package v3 import ( "context" "errors" "fmt" "io" "net" "sync" "sync/atomic" "time" "github.com/rs/zerolog" ) const ( // A default is provided in the case that the client does not provide a close idle timeout. defaultCloseIdleAfter = 210 * time.Second // The maximum payload from the origin that we will be able to read. However, even though we will // read 1500 bytes from the origin, we limit the amount of bytes to be proxied to less than // this value (maxDatagramPayloadLen). maxOriginUDPPacketSize = 1500 logFlowID = "flowID" logPacketSizeKey = "packetSize" ) // SessionCloseErr indicates that the session's Close method was called. var SessionCloseErr error = errors.New("flow was closed directly") // SessionIdleErr is returned when the session was closed because there was no communication // in either direction over the session for the timeout period. type SessionIdleErr struct { timeout time.Duration } func (e SessionIdleErr) Error() string { return fmt.Sprintf("flow was idle for %v", e.timeout) } func (e SessionIdleErr) Is(target error) bool { _, ok := target.(SessionIdleErr) return ok } func newSessionIdleErr(timeout time.Duration) error { return SessionIdleErr{timeout} } type Session interface { io.WriteCloser ID() RequestID ConnectionID() uint8 RemoteAddr() net.Addr LocalAddr() net.Addr ResetIdleTimer() Migrate(eyeball DatagramConn, ctx context.Context, logger *zerolog.Logger) // Serve starts the event loop for processing UDP packets Serve(ctx context.Context) error } type session struct { id RequestID closeAfterIdle time.Duration origin io.ReadWriteCloser originAddr net.Addr localAddr net.Addr eyeball atomic.Pointer[DatagramConn] // activeAtChan is used to communicate the last read/write time activeAtChan chan time.Time closeChan chan error contextChan chan context.Context metrics Metrics log *zerolog.Logger } func NewSession( id RequestID, closeAfterIdle time.Duration, origin io.ReadWriteCloser, originAddr net.Addr, localAddr net.Addr, eyeball DatagramConn, metrics Metrics, log *zerolog.Logger, ) Session { logger := log.With().Str(logFlowID, id.String()).Logger() session := &session{ id: id, closeAfterIdle: closeAfterIdle, origin: origin, originAddr: originAddr, localAddr: localAddr, eyeball: atomic.Pointer[DatagramConn]{}, // 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, 1), closeChan: make(chan error, 1), // contextChan is an unbounded channel to help enforce one active migration of a session at a time. contextChan: make(chan context.Context), metrics: metrics, log: &logger, } session.eyeball.Store(&eyeball) return session } func (s *session) ID() RequestID { return s.id } func (s *session) RemoteAddr() net.Addr { return s.originAddr } func (s *session) LocalAddr() net.Addr { return s.localAddr } func (s *session) ConnectionID() uint8 { eyeball := *(s.eyeball.Load()) return eyeball.ID() } func (s *session) Migrate(eyeball DatagramConn, ctx context.Context, logger *zerolog.Logger) { current := *(s.eyeball.Load()) // Only migrate if the connection ids are different. if current.ID() != eyeball.ID() { s.eyeball.Store(&eyeball) s.contextChan <- ctx log := logger.With().Str(logFlowID, s.id.String()).Logger() s.log = &log } // The session is already running so we want to restart the idle timeout since no proxied packets have come down yet. s.markActive() s.metrics.MigrateFlow() } func (s *session) Serve(ctx context.Context) error { go func() { // QUIC implementation copies data to another buffer before returning https://github.com/quic-go/quic-go/blob/v0.24.0/session.go#L1967-L1975 // This makes it safe to share readBuffer between iterations readBuffer := [maxOriginUDPPacketSize + DatagramPayloadHeaderLen]byte{} // To perform a zero copy write when passing the datagram to the connection, we prepare the buffer with // the required datagram header information. We can reuse this buffer for this session since the header is the // same for the each read. MarshalPayloadHeaderTo(s.id, readBuffer[:DatagramPayloadHeaderLen]) for { // Read from the origin UDP socket n, err := s.origin.Read(readBuffer[DatagramPayloadHeaderLen:]) if err != nil { if errors.Is(err, io.EOF) || errors.Is(err, io.ErrUnexpectedEOF) { s.log.Debug().Msgf("flow (origin) connection closed: %v", err) } s.closeChan <- err return } if n < 0 { s.log.Warn().Int(logPacketSizeKey, n).Msg("flow (origin) packet read was negative and was dropped") continue } if n > maxDatagramPayloadLen { s.metrics.PayloadTooLarge() s.log.Error().Int(logPacketSizeKey, n).Msg("flow (origin) packet read was too large and was dropped") continue } // We need to synchronize on the eyeball in-case that the connection was migrated. This should be rarely a point // of lock contention, as a migration can only happen during startup of a session before traffic flow. eyeball := *(s.eyeball.Load()) // Sending a packet to the session does block on the [quic.Connection], however, this is okay because it // will cause back-pressure to the kernel buffer if the writes are not fast enough to the edge. err = eyeball.SendUDPSessionDatagram(readBuffer[:DatagramPayloadHeaderLen+n]) if err != nil { s.closeChan <- err return } // Mark the session as active since we proxied a valid packet from the origin. s.markActive() } }() return s.waitForCloseCondition(ctx, s.closeAfterIdle) } func (s *session) Write(payload []byte) (n int, err error) { n, err = s.origin.Write(payload) if err != nil { s.log.Err(err).Msg("failed to write payload to flow (remote)") return n, err } // Write must return a non-nil error if it returns n < len(p). https://pkg.go.dev/io#Writer if n < len(payload) { s.log.Err(io.ErrShortWrite).Msg("failed to write the full payload to flow (remote)") return n, io.ErrShortWrite } // Mark the session as active since we proxied a packet to the origin. s.markActive() return n, err } // ResetIdleTimer will restart the current idle timer. // // This public method is used to allow operators of sessions the ability to extend the session using information that is // known external to the session itself. func (s *session) ResetIdleTimer() { s.markActive() } // 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() error { // Make sure that we only close the origin connection once return sync.OnceValue(func() error { // We don't want to block on sending to the close channel if it is already full select { case s.closeChan <- SessionCloseErr: default: } return s.origin.Close() })() } func (s *session) waitForCloseCondition(ctx context.Context, closeAfterIdle time.Duration) error { connCtx := ctx // Closing the session at the end cancels read so Serve() can return defer s.Close() if closeAfterIdle == 0 { // provide deafult is caller doesn't specify one closeAfterIdle = defaultCloseIdleAfter } checkIdleTimer := time.NewTimer(closeAfterIdle) defer checkIdleTimer.Stop() for { select { case <-connCtx.Done(): return connCtx.Err() case newContext := <-s.contextChan: // During migration of a session, we need to make sure that the context of the new connection is used instead // of the old connection context. This will ensure that when the old connection goes away, this session will // still be active on the existing connection. connCtx = newContext continue case reason := <-s.closeChan: return reason case <-checkIdleTimer.C: // The check idle timer will only return after an idle period since the last active // operation (read or write). return newSessionIdleErr(closeAfterIdle) case <-s.activeAtChan: // The session is still active, we want to reset the timer. First we have to stop the timer, drain the // current value and then reset. It's okay if we lose some time on this operation as we don't need to // close an idle session directly on-time. if !checkIdleTimer.Stop() { <-checkIdleTimer.C } checkIdleTimer.Reset(closeAfterIdle) } } }