package net import ( "context" "fmt" "net" "sync" "sync/atomic" "time" "git.loafle.net/commons/logging-go" "git.loafle.net/commons/server-go" ) type Server struct { ServerHandler ServerHandler ctx server.ServerCtx stopChan chan struct{} stopWg sync.WaitGroup srw server.ServerReadWriter } func (s *Server) ListenAndServe() error { if s.stopChan != nil { return fmt.Errorf(s.serverMessage("already running. Stop it before starting it again")) } var ( err error listener net.Listener ) if nil == s.ServerHandler { return fmt.Errorf(s.serverMessage("server handler must be specified")) } if err = s.ServerHandler.Validate(); nil != err { return err } s.ctx = s.ServerHandler.ServerCtx() if nil == s.ctx { return fmt.Errorf(s.serverMessage("ServerCtx is nil")) } if err = s.ServerHandler.Init(s.ctx); nil != err { return err } if listener, err = s.ServerHandler.Listener(s.ctx); nil != err { return err } s.stopChan = make(chan struct{}) s.srw.ReadwriteHandler = s.ServerHandler s.srw.ServerStopChan = s.stopChan s.srw.ServerStopWg = &s.stopWg s.stopWg.Add(1) return s.handleServer(listener) } func (s *Server) Shutdown(ctx context.Context) error { if s.stopChan == nil { return fmt.Errorf("server must be started before stopping it") } close(s.stopChan) s.stopWg.Wait() s.ServerHandler.Destroy(s.ctx) s.stopChan = nil return nil } func (s *Server) serverMessage(msg string) string { return fmt.Sprintf("Server[%s]: %s", s.ServerHandler.GetName(), msg) } func (s *Server) handleServer(listener net.Listener) error { var ( stopping atomic.Value netConn net.Conn err error ) defer func() { if nil != listener { listener.Close() } s.ServerHandler.OnStop(s.ctx) logging.Logger().Infof(s.serverMessage("Stopped")) s.stopWg.Done() }() if err = s.ServerHandler.OnStart(s.ctx); nil != err { return err } logging.Logger().Infof(s.serverMessage("Started")) for { acceptChan := make(chan struct{}) go func() { if netConn, err = listener.Accept(); err != nil { if nil == stopping.Load() { logging.Logger().Errorf(s.serverMessage(fmt.Sprintf("%v", err))) } } close(acceptChan) }() select { case <-s.stopChan: stopping.Store(true) listener.Close() <-acceptChan listener = nil return nil case <-acceptChan: } if nil != err { select { case <-s.stopChan: return nil case <-time.After(time.Second): } continue } if 0 < s.ServerHandler.GetConcurrency() { sz := s.srw.ConnectionSize() if sz >= s.ServerHandler.GetConcurrency() { logging.Logger().Warnf(s.serverMessage(fmt.Sprintf("max connections size %d, refuse", sz))) netConn.Close() continue } } servlet := s.ServerHandler.(ServerHandler).Servlet(s.ctx, netConn) if nil == servlet { logging.Logger().Errorf(s.serverMessage("Servlet is nil")) continue } servletCtx := servlet.ServletCtx(s.ctx) if nil == servletCtx { logging.Logger().Errorf(s.serverMessage("ServletCtx is nil")) continue } if err := servlet.Handshake(servletCtx, netConn); nil != err { logging.Logger().Infof(s.serverMessage(fmt.Sprintf("Handshaking of Client[%s] has been failed %v", netConn.RemoteAddr(), err))) continue } conn := server.NewConn(netConn, true, s.ServerHandler.GetReadBufferSize(), s.ServerHandler.GetWriteBufferSize()) s.stopWg.Add(1) go s.srw.HandleConnection(servlet, servletCtx, conn) } }