modules/video_coding/utility/ivf_file_writer_unittest.cc - src - Git at Google

 /*
  *  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/ivf_file_writer.h"

 #include <string.h>

 #include <memory>
 #include <string>

 #include "modules/rtp_rtcp/source/byte_io.h"
 #include "test/gtest.h"
 #include "test/testsupport/file_utils.h"

 namespace webrtc {

 namespace {
 static const int kHeaderSize = 32;
 static const int kFrameHeaderSize = 12;
 static uint8_t dummy_payload[4] = {0, 1, 2, 3};
 }  // namespace

 class IvfFileWriterTest : public ::testing::Test {
  protected:
   void SetUp() override {
     file_name_ =
         webrtc::test::TempFilename(webrtc::test::OutputPath(), "test_file");
   }
   void TearDown() override { webrtc::test::RemoveFile(file_name_); }

   bool WriteDummyTestFrames(VideoCodecType codec_type,
                             int width,
                             int height,
                             int num_frames,
                             bool use_capture_tims_ms) {
     EncodedImage frame;
     frame.SetEncodedData(
         EncodedImageBuffer::Create(dummy_payload, sizeof(dummy_payload)));
     frame._encodedWidth = width;
     frame._encodedHeight = height;
     for (int i = 1; i <= num_frames; ++i) {
       frame.set_size(i % sizeof(dummy_payload));
       if (use_capture_tims_ms) {
         frame.capture_time_ms_ = i;
       } else {
         frame.SetTimestamp(i);
       }
       if (!file_writer_->WriteFrame(frame, codec_type))
         return false;
     }
     return true;
   }

   void VerifyIvfHeader(FileWrapper* file,
                        const uint8_t fourcc[4],
                        int width,
                        int height,
                        uint32_t num_frames,
                        bool use_capture_tims_ms) {
     ASSERT_TRUE(file->is_open());
     uint8_t data[kHeaderSize];
     ASSERT_EQ(static_cast<size_t>(kHeaderSize), file->Read(data, kHeaderSize));

     uint8_t dkif[4] = {'D', 'K', 'I', 'F'};
     EXPECT_EQ(0, memcmp(dkif, data, 4));
     EXPECT_EQ(0u, ByteReader<uint16_t>::ReadLittleEndian(&data[4]));
     EXPECT_EQ(32u, ByteReader<uint16_t>::ReadLittleEndian(&data[6]));
     EXPECT_EQ(0, memcmp(fourcc, &data[8], 4));
     EXPECT_EQ(width, ByteReader<uint16_t>::ReadLittleEndian(&data[12]));
     EXPECT_EQ(height, ByteReader<uint16_t>::ReadLittleEndian(&data[14]));
     EXPECT_EQ(use_capture_tims_ms ? 1000u : 90000u,
               ByteReader<uint32_t>::ReadLittleEndian(&data[16]));
     EXPECT_EQ(1u, ByteReader<uint32_t>::ReadLittleEndian(&data[20]));
     EXPECT_EQ(num_frames, ByteReader<uint32_t>::ReadLittleEndian(&data[24]));
     EXPECT_EQ(0u, ByteReader<uint32_t>::ReadLittleEndian(&data[28]));
   }

   void VerifyDummyTestFrames(FileWrapper* file, uint32_t num_frames) {
     const int kMaxFrameSize = 4;
     for (uint32_t i = 1; i <= num_frames; ++i) {
       uint8_t frame_header[kFrameHeaderSize];
       ASSERT_EQ(static_cast<unsigned int>(kFrameHeaderSize),
                 file->Read(frame_header, kFrameHeaderSize));
       uint32_t frame_length =
           ByteReader<uint32_t>::ReadLittleEndian(&frame_header[0]);
       EXPECT_EQ(i % 4, frame_length);
       uint64_t timestamp =
           ByteReader<uint64_t>::ReadLittleEndian(&frame_header[4]);
       EXPECT_EQ(i, timestamp);

       uint8_t data[kMaxFrameSize] = {};
       ASSERT_EQ(frame_length,
                 static_cast<uint32_t>(file->Read(data, frame_length)));
       EXPECT_EQ(0, memcmp(data, dummy_payload, frame_length));
     }
   }

   void RunBasicFileStructureTest(VideoCodecType codec_type,
                                  const uint8_t fourcc[4],
                                  bool use_capture_tims_ms) {
     file_writer_ =
         IvfFileWriter::Wrap(FileWrapper::OpenWriteOnly(file_name_), 0);
     ASSERT_TRUE(file_writer_.get());
     const int kWidth = 320;
     const int kHeight = 240;
     const int kNumFrames = 257;
     ASSERT_TRUE(WriteDummyTestFrames(codec_type, kWidth, kHeight, kNumFrames,
                                      use_capture_tims_ms));
     EXPECT_TRUE(file_writer_->Close());

     FileWrapper out_file = FileWrapper::OpenReadOnly(file_name_);
     VerifyIvfHeader(&out_file, fourcc, kWidth, kHeight, kNumFrames,
                     use_capture_tims_ms);
     VerifyDummyTestFrames(&out_file, kNumFrames);

     out_file.Close();
   }

   std::string file_name_;
   std::unique_ptr<IvfFileWriter> file_writer_;
 };

 TEST_F(IvfFileWriterTest, WritesBasicVP8FileNtpTimestamp) {
   const uint8_t fourcc[4] = {'V', 'P', '8', '0'};
   RunBasicFileStructureTest(kVideoCodecVP8, fourcc, false);
 }

 TEST_F(IvfFileWriterTest, WritesBasicVP8FileMsTimestamp) {
   const uint8_t fourcc[4] = {'V', 'P', '8', '0'};
   RunBasicFileStructureTest(kVideoCodecVP8, fourcc, true);
 }

 TEST_F(IvfFileWriterTest, WritesBasicVP9FileNtpTimestamp) {
   const uint8_t fourcc[4] = {'V', 'P', '9', '0'};
   RunBasicFileStructureTest(kVideoCodecVP9, fourcc, false);
 }

 TEST_F(IvfFileWriterTest, WritesBasicVP9FileMsTimestamp) {
   const uint8_t fourcc[4] = {'V', 'P', '9', '0'};
   RunBasicFileStructureTest(kVideoCodecVP9, fourcc, true);
 }

 TEST_F(IvfFileWriterTest, WritesBasicAv1FileNtpTimestamp) {
   const uint8_t fourcc[4] = {'A', 'V', '0', '1'};
   RunBasicFileStructureTest(kVideoCodecAV1, fourcc, false);
 }

 TEST_F(IvfFileWriterTest, WritesBasicAv1FileMsTimestamp) {
   const uint8_t fourcc[4] = {'A', 'V', '0', '1'};
   RunBasicFileStructureTest(kVideoCodecAV1, fourcc, true);
 }

 TEST_F(IvfFileWriterTest, WritesBasicH264FileNtpTimestamp) {
   const uint8_t fourcc[4] = {'H', '2', '6', '4'};
   RunBasicFileStructureTest(kVideoCodecH264, fourcc, false);
 }

 TEST_F(IvfFileWriterTest, WritesBasicH264FileMsTimestamp) {
   const uint8_t fourcc[4] = {'H', '2', '6', '4'};
   RunBasicFileStructureTest(kVideoCodecH264, fourcc, true);
 }

 TEST_F(IvfFileWriterTest, ClosesWhenReachesLimit) {
   const uint8_t fourcc[4] = {'V', 'P', '8', '0'};
   const int kWidth = 320;
   const int kHeight = 240;
   const int kNumFramesToWrite = 2;
   const int kNumFramesToFit = 1;

   file_writer_ = IvfFileWriter::Wrap(
       FileWrapper::OpenWriteOnly(file_name_),
       kHeaderSize +
           kNumFramesToFit * (kFrameHeaderSize + sizeof(dummy_payload)));
   ASSERT_TRUE(file_writer_.get());

   ASSERT_FALSE(WriteDummyTestFrames(kVideoCodecVP8, kWidth, kHeight,
                                     kNumFramesToWrite, true));
   ASSERT_FALSE(file_writer_->Close());

   FileWrapper out_file = FileWrapper::OpenReadOnly(file_name_);
   VerifyIvfHeader(&out_file, fourcc, kWidth, kHeight, kNumFramesToFit, true);
   VerifyDummyTestFrames(&out_file, kNumFramesToFit);

   out_file.Close();
 }

 }  // namespace webrtc
	/*
	* 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/ivf_file_writer.h"

	#include <string.h>

	#include <memory>
	#include <string>

	#include "modules/rtp_rtcp/source/byte_io.h"
	#include "test/gtest.h"
	#include "test/testsupport/file_utils.h"

	namespace webrtc {

	namespace {
	static const int kHeaderSize = 32;
	static const int kFrameHeaderSize = 12;
	static uint8_t dummy_payload[4] = {0, 1, 2, 3};
	} // namespace

	class IvfFileWriterTest : public ::testing::Test {
	protected:
	void SetUp() override {
	file_name_ =
	webrtc::test::TempFilename(webrtc::test::OutputPath(), "test_file");
	}
	void TearDown() override { webrtc::test::RemoveFile(file_name_); }

	bool WriteDummyTestFrames(VideoCodecType codec_type,
	int width,
	int height,
	int num_frames,
	bool use_capture_tims_ms) {
	EncodedImage frame;
	frame.SetEncodedData(
	EncodedImageBuffer::Create(dummy_payload, sizeof(dummy_payload)));
	frame._encodedWidth = width;
	frame._encodedHeight = height;
	for (int i = 1; i <= num_frames; ++i) {
	frame.set_size(i % sizeof(dummy_payload));
	if (use_capture_tims_ms) {
	frame.capture_time_ms_ = i;
	} else {
	frame.SetTimestamp(i);
	}
	if (!file_writer_->WriteFrame(frame, codec_type))
	return false;
	}
	return true;
	}

	void VerifyIvfHeader(FileWrapper* file,
	const uint8_t fourcc[4],
	int width,
	int height,
	uint32_t num_frames,
	bool use_capture_tims_ms) {
	ASSERT_TRUE(file->is_open());
	uint8_t data[kHeaderSize];
	ASSERT_EQ(static_cast<size_t>(kHeaderSize), file->Read(data, kHeaderSize));

	uint8_t dkif[4] = {'D', 'K', 'I', 'F'};
	EXPECT_EQ(0, memcmp(dkif, data, 4));
	EXPECT_EQ(0u, ByteReader<uint16_t>::ReadLittleEndian(&data[4]));
	EXPECT_EQ(32u, ByteReader<uint16_t>::ReadLittleEndian(&data[6]));
	EXPECT_EQ(0, memcmp(fourcc, &data[8], 4));
	EXPECT_EQ(width, ByteReader<uint16_t>::ReadLittleEndian(&data[12]));
	EXPECT_EQ(height, ByteReader<uint16_t>::ReadLittleEndian(&data[14]));
	EXPECT_EQ(use_capture_tims_ms ? 1000u : 90000u,
	ByteReader<uint32_t>::ReadLittleEndian(&data[16]));
	EXPECT_EQ(1u, ByteReader<uint32_t>::ReadLittleEndian(&data[20]));
	EXPECT_EQ(num_frames, ByteReader<uint32_t>::ReadLittleEndian(&data[24]));
	EXPECT_EQ(0u, ByteReader<uint32_t>::ReadLittleEndian(&data[28]));
	}

	void VerifyDummyTestFrames(FileWrapper* file, uint32_t num_frames) {
	const int kMaxFrameSize = 4;
	for (uint32_t i = 1; i <= num_frames; ++i) {
	uint8_t frame_header[kFrameHeaderSize];
	ASSERT_EQ(static_cast<unsigned int>(kFrameHeaderSize),
	file->Read(frame_header, kFrameHeaderSize));
	uint32_t frame_length =
	ByteReader<uint32_t>::ReadLittleEndian(&frame_header[0]);
	EXPECT_EQ(i % 4, frame_length);
	uint64_t timestamp =
	ByteReader<uint64_t>::ReadLittleEndian(&frame_header[4]);
	EXPECT_EQ(i, timestamp);

	uint8_t data[kMaxFrameSize] = {};
	ASSERT_EQ(frame_length,
	static_cast<uint32_t>(file->Read(data, frame_length)));
	EXPECT_EQ(0, memcmp(data, dummy_payload, frame_length));
	}
	}

	void RunBasicFileStructureTest(VideoCodecType codec_type,
	const uint8_t fourcc[4],
	bool use_capture_tims_ms) {
	file_writer_ =
	IvfFileWriter::Wrap(FileWrapper::OpenWriteOnly(file_name_), 0);
	ASSERT_TRUE(file_writer_.get());
	const int kWidth = 320;
	const int kHeight = 240;
	const int kNumFrames = 257;
	ASSERT_TRUE(WriteDummyTestFrames(codec_type, kWidth, kHeight, kNumFrames,
	use_capture_tims_ms));
	EXPECT_TRUE(file_writer_->Close());

	FileWrapper out_file = FileWrapper::OpenReadOnly(file_name_);
	VerifyIvfHeader(&out_file, fourcc, kWidth, kHeight, kNumFrames,
	use_capture_tims_ms);
	VerifyDummyTestFrames(&out_file, kNumFrames);

	out_file.Close();
	}

	std::string file_name_;
	std::unique_ptr<IvfFileWriter> file_writer_;
	};

	TEST_F(IvfFileWriterTest, WritesBasicVP8FileNtpTimestamp) {
	const uint8_t fourcc[4] = {'V', 'P', '8', '0'};
	RunBasicFileStructureTest(kVideoCodecVP8, fourcc, false);
	}

	TEST_F(IvfFileWriterTest, WritesBasicVP8FileMsTimestamp) {
	const uint8_t fourcc[4] = {'V', 'P', '8', '0'};
	RunBasicFileStructureTest(kVideoCodecVP8, fourcc, true);
	}

	TEST_F(IvfFileWriterTest, WritesBasicVP9FileNtpTimestamp) {
	const uint8_t fourcc[4] = {'V', 'P', '9', '0'};
	RunBasicFileStructureTest(kVideoCodecVP9, fourcc, false);
	}

	TEST_F(IvfFileWriterTest, WritesBasicVP9FileMsTimestamp) {
	const uint8_t fourcc[4] = {'V', 'P', '9', '0'};
	RunBasicFileStructureTest(kVideoCodecVP9, fourcc, true);
	}

	TEST_F(IvfFileWriterTest, WritesBasicAv1FileNtpTimestamp) {
	const uint8_t fourcc[4] = {'A', 'V', '0', '1'};
	RunBasicFileStructureTest(kVideoCodecAV1, fourcc, false);
	}

	TEST_F(IvfFileWriterTest, WritesBasicAv1FileMsTimestamp) {
	const uint8_t fourcc[4] = {'A', 'V', '0', '1'};
	RunBasicFileStructureTest(kVideoCodecAV1, fourcc, true);
	}

	TEST_F(IvfFileWriterTest, WritesBasicH264FileNtpTimestamp) {
	const uint8_t fourcc[4] = {'H', '2', '6', '4'};
	RunBasicFileStructureTest(kVideoCodecH264, fourcc, false);
	}

	TEST_F(IvfFileWriterTest, WritesBasicH264FileMsTimestamp) {
	const uint8_t fourcc[4] = {'H', '2', '6', '4'};
	RunBasicFileStructureTest(kVideoCodecH264, fourcc, true);
	}

	TEST_F(IvfFileWriterTest, ClosesWhenReachesLimit) {
	const uint8_t fourcc[4] = {'V', 'P', '8', '0'};
	const int kWidth = 320;
	const int kHeight = 240;
	const int kNumFramesToWrite = 2;
	const int kNumFramesToFit = 1;

	file_writer_ = IvfFileWriter::Wrap(
	FileWrapper::OpenWriteOnly(file_name_),
	kHeaderSize +
	kNumFramesToFit * (kFrameHeaderSize + sizeof(dummy_payload)));
	ASSERT_TRUE(file_writer_.get());

	ASSERT_FALSE(WriteDummyTestFrames(kVideoCodecVP8, kWidth, kHeight,
	kNumFramesToWrite, true));
	ASSERT_FALSE(file_writer_->Close());

	FileWrapper out_file = FileWrapper::OpenReadOnly(file_name_);
	VerifyIvfHeader(&out_file, fourcc, kWidth, kHeight, kNumFramesToFit, true);
	VerifyDummyTestFrames(&out_file, kNumFramesToFit);

	out_file.Close();
	}

	} // namespace webrtc