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189 lines
5.6 KiB
Go
189 lines
5.6 KiB
Go
package quic
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import (
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"github.com/lucas-clemente/quic-go/flowcontrol"
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"github.com/lucas-clemente/quic-go/frames"
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"github.com/lucas-clemente/quic-go/internal/utils"
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"github.com/lucas-clemente/quic-go/protocol"
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)
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type streamFramer struct {
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streamsMap *streamsMap
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flowControlManager flowcontrol.FlowControlManager
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retransmissionQueue []*frames.StreamFrame
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blockedFrameQueue []*frames.BlockedFrame
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}
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func newStreamFramer(streamsMap *streamsMap, flowControlManager flowcontrol.FlowControlManager) *streamFramer {
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return &streamFramer{
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streamsMap: streamsMap,
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flowControlManager: flowControlManager,
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}
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}
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func (f *streamFramer) AddFrameForRetransmission(frame *frames.StreamFrame) {
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f.retransmissionQueue = append(f.retransmissionQueue, frame)
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}
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func (f *streamFramer) PopStreamFrames(maxLen protocol.ByteCount) []*frames.StreamFrame {
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fs, currentLen := f.maybePopFramesForRetransmission(maxLen)
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return append(fs, f.maybePopNormalFrames(maxLen-currentLen)...)
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}
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func (f *streamFramer) PopBlockedFrame() *frames.BlockedFrame {
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if len(f.blockedFrameQueue) == 0 {
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return nil
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}
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frame := f.blockedFrameQueue[0]
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f.blockedFrameQueue = f.blockedFrameQueue[1:]
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return frame
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}
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func (f *streamFramer) HasFramesForRetransmission() bool {
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return len(f.retransmissionQueue) > 0
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}
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func (f *streamFramer) HasCryptoStreamFrame() bool {
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// TODO(#657): Flow control
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cs, _ := f.streamsMap.GetOrOpenStream(1)
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return cs.lenOfDataForWriting() > 0
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}
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// TODO(lclemente): This is somewhat duplicate with the normal path for generating frames.
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// TODO(#657): Flow control
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func (f *streamFramer) PopCryptoStreamFrame(maxLen protocol.ByteCount) *frames.StreamFrame {
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if !f.HasCryptoStreamFrame() {
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return nil
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}
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cs, _ := f.streamsMap.GetOrOpenStream(1)
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frame := &frames.StreamFrame{
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StreamID: 1,
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Offset: cs.writeOffset,
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}
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frameHeaderBytes, _ := frame.MinLength(protocol.VersionWhatever) // can never error
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frame.Data = cs.getDataForWriting(maxLen - frameHeaderBytes)
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return frame
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}
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func (f *streamFramer) maybePopFramesForRetransmission(maxLen protocol.ByteCount) (res []*frames.StreamFrame, currentLen protocol.ByteCount) {
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for len(f.retransmissionQueue) > 0 {
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frame := f.retransmissionQueue[0]
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frame.DataLenPresent = true
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frameHeaderLen, _ := frame.MinLength(protocol.VersionWhatever) // can never error
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if currentLen+frameHeaderLen >= maxLen {
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break
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}
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currentLen += frameHeaderLen
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splitFrame := maybeSplitOffFrame(frame, maxLen-currentLen)
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if splitFrame != nil { // StreamFrame was split
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res = append(res, splitFrame)
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currentLen += splitFrame.DataLen()
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break
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}
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f.retransmissionQueue = f.retransmissionQueue[1:]
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res = append(res, frame)
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currentLen += frame.DataLen()
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}
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return
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}
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func (f *streamFramer) maybePopNormalFrames(maxBytes protocol.ByteCount) (res []*frames.StreamFrame) {
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frame := &frames.StreamFrame{DataLenPresent: true}
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var currentLen protocol.ByteCount
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fn := func(s *stream) (bool, error) {
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if s == nil || s.streamID == 1 /* crypto stream is handled separately */ {
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return true, nil
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}
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frame.StreamID = s.streamID
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// not perfect, but thread-safe since writeOffset is only written when getting data
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frame.Offset = s.writeOffset
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frameHeaderBytes, _ := frame.MinLength(protocol.VersionWhatever) // can never error
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if currentLen+frameHeaderBytes > maxBytes {
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return false, nil // theoretically, we could find another stream that fits, but this is quite unlikely, so we stop here
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}
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maxLen := maxBytes - currentLen - frameHeaderBytes
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var sendWindowSize protocol.ByteCount
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lenStreamData := s.lenOfDataForWriting()
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if lenStreamData != 0 {
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sendWindowSize, _ = f.flowControlManager.SendWindowSize(s.streamID)
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maxLen = utils.MinByteCount(maxLen, sendWindowSize)
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}
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if maxLen == 0 {
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return true, nil
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}
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var data []byte
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if lenStreamData != 0 {
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// Only getDataForWriting() if we didn't have data earlier, so that we
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// don't send without FC approval (if a Write() raced).
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data = s.getDataForWriting(maxLen)
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}
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// This is unlikely, but check it nonetheless, the scheduler might have jumped in. Seems to happen in ~20% of cases in the tests.
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shouldSendFin := s.shouldSendFin()
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if data == nil && !shouldSendFin {
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return true, nil
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}
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if shouldSendFin {
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frame.FinBit = true
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s.sentFin()
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}
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frame.Data = data
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f.flowControlManager.AddBytesSent(s.streamID, protocol.ByteCount(len(data)))
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// Finally, check if we are now FC blocked and should queue a BLOCKED frame
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if f.flowControlManager.RemainingConnectionWindowSize() == 0 {
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// We are now connection-level FC blocked
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f.blockedFrameQueue = append(f.blockedFrameQueue, &frames.BlockedFrame{StreamID: 0})
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} else if !frame.FinBit && sendWindowSize-frame.DataLen() == 0 {
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// We are now stream-level FC blocked
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f.blockedFrameQueue = append(f.blockedFrameQueue, &frames.BlockedFrame{StreamID: s.StreamID()})
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}
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res = append(res, frame)
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currentLen += frameHeaderBytes + frame.DataLen()
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if currentLen == maxBytes {
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return false, nil
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}
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frame = &frames.StreamFrame{DataLenPresent: true}
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return true, nil
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}
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f.streamsMap.RoundRobinIterate(fn)
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return
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}
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// maybeSplitOffFrame removes the first n bytes and returns them as a separate frame. If n >= len(frame), nil is returned and nothing is modified.
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func maybeSplitOffFrame(frame *frames.StreamFrame, n protocol.ByteCount) *frames.StreamFrame {
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if n >= frame.DataLen() {
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return nil
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}
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defer func() {
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frame.Data = frame.Data[n:]
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frame.Offset += n
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}()
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return &frames.StreamFrame{
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FinBit: false,
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StreamID: frame.StreamID,
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Offset: frame.Offset,
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Data: frame.Data[:n],
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DataLenPresent: frame.DataLenPresent,
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}
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}
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