package quic import ( "bytes" "fmt" "net" "sync" "time" "github.com/lucas-clemente/quic-go/internal/protocol" "github.com/lucas-clemente/quic-go/internal/utils" "github.com/lucas-clemente/quic-go/internal/wire" ) // The packetHandlerMap stores packetHandlers, identified by connection ID. // It is used: // * by the server to store sessions // * when multiplexing outgoing connections to store clients type packetHandlerMap struct { mutex sync.RWMutex conn net.PacketConn connIDLen int handlers map[string] /* string(ConnectionID)*/ packetHandler server unknownPacketHandler closed bool deleteClosedSessionsAfter time.Duration logger utils.Logger } var _ packetHandlerManager = &packetHandlerMap{} func newPacketHandlerMap(conn net.PacketConn, connIDLen int, logger utils.Logger) packetHandlerManager { m := &packetHandlerMap{ conn: conn, connIDLen: connIDLen, handlers: make(map[string]packetHandler), deleteClosedSessionsAfter: protocol.ClosedSessionDeleteTimeout, logger: logger, } go m.listen() return m } func (h *packetHandlerMap) Add(id protocol.ConnectionID, handler packetHandler) { h.mutex.Lock() h.handlers[string(id)] = handler h.mutex.Unlock() } func (h *packetHandlerMap) Remove(id protocol.ConnectionID) { h.removeByConnectionIDAsString(string(id)) } func (h *packetHandlerMap) removeByConnectionIDAsString(id string) { h.mutex.Lock() h.handlers[id] = nil h.mutex.Unlock() time.AfterFunc(h.deleteClosedSessionsAfter, func() { h.mutex.Lock() delete(h.handlers, id) h.mutex.Unlock() }) } func (h *packetHandlerMap) SetServer(s unknownPacketHandler) { h.mutex.Lock() h.server = s h.mutex.Unlock() } func (h *packetHandlerMap) CloseServer() { h.mutex.Lock() h.server = nil var wg sync.WaitGroup for id, handler := range h.handlers { if handler != nil && handler.GetPerspective() == protocol.PerspectiveServer { wg.Add(1) go func(id string, handler packetHandler) { // session.Close() blocks until the CONNECTION_CLOSE has been sent and the run-loop has stopped _ = handler.Close() h.removeByConnectionIDAsString(id) wg.Done() }(id, handler) } } h.mutex.Unlock() wg.Wait() } func (h *packetHandlerMap) close(e error) error { h.mutex.Lock() if h.closed { h.mutex.Unlock() return nil } h.closed = true var wg sync.WaitGroup for _, handler := range h.handlers { if handler != nil { wg.Add(1) go func(handler packetHandler) { handler.destroy(e) wg.Done() }(handler) } } if h.server != nil { h.server.closeWithError(e) } h.mutex.Unlock() wg.Wait() return nil } func (h *packetHandlerMap) listen() { for { data := *getPacketBuffer() data = data[:protocol.MaxReceivePacketSize] // The packet size should not exceed protocol.MaxReceivePacketSize bytes // If it does, we only read a truncated packet, which will then end up undecryptable n, addr, err := h.conn.ReadFrom(data) if err != nil { h.close(err) return } data = data[:n] if err := h.handlePacket(addr, data); err != nil { h.logger.Debugf("error handling packet from %s: %s", addr, err) } } } func (h *packetHandlerMap) handlePacket(addr net.Addr, data []byte) error { rcvTime := time.Now() r := bytes.NewReader(data) iHdr, err := wire.ParseInvariantHeader(r, h.connIDLen) // drop the packet if we can't parse the header if err != nil { return fmt.Errorf("error parsing invariant header: %s", err) } h.mutex.RLock() handler, ok := h.handlers[string(iHdr.DestConnectionID)] server := h.server h.mutex.RUnlock() var sentBy protocol.Perspective var version protocol.VersionNumber var handlePacket func(*receivedPacket) if ok && handler == nil { // Late packet for closed session return nil } if !ok { if server == nil { // no server set return fmt.Errorf("received a packet with an unexpected connection ID %s", iHdr.DestConnectionID) } handlePacket = server.handlePacket sentBy = protocol.PerspectiveClient version = iHdr.Version } else { sentBy = handler.GetPerspective().Opposite() version = handler.GetVersion() handlePacket = handler.handlePacket } hdr, err := iHdr.Parse(r, sentBy, version) if err != nil { return fmt.Errorf("error parsing header: %s", err) } hdr.Raw = data[:len(data)-r.Len()] packetData := data[len(data)-r.Len():] if hdr.IsLongHeader && hdr.Version.UsesLengthInHeader() { if protocol.ByteCount(len(packetData)) < hdr.PayloadLen { return fmt.Errorf("packet payload (%d bytes) is smaller than the expected payload length (%d bytes)", len(packetData), hdr.PayloadLen) } packetData = packetData[:int(hdr.PayloadLen)] // TODO(#1312): implement parsing of compound packets } handlePacket(&receivedPacket{ remoteAddr: addr, header: hdr, data: packetData, rcvTime: rcvTime, }) return nil }