package kcp import ( "sync" "v2ray.com/core/common/buf" ) type ReceivingWindow struct { start uint32 size uint32 list []*DataSegment } func NewReceivingWindow(size uint32) *ReceivingWindow { return &ReceivingWindow{ start: 0, size: size, list: make([]*DataSegment, size), } } func (v *ReceivingWindow) Size() uint32 { return v.size } func (v *ReceivingWindow) Position(idx uint32) uint32 { return (idx + v.start) % v.size } func (v *ReceivingWindow) Set(idx uint32, value *DataSegment) bool { pos := v.Position(idx) if v.list[pos] != nil { return false } v.list[pos] = value return true } func (v *ReceivingWindow) Remove(idx uint32) *DataSegment { pos := v.Position(idx) e := v.list[pos] v.list[pos] = nil return e } func (v *ReceivingWindow) RemoveFirst() *DataSegment { return v.Remove(0) } func (v *ReceivingWindow) Advance() { v.start++ if v.start == v.size { v.start = 0 } } type AckList struct { writer SegmentWriter timestamps []uint32 numbers []uint32 nextFlush []uint32 flushCandidates []uint32 dirty bool } func NewAckList(writer SegmentWriter) *AckList { return &AckList{ writer: writer, timestamps: make([]uint32, 0, 128), numbers: make([]uint32, 0, 128), nextFlush: make([]uint32, 0, 128), flushCandidates: make([]uint32, 0, 128), } } func (v *AckList) Add(number uint32, timestamp uint32) { v.timestamps = append(v.timestamps, timestamp) v.numbers = append(v.numbers, number) v.nextFlush = append(v.nextFlush, 0) v.dirty = true } func (v *AckList) Clear(una uint32) { count := 0 for i := 0; i < len(v.numbers); i++ { if v.numbers[i] < una { continue } if i != count { v.numbers[count] = v.numbers[i] v.timestamps[count] = v.timestamps[i] v.nextFlush[count] = v.nextFlush[i] } count++ } if count < len(v.numbers) { v.numbers = v.numbers[:count] v.timestamps = v.timestamps[:count] v.nextFlush = v.nextFlush[:count] v.dirty = true } } func (v *AckList) Flush(current uint32, rto uint32) { v.flushCandidates = v.flushCandidates[:0] seg := NewAckSegment() for i := 0; i < len(v.numbers); i++ { if v.nextFlush[i] > current { if len(v.flushCandidates) < cap(v.flushCandidates) { v.flushCandidates = append(v.flushCandidates, v.numbers[i]) } continue } seg.PutNumber(v.numbers[i]) seg.PutTimestamp(v.timestamps[i]) timeout := rto / 2 if timeout < 20 { timeout = 20 } v.nextFlush[i] = current + timeout if seg.IsFull() { v.writer.Write(seg) seg.Release() seg = NewAckSegment() v.dirty = false } } if v.dirty || seg.Count > 0 { for _, number := range v.flushCandidates { if seg.IsFull() { break } seg.PutNumber(number) } v.writer.Write(seg) seg.Release() v.dirty = false } } type ReceivingWorker struct { sync.RWMutex conn *Connection leftOver *buf.Buffer window *ReceivingWindow acklist *AckList nextNumber uint32 windowSize uint32 } func NewReceivingWorker(kcp *Connection) *ReceivingWorker { worker := &ReceivingWorker{ conn: kcp, window: NewReceivingWindow(kcp.Config.GetReceivingBufferSize()), windowSize: kcp.Config.GetReceivingInFlightSize(), } worker.acklist = NewAckList(worker) return worker } func (v *ReceivingWorker) Release() { v.leftOver.Release() } func (v *ReceivingWorker) ProcessSendingNext(number uint32) { v.Lock() defer v.Unlock() v.acklist.Clear(number) } func (v *ReceivingWorker) ProcessSegment(seg *DataSegment) { v.Lock() defer v.Unlock() number := seg.Number idx := number - v.nextNumber if idx >= v.windowSize { return } v.acklist.Clear(seg.SendingNext) v.acklist.Add(number, seg.Timestamp) if !v.window.Set(idx, seg) { seg.Release() } } func (v *ReceivingWorker) Read(b []byte) int { v.Lock() defer v.Unlock() total := 0 if v.leftOver != nil { nBytes := copy(b, v.leftOver.Bytes()) if nBytes < v.leftOver.Len() { v.leftOver.SliceFrom(nBytes) return nBytes } v.leftOver.Release() v.leftOver = nil total += nBytes } for total < len(b) { seg := v.window.RemoveFirst() if seg == nil { break } v.window.Advance() v.nextNumber++ nBytes := copy(b[total:], seg.Data.Bytes()) total += nBytes if nBytes < seg.Data.Len() { seg.Data.SliceFrom(nBytes) v.leftOver = seg.Data seg.Data = nil seg.Release() break } seg.Release() } return total } func (v *ReceivingWorker) Flush(current uint32) { v.Lock() defer v.Unlock() v.acklist.Flush(current, v.conn.roundTrip.Timeout()) } func (v *ReceivingWorker) Write(seg Segment) { ackSeg := seg.(*AckSegment) ackSeg.Conv = v.conn.conv ackSeg.ReceivingNext = v.nextNumber ackSeg.ReceivingWindow = v.nextNumber + v.windowSize if v.conn.state == StateReadyToClose { ackSeg.Option = SegmentOptionClose } v.conn.output.Write(ackSeg) } func (v *ReceivingWorker) CloseRead() { } func (v *ReceivingWorker) UpdateNecessary() bool { return len(v.acklist.numbers) > 0 }