/* * Copyright (c) 2016 The WebRTC project authors. All Rights Reserved. * * Use of this source code is governed by a BSD-style license * that can be found in the LICENSE file in the root of the source * tree. An additional intellectual property rights grant can be found * in the file PATENTS. All contributing project authors may * be found in the AUTHORS file in the root of the source tree. */ #include "modules/video_coding/utility/frame_dropper.h" #include "test/gtest.h" namespace webrtc { namespace { const float kTargetBitRateKbps = 300; const float kIncomingFrameRate = 30; const size_t kFrameSizeBytes = 1250; const size_t kLargeFrameSizeBytes = 25000; const bool kIncludeKeyFrame = true; const bool kDoNotIncludeKeyFrame = false; } // namespace class FrameDropperTest : public ::testing::Test { protected: void SetUp() override { frame_dropper_.SetRates(kTargetBitRateKbps, kIncomingFrameRate); } void OverflowLeakyBucket() { // Overflow bucket in frame dropper. for (int i = 0; i < kIncomingFrameRate; ++i) { frame_dropper_.Fill(kFrameSizeBytes, true); } frame_dropper_.Leak(kIncomingFrameRate); } void ValidateNoDropsAtTargetBitrate(int large_frame_size_bytes, int large_frame_rate, bool is_large_frame_delta) { // Smaller frame size is computed to meet |kTargetBitRateKbps|. int small_frame_size_bytes = kFrameSizeBytes - (large_frame_size_bytes * large_frame_rate) / kIncomingFrameRate; for (int i = 1; i <= 5 * large_frame_rate; ++i) { // Large frame. First frame is always a key frame. frame_dropper_.Fill(large_frame_size_bytes, (i == 1) ? false : is_large_frame_delta); frame_dropper_.Leak(kIncomingFrameRate); EXPECT_FALSE(frame_dropper_.DropFrame()); // Smaller frames. for (int j = 1; j < kIncomingFrameRate / large_frame_rate; ++j) { frame_dropper_.Fill(small_frame_size_bytes, true); frame_dropper_.Leak(kIncomingFrameRate); EXPECT_FALSE(frame_dropper_.DropFrame()); } } } void ValidateThroughputMatchesTargetBitrate(int bitrate_kbps, bool include_keyframe) { int delta_frame_size; int total_bytes = 0; if (include_keyframe) { delta_frame_size = ((1000.0 / 8 * bitrate_kbps) - kLargeFrameSizeBytes) / (kIncomingFrameRate - 1); } else { delta_frame_size = bitrate_kbps * 1000.0 / (8 * kIncomingFrameRate); } const int kNumIterations = 1000; for (int i = 1; i <= kNumIterations; ++i) { int j = 0; if (include_keyframe) { if (!frame_dropper_.DropFrame()) { frame_dropper_.Fill(kLargeFrameSizeBytes, false); total_bytes += kLargeFrameSizeBytes; } frame_dropper_.Leak(kIncomingFrameRate); j++; } for (; j < kIncomingFrameRate; ++j) { if (!frame_dropper_.DropFrame()) { frame_dropper_.Fill(delta_frame_size, true); total_bytes += delta_frame_size; } frame_dropper_.Leak(kIncomingFrameRate); } } float throughput_kbps = total_bytes * 8.0 / (1000 * kNumIterations); float deviation_from_target = (throughput_kbps - kTargetBitRateKbps) * 100.0 / kTargetBitRateKbps; if (deviation_from_target < 0) { deviation_from_target = -deviation_from_target; } // Variation is < 0.1% EXPECT_LE(deviation_from_target, 0.1); } FrameDropper frame_dropper_; }; TEST_F(FrameDropperTest, NoDropsWhenDisabled) { frame_dropper_.Enable(false); OverflowLeakyBucket(); EXPECT_FALSE(frame_dropper_.DropFrame()); } TEST_F(FrameDropperTest, DropsByDefaultWhenBucketOverflows) { OverflowLeakyBucket(); EXPECT_TRUE(frame_dropper_.DropFrame()); } TEST_F(FrameDropperTest, NoDropsWhenFillRateMatchesLeakRate) { for (int i = 0; i < 5 * kIncomingFrameRate; ++i) { frame_dropper_.Fill(kFrameSizeBytes, true); frame_dropper_.Leak(kIncomingFrameRate); EXPECT_FALSE(frame_dropper_.DropFrame()); } } TEST_F(FrameDropperTest, LargeKeyFrames) { ValidateNoDropsAtTargetBitrate(kLargeFrameSizeBytes, 1, false); frame_dropper_.Reset(); ValidateNoDropsAtTargetBitrate(kLargeFrameSizeBytes / 2, 2, false); frame_dropper_.Reset(); ValidateNoDropsAtTargetBitrate(kLargeFrameSizeBytes / 4, 4, false); frame_dropper_.Reset(); ValidateNoDropsAtTargetBitrate(kLargeFrameSizeBytes / 8, 8, false); } TEST_F(FrameDropperTest, LargeDeltaFrames) { ValidateNoDropsAtTargetBitrate(kLargeFrameSizeBytes, 1, true); frame_dropper_.Reset(); ValidateNoDropsAtTargetBitrate(kLargeFrameSizeBytes / 2, 2, true); frame_dropper_.Reset(); ValidateNoDropsAtTargetBitrate(kLargeFrameSizeBytes / 4, 4, true); frame_dropper_.Reset(); ValidateNoDropsAtTargetBitrate(kLargeFrameSizeBytes / 8, 8, true); } TEST_F(FrameDropperTest, TrafficVolumeAboveAvailableBandwidth) { ValidateThroughputMatchesTargetBitrate(700, kIncludeKeyFrame); ValidateThroughputMatchesTargetBitrate(700, kDoNotIncludeKeyFrame); ValidateThroughputMatchesTargetBitrate(600, kIncludeKeyFrame); ValidateThroughputMatchesTargetBitrate(600, kDoNotIncludeKeyFrame); ValidateThroughputMatchesTargetBitrate(500, kIncludeKeyFrame); ValidateThroughputMatchesTargetBitrate(500, kDoNotIncludeKeyFrame); } } // namespace webrtc