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https://github.com/mollyim/webrtc.git
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342695d068
The ostream operators does not work consistently with gtest since the definitions would have to be included before the first include of gtest. This is tricky to ensure and the end result is that the operators will sometimes work and sometimes not without obvious explanations. To avoid causing confusing behavior, this CL removes the operators pending a better solution. Bug: None Change-Id: I66bead0efb7246d368359ddf9e9bfad9d67c05da Reviewed-on: https://webrtc-review.googlesource.com/68640 Reviewed-by: Björn Terelius <terelius@webrtc.org> Commit-Queue: Sebastian Jansson <srte@webrtc.org> Cr-Commit-Position: refs/heads/master@{#22808}
289 lines
11 KiB
C++
289 lines
11 KiB
C++
/*
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* Copyright (c) 2016 The WebRTC project authors. All Rights Reserved.
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*
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* Use of this source code is governed by a BSD-style license
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* that can be found in the LICENSE file in the root of the source
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* tree. An additional intellectual property rights grant can be found
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* in the file PATENTS. All contributing project authors may
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* be found in the AUTHORS file in the root of the source tree.
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*/
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#include <memory>
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#include "modules/congestion_controller/goog_cc/probe_controller.h"
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#include "modules/congestion_controller/network_control/include/network_types.h"
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#include "rtc_base/logging.h"
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#include "system_wrappers/include/clock.h"
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#include "test/gmock.h"
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#include "test/gtest.h"
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using testing::_;
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using testing::AtLeast;
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using testing::Field;
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using testing::Matcher;
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using testing::NiceMock;
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using testing::Return;
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namespace webrtc {
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namespace webrtc_cc {
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namespace test {
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namespace {
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constexpr int kMinBitrateBps = 100;
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constexpr int kStartBitrateBps = 300;
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constexpr int kMaxBitrateBps = 10000;
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constexpr int kExponentialProbingTimeoutMs = 5000;
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constexpr int kAlrProbeInterval = 5000;
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constexpr int kAlrEndedTimeoutMs = 3000;
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constexpr int kBitrateDropTimeoutMs = 5000;
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} // namespace
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class ProbeControllerTest : public ::testing::Test {
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protected:
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ProbeControllerTest() : clock_(100000000L) {
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probe_controller_.reset(new ProbeController());
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}
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~ProbeControllerTest() override {}
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void SetNetworkAvailable(bool available) {
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NetworkAvailability msg;
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msg.at_time = Timestamp::ms(NowMs());
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msg.network_available = available;
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probe_controller_->OnNetworkAvailability(msg);
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}
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int64_t NowMs() { return clock_.TimeInMilliseconds(); }
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SimulatedClock clock_;
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std::unique_ptr<ProbeController> probe_controller_;
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};
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TEST_F(ProbeControllerTest, InitiatesProbingAtStart) {
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probe_controller_->SetBitrates(kMinBitrateBps, kStartBitrateBps,
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kMaxBitrateBps, NowMs());
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EXPECT_GE(probe_controller_->GetAndResetPendingProbes().size(), 2u);
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}
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TEST_F(ProbeControllerTest, ProbeOnlyWhenNetworkIsUp) {
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SetNetworkAvailable(false);
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probe_controller_->SetBitrates(kMinBitrateBps, kStartBitrateBps,
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kMaxBitrateBps, NowMs());
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EXPECT_EQ(probe_controller_->GetAndResetPendingProbes().size(), 0u);
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SetNetworkAvailable(true);
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EXPECT_GE(probe_controller_->GetAndResetPendingProbes().size(), 2u);
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}
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TEST_F(ProbeControllerTest, InitiatesProbingOnMaxBitrateIncrease) {
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probe_controller_->SetBitrates(kMinBitrateBps, kStartBitrateBps,
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kMaxBitrateBps, NowMs());
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// Long enough to time out exponential probing.
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clock_.AdvanceTimeMilliseconds(kExponentialProbingTimeoutMs);
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probe_controller_->SetEstimatedBitrate(kStartBitrateBps, NowMs());
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probe_controller_->Process(NowMs());
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EXPECT_GE(probe_controller_->GetAndResetPendingProbes().size(), 2u);
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probe_controller_->SetBitrates(kMinBitrateBps, kStartBitrateBps,
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kMaxBitrateBps + 100, NowMs());
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EXPECT_EQ(
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probe_controller_->GetAndResetPendingProbes()[0].target_data_rate.bps(),
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kMaxBitrateBps + 100);
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}
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TEST_F(ProbeControllerTest, InitiatesProbingOnMaxBitrateIncreaseAtMaxBitrate) {
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probe_controller_->SetBitrates(kMinBitrateBps, kStartBitrateBps,
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kMaxBitrateBps, NowMs());
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// Long enough to time out exponential probing.
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clock_.AdvanceTimeMilliseconds(kExponentialProbingTimeoutMs);
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probe_controller_->SetEstimatedBitrate(kStartBitrateBps, NowMs());
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probe_controller_->Process(NowMs());
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EXPECT_GE(probe_controller_->GetAndResetPendingProbes().size(), 2u);
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probe_controller_->SetEstimatedBitrate(kMaxBitrateBps, NowMs());
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probe_controller_->SetBitrates(kMinBitrateBps, kStartBitrateBps,
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kMaxBitrateBps + 100, NowMs());
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EXPECT_EQ(
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probe_controller_->GetAndResetPendingProbes()[0].target_data_rate.bps(),
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kMaxBitrateBps + 100);
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}
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TEST_F(ProbeControllerTest, TestExponentialProbing) {
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probe_controller_->SetBitrates(kMinBitrateBps, kStartBitrateBps,
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kMaxBitrateBps, NowMs());
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probe_controller_->GetAndResetPendingProbes();
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// Repeated probe should only be sent when estimated bitrate climbs above
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// 0.7 * 6 * kStartBitrateBps = 1260.
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probe_controller_->SetEstimatedBitrate(1000, NowMs());
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EXPECT_EQ(probe_controller_->GetAndResetPendingProbes().size(), 0u);
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probe_controller_->SetEstimatedBitrate(1800, NowMs());
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EXPECT_EQ(
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probe_controller_->GetAndResetPendingProbes()[0].target_data_rate.bps(),
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2 * 1800);
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}
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TEST_F(ProbeControllerTest, TestExponentialProbingTimeout) {
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probe_controller_->SetBitrates(kMinBitrateBps, kStartBitrateBps,
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kMaxBitrateBps, NowMs());
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probe_controller_->GetAndResetPendingProbes();
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// Advance far enough to cause a time out in waiting for probing result.
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clock_.AdvanceTimeMilliseconds(kExponentialProbingTimeoutMs);
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probe_controller_->Process(NowMs());
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probe_controller_->SetEstimatedBitrate(1800, NowMs());
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EXPECT_EQ(probe_controller_->GetAndResetPendingProbes().size(), 0u);
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}
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TEST_F(ProbeControllerTest, RequestProbeInAlr) {
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probe_controller_->SetBitrates(kMinBitrateBps, kStartBitrateBps,
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kMaxBitrateBps, NowMs());
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probe_controller_->SetEstimatedBitrate(500, NowMs());
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EXPECT_GE(probe_controller_->GetAndResetPendingProbes().size(), 2u);
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probe_controller_->SetAlrStartTimeMs(clock_.TimeInMilliseconds());
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clock_.AdvanceTimeMilliseconds(kAlrProbeInterval + 1);
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probe_controller_->Process(NowMs());
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probe_controller_->SetEstimatedBitrate(250, NowMs());
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probe_controller_->RequestProbe(NowMs());
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std::vector<ProbeClusterConfig> probes =
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probe_controller_->GetAndResetPendingProbes();
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EXPECT_EQ(probes.size(), 1u);
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EXPECT_EQ(probes[0].target_data_rate.bps(), 0.85 * 500);
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}
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TEST_F(ProbeControllerTest, RequestProbeWhenAlrEndedRecently) {
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probe_controller_->SetBitrates(kMinBitrateBps, kStartBitrateBps,
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kMaxBitrateBps, NowMs());
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probe_controller_->SetEstimatedBitrate(500, NowMs());
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EXPECT_EQ(probe_controller_->GetAndResetPendingProbes().size(), 2u);
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probe_controller_->SetAlrStartTimeMs(rtc::nullopt);
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clock_.AdvanceTimeMilliseconds(kAlrProbeInterval + 1);
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probe_controller_->Process(NowMs());
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probe_controller_->SetEstimatedBitrate(250, NowMs());
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probe_controller_->SetAlrEndedTimeMs(clock_.TimeInMilliseconds());
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clock_.AdvanceTimeMilliseconds(kAlrEndedTimeoutMs - 1);
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probe_controller_->RequestProbe(NowMs());
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std::vector<ProbeClusterConfig> probes =
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probe_controller_->GetAndResetPendingProbes();
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EXPECT_EQ(probes.size(), 1u);
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EXPECT_EQ(probes[0].target_data_rate.bps(), 0.85 * 500);
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}
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TEST_F(ProbeControllerTest, RequestProbeWhenAlrNotEndedRecently) {
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probe_controller_->SetBitrates(kMinBitrateBps, kStartBitrateBps,
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kMaxBitrateBps, NowMs());
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probe_controller_->SetEstimatedBitrate(500, NowMs());
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EXPECT_EQ(probe_controller_->GetAndResetPendingProbes().size(), 2u);
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probe_controller_->SetAlrStartTimeMs(rtc::nullopt);
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clock_.AdvanceTimeMilliseconds(kAlrProbeInterval + 1);
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probe_controller_->Process(NowMs());
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probe_controller_->SetEstimatedBitrate(250, NowMs());
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probe_controller_->SetAlrEndedTimeMs(clock_.TimeInMilliseconds());
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clock_.AdvanceTimeMilliseconds(kAlrEndedTimeoutMs + 1);
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probe_controller_->RequestProbe(NowMs());
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EXPECT_EQ(probe_controller_->GetAndResetPendingProbes().size(), 0u);
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}
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TEST_F(ProbeControllerTest, RequestProbeWhenBweDropNotRecent) {
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probe_controller_->SetBitrates(kMinBitrateBps, kStartBitrateBps,
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kMaxBitrateBps, NowMs());
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probe_controller_->SetEstimatedBitrate(500, NowMs());
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EXPECT_EQ(probe_controller_->GetAndResetPendingProbes().size(), 2u);
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probe_controller_->SetAlrStartTimeMs(clock_.TimeInMilliseconds());
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clock_.AdvanceTimeMilliseconds(kAlrProbeInterval + 1);
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probe_controller_->Process(NowMs());
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probe_controller_->SetEstimatedBitrate(250, NowMs());
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clock_.AdvanceTimeMilliseconds(kBitrateDropTimeoutMs + 1);
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probe_controller_->RequestProbe(NowMs());
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EXPECT_EQ(probe_controller_->GetAndResetPendingProbes().size(), 0u);
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}
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TEST_F(ProbeControllerTest, PeriodicProbing) {
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probe_controller_->EnablePeriodicAlrProbing(true);
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probe_controller_->SetBitrates(kMinBitrateBps, kStartBitrateBps,
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kMaxBitrateBps, NowMs());
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probe_controller_->SetEstimatedBitrate(500, NowMs());
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EXPECT_EQ(probe_controller_->GetAndResetPendingProbes().size(), 2u);
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int64_t start_time = clock_.TimeInMilliseconds();
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// Expect the controller to send a new probe after 5s has passed.
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probe_controller_->SetAlrStartTimeMs(start_time);
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clock_.AdvanceTimeMilliseconds(5000);
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probe_controller_->Process(NowMs());
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probe_controller_->SetEstimatedBitrate(500, NowMs());
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std::vector<ProbeClusterConfig> probes =
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probe_controller_->GetAndResetPendingProbes();
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EXPECT_EQ(probes.size(), 1u);
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EXPECT_EQ(probes[0].target_data_rate.bps(), 1000);
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// The following probe should be sent at 10s into ALR.
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probe_controller_->SetAlrStartTimeMs(start_time);
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clock_.AdvanceTimeMilliseconds(4000);
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probe_controller_->Process(NowMs());
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probe_controller_->SetEstimatedBitrate(500, NowMs());
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EXPECT_EQ(probe_controller_->GetAndResetPendingProbes().size(), 0u);
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probe_controller_->SetAlrStartTimeMs(start_time);
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clock_.AdvanceTimeMilliseconds(1000);
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probe_controller_->Process(NowMs());
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probe_controller_->SetEstimatedBitrate(500, NowMs());
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EXPECT_EQ(probe_controller_->GetAndResetPendingProbes().size(), 1u);
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}
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TEST_F(ProbeControllerTest, PeriodicProbingAfterReset) {
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probe_controller_.reset(new ProbeController());
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int64_t alr_start_time = clock_.TimeInMilliseconds();
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probe_controller_->SetAlrStartTimeMs(alr_start_time);
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probe_controller_->EnablePeriodicAlrProbing(true);
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probe_controller_->SetBitrates(kMinBitrateBps, kStartBitrateBps,
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kMaxBitrateBps, NowMs());
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probe_controller_->Reset(NowMs());
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clock_.AdvanceTimeMilliseconds(10000);
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probe_controller_->Process(NowMs());
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EXPECT_EQ(probe_controller_->GetAndResetPendingProbes().size(), 2u);
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probe_controller_->SetBitrates(kMinBitrateBps, kStartBitrateBps,
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kMaxBitrateBps, NowMs());
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EXPECT_EQ(probe_controller_->GetAndResetPendingProbes().size(), 2u);
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// Make sure we use |kStartBitrateBps| as the estimated bitrate
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// until SetEstimatedBitrate is called with an updated estimate.
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clock_.AdvanceTimeMilliseconds(10000);
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probe_controller_->Process(NowMs());
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EXPECT_EQ(
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probe_controller_->GetAndResetPendingProbes()[0].target_data_rate.bps(),
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kStartBitrateBps * 2);
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}
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TEST_F(ProbeControllerTest, TestExponentialProbingOverflow) {
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const int64_t kMbpsMultiplier = 1000000;
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probe_controller_->SetBitrates(kMinBitrateBps, 10 * kMbpsMultiplier,
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100 * kMbpsMultiplier, NowMs());
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probe_controller_->SetEstimatedBitrate(60 * kMbpsMultiplier, NowMs());
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// Verify that probe bitrate is capped at the specified max bitrate.
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EXPECT_EQ(
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probe_controller_->GetAndResetPendingProbes()[2].target_data_rate.bps(),
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100 * kMbpsMultiplier);
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// Verify that repeated probes aren't sent.
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probe_controller_->SetEstimatedBitrate(100 * kMbpsMultiplier, NowMs());
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EXPECT_EQ(probe_controller_->GetAndResetPendingProbes().size(), 0u);
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}
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} // namespace test
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} // namespace webrtc_cc
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} // namespace webrtc
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