package congestion import ( "math" "time" "github.com/lucas-clemente/quic-go/internal/protocol" "github.com/lucas-clemente/quic-go/internal/utils" ) const maxBurstSizePackets = 10 // The pacer implements a token bucket pacing algorithm. type pacer struct { budgetAtLastSent protocol.ByteCount maxDatagramSize protocol.ByteCount lastSentTime time.Time getAdjustedBandwidth func() uint64 // in bytes/s } func newPacer(getBandwidth func() Bandwidth) *pacer { p := &pacer{ maxDatagramSize: initialMaxDatagramSize, getAdjustedBandwidth: func() uint64 { // Bandwidth is in bits/s. We need the value in bytes/s. bw := uint64(getBandwidth() / BytesPerSecond) // Use a slightly higher value than the actual measured bandwidth. // RTT variations then won't result in under-utilization of the congestion window. // Ultimately, this will result in sending packets as acknowledgments are received rather than when timers fire, // provided the congestion window is fully utilized and acknowledgments arrive at regular intervals. return bw * 5 / 4 }, } p.budgetAtLastSent = p.maxBurstSize() return p } func (p *pacer) SentPacket(sendTime time.Time, size protocol.ByteCount) { budget := p.Budget(sendTime) if size > budget { p.budgetAtLastSent = 0 } else { p.budgetAtLastSent = budget - size } p.lastSentTime = sendTime } func (p *pacer) Budget(now time.Time) protocol.ByteCount { if p.lastSentTime.IsZero() { return p.maxBurstSize() } budget := p.budgetAtLastSent + (protocol.ByteCount(p.getAdjustedBandwidth())*protocol.ByteCount(now.Sub(p.lastSentTime).Nanoseconds()))/1e9 return utils.MinByteCount(p.maxBurstSize(), budget) } func (p *pacer) maxBurstSize() protocol.ByteCount { return utils.MaxByteCount( protocol.ByteCount(uint64((protocol.MinPacingDelay+protocol.TimerGranularity).Nanoseconds())*p.getAdjustedBandwidth())/1e9, maxBurstSizePackets*p.maxDatagramSize, ) } // TimeUntilSend returns when the next packet should be sent. // It returns the zero value of time.Time if a packet can be sent immediately. func (p *pacer) TimeUntilSend() time.Time { if p.budgetAtLastSent >= p.maxDatagramSize { return time.Time{} } return p.lastSentTime.Add(utils.MaxDuration( protocol.MinPacingDelay, time.Duration(math.Ceil(float64(p.maxDatagramSize-p.budgetAtLastSent)*1e9/float64(p.getAdjustedBandwidth())))*time.Nanosecond, )) } func (p *pacer) SetMaxDatagramSize(s protocol.ByteCount) { p.maxDatagramSize = s }