mirror of
https://github.com/refraction-networking/uquic.git
synced 2025-04-04 20:57:36 +03:00
157 lines
6.3 KiB
Go
157 lines
6.3 KiB
Go
package utils
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import (
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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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var _ = Describe("RTT stats", func() {
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var rttStats *RTTStats
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BeforeEach(func() {
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rttStats = NewRTTStats()
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})
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It("DefaultsBeforeUpdate", func() {
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Expect(rttStats.MinRTT()).To(Equal(time.Duration(0)))
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Expect(rttStats.SmoothedRTT()).To(Equal(time.Duration(0)))
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})
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It("SmoothedRTT", func() {
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// Verify that ack_delay is ignored in the first measurement.
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rttStats.UpdateRTT((300 * time.Millisecond), (100 * time.Millisecond), time.Time{})
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Expect(rttStats.LatestRTT()).To(Equal((300 * time.Millisecond)))
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Expect(rttStats.SmoothedRTT()).To(Equal((300 * time.Millisecond)))
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// Verify that Smoothed RTT includes max ack delay if it's reasonable.
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rttStats.UpdateRTT((350 * time.Millisecond), (50 * time.Millisecond), time.Time{})
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Expect(rttStats.LatestRTT()).To(Equal((300 * time.Millisecond)))
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Expect(rttStats.SmoothedRTT()).To(Equal((300 * time.Millisecond)))
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// Verify that large erroneous ack_delay does not change Smoothed RTT.
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rttStats.UpdateRTT((200 * time.Millisecond), (300 * time.Millisecond), time.Time{})
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Expect(rttStats.LatestRTT()).To(Equal((200 * time.Millisecond)))
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Expect(rttStats.SmoothedRTT()).To(Equal((287500 * time.Microsecond)))
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})
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It("MinRTT", func() {
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rttStats.UpdateRTT((200 * time.Millisecond), 0, time.Time{})
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Expect(rttStats.MinRTT()).To(Equal((200 * time.Millisecond)))
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rttStats.UpdateRTT((10 * time.Millisecond), 0, time.Time{}.Add((10 * time.Millisecond)))
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Expect(rttStats.MinRTT()).To(Equal((10 * time.Millisecond)))
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rttStats.UpdateRTT((50 * time.Millisecond), 0, time.Time{}.Add((20 * time.Millisecond)))
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Expect(rttStats.MinRTT()).To(Equal((10 * time.Millisecond)))
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rttStats.UpdateRTT((50 * time.Millisecond), 0, time.Time{}.Add((30 * time.Millisecond)))
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Expect(rttStats.MinRTT()).To(Equal((10 * time.Millisecond)))
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rttStats.UpdateRTT((50 * time.Millisecond), 0, time.Time{}.Add((40 * time.Millisecond)))
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Expect(rttStats.MinRTT()).To(Equal((10 * time.Millisecond)))
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// Verify that ack_delay does not go into recording of MinRTT_.
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rttStats.UpdateRTT((7 * time.Millisecond), (2 * time.Millisecond), time.Time{}.Add((50 * time.Millisecond)))
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Expect(rttStats.MinRTT()).To(Equal((7 * time.Millisecond)))
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})
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It("MaxAckDelay", func() {
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rttStats.SetMaxAckDelay(42 * time.Minute)
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Expect(rttStats.MaxAckDelay()).To(Equal(42 * time.Minute))
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})
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It("computes the PTO", func() {
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maxAckDelay := 42 * time.Minute
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rttStats.SetMaxAckDelay(maxAckDelay)
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rtt := time.Second
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rttStats.UpdateRTT(rtt, 0, time.Time{})
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Expect(rttStats.SmoothedRTT()).To(Equal(rtt))
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Expect(rttStats.MeanDeviation()).To(Equal(rtt / 2))
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Expect(rttStats.PTO(false)).To(Equal(rtt + 4*(rtt/2)))
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Expect(rttStats.PTO(true)).To(Equal(rtt + 4*(rtt/2) + maxAckDelay))
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})
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It("uses the granularity for computing the PTO for short RTTs", func() {
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rtt := time.Microsecond
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rttStats.UpdateRTT(rtt, 0, time.Time{})
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Expect(rttStats.PTO(true)).To(Equal(rtt + protocol.TimerGranularity))
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})
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It("ExpireSmoothedMetrics", func() {
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initialRtt := (10 * time.Millisecond)
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rttStats.UpdateRTT(initialRtt, 0, time.Time{})
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Expect(rttStats.MinRTT()).To(Equal(initialRtt))
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Expect(rttStats.SmoothedRTT()).To(Equal(initialRtt))
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Expect(rttStats.MeanDeviation()).To(Equal(initialRtt / 2))
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// Update once with a 20ms RTT.
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doubledRtt := initialRtt * (2)
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rttStats.UpdateRTT(doubledRtt, 0, time.Time{})
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Expect(rttStats.SmoothedRTT()).To(Equal(time.Duration(float32(initialRtt) * 1.125)))
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// Expire the smoothed metrics, increasing smoothed rtt and mean deviation.
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rttStats.ExpireSmoothedMetrics()
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Expect(rttStats.SmoothedRTT()).To(Equal(doubledRtt))
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Expect(rttStats.MeanDeviation()).To(Equal(time.Duration(float32(initialRtt) * 0.875)))
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// Now go back down to 5ms and expire the smoothed metrics, and ensure the
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// mean deviation increases to 15ms.
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halfRtt := initialRtt / 2
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rttStats.UpdateRTT(halfRtt, 0, time.Time{})
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Expect(doubledRtt).To(BeNumerically(">", rttStats.SmoothedRTT()))
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Expect(initialRtt).To(BeNumerically("<", rttStats.MeanDeviation()))
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})
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It("UpdateRTTWithBadSendDeltas", func() {
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// Make sure we ignore bad RTTs.
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// base::test::MockLog log;
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initialRtt := (10 * time.Millisecond)
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rttStats.UpdateRTT(initialRtt, 0, time.Time{})
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Expect(rttStats.MinRTT()).To(Equal(initialRtt))
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Expect(rttStats.SmoothedRTT()).To(Equal(initialRtt))
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badSendDeltas := []time.Duration{
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0,
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InfDuration,
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-1000 * time.Microsecond,
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}
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// log.StartCapturingLogs();
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for _, badSendDelta := range badSendDeltas {
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// SCOPED_TRACE(Message() << "bad_send_delta = "
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// << bad_send_delta.ToMicroseconds());
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// EXPECT_CALL(log, Log(LOG_WARNING, _, _, _, HasSubstr("Ignoring")));
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rttStats.UpdateRTT(badSendDelta, 0, time.Time{})
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Expect(rttStats.MinRTT()).To(Equal(initialRtt))
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Expect(rttStats.SmoothedRTT()).To(Equal(initialRtt))
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}
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})
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It("ResetAfterConnectionMigrations", func() {
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rttStats.UpdateRTT(200*time.Millisecond, 0, time.Time{})
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Expect(rttStats.LatestRTT()).To(Equal((200 * time.Millisecond)))
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Expect(rttStats.SmoothedRTT()).To(Equal((200 * time.Millisecond)))
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Expect(rttStats.MinRTT()).To(Equal((200 * time.Millisecond)))
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rttStats.UpdateRTT((300 * time.Millisecond), (100 * time.Millisecond), time.Time{})
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Expect(rttStats.LatestRTT()).To(Equal((200 * time.Millisecond)))
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Expect(rttStats.SmoothedRTT()).To(Equal((200 * time.Millisecond)))
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Expect(rttStats.MinRTT()).To(Equal((200 * time.Millisecond)))
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// Reset rtt stats on connection migrations.
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rttStats.OnConnectionMigration()
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Expect(rttStats.LatestRTT()).To(Equal(time.Duration(0)))
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Expect(rttStats.SmoothedRTT()).To(Equal(time.Duration(0)))
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Expect(rttStats.MinRTT()).To(Equal(time.Duration(0)))
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})
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It("restores the RTT", func() {
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rttStats.SetInitialRTT(10 * time.Second)
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Expect(rttStats.LatestRTT()).To(Equal(10 * time.Second))
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Expect(rttStats.SmoothedRTT()).To(Equal(10 * time.Second))
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Expect(rttStats.MeanDeviation()).To(BeZero())
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// update the RTT and make sure that the initial value is immediately forgotten
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rttStats.UpdateRTT(200*time.Millisecond, 0, time.Time{})
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Expect(rttStats.LatestRTT()).To(Equal(200 * time.Millisecond))
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Expect(rttStats.SmoothedRTT()).To(Equal(200 * time.Millisecond))
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Expect(rttStats.MeanDeviation()).To(Equal(100 * time.Millisecond))
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})
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})
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