webrtc/modules/video_coding/frame_buffer2_unittest.cc - Issue 1969403007: FrameBuffer for the new jitter buffer.

Unified Diff: webrtc/modules/video_coding/frame_buffer2_unittest.cc

Issue 1969403007: FrameBuffer for the new jitter buffer. (Closed) Base URL: https://chromium.googlesource.com/external/webrtc.git@master

Patch Set: Unittest fix and feedback fixes. Created 4 years, 7 months ago

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Index: webrtc/modules/video_coding/frame_buffer2_unittest.cc

diff --git a/webrtc/modules/video_coding/frame_buffer2_unittest.cc b/webrtc/modules/video_coding/frame_buffer2_unittest.cc

new file mode 100644

index 0000000000000000000000000000000000000000..67dbe28c9ede80d8aad04152c1f3927a6144d681

--- /dev/null

+++ b/webrtc/modules/video_coding/frame_buffer2_unittest.cc

@@ -0,0 +1,329 @@

+/*

+ *

+ * 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 "webrtc/modules/video_coding/frame_buffer2.h"

+#include <algorithm>

+#include <cstring>

+#include <limits>

+#include <vector>

+#include "testing/gmock/include/gmock/gmock.h"

+#include "testing/gtest/include/gtest/gtest.h"

+#include "webrtc/base/random.h"

+#include "webrtc/base/platform_thread.h"

danilchap 2016/05/18 11:46:25 platform < random

philipel 2016/05/18 12:07:57 Done.

+#include "webrtc/modules/video_coding/frame_object.h"

+#include "webrtc/modules/video_coding/jitter_estimator.h"

+#include "webrtc/modules/video_coding/sequence_number_util.h"

+#include "webrtc/modules/video_coding/timing.h"

+#include "webrtc/system_wrappers/include/clock.h"

+namespace webrtc {

+namespace video_coding {

+class VCMTimingFake : public VCMTiming {

+ public:

+ explicit VCMTimingFake(Clock* clock) : VCMTiming(clock) {}

+ int64_t RenderTimeMs(uint32_t frame_timestamp,

+ int64_t now_ms) const override {

+ if (last_ms_ == -1) {

+ last_ms_ = now_ms + kDelayMs;

+ last_timestamp_ = frame_timestamp;

+ }

+ uint32_t diff = MinDiff(frame_timestamp, last_timestamp_);

+ if (AheadOf(frame_timestamp, last_timestamp_))

+ last_ms_ += diff / 90;

+ else

+ last_ms_ -= diff / 90;

+ last_timestamp_ = frame_timestamp;

+ return last_ms_;

+ }

+ uint32_t MaxWaitingTime(int64_t render_time_ms,

+ int64_t now_ms) const override {

+ return std::max<int>(0, render_time_ms - now_ms - kDecodeTime);

+ }

+ private:

+ static constexpr int kDelayMs = 50;

+ static constexpr int kDecodeTime = kDelayMs / 2;

+ mutable uint32_t last_timestamp_ = 0;

+ mutable int64_t last_ms_ = -1;

+};

+class VCMJitterEstimatorMock : public VCMJitterEstimator {

+ public:

+ explicit VCMJitterEstimatorMock(Clock* clock) : VCMJitterEstimator(clock) {}

+ MOCK_METHOD1(UpdateRtt, void(int64_t rttMs));

+ MOCK_METHOD3(UpdateEstimate,

+ void(int64_t frameDelayMs,

+ uint32_t frameSizeBytes,

+ bool incompleteFrame));

+};

+class FrameObjectMock : public FrameObject {

+ public:

+ MOCK_CONST_METHOD1(GetBitstream, bool(uint8_t* destination));

+};

+class TestFrameBuffer2 : public ::testing::Test {

+ protected:

+ static constexpr int kMaxReferences = 5;

+ static constexpr int kFps1 = 1000;

+ static constexpr int kFps10 = kFps1 / 10;

+ static constexpr int kFps20 = kFps1 / 20;

+ TestFrameBuffer2()

+ : clock_(0),

+ timing_(&clock_),

+ jitter_estimator_(&clock_),

+ buffer_(&clock_, &jitter_estimator_, &timing_),

+ rand_(0x34678213),

+ tear_down_(false),

+ extract_thread_(&ExtractLoop, this, "Extract Thread"),

+ trigger_extract_event_(false, false),

+ crit_acquired_event_(false, false) {}

+ void SetUp() override { extract_thread_.Start(); }

+ void TearDown() override {

+ tear_down_ = true;

+ trigger_extract_event_.Set();

+ extract_thread_.Stop();

+ }

+ template <typename... T>

+ void InsertFrame(uint16_t picture_id,

+ uint8_t spatial_layer,

+ int64_t ts_ms,

+ bool inter_layer_predicted,

+ T... refs) {

+ static_assert(sizeof...(refs) <= kMaxReferences,

+ "To many references specified for FrameObject.");

+ std::array<uint16_t, sizeof...(refs)> references = {{refs...}};

+ std::unique_ptr<FrameObjectMock> frame(new FrameObjectMock());

+ frame->picture_id = picture_id;

+ frame->spatial_layer = spatial_layer;

+ frame->timestamp = ts_ms * 90;

+ frame->num_references = references.size();

+ frame->inter_layer_predicted = inter_layer_predicted;

+ for (size_t r = 0; r < references.size(); ++r)

+ frame->references[r] = references[r];

+ buffer_.InsertFrame(std::move(frame));

+ }

+ void ExtractFrame(int64_t max_wait_time = 0) {

+ crit_.Enter();

+ if (max_wait_time == 0) {

+ frames_.emplace_back(buffer_.NextFrame(0));

+ crit_.Leave();

+ } else {

+ max_wait_time_ = max_wait_time;

+ trigger_extract_event_.Set();

+ crit_.Leave();

+ // Make sure |crit_| is aquired by |extract_thread_| before returning.

+ crit_acquired_event_.Wait(rtc::Event::kForever);

+ }

+ void CheckFrame(size_t index, int picture_id, int spatial_layer) {

+ rtc::CritScope lock(&crit_);

+ ASSERT_LT(index, frames_.size());

+ ASSERT_TRUE(frames_[index]);

+ ASSERT_EQ(picture_id, frames_[index]->picture_id);

+ ASSERT_EQ(spatial_layer, frames_[index]->spatial_layer);

+ }

+ void CheckNoFrame(size_t index) {

+ rtc::CritScope lock(&crit_);

+ ASSERT_LT(index, frames_.size());

+ ASSERT_FALSE(frames_[index]);

+ }

+ static bool ExtractLoop(void* obj) {

+ TestFrameBuffer2* tfb = static_cast<TestFrameBuffer2*>(obj);

+ while (true) {

+ tfb->trigger_extract_event_.Wait(rtc::Event::kForever);

+ {

+ rtc::CritScope lock(&tfb->crit_);

+ tfb->crit_acquired_event_.Set();

+ if (tfb->tear_down_)

+ return false;

+ tfb->frames_.emplace_back(tfb->buffer_.NextFrame(tfb->max_wait_time_));

+ }

+ uint32_t Rand() { return rand_.Rand<uint32_t>(); }

+ SimulatedClock clock_;

+ VCMTimingFake timing_;

+ VCMJitterEstimatorMock jitter_estimator_;

+ FrameBuffer buffer_;

+ std::vector<std::unique_ptr<FrameObject>> frames_;

+ Random rand_;

+ int64_t max_wait_time_;

+ bool tear_down_;

+ rtc::PlatformThread extract_thread_;

+ rtc::Event trigger_extract_event_;

+ rtc::Event crit_acquired_event_;

+ rtc::CriticalSection crit_;

+};

+TEST_F(TestFrameBuffer2, ExtractFromEmptyBuffer) {

+ ExtractFrame();

+ CheckNoFrame(0);

+TEST_F(TestFrameBuffer2, WaitForFrame) {

+ uint16_t pid = Rand();

+ uint32_t ts = Rand();

+ ExtractFrame(20);

+ InsertFrame(pid, 0, ts, false);

+ CheckFrame(0, pid, 0);

+TEST_F(TestFrameBuffer2, OneSuperFrame) {

+ uint16_t pid = Rand();

+ uint32_t ts = Rand();

+ ExtractFrame(20);

+ InsertFrame(pid, 1, ts, true);

+ InsertFrame(pid, 0, ts, false);

+ ExtractFrame();

+ CheckFrame(0, pid, 0);

+ CheckFrame(1, pid, 1);

+TEST_F(TestFrameBuffer2, OneLayerStream) {

+ uint16_t pid = Rand();

+ uint32_t ts = Rand();

+ InsertFrame(pid, 0, ts, false);

+ ExtractFrame();

+ CheckFrame(0, pid, 0);

+ for (int i = 1; i < 10; ++i) {

+ InsertFrame(pid + i, 0, ts + i * kFps10, false, pid + i - 1);

+ ExtractFrame();

+ clock_.AdvanceTimeMilliseconds(kFps10);

+ CheckFrame(i, pid + i, 0);

+ }

+TEST_F(TestFrameBuffer2, OneLayerStreamReordered) {

+ uint16_t pid = Rand();

+ uint32_t ts = Rand();

+ InsertFrame(pid, 0, ts, false);

+ ExtractFrame();

+ CheckFrame(0, pid, 0);

+ for (int i = 1; i < 10; i += 2) {

+ ExtractFrame(15);

+ InsertFrame(pid + i + 1, 0, ts + (i + 1) * kFps10, false, pid + i);

+ clock_.AdvanceTimeMilliseconds(kFps10);

+ InsertFrame(pid + i, 0, ts + i * kFps10, false, pid + i - 1);

+ clock_.AdvanceTimeMilliseconds(kFps10);

+ ExtractFrame();

+ CheckFrame(i, pid + i, 0);

+ CheckFrame(i + 1, pid + i + 1, 0);

+ }

+TEST_F(TestFrameBuffer2, DropTemporalLayerSlowDecoder) {

+ uint16_t pid = Rand();

+ uint32_t ts = Rand();

+ InsertFrame(pid, 0, ts, false);

+ InsertFrame(pid + 1, 0, ts + kFps20, false);

+ for (int i = 2; i < 10; i += 2) {

+ uint32_t ts_tl0 = ts + i / 2 * kFps10;

+ InsertFrame(pid + i, 0, ts_tl0, false, pid + i - 2);

+ InsertFrame(pid + i + 1, 0, ts_tl0 + kFps20, false, pid + i, pid + i - 1);

+ }

+ for (int i = 0; i < 10; ++i) {

+ ExtractFrame();

+ clock_.AdvanceTimeMilliseconds(60);

+ }

+ CheckFrame(0, pid, 0);

+ CheckFrame(1, pid + 1, 0);

+ CheckFrame(2, pid + 2, 0);

+ CheckFrame(3, pid + 4, 0);

+ CheckFrame(4, pid + 6, 0);

+ CheckFrame(5, pid + 8, 0);

+ CheckNoFrame(6);

+ CheckNoFrame(7);

+ CheckNoFrame(8);

+ CheckNoFrame(9);

+TEST_F(TestFrameBuffer2, DropSpatialLayerSlowDecoder) {

+ uint16_t pid = Rand();

+ uint32_t ts = Rand();

+ InsertFrame(pid, 0, ts, false);

+ InsertFrame(pid, 1, ts, false);

+ for (int i = 1; i < 6; ++i) {

+ uint32_t ts_tl0 = ts + i * kFps10;

+ InsertFrame(pid + i, 0, ts_tl0, false, pid + i - 1);

+ InsertFrame(pid + i, 1, ts_tl0, false, pid + i - 1);

+ }

+ ExtractFrame();

+ clock_.AdvanceTimeMilliseconds(55);

+ for (int i = 2; i < 12; ++i) {

+ ExtractFrame();

+ clock_.AdvanceTimeMilliseconds(55);

+ }

+ CheckFrame(0, pid, 0);

+ CheckFrame(1, pid, 1);

+ CheckFrame(2, pid + 1, 0);

+ CheckFrame(3, pid + 1, 1);

+ CheckFrame(4, pid + 2, 0);

+ CheckFrame(5, pid + 2, 1);

+ CheckFrame(6, pid + 3, 0);

+ CheckFrame(7, pid + 4, 0);

+ CheckFrame(8, pid + 5, 0);

+ CheckNoFrame(9);

+ CheckNoFrame(10);

+ CheckNoFrame(11);

+TEST_F(TestFrameBuffer2, InsertLateFrame) {

+ uint16_t pid = Rand();

+ uint32_t ts = Rand();

+ InsertFrame(pid, 0, ts, false);

+ ExtractFrame();

+ InsertFrame(pid + 2, 0, ts, false);

+ ExtractFrame();

+ InsertFrame(pid + 1, 0, ts, false, pid);

+ ExtractFrame();

+ CheckFrame(0, pid, 0);

+ CheckFrame(1, pid + 2, 0);

+ CheckNoFrame(2);

+} // namespace video_coding

+} // namespace webrtc

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