#pragma once #include #include #if HAL_ENABLE_DRONECAN_DRIVERS #include #include #include #include #include #include #include "AP_Canard_iface.h" #include class AP_DroneCAN; //Forward declaring classes class AP_DroneCAN_DNA_Server { StorageAccess storage; struct NodeData { uint8_t hwid_hash[6]; uint8_t crc; }; class Database { public: Database() {}; // initialize database (storage accessor is always replaced with the one supplied) void init(StorageAccess *storage_); //Reset the Server Record void reset(); // returns true if the given node ID is occupied (has valid stored data) bool isOccupied(uint8_t node_id) { return node_storage_occupied.get(node_id); } //Generates 6Byte long hash from the specified unique_id void getHash(NodeData &node_data, const uint8_t unique_id[], uint8_t size) const; //Methods to set, clear and report NodeIDs allocated/registered so far void freeNodeID(uint8_t node_id); //Go through List to find node id for specified unique id uint8_t getNodeIDForUniqueID(const uint8_t unique_id[], uint8_t size); //Add Node ID info to the record and setup necessary mask fields void addNodeIDForUniqueID(uint8_t node_id, const uint8_t unique_id[], uint8_t size); //Finds next available free Node, starting from preferred NodeID uint8_t findFreeNodeID(uint8_t preferred); private: //Look in the storage and check if there's a valid Server Record there bool isValidNodeDataAvailable(uint8_t node_id); //Reads the Server Record from storage for specified node id void readNodeData(NodeData &data, uint8_t node_id); //Writes the Server Record from storage for specified node id void writeNodeData(const NodeData &data, uint8_t node_id); // bitmasks containing a status for each possible node ID (except 0 and > MAX_NODE_ID) Bitmask<128> node_storage_occupied; // storage has a valid entry StorageAccess *storage; HAL_Semaphore sem; }; static Database db; enum ServerState { NODE_STATUS_UNHEALTHY = -5, DUPLICATE_NODES = -2, HEALTHY = 0 }; uint32_t last_verification_request; uint8_t curr_verifying_node; uint8_t self_node_id; bool nodeInfo_resp_rcvd; // bitmasks containing a status for each possible node ID (except 0 and > MAX_NODE_ID) Bitmask<128> node_verified; // node seen and unique ID matches stored Bitmask<128> node_seen; // received NodeStatus Bitmask<128> node_logged; // written to log fle Bitmask<128> node_healthy; // reports healthy uint8_t last_logging_count; //Error State enum ServerState server_state; uint8_t fault_node_id; char fault_node_name[15]; //Allocation params uint8_t rcvd_unique_id[16]; uint8_t rcvd_unique_id_offset; uint32_t last_alloc_msg_ms; AP_DroneCAN &_ap_dronecan; CanardInterface &_canard_iface; Canard::Publisher allocation_pub{_canard_iface}; Canard::ObjCallback allocation_cb{this, &AP_DroneCAN_DNA_Server::handleAllocation}; Canard::Subscriber allocation_sub; Canard::ObjCallback node_status_cb{this, &AP_DroneCAN_DNA_Server::handleNodeStatus}; Canard::Subscriber node_status_sub; Canard::ObjCallback node_info_cb{this, &AP_DroneCAN_DNA_Server::handleNodeInfo}; Canard::Client node_info_client; public: AP_DroneCAN_DNA_Server(AP_DroneCAN &ap_dronecan, CanardInterface &canard_iface, uint8_t driver_index); // Do not allow copies CLASS_NO_COPY(AP_DroneCAN_DNA_Server); //Initialises publisher and Server Record for specified uavcan driver bool init(uint8_t own_unique_id[], uint8_t own_unique_id_len, uint8_t node_id); /* Subscribe to the messages to be handled for maintaining and allocating Node ID list */ static void subscribe_msgs(AP_DroneCAN* ap_dronecan); //report the server state, along with failure message if any bool prearm_check(char* fail_msg, uint8_t fail_msg_len) const; //Callbacks void handleAllocation(const CanardRxTransfer& transfer, const uavcan_protocol_dynamic_node_id_Allocation& msg); void handleNodeStatus(const CanardRxTransfer& transfer, const uavcan_protocol_NodeStatus& msg); void handleNodeInfo(const CanardRxTransfer& transfer, const uavcan_protocol_GetNodeInfoResponse& rsp); //Run through the list of seen node ids for verification void verify_nodes(); }; #endif