package server import ( "bufio" "fmt" "io" "net" "sync" "github.com/tendermint/tendermint/abci/types" cmn "github.com/tendermint/tendermint/libs/common" ) // var maxNumberConnections = 2 type SocketServer struct { cmn.BaseService proto string addr string listener net.Listener connsMtx sync.Mutex conns map[int]net.Conn nextConnID int appMtx sync.Mutex app types.Application } func NewSocketServer(protoAddr string, app types.Application) cmn.Service { proto, addr := cmn.ProtocolAndAddress(protoAddr) s := &SocketServer{ proto: proto, addr: addr, listener: nil, app: app, conns: make(map[int]net.Conn), } s.BaseService = *cmn.NewBaseService(nil, "ABCIServer", s) return s } func (s *SocketServer) OnStart() error { if err := s.BaseService.OnStart(); err != nil { return err } ln, err := net.Listen(s.proto, s.addr) if err != nil { return err } s.listener = ln go s.acceptConnectionsRoutine() return nil } func (s *SocketServer) OnStop() { s.BaseService.OnStop() if err := s.listener.Close(); err != nil { s.Logger.Error("Error closing listener", "err", err) } s.connsMtx.Lock() defer s.connsMtx.Unlock() for id, conn := range s.conns { delete(s.conns, id) if err := conn.Close(); err != nil { s.Logger.Error("Error closing connection", "id", id, "conn", conn, "err", err) } } } func (s *SocketServer) addConn(conn net.Conn) int { s.connsMtx.Lock() defer s.connsMtx.Unlock() connID := s.nextConnID s.nextConnID++ s.conns[connID] = conn return connID } // deletes conn even if close errs func (s *SocketServer) rmConn(connID int) error { s.connsMtx.Lock() defer s.connsMtx.Unlock() conn, ok := s.conns[connID] if !ok { return fmt.Errorf("Connection %d does not exist", connID) } delete(s.conns, connID) return conn.Close() } func (s *SocketServer) acceptConnectionsRoutine() { for { // Accept a connection s.Logger.Info("Waiting for new connection...") conn, err := s.listener.Accept() if err != nil { if !s.IsRunning() { return // Ignore error from listener closing. } s.Logger.Error("Failed to accept connection: " + err.Error()) continue } s.Logger.Info("Accepted a new connection") connID := s.addConn(conn) closeConn := make(chan error, 2) // Push to signal connection closed responses := make(chan *types.Response, 1000) // A channel to buffer responses // Read requests from conn and deal with them go s.handleRequests(closeConn, conn, responses) // Pull responses from 'responses' and write them to conn. go s.handleResponses(closeConn, conn, responses) // Wait until signal to close connection go s.waitForClose(closeConn, connID) } } func (s *SocketServer) waitForClose(closeConn chan error, connID int) { err := <-closeConn if err == io.EOF { s.Logger.Error("Connection was closed by client") } else if err != nil { s.Logger.Error("Connection error", "error", err) } else { // never happens s.Logger.Error("Connection was closed.") } // Close the connection if err := s.rmConn(connID); err != nil { s.Logger.Error("Error in closing connection", "error", err) } } // Read requests from conn and deal with them func (s *SocketServer) handleRequests(closeConn chan error, conn net.Conn, responses chan<- *types.Response) { var count int var bufReader = bufio.NewReader(conn) defer func() { // make sure to recover from any app-related panics to allow proper socket cleanup r := recover() if r != nil { closeConn <- fmt.Errorf("recovered from panic: %v", r) s.appMtx.Unlock() } }() for { var req = &types.Request{} err := types.ReadMessage(bufReader, req) if err != nil { if err == io.EOF { closeConn <- err } else { closeConn <- fmt.Errorf("error reading message: %v", err) } return } s.appMtx.Lock() count++ s.handleRequest(req, responses) s.appMtx.Unlock() } } func (s *SocketServer) handleRequest(req *types.Request, responses chan<- *types.Response) { switch r := req.Value.(type) { case *types.Request_Echo: responses <- types.ToResponseEcho(r.Echo.Message) case *types.Request_Flush: responses <- types.ToResponseFlush() case *types.Request_Info: res := s.app.Info(*r.Info) responses <- types.ToResponseInfo(res) case *types.Request_SetOption: res := s.app.SetOption(*r.SetOption) responses <- types.ToResponseSetOption(res) case *types.Request_DeliverTx: res := s.app.DeliverTx(r.DeliverTx.Tx) responses <- types.ToResponseDeliverTx(res) case *types.Request_CheckTx: res := s.app.CheckTx(r.CheckTx.Tx) responses <- types.ToResponseCheckTx(res) case *types.Request_Commit: res := s.app.Commit() responses <- types.ToResponseCommit(res) case *types.Request_Query: res := s.app.Query(*r.Query) responses <- types.ToResponseQuery(res) case *types.Request_InitChain: res := s.app.InitChain(*r.InitChain) responses <- types.ToResponseInitChain(res) case *types.Request_BeginBlock: res := s.app.BeginBlock(*r.BeginBlock) responses <- types.ToResponseBeginBlock(res) case *types.Request_EndBlock: res := s.app.EndBlock(*r.EndBlock) responses <- types.ToResponseEndBlock(res) default: responses <- types.ToResponseException("Unknown request") } } // Pull responses from 'responses' and write them to conn. func (s *SocketServer) handleResponses(closeConn chan error, conn net.Conn, responses <-chan *types.Response) { var count int var bufWriter = bufio.NewWriter(conn) for { var res = <-responses err := types.WriteMessage(res, bufWriter) if err != nil { closeConn <- fmt.Errorf("Error writing message: %v", err.Error()) return } if _, ok := res.Value.(*types.Response_Flush); ok { err = bufWriter.Flush() if err != nil { closeConn <- fmt.Errorf("Error flushing write buffer: %v", err.Error()) return } } count++ } }