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// Copyright 2013 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 "base/message_loop/message_loop.h"
#include "base/run_loop.h"
#include "content/renderer/media/webaudiosourceprovider_impl.h"
#include "media/audio/audio_parameters.h"
#include "media/base/fake_audio_render_callback.h"
#include "media/base/mock_audio_renderer_sink.h"
#include "testing/gmock/include/gmock/gmock.h"
#include "testing/gtest/include/gtest/gtest.h"
#include "third_party/WebKit/public/platform/WebAudioSourceProviderClient.h"

namespace content {

namespace {
const float kTestVolume = 0.25;
}  // namespace

class WebAudioSourceProviderImplTest
    : public testing::Test,
      public blink::WebAudioSourceProviderClient {
 public:
  WebAudioSourceProviderImplTest()
      : params_(media::AudioParameters::AUDIO_PCM_LINEAR,
                media::CHANNEL_LAYOUT_STEREO, 48000, 16, 64),
        fake_callback_(0.1),
        mock_sink_(new media::MockAudioRendererSink()),
        wasp_impl_(new WebAudioSourceProviderImpl(mock_sink_)) {
  }

  virtual ~WebAudioSourceProviderImplTest() {}

  void CallAllSinkMethodsAndVerify(bool verify) {
    testing::InSequence s;

    EXPECT_CALL(*mock_sink_.get(), Start()).Times(verify);
    wasp_impl_->Start();

    EXPECT_CALL(*mock_sink_.get(), Play()).Times(verify);
    wasp_impl_->Play();

    EXPECT_CALL(*mock_sink_.get(), Pause()).Times(verify);
    wasp_impl_->Pause();

    EXPECT_CALL(*mock_sink_.get(), SetVolume(kTestVolume)).Times(verify);
    wasp_impl_->SetVolume(kTestVolume);

    EXPECT_CALL(*mock_sink_.get(), Stop()).Times(verify);
    wasp_impl_->Stop();

    testing::Mock::VerifyAndClear(mock_sink_.get());
  }

  void SetClient(blink::WebAudioSourceProviderClient* client) {
    testing::InSequence s;

    if (client) {
      EXPECT_CALL(*mock_sink_.get(), Stop());
      EXPECT_CALL(*this, setFormat(params_.channels(), params_.sample_rate()));
    }
    wasp_impl_->setClient(client);
    base::RunLoop().RunUntilIdle();

    testing::Mock::VerifyAndClear(mock_sink_.get());
    testing::Mock::VerifyAndClear(this);
  }

  bool CompareBusses(const media::AudioBus* bus1, const media::AudioBus* bus2) {
    EXPECT_EQ(bus1->channels(), bus2->channels());
    EXPECT_EQ(bus1->frames(), bus2->frames());
    for (int ch = 0; ch < bus1->channels(); ++ch) {
      if (memcmp(bus1->channel(ch), bus2->channel(ch),
                 sizeof(*bus1->channel(ch)) * bus1->frames()) != 0) {
        return false;
      }
    }
    return true;
  }

  // blink::WebAudioSourceProviderClient implementation.
  MOCK_METHOD2(setFormat, void(size_t numberOfChannels, float sampleRate));

 protected:
  media::AudioParameters params_;
  media::FakeAudioRenderCallback fake_callback_;
  scoped_refptr<media::MockAudioRendererSink> mock_sink_;
  scoped_refptr<WebAudioSourceProviderImpl> wasp_impl_;
  base::MessageLoop message_loop_;

  DISALLOW_COPY_AND_ASSIGN(WebAudioSourceProviderImplTest);
};

TEST_F(WebAudioSourceProviderImplTest, SetClientBeforeInitialize) {
  // setClient() with a NULL client should do nothing if no client is set.
  wasp_impl_->setClient(NULL);

  EXPECT_CALL(*mock_sink_.get(), Stop());
  wasp_impl_->setClient(this);
  base::RunLoop().RunUntilIdle();

  // When Initialize() is called after setClient(), the params should propagate
  // to the client via setFormat() during the call.
  EXPECT_CALL(*this, setFormat(params_.channels(), params_.sample_rate()));
  wasp_impl_->Initialize(params_, &fake_callback_);
  base::RunLoop().RunUntilIdle();

  // setClient() with the same client should do nothing.
  wasp_impl_->setClient(this);
  base::RunLoop().RunUntilIdle();
}

// Verify AudioRendererSink functionality w/ and w/o a client.
TEST_F(WebAudioSourceProviderImplTest, SinkMethods) {
  wasp_impl_->Initialize(params_, &fake_callback_);
  ASSERT_EQ(mock_sink_->callback(), &fake_callback_);

  // Without a client all WASP calls should fall through to the underlying sink.
  CallAllSinkMethodsAndVerify(true);

  // With a client no calls should reach the Stop()'d sink.  Also, setClient()
  // should propagate the params provided during Initialize() at call time.
  SetClient(this);
  CallAllSinkMethodsAndVerify(false);

  // Removing the client should cause WASP to revert to the underlying sink.
  EXPECT_CALL(*mock_sink_.get(), SetVolume(kTestVolume));
  SetClient(NULL);
  CallAllSinkMethodsAndVerify(true);
}

// Verify underlying sink state is restored after client removal.
TEST_F(WebAudioSourceProviderImplTest, SinkStateRestored) {
  wasp_impl_->Initialize(params_, &fake_callback_);

  // Verify state set before the client is set propagates back afterward.
  EXPECT_CALL(*mock_sink_.get(), Start());
  wasp_impl_->Start();
  SetClient(this);

  EXPECT_CALL(*mock_sink_.get(), SetVolume(1.0));
  EXPECT_CALL(*mock_sink_.get(), Start());
  SetClient(NULL);

  // Verify state set while the client was attached propagates back afterward.
  SetClient(this);
  wasp_impl_->Play();
  wasp_impl_->SetVolume(kTestVolume);

  EXPECT_CALL(*mock_sink_.get(), SetVolume(kTestVolume));
  EXPECT_CALL(*mock_sink_.get(), Start());
  EXPECT_CALL(*mock_sink_.get(), Play());
  SetClient(NULL);
}

// Test the AudioRendererSink state machine and its effects on provideInput().
TEST_F(WebAudioSourceProviderImplTest, ProvideInput) {
  scoped_ptr<media::AudioBus> bus1 = media::AudioBus::Create(params_);
  scoped_ptr<media::AudioBus> bus2 = media::AudioBus::Create(params_);

  // Point the WebVector into memory owned by |bus1|.
  blink::WebVector<float*> audio_data(static_cast<size_t>(bus1->channels()));
  for (size_t i = 0; i < audio_data.size(); ++i)
    audio_data[i] = bus1->channel(i);

  // Verify provideInput() works before Initialize() and returns silence.
  bus1->channel(0)[0] = 1;
  bus2->Zero();
  wasp_impl_->provideInput(audio_data, params_.frames_per_buffer());
  ASSERT_TRUE(CompareBusses(bus1.get(), bus2.get()));

  wasp_impl_->Initialize(params_, &fake_callback_);
  SetClient(this);

  // Verify provideInput() is muted prior to Start() and no calls to the render
  // callback have occurred.
  bus1->channel(0)[0] = 1;
  bus2->Zero();
  wasp_impl_->provideInput(audio_data, params_.frames_per_buffer());
  ASSERT_TRUE(CompareBusses(bus1.get(), bus2.get()));
  ASSERT_EQ(fake_callback_.last_audio_delay_milliseconds(), -1);

  wasp_impl_->Start();

  // Ditto for Play().
  bus1->channel(0)[0] = 1;
  wasp_impl_->provideInput(audio_data, params_.frames_per_buffer());
  ASSERT_TRUE(CompareBusses(bus1.get(), bus2.get()));
  ASSERT_EQ(fake_callback_.last_audio_delay_milliseconds(), -1);

  wasp_impl_->Play();

  // Now we should get real audio data.
  wasp_impl_->provideInput(audio_data, params_.frames_per_buffer());
  ASSERT_FALSE(CompareBusses(bus1.get(), bus2.get()));

  // Ensure volume adjustment is working.
  fake_callback_.reset();
  fake_callback_.Render(bus2.get(), 0);
  bus2->Scale(kTestVolume);

  fake_callback_.reset();
  wasp_impl_->SetVolume(kTestVolume);
  wasp_impl_->provideInput(audio_data, params_.frames_per_buffer());
  ASSERT_TRUE(CompareBusses(bus1.get(), bus2.get()));

  // Pause should return to silence.
  wasp_impl_->Pause();
  bus1->channel(0)[0] = 1;
  bus2->Zero();
  wasp_impl_->provideInput(audio_data, params_.frames_per_buffer());
  ASSERT_TRUE(CompareBusses(bus1.get(), bus2.get()));

  wasp_impl_->Play();

  // Play should return real audio data again...
  wasp_impl_->provideInput(audio_data, params_.frames_per_buffer());
  ASSERT_FALSE(CompareBusses(bus1.get(), bus2.get()));

  // Stop() should return silence.
  wasp_impl_->Stop();
  bus1->channel(0)[0] = 1;
  wasp_impl_->provideInput(audio_data, params_.frames_per_buffer());
  ASSERT_TRUE(CompareBusses(bus1.get(), bus2.get()));
}

}  // namespace content