package stratum import ( "bytes" "encoding/binary" "encoding/hex" "log" "strconv" "sync" "sync/atomic" "time" "../cnutil" "../util" ) type Job struct { height int64 sync.RWMutex id string extraNonce uint32 submissions map[string]struct{} } type Miner struct { lastBeat int64 startedAt int64 validShares int64 invalidShares int64 staleShares int64 accepts int64 rejects int64 shares map[int64]int64 sync.RWMutex id string ip string } func (job *Job) submit(nonce string) bool { job.Lock() defer job.Unlock() if _, exist := job.submissions[nonce]; exist { return true } job.submissions[nonce] = struct{}{} return false } func NewMiner(id string, ip string) *Miner { shares := make(map[int64]int64) return &Miner{id: id, ip: ip, shares: shares} } func (cs *Session) getJob(t *BlockTemplate) *JobReplyData { height := atomic.SwapInt64(&cs.lastBlockHeight, t.height) if height == t.height { return &JobReplyData{} } extraNonce := atomic.AddUint32(&cs.endpoint.extraNonce, 1) blob := t.nextBlob(extraNonce, cs.endpoint.instanceId) id := atomic.AddUint64(&cs.endpoint.jobSequence, 1) job := &Job{ id: strconv.FormatUint(id, 10), extraNonce: extraNonce, height: t.height, } job.submissions = make(map[string]struct{}) cs.pushJob(job) majorVersion, err := strconv.ParseInt(blob[0:2], 16, 32) if err != nil { log.Printf("Failed to get major version: %v\n", err) } var algo string if majorVersion == 10 { algo = "cn/r" } else if majorVersion == 12 { algo = "rx/keva" } reply := &JobReplyData{ JobId: job.id, Blob: blob, Target: cs.endpoint.targetHex, Height: t.height, Algo: algo, SeedHash: t.seedHash, NextSeedHash: t.nextSeedHash, } return reply } func (cs *Session) pushJob(job *Job) { cs.Lock() defer cs.Unlock() cs.validJobs = append(cs.validJobs, job) if len(cs.validJobs) > 4 { cs.validJobs = cs.validJobs[1:] } } func (cs *Session) findJob(id string) *Job { cs.Lock() defer cs.Unlock() for _, job := range cs.validJobs { if job.id == id { return job } } return nil } func (m *Miner) heartbeat() { now := util.MakeTimestamp() atomic.StoreInt64(&m.lastBeat, now) } func (m *Miner) getLastBeat() int64 { return atomic.LoadInt64(&m.lastBeat) } func (m *Miner) storeShare(diff int64) { now := util.MakeTimestamp() / 1000 m.Lock() m.shares[now] += diff m.Unlock() } func (m *Miner) hashrate(estimationWindow time.Duration) float64 { now := util.MakeTimestamp() / 1000 totalShares := int64(0) window := int64(estimationWindow / time.Second) boundary := now - m.startedAt if boundary > window { boundary = window } m.Lock() for k, v := range m.shares { if k < now-86400 { delete(m.shares, k) } else if k >= now-window { totalShares += v } } m.Unlock() return float64(totalShares) / float64(boundary) } func (m *Miner) processShare(s *StratumServer, cs *Session, job *Job, t *BlockTemplate, nonce string, result string) bool { r := s.rpc() shareBuff := make([]byte, len(t.buffer)) copy(shareBuff, t.buffer) copy(shareBuff[t.reservedOffset+4:t.reservedOffset+7], cs.endpoint.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) if len(t.seedHash) == 0 { // cn/r hashBytes = cnutil.Hash(convertedBlob, false, int(t.height), "") } else { // rx/keva hashBytes = cnutil.Hash(convertedBlob, false, int(t.height), t.seedHash) } } if !s.config.BypassShareValidation && hex.EncodeToString(hashBytes) != result { log.Printf("Bad hash from miner %v@%v", m.id, cs.ip) atomic.AddInt64(&m.invalidShares, 1) return false } hashDiff, ok := util.GetHashDifficulty(hashBytes) if !ok { log.Printf("Bad hash from miner %v@%v", m.id, cs.ip) atomic.AddInt64(&m.invalidShares, 1) return false } block := hashDiff.Cmp(t.difficulty) >= 0 if block { _, err := r.SubmitBlock(hex.EncodeToString(shareBuff)) if err != nil { atomic.AddInt64(&m.rejects, 1) atomic.AddInt64(&r.Rejects, 1) log.Printf("Block rejected at height %d: %v", t.height, err) } else { if len(convertedBlob) == 0 { convertedBlob = cnutil.ConvertBlob(shareBuff) } blockFastHash := hex.EncodeToString(cnutil.FastHash(convertedBlob)) now := util.MakeTimestamp() roundShares := atomic.SwapInt64(&s.roundShares, 0) ratio := float64(roundShares) / float64(t.diffInt64) s.blocksMu.Lock() s.blockStats[now] = blockEntry{height: t.height, hash: blockFastHash, variance: ratio} s.blocksMu.Unlock() atomic.AddInt64(&m.accepts, 1) atomic.AddInt64(&r.Accepts, 1) atomic.StoreInt64(&r.LastSubmissionAt, now) log.Printf("Block %s found at height %d by miner %v@%v with ratio %.4f", blockFastHash[0:6], t.height, m.id, cs.ip, ratio) // Immediately refresh current BT and send new jobs s.refreshBlockTemplate(true) } } else if hashDiff.Cmp(cs.endpoint.difficulty) < 0 { log.Printf("Rejected low difficulty share of %v from %v@%v", hashDiff, m.id, cs.ip) atomic.AddInt64(&m.invalidShares, 1) return false } atomic.AddInt64(&s.roundShares, cs.endpoint.config.Difficulty) atomic.AddInt64(&m.validShares, 1) m.storeShare(cs.endpoint.config.Difficulty) log.Printf("Valid share at difficulty %v/%v", cs.endpoint.config.Difficulty, hashDiff) return true }