#ifndef myUDP_H #define myUDP_H #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "job.hpp" #include "jobList.hpp" #include "modules.hpp" #define UDP_LEN (1500-28-448) // size of sent UDP packets in bytes #define UDP_MTU (1500) // size of recv UDP buffer in bytes #define JOB_COUNT (1024 * 4 * 10) // max size of jobList #define MAX_JOB_LEN (256*256) // max word count of job //#define DEBUG_JOB_RESP //#define DEBUG_JOB_SEND typedef std::chrono::high_resolution_clock Clock; typedef std::chrono::milliseconds milliseconds; typedef std::chrono::microseconds microseconds; enum class RecvState { checkPreamble, checkJobId, checkModuleId, writePayload }; //using jobCb_t = void(*)(commFPGA *, jobResponse *); class commFPGA { public: commFPGA(const char *host, uint _port = 1234, bool bindSelf = false); ~commFPGA(); char ip[16]; uint port; int sock; //called by worker thread int assignJob(JobContainer &job); int unassignJob(JobContainer &job); size_t jobCount(); //called by send thread int sendRaw(uint8_t *buf, uint bufLen); int sendFromBuffer(); void start(); //called by recv thread void recvUDP(); int parseRaw(uint32_t *buf, int_least32_t bufLen); std::shared_ptr currentJob; RecvState recvState = RecvState::checkPreamble; size_t recvPayloadIndex = 0; uint_least64_t successCounter = 0; uint_least64_t failedCounter = 0; float latency = 0; private: //tx buffer for buffered send function uint32_t *sendBuffer; int_least32_t sendBufferReadIndex = 0; int_least32_t sendBufferAvailable = 0; std::mutex sendLock; //list of pending responses std::unordered_map> jobList; std::mutex jobLock; sockaddr_storage addrDest = {}; std::future recvResult; bool running = true; }; #endif