quic/core/quic_sustained_bandwidth_recorder_test.cc - quiche - Git at Google

 // Copyright 2014 The Chromium Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include "net/third_party/quiche/src/quic/core/quic_sustained_bandwidth_recorder.h"

 #include "net/third_party/quiche/src/quic/core/quic_bandwidth.h"
 #include "net/third_party/quiche/src/quic/core/quic_time.h"
 #include "net/third_party/quiche/src/quic/platform/api/quic_test.h"

 namespace quic {
 namespace test {
 namespace {

 class QuicSustainedBandwidthRecorderTest : public QuicTest {};

 TEST_F(QuicSustainedBandwidthRecorderTest, BandwidthEstimates) {
   QuicSustainedBandwidthRecorder recorder;
   EXPECT_FALSE(recorder.HasEstimate());

   QuicTime estimate_time = QuicTime::Zero();
   QuicWallTime wall_time = QuicWallTime::Zero();
   QuicTime::Delta srtt = QuicTime::Delta::FromMilliseconds(150);
   const int kBandwidthBitsPerSecond = 12345678;
   QuicBandwidth bandwidth =
       QuicBandwidth::FromBitsPerSecond(kBandwidthBitsPerSecond);

   bool in_recovery = false;
   bool in_slow_start = false;

   // This triggers recording, but should not yield a valid estimate yet.
   recorder.RecordEstimate(in_recovery, in_slow_start, bandwidth, estimate_time,
                           wall_time, srtt);
   EXPECT_FALSE(recorder.HasEstimate());

   // Send a second reading, again this should not result in a valid estimate,
   // as not enough time has passed.
   estimate_time = estimate_time + srtt;
   recorder.RecordEstimate(in_recovery, in_slow_start, bandwidth, estimate_time,
                           wall_time, srtt);
   EXPECT_FALSE(recorder.HasEstimate());

   // Now 3 * kSRTT has elapsed since first recording, expect a valid estimate.
   estimate_time = estimate_time + srtt;
   estimate_time = estimate_time + srtt;
   recorder.RecordEstimate(in_recovery, in_slow_start, bandwidth, estimate_time,
                           wall_time, srtt);
   EXPECT_TRUE(recorder.HasEstimate());
   EXPECT_EQ(recorder.BandwidthEstimate(), bandwidth);
   EXPECT_EQ(recorder.BandwidthEstimate(), recorder.MaxBandwidthEstimate());

   // Resetting, and sending a different estimate will only change output after
   // a further 3 * kSRTT has passed.
   QuicBandwidth second_bandwidth =
       QuicBandwidth::FromBitsPerSecond(2 * kBandwidthBitsPerSecond);
   // Reset the recorder by passing in a measurement while in recovery.
   in_recovery = true;
   recorder.RecordEstimate(in_recovery, in_slow_start, bandwidth, estimate_time,
                           wall_time, srtt);
   in_recovery = false;
   recorder.RecordEstimate(in_recovery, in_slow_start, bandwidth, estimate_time,
                           wall_time, srtt);
   EXPECT_EQ(recorder.BandwidthEstimate(), bandwidth);

   estimate_time = estimate_time + 3 * srtt;
   const int64_t kSeconds = 556677;
   QuicWallTime second_bandwidth_wall_time =
       QuicWallTime::FromUNIXSeconds(kSeconds);
   recorder.RecordEstimate(in_recovery, in_slow_start, second_bandwidth,
                           estimate_time, second_bandwidth_wall_time, srtt);
   EXPECT_EQ(recorder.BandwidthEstimate(), second_bandwidth);
   EXPECT_EQ(recorder.BandwidthEstimate(), recorder.MaxBandwidthEstimate());
   EXPECT_EQ(recorder.MaxBandwidthTimestamp(), kSeconds);

   // Reset again, this time recording a lower bandwidth than before.
   QuicBandwidth third_bandwidth =
       QuicBandwidth::FromBitsPerSecond(0.5 * kBandwidthBitsPerSecond);
   // Reset the recorder by passing in an unreliable measurement.
   recorder.RecordEstimate(in_recovery, in_slow_start, third_bandwidth,
                           estimate_time, wall_time, srtt);
   recorder.RecordEstimate(in_recovery, in_slow_start, third_bandwidth,
                           estimate_time, wall_time, srtt);
   EXPECT_EQ(recorder.BandwidthEstimate(), third_bandwidth);

   estimate_time = estimate_time + 3 * srtt;
   recorder.RecordEstimate(in_recovery, in_slow_start, third_bandwidth,
                           estimate_time, wall_time, srtt);
   EXPECT_EQ(recorder.BandwidthEstimate(), third_bandwidth);

   // Max bandwidth should not have changed.
   EXPECT_LT(third_bandwidth, second_bandwidth);
   EXPECT_EQ(recorder.MaxBandwidthEstimate(), second_bandwidth);
   EXPECT_EQ(recorder.MaxBandwidthTimestamp(), kSeconds);
 }

 TEST_F(QuicSustainedBandwidthRecorderTest, SlowStart) {
   // Verify that slow start status is correctly recorded.
   QuicSustainedBandwidthRecorder recorder;
   EXPECT_FALSE(recorder.HasEstimate());

   QuicTime estimate_time = QuicTime::Zero();
   QuicWallTime wall_time = QuicWallTime::Zero();
   QuicTime::Delta srtt = QuicTime::Delta::FromMilliseconds(150);
   const int kBandwidthBitsPerSecond = 12345678;
   QuicBandwidth bandwidth =
       QuicBandwidth::FromBitsPerSecond(kBandwidthBitsPerSecond);

   bool in_recovery = false;
   bool in_slow_start = true;

   // This triggers recording, but should not yield a valid estimate yet.
   recorder.RecordEstimate(in_recovery, in_slow_start, bandwidth, estimate_time,
                           wall_time, srtt);

   // Now 3 * kSRTT has elapsed since first recording, expect a valid estimate.
   estimate_time = estimate_time + 3 * srtt;
   recorder.RecordEstimate(in_recovery, in_slow_start, bandwidth, estimate_time,
                           wall_time, srtt);
   EXPECT_TRUE(recorder.HasEstimate());
   EXPECT_TRUE(recorder.EstimateRecordedDuringSlowStart());

   // Now send another estimate, this time not in slow start.
   estimate_time = estimate_time + 3 * srtt;
   in_slow_start = false;
   recorder.RecordEstimate(in_recovery, in_slow_start, bandwidth, estimate_time,
                           wall_time, srtt);
   EXPECT_TRUE(recorder.HasEstimate());
   EXPECT_FALSE(recorder.EstimateRecordedDuringSlowStart());
 }

 }  // namespace
 }  // namespace test
 }  // namespace quic
	// Copyright 2014 The Chromium Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include "net/third_party/quiche/src/quic/core/quic_sustained_bandwidth_recorder.h"

	#include "net/third_party/quiche/src/quic/core/quic_bandwidth.h"
	#include "net/third_party/quiche/src/quic/core/quic_time.h"
	#include "net/third_party/quiche/src/quic/platform/api/quic_test.h"

	namespace quic {
	namespace test {
	namespace {

	class QuicSustainedBandwidthRecorderTest : public QuicTest {};

	TEST_F(QuicSustainedBandwidthRecorderTest, BandwidthEstimates) {
	QuicSustainedBandwidthRecorder recorder;
	EXPECT_FALSE(recorder.HasEstimate());

	QuicTime estimate_time = QuicTime::Zero();
	QuicWallTime wall_time = QuicWallTime::Zero();
	QuicTime::Delta srtt = QuicTime::Delta::FromMilliseconds(150);
	const int kBandwidthBitsPerSecond = 12345678;
	QuicBandwidth bandwidth =
	QuicBandwidth::FromBitsPerSecond(kBandwidthBitsPerSecond);

	bool in_recovery = false;
	bool in_slow_start = false;

	// This triggers recording, but should not yield a valid estimate yet.
	recorder.RecordEstimate(in_recovery, in_slow_start, bandwidth, estimate_time,
	wall_time, srtt);
	EXPECT_FALSE(recorder.HasEstimate());

	// Send a second reading, again this should not result in a valid estimate,
	// as not enough time has passed.
	estimate_time = estimate_time + srtt;
	recorder.RecordEstimate(in_recovery, in_slow_start, bandwidth, estimate_time,
	wall_time, srtt);
	EXPECT_FALSE(recorder.HasEstimate());

	// Now 3 * kSRTT has elapsed since first recording, expect a valid estimate.
	estimate_time = estimate_time + srtt;
	estimate_time = estimate_time + srtt;
	recorder.RecordEstimate(in_recovery, in_slow_start, bandwidth, estimate_time,
	wall_time, srtt);
	EXPECT_TRUE(recorder.HasEstimate());
	EXPECT_EQ(recorder.BandwidthEstimate(), bandwidth);
	EXPECT_EQ(recorder.BandwidthEstimate(), recorder.MaxBandwidthEstimate());

	// Resetting, and sending a different estimate will only change output after
	// a further 3 * kSRTT has passed.
	QuicBandwidth second_bandwidth =
	QuicBandwidth::FromBitsPerSecond(2 * kBandwidthBitsPerSecond);
	// Reset the recorder by passing in a measurement while in recovery.
	in_recovery = true;
	recorder.RecordEstimate(in_recovery, in_slow_start, bandwidth, estimate_time,
	wall_time, srtt);
	in_recovery = false;
	recorder.RecordEstimate(in_recovery, in_slow_start, bandwidth, estimate_time,
	wall_time, srtt);
	EXPECT_EQ(recorder.BandwidthEstimate(), bandwidth);

	estimate_time = estimate_time + 3 * srtt;
	const int64_t kSeconds = 556677;
	QuicWallTime second_bandwidth_wall_time =
	QuicWallTime::FromUNIXSeconds(kSeconds);
	recorder.RecordEstimate(in_recovery, in_slow_start, second_bandwidth,
	estimate_time, second_bandwidth_wall_time, srtt);
	EXPECT_EQ(recorder.BandwidthEstimate(), second_bandwidth);
	EXPECT_EQ(recorder.BandwidthEstimate(), recorder.MaxBandwidthEstimate());
	EXPECT_EQ(recorder.MaxBandwidthTimestamp(), kSeconds);

	// Reset again, this time recording a lower bandwidth than before.
	QuicBandwidth third_bandwidth =
	QuicBandwidth::FromBitsPerSecond(0.5 * kBandwidthBitsPerSecond);
	// Reset the recorder by passing in an unreliable measurement.
	recorder.RecordEstimate(in_recovery, in_slow_start, third_bandwidth,
	estimate_time, wall_time, srtt);
	recorder.RecordEstimate(in_recovery, in_slow_start, third_bandwidth,
	estimate_time, wall_time, srtt);
	EXPECT_EQ(recorder.BandwidthEstimate(), third_bandwidth);

	estimate_time = estimate_time + 3 * srtt;
	recorder.RecordEstimate(in_recovery, in_slow_start, third_bandwidth,
	estimate_time, wall_time, srtt);
	EXPECT_EQ(recorder.BandwidthEstimate(), third_bandwidth);

	// Max bandwidth should not have changed.
	EXPECT_LT(third_bandwidth, second_bandwidth);
	EXPECT_EQ(recorder.MaxBandwidthEstimate(), second_bandwidth);
	EXPECT_EQ(recorder.MaxBandwidthTimestamp(), kSeconds);
	}

	TEST_F(QuicSustainedBandwidthRecorderTest, SlowStart) {
	// Verify that slow start status is correctly recorded.
	QuicSustainedBandwidthRecorder recorder;
	EXPECT_FALSE(recorder.HasEstimate());

	QuicTime estimate_time = QuicTime::Zero();
	QuicWallTime wall_time = QuicWallTime::Zero();
	QuicTime::Delta srtt = QuicTime::Delta::FromMilliseconds(150);
	const int kBandwidthBitsPerSecond = 12345678;
	QuicBandwidth bandwidth =
	QuicBandwidth::FromBitsPerSecond(kBandwidthBitsPerSecond);

	bool in_recovery = false;
	bool in_slow_start = true;

	// This triggers recording, but should not yield a valid estimate yet.
	recorder.RecordEstimate(in_recovery, in_slow_start, bandwidth, estimate_time,
	wall_time, srtt);

	// Now 3 * kSRTT has elapsed since first recording, expect a valid estimate.
	estimate_time = estimate_time + 3 * srtt;
	recorder.RecordEstimate(in_recovery, in_slow_start, bandwidth, estimate_time,
	wall_time, srtt);
	EXPECT_TRUE(recorder.HasEstimate());
	EXPECT_TRUE(recorder.EstimateRecordedDuringSlowStart());

	// Now send another estimate, this time not in slow start.
	estimate_time = estimate_time + 3 * srtt;
	in_slow_start = false;
	recorder.RecordEstimate(in_recovery, in_slow_start, bandwidth, estimate_time,
	wall_time, srtt);
	EXPECT_TRUE(recorder.HasEstimate());
	EXPECT_FALSE(recorder.EstimateRecordedDuringSlowStart());
	}

	} // namespace
	} // namespace test
	} // namespace quic