* Copyright (c) 2018 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/audio_device/include/test_audio_device.h"
#include <algorithm>
#include <cstdint>
#include <cstdlib>
#include <memory>
#include <string>
#include <type_traits>
#include <utility>
#include <vector>
#include "absl/strings/string_view.h"
#include "api/array_view.h"
#include "api/make_ref_counted.h"
#include "common_audio/wav_file.h"
#include "modules/audio_device/audio_device_impl.h"
#include "modules/audio_device/include/audio_device_default.h"
#include "modules/audio_device/test_audio_device_impl.h"
#include "rtc_base/buffer.h"
#include "rtc_base/checks.h"
#include "rtc_base/event.h"
#include "rtc_base/logging.h"
#include "rtc_base/numerics/safe_conversions.h"
#include "rtc_base/platform_thread.h"
#include "rtc_base/random.h"
#include "rtc_base/synchronization/mutex.h"
#include "rtc_base/task_queue.h"
#include "rtc_base/task_utils/repeating_task.h"
#include "rtc_base/thread_annotations.h"
#include "rtc_base/time_utils.h"
namespace webrtc {
namespace {
constexpr int kFrameLengthUs = 10000;
constexpr int kFramesPerSecond = rtc::kNumMicrosecsPerSec / kFrameLengthUs;
class TestAudioDeviceModuleImpl : public AudioDeviceModuleImpl {
public:
TestAudioDeviceModuleImpl(
TaskQueueFactory* task_queue_factory,
std::unique_ptr<TestAudioDeviceModule::Capturer> capturer,
std::unique_ptr<TestAudioDeviceModule::Renderer> renderer,
float speed = 1)
: AudioDeviceModuleImpl(
AudioLayer::kPlatformDefaultAudio,
std::move(capturer),
std::move(renderer),
speed),*/
task_queue_factory
true*/) {}
~TestAudioDeviceModuleImpl() override = default;
};
class PulsedNoiseCapturerImpl final
: public TestAudioDeviceModule::PulsedNoiseCapturer {
public:
PulsedNoiseCapturerImpl(int16_t max_amplitude,
int sampling_frequency_in_hz,
int num_channels)
: sampling_frequency_in_hz_(sampling_frequency_in_hz),
fill_with_zero_(false),
random_generator_(1),
max_amplitude_(max_amplitude),
num_channels_(num_channels) {
RTC_DCHECK_GT(max_amplitude, 0);
}
int SamplingFrequency() const override { return sampling_frequency_in_hz_; }
int NumChannels() const override { return num_channels_; }
bool Capture(rtc::BufferT<int16_t>* buffer) override {
fill_with_zero_ = !fill_with_zero_;
int16_t max_amplitude;
{
MutexLock lock(&lock_);
max_amplitude = max_amplitude_;
}
buffer->SetData(
TestAudioDeviceModule::SamplesPerFrame(sampling_frequency_in_hz_) *
num_channels_,
[&](rtc::ArrayView<int16_t> data) {
if (fill_with_zero_) {
std::fill(data.begin(), data.end(), 0);
} else {
std::generate(data.begin(), data.end(), [&]() {
return random_generator_.Rand(-max_amplitude, max_amplitude);
});
}
return data.size();
});
return true;
}
void SetMaxAmplitude(int16_t amplitude) override {
MutexLock lock(&lock_);
max_amplitude_ = amplitude;
}
private:
int sampling_frequency_in_hz_;
bool fill_with_zero_;
Random random_generator_;
Mutex lock_;
int16_t max_amplitude_ RTC_GUARDED_BY(lock_);
const int num_channels_;
};
class WavFileReader final : public TestAudioDeviceModule::Capturer {
public:
WavFileReader(absl::string_view filename,
int sampling_frequency_in_hz,
int num_channels,
bool repeat)
: WavFileReader(std::make_unique<WavReader>(filename),
sampling_frequency_in_hz,
num_channels,
repeat) {}
int SamplingFrequency() const override { return sampling_frequency_in_hz_; }
int NumChannels() const override { return num_channels_; }
bool Capture(rtc::BufferT<int16_t>* buffer) override {
buffer->SetData(
TestAudioDeviceModule::SamplesPerFrame(sampling_frequency_in_hz_) *
num_channels_,
[&](rtc::ArrayView<int16_t> data) {
size_t read = wav_reader_->ReadSamples(data.size(), data.data());
if (read < data.size() && repeat_) {
do {
wav_reader_->Reset();
size_t delta = wav_reader_->ReadSamples(
data.size() - read, data.subview(read).data());
RTC_CHECK_GT(delta, 0) << "No new data read from file";
read += delta;
} while (read < data.size());
}
return read;
});
return buffer->size() > 0;
}
private:
WavFileReader(std::unique_ptr<WavReader> wav_reader,
int sampling_frequency_in_hz,
int num_channels,
bool repeat)
: sampling_frequency_in_hz_(sampling_frequency_in_hz),
num_channels_(num_channels),
wav_reader_(std::move(wav_reader)),
repeat_(repeat) {
RTC_CHECK_EQ(wav_reader_->sample_rate(), sampling_frequency_in_hz);
RTC_CHECK_EQ(wav_reader_->num_channels(), num_channels);
}
const int sampling_frequency_in_hz_;
const int num_channels_;
std::unique_ptr<WavReader> wav_reader_;
const bool repeat_;
};
class WavFileWriter final : public TestAudioDeviceModule::Renderer {
public:
WavFileWriter(absl::string_view filename,
int sampling_frequency_in_hz,
int num_channels)
: WavFileWriter(std::make_unique<WavWriter>(filename,
sampling_frequency_in_hz,
num_channels),
sampling_frequency_in_hz,
num_channels) {}
int SamplingFrequency() const override { return sampling_frequency_in_hz_; }
int NumChannels() const override { return num_channels_; }
bool Render(rtc::ArrayView<const int16_t> data) override {
wav_writer_->WriteSamples(data.data(), data.size());
return true;
}
private:
WavFileWriter(std::unique_ptr<WavWriter> wav_writer,
int sampling_frequency_in_hz,
int num_channels)
: sampling_frequency_in_hz_(sampling_frequency_in_hz),
wav_writer_(std::move(wav_writer)),
num_channels_(num_channels) {}
int sampling_frequency_in_hz_;
std::unique_ptr<WavWriter> wav_writer_;
const int num_channels_;
};
class BoundedWavFileWriter : public TestAudioDeviceModule::Renderer {
public:
BoundedWavFileWriter(absl::string_view filename,
int sampling_frequency_in_hz,
int num_channels)
: sampling_frequency_in_hz_(sampling_frequency_in_hz),
wav_writer_(filename, sampling_frequency_in_hz, num_channels),
num_channels_(num_channels),
silent_audio_(
TestAudioDeviceModule::SamplesPerFrame(sampling_frequency_in_hz) *
num_channels,
0),
started_writing_(false),
trailing_zeros_(0) {}
int SamplingFrequency() const override { return sampling_frequency_in_hz_; }
int NumChannels() const override { return num_channels_; }
bool Render(rtc::ArrayView<const int16_t> data) override {
const int16_t kAmplitudeThreshold = 5;
const int16_t* begin = data.begin();
const int16_t* end = data.end();
if (!started_writing_) {
while (begin < end) {
if (std::abs(*begin) > kAmplitudeThreshold) {
started_writing_ = true;
break;
}
++begin;
}
}
if (started_writing_) {
while (begin < end) {
if (*(end - 1) != 0) {
break;
}
--end;
}
if (begin < end) {
while (trailing_zeros_ > 0) {
const size_t zeros_to_write =
std::min(trailing_zeros_, silent_audio_.size());
wav_writer_.WriteSamples(silent_audio_.data(), zeros_to_write);
trailing_zeros_ -= zeros_to_write;
}
wav_writer_.WriteSamples(begin, end - begin);
}
trailing_zeros_ += data.end() - end;
}
return true;
}
private:
int sampling_frequency_in_hz_;
WavWriter wav_writer_;
const int num_channels_;
std::vector<int16_t> silent_audio_;
bool started_writing_;
size_t trailing_zeros_;
};
class DiscardRenderer final : public TestAudioDeviceModule::Renderer {
public:
explicit DiscardRenderer(int sampling_frequency_in_hz, int num_channels)
: sampling_frequency_in_hz_(sampling_frequency_in_hz),
num_channels_(num_channels) {}
int SamplingFrequency() const override { return sampling_frequency_in_hz_; }
int NumChannels() const override { return num_channels_; }
bool Render(rtc::ArrayView<const int16_t> data) override { return true; }
private:
int sampling_frequency_in_hz_;
const int num_channels_;
};
class RawFileReader final : public TestAudioDeviceModule::Capturer {
public:
RawFileReader(absl::string_view input_file_name,
int sampling_frequency_in_hz,
int num_channels,
bool repeat)
: input_file_name_(input_file_name),
sampling_frequency_in_hz_(sampling_frequency_in_hz),
num_channels_(num_channels),
repeat_(repeat),
read_buffer_(
TestAudioDeviceModule::SamplesPerFrame(sampling_frequency_in_hz) *
num_channels * 2,
0) {
input_file_ = FileWrapper::OpenReadOnly(input_file_name_);
RTC_CHECK(input_file_.is_open())
<< "Failed to open audio input file: " << input_file_name_;
}
~RawFileReader() override { input_file_.Close(); }
int SamplingFrequency() const override { return sampling_frequency_in_hz_; }
int NumChannels() const override { return num_channels_; }
bool Capture(rtc::BufferT<int16_t>* buffer) override {
buffer->SetData(
TestAudioDeviceModule::SamplesPerFrame(SamplingFrequency()) *
NumChannels(),
[&](rtc::ArrayView<int16_t> data) {
rtc::ArrayView<int8_t> read_buffer_view = ReadBufferView();
size_t size = data.size() * 2;
size_t read = input_file_.Read(read_buffer_view.data(), size);
if (read < size && repeat_) {
do {
input_file_.Rewind();
size_t delta = input_file_.Read(
read_buffer_view.subview(read).data(), size - read);
RTC_CHECK_GT(delta, 0) << "No new data to read from file";
read += delta;
} while (read < size);
}
memcpy(data.data(), read_buffer_view.data(), size);
return read / 2;
});
return buffer->size() > 0;
}
private:
rtc::ArrayView<int8_t> ReadBufferView() { return read_buffer_; }
const std::string input_file_name_;
const int sampling_frequency_in_hz_;
const int num_channels_;
const bool repeat_;
FileWrapper input_file_;
std::vector<int8_t> read_buffer_;
};
class RawFileWriter : public TestAudioDeviceModule::Renderer {
public:
RawFileWriter(absl::string_view output_file_name,
int sampling_frequency_in_hz,
int num_channels)
: output_file_name_(output_file_name),
sampling_frequency_in_hz_(sampling_frequency_in_hz),
num_channels_(num_channels),
silent_audio_(
TestAudioDeviceModule::SamplesPerFrame(sampling_frequency_in_hz) *
num_channels * 2,
0),
write_buffer_(
TestAudioDeviceModule::SamplesPerFrame(sampling_frequency_in_hz) *
num_channels * 2,
0),
started_writing_(false),
trailing_zeros_(0) {
output_file_ = FileWrapper::OpenWriteOnly(output_file_name_);
RTC_CHECK(output_file_.is_open())
<< "Failed to open playout file" << output_file_name_;
}
~RawFileWriter() override { output_file_.Close(); }
int SamplingFrequency() const override { return sampling_frequency_in_hz_; }
int NumChannels() const override { return num_channels_; }
bool Render(rtc::ArrayView<const int16_t> data) override {
const int16_t kAmplitudeThreshold = 5;
const int16_t* begin = data.begin();
const int16_t* end = data.end();
if (!started_writing_) {
while (begin < end) {
if (std::abs(*begin) > kAmplitudeThreshold) {
started_writing_ = true;
break;
}
++begin;
}
}
if (started_writing_) {
while (begin < end) {
if (*(end - 1) != 0) {
break;
}
--end;
}
if (begin < end) {
while (trailing_zeros_ > 0) {
const size_t zeros_to_write =
std::min(trailing_zeros_, silent_audio_.size());
output_file_.Write(silent_audio_.data(), zeros_to_write * 2);
trailing_zeros_ -= zeros_to_write;
}
WriteInt16(begin, end);
}
trailing_zeros_ += data.end() - end;
}
return true;
}
private:
void WriteInt16(const int16_t* begin, const int16_t* end) {
int size = (end - begin) * sizeof(int16_t);
memcpy(write_buffer_.data(), begin, size);
output_file_.Write(write_buffer_.data(), size);
}
const std::string output_file_name_;
const int sampling_frequency_in_hz_;
const int num_channels_;
FileWrapper output_file_;
std::vector<int8_t> silent_audio_;
std::vector<int8_t> write_buffer_;
bool started_writing_;
size_t trailing_zeros_;
};
}
size_t TestAudioDeviceModule::SamplesPerFrame(int sampling_frequency_in_hz) {
return rtc::CheckedDivExact(sampling_frequency_in_hz, kFramesPerSecond);
}
rtc::scoped_refptr<AudioDeviceModule> TestAudioDeviceModule::Create(
TaskQueueFactory* task_queue_factory,
std::unique_ptr<TestAudioDeviceModule::Capturer> capturer,
std::unique_ptr<TestAudioDeviceModule::Renderer> renderer,
float speed) {
auto audio_device = rtc::make_ref_counted<TestAudioDeviceModuleImpl>(
task_queue_factory, std::move(capturer), std::move(renderer), speed);
if (audio_device->CheckPlatform() == -1) {
return nullptr;
}
if (audio_device->CreatePlatformSpecificObjects() == -1) {
return nullptr;
}
if (audio_device->AttachAudioBuffer() == -1) {
return nullptr;
}
return audio_device;
}
std::unique_ptr<TestAudioDeviceModule::PulsedNoiseCapturer>
TestAudioDeviceModule::CreatePulsedNoiseCapturer(int16_t max_amplitude,
int sampling_frequency_in_hz,
int num_channels) {
return std::make_unique<PulsedNoiseCapturerImpl>(
max_amplitude, sampling_frequency_in_hz, num_channels);
}
std::unique_ptr<TestAudioDeviceModule::Renderer>
TestAudioDeviceModule::CreateDiscardRenderer(int sampling_frequency_in_hz,
int num_channels) {
return std::make_unique<DiscardRenderer>(sampling_frequency_in_hz,
num_channels);
}
std::unique_ptr<TestAudioDeviceModule::Capturer>
TestAudioDeviceModule::CreateWavFileReader(absl::string_view filename,
int sampling_frequency_in_hz,
int num_channels) {
return std::make_unique<WavFileReader>(filename, sampling_frequency_in_hz,
num_channels, false);
}
std::unique_ptr<TestAudioDeviceModule::Capturer>
TestAudioDeviceModule::CreateWavFileReader(absl::string_view filename,
bool repeat) {
WavReader reader(filename);
int sampling_frequency_in_hz = reader.sample_rate();
int num_channels = rtc::checked_cast<int>(reader.num_channels());
return std::make_unique<WavFileReader>(filename, sampling_frequency_in_hz,
num_channels, repeat);
}
std::unique_ptr<TestAudioDeviceModule::Renderer>
TestAudioDeviceModule::CreateWavFileWriter(absl::string_view filename,
int sampling_frequency_in_hz,
int num_channels) {
return std::make_unique<WavFileWriter>(filename, sampling_frequency_in_hz,
num_channels);
}
std::unique_ptr<TestAudioDeviceModule::Renderer>
TestAudioDeviceModule::CreateBoundedWavFileWriter(absl::string_view filename,
int sampling_frequency_in_hz,
int num_channels) {
return std::make_unique<BoundedWavFileWriter>(
filename, sampling_frequency_in_hz, num_channels);
}
std::unique_ptr<TestAudioDeviceModule::Capturer>
TestAudioDeviceModule::CreateRawFileReader(absl::string_view filename,
int sampling_frequency_in_hz,
int num_channels,
bool repeat) {
return std::make_unique<RawFileReader>(filename, sampling_frequency_in_hz,
num_channels, repeat);
}
std::unique_ptr<TestAudioDeviceModule::Renderer>
TestAudioDeviceModule::CreateRawFileWriter(absl::string_view filename,
int sampling_frequency_in_hz,
int num_channels) {
return std::make_unique<RawFileWriter>(filename, sampling_frequency_in_hz,
num_channels);
}
}
