media/filters/audio_decoder_unittest.cc - chromium/src - Git at Google

 // Copyright 2014 The Chromium Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include <stddef.h>
 #include <stdint.h>

 #include <vector>

 #include "base/bind.h"
 #include "base/bind_helpers.h"
 #include "base/containers/circular_deque.h"
 #include "base/format_macros.h"
 #include "base/macros.h"
 #include "base/md5.h"
 #include "base/message_loop/message_loop.h"
 #include "base/run_loop.h"
 #include "base/strings/stringprintf.h"
 #include "base/sys_byteorder.h"
 #include "base/threading/platform_thread.h"
 #include "build/build_config.h"
 #include "media/base/audio_buffer.h"
 #include "media/base/audio_bus.h"
 #include "media/base/audio_hash.h"
 #include "media/base/decoder_buffer.h"
 #include "media/base/media_util.h"
 #include "media/base/test_data_util.h"
 #include "media/base/test_helpers.h"
 #include "media/base/timestamp_constants.h"
 #include "media/ffmpeg/ffmpeg_common.h"
 #include "media/filters/audio_file_reader.h"
 #include "media/filters/ffmpeg_audio_decoder.h"
 #include "media/filters/in_memory_url_protocol.h"
 #include "media/media_buildflags.h"
 #include "testing/gtest/include/gtest/gtest.h"

 #if defined(OS_ANDROID)
 #include "base/android/build_info.h"
 #include "media/base/android/media_codec_util.h"
 #include "media/filters/android/media_codec_audio_decoder.h"
 #endif

 #if BUILDFLAG(USE_PROPRIETARY_CODECS)
 #include "media/formats/mpeg/adts_stream_parser.h"
 #endif

 using testing::Combine;
 using testing::TestWithParam;
 using testing::Values;
 using testing::ValuesIn;

 namespace media {

 namespace {

 #define SKIP_TEST_IF_NOT_SUPPORTED() \
   do {                               \
     if (!IsSupported())              \
       return;                        \
   } while (0)

 // The number of packets to read and then decode from each file.
 const size_t kDecodeRuns = 3;

 enum AudioDecoderType {
   FFMPEG,
 #if defined(OS_ANDROID)
   MEDIA_CODEC,
 #endif
 };

 struct DecodedBufferExpectations {
   int64_t timestamp;
   int64_t duration;
   const char* hash;
 };

 struct TestParams {
   AudioCodec codec;
   const char* filename;
   const DecodedBufferExpectations* expectations;
   int first_packet_pts;
   int samples_per_second;
   ChannelLayout channel_layout;
 };

 // Tells gtest how to print our TestParams structure.
 std::ostream& operator<<(std::ostream& os, const TestParams& params) {
   return os << params.filename;
 }

 // Marks negative timestamp buffers for discard or transfers FFmpeg's built in
 // discard metadata in favor of setting DiscardPadding on the DecoderBuffer.
 // Allows better testing of AudioDiscardHelper usage.
 void SetDiscardPadding(AVPacket* packet,
                        DecoderBuffer* buffer,
                        double samples_per_second) {
   // Discard negative timestamps.
   if (buffer->timestamp() + buffer->duration() < base::TimeDelta()) {
     buffer->set_discard_padding(
         std::make_pair(kInfiniteDuration, base::TimeDelta()));
     return;
   }
   if (buffer->timestamp() < base::TimeDelta()) {
     buffer->set_discard_padding(
         std::make_pair(-buffer->timestamp(), base::TimeDelta()));
     return;
   }

   // If the timestamp is positive, try to use FFmpeg's discard data.
   int skip_samples_size = 0;
   const uint32_t* skip_samples_ptr =
       reinterpret_cast<const uint32_t*>(av_packet_get_side_data(
           packet, AV_PKT_DATA_SKIP_SAMPLES, &skip_samples_size));
   if (skip_samples_size < 4)
     return;
   buffer->set_discard_padding(std::make_pair(
       base::TimeDelta::FromSecondsD(base::ByteSwapToLE32(*skip_samples_ptr) /
                                     samples_per_second),
       base::TimeDelta()));
 }

 }  // namespace

 class AudioDecoderTest
     : public TestWithParam<std::tuple<AudioDecoderType, TestParams>> {
  public:
   AudioDecoderTest()
       : decoder_type_(std::get<0>(GetParam())),
         params_(std::get<1>(GetParam())),
         pending_decode_(false),
         pending_reset_(false),
         last_decode_status_(DecodeStatus::DECODE_ERROR) {
     switch (decoder_type_) {
       case FFMPEG:
         decoder_.reset(
             new FFmpegAudioDecoder(message_loop_.task_runner(), &media_log_));
         break;
 #if defined(OS_ANDROID)
       case MEDIA_CODEC:
         decoder_.reset(new MediaCodecAudioDecoder(message_loop_.task_runner()));
         break;
 #endif
     }
   }

   virtual ~AudioDecoderTest() {
     EXPECT_FALSE(pending_decode_);
     EXPECT_FALSE(pending_reset_);
   }

  protected:
   bool IsSupported() const {
 #if defined(OS_ANDROID)
     if (decoder_type_ == MEDIA_CODEC) {
       if (!MediaCodecUtil::IsMediaCodecAvailable()) {
         VLOG(0) << "Could not run test - no MediaCodec on device.";
         return false;
       }
       if (params_.codec == kCodecOpus &&
           base::android::BuildInfo::GetInstance()->sdk_int() <
               base::android::SDK_VERSION_LOLLIPOP) {
         VLOG(0) << "Could not run test - Opus is not supported";
         return false;
       }
     }
 #endif
     return true;
   }

   void DecodeBuffer(scoped_refptr<DecoderBuffer> buffer) {
     ASSERT_FALSE(pending_decode_);
     pending_decode_ = true;
     last_decode_status_ = DecodeStatus::DECODE_ERROR;

     base::RunLoop run_loop;
     decoder_->Decode(
         std::move(buffer),
         base::Bind(&AudioDecoderTest::DecodeFinished, base::Unretained(this),
                    run_loop.QuitClosure()));
     run_loop.Run();
     ASSERT_FALSE(pending_decode_);
   }

   void SendEndOfStream() { DecodeBuffer(DecoderBuffer::CreateEOSBuffer()); }

   // Set the TestParams explicitly. Can be use to reinitialize the decoder with
   // different TestParams.
   void set_params(const TestParams& params) { params_ = params; }

   void Initialize() {
     // Load the test data file.
     data_ = ReadTestDataFile(params_.filename);
     protocol_.reset(
         new InMemoryUrlProtocol(data_->data(), data_->data_size(), false));
     reader_.reset(new AudioFileReader(protocol_.get()));
     ASSERT_TRUE(reader_->OpenDemuxerForTesting());

     // Load the first packet and check its timestamp.
     AVPacket packet;
     ASSERT_TRUE(reader_->ReadPacketForTesting(&packet));
     EXPECT_EQ(params_.first_packet_pts, packet.pts);
     start_timestamp_ = ConvertFromTimeBase(
         reader_->GetAVStreamForTesting()->time_base, packet.pts);

     // Seek back to the beginning.
     ASSERT_TRUE(reader_->SeekForTesting(start_timestamp_));

     AudioDecoderConfig config;
     ASSERT_TRUE(AVCodecContextToAudioDecoderConfig(
         reader_->codec_context_for_testing(), Unencrypted(), &config));

 #if defined(OS_ANDROID) && BUILDFLAG(USE_PROPRIETARY_CODECS)
     // MEDIA_CODEC type requires config->extra_data() for AAC codec. For ADTS
     // streams we need to extract it with a separate procedure.
     if (decoder_type_ == MEDIA_CODEC && params_.codec == kCodecAAC &&
         config.extra_data().empty()) {
       int sample_rate;
       ChannelLayout channel_layout;
       std::vector<uint8_t> extra_data;
       ASSERT_GT(ADTSStreamParser().ParseFrameHeader(
                     packet.data, packet.size, nullptr, &sample_rate,
                     &channel_layout, nullptr, nullptr, &extra_data),
                 0);
       config.Initialize(kCodecAAC, kSampleFormatS16, channel_layout,
                         sample_rate, extra_data, Unencrypted(),
                         base::TimeDelta(), 0);
       ASSERT_FALSE(config.extra_data().empty());
     }
 #endif

     av_packet_unref(&packet);

     EXPECT_EQ(params_.codec, config.codec());
     EXPECT_EQ(params_.samples_per_second, config.samples_per_second());
     EXPECT_EQ(params_.channel_layout, config.channel_layout());

     InitializeDecoder(config);
   }

   void InitializeDecoder(const AudioDecoderConfig& config) {
     InitializeDecoderWithResult(config, true);
   }

   void InitializeDecoderWithResult(const AudioDecoderConfig& config,
                                    bool success) {
     decoder_->Initialize(
         config, nullptr, NewExpectedBoolCB(success),
         base::Bind(&AudioDecoderTest::OnDecoderOutput, base::Unretained(this)),
         base::DoNothing());
     base::RunLoop().RunUntilIdle();
   }

   void Decode() {
     AVPacket packet;
     ASSERT_TRUE(reader_->ReadPacketForTesting(&packet));

     scoped_refptr<DecoderBuffer> buffer =
         DecoderBuffer::CopyFrom(packet.data, packet.size);
     buffer->set_timestamp(ConvertFromTimeBase(
         reader_->GetAVStreamForTesting()->time_base, packet.pts));
     buffer->set_duration(ConvertFromTimeBase(
         reader_->GetAVStreamForTesting()->time_base, packet.duration));
     if (packet.flags & AV_PKT_FLAG_KEY)
       buffer->set_is_key_frame(true);

     // Don't set discard padding for Opus, it already has discard behavior set
     // based on the codec delay in the AudioDecoderConfig.
     if (decoder_type_ == FFMPEG && params_.codec != kCodecOpus)
       SetDiscardPadding(&packet, buffer.get(), params_.samples_per_second);

     // DecodeBuffer() shouldn't need the original packet since it uses the copy.
     av_packet_unref(&packet);
     DecodeBuffer(std::move(buffer));
   }

   void Reset() {
     ASSERT_FALSE(pending_reset_);
     pending_reset_ = true;
     decoder_->Reset(
         base::Bind(&AudioDecoderTest::ResetFinished, base::Unretained(this)));
     base::RunLoop().RunUntilIdle();
     ASSERT_FALSE(pending_reset_);
   }

   void Seek(base::TimeDelta seek_time) {
     Reset();
     decoded_audio_.clear();
     ASSERT_TRUE(reader_->SeekForTesting(seek_time));
   }

   void OnDecoderOutput(const scoped_refptr<AudioBuffer>& buffer) {
     EXPECT_FALSE(buffer->end_of_stream());
     decoded_audio_.push_back(buffer);
   }

   void DecodeFinished(const base::Closure& quit_closure, DecodeStatus status) {
     EXPECT_TRUE(pending_decode_);
     EXPECT_FALSE(pending_reset_);
     pending_decode_ = false;
     last_decode_status_ = status;
     quit_closure.Run();
   }

   void ResetFinished() {
     EXPECT_TRUE(pending_reset_);
     EXPECT_FALSE(pending_decode_);
     pending_reset_ = false;
   }

   // Generates an MD5 hash of the audio signal.  Should not be used for checks
   // across platforms as audio varies slightly across platforms.
   std::string GetDecodedAudioMD5(size_t i) {
     CHECK_LT(i, decoded_audio_.size());
     const scoped_refptr<AudioBuffer>& buffer = decoded_audio_[i];

     std::unique_ptr<AudioBus> output =
         AudioBus::Create(buffer->channel_count(), buffer->frame_count());
     buffer->ReadFrames(buffer->frame_count(), 0, 0, output.get());

     base::MD5Context context;
     base::MD5Init(&context);
     for (int ch = 0; ch < output->channels(); ++ch) {
       base::MD5Update(
           &context,
           base::StringPiece(reinterpret_cast<char*>(output->channel(ch)),
                             output->frames() * sizeof(*output->channel(ch))));
     }
     base::MD5Digest digest;
     base::MD5Final(&digest, &context);
     return base::MD5DigestToBase16(digest);
   }

   // Android MediaCodec returns wrong timestamps (shifted one frame forward)
   // for AAC before Android L. Skip the timestamp check in this situation.
   bool SkipBufferTimestampCheck() const {
 #if defined(OS_ANDROID)
     return (base::android::BuildInfo::GetInstance()->sdk_int() <
             base::android::SDK_VERSION_LOLLIPOP) &&
            decoder_type_ == MEDIA_CODEC && params_.codec == kCodecAAC;
 #else
     return false;
 #endif
   }

   void ExpectDecodedAudio(size_t i, const std::string& exact_hash) {
     CHECK_LT(i, decoded_audio_.size());
     const scoped_refptr<AudioBuffer>& buffer = decoded_audio_[i];

     const DecodedBufferExpectations& sample_info = params_.expectations[i];

     // Android MediaCodec returns wrong timestamps (shifted one frame forward)
     // for AAC before Android L. Ignore sample_info.timestamp in this situation.
     if (!SkipBufferTimestampCheck())
       EXPECT_EQ(sample_info.timestamp, buffer->timestamp().InMicroseconds());
     EXPECT_EQ(sample_info.duration, buffer->duration().InMicroseconds());
     EXPECT_FALSE(buffer->end_of_stream());

     std::unique_ptr<AudioBus> output =
         AudioBus::Create(buffer->channel_count(), buffer->frame_count());
     buffer->ReadFrames(buffer->frame_count(), 0, 0, output.get());

     // Generate a lossy hash of the audio used for comparison across platforms.
     AudioHash audio_hash;
     audio_hash.Update(output.get(), output->frames());
     EXPECT_TRUE(audio_hash.IsEquivalent(sample_info.hash, 0.02))
         << "Audio hashes differ. Expected: " << sample_info.hash
         << " Actual: " << audio_hash.ToString();

     if (!exact_hash.empty()) {
       EXPECT_EQ(exact_hash, GetDecodedAudioMD5(i));

       // Verify different hashes are being generated.  None of our test data
       // files have audio that hashes out exactly the same.
       if (i > 0)
         EXPECT_NE(exact_hash, GetDecodedAudioMD5(i - 1));
     }
   }

   size_t decoded_audio_size() const { return decoded_audio_.size(); }
   base::TimeDelta start_timestamp() const { return start_timestamp_; }
   const scoped_refptr<AudioBuffer>& decoded_audio(size_t i) {
     return decoded_audio_[i];
   }
   DecodeStatus last_decode_status() const { return last_decode_status_; }

  private:
   const AudioDecoderType decoder_type_;

   // Current TestParams used to initialize the test and decoder. The initial
   // valie is std::get<1>(GetParam()). Could be overridden by set_param() so
   // that the decoder can be reinitialized with different parameters.
   TestParams params_;

   base::MessageLoop message_loop_;

   NullMediaLog media_log_;
   scoped_refptr<DecoderBuffer> data_;
   std::unique_ptr<InMemoryUrlProtocol> protocol_;
   std::unique_ptr<AudioFileReader> reader_;

   std::unique_ptr<AudioDecoder> decoder_;
   bool pending_decode_;
   bool pending_reset_;
   DecodeStatus last_decode_status_;

   base::circular_deque<scoped_refptr<AudioBuffer>> decoded_audio_;
   base::TimeDelta start_timestamp_;

   DISALLOW_COPY_AND_ASSIGN(AudioDecoderTest);
 };

 const DecodedBufferExpectations kBearOpusExpectations[] = {
     {500, 3500, "-0.26,0.87,1.36,0.84,-0.30,-1.22,"},
     {4000, 10000, "0.09,0.23,0.21,0.03,-0.17,-0.24,"},
     {14000, 10000, "0.10,0.24,0.23,0.04,-0.14,-0.23,"},
 };

 // Test params to test decoder reinitialization. Choose opus because it is
 // supported on all platforms we test on.
 const TestParams kReinitializeTestParams = {
     kCodecOpus, "bear-opus.ogg", kBearOpusExpectations,
     24,         48000,           CHANNEL_LAYOUT_STEREO};

 #if defined(OS_ANDROID)
 #if BUILDFLAG(USE_PROPRIETARY_CODECS)
 const DecodedBufferExpectations kSfxAdtsMcExpectations[] = {
     {0, 23219, "-1.80,-1.49,-0.23,1.11,1.54,-0.11,"},
     {23219, 23219, "-1.90,-1.53,-0.15,1.28,1.23,-0.33,"},
     {46439, 23219, "0.54,0.88,2.19,3.54,3.24,1.63,"},
 };

 const DecodedBufferExpectations kHeAacMcExpectations[] = {
     {0, 42666, "-1.76,-0.12,1.72,1.45,0.10,-1.32,"},
     {42666, 42666, "-1.78,-0.13,1.70,1.44,0.09,-1.32,"},
     {85333, 42666, "-1.78,-0.13,1.70,1.44,0.08,-1.33,"},
 };
 #endif  // defined(USE_PROPRIETARY_CODECS)

 const TestParams kMediaCodecTestParams[] = {
     {kCodecOpus, "bear-opus.ogg", kBearOpusExpectations, 24, 48000,
      CHANNEL_LAYOUT_STEREO},
 #if BUILDFLAG(USE_PROPRIETARY_CODECS)
     {kCodecAAC, "sfx.adts", kSfxAdtsMcExpectations, 0, 44100,
      CHANNEL_LAYOUT_MONO},
     {kCodecAAC, "bear-audio-implicit-he-aac-v2.aac", kHeAacMcExpectations, 0,
      24000, CHANNEL_LAYOUT_MONO},
 #endif  // defined(USE_PROPRIETARY_CODECS)
 };

 #endif  // defined(OS_ANDROID)

 const DecodedBufferExpectations kSfxMp3Expectations[] = {
     {0, 1065, "2.81,3.99,4.53,4.10,3.08,2.46,"},
     {1065, 26122, "-3.81,-4.14,-3.90,-3.36,-3.03,-3.23,"},
     {27188, 26122, "4.24,3.95,4.22,4.78,5.13,4.93,"},
 };

 #if BUILDFLAG(USE_PROPRIETARY_CODECS)
 const DecodedBufferExpectations kSfxAdtsExpectations[] = {
     {0, 23219, "-1.90,-1.53,-0.15,1.28,1.23,-0.33,"},
     {23219, 23219, "0.54,0.88,2.19,3.54,3.24,1.63,"},
     {46439, 23219, "1.42,1.69,2.95,4.23,4.02,2.36,"},
 };
 #endif

 const DecodedBufferExpectations kSfxFlacExpectations[] = {
     {0, 104489, "-2.42,-1.12,0.71,1.70,1.09,-0.68,"},
     {104489, 104489, "-1.99,-0.67,1.18,2.19,1.60,-0.16,"},
     {208979, 79433, "2.84,2.70,3.23,4.06,4.59,4.44,"},
 };

 const DecodedBufferExpectations kSfxWaveExpectations[] = {
     {0, 23219, "-1.23,-0.87,0.47,1.85,1.88,0.29,"},
     {23219, 23219, "0.75,1.10,2.43,3.78,3.53,1.93,"},
     {46439, 23219, "1.27,1.56,2.83,4.13,3.87,2.23,"},
 };

 const DecodedBufferExpectations kFourChannelWaveExpectations[] = {
     {0, 11609, "-1.68,1.68,0.89,-3.45,1.52,1.15,"},
     {11609, 11609, "43.26,9.06,18.27,35.98,19.45,7.46,"},
     {23219, 11609, "36.37,9.45,16.04,27.67,18.81,10.15,"},
 };

 const DecodedBufferExpectations kSfxOggExpectations[] = {
     {0, 13061, "-0.33,1.25,2.86,3.26,2.09,0.14,"},
     {13061, 23219, "-2.79,-2.42,-1.06,0.33,0.93,-0.64,"},
     {36281, 23219, "-1.19,-0.80,0.57,1.97,2.08,0.51,"},
 };

 const DecodedBufferExpectations kBearOgvExpectations[] = {
     {0, 13061, "-1.25,0.10,2.11,2.29,1.50,-0.68,"},
     {13061, 23219, "-1.80,-1.41,-0.13,1.30,1.65,0.01,"},
     {36281, 23219, "-1.43,-1.25,0.11,1.29,1.86,0.14,"},
 };

 #if defined(OPUS_FIXED_POINT)
 const DecodedBufferExpectations kSfxOpusExpectations[] = {
     {0, 13500, "-2.70,-1.41,-0.78,-1.27,-2.56,-3.73,"},
     {13500, 20000, "5.48,5.93,6.05,5.83,5.54,5.46,"},
     {33500, 20000, "-3.44,-3.34,-3.57,-4.11,-4.74,-5.13,"},
 };
 #else
 const DecodedBufferExpectations kSfxOpusExpectations[] = {
     {0, 13500, "-2.70,-1.41,-0.78,-1.27,-2.56,-3.73,"},
     {13500, 20000, "5.48,5.93,6.04,5.83,5.54,5.45,"},
     {33500, 20000, "-3.45,-3.35,-3.57,-4.12,-4.74,-5.14,"},
 };
 #endif

 const TestParams kFFmpegTestParams[] = {
     {kCodecMP3, "sfx.mp3", kSfxMp3Expectations, 0, 44100, CHANNEL_LAYOUT_MONO},
 #if BUILDFLAG(USE_PROPRIETARY_CODECS)
     {kCodecAAC, "sfx.adts", kSfxAdtsExpectations, 0, 44100,
      CHANNEL_LAYOUT_MONO},
 #endif
     {kCodecFLAC, "sfx-flac.mp4", kSfxFlacExpectations, 0, 44100,
      CHANNEL_LAYOUT_MONO},
     {kCodecFLAC, "sfx.flac", kSfxFlacExpectations, 0, 44100,
      CHANNEL_LAYOUT_MONO},
     {kCodecPCM, "sfx_f32le.wav", kSfxWaveExpectations, 0, 44100,
      CHANNEL_LAYOUT_MONO},
     {kCodecPCM, "4ch.wav", kFourChannelWaveExpectations, 0, 44100,
      CHANNEL_LAYOUT_QUAD},
     {kCodecVorbis, "sfx.ogg", kSfxOggExpectations, 0, 44100,
      CHANNEL_LAYOUT_MONO},
     // Note: bear.ogv is incorrectly muxed such that valid samples are given
     // negative timestamps, this marks them for discard per the ogg vorbis spec.
     {kCodecVorbis, "bear.ogv", kBearOgvExpectations, -704, 44100,
      CHANNEL_LAYOUT_STEREO},
     {kCodecOpus, "sfx-opus.ogg", kSfxOpusExpectations, -312, 48000,
      CHANNEL_LAYOUT_MONO},
     {kCodecOpus, "bear-opus.ogg", kBearOpusExpectations, 24, 48000,
      CHANNEL_LAYOUT_STEREO},
 };

 TEST_P(AudioDecoderTest, Initialize) {
   SKIP_TEST_IF_NOT_SUPPORTED();
   ASSERT_NO_FATAL_FAILURE(Initialize());
 }

 TEST_P(AudioDecoderTest, Reinitialize_AfterInitialize) {
   SKIP_TEST_IF_NOT_SUPPORTED();
   ASSERT_NO_FATAL_FAILURE(Initialize());

   // Use a different TestParams to reinitialize the decoder.
   set_params(kReinitializeTestParams);

   SKIP_TEST_IF_NOT_SUPPORTED();
   ASSERT_NO_FATAL_FAILURE(Initialize());
   Decode();
 }

 TEST_P(AudioDecoderTest, Reinitialize_AfterDecode) {
   SKIP_TEST_IF_NOT_SUPPORTED();
   ASSERT_NO_FATAL_FAILURE(Initialize());
   Decode();

   // Use a different TestParams to reinitialize the decoder.
   set_params(kReinitializeTestParams);

   SKIP_TEST_IF_NOT_SUPPORTED();
   ASSERT_NO_FATAL_FAILURE(Initialize());
   Decode();
 }

 TEST_P(AudioDecoderTest, Reinitialize_AfterReset) {
   SKIP_TEST_IF_NOT_SUPPORTED();
   ASSERT_NO_FATAL_FAILURE(Initialize());
   Decode();
   Reset();

   // Use a different TestParams to reinitialize the decoder.
   set_params(kReinitializeTestParams);

   SKIP_TEST_IF_NOT_SUPPORTED();
   ASSERT_NO_FATAL_FAILURE(Initialize());
   Decode();
 }

 // Verifies decode audio as well as the Decode() -> Reset() sequence.
 TEST_P(AudioDecoderTest, ProduceAudioSamples) {
   SKIP_TEST_IF_NOT_SUPPORTED();
   ASSERT_NO_FATAL_FAILURE(Initialize());

   // Run the test multiple times with a seek back to the beginning in between.
   std::vector<std::string> decoded_audio_md5_hashes;
   for (int i = 0; i < 2; ++i) {
     // Run decoder until we get at least |kDecodeRuns| output buffers.
     // Keeping Decode() in a loop seems to be the simplest way to guarantee that
     // the predefined number of output buffers are produced without draining
     // (i.e. decoding EOS).
     do {
       ASSERT_NO_FATAL_FAILURE(Decode());
       ASSERT_EQ(last_decode_status(), DecodeStatus::OK);
     } while (decoded_audio_size() < kDecodeRuns);

     // With MediaCodecAudioDecoder the output buffers might appear after
     // some delay. Since we keep decoding in a loop, the number of output
     // buffers when they eventually appear might exceed |kDecodeRuns|.
     ASSERT_LE(kDecodeRuns, decoded_audio_size());

     // On the first pass record the exact MD5 hash for each decoded buffer.
     if (i == 0) {
       for (size_t j = 0; j < kDecodeRuns; ++j)
         decoded_audio_md5_hashes.push_back(GetDecodedAudioMD5(j));
     }

     // On the first pass verify the basic audio hash and sample info.  On the
     // second, verify the exact MD5 sum for each packet.  It shouldn't change.
     for (size_t j = 0; j < kDecodeRuns; ++j) {
       SCOPED_TRACE(base::StringPrintf("i = %d, j = %" PRIuS, i, j));
       ExpectDecodedAudio(j, i == 0 ? "" : decoded_audio_md5_hashes[j]);
     }

     SendEndOfStream();

     // Seek back to the beginning.  Calls Reset() on the decoder.
     Seek(start_timestamp());
   }
 }

 TEST_P(AudioDecoderTest, Decode) {
   SKIP_TEST_IF_NOT_SUPPORTED();
   ASSERT_NO_FATAL_FAILURE(Initialize());
   Decode();
   EXPECT_EQ(DecodeStatus::OK, last_decode_status());
 }

 TEST_P(AudioDecoderTest, Reset) {
   SKIP_TEST_IF_NOT_SUPPORTED();
   ASSERT_NO_FATAL_FAILURE(Initialize());
   Reset();
 }

 TEST_P(AudioDecoderTest, NoTimestamp) {
   SKIP_TEST_IF_NOT_SUPPORTED();
   ASSERT_NO_FATAL_FAILURE(Initialize());
   scoped_refptr<DecoderBuffer> buffer(new DecoderBuffer(0));
   buffer->set_timestamp(kNoTimestamp);
   DecodeBuffer(std::move(buffer));
   EXPECT_EQ(DecodeStatus::DECODE_ERROR, last_decode_status());
 }

 INSTANTIATE_TEST_CASE_P(FFmpeg,
                         AudioDecoderTest,
                         Combine(Values(FFMPEG), ValuesIn(kFFmpegTestParams)));

 #if defined(OS_ANDROID)
 INSTANTIATE_TEST_CASE_P(MediaCodec,
                         AudioDecoderTest,
                         Combine(Values(MEDIA_CODEC),
                                 ValuesIn(kMediaCodecTestParams)));
 #endif  // defined(OS_ANDROID)

 }  // namespace media
	// Copyright 2014 The Chromium Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include <stddef.h>
	#include <stdint.h>

	#include <vector>

	#include "base/bind.h"
	#include "base/bind_helpers.h"
	#include "base/containers/circular_deque.h"
	#include "base/format_macros.h"
	#include "base/macros.h"
	#include "base/md5.h"
	#include "base/message_loop/message_loop.h"
	#include "base/run_loop.h"
	#include "base/strings/stringprintf.h"
	#include "base/sys_byteorder.h"
	#include "base/threading/platform_thread.h"
	#include "build/build_config.h"
	#include "media/base/audio_buffer.h"
	#include "media/base/audio_bus.h"
	#include "media/base/audio_hash.h"
	#include "media/base/decoder_buffer.h"
	#include "media/base/media_util.h"
	#include "media/base/test_data_util.h"
	#include "media/base/test_helpers.h"
	#include "media/base/timestamp_constants.h"
	#include "media/ffmpeg/ffmpeg_common.h"
	#include "media/filters/audio_file_reader.h"
	#include "media/filters/ffmpeg_audio_decoder.h"
	#include "media/filters/in_memory_url_protocol.h"
	#include "media/media_buildflags.h"
	#include "testing/gtest/include/gtest/gtest.h"

	#if defined(OS_ANDROID)
	#include "base/android/build_info.h"
	#include "media/base/android/media_codec_util.h"
	#include "media/filters/android/media_codec_audio_decoder.h"
	#endif

	#if BUILDFLAG(USE_PROPRIETARY_CODECS)
	#include "media/formats/mpeg/adts_stream_parser.h"
	#endif

	using testing::Combine;
	using testing::TestWithParam;
	using testing::Values;
	using testing::ValuesIn;

	namespace media {

	namespace {

	#define SKIP_TEST_IF_NOT_SUPPORTED() \
	do { \
	if (!IsSupported()) \
	return; \
	} while (0)

	// The number of packets to read and then decode from each file.
	const size_t kDecodeRuns = 3;

	enum AudioDecoderType {
	FFMPEG,
	#if defined(OS_ANDROID)
	MEDIA_CODEC,
	#endif
	};

	struct DecodedBufferExpectations {
	int64_t timestamp;
	int64_t duration;
	const char* hash;
	};

	struct TestParams {
	AudioCodec codec;
	const char* filename;
	const DecodedBufferExpectations* expectations;
	int first_packet_pts;
	int samples_per_second;
	ChannelLayout channel_layout;
	};

	// Tells gtest how to print our TestParams structure.
	std::ostream& operator<<(std::ostream& os, const TestParams& params) {
	return os << params.filename;
	}

	// Marks negative timestamp buffers for discard or transfers FFmpeg's built in
	// discard metadata in favor of setting DiscardPadding on the DecoderBuffer.
	// Allows better testing of AudioDiscardHelper usage.
	void SetDiscardPadding(AVPacket* packet,
	DecoderBuffer* buffer,
	double samples_per_second) {
	// Discard negative timestamps.
	if (buffer->timestamp() + buffer->duration() < base::TimeDelta()) {
	buffer->set_discard_padding(
	std::make_pair(kInfiniteDuration, base::TimeDelta()));
	return;
	}
	if (buffer->timestamp() < base::TimeDelta()) {
	buffer->set_discard_padding(
	std::make_pair(-buffer->timestamp(), base::TimeDelta()));
	return;
	}

	// If the timestamp is positive, try to use FFmpeg's discard data.
	int skip_samples_size = 0;
	const uint32_t* skip_samples_ptr =
	reinterpret_cast<const uint32_t*>(av_packet_get_side_data(
	packet, AV_PKT_DATA_SKIP_SAMPLES, &skip_samples_size));
	if (skip_samples_size < 4)
	return;
	buffer->set_discard_padding(std::make_pair(
	base::TimeDelta::FromSecondsD(base::ByteSwapToLE32(*skip_samples_ptr) /
	samples_per_second),
	base::TimeDelta()));
	}

	} // namespace

	class AudioDecoderTest
	: public TestWithParam<std::tuple<AudioDecoderType, TestParams>> {
	public:
	AudioDecoderTest()
	: decoder_type_(std::get<0>(GetParam())),
	params_(std::get<1>(GetParam())),
	pending_decode_(false),
	pending_reset_(false),
	last_decode_status_(DecodeStatus::DECODE_ERROR) {
	switch (decoder_type_) {
	case FFMPEG:
	decoder_.reset(
	new FFmpegAudioDecoder(message_loop_.task_runner(), &media_log_));
	break;
	#if defined(OS_ANDROID)
	case MEDIA_CODEC:
	decoder_.reset(new MediaCodecAudioDecoder(message_loop_.task_runner()));
	break;
	#endif
	}
	}

	virtual ~AudioDecoderTest() {
	EXPECT_FALSE(pending_decode_);
	EXPECT_FALSE(pending_reset_);
	}

	protected:
	bool IsSupported() const {
	#if defined(OS_ANDROID)
	if (decoder_type_ == MEDIA_CODEC) {
	if (!MediaCodecUtil::IsMediaCodecAvailable()) {
	VLOG(0) << "Could not run test - no MediaCodec on device.";
	return false;
	}
	if (params_.codec == kCodecOpus &&
	base::android::BuildInfo::GetInstance()->sdk_int() <
	base::android::SDK_VERSION_LOLLIPOP) {
	VLOG(0) << "Could not run test - Opus is not supported";
	return false;
	}
	}
	#endif
	return true;
	}

	void DecodeBuffer(scoped_refptr<DecoderBuffer> buffer) {
	ASSERT_FALSE(pending_decode_);
	pending_decode_ = true;
	last_decode_status_ = DecodeStatus::DECODE_ERROR;

	base::RunLoop run_loop;
	decoder_->Decode(
	std::move(buffer),
	base::Bind(&AudioDecoderTest::DecodeFinished, base::Unretained(this),
	run_loop.QuitClosure()));
	run_loop.Run();
	ASSERT_FALSE(pending_decode_);
	}

	void SendEndOfStream() { DecodeBuffer(DecoderBuffer::CreateEOSBuffer()); }

	// Set the TestParams explicitly. Can be use to reinitialize the decoder with
	// different TestParams.
	void set_params(const TestParams& params) { params_ = params; }

	void Initialize() {
	// Load the test data file.
	data_ = ReadTestDataFile(params_.filename);
	protocol_.reset(
	new InMemoryUrlProtocol(data_->data(), data_->data_size(), false));
	reader_.reset(new AudioFileReader(protocol_.get()));
	ASSERT_TRUE(reader_->OpenDemuxerForTesting());

	// Load the first packet and check its timestamp.
	AVPacket packet;
	ASSERT_TRUE(reader_->ReadPacketForTesting(&packet));
	EXPECT_EQ(params_.first_packet_pts, packet.pts);
	start_timestamp_ = ConvertFromTimeBase(
	reader_->GetAVStreamForTesting()->time_base, packet.pts);

	// Seek back to the beginning.
	ASSERT_TRUE(reader_->SeekForTesting(start_timestamp_));

	AudioDecoderConfig config;
	ASSERT_TRUE(AVCodecContextToAudioDecoderConfig(
	reader_->codec_context_for_testing(), Unencrypted(), &config));

	#if defined(OS_ANDROID) && BUILDFLAG(USE_PROPRIETARY_CODECS)
	// MEDIA_CODEC type requires config->extra_data() for AAC codec. For ADTS
	// streams we need to extract it with a separate procedure.
	if (decoder_type_ == MEDIA_CODEC && params_.codec == kCodecAAC &&
	config.extra_data().empty()) {
	int sample_rate;
	ChannelLayout channel_layout;
	std::vector<uint8_t> extra_data;
	ASSERT_GT(ADTSStreamParser().ParseFrameHeader(
	packet.data, packet.size, nullptr, &sample_rate,
	&channel_layout, nullptr, nullptr, &extra_data),
	0);
	config.Initialize(kCodecAAC, kSampleFormatS16, channel_layout,
	sample_rate, extra_data, Unencrypted(),
	base::TimeDelta(), 0);
	ASSERT_FALSE(config.extra_data().empty());
	}
	#endif

	av_packet_unref(&packet);

	EXPECT_EQ(params_.codec, config.codec());
	EXPECT_EQ(params_.samples_per_second, config.samples_per_second());
	EXPECT_EQ(params_.channel_layout, config.channel_layout());

	InitializeDecoder(config);
	}

	void InitializeDecoder(const AudioDecoderConfig& config) {
	InitializeDecoderWithResult(config, true);
	}

	void InitializeDecoderWithResult(const AudioDecoderConfig& config,
	bool success) {
	decoder_->Initialize(
	config, nullptr, NewExpectedBoolCB(success),
	base::Bind(&AudioDecoderTest::OnDecoderOutput, base::Unretained(this)),
	base::DoNothing());
	base::RunLoop().RunUntilIdle();
	}

	void Decode() {
	AVPacket packet;
	ASSERT_TRUE(reader_->ReadPacketForTesting(&packet));

	scoped_refptr<DecoderBuffer> buffer =
	DecoderBuffer::CopyFrom(packet.data, packet.size);
	buffer->set_timestamp(ConvertFromTimeBase(
	reader_->GetAVStreamForTesting()->time_base, packet.pts));
	buffer->set_duration(ConvertFromTimeBase(
	reader_->GetAVStreamForTesting()->time_base, packet.duration));
	if (packet.flags & AV_PKT_FLAG_KEY)
	buffer->set_is_key_frame(true);

	// Don't set discard padding for Opus, it already has discard behavior set
	// based on the codec delay in the AudioDecoderConfig.
	if (decoder_type_ == FFMPEG && params_.codec != kCodecOpus)
	SetDiscardPadding(&packet, buffer.get(), params_.samples_per_second);

	// DecodeBuffer() shouldn't need the original packet since it uses the copy.
	av_packet_unref(&packet);
	DecodeBuffer(std::move(buffer));
	}

	void Reset() {
	ASSERT_FALSE(pending_reset_);
	pending_reset_ = true;
	decoder_->Reset(
	base::Bind(&AudioDecoderTest::ResetFinished, base::Unretained(this)));
	base::RunLoop().RunUntilIdle();
	ASSERT_FALSE(pending_reset_);
	}

	void Seek(base::TimeDelta seek_time) {
	Reset();
	decoded_audio_.clear();
	ASSERT_TRUE(reader_->SeekForTesting(seek_time));
	}

	void OnDecoderOutput(const scoped_refptr<AudioBuffer>& buffer) {
	EXPECT_FALSE(buffer->end_of_stream());
	decoded_audio_.push_back(buffer);
	}

	void DecodeFinished(const base::Closure& quit_closure, DecodeStatus status) {
	EXPECT_TRUE(pending_decode_);
	EXPECT_FALSE(pending_reset_);
	pending_decode_ = false;
	last_decode_status_ = status;
	quit_closure.Run();
	}

	void ResetFinished() {
	EXPECT_TRUE(pending_reset_);
	EXPECT_FALSE(pending_decode_);
	pending_reset_ = false;
	}

	// Generates an MD5 hash of the audio signal. Should not be used for checks
	// across platforms as audio varies slightly across platforms.
	std::string GetDecodedAudioMD5(size_t i) {
	CHECK_LT(i, decoded_audio_.size());
	const scoped_refptr<AudioBuffer>& buffer = decoded_audio_[i];

	std::unique_ptr<AudioBus> output =
	AudioBus::Create(buffer->channel_count(), buffer->frame_count());
	buffer->ReadFrames(buffer->frame_count(), 0, 0, output.get());

	base::MD5Context context;
	base::MD5Init(&context);
	for (int ch = 0; ch < output->channels(); ++ch) {
	base::MD5Update(
	&context,
	base::StringPiece(reinterpret_cast<char*>(output->channel(ch)),
	output->frames() * sizeof(*output->channel(ch))));
	}
	base::MD5Digest digest;
	base::MD5Final(&digest, &context);
	return base::MD5DigestToBase16(digest);
	}

	// Android MediaCodec returns wrong timestamps (shifted one frame forward)
	// for AAC before Android L. Skip the timestamp check in this situation.
	bool SkipBufferTimestampCheck() const {
	#if defined(OS_ANDROID)
	return (base::android::BuildInfo::GetInstance()->sdk_int() <
	base::android::SDK_VERSION_LOLLIPOP) &&
	decoder_type_ == MEDIA_CODEC && params_.codec == kCodecAAC;
	#else
	return false;
	#endif
	}

	void ExpectDecodedAudio(size_t i, const std::string& exact_hash) {
	CHECK_LT(i, decoded_audio_.size());
	const scoped_refptr<AudioBuffer>& buffer = decoded_audio_[i];

	const DecodedBufferExpectations& sample_info = params_.expectations[i];

	// Android MediaCodec returns wrong timestamps (shifted one frame forward)
	// for AAC before Android L. Ignore sample_info.timestamp in this situation.
	if (!SkipBufferTimestampCheck())
	EXPECT_EQ(sample_info.timestamp, buffer->timestamp().InMicroseconds());
	EXPECT_EQ(sample_info.duration, buffer->duration().InMicroseconds());
	EXPECT_FALSE(buffer->end_of_stream());

	std::unique_ptr<AudioBus> output =
	AudioBus::Create(buffer->channel_count(), buffer->frame_count());
	buffer->ReadFrames(buffer->frame_count(), 0, 0, output.get());

	// Generate a lossy hash of the audio used for comparison across platforms.
	AudioHash audio_hash;
	audio_hash.Update(output.get(), output->frames());
	EXPECT_TRUE(audio_hash.IsEquivalent(sample_info.hash, 0.02))
	<< "Audio hashes differ. Expected: " << sample_info.hash
	<< " Actual: " << audio_hash.ToString();

	if (!exact_hash.empty()) {
	EXPECT_EQ(exact_hash, GetDecodedAudioMD5(i));

	// Verify different hashes are being generated. None of our test data
	// files have audio that hashes out exactly the same.
	if (i > 0)
	EXPECT_NE(exact_hash, GetDecodedAudioMD5(i - 1));
	}
	}

	size_t decoded_audio_size() const { return decoded_audio_.size(); }
	base::TimeDelta start_timestamp() const { return start_timestamp_; }
	const scoped_refptr<AudioBuffer>& decoded_audio(size_t i) {
	return decoded_audio_[i];
	}
	DecodeStatus last_decode_status() const { return last_decode_status_; }

	private:
	const AudioDecoderType decoder_type_;

	// Current TestParams used to initialize the test and decoder. The initial
	// valie is std::get<1>(GetParam()). Could be overridden by set_param() so
	// that the decoder can be reinitialized with different parameters.
	TestParams params_;

	base::MessageLoop message_loop_;

	NullMediaLog media_log_;
	scoped_refptr<DecoderBuffer> data_;
	std::unique_ptr<InMemoryUrlProtocol> protocol_;
	std::unique_ptr<AudioFileReader> reader_;

	std::unique_ptr<AudioDecoder> decoder_;
	bool pending_decode_;
	bool pending_reset_;
	DecodeStatus last_decode_status_;

	base::circular_deque<scoped_refptr<AudioBuffer>> decoded_audio_;
	base::TimeDelta start_timestamp_;

	DISALLOW_COPY_AND_ASSIGN(AudioDecoderTest);
	};

	const DecodedBufferExpectations kBearOpusExpectations[] = {
	{500, 3500, "-0.26,0.87,1.36,0.84,-0.30,-1.22,"},
	{4000, 10000, "0.09,0.23,0.21,0.03,-0.17,-0.24,"},
	{14000, 10000, "0.10,0.24,0.23,0.04,-0.14,-0.23,"},
	};

	// Test params to test decoder reinitialization. Choose opus because it is
	// supported on all platforms we test on.
	const TestParams kReinitializeTestParams = {
	kCodecOpus, "bear-opus.ogg", kBearOpusExpectations,
	24, 48000, CHANNEL_LAYOUT_STEREO};

	#if defined(OS_ANDROID)
	#if BUILDFLAG(USE_PROPRIETARY_CODECS)
	const DecodedBufferExpectations kSfxAdtsMcExpectations[] = {
	{0, 23219, "-1.80,-1.49,-0.23,1.11,1.54,-0.11,"},
	{23219, 23219, "-1.90,-1.53,-0.15,1.28,1.23,-0.33,"},
	{46439, 23219, "0.54,0.88,2.19,3.54,3.24,1.63,"},
	};

	const DecodedBufferExpectations kHeAacMcExpectations[] = {
	{0, 42666, "-1.76,-0.12,1.72,1.45,0.10,-1.32,"},
	{42666, 42666, "-1.78,-0.13,1.70,1.44,0.09,-1.32,"},
	{85333, 42666, "-1.78,-0.13,1.70,1.44,0.08,-1.33,"},
	};
	#endif // defined(USE_PROPRIETARY_CODECS)

	const TestParams kMediaCodecTestParams[] = {
	{kCodecOpus, "bear-opus.ogg", kBearOpusExpectations, 24, 48000,
	CHANNEL_LAYOUT_STEREO},
	#if BUILDFLAG(USE_PROPRIETARY_CODECS)
	{kCodecAAC, "sfx.adts", kSfxAdtsMcExpectations, 0, 44100,
	CHANNEL_LAYOUT_MONO},
	{kCodecAAC, "bear-audio-implicit-he-aac-v2.aac", kHeAacMcExpectations, 0,
	24000, CHANNEL_LAYOUT_MONO},
	#endif // defined(USE_PROPRIETARY_CODECS)
	};

	#endif // defined(OS_ANDROID)

	const DecodedBufferExpectations kSfxMp3Expectations[] = {
	{0, 1065, "2.81,3.99,4.53,4.10,3.08,2.46,"},
	{1065, 26122, "-3.81,-4.14,-3.90,-3.36,-3.03,-3.23,"},
	{27188, 26122, "4.24,3.95,4.22,4.78,5.13,4.93,"},
	};

	#if BUILDFLAG(USE_PROPRIETARY_CODECS)
	const DecodedBufferExpectations kSfxAdtsExpectations[] = {
	{0, 23219, "-1.90,-1.53,-0.15,1.28,1.23,-0.33,"},
	{23219, 23219, "0.54,0.88,2.19,3.54,3.24,1.63,"},
	{46439, 23219, "1.42,1.69,2.95,4.23,4.02,2.36,"},
	};
	#endif

	const DecodedBufferExpectations kSfxFlacExpectations[] = {
	{0, 104489, "-2.42,-1.12,0.71,1.70,1.09,-0.68,"},
	{104489, 104489, "-1.99,-0.67,1.18,2.19,1.60,-0.16,"},
	{208979, 79433, "2.84,2.70,3.23,4.06,4.59,4.44,"},
	};

	const DecodedBufferExpectations kSfxWaveExpectations[] = {
	{0, 23219, "-1.23,-0.87,0.47,1.85,1.88,0.29,"},
	{23219, 23219, "0.75,1.10,2.43,3.78,3.53,1.93,"},
	{46439, 23219, "1.27,1.56,2.83,4.13,3.87,2.23,"},
	};

	const DecodedBufferExpectations kFourChannelWaveExpectations[] = {
	{0, 11609, "-1.68,1.68,0.89,-3.45,1.52,1.15,"},
	{11609, 11609, "43.26,9.06,18.27,35.98,19.45,7.46,"},
	{23219, 11609, "36.37,9.45,16.04,27.67,18.81,10.15,"},
	};

	const DecodedBufferExpectations kSfxOggExpectations[] = {
	{0, 13061, "-0.33,1.25,2.86,3.26,2.09,0.14,"},
	{13061, 23219, "-2.79,-2.42,-1.06,0.33,0.93,-0.64,"},
	{36281, 23219, "-1.19,-0.80,0.57,1.97,2.08,0.51,"},
	};

	const DecodedBufferExpectations kBearOgvExpectations[] = {
	{0, 13061, "-1.25,0.10,2.11,2.29,1.50,-0.68,"},
	{13061, 23219, "-1.80,-1.41,-0.13,1.30,1.65,0.01,"},
	{36281, 23219, "-1.43,-1.25,0.11,1.29,1.86,0.14,"},
	};

	#if defined(OPUS_FIXED_POINT)
	const DecodedBufferExpectations kSfxOpusExpectations[] = {
	{0, 13500, "-2.70,-1.41,-0.78,-1.27,-2.56,-3.73,"},
	{13500, 20000, "5.48,5.93,6.05,5.83,5.54,5.46,"},
	{33500, 20000, "-3.44,-3.34,-3.57,-4.11,-4.74,-5.13,"},
	};
	#else
	const DecodedBufferExpectations kSfxOpusExpectations[] = {
	{0, 13500, "-2.70,-1.41,-0.78,-1.27,-2.56,-3.73,"},
	{13500, 20000, "5.48,5.93,6.04,5.83,5.54,5.45,"},
	{33500, 20000, "-3.45,-3.35,-3.57,-4.12,-4.74,-5.14,"},
	};
	#endif

	const TestParams kFFmpegTestParams[] = {
	{kCodecMP3, "sfx.mp3", kSfxMp3Expectations, 0, 44100, CHANNEL_LAYOUT_MONO},
	#if BUILDFLAG(USE_PROPRIETARY_CODECS)
	{kCodecAAC, "sfx.adts", kSfxAdtsExpectations, 0, 44100,
	CHANNEL_LAYOUT_MONO},
	#endif
	{kCodecFLAC, "sfx-flac.mp4", kSfxFlacExpectations, 0, 44100,
	CHANNEL_LAYOUT_MONO},
	{kCodecFLAC, "sfx.flac", kSfxFlacExpectations, 0, 44100,
	CHANNEL_LAYOUT_MONO},
	{kCodecPCM, "sfx_f32le.wav", kSfxWaveExpectations, 0, 44100,
	CHANNEL_LAYOUT_MONO},
	{kCodecPCM, "4ch.wav", kFourChannelWaveExpectations, 0, 44100,
	CHANNEL_LAYOUT_QUAD},
	{kCodecVorbis, "sfx.ogg", kSfxOggExpectations, 0, 44100,
	CHANNEL_LAYOUT_MONO},
	// Note: bear.ogv is incorrectly muxed such that valid samples are given
	// negative timestamps, this marks them for discard per the ogg vorbis spec.
	{kCodecVorbis, "bear.ogv", kBearOgvExpectations, -704, 44100,
	CHANNEL_LAYOUT_STEREO},
	{kCodecOpus, "sfx-opus.ogg", kSfxOpusExpectations, -312, 48000,
	CHANNEL_LAYOUT_MONO},
	{kCodecOpus, "bear-opus.ogg", kBearOpusExpectations, 24, 48000,
	CHANNEL_LAYOUT_STEREO},
	};

	TEST_P(AudioDecoderTest, Initialize) {
	SKIP_TEST_IF_NOT_SUPPORTED();
	ASSERT_NO_FATAL_FAILURE(Initialize());
	}

	TEST_P(AudioDecoderTest, Reinitialize_AfterInitialize) {
	SKIP_TEST_IF_NOT_SUPPORTED();
	ASSERT_NO_FATAL_FAILURE(Initialize());

	// Use a different TestParams to reinitialize the decoder.
	set_params(kReinitializeTestParams);

	SKIP_TEST_IF_NOT_SUPPORTED();
	ASSERT_NO_FATAL_FAILURE(Initialize());
	Decode();
	}

	TEST_P(AudioDecoderTest, Reinitialize_AfterDecode) {
	SKIP_TEST_IF_NOT_SUPPORTED();
	ASSERT_NO_FATAL_FAILURE(Initialize());
	Decode();

	// Use a different TestParams to reinitialize the decoder.
	set_params(kReinitializeTestParams);

	SKIP_TEST_IF_NOT_SUPPORTED();
	ASSERT_NO_FATAL_FAILURE(Initialize());
	Decode();
	}

	TEST_P(AudioDecoderTest, Reinitialize_AfterReset) {
	SKIP_TEST_IF_NOT_SUPPORTED();
	ASSERT_NO_FATAL_FAILURE(Initialize());
	Decode();
	Reset();

	// Use a different TestParams to reinitialize the decoder.
	set_params(kReinitializeTestParams);

	SKIP_TEST_IF_NOT_SUPPORTED();
	ASSERT_NO_FATAL_FAILURE(Initialize());
	Decode();
	}

	// Verifies decode audio as well as the Decode() -> Reset() sequence.
	TEST_P(AudioDecoderTest, ProduceAudioSamples) {
	SKIP_TEST_IF_NOT_SUPPORTED();
	ASSERT_NO_FATAL_FAILURE(Initialize());

	// Run the test multiple times with a seek back to the beginning in between.
	std::vector<std::string> decoded_audio_md5_hashes;
	for (int i = 0; i < 2; ++i) {
	// Run decoder until we get at least \|kDecodeRuns\| output buffers.
	// Keeping Decode() in a loop seems to be the simplest way to guarantee that
	// the predefined number of output buffers are produced without draining
	// (i.e. decoding EOS).
	do {
	ASSERT_NO_FATAL_FAILURE(Decode());
	ASSERT_EQ(last_decode_status(), DecodeStatus::OK);
	} while (decoded_audio_size() < kDecodeRuns);

	// With MediaCodecAudioDecoder the output buffers might appear after
	// some delay. Since we keep decoding in a loop, the number of output
	// buffers when they eventually appear might exceed \|kDecodeRuns\|.
	ASSERT_LE(kDecodeRuns, decoded_audio_size());

	// On the first pass record the exact MD5 hash for each decoded buffer.
	if (i == 0) {
	for (size_t j = 0; j < kDecodeRuns; ++j)
	decoded_audio_md5_hashes.push_back(GetDecodedAudioMD5(j));
	}

	// On the first pass verify the basic audio hash and sample info. On the
	// second, verify the exact MD5 sum for each packet. It shouldn't change.
	for (size_t j = 0; j < kDecodeRuns; ++j) {
	SCOPED_TRACE(base::StringPrintf("i = %d, j = %" PRIuS, i, j));
	ExpectDecodedAudio(j, i == 0 ? "" : decoded_audio_md5_hashes[j]);
	}

	SendEndOfStream();

	// Seek back to the beginning. Calls Reset() on the decoder.
	Seek(start_timestamp());
	}
	}

	TEST_P(AudioDecoderTest, Decode) {
	SKIP_TEST_IF_NOT_SUPPORTED();
	ASSERT_NO_FATAL_FAILURE(Initialize());
	Decode();
	EXPECT_EQ(DecodeStatus::OK, last_decode_status());
	}

	TEST_P(AudioDecoderTest, Reset) {
	SKIP_TEST_IF_NOT_SUPPORTED();
	ASSERT_NO_FATAL_FAILURE(Initialize());
	Reset();
	}

	TEST_P(AudioDecoderTest, NoTimestamp) {
	SKIP_TEST_IF_NOT_SUPPORTED();
	ASSERT_NO_FATAL_FAILURE(Initialize());
	scoped_refptr<DecoderBuffer> buffer(new DecoderBuffer(0));
	buffer->set_timestamp(kNoTimestamp);
	DecodeBuffer(std::move(buffer));
	EXPECT_EQ(DecodeStatus::DECODE_ERROR, last_decode_status());
	}

	INSTANTIATE_TEST_CASE_P(FFmpeg,
	AudioDecoderTest,
	Combine(Values(FFMPEG), ValuesIn(kFFmpegTestParams)));

	#if defined(OS_ANDROID)
	INSTANTIATE_TEST_CASE_P(MediaCodec,
	AudioDecoderTest,
	Combine(Values(MEDIA_CODEC),
	ValuesIn(kMediaCodecTestParams)));
	#endif // defined(OS_ANDROID)

	} // namespace media