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mirror of https://github.com/v2fly/v2ray-core.git synced 2024-12-22 18:17:52 -05:00
v2fly/transport/internet/kcp/receiving.go
Darien Raymond 630a76d06a
kcp cleanup
2018-01-17 17:36:14 +01:00

273 lines
5.1 KiB
Go

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 (w *ReceivingWindow) Size() uint32 {
return w.size
}
func (w *ReceivingWindow) Position(idx uint32) uint32 {
return (idx + w.start) % w.size
}
func (w *ReceivingWindow) Set(idx uint32, value *DataSegment) bool {
pos := w.Position(idx)
if w.list[pos] != nil {
return false
}
w.list[pos] = value
return true
}
func (w *ReceivingWindow) Remove(idx uint32) *DataSegment {
pos := w.Position(idx)
e := w.list[pos]
w.list[pos] = nil
return e
}
func (w *ReceivingWindow) RemoveFirst() *DataSegment {
return w.Remove(0)
}
func (w *ReceivingWindow) HasFirst() bool {
return w.list[w.Position(0)] != nil
}
func (w *ReceivingWindow) Advance() {
w.start++
if w.start == w.size {
w.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 (l *AckList) Add(number uint32, timestamp uint32) {
l.timestamps = append(l.timestamps, timestamp)
l.numbers = append(l.numbers, number)
l.nextFlush = append(l.nextFlush, 0)
l.dirty = true
}
func (l *AckList) Clear(una uint32) {
count := 0
for i := 0; i < len(l.numbers); i++ {
if l.numbers[i] < una {
continue
}
if i != count {
l.numbers[count] = l.numbers[i]
l.timestamps[count] = l.timestamps[i]
l.nextFlush[count] = l.nextFlush[i]
}
count++
}
if count < len(l.numbers) {
l.numbers = l.numbers[:count]
l.timestamps = l.timestamps[:count]
l.nextFlush = l.nextFlush[:count]
l.dirty = true
}
}
func (l *AckList) Flush(current uint32, rto uint32) {
l.flushCandidates = l.flushCandidates[:0]
seg := NewAckSegment()
for i := 0; i < len(l.numbers); i++ {
if l.nextFlush[i] > current {
if len(l.flushCandidates) < cap(l.flushCandidates) {
l.flushCandidates = append(l.flushCandidates, l.numbers[i])
}
continue
}
seg.PutNumber(l.numbers[i])
seg.PutTimestamp(l.timestamps[i])
timeout := rto / 2
if timeout < 20 {
timeout = 20
}
l.nextFlush[i] = current + timeout
if seg.IsFull() {
l.writer.Write(seg)
seg.Release()
seg = NewAckSegment()
l.dirty = false
}
}
if l.dirty || !seg.IsEmpty() {
for _, number := range l.flushCandidates {
if seg.IsFull() {
break
}
seg.PutNumber(number)
}
l.writer.Write(seg)
seg.Release()
l.dirty = false
}
}
type ReceivingWorker struct {
sync.RWMutex
conn *Connection
leftOver buf.MultiBuffer
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 (w *ReceivingWorker) Release() {
w.Lock()
w.leftOver.Release()
w.Unlock()
}
func (w *ReceivingWorker) ProcessSendingNext(number uint32) {
w.Lock()
defer w.Unlock()
w.acklist.Clear(number)
}
func (w *ReceivingWorker) ProcessSegment(seg *DataSegment) {
w.Lock()
defer w.Unlock()
number := seg.Number
idx := number - w.nextNumber
if idx >= w.windowSize {
return
}
w.acklist.Clear(seg.SendingNext)
w.acklist.Add(number, seg.Timestamp)
if !w.window.Set(idx, seg) {
seg.Release()
}
}
func (w *ReceivingWorker) ReadMultiBuffer() buf.MultiBuffer {
if w.leftOver != nil {
mb := w.leftOver
w.leftOver = nil
return mb
}
mb := buf.NewMultiBufferCap(32)
w.Lock()
defer w.Unlock()
for {
seg := w.window.RemoveFirst()
if seg == nil {
break
}
w.window.Advance()
w.nextNumber++
mb.Append(seg.Detach())
seg.Release()
}
return mb
}
func (w *ReceivingWorker) Read(b []byte) int {
mb := w.ReadMultiBuffer()
nBytes, _ := mb.Read(b)
if !mb.IsEmpty() {
w.leftOver = mb
}
return nBytes
}
func (w *ReceivingWorker) IsDataAvailable() bool {
w.RLock()
defer w.RUnlock()
return w.window.HasFirst()
}
func (w *ReceivingWorker) NextNumber() uint32 {
w.RLock()
defer w.RUnlock()
return w.nextNumber
}
func (w *ReceivingWorker) Flush(current uint32) {
w.Lock()
defer w.Unlock()
w.acklist.Flush(current, w.conn.roundTrip.Timeout())
}
func (w *ReceivingWorker) Write(seg Segment) error {
ackSeg := seg.(*AckSegment)
ackSeg.Conv = w.conn.meta.Conversation
ackSeg.ReceivingNext = w.nextNumber
ackSeg.ReceivingWindow = w.nextNumber + w.windowSize
if w.conn.State() == StateReadyToClose {
ackSeg.Option = SegmentOptionClose
}
return w.conn.output.Write(ackSeg)
}
func (*ReceivingWorker) CloseRead() {
}
func (w *ReceivingWorker) UpdateNecessary() bool {
w.RLock()
defer w.RUnlock()
return len(w.acklist.numbers) > 0
}