package datagramsession import ( "context" "fmt" "io" "time" "github.com/google/uuid" ) const ( defaultCloseIdleAfter = time.Second * 210 ) func SessionIdleErr(timeout time.Duration) error { return fmt.Errorf("session idle for %v", timeout) } // Each Session is a bidirectional pipe of datagrams between transport and dstConn // Currently the only implementation of transport is quic DatagramMuxer // Destination can be a connection with origin or with eyeball // When the destination is origin: // - Datagrams from edge are read by Manager from the transport. Manager finds the corresponding Session and calls the // write method of the Session to send to origin // - Datagrams from origin are read from conn and SentTo transport. Transport will return them to eyeball // When the destination is eyeball: // - Datagrams from eyeball are read from conn and SentTo transport. Transport will send them to cloudflared // - Datagrams from cloudflared are read by Manager from the transport. Manager finds the corresponding Session and calls the // write method of the Session to send to eyeball type Session struct { ID uuid.UUID transport transport dstConn io.ReadWriteCloser // activeAtChan is used to communicate the last read/write time activeAtChan chan time.Time closeChan chan error } func newSession(id uuid.UUID, transport transport, dstConn io.ReadWriteCloser) *Session { return &Session{ ID: id, transport: transport, dstConn: dstConn, // activeAtChan has low capacity. It can be full when there are many concurrent read/write. markActive() will // drop instead of blocking because last active time only needs to be an approximation activeAtChan: make(chan time.Time, 2), // capacity is 2 because close() and dstToTransport routine in Serve() can write to this channel closeChan: make(chan error, 2), } } func (s *Session) Serve(ctx context.Context, closeAfterIdle time.Duration) (closedByRemote bool, err error) { go func() { // QUIC implementation copies data to another buffer before returning https://github.com/lucas-clemente/quic-go/blob/v0.24.0/session.go#L1967-L1975 // This makes it safe to share readBuffer between iterations readBuffer := make([]byte, s.transport.MTU()) for { if err := s.dstToTransport(readBuffer); err != nil { s.closeChan <- err return } } }() err = s.waitForCloseCondition(ctx, closeAfterIdle) if closeSession, ok := err.(*errClosedSession); ok { closedByRemote = closeSession.byRemote } return closedByRemote, err } func (s *Session) waitForCloseCondition(ctx context.Context, closeAfterIdle time.Duration) error { // Closing dstConn cancels read so dstToTransport routine in Serve() can return defer s.dstConn.Close() if closeAfterIdle == 0 { // provide deafult is caller doesn't specify one closeAfterIdle = defaultCloseIdleAfter } checkIdleFreq := closeAfterIdle / 8 checkIdleTicker := time.NewTicker(checkIdleFreq) defer checkIdleTicker.Stop() activeAt := time.Now() for { select { case <-ctx.Done(): return ctx.Err() case reason := <-s.closeChan: return reason // TODO: TUN-5423 evaluate if using atomic is more efficient case now := <-checkIdleTicker.C: // The session is considered inactive if current time is after (last active time + allowed idle time) if now.After(activeAt.Add(closeAfterIdle)) { return SessionIdleErr(closeAfterIdle) } case activeAt = <-s.activeAtChan: // Update last active time } } } func (s *Session) dstToTransport(buffer []byte) error { n, err := s.dstConn.Read(buffer) s.markActive() if n > 0 { if err := s.transport.SendTo(s.ID, buffer[:n]); err != nil { return err } } return err } func (s *Session) transportToDst(payload []byte) (int, error) { s.markActive() return s.dstConn.Write(payload) } // Sends the last active time to the idle checker loop without blocking. activeAtChan will only be full when there // are many concurrent read/write. It is fine to lose some precision func (s *Session) markActive() { select { case s.activeAtChan <- time.Now(): default: } } func (s *Session) close(err *errClosedSession) { s.closeChan <- err }