path: root/chromium/media/filters/audio_decoder_selector_unittest.cc

// Copyright (c) 2012 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 <vector>

#include "base/bind.h"
#include "base/message_loop/message_loop.h"
#include "media/base/gmock_callback_support.h"
#include "media/base/mock_filters.h"
#include "media/base/test_helpers.h"
#include "media/filters/decoder_selector.h"
#include "media/filters/decrypting_demuxer_stream.h"
#include "testing/gtest/include/gtest/gtest.h"

using ::testing::_;
using ::testing::InvokeWithoutArgs;
using ::testing::IsNull;
using ::testing::NiceMock;
using ::testing::NotNull;
using ::testing::Return;
using ::testing::StrictMock;

// Use anonymous namespace here to prevent the actions to be defined multiple
// times across multiple test files. Sadly we can't use static for them.
namespace {

ACTION_P3(ExecuteCallbackWithVerifier, decryptor, done_cb, verifier) {
  // verifier must be called first since |done_cb| call will invoke it as well.
  verifier->RecordACalled();
  arg0.Run(decryptor, done_cb);
}

ACTION_P(ReportCallback, verifier) {
  verifier->RecordBCalled();
}

}  // namespace

namespace media {

class AudioDecoderSelectorTest : public ::testing::Test {
 public:
  enum DecryptorCapability {
    kNoDecryptor,
    // Used to test destruction during DecryptingAudioDecoder::Initialize() and
    // DecryptingDemuxerStream::Initialize(). We don't need this for normal
    // AudioDecoders since we use MockAudioDecoder.
    kHoldSetDecryptor,
    kDecryptOnly,
    kDecryptAndDecode
  };

  AudioDecoderSelectorTest()
      : demuxer_stream_(
            new StrictMock<MockDemuxerStream>(DemuxerStream::AUDIO)),
        decryptor_(new NiceMock<MockDecryptor>()),
        decoder_1_(new StrictMock<MockAudioDecoder>()),
        decoder_2_(new StrictMock<MockAudioDecoder>()) {
    all_decoders_.push_back(decoder_1_);
    all_decoders_.push_back(decoder_2_);
  }

  ~AudioDecoderSelectorTest() {
    message_loop_.RunUntilIdle();
  }

  MOCK_METHOD1(SetDecryptorReadyCallback, void(const media::DecryptorReadyCB&));
  MOCK_METHOD2(OnDecoderSelected,
               void(AudioDecoder*, DecryptingDemuxerStream*));
  MOCK_METHOD1(DecryptorSet, void(bool));

  void MockOnDecoderSelected(scoped_ptr<AudioDecoder> decoder,
                             scoped_ptr<DecryptingDemuxerStream> stream) {
    OnDecoderSelected(decoder.get(), stream.get());
    selected_decoder_ = decoder.Pass();
  }

  void UseClearStream() {
    AudioDecoderConfig clear_audio_config(
        kCodecVorbis, kSampleFormatPlanarF32, CHANNEL_LAYOUT_STEREO, 44100,
        NULL, 0, false);
    demuxer_stream_->set_audio_decoder_config(clear_audio_config);
  }

  void UseEncryptedStream() {
    AudioDecoderConfig encrypted_audio_config(
        kCodecVorbis, kSampleFormatPlanarF32, CHANNEL_LAYOUT_STEREO, 44100,
        NULL, 0, true);
    demuxer_stream_->set_audio_decoder_config(encrypted_audio_config);
  }

  void InitializeDecoderSelector(DecryptorCapability decryptor_capability,
                                 int num_decoders) {
    if (decryptor_capability == kDecryptOnly ||
        decryptor_capability == kDecryptAndDecode) {
      EXPECT_CALL(*this, SetDecryptorReadyCallback(_))
          .WillRepeatedly(ExecuteCallbackWithVerifier(
              decryptor_.get(),
              base::Bind(&AudioDecoderSelectorTest::DecryptorSet,
                         base::Unretained(this)),
              &verifier_));
      EXPECT_CALL(*this, DecryptorSet(true))
          .WillRepeatedly(ReportCallback(&verifier_));

      if (decryptor_capability == kDecryptOnly) {
        EXPECT_CALL(*decryptor_, InitializeAudioDecoder(_, _))
            .WillRepeatedly(RunCallback<1>(false));
      } else {
        EXPECT_CALL(*decryptor_, InitializeAudioDecoder(_, _))
            .WillRepeatedly(RunCallback<1>(true));
      }
    } else if (decryptor_capability == kHoldSetDecryptor) {
      // Set and cancel DecryptorReadyCB but the callback is never fired.
      EXPECT_CALL(*this, SetDecryptorReadyCallback(_))
          .Times(2);
    } else if (decryptor_capability == kNoDecryptor) {
      EXPECT_CALL(*this, SetDecryptorReadyCallback(_))
          .WillRepeatedly(
              RunCallback<0>(nullptr, base::Bind(&IgnoreCdmAttached)));
    }

    DCHECK_GE(all_decoders_.size(), static_cast<size_t>(num_decoders));
    all_decoders_.erase(
        all_decoders_.begin() + num_decoders, all_decoders_.end());

    decoder_selector_.reset(
        new AudioDecoderSelector(message_loop_.task_runner(),
                                 all_decoders_.Pass(), new MediaLog()));
  }

  void SelectDecoder() {
    decoder_selector_->SelectDecoder(
        demuxer_stream_.get(),
        base::Bind(&AudioDecoderSelectorTest::SetDecryptorReadyCallback,
                   base::Unretained(this)),
        base::Bind(&AudioDecoderSelectorTest::MockOnDecoderSelected,
                   base::Unretained(this)),
        base::Bind(&AudioDecoderSelectorTest::OnDecoderOutput),
        base::Bind(&AudioDecoderSelectorTest::OnWaitingForDecryptionKey));
    message_loop_.RunUntilIdle();
  }

  void SelectDecoderAndDestroy() {
    SelectDecoder();

    EXPECT_CALL(*this, OnDecoderSelected(IsNull(), IsNull()));
    decoder_selector_.reset();
    message_loop_.RunUntilIdle();
  }

  static void OnDecoderOutput(const scoped_refptr<AudioBuffer>& output) {
    NOTREACHED();
  }

  static void OnWaitingForDecryptionKey() {
    NOTREACHED();
  }

  // Declare |decoder_selector_| after |demuxer_stream_| and |decryptor_| since
  // |demuxer_stream_| and |decryptor_| should outlive |decoder_selector_|.
  scoped_ptr<StrictMock<MockDemuxerStream> > demuxer_stream_;

  // Use NiceMock since we don't care about most of calls on the decryptor, e.g.
  // RegisterNewKeyCB().
  scoped_ptr<NiceMock<MockDecryptor> > decryptor_;

  scoped_ptr<AudioDecoderSelector> decoder_selector_;

  StrictMock<MockAudioDecoder>* decoder_1_;
  StrictMock<MockAudioDecoder>* decoder_2_;
  ScopedVector<AudioDecoder> all_decoders_;
  scoped_ptr<AudioDecoder> selected_decoder_;

  base::MessageLoop message_loop_;

  CallbackPairChecker verifier_;

 private:
  DISALLOW_COPY_AND_ASSIGN(AudioDecoderSelectorTest);
};

// The stream is not encrypted but we have no clear decoder. No decoder can be
// selected.
TEST_F(AudioDecoderSelectorTest, ClearStream_NoDecryptor_NoClearDecoder) {
  UseClearStream();
  InitializeDecoderSelector(kNoDecryptor, 0);

  EXPECT_CALL(*this, OnDecoderSelected(IsNull(), IsNull()));

  SelectDecoder();
}

// The stream is not encrypted and we have one clear decoder. The decoder
// will be selected.
TEST_F(AudioDecoderSelectorTest, ClearStream_NoDecryptor_OneClearDecoder) {
  UseClearStream();
  InitializeDecoderSelector(kNoDecryptor, 1);

  EXPECT_CALL(*decoder_1_, Initialize(_, _, _)).WillOnce(RunCallback<1>(true));
  EXPECT_CALL(*this, OnDecoderSelected(decoder_1_, IsNull()));

  SelectDecoder();
}

TEST_F(AudioDecoderSelectorTest,
       Destroy_ClearStream_NoDecryptor_OneClearDecoder) {
  UseClearStream();
  InitializeDecoderSelector(kNoDecryptor, 1);

  EXPECT_CALL(*decoder_1_, Initialize(_, _, _));

  SelectDecoderAndDestroy();
}

// The stream is not encrypted and we have multiple clear decoders. The first
// decoder that can decode the input stream will be selected.
TEST_F(AudioDecoderSelectorTest, ClearStream_NoDecryptor_MultipleClearDecoder) {
  UseClearStream();
  InitializeDecoderSelector(kNoDecryptor, 2);

  EXPECT_CALL(*decoder_1_, Initialize(_, _, _)).WillOnce(RunCallback<1>(false));
  EXPECT_CALL(*decoder_2_, Initialize(_, _, _)).WillOnce(RunCallback<1>(true));
  EXPECT_CALL(*this, OnDecoderSelected(decoder_2_, IsNull()));

  SelectDecoder();
}

TEST_F(AudioDecoderSelectorTest,
       Destroy_ClearStream_NoDecryptor_MultipleClearDecoder) {
  UseClearStream();
  InitializeDecoderSelector(kNoDecryptor, 2);

  EXPECT_CALL(*decoder_1_, Initialize(_, _, _)).WillOnce(RunCallback<1>(false));
  EXPECT_CALL(*decoder_2_, Initialize(_, _, _));

  SelectDecoderAndDestroy();
}

// There is a decryptor but the stream is not encrypted. The decoder will be
// selected.
TEST_F(AudioDecoderSelectorTest, ClearStream_HasDecryptor) {
  UseClearStream();
  InitializeDecoderSelector(kDecryptOnly, 1);

  EXPECT_CALL(*decoder_1_, Initialize(_, _, _)).WillOnce(RunCallback<1>(true));
  EXPECT_CALL(*this, OnDecoderSelected(decoder_1_, IsNull()));

  SelectDecoder();
}

TEST_F(AudioDecoderSelectorTest, Destroy_ClearStream_HasDecryptor) {
  UseClearStream();
  InitializeDecoderSelector(kDecryptOnly, 1);

  EXPECT_CALL(*decoder_1_, Initialize(_, _, _));

  SelectDecoderAndDestroy();
}

// The stream is encrypted and there's no decryptor. No decoder can be selected.
TEST_F(AudioDecoderSelectorTest, EncryptedStream_NoDecryptor) {
  UseEncryptedStream();
  InitializeDecoderSelector(kNoDecryptor, 1);

  EXPECT_CALL(*this, OnDecoderSelected(IsNull(), IsNull()));

  SelectDecoder();
}

// Decryptor can only do decryption and there's no decoder available. No decoder
// can be selected.
TEST_F(AudioDecoderSelectorTest, EncryptedStream_DecryptOnly_NoClearDecoder) {
  UseEncryptedStream();
  InitializeDecoderSelector(kDecryptOnly, 0);

  EXPECT_CALL(*this, OnDecoderSelected(IsNull(), IsNull()));

  SelectDecoder();
}

TEST_F(AudioDecoderSelectorTest,
       Destroy_EncryptedStream_DecryptOnly_NoClearDecoder) {
  UseEncryptedStream();
  InitializeDecoderSelector(kHoldSetDecryptor, 0);

  SelectDecoderAndDestroy();
}

// Decryptor can do decryption-only and there's a decoder available. The decoder
// will be selected and a DecryptingDemuxerStream will be created.
TEST_F(AudioDecoderSelectorTest, EncryptedStream_DecryptOnly_OneClearDecoder) {
  UseEncryptedStream();
  InitializeDecoderSelector(kDecryptOnly, 1);

  EXPECT_CALL(*decoder_1_, Initialize(_, _, _)).WillOnce(RunCallback<1>(true));
  EXPECT_CALL(*this, OnDecoderSelected(decoder_1_, NotNull()));

  SelectDecoder();
}

TEST_F(AudioDecoderSelectorTest,
       Destroy_EncryptedStream_DecryptOnly_OneClearDecoder) {
  UseEncryptedStream();
  InitializeDecoderSelector(kDecryptOnly, 1);

  EXPECT_CALL(*decoder_1_, Initialize(_, _, _));

  SelectDecoderAndDestroy();
}

// Decryptor can only do decryption and there are multiple decoders available.
// The first decoder that can decode the input stream will be selected and
// a DecryptingDemuxerStream will be created.
TEST_F(AudioDecoderSelectorTest,
       EncryptedStream_DecryptOnly_MultipleClearDecoder) {
  UseEncryptedStream();
  InitializeDecoderSelector(kDecryptOnly, 2);

  EXPECT_CALL(*decoder_1_, Initialize(_, _, _)).WillOnce(RunCallback<1>(false));
  EXPECT_CALL(*decoder_2_, Initialize(_, _, _)).WillOnce(RunCallback<1>(true));
  EXPECT_CALL(*this, OnDecoderSelected(decoder_2_, NotNull()));

  SelectDecoder();
}

TEST_F(AudioDecoderSelectorTest,
       Destroy_EncryptedStream_DecryptOnly_MultipleClearDecoder) {
  UseEncryptedStream();
  InitializeDecoderSelector(kDecryptOnly, 2);

  EXPECT_CALL(*decoder_1_, Initialize(_, _, _)).WillOnce(RunCallback<1>(false));
  EXPECT_CALL(*decoder_2_, Initialize(_, _, _));

  SelectDecoderAndDestroy();
}

// Decryptor can do decryption and decoding. A DecryptingAudioDecoder will be
// created and selected. The clear decoders should not be touched at all.
// No DecryptingDemuxerStream should to be created.
TEST_F(AudioDecoderSelectorTest, EncryptedStream_DecryptAndDecode) {
  UseEncryptedStream();
  InitializeDecoderSelector(kDecryptAndDecode, 1);

  EXPECT_CALL(*this, OnDecoderSelected(NotNull(), IsNull()));

  SelectDecoder();
}

TEST_F(AudioDecoderSelectorTest, Destroy_EncryptedStream_DecryptAndDecode) {
  UseEncryptedStream();
  InitializeDecoderSelector(kHoldSetDecryptor, 1);

  SelectDecoderAndDestroy();
}

}  // namespace media