package stratum import ( "bufio" "crypto/rand" "encoding/json" "fmt" "io" "log" "math/big" "net" "sync" "sync/atomic" "time" "../pool" "../rpc" "../util" ) type StratumServer struct { luckWindow int64 luckLargeWindow int64 roundShares int64 blockStats map[int64]blockEntry config *pool.Config miners MinersMap blockTemplate atomic.Value upstream int32 upstreams []*rpc.RPCClient timeout time.Duration estimationWindow time.Duration blocksMu sync.RWMutex sessionsMu sync.RWMutex sessions map[*Session]struct{} } type blockEntry struct { height int64 variance float64 hash string } type Endpoint struct { jobSequence uint64 config *pool.Port difficulty *big.Int instanceId []byte extraNonce uint32 targetHex string } type Session struct { lastBlockHeight int64 sync.Mutex conn *net.TCPConn enc *json.Encoder ip string endpoint *Endpoint validJobs []*Job } const ( MaxReqSize = 10 * 1024 ) func NewStratum(cfg *pool.Config) *StratumServer { stratum := &StratumServer{config: cfg, blockStats: make(map[int64]blockEntry)} stratum.upstreams = make([]*rpc.RPCClient, len(cfg.Upstream)) for i, v := range cfg.Upstream { client, err := rpc.NewRPCClient(&v) if err != nil { log.Fatal(err) } else { stratum.upstreams[i] = client log.Printf("Upstream: %s => %s", client.Name, client.Url) } } log.Printf("Default upstream: %s => %s", stratum.rpc().Name, stratum.rpc().Url) stratum.miners = NewMinersMap() stratum.sessions = make(map[*Session]struct{}) timeout, _ := time.ParseDuration(cfg.Stratum.Timeout) stratum.timeout = timeout estimationWindow, _ := time.ParseDuration(cfg.EstimationWindow) stratum.estimationWindow = estimationWindow luckWindow, _ := time.ParseDuration(cfg.LuckWindow) stratum.luckWindow = int64(luckWindow / time.Millisecond) luckLargeWindow, _ := time.ParseDuration(cfg.LargeLuckWindow) stratum.luckLargeWindow = int64(luckLargeWindow / time.Millisecond) refreshIntv, _ := time.ParseDuration(cfg.BlockRefreshInterval) refreshTimer := time.NewTimer(refreshIntv) log.Printf("Set block refresh every %v", refreshIntv) checkIntv, _ := time.ParseDuration(cfg.UpstreamCheckInterval) checkTimer := time.NewTimer(checkIntv) infoIntv, _ := time.ParseDuration(cfg.UpstreamCheckInterval) infoTimer := time.NewTimer(infoIntv) // Init block template go stratum.refreshBlockTemplate(false) go func() { for { select { case <-refreshTimer.C: stratum.refreshBlockTemplate(true) refreshTimer.Reset(refreshIntv) } } }() go func() { for { select { case <-checkTimer.C: stratum.checkUpstreams() checkTimer.Reset(checkIntv) } } }() go func() { for { select { case <-infoTimer.C: poll := func(v *rpc.RPCClient) { _, err := v.UpdateInfo() if err != nil { log.Printf("Unable to update info on upstream %s: %v", v.Name, err) } } current := stratum.rpc() poll(current) // Async rpc call to not block on rpc timeout, ignoring current go func() { for _, v := range stratum.upstreams { if v != current { poll(v) } } }() infoTimer.Reset(infoIntv) } } }() return stratum } func NewEndpoint(cfg *pool.Port) *Endpoint { e := &Endpoint{config: cfg} e.instanceId = make([]byte, 4) _, err := rand.Read(e.instanceId) if err != nil { log.Fatalf("Can't seed with random bytes: %v", err) } e.targetHex = util.GetTargetHex(e.config.Difficulty) e.difficulty = big.NewInt(e.config.Difficulty) return e } func (s *StratumServer) Listen() { quit := make(chan bool) for _, port := range s.config.Stratum.Ports { go func(cfg pool.Port) { e := NewEndpoint(&cfg) e.Listen(s) }(port) } <-quit } func (e *Endpoint) Listen(s *StratumServer) { bindAddr := fmt.Sprintf("%s:%d", e.config.Host, e.config.Port) addr, err := net.ResolveTCPAddr("tcp", bindAddr) if err != nil { log.Fatalf("Error: %v", err) } server, err := net.ListenTCP("tcp", addr) if err != nil { log.Fatalf("Error: %v", err) } defer server.Close() log.Printf("Stratum listening on %s", bindAddr) accept := make(chan int, e.config.MaxConn) n := 0 for { conn, err := server.AcceptTCP() if err != nil { continue } conn.SetKeepAlive(true) ip, _, _ := net.SplitHostPort(conn.RemoteAddr().String()) cs := &Session{conn: conn, ip: ip, enc: json.NewEncoder(conn), endpoint: e} n += 1 accept <- n go func() { s.handleClient(cs, e) <-accept }() } } func (s *StratumServer) handleClient(cs *Session, e *Endpoint) { connbuff := bufio.NewReaderSize(cs.conn, MaxReqSize) s.setDeadline(cs.conn) for { data, isPrefix, err := connbuff.ReadLine() if isPrefix { log.Println("Socket flood detected from", cs.ip) break } else if err == io.EOF { log.Println("Client disconnected", cs.ip) break } else if err != nil { log.Println("Error reading:", err) break } // NOTICE: cpuminer-multi sends junk newlines, so we demand at least 1 byte for decode // NOTICE: Ns*CNMiner.exe will send malformed JSON on very low diff, not sure we should handle this if len(data) > 1 { var req JSONRpcReq err = json.Unmarshal(data, &req) if err != nil { log.Printf("Malformed request from %s: %v", cs.ip, err) break } s.setDeadline(cs.conn) err = cs.handleMessage(s, e, &req) if err != nil { break } } } s.removeSession(cs) cs.conn.Close() } func (cs *Session) handleMessage(s *StratumServer, e *Endpoint, req *JSONRpcReq) error { if req.Id == nil { err := fmt.Errorf("Server disconnect request") log.Println(err) return err } else if req.Params == nil { err := fmt.Errorf("Server RPC request params") log.Println(err) return err } // Handle RPC methods switch req.Method { case "login": var params LoginParams err := json.Unmarshal(*req.Params, ¶ms) if err != nil { log.Println("Unable to parse params") return err } reply, errReply := s.handleLoginRPC(cs, ¶ms) if errReply != nil { return cs.sendError(req.Id, errReply, true) } return cs.sendResult(req.Id, &reply) case "getjob": var params GetJobParams err := json.Unmarshal(*req.Params, ¶ms) if err != nil { log.Println("Unable to parse params") return err } reply, errReply := s.handleGetJobRPC(cs, ¶ms) if errReply != nil { return cs.sendError(req.Id, errReply, true) } return cs.sendResult(req.Id, &reply) case "submit": var params SubmitParams err := json.Unmarshal(*req.Params, ¶ms) if err != nil { log.Println("Unable to parse params") return err } reply, errReply := s.handleSubmitRPC(cs, ¶ms) if errReply != nil { return cs.sendError(req.Id, errReply, false) } return cs.sendResult(req.Id, &reply) case "keepalived": return cs.sendResult(req.Id, &StatusReply{Status: "KEEPALIVED"}) default: errReply := s.handleUnknownRPC(req) return cs.sendError(req.Id, errReply, true) } } func (cs *Session) sendResult(id *json.RawMessage, result interface{}) error { cs.Lock() defer cs.Unlock() message := JSONRpcResp{Id: id, Version: "2.0", Error: nil, Result: result} return cs.enc.Encode(&message) } func (cs *Session) pushMessage(method string, params interface{}) error { cs.Lock() defer cs.Unlock() message := JSONPushMessage{Version: "2.0", Method: method, Params: params} return cs.enc.Encode(&message) } func (cs *Session) sendError(id *json.RawMessage, reply *ErrorReply, drop bool) error { cs.Lock() defer cs.Unlock() message := JSONRpcResp{Id: id, Version: "2.0", Error: reply} err := cs.enc.Encode(&message) if err != nil { return err } if drop { return fmt.Errorf("Server disconnect request") } return nil } func (s *StratumServer) setDeadline(conn *net.TCPConn) { conn.SetDeadline(time.Now().Add(s.timeout)) } func (s *StratumServer) registerSession(cs *Session) { s.sessionsMu.Lock() defer s.sessionsMu.Unlock() s.sessions[cs] = struct{}{} } func (s *StratumServer) removeSession(cs *Session) { s.sessionsMu.Lock() defer s.sessionsMu.Unlock() delete(s.sessions, cs) } func (s *StratumServer) isActive(cs *Session) bool { s.sessionsMu.RLock() defer s.sessionsMu.RUnlock() _, exist := s.sessions[cs] return exist } func (s *StratumServer) registerMiner(miner *Miner) { s.miners.Set(miner.id, miner) } func (s *StratumServer) removeMiner(id string) { s.miners.Remove(id) } func (s *StratumServer) currentBlockTemplate() *BlockTemplate { if t := s.blockTemplate.Load(); t != nil { return t.(*BlockTemplate) } return nil } func (s *StratumServer) checkUpstreams() { candidate := int32(0) backup := false for i, v := range s.upstreams { ok, err := v.Check(8, s.config.Address) if err != nil { log.Printf("Upstream %v didn't pass check: %v", v.Name, err) } if ok && !backup { candidate = int32(i) backup = true } } if s.upstream != candidate { log.Printf("Switching to %v upstream", s.upstreams[candidate].Name) atomic.StoreInt32(&s.upstream, candidate) } } func (s *StratumServer) rpc() *rpc.RPCClient { i := atomic.LoadInt32(&s.upstream) return s.upstreams[i] }