webrtc/video/video_capture_input_unittest.cc - src - Git at Google

 /*
  *  Copyright (c) 2014 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 "webrtc/video/video_capture_input.h"

 #include <vector>

 #include "testing/gmock/include/gmock/gmock.h"
 #include "testing/gtest/include/gtest/gtest.h"
 #include "webrtc/base/scoped_ptr.h"
 #include "webrtc/common.h"
 #include "webrtc/modules/utility/interface/mock/mock_process_thread.h"
 #include "webrtc/modules/video_capture/include/mock/mock_video_capture.h"
 #include "webrtc/system_wrappers/interface/critical_section_wrapper.h"
 #include "webrtc/system_wrappers/interface/event_wrapper.h"
 #include "webrtc/system_wrappers/interface/ref_count.h"
 #include "webrtc/system_wrappers/interface/scoped_vector.h"
 #include "webrtc/test/fake_texture_frame.h"
 #include "webrtc/video/send_statistics_proxy.h"

 using ::testing::_;
 using ::testing::Invoke;
 using ::testing::NiceMock;
 using ::testing::Return;
 using ::testing::WithArg;

 // If an output frame does not arrive in 500ms, the test will fail.
 #define FRAME_TIMEOUT_MS 500

 namespace webrtc {

 class MockVideoCaptureCallback : public VideoCaptureCallback {
  public:
   MOCK_METHOD1(DeliverFrame, void(VideoFrame video_frame));
 };

 bool EqualFrames(const VideoFrame& frame1, const VideoFrame& frame2);
 bool EqualTextureFrames(const VideoFrame& frame1, const VideoFrame& frame2);
 bool EqualBufferFrames(const VideoFrame& frame1, const VideoFrame& frame2);
 bool EqualFramesVector(const ScopedVector<VideoFrame>& frames1,
                        const ScopedVector<VideoFrame>& frames2);
 VideoFrame* CreateVideoFrame(uint8_t length);

 class VideoCaptureInputTest : public ::testing::Test {
  protected:
   VideoCaptureInputTest()
       : mock_process_thread_(new NiceMock<MockProcessThread>),
         mock_frame_callback_(new NiceMock<MockVideoCaptureCallback>),
         output_frame_event_(EventWrapper::Create()),
         stats_proxy_(Clock::GetRealTimeClock(),
                      webrtc::VideoSendStream::Config()) {}

   virtual void SetUp() {
     EXPECT_CALL(*mock_frame_callback_, DeliverFrame(_))
         .WillRepeatedly(
             WithArg<0>(Invoke(this, &VideoCaptureInputTest::AddOutputFrame)));

     Config config;
     input_.reset(new internal::VideoCaptureInput(
         mock_process_thread_.get(), mock_frame_callback_.get(), nullptr,
         &stats_proxy_, nullptr));
   }

   virtual void TearDown() {
     // VideoCaptureInput accesses |mock_process_thread_| in destructor and
     // should
     // be deleted first.
     input_.reset();
   }

   void AddInputFrame(VideoFrame* frame) {
     input_->IncomingCapturedFrame(*frame);
   }

   void AddOutputFrame(const VideoFrame& frame) {
     if (frame.native_handle() == NULL)
       output_frame_ybuffers_.push_back(frame.buffer(kYPlane));
     output_frames_.push_back(new VideoFrame(frame));
     output_frame_event_->Set();
   }

   void WaitOutputFrame() {
     EXPECT_EQ(kEventSignaled, output_frame_event_->Wait(FRAME_TIMEOUT_MS));
   }

   rtc::scoped_ptr<MockProcessThread> mock_process_thread_;
   rtc::scoped_ptr<MockVideoCaptureCallback> mock_frame_callback_;

   // Used to send input capture frames to VideoCaptureInput.
   rtc::scoped_ptr<internal::VideoCaptureInput> input_;

   // Input capture frames of VideoCaptureInput.
   ScopedVector<VideoFrame> input_frames_;

   // Indicate an output frame has arrived.
   rtc::scoped_ptr<EventWrapper> output_frame_event_;

   // Output delivered frames of VideoCaptureInput.
   ScopedVector<VideoFrame> output_frames_;

   // The pointers of Y plane buffers of output frames. This is used to verify
   // the frame are swapped and not copied.
   std::vector<const uint8_t*> output_frame_ybuffers_;
   SendStatisticsProxy stats_proxy_;
 };

 TEST_F(VideoCaptureInputTest, DoesNotRetainHandleNorCopyBuffer) {
   // Indicate an output frame has arrived.
   rtc::scoped_ptr<EventWrapper> frame_destroyed_event(EventWrapper::Create());
   class TestBuffer : public webrtc::I420Buffer {
    public:
     explicit TestBuffer(EventWrapper* event)
         : I420Buffer(5, 5), event_(event) {}

    private:
     friend class rtc::RefCountedObject<TestBuffer>;
     ~TestBuffer() override { event_->Set(); }
     EventWrapper* event_;
   };

   VideoFrame frame(
       new rtc::RefCountedObject<TestBuffer>(frame_destroyed_event.get()), 1, 1,
       kVideoRotation_0);

   AddInputFrame(&frame);
   WaitOutputFrame();

   EXPECT_EQ(output_frames_[0]->video_frame_buffer().get(),
             frame.video_frame_buffer().get());
   output_frames_.clear();
   frame.Reset();
   EXPECT_EQ(kEventSignaled, frame_destroyed_event->Wait(FRAME_TIMEOUT_MS));
 }

 TEST_F(VideoCaptureInputTest, TestNtpTimeStampSetIfRenderTimeSet) {
   input_frames_.push_back(CreateVideoFrame(static_cast<uint8_t>(0)));
   input_frames_[0]->set_render_time_ms(5);
   input_frames_[0]->set_ntp_time_ms(0);

   AddInputFrame(input_frames_[0]);
   WaitOutputFrame();
   EXPECT_GT(output_frames_[0]->ntp_time_ms(),
             input_frames_[0]->render_time_ms());
 }

 TEST_F(VideoCaptureInputTest, TestRtpTimeStampSet) {
   input_frames_.push_back(CreateVideoFrame(static_cast<uint8_t>(0)));
   input_frames_[0]->set_render_time_ms(0);
   input_frames_[0]->set_ntp_time_ms(1);
   input_frames_[0]->set_timestamp(0);

   AddInputFrame(input_frames_[0]);
   WaitOutputFrame();
   EXPECT_EQ(output_frames_[0]->timestamp(),
             input_frames_[0]->ntp_time_ms() * 90);
 }

 TEST_F(VideoCaptureInputTest, TestTextureFrames) {
   const int kNumFrame = 3;
   for (int i = 0 ; i < kNumFrame; ++i) {
     test::FakeNativeHandle* dummy_handle = new test::FakeNativeHandle();
     // Add one to |i| so that width/height > 0.
     input_frames_.push_back(new VideoFrame(test::CreateFakeNativeHandleFrame(
         dummy_handle, i + 1, i + 1, i + 1, i + 1, webrtc::kVideoRotation_0)));
     AddInputFrame(input_frames_[i]);
     WaitOutputFrame();
     EXPECT_EQ(dummy_handle, output_frames_[i]->native_handle());
   }

   EXPECT_TRUE(EqualFramesVector(input_frames_, output_frames_));
 }

 TEST_F(VideoCaptureInputTest, TestI420Frames) {
   const int kNumFrame = 4;
   std::vector<const uint8_t*> ybuffer_pointers;
   for (int i = 0; i < kNumFrame; ++i) {
     input_frames_.push_back(CreateVideoFrame(static_cast<uint8_t>(i + 1)));
     const VideoFrame* const_input_frame = input_frames_[i];
     ybuffer_pointers.push_back(const_input_frame->buffer(kYPlane));
     AddInputFrame(input_frames_[i]);
     WaitOutputFrame();
   }

   EXPECT_TRUE(EqualFramesVector(input_frames_, output_frames_));
   // Make sure the buffer is not copied.
   for (int i = 0; i < kNumFrame; ++i)
     EXPECT_EQ(ybuffer_pointers[i], output_frame_ybuffers_[i]);
 }

 TEST_F(VideoCaptureInputTest, TestI420FrameAfterTextureFrame) {
   test::FakeNativeHandle* dummy_handle = new test::FakeNativeHandle();
   input_frames_.push_back(new VideoFrame(test::CreateFakeNativeHandleFrame(
       dummy_handle, 1, 1, 1, 1, webrtc::kVideoRotation_0)));
   AddInputFrame(input_frames_[0]);
   WaitOutputFrame();
   EXPECT_EQ(dummy_handle, output_frames_[0]->native_handle());

   input_frames_.push_back(CreateVideoFrame(2));
   AddInputFrame(input_frames_[1]);
   WaitOutputFrame();

   EXPECT_TRUE(EqualFramesVector(input_frames_, output_frames_));
 }

 TEST_F(VideoCaptureInputTest, TestTextureFrameAfterI420Frame) {
   input_frames_.push_back(CreateVideoFrame(1));
   AddInputFrame(input_frames_[0]);
   WaitOutputFrame();

   test::FakeNativeHandle* dummy_handle = new test::FakeNativeHandle();
   input_frames_.push_back(new VideoFrame(test::CreateFakeNativeHandleFrame(
       dummy_handle, 1, 1, 2, 2, webrtc::kVideoRotation_0)));
   AddInputFrame(input_frames_[1]);
   WaitOutputFrame();

   EXPECT_TRUE(EqualFramesVector(input_frames_, output_frames_));
 }

 bool EqualFrames(const VideoFrame& frame1, const VideoFrame& frame2) {
   if (frame1.native_handle() != NULL || frame2.native_handle() != NULL)
     return EqualTextureFrames(frame1, frame2);
   return EqualBufferFrames(frame1, frame2);
 }

 bool EqualTextureFrames(const VideoFrame& frame1, const VideoFrame& frame2) {
   return ((frame1.native_handle() == frame2.native_handle()) &&
           (frame1.width() == frame2.width()) &&
           (frame1.height() == frame2.height()) &&
           (frame1.render_time_ms() == frame2.render_time_ms()));
 }

 bool EqualBufferFrames(const VideoFrame& frame1, const VideoFrame& frame2) {
   return ((frame1.width() == frame2.width()) &&
           (frame1.height() == frame2.height()) &&
           (frame1.stride(kYPlane) == frame2.stride(kYPlane)) &&
           (frame1.stride(kUPlane) == frame2.stride(kUPlane)) &&
           (frame1.stride(kVPlane) == frame2.stride(kVPlane)) &&
           (frame1.render_time_ms() == frame2.render_time_ms()) &&
           (frame1.allocated_size(kYPlane) == frame2.allocated_size(kYPlane)) &&
           (frame1.allocated_size(kUPlane) == frame2.allocated_size(kUPlane)) &&
           (frame1.allocated_size(kVPlane) == frame2.allocated_size(kVPlane)) &&
           (memcmp(frame1.buffer(kYPlane), frame2.buffer(kYPlane),
                   frame1.allocated_size(kYPlane)) == 0) &&
           (memcmp(frame1.buffer(kUPlane), frame2.buffer(kUPlane),
                   frame1.allocated_size(kUPlane)) == 0) &&
           (memcmp(frame1.buffer(kVPlane), frame2.buffer(kVPlane),
                   frame1.allocated_size(kVPlane)) == 0));
 }

 bool EqualFramesVector(const ScopedVector<VideoFrame>& frames1,
                        const ScopedVector<VideoFrame>& frames2) {
   if (frames1.size() != frames2.size())
     return false;
   for (size_t i = 0; i < frames1.size(); ++i) {
     if (!EqualFrames(*frames1[i], *frames2[i]))
       return false;
   }
   return true;
 }

 VideoFrame* CreateVideoFrame(uint8_t data) {
   VideoFrame* frame = new VideoFrame();
   const int width = 36;
   const int height = 24;
   const int kSizeY = width * height * 2;
   uint8_t buffer[kSizeY];
   memset(buffer, data, kSizeY);
   frame->CreateFrame(buffer, buffer, buffer, width, height, width, width / 2,
                      width / 2);
   frame->set_render_time_ms(data);
   return frame;
 }

 }  // namespace webrtc
	/*
	* Copyright (c) 2014 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 "webrtc/video/video_capture_input.h"

	#include <vector>

	#include "testing/gmock/include/gmock/gmock.h"
	#include "testing/gtest/include/gtest/gtest.h"
	#include "webrtc/base/scoped_ptr.h"
	#include "webrtc/common.h"
	#include "webrtc/modules/utility/interface/mock/mock_process_thread.h"
	#include "webrtc/modules/video_capture/include/mock/mock_video_capture.h"
	#include "webrtc/system_wrappers/interface/critical_section_wrapper.h"
	#include "webrtc/system_wrappers/interface/event_wrapper.h"
	#include "webrtc/system_wrappers/interface/ref_count.h"
	#include "webrtc/system_wrappers/interface/scoped_vector.h"
	#include "webrtc/test/fake_texture_frame.h"
	#include "webrtc/video/send_statistics_proxy.h"

	using ::testing::_;
	using ::testing::Invoke;
	using ::testing::NiceMock;
	using ::testing::Return;
	using ::testing::WithArg;

	// If an output frame does not arrive in 500ms, the test will fail.
	#define FRAME_TIMEOUT_MS 500

	namespace webrtc {

	class MockVideoCaptureCallback : public VideoCaptureCallback {
	public:
	MOCK_METHOD1(DeliverFrame, void(VideoFrame video_frame));
	};

	bool EqualFrames(const VideoFrame& frame1, const VideoFrame& frame2);
	bool EqualTextureFrames(const VideoFrame& frame1, const VideoFrame& frame2);
	bool EqualBufferFrames(const VideoFrame& frame1, const VideoFrame& frame2);
	bool EqualFramesVector(const ScopedVector<VideoFrame>& frames1,
	const ScopedVector<VideoFrame>& frames2);
	VideoFrame* CreateVideoFrame(uint8_t length);

	class VideoCaptureInputTest : public ::testing::Test {
	protected:
	VideoCaptureInputTest()
	: mock_process_thread_(new NiceMock<MockProcessThread>),
	mock_frame_callback_(new NiceMock<MockVideoCaptureCallback>),
	output_frame_event_(EventWrapper::Create()),
	stats_proxy_(Clock::GetRealTimeClock(),
	webrtc::VideoSendStream::Config()) {}

	virtual void SetUp() {
	EXPECT_CALL(*mock_frame_callback_, DeliverFrame(_))
	.WillRepeatedly(
	WithArg<0>(Invoke(this, &VideoCaptureInputTest::AddOutputFrame)));

	Config config;
	input_.reset(new internal::VideoCaptureInput(
	mock_process_thread_.get(), mock_frame_callback_.get(), nullptr,
	&stats_proxy_, nullptr));
	}

	virtual void TearDown() {
	// VideoCaptureInput accesses \|mock_process_thread_\| in destructor and
	// should
	// be deleted first.
	input_.reset();
	}

	void AddInputFrame(VideoFrame* frame) {
	input_->IncomingCapturedFrame(*frame);
	}

	void AddOutputFrame(const VideoFrame& frame) {
	if (frame.native_handle() == NULL)
	output_frame_ybuffers_.push_back(frame.buffer(kYPlane));
	output_frames_.push_back(new VideoFrame(frame));
	output_frame_event_->Set();
	}

	void WaitOutputFrame() {
	EXPECT_EQ(kEventSignaled, output_frame_event_->Wait(FRAME_TIMEOUT_MS));
	}

	rtc::scoped_ptr<MockProcessThread> mock_process_thread_;
	rtc::scoped_ptr<MockVideoCaptureCallback> mock_frame_callback_;

	// Used to send input capture frames to VideoCaptureInput.
	rtc::scoped_ptr<internal::VideoCaptureInput> input_;

	// Input capture frames of VideoCaptureInput.
	ScopedVector<VideoFrame> input_frames_;

	// Indicate an output frame has arrived.
	rtc::scoped_ptr<EventWrapper> output_frame_event_;

	// Output delivered frames of VideoCaptureInput.
	ScopedVector<VideoFrame> output_frames_;

	// The pointers of Y plane buffers of output frames. This is used to verify
	// the frame are swapped and not copied.
	std::vector<const uint8_t*> output_frame_ybuffers_;
	SendStatisticsProxy stats_proxy_;
	};

	TEST_F(VideoCaptureInputTest, DoesNotRetainHandleNorCopyBuffer) {
	// Indicate an output frame has arrived.
	rtc::scoped_ptr<EventWrapper> frame_destroyed_event(EventWrapper::Create());
	class TestBuffer : public webrtc::I420Buffer {
	public:
	explicit TestBuffer(EventWrapper* event)
	: I420Buffer(5, 5), event_(event) {}

	private:
	friend class rtc::RefCountedObject<TestBuffer>;
	~TestBuffer() override { event_->Set(); }
	EventWrapper* event_;
	};

	VideoFrame frame(
	new rtc::RefCountedObject<TestBuffer>(frame_destroyed_event.get()), 1, 1,
	kVideoRotation_0);

	AddInputFrame(&frame);
	WaitOutputFrame();

	EXPECT_EQ(output_frames_[0]->video_frame_buffer().get(),
	frame.video_frame_buffer().get());
	output_frames_.clear();
	frame.Reset();
	EXPECT_EQ(kEventSignaled, frame_destroyed_event->Wait(FRAME_TIMEOUT_MS));
	}

	TEST_F(VideoCaptureInputTest, TestNtpTimeStampSetIfRenderTimeSet) {
	input_frames_.push_back(CreateVideoFrame(static_cast<uint8_t>(0)));
	input_frames_[0]->set_render_time_ms(5);
	input_frames_[0]->set_ntp_time_ms(0);

	AddInputFrame(input_frames_[0]);
	WaitOutputFrame();
	EXPECT_GT(output_frames_[0]->ntp_time_ms(),
	input_frames_[0]->render_time_ms());
	}

	TEST_F(VideoCaptureInputTest, TestRtpTimeStampSet) {
	input_frames_.push_back(CreateVideoFrame(static_cast<uint8_t>(0)));
	input_frames_[0]->set_render_time_ms(0);
	input_frames_[0]->set_ntp_time_ms(1);
	input_frames_[0]->set_timestamp(0);

	AddInputFrame(input_frames_[0]);
	WaitOutputFrame();
	EXPECT_EQ(output_frames_[0]->timestamp(),
	input_frames_[0]->ntp_time_ms() * 90);
	}

	TEST_F(VideoCaptureInputTest, TestTextureFrames) {
	const int kNumFrame = 3;
	for (int i = 0 ; i < kNumFrame; ++i) {
	test::FakeNativeHandle* dummy_handle = new test::FakeNativeHandle();
	// Add one to \|i\| so that width/height > 0.
	input_frames_.push_back(new VideoFrame(test::CreateFakeNativeHandleFrame(
	dummy_handle, i + 1, i + 1, i + 1, i + 1, webrtc::kVideoRotation_0)));
	AddInputFrame(input_frames_[i]);
	WaitOutputFrame();
	EXPECT_EQ(dummy_handle, output_frames_[i]->native_handle());
	}

	EXPECT_TRUE(EqualFramesVector(input_frames_, output_frames_));
	}

	TEST_F(VideoCaptureInputTest, TestI420Frames) {
	const int kNumFrame = 4;
	std::vector<const uint8_t*> ybuffer_pointers;
	for (int i = 0; i < kNumFrame; ++i) {
	input_frames_.push_back(CreateVideoFrame(static_cast<uint8_t>(i + 1)));
	const VideoFrame* const_input_frame = input_frames_[i];
	ybuffer_pointers.push_back(const_input_frame->buffer(kYPlane));
	AddInputFrame(input_frames_[i]);
	WaitOutputFrame();
	}

	EXPECT_TRUE(EqualFramesVector(input_frames_, output_frames_));
	// Make sure the buffer is not copied.
	for (int i = 0; i < kNumFrame; ++i)
	EXPECT_EQ(ybuffer_pointers[i], output_frame_ybuffers_[i]);
	}

	TEST_F(VideoCaptureInputTest, TestI420FrameAfterTextureFrame) {
	test::FakeNativeHandle* dummy_handle = new test::FakeNativeHandle();
	input_frames_.push_back(new VideoFrame(test::CreateFakeNativeHandleFrame(
	dummy_handle, 1, 1, 1, 1, webrtc::kVideoRotation_0)));
	AddInputFrame(input_frames_[0]);
	WaitOutputFrame();
	EXPECT_EQ(dummy_handle, output_frames_[0]->native_handle());

	input_frames_.push_back(CreateVideoFrame(2));
	AddInputFrame(input_frames_[1]);
	WaitOutputFrame();

	EXPECT_TRUE(EqualFramesVector(input_frames_, output_frames_));
	}

	TEST_F(VideoCaptureInputTest, TestTextureFrameAfterI420Frame) {
	input_frames_.push_back(CreateVideoFrame(1));
	AddInputFrame(input_frames_[0]);
	WaitOutputFrame();

	test::FakeNativeHandle* dummy_handle = new test::FakeNativeHandle();
	input_frames_.push_back(new VideoFrame(test::CreateFakeNativeHandleFrame(
	dummy_handle, 1, 1, 2, 2, webrtc::kVideoRotation_0)));
	AddInputFrame(input_frames_[1]);
	WaitOutputFrame();

	EXPECT_TRUE(EqualFramesVector(input_frames_, output_frames_));
	}

	bool EqualFrames(const VideoFrame& frame1, const VideoFrame& frame2) {
	if (frame1.native_handle() != NULL \|\| frame2.native_handle() != NULL)
	return EqualTextureFrames(frame1, frame2);
	return EqualBufferFrames(frame1, frame2);
	}

	bool EqualTextureFrames(const VideoFrame& frame1, const VideoFrame& frame2) {
	return ((frame1.native_handle() == frame2.native_handle()) &&
	(frame1.width() == frame2.width()) &&
	(frame1.height() == frame2.height()) &&
	(frame1.render_time_ms() == frame2.render_time_ms()));
	}

	bool EqualBufferFrames(const VideoFrame& frame1, const VideoFrame& frame2) {
	return ((frame1.width() == frame2.width()) &&
	(frame1.height() == frame2.height()) &&
	(frame1.stride(kYPlane) == frame2.stride(kYPlane)) &&
	(frame1.stride(kUPlane) == frame2.stride(kUPlane)) &&
	(frame1.stride(kVPlane) == frame2.stride(kVPlane)) &&
	(frame1.render_time_ms() == frame2.render_time_ms()) &&
	(frame1.allocated_size(kYPlane) == frame2.allocated_size(kYPlane)) &&
	(frame1.allocated_size(kUPlane) == frame2.allocated_size(kUPlane)) &&
	(frame1.allocated_size(kVPlane) == frame2.allocated_size(kVPlane)) &&
	(memcmp(frame1.buffer(kYPlane), frame2.buffer(kYPlane),
	frame1.allocated_size(kYPlane)) == 0) &&
	(memcmp(frame1.buffer(kUPlane), frame2.buffer(kUPlane),
	frame1.allocated_size(kUPlane)) == 0) &&
	(memcmp(frame1.buffer(kVPlane), frame2.buffer(kVPlane),
	frame1.allocated_size(kVPlane)) == 0));
	}

	bool EqualFramesVector(const ScopedVector<VideoFrame>& frames1,
	const ScopedVector<VideoFrame>& frames2) {
	if (frames1.size() != frames2.size())
	return false;
	for (size_t i = 0; i < frames1.size(); ++i) {
	if (!EqualFrames(frames1[i], frames2[i]))
	return false;
	}
	return true;
	}

	VideoFrame* CreateVideoFrame(uint8_t data) {
	VideoFrame* frame = new VideoFrame();
	const int width = 36;
	const int height = 24;
	const int kSizeY = width * height * 2;
	uint8_t buffer[kSizeY];
	memset(buffer, data, kSizeY);
	frame->CreateFrame(buffer, buffer, buffer, width, height, width, width / 2,
	width / 2);
	frame->set_render_time_ms(data);
	return frame;
	}

	} // namespace webrtc