Fix: Deprecate TCPMSS (#336)
* 修改 DefaultTCPMSS 为 MaxDatagramSize 修改 MaxDatagramSize 的值提高 TUIC 的上传速度
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be6142aa43
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2 changed files with 42 additions and 20 deletions
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@ -12,12 +12,14 @@ import (
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"github.com/metacubex/quic-go/congestion"
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"github.com/metacubex/quic-go/congestion"
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)
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)
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const DefaultTCPMSS congestion.ByteCount = 1460
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const (
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const DefaultBBRMaxCongestionWindow congestion.ByteCount = 2000 * DefaultTCPMSS
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MaxDatagramSize = 1252
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const InitialCongestionWindow congestion.ByteCount = 32 * DefaultTCPMSS
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DefaultBBRMaxCongestionWindow congestion.ByteCount = 2000 * MaxDatagramSize
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const MinInitialPacketSize = 1200
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InitialCongestionWindow congestion.ByteCount = 10 * MaxDatagramSize
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const InitialPacketSizeIPv4 = 1252
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MinInitialPacketSize = 1200
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const InitialPacketSizeIPv6 = 1232
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InitialPacketSizeIPv4 = 1252
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InitialPacketSizeIPv6 = 1232
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)
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func GetMaxPacketSize(addr net.Addr) congestion.ByteCount {
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func GetMaxPacketSize(addr net.Addr) congestion.ByteCount {
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maxSize := congestion.ByteCount(MinInitialPacketSize)
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maxSize := congestion.ByteCount(MinInitialPacketSize)
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@ -33,17 +35,32 @@ func GetMaxPacketSize(addr net.Addr) congestion.ByteCount {
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return maxSize
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return maxSize
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}
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}
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func GetMaxOutgoingPacketSize(addr net.Addr) congestion.ByteCount {
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maxSize := congestion.ByteCount(MinInitialPacketSize)
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// If this is not a UDP address, we don't know anything about the MTU.
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// Use the minimum size of an Initial packet as the max packet size.
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if udpAddr, ok := addr.(*net.UDPAddr); ok {
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if udpAddr.IP.To4() != nil {
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//The maximum packet size of any QUIC packet over IPv4. 1500(Ethernet) - 20(IPv4 header) - 8(UDP header) = 1472.
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maxSize = congestion.ByteCount(1472)
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} else {
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// The maximum outgoing packet size allowed.
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// The maximum packet size of any QUIC packet over IPv6, based on ethernet's max
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// size, minus the IP and UDP headers. IPv6 has a 40 byte header, UDP adds an
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// additional 8 bytes. This is a total overhead of 48 bytes. Ethernet's
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// max packet size is 1500 bytes, 1500 - 48 = 1452.
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maxSize = congestion.ByteCount(1452)
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}
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}
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return maxSize
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}
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var (
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var (
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// The maximum outgoing packet size allowed.
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// The maximum packet size of any QUIC packet over IPv6, based on ethernet's max
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// size, minus the IP and UDP headers. IPv6 has a 40 byte header, UDP adds an
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// additional 8 bytes. This is a total overhead of 48 bytes. Ethernet's
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// max packet size is 1500 bytes, 1500 - 48 = 1452.
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MaxOutgoingPacketSize = congestion.ByteCount(1452)
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// Default maximum packet size used in the Linux TCP implementation.
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// Default maximum packet size used in the Linux TCP implementation.
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// Used in QUIC for congestion window computations in bytes.
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// Used in QUIC for congestion window computations in bytes.
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MaxSegmentSize = DefaultTCPMSS
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MaxSegmentSize = MaxDatagramSize
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// Default initial rtt used before any samples are received.
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// Default initial rtt used before any samples are received.
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InitialRtt = 100 * time.Millisecond
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InitialRtt = 100 * time.Millisecond
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@ -51,10 +68,10 @@ var (
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// Constants based on TCP defaults.
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// Constants based on TCP defaults.
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// The minimum CWND to ensure delayed acks don't reduce bandwidth measurements.
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// The minimum CWND to ensure delayed acks don't reduce bandwidth measurements.
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// Does not inflate the pacing rate.
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// Does not inflate the pacing rate.
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DefaultMinimumCongestionWindow = 4 * DefaultTCPMSS
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DefaultMinimumCongestionWindow = 4 * MaxDatagramSize
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// The gain used for the STARTUP, equal to 2/ln(2).
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// The gain used for the STARTUP, equal to 2/ln(2).
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DefaultHighGain = 2.885
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DefaultHighGain = 2.89
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// The gain used in STARTUP after loss has been detected.
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// The gain used in STARTUP after loss has been detected.
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// 1.5 is enough to allow for 25% exogenous loss and still observe a 25% growth
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// 1.5 is enough to allow for 25% exogenous loss and still observe a 25% growth
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@ -249,11 +266,14 @@ type bbrSender struct {
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// Latched value of --quic_always_get_bw_sample_when_acked.
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// Latched value of --quic_always_get_bw_sample_when_acked.
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alwaysGetBwSampleWhenAcked bool
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alwaysGetBwSampleWhenAcked bool
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pacer *pacer
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pacer *pacer
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maxDatagramSize congestion.ByteCount
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maxDatagramSize congestion.ByteCount
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MaxOutgoingPacketSize congestion.ByteCount
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}
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}
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func NewBBRSender(clock Clock, initialMaxDatagramSize, initialCongestionWindow, maxCongestionWindow congestion.ByteCount) *bbrSender {
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func NewBBRSender(clock Clock, initialMaxDatagramSize, initialCongestionWindow, initialMaxOutgoingPacketSize, maxCongestionWindow congestion.ByteCount) *bbrSender {
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b := &bbrSender{
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b := &bbrSender{
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mode: STARTUP,
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mode: STARTUP,
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clock: clock,
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clock: clock,
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@ -263,7 +283,7 @@ func NewBBRSender(clock Clock, initialMaxDatagramSize, initialCongestionWindow,
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congestionWindow: initialCongestionWindow,
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congestionWindow: initialCongestionWindow,
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initialCongestionWindow: initialCongestionWindow,
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initialCongestionWindow: initialCongestionWindow,
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maxCongestionWindow: maxCongestionWindow,
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maxCongestionWindow: maxCongestionWindow,
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minCongestionWindow: DefaultMinimumCongestionWindow,
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minCongestionWindow: congestion.ByteCount(DefaultMinimumCongestionWindow),
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highGain: DefaultHighGain,
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highGain: DefaultHighGain,
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highCwndGain: DefaultHighGain,
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highCwndGain: DefaultHighGain,
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drainGain: 1.0 / DefaultHighGain,
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drainGain: 1.0 / DefaultHighGain,
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@ -274,6 +294,7 @@ func NewBBRSender(clock Clock, initialMaxDatagramSize, initialCongestionWindow,
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recoveryState: NOT_IN_RECOVERY,
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recoveryState: NOT_IN_RECOVERY,
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recoveryWindow: maxCongestionWindow,
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recoveryWindow: maxCongestionWindow,
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minRttSinceLastProbeRtt: InfiniteRTT,
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minRttSinceLastProbeRtt: InfiniteRTT,
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MaxOutgoingPacketSize: initialMaxOutgoingPacketSize,
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maxDatagramSize: initialMaxDatagramSize,
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maxDatagramSize: initialMaxDatagramSize,
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}
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}
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b.pacer = newPacer(b.BandwidthEstimate)
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b.pacer = newPacer(b.BandwidthEstimate)
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@ -790,7 +811,7 @@ func (b *bbrSender) MaybeEnterOrExitProbeRtt(now time.Time, isRoundStart, minRtt
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// PROBE_RTT. The CWND during PROBE_RTT is kMinimumCongestionWindow, but
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// PROBE_RTT. The CWND during PROBE_RTT is kMinimumCongestionWindow, but
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// we allow an extra packet since QUIC checks CWND before sending a
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// we allow an extra packet since QUIC checks CWND before sending a
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// packet.
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// packet.
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if b.GetBytesInFlight() < b.ProbeRttCongestionWindow()+MaxOutgoingPacketSize {
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if b.GetBytesInFlight() < b.ProbeRttCongestionWindow()+b.MaxOutgoingPacketSize {
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b.exitProbeRttAt = now.Add(ProbeRttTime)
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b.exitProbeRttAt = now.Add(ProbeRttTime)
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b.probeRttRoundPassed = false
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b.probeRttRoundPassed = false
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}
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}
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@ -924,7 +945,7 @@ func (b *bbrSender) CalculateRecoveryWindow(ackedBytes, lostBytes congestion.Byt
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if b.recoveryWindow >= lostBytes {
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if b.recoveryWindow >= lostBytes {
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b.recoveryWindow -= lostBytes
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b.recoveryWindow -= lostBytes
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} else {
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} else {
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b.recoveryWindow = MaxSegmentSize
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b.recoveryWindow = congestion.ByteCount(MaxSegmentSize)
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}
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}
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// In CONSERVATION mode, just subtracting losses is sufficient. In GROWTH,
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// In CONSERVATION mode, just subtracting losses is sufficient. In GROWTH,
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// release additional |bytes_acked| to achieve a slow-start-like behavior.
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// release additional |bytes_acked| to achieve a slow-start-like behavior.
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@ -45,6 +45,7 @@ func SetCongestionController(quicConn quic.Connection, cc string) {
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congestion.NewBBRSender(
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congestion.NewBBRSender(
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congestion.DefaultClock{},
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congestion.DefaultClock{},
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congestion.GetMaxPacketSize(quicConn.RemoteAddr()),
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congestion.GetMaxPacketSize(quicConn.RemoteAddr()),
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congestion.GetMaxOutgoingPacketSize(quicConn.RemoteAddr()),
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congestion.InitialCongestionWindow,
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congestion.InitialCongestionWindow,
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congestion.DefaultBBRMaxCongestionWindow,
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congestion.DefaultBBRMaxCongestionWindow,
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),
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),
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