304 lines
11 KiB
C++
304 lines
11 KiB
C++
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/*
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* Copyright (c) 2013 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 "webrtc/video/overuse_frame_detector.h"
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#include "testing/gmock/include/gmock/gmock.h"
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#include "testing/gtest/include/gtest/gtest.h"
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#include "webrtc/system_wrappers/include/clock.h"
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#include "webrtc/video_frame.h"
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namespace webrtc {
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namespace {
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const int kWidth = 640;
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const int kHeight = 480;
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const int kFrameInterval33ms = 33;
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const int kProcessIntervalMs = 5000;
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const int kProcessTime5ms = 5;
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} // namespace
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class MockCpuOveruseObserver : public CpuOveruseObserver {
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public:
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MockCpuOveruseObserver() {}
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virtual ~MockCpuOveruseObserver() {}
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MOCK_METHOD0(OveruseDetected, void());
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MOCK_METHOD0(NormalUsage, void());
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};
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class CpuOveruseObserverImpl : public CpuOveruseObserver {
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public:
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CpuOveruseObserverImpl() :
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overuse_(0),
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normaluse_(0) {}
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virtual ~CpuOveruseObserverImpl() {}
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void OveruseDetected() { ++overuse_; }
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void NormalUsage() { ++normaluse_; }
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int overuse_;
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int normaluse_;
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};
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class OveruseFrameDetectorTest : public ::testing::Test,
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public CpuOveruseMetricsObserver {
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protected:
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void SetUp() override {
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clock_.reset(new SimulatedClock(1234));
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observer_.reset(new MockCpuOveruseObserver());
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options_.min_process_count = 0;
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ReinitializeOveruseDetector();
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}
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void ReinitializeOveruseDetector() {
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overuse_detector_.reset(new OveruseFrameDetector(
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clock_.get(), options_, observer_.get(), nullptr, this));
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}
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void OnEncodedFrameTimeMeasured(int encode_time_ms,
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const CpuOveruseMetrics& metrics) override {
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metrics_ = metrics;
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}
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int InitialUsage() {
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return ((options_.low_encode_usage_threshold_percent +
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options_.high_encode_usage_threshold_percent) / 2.0f) + 0.5;
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}
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void InsertAndSendFramesWithInterval(int num_frames,
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int interval_ms,
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int width,
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int height,
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int delay_ms) {
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VideoFrame frame;
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frame.CreateEmptyFrame(width, height, width, width / 2, width / 2);
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uint32_t timestamp = 0;
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while (num_frames-- > 0) {
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frame.set_timestamp(timestamp);
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overuse_detector_->FrameCaptured(frame);
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clock_->AdvanceTimeMilliseconds(delay_ms);
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overuse_detector_->FrameSent(timestamp);
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clock_->AdvanceTimeMilliseconds(interval_ms - delay_ms);
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timestamp += interval_ms * 90;
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}
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}
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void ForceUpdate(int width, int height) {
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// Insert one frame, wait a second and then put in another to force update
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// the usage. From the tests where these are used, adding another sample
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// doesn't affect the expected outcome (this is mainly to check initial
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// values and whether the overuse detector has been reset or not).
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InsertAndSendFramesWithInterval(2, 1000, width, height, kFrameInterval33ms);
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}
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void TriggerOveruse(int num_times) {
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const int kDelayMs = 32;
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for (int i = 0; i < num_times; ++i) {
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InsertAndSendFramesWithInterval(
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1000, kFrameInterval33ms, kWidth, kHeight, kDelayMs);
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overuse_detector_->Process();
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}
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}
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void TriggerUnderuse() {
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const int kDelayMs1 = 5;
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const int kDelayMs2 = 6;
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InsertAndSendFramesWithInterval(
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1300, kFrameInterval33ms, kWidth, kHeight, kDelayMs1);
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InsertAndSendFramesWithInterval(
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1, kFrameInterval33ms, kWidth, kHeight, kDelayMs2);
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overuse_detector_->Process();
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}
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int UsagePercent() { return metrics_.encode_usage_percent; }
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CpuOveruseOptions options_;
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std::unique_ptr<SimulatedClock> clock_;
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std::unique_ptr<MockCpuOveruseObserver> observer_;
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std::unique_ptr<OveruseFrameDetector> overuse_detector_;
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CpuOveruseMetrics metrics_;
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};
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// UsagePercent() > high_encode_usage_threshold_percent => overuse.
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// UsagePercent() < low_encode_usage_threshold_percent => underuse.
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TEST_F(OveruseFrameDetectorTest, TriggerOveruse) {
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// usage > high => overuse
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EXPECT_CALL(*(observer_.get()), OveruseDetected()).Times(1);
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TriggerOveruse(options_.high_threshold_consecutive_count);
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}
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TEST_F(OveruseFrameDetectorTest, OveruseAndRecover) {
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// usage > high => overuse
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EXPECT_CALL(*(observer_.get()), OveruseDetected()).Times(1);
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TriggerOveruse(options_.high_threshold_consecutive_count);
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// usage < low => underuse
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EXPECT_CALL(*(observer_.get()), NormalUsage()).Times(testing::AtLeast(1));
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TriggerUnderuse();
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}
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TEST_F(OveruseFrameDetectorTest, OveruseAndRecoverWithNoObserver) {
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overuse_detector_.reset(
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new OveruseFrameDetector(clock_.get(), options_, nullptr, nullptr, this));
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EXPECT_CALL(*(observer_.get()), OveruseDetected()).Times(0);
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TriggerOveruse(options_.high_threshold_consecutive_count);
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EXPECT_CALL(*(observer_.get()), NormalUsage()).Times(0);
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TriggerUnderuse();
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}
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TEST_F(OveruseFrameDetectorTest, DoubleOveruseAndRecover) {
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EXPECT_CALL(*(observer_.get()), OveruseDetected()).Times(2);
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TriggerOveruse(options_.high_threshold_consecutive_count);
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TriggerOveruse(options_.high_threshold_consecutive_count);
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EXPECT_CALL(*(observer_.get()), NormalUsage()).Times(testing::AtLeast(1));
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TriggerUnderuse();
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}
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TEST_F(OveruseFrameDetectorTest, TriggerUnderuseWithMinProcessCount) {
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options_.min_process_count = 1;
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CpuOveruseObserverImpl overuse_observer;
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overuse_detector_.reset(new OveruseFrameDetector(
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clock_.get(), options_, &overuse_observer, nullptr, this));
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InsertAndSendFramesWithInterval(
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1200, kFrameInterval33ms, kWidth, kHeight, kProcessTime5ms);
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overuse_detector_->Process();
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EXPECT_EQ(0, overuse_observer.normaluse_);
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clock_->AdvanceTimeMilliseconds(kProcessIntervalMs);
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overuse_detector_->Process();
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EXPECT_EQ(1, overuse_observer.normaluse_);
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}
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TEST_F(OveruseFrameDetectorTest, ConstantOveruseGivesNoNormalUsage) {
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EXPECT_CALL(*(observer_.get()), NormalUsage()).Times(0);
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EXPECT_CALL(*(observer_.get()), OveruseDetected()).Times(64);
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for (size_t i = 0; i < 64; ++i) {
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TriggerOveruse(options_.high_threshold_consecutive_count);
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}
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}
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TEST_F(OveruseFrameDetectorTest, ConsecutiveCountTriggersOveruse) {
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EXPECT_CALL(*(observer_.get()), OveruseDetected()).Times(1);
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options_.high_threshold_consecutive_count = 2;
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ReinitializeOveruseDetector();
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TriggerOveruse(2);
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}
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TEST_F(OveruseFrameDetectorTest, IncorrectConsecutiveCountTriggersNoOveruse) {
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EXPECT_CALL(*(observer_.get()), OveruseDetected()).Times(0);
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options_.high_threshold_consecutive_count = 2;
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ReinitializeOveruseDetector();
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TriggerOveruse(1);
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}
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TEST_F(OveruseFrameDetectorTest, ProcessingUsage) {
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InsertAndSendFramesWithInterval(
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1000, kFrameInterval33ms, kWidth, kHeight, kProcessTime5ms);
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EXPECT_EQ(kProcessTime5ms * 100 / kFrameInterval33ms, UsagePercent());
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}
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TEST_F(OveruseFrameDetectorTest, ResetAfterResolutionChange) {
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ForceUpdate(kWidth, kHeight);
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EXPECT_EQ(InitialUsage(), UsagePercent());
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InsertAndSendFramesWithInterval(
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1000, kFrameInterval33ms, kWidth, kHeight, kProcessTime5ms);
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EXPECT_NE(InitialUsage(), UsagePercent());
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// Verify reset (with new width/height).
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ForceUpdate(kWidth, kHeight + 1);
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EXPECT_EQ(InitialUsage(), UsagePercent());
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}
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TEST_F(OveruseFrameDetectorTest, ResetAfterFrameTimeout) {
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ForceUpdate(kWidth, kHeight);
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EXPECT_EQ(InitialUsage(), UsagePercent());
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InsertAndSendFramesWithInterval(
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1000, kFrameInterval33ms, kWidth, kHeight, kProcessTime5ms);
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EXPECT_NE(InitialUsage(), UsagePercent());
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InsertAndSendFramesWithInterval(
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2, options_.frame_timeout_interval_ms, kWidth, kHeight, kProcessTime5ms);
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EXPECT_NE(InitialUsage(), UsagePercent());
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// Verify reset.
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InsertAndSendFramesWithInterval(
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2, options_.frame_timeout_interval_ms + 1, kWidth, kHeight,
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kProcessTime5ms);
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ForceUpdate(kWidth, kHeight);
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EXPECT_EQ(InitialUsage(), UsagePercent());
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}
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TEST_F(OveruseFrameDetectorTest, MinFrameSamplesBeforeUpdating) {
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options_.min_frame_samples = 40;
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ReinitializeOveruseDetector();
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InsertAndSendFramesWithInterval(
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40, kFrameInterval33ms, kWidth, kHeight, kProcessTime5ms);
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EXPECT_EQ(InitialUsage(), UsagePercent());
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// Pass time far enough to digest all previous samples.
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clock_->AdvanceTimeMilliseconds(1000);
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InsertAndSendFramesWithInterval(1, kFrameInterval33ms, kWidth, kHeight,
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kProcessTime5ms);
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// The last sample has not been processed here.
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EXPECT_EQ(InitialUsage(), UsagePercent());
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// Pass time far enough to digest all previous samples, 41 in total.
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clock_->AdvanceTimeMilliseconds(1000);
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InsertAndSendFramesWithInterval(
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1, kFrameInterval33ms, kWidth, kHeight, kProcessTime5ms);
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EXPECT_NE(InitialUsage(), UsagePercent());
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}
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TEST_F(OveruseFrameDetectorTest, InitialProcessingUsage) {
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ForceUpdate(kWidth, kHeight);
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EXPECT_EQ(InitialUsage(), UsagePercent());
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}
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TEST_F(OveruseFrameDetectorTest, MeasuresMultipleConcurrentSamples) {
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EXPECT_CALL(*(observer_.get()), OveruseDetected()).Times(testing::AtLeast(1));
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static const int kIntervalMs = 33;
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static const size_t kNumFramesEncodingDelay = 3;
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VideoFrame frame;
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frame.CreateEmptyFrame(kWidth, kHeight, kWidth, kWidth / 2, kWidth / 2);
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for (size_t i = 0; i < 1000; ++i) {
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// Unique timestamps.
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frame.set_timestamp(static_cast<uint32_t>(i));
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overuse_detector_->FrameCaptured(frame);
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clock_->AdvanceTimeMilliseconds(kIntervalMs);
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if (i > kNumFramesEncodingDelay) {
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overuse_detector_->FrameSent(
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static_cast<uint32_t>(i - kNumFramesEncodingDelay));
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}
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overuse_detector_->Process();
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}
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}
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TEST_F(OveruseFrameDetectorTest, UpdatesExistingSamples) {
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// >85% encoding time should trigger overuse.
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EXPECT_CALL(*(observer_.get()), OveruseDetected()).Times(testing::AtLeast(1));
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static const int kIntervalMs = 33;
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static const int kDelayMs = 30;
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VideoFrame frame;
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frame.CreateEmptyFrame(kWidth, kHeight, kWidth, kWidth / 2, kWidth / 2);
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uint32_t timestamp = 0;
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for (size_t i = 0; i < 1000; ++i) {
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frame.set_timestamp(timestamp);
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overuse_detector_->FrameCaptured(frame);
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// Encode and send first parts almost instantly.
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clock_->AdvanceTimeMilliseconds(1);
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overuse_detector_->FrameSent(timestamp);
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// Encode heavier part, resulting in >85% usage total.
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clock_->AdvanceTimeMilliseconds(kDelayMs - 1);
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overuse_detector_->FrameSent(timestamp);
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clock_->AdvanceTimeMilliseconds(kIntervalMs - kDelayMs);
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timestamp += kIntervalMs * 90;
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overuse_detector_->Process();
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}
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}
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} // namespace webrtc
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