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uquic/internal/utils/rtt_stats_test.go
Marten Seemann 741dc28d74 move the RTTStats to the utils package 
The RTTStats are used by the logging package. In order to instrument the
congestion package, the RTTStats can't be part of that package any more
(to avoid an import loop).
2020-07-23 11:53:08 +07:00

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