package stratum import ( "bytes" "encoding/binary" "encoding/hex" "log" "sync" "sync/atomic" "../../cnutil" "../../hashing" "../util" ) type Job struct { sync.RWMutex Id string ExtraNonce uint32 Height int64 Difficulty int64 Submissions map[string]bool } type Miner struct { sync.RWMutex Id string Login string Pass string IP string Difficulty int64 ValidJobs []*Job LastBlockHeight int64 Target uint32 TargetHex string LastBeat int64 Session *Session Endpoint *Endpoint } func (job *Job) submit(nonce string) bool { job.Lock() defer job.Unlock() _, exist := job.Submissions[nonce] if exist { return true } job.Submissions[nonce] = true return false } func NewMiner(login, pass string, diff int64, ip string) *Miner { id := util.Random() miner := &Miner{Id: id, Login: login, Pass: pass, Difficulty: diff, IP: ip} target, targetHex := util.GetTargetHex(diff) miner.Target = target miner.TargetHex = targetHex return miner } func (m *Miner) pushJob(job *Job) { m.Lock() defer m.Unlock() m.ValidJobs = append(m.ValidJobs, job) if len(m.ValidJobs) > 4 { m.ValidJobs = m.ValidJobs[1:] } } func (m *Miner) getJob(s *StratumServer) *JobReplyData { t := s.currentBlockTemplate() height := atomic.SwapInt64(&m.LastBlockHeight, t.Height) if height == t.Height { return &JobReplyData{} } extraNonce := atomic.AddUint32(&m.Endpoint.extraNonce, 1) blob := t.nextBlob(extraNonce, m.Endpoint.instanceId) job := &Job{Id: util.Random(), ExtraNonce: extraNonce, Height: t.Height, Difficulty: m.Difficulty} job.Submissions = make(map[string]bool) m.pushJob(job) reply := &JobReplyData{JobId: job.Id, Blob: blob, Target: m.TargetHex} return reply } func (m *Miner) heartbeat() { now := util.MakeTimestamp() atomic.StoreInt64(&m.LastBeat, now) } func (m *Miner) findJob(id string) *Job { m.RLock() defer m.RUnlock() for _, job := range m.ValidJobs { if job.Id == id { return job } } return nil } func (m *Miner) processShare(s *StratumServer, e *Endpoint, job *Job, t *BlockTemplate, nonce string, result string) bool { shareBuff := make([]byte, len(t.Buffer)) copy(shareBuff, t.Buffer) copy(shareBuff[t.ReservedOffset+4:t.ReservedOffset+7], e.instanceId) extraBuff := new(bytes.Buffer) binary.Write(extraBuff, binary.BigEndian, job.ExtraNonce) copy(shareBuff[t.ReservedOffset:], extraBuff.Bytes()) nonceBuff, _ := hex.DecodeString(nonce) copy(shareBuff[39:], nonceBuff) var hashBytes, convertedBlob []byte if s.config.BypassShareValidation { hashBytes, _ = hex.DecodeString(result) } else { convertedBlob = cnutil.ConvertBlob(shareBuff) hashBytes = hashing.Hash(convertedBlob, false) } if !s.config.BypassShareValidation && hex.EncodeToString(hashBytes) != result { log.Printf("Bad hash from miner %v@%v", m.Login, m.IP) return false } hashDiff := util.GetHashDifficulty(hashBytes).Int64() // FIXME: Will return max int64 value if overflows block := hashDiff >= t.Difficulty if block { _, err := s.rpc.SubmitBlock(hex.EncodeToString(shareBuff)) if err != nil { log.Printf("Block submission failure at height %v: %v", t.Height, err) } else { if len(convertedBlob) == 0 { convertedBlob = cnutil.ConvertBlob(shareBuff) } blockFastHash := hex.EncodeToString(hashing.FastHash(convertedBlob)) // Immediately refresh current BT and send new jobs s.refreshBlockTemplate(true) log.Printf("Block %v found at height %v by miner %v@%v", blockFastHash[0:6], t.Height, m.Login, m.IP) } } else if hashDiff < job.Difficulty { log.Printf("Rejected low difficulty share of %v from %v@%v", hashDiff, m.Login, m.IP) return false } log.Printf("Valid share at difficulty %v/%v", e.config.Difficulty, hashDiff) return true }