113 lines
4.4 KiB
Go
113 lines
4.4 KiB
Go
package congestion
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import (
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"math"
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"time"
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"github.com/lucas-clemente/quic-go/internal/protocol"
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. "github.com/onsi/ginkgo"
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. "github.com/onsi/gomega"
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)
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const kBeta float32 = 0.7 // Default Cubic backoff factor.
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const kNumConnections uint32 = 2
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const kNConnectionBeta float32 = (float32(kNumConnections) - 1 + kBeta) / float32(kNumConnections)
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const kNConnectionAlpha float32 = 3 * float32(kNumConnections) * float32(kNumConnections) * (1 - kNConnectionBeta) / (1 + kNConnectionBeta)
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var _ = Describe("Cubic", func() {
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var (
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clock mockClock
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cubic *Cubic
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)
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BeforeEach(func() {
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clock = mockClock{}
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cubic = NewCubic(&clock)
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})
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It("works above origin", func() {
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// Convex growth.
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const rtt_min = 100 * time.Millisecond
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const rtt_min_s = float32(rtt_min/time.Millisecond) / 1000.0
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current_cwnd := protocol.PacketNumber(10)
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// Without the signed-integer, cubic-convex fix, we mistakenly
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// increment cwnd after only one_ms_ and a single ack.
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expected_cwnd := current_cwnd
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// Initialize the state.
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clock.Advance(time.Millisecond)
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initial_time := clock.Now()
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current_cwnd = cubic.CongestionWindowAfterAck(current_cwnd, rtt_min)
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Expect(current_cwnd).To(Equal(expected_cwnd))
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current_cwnd = expected_cwnd
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initial_cwnd := current_cwnd
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// Normal TCP phase.
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// The maximum number of expected reno RTTs can be calculated by
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// finding the point where the cubic curve and the reno curve meet.
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max_reno_rtts := int(math.Sqrt(float64(kNConnectionAlpha/(0.4*rtt_min_s*rtt_min_s*rtt_min_s))) - 1)
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for i := 0; i < max_reno_rtts; i++ {
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max_per_ack_cwnd := current_cwnd
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for n := uint64(1); n < uint64(float32(max_per_ack_cwnd)/kNConnectionAlpha); n++ {
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// Call once per ACK.
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next_cwnd := cubic.CongestionWindowAfterAck(current_cwnd, rtt_min)
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Expect(next_cwnd).To(Equal(current_cwnd))
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}
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clock.Advance(100 * time.Millisecond)
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current_cwnd = cubic.CongestionWindowAfterAck(current_cwnd, rtt_min)
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// When we fix convex mode and the uint64 arithmetic, we
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// increase the expected_cwnd only after after the first 100ms,
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// rather than after the initial 1ms.
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expected_cwnd++
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Expect(current_cwnd).To(Equal(expected_cwnd))
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}
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// Cubic phase.
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for i := 0; i < 52; i++ {
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for n := protocol.PacketNumber(1); n < current_cwnd; n++ {
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// Call once per ACK.
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Expect(cubic.CongestionWindowAfterAck(current_cwnd, rtt_min)).To(Equal(current_cwnd))
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}
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clock.Advance(100 * time.Millisecond)
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current_cwnd = cubic.CongestionWindowAfterAck(current_cwnd, rtt_min)
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}
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// Total time elapsed so far; add min_rtt (0.1s) here as well.
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elapsed_time_s := float32(clock.Now().Sub(initial_time)+rtt_min) / float32(time.Second)
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// |expected_cwnd| is initial value of cwnd + K * t^3, where K = 0.4.
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expected_cwnd = initial_cwnd + protocol.PacketNumber((elapsed_time_s*elapsed_time_s*elapsed_time_s*410)/1024)
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Expect(current_cwnd).To(Equal(expected_cwnd))
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})
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It("manages loss events", func() {
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rtt_min := 100 * time.Millisecond
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current_cwnd := protocol.PacketNumber(422)
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expected_cwnd := current_cwnd
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// Initialize the state.
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clock.Advance(time.Millisecond)
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Expect(cubic.CongestionWindowAfterAck(current_cwnd, rtt_min)).To(Equal(expected_cwnd))
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expected_cwnd = protocol.PacketNumber(float32(current_cwnd) * kNConnectionBeta)
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Expect(cubic.CongestionWindowAfterPacketLoss(current_cwnd)).To(Equal(expected_cwnd))
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expected_cwnd = protocol.PacketNumber(float32(current_cwnd) * kNConnectionBeta)
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Expect(cubic.CongestionWindowAfterPacketLoss(current_cwnd)).To(Equal(expected_cwnd))
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})
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It("works below origin", func() {
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// Concave growth.
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rtt_min := 100 * time.Millisecond
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current_cwnd := protocol.PacketNumber(422)
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expected_cwnd := current_cwnd
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// Initialize the state.
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clock.Advance(time.Millisecond)
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Expect(cubic.CongestionWindowAfterAck(current_cwnd, rtt_min)).To(Equal(expected_cwnd))
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expected_cwnd = protocol.PacketNumber(float32(current_cwnd) * kNConnectionBeta)
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Expect(cubic.CongestionWindowAfterPacketLoss(current_cwnd)).To(Equal(expected_cwnd))
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current_cwnd = expected_cwnd
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// First update after loss to initialize the epoch.
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current_cwnd = cubic.CongestionWindowAfterAck(current_cwnd, rtt_min)
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// Cubic phase.
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for i := 0; i < 40; i++ {
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clock.Advance(100 * time.Millisecond)
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current_cwnd = cubic.CongestionWindowAfterAck(current_cwnd, rtt_min)
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}
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expected_cwnd = 422
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Expect(current_cwnd).To(Equal(expected_cwnd))
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})
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})
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