/* * Copyright 2012 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 "pc/test/fake_audio_capture_module.h" #include #include #include "api/scoped_refptr.h" #include "rtc_base/gunit.h" #include "rtc_base/synchronization/mutex.h" #include "test/gtest.h" class FakeAdmTest : public ::testing::Test, public webrtc::AudioTransport { protected: static const int kMsInSecond = 1000; FakeAdmTest() : push_iterations_(0), pull_iterations_(0), rec_buffer_bytes_(0) { memset(rec_buffer_, 0, sizeof(rec_buffer_)); } void SetUp() override { fake_audio_capture_module_ = FakeAudioCaptureModule::Create(); EXPECT_TRUE(fake_audio_capture_module_.get() != NULL); } // Callbacks inherited from webrtc::AudioTransport. // ADM is pushing data. int32_t RecordedDataIsAvailable(const void* audioSamples, const size_t nSamples, const size_t nBytesPerSample, const size_t nChannels, const uint32_t samplesPerSec, const uint32_t totalDelayMS, const int32_t clockDrift, const uint32_t currentMicLevel, const bool keyPressed, uint32_t& newMicLevel) override { webrtc::MutexLock lock(&mutex_); rec_buffer_bytes_ = nSamples * nBytesPerSample; if ((rec_buffer_bytes_ == 0) || (rec_buffer_bytes_ > FakeAudioCaptureModule::kNumberSamples * FakeAudioCaptureModule::kNumberBytesPerSample)) { ADD_FAILURE(); return -1; } memcpy(rec_buffer_, audioSamples, rec_buffer_bytes_); ++push_iterations_; newMicLevel = currentMicLevel; return 0; } void PullRenderData(int bits_per_sample, int sample_rate, size_t number_of_channels, size_t number_of_frames, void* audio_data, int64_t* elapsed_time_ms, int64_t* ntp_time_ms) override {} // ADM is pulling data. int32_t NeedMorePlayData(const size_t nSamples, const size_t nBytesPerSample, const size_t nChannels, const uint32_t samplesPerSec, void* audioSamples, size_t& nSamplesOut, int64_t* elapsed_time_ms, int64_t* ntp_time_ms) override { webrtc::MutexLock lock(&mutex_); ++pull_iterations_; const size_t audio_buffer_size = nSamples * nBytesPerSample; const size_t bytes_out = RecordedDataReceived() ? CopyFromRecBuffer(audioSamples, audio_buffer_size) : GenerateZeroBuffer(audioSamples, audio_buffer_size); nSamplesOut = bytes_out / nBytesPerSample; *elapsed_time_ms = 0; *ntp_time_ms = 0; return 0; } int push_iterations() const { webrtc::MutexLock lock(&mutex_); return push_iterations_; } int pull_iterations() const { webrtc::MutexLock lock(&mutex_); return pull_iterations_; } rtc::scoped_refptr fake_audio_capture_module_; private: bool RecordedDataReceived() const { return rec_buffer_bytes_ != 0; } size_t GenerateZeroBuffer(void* audio_buffer, size_t audio_buffer_size) { memset(audio_buffer, 0, audio_buffer_size); return audio_buffer_size; } size_t CopyFromRecBuffer(void* audio_buffer, size_t audio_buffer_size) { EXPECT_EQ(audio_buffer_size, rec_buffer_bytes_); const size_t min_buffer_size = std::min(audio_buffer_size, rec_buffer_bytes_); memcpy(audio_buffer, rec_buffer_, min_buffer_size); return min_buffer_size; } rtc::AutoThread main_thread_; mutable webrtc::Mutex mutex_; int push_iterations_; int pull_iterations_; char rec_buffer_[FakeAudioCaptureModule::kNumberSamples * FakeAudioCaptureModule::kNumberBytesPerSample]; size_t rec_buffer_bytes_; }; TEST_F(FakeAdmTest, PlayoutTest) { EXPECT_EQ(0, fake_audio_capture_module_->RegisterAudioCallback(this)); bool stereo_available = false; EXPECT_EQ(0, fake_audio_capture_module_->StereoPlayoutIsAvailable( &stereo_available)); EXPECT_TRUE(stereo_available); EXPECT_NE(0, fake_audio_capture_module_->StartPlayout()); EXPECT_FALSE(fake_audio_capture_module_->PlayoutIsInitialized()); EXPECT_FALSE(fake_audio_capture_module_->Playing()); EXPECT_EQ(0, fake_audio_capture_module_->StopPlayout()); EXPECT_EQ(0, fake_audio_capture_module_->InitPlayout()); EXPECT_TRUE(fake_audio_capture_module_->PlayoutIsInitialized()); EXPECT_FALSE(fake_audio_capture_module_->Playing()); EXPECT_EQ(0, fake_audio_capture_module_->StartPlayout()); EXPECT_TRUE(fake_audio_capture_module_->Playing()); uint16_t delay_ms = 10; EXPECT_EQ(0, fake_audio_capture_module_->PlayoutDelay(&delay_ms)); EXPECT_EQ(0, delay_ms); EXPECT_TRUE_WAIT(pull_iterations() > 0, kMsInSecond); EXPECT_GE(0, push_iterations()); EXPECT_EQ(0, fake_audio_capture_module_->StopPlayout()); EXPECT_FALSE(fake_audio_capture_module_->Playing()); } TEST_F(FakeAdmTest, RecordTest) { EXPECT_EQ(0, fake_audio_capture_module_->RegisterAudioCallback(this)); bool stereo_available = false; EXPECT_EQ(0, fake_audio_capture_module_->StereoRecordingIsAvailable( &stereo_available)); EXPECT_FALSE(stereo_available); EXPECT_NE(0, fake_audio_capture_module_->StartRecording()); EXPECT_FALSE(fake_audio_capture_module_->Recording()); EXPECT_EQ(0, fake_audio_capture_module_->StopRecording()); EXPECT_EQ(0, fake_audio_capture_module_->InitRecording()); EXPECT_EQ(0, fake_audio_capture_module_->StartRecording()); EXPECT_TRUE(fake_audio_capture_module_->Recording()); EXPECT_TRUE_WAIT(push_iterations() > 0, kMsInSecond); EXPECT_GE(0, pull_iterations()); EXPECT_EQ(0, fake_audio_capture_module_->StopRecording()); EXPECT_FALSE(fake_audio_capture_module_->Recording()); } TEST_F(FakeAdmTest, DuplexTest) { EXPECT_EQ(0, fake_audio_capture_module_->RegisterAudioCallback(this)); EXPECT_EQ(0, fake_audio_capture_module_->InitPlayout()); EXPECT_EQ(0, fake_audio_capture_module_->StartPlayout()); EXPECT_EQ(0, fake_audio_capture_module_->InitRecording()); EXPECT_EQ(0, fake_audio_capture_module_->StartRecording()); EXPECT_TRUE_WAIT(push_iterations() > 0, kMsInSecond); EXPECT_TRUE_WAIT(pull_iterations() > 0, kMsInSecond); EXPECT_EQ(0, fake_audio_capture_module_->StopPlayout()); EXPECT_EQ(0, fake_audio_capture_module_->StopRecording()); }