info[]; private: AP_Int8 _protocol_type; Protocol_Type _protocol_type_cache; AP_HAL::CANProtocol* _driver; AP_HAL::CANProtocol* _uavcan; AP_HAL::CANProtocol* _kdecan; AP_HAL::CANProtocol* _tcan; }; #if AP_UAVCAN_SLCAN_ENABLED class SLCAN_Interface { friend class AP_BoardConfig_CAN; public: SLCAN_Interface() { AP_Param::setup_object_defaults(this, var_info); } static const struct AP_Param::GroupInfo var_info[]; private: AP_Int8 _can_port; AP_Int8 _ser_port; AP_Int16 _timeout; }; SLCAN_Interface _slcan; #endif Interface _interfaces[MAX_NUMBER_OF_CAN_INTERFACES]; Driver _drivers[MAX_NUMBER_OF_CAN_DRIVERS]; uint8_t _num_drivers; static AP_BoardConfig_CAN *_singleton; }; namespace AP { AP_BoardConfig_CAN& can(); } #endif