media/audio/alsa/audio_manager_alsa.cc - cobalt - Git at Google

 // Copyright 2013 The Chromium Authors
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include "media/audio/alsa/audio_manager_alsa.h"

 #include <stddef.h>

 #include "base/command_line.h"
 #include "base/logging.h"
 #include "base/memory/free_deleter.h"
 #include "base/metrics/histogram.h"
 #include "media/audio/alsa/alsa_input.h"
 #include "media/audio/alsa/alsa_output.h"
 #include "media/audio/alsa/alsa_wrapper.h"
 #include "media/audio/audio_device_description.h"
 #include "media/audio/audio_output_dispatcher.h"
 #if defined(USE_PULSEAUDIO)
 #include "media/audio/pulse/audio_manager_pulse.h"
 #endif
 #include "media/base/audio_parameters.h"
 #include "media/base/channel_layout.h"
 #include "media/base/limits.h"
 #include "media/base/media_switches.h"

 namespace media {

 // Maximum number of output streams that can be open simultaneously.
 static const int kMaxOutputStreams = 50;

 // Default sample rate for input and output streams.
 static const int kDefaultSampleRate = 48000;

 // Since "default", "pulse" and "dmix" devices are virtual devices mapped to
 // real devices, we remove them from the list to avoiding duplicate counting.
 // In addition, note that we support no more than 2 channels for recording,
 // hence surround devices are not stored in the list.
 static const char* const kInvalidAudioInputDevices[] = {
     "default", "dmix", "null", "pulse", "surround",
 };

 AudioManagerAlsa::AudioManagerAlsa(std::unique_ptr<AudioThread> audio_thread,
                                    AudioLogFactory* audio_log_factory)
     : AudioManagerBase(std::move(audio_thread), audio_log_factory),
       wrapper_(new AlsaWrapper()) {
   SetMaxOutputStreamsAllowed(kMaxOutputStreams);
 }

 AudioManagerAlsa::~AudioManagerAlsa() = default;

 bool AudioManagerAlsa::HasAudioOutputDevices() {
   return HasAnyAlsaAudioDevice(kStreamPlayback);
 }

 bool AudioManagerAlsa::HasAudioInputDevices() {
   return HasAnyAlsaAudioDevice(kStreamCapture);
 }

 void AudioManagerAlsa::GetAudioInputDeviceNames(
     AudioDeviceNames* device_names) {
   DCHECK(device_names->empty());
   GetAlsaAudioDevices(kStreamCapture, device_names);
 }

 void AudioManagerAlsa::GetAudioOutputDeviceNames(
     AudioDeviceNames* device_names) {
   DCHECK(device_names->empty());
   GetAlsaAudioDevices(kStreamPlayback, device_names);
 }

 AudioParameters AudioManagerAlsa::GetInputStreamParameters(
     const std::string& device_id) {
   static const int kDefaultInputBufferSize = 1024;

   return AudioParameters(AudioParameters::AUDIO_PCM_LOW_LATENCY,
                          ChannelLayoutConfig::Stereo(), kDefaultSampleRate,
                          kDefaultInputBufferSize);
 }

 const char* AudioManagerAlsa::GetName() {
   return "ALSA";
 }

 void AudioManagerAlsa::GetAlsaAudioDevices(StreamType type,
                                            AudioDeviceNames* device_names) {
   // Constants specified by the ALSA API for device hints.
   static const char kPcmInterfaceName[] = "pcm";
   int card = -1;

   // Loop through the sound cards to get ALSA device hints.
   while (!wrapper_->CardNext(&card) && card >= 0) {
     void** hints = NULL;
     int error = wrapper_->DeviceNameHint(card, kPcmInterfaceName, &hints);
     if (!error) {
       GetAlsaDevicesInfo(type, hints, device_names);

       // Destroy the hints now that we're done with it.
       wrapper_->DeviceNameFreeHint(hints);
     } else {
       DLOG(WARNING) << "GetAlsaAudioDevices: unable to get device hints: "
                     << wrapper_->StrError(error);
     }
   }
 }

 void AudioManagerAlsa::GetAlsaDevicesInfo(AudioManagerAlsa::StreamType type,
                                           void** hints,
                                           AudioDeviceNames* device_names) {
   static const char kIoHintName[] = "IOID";
   static const char kNameHintName[] = "NAME";
   static const char kDescriptionHintName[] = "DESC";

   const char* unwanted_device_type = UnwantedDeviceTypeWhenEnumerating(type);

   for (void** hint_iter = hints; *hint_iter != NULL; hint_iter++) {
     // Only examine devices of the right type.  Valid values are
     // "Input", "Output", and NULL which means both input and output.
     std::unique_ptr<char, base::FreeDeleter> io(
         wrapper_->DeviceNameGetHint(*hint_iter, kIoHintName));
     if (io != NULL && strcmp(unwanted_device_type, io.get()) == 0)
       continue;

     // Found a device, prepend the default device since we always want
     // it to be on the top of the list for all platforms. And there is
     // no duplicate counting here since it is only done if the list is
     // still empty.  Note, pulse has exclusively opened the default
     // device, so we must open the device via the "default" moniker.
     if (device_names->empty())
       device_names->push_front(AudioDeviceName::CreateDefault());

     // Get the unique device name for the device.
     std::unique_ptr<char, base::FreeDeleter> unique_device_name(
         wrapper_->DeviceNameGetHint(*hint_iter, kNameHintName));

     // Find out if the device is available.
     if (IsAlsaDeviceAvailable(type, unique_device_name.get())) {
       // Get the description for the device.
       std::unique_ptr<char, base::FreeDeleter> desc(
           wrapper_->DeviceNameGetHint(*hint_iter, kDescriptionHintName));

       AudioDeviceName name;
       name.unique_id = unique_device_name.get();
       if (desc) {
         // Use the more user friendly description as name.
         // Replace '\n' with '-'.
         char* pret = strchr(desc.get(), '\n');
         if (pret)
           *pret = '-';
         name.device_name = desc.get();
       } else {
         // Virtual devices don't necessarily have descriptions.
         // Use their names instead.
         name.device_name = unique_device_name.get();
       }

       // Store the device information.
       device_names->push_back(name);
     }
   }
 }

 // static
 bool AudioManagerAlsa::IsAlsaDeviceAvailable(
     AudioManagerAlsa::StreamType type,
     const char* device_name) {
   if (!device_name)
     return false;

   // We do prefix matches on the device name to see whether to include
   // it or not.
   if (type == kStreamCapture) {
     // Check if the device is in the list of invalid devices.
     for (size_t i = 0; i < std::size(kInvalidAudioInputDevices); ++i) {
       if (strncmp(kInvalidAudioInputDevices[i], device_name,
                   strlen(kInvalidAudioInputDevices[i])) == 0)
         return false;
     }
     return true;
   }

   DCHECK_EQ(kStreamPlayback, type);
   // We prefer the device type that maps straight to hardware but
   // goes through software conversion if needed (e.g. incompatible
   // sample rate).
   // TODO(joi): Should we prefer "hw" instead?
   static const char kDeviceTypeDesired[] = "plughw";
   return strncmp(kDeviceTypeDesired, device_name,
                  std::size(kDeviceTypeDesired) - 1) == 0;
 }

 // static
 const char* AudioManagerAlsa::UnwantedDeviceTypeWhenEnumerating(
     AudioManagerAlsa::StreamType wanted_type) {
   return wanted_type == kStreamPlayback ? "Input" : "Output";
 }

 bool AudioManagerAlsa::HasAnyAlsaAudioDevice(
     AudioManagerAlsa::StreamType stream) {
   static const char kPcmInterfaceName[] = "pcm";
   static const char kIoHintName[] = "IOID";
   void** hints = NULL;
   bool has_device = false;
   int card = -1;

   // Loop through the sound cards.
   // Don't use snd_device_name_hint(-1,..) since there is an access violation
   // inside this ALSA API with libasound.so.2.0.0.
   while (!wrapper_->CardNext(&card) && (card >= 0) && !has_device) {
     int error = wrapper_->DeviceNameHint(card, kPcmInterfaceName, &hints);
     if (!error) {
       for (void** hint_iter = hints; *hint_iter != NULL; hint_iter++) {
         // Only examine devices that are |stream| capable.  Valid values are
         // "Input", "Output", and NULL which means both input and output.
         std::unique_ptr<char, base::FreeDeleter> io(
             wrapper_->DeviceNameGetHint(*hint_iter, kIoHintName));
         const char* unwanted_type = UnwantedDeviceTypeWhenEnumerating(stream);
         if (io != NULL && strcmp(unwanted_type, io.get()) == 0)
           continue;  // Wrong type, skip the device.

         // Found an input device.
         has_device = true;
         break;
       }

       // Destroy the hints now that we're done with it.
       wrapper_->DeviceNameFreeHint(hints);
       hints = NULL;
     } else {
       DLOG(WARNING) << "HasAnyAudioDevice: unable to get device hints: "
                     << wrapper_->StrError(error);
     }
   }

   return has_device;
 }

 AudioOutputStream* AudioManagerAlsa::MakeLinearOutputStream(
     const AudioParameters& params,
     const LogCallback& log_callback) {
   DCHECK_EQ(AudioParameters::AUDIO_PCM_LINEAR, params.format());
   return MakeOutputStream(params);
 }

 AudioOutputStream* AudioManagerAlsa::MakeLowLatencyOutputStream(
     const AudioParameters& params,
     const std::string& device_id,
     const LogCallback& log_callback) {
   DLOG_IF(ERROR, !device_id.empty()) << "Not implemented!";
   DCHECK_EQ(AudioParameters::AUDIO_PCM_LOW_LATENCY, params.format());
   return MakeOutputStream(params);
 }

 AudioInputStream* AudioManagerAlsa::MakeLinearInputStream(
     const AudioParameters& params,
     const std::string& device_id,
     const LogCallback& log_callback) {
   DCHECK_EQ(AudioParameters::AUDIO_PCM_LINEAR, params.format());
   return MakeInputStream(params, device_id);
 }

 AudioInputStream* AudioManagerAlsa::MakeLowLatencyInputStream(
     const AudioParameters& params,
     const std::string& device_id,
     const LogCallback& log_callback) {
   DCHECK_EQ(AudioParameters::AUDIO_PCM_LOW_LATENCY, params.format());
   return MakeInputStream(params, device_id);
 }

 AudioParameters AudioManagerAlsa::GetPreferredOutputStreamParameters(
     const std::string& output_device_id,
     const AudioParameters& input_params) {
   // TODO(tommi): Support |output_device_id|.
   DLOG_IF(ERROR, !output_device_id.empty()) << "Not implemented!";
   static const int kDefaultOutputBufferSize = 2048;
   ChannelLayoutConfig channel_layout_config = ChannelLayoutConfig::Stereo();
   int sample_rate = kDefaultSampleRate;
   int buffer_size = kDefaultOutputBufferSize;
   if (input_params.IsValid()) {
     // Some clients, such as WebRTC, have a more limited use case and work
     // acceptably with a smaller buffer size.  The check below allows clients
     // which want to try a smaller buffer size on Linux to do so.
     // TODO(dalecurtis): This should include bits per channel and channel layout
     // eventually.
     sample_rate = input_params.sample_rate();
     channel_layout_config = input_params.channel_layout_config();
     buffer_size = std::min(input_params.frames_per_buffer(), buffer_size);
   }

   int user_buffer_size = GetUserBufferSize();
   if (user_buffer_size)
     buffer_size = user_buffer_size;

   return AudioParameters(AudioParameters::AUDIO_PCM_LOW_LATENCY,
                          channel_layout_config, sample_rate, buffer_size);
 }

 AudioOutputStream* AudioManagerAlsa::MakeOutputStream(
     const AudioParameters& params) {
   std::string device_name = AlsaPcmOutputStream::kAutoSelectDevice;
   if (base::CommandLine::ForCurrentProcess()->HasSwitch(
           switches::kAlsaOutputDevice)) {
     device_name = base::CommandLine::ForCurrentProcess()->GetSwitchValueASCII(
         switches::kAlsaOutputDevice);
   }
   return new AlsaPcmOutputStream(device_name, params, wrapper_.get(), this);
 }

 AudioInputStream* AudioManagerAlsa::MakeInputStream(
     const AudioParameters& params, const std::string& device_id) {
   std::string device_name =
       (device_id == AudioDeviceDescription::kDefaultDeviceId)
           ? AlsaPcmInputStream::kAutoSelectDevice
           : device_id;
   if (base::CommandLine::ForCurrentProcess()->HasSwitch(
           switches::kAlsaInputDevice)) {
     device_name = base::CommandLine::ForCurrentProcess()->GetSwitchValueASCII(
         switches::kAlsaInputDevice);
   }

   return new AlsaPcmInputStream(this, device_name, params, wrapper_.get());
 }

 }  // namespace media
	// Copyright 2013 The Chromium Authors
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include "media/audio/alsa/audio_manager_alsa.h"

	#include <stddef.h>

	#include "base/command_line.h"
	#include "base/logging.h"
	#include "base/memory/free_deleter.h"
	#include "base/metrics/histogram.h"
	#include "media/audio/alsa/alsa_input.h"
	#include "media/audio/alsa/alsa_output.h"
	#include "media/audio/alsa/alsa_wrapper.h"
	#include "media/audio/audio_device_description.h"
	#include "media/audio/audio_output_dispatcher.h"
	#if defined(USE_PULSEAUDIO)
	#include "media/audio/pulse/audio_manager_pulse.h"
	#endif
	#include "media/base/audio_parameters.h"
	#include "media/base/channel_layout.h"
	#include "media/base/limits.h"
	#include "media/base/media_switches.h"

	namespace media {

	// Maximum number of output streams that can be open simultaneously.
	static const int kMaxOutputStreams = 50;

	// Default sample rate for input and output streams.
	static const int kDefaultSampleRate = 48000;

	// Since "default", "pulse" and "dmix" devices are virtual devices mapped to
	// real devices, we remove them from the list to avoiding duplicate counting.
	// In addition, note that we support no more than 2 channels for recording,
	// hence surround devices are not stored in the list.
	static const char* const kInvalidAudioInputDevices[] = {
	"default", "dmix", "null", "pulse", "surround",
	};

	AudioManagerAlsa::AudioManagerAlsa(std::unique_ptr<AudioThread> audio_thread,
	AudioLogFactory* audio_log_factory)
	: AudioManagerBase(std::move(audio_thread), audio_log_factory),
	wrapper_(new AlsaWrapper()) {
	SetMaxOutputStreamsAllowed(kMaxOutputStreams);
	}

	AudioManagerAlsa::~AudioManagerAlsa() = default;

	bool AudioManagerAlsa::HasAudioOutputDevices() {
	return HasAnyAlsaAudioDevice(kStreamPlayback);
	}

	bool AudioManagerAlsa::HasAudioInputDevices() {
	return HasAnyAlsaAudioDevice(kStreamCapture);
	}

	void AudioManagerAlsa::GetAudioInputDeviceNames(
	AudioDeviceNames* device_names) {
	DCHECK(device_names->empty());
	GetAlsaAudioDevices(kStreamCapture, device_names);
	}

	void AudioManagerAlsa::GetAudioOutputDeviceNames(
	AudioDeviceNames* device_names) {
	DCHECK(device_names->empty());
	GetAlsaAudioDevices(kStreamPlayback, device_names);
	}

	AudioParameters AudioManagerAlsa::GetInputStreamParameters(
	const std::string& device_id) {
	static const int kDefaultInputBufferSize = 1024;

	return AudioParameters(AudioParameters::AUDIO_PCM_LOW_LATENCY,
	ChannelLayoutConfig::Stereo(), kDefaultSampleRate,
	kDefaultInputBufferSize);
	}

	const char* AudioManagerAlsa::GetName() {
	return "ALSA";
	}

	void AudioManagerAlsa::GetAlsaAudioDevices(StreamType type,
	AudioDeviceNames* device_names) {
	// Constants specified by the ALSA API for device hints.
	static const char kPcmInterfaceName[] = "pcm";
	int card = -1;

	// Loop through the sound cards to get ALSA device hints.
	while (!wrapper_->CardNext(&card) && card >= 0) {
	void** hints = NULL;
	int error = wrapper_->DeviceNameHint(card, kPcmInterfaceName, &hints);
	if (!error) {
	GetAlsaDevicesInfo(type, hints, device_names);

	// Destroy the hints now that we're done with it.
	wrapper_->DeviceNameFreeHint(hints);
	} else {
	DLOG(WARNING) << "GetAlsaAudioDevices: unable to get device hints: "
	<< wrapper_->StrError(error);
	}
	}
	}

	void AudioManagerAlsa::GetAlsaDevicesInfo(AudioManagerAlsa::StreamType type,
	void** hints,
	AudioDeviceNames* device_names) {
	static const char kIoHintName[] = "IOID";
	static const char kNameHintName[] = "NAME";
	static const char kDescriptionHintName[] = "DESC";

	const char* unwanted_device_type = UnwantedDeviceTypeWhenEnumerating(type);

	for (void** hint_iter = hints; *hint_iter != NULL; hint_iter++) {
	// Only examine devices of the right type. Valid values are
	// "Input", "Output", and NULL which means both input and output.
	std::unique_ptr<char, base::FreeDeleter> io(
	wrapper_->DeviceNameGetHint(*hint_iter, kIoHintName));
	if (io != NULL && strcmp(unwanted_device_type, io.get()) == 0)
	continue;

	// Found a device, prepend the default device since we always want
	// it to be on the top of the list for all platforms. And there is
	// no duplicate counting here since it is only done if the list is
	// still empty. Note, pulse has exclusively opened the default
	// device, so we must open the device via the "default" moniker.
	if (device_names->empty())
	device_names->push_front(AudioDeviceName::CreateDefault());

	// Get the unique device name for the device.
	std::unique_ptr<char, base::FreeDeleter> unique_device_name(
	wrapper_->DeviceNameGetHint(*hint_iter, kNameHintName));

	// Find out if the device is available.
	if (IsAlsaDeviceAvailable(type, unique_device_name.get())) {
	// Get the description for the device.
	std::unique_ptr<char, base::FreeDeleter> desc(
	wrapper_->DeviceNameGetHint(*hint_iter, kDescriptionHintName));

	AudioDeviceName name;
	name.unique_id = unique_device_name.get();
	if (desc) {
	// Use the more user friendly description as name.
	// Replace '\n' with '-'.
	char* pret = strchr(desc.get(), '\n');
	if (pret)
	*pret = '-';
	name.device_name = desc.get();
	} else {
	// Virtual devices don't necessarily have descriptions.
	// Use their names instead.
	name.device_name = unique_device_name.get();
	}

	// Store the device information.
	device_names->push_back(name);
	}
	}
	}

	// static
	bool AudioManagerAlsa::IsAlsaDeviceAvailable(
	AudioManagerAlsa::StreamType type,
	const char* device_name) {
	if (!device_name)
	return false;

	// We do prefix matches on the device name to see whether to include
	// it or not.
	if (type == kStreamCapture) {
	// Check if the device is in the list of invalid devices.
	for (size_t i = 0; i < std::size(kInvalidAudioInputDevices); ++i) {
	if (strncmp(kInvalidAudioInputDevices[i], device_name,
	strlen(kInvalidAudioInputDevices[i])) == 0)
	return false;
	}
	return true;
	}

	DCHECK_EQ(kStreamPlayback, type);
	// We prefer the device type that maps straight to hardware but
	// goes through software conversion if needed (e.g. incompatible
	// sample rate).
	// TODO(joi): Should we prefer "hw" instead?
	static const char kDeviceTypeDesired[] = "plughw";
	return strncmp(kDeviceTypeDesired, device_name,
	std::size(kDeviceTypeDesired) - 1) == 0;
	}

	// static
	const char* AudioManagerAlsa::UnwantedDeviceTypeWhenEnumerating(
	AudioManagerAlsa::StreamType wanted_type) {
	return wanted_type == kStreamPlayback ? "Input" : "Output";
	}

	bool AudioManagerAlsa::HasAnyAlsaAudioDevice(
	AudioManagerAlsa::StreamType stream) {
	static const char kPcmInterfaceName[] = "pcm";
	static const char kIoHintName[] = "IOID";
	void** hints = NULL;
	bool has_device = false;
	int card = -1;

	// Loop through the sound cards.
	// Don't use snd_device_name_hint(-1,..) since there is an access violation
	// inside this ALSA API with libasound.so.2.0.0.
	while (!wrapper_->CardNext(&card) && (card >= 0) && !has_device) {
	int error = wrapper_->DeviceNameHint(card, kPcmInterfaceName, &hints);
	if (!error) {
	for (void** hint_iter = hints; *hint_iter != NULL; hint_iter++) {
	// Only examine devices that are \|stream\| capable. Valid values are
	// "Input", "Output", and NULL which means both input and output.
	std::unique_ptr<char, base::FreeDeleter> io(
	wrapper_->DeviceNameGetHint(*hint_iter, kIoHintName));
	const char* unwanted_type = UnwantedDeviceTypeWhenEnumerating(stream);
	if (io != NULL && strcmp(unwanted_type, io.get()) == 0)
	continue; // Wrong type, skip the device.

	// Found an input device.
	has_device = true;
	break;
	}

	// Destroy the hints now that we're done with it.
	wrapper_->DeviceNameFreeHint(hints);
	hints = NULL;
	} else {
	DLOG(WARNING) << "HasAnyAudioDevice: unable to get device hints: "
	<< wrapper_->StrError(error);
	}
	}

	return has_device;
	}

	AudioOutputStream* AudioManagerAlsa::MakeLinearOutputStream(
	const AudioParameters& params,
	const LogCallback& log_callback) {
	DCHECK_EQ(AudioParameters::AUDIO_PCM_LINEAR, params.format());
	return MakeOutputStream(params);
	}

	AudioOutputStream* AudioManagerAlsa::MakeLowLatencyOutputStream(
	const AudioParameters& params,
	const std::string& device_id,
	const LogCallback& log_callback) {
	DLOG_IF(ERROR, !device_id.empty()) << "Not implemented!";
	DCHECK_EQ(AudioParameters::AUDIO_PCM_LOW_LATENCY, params.format());
	return MakeOutputStream(params);
	}

	AudioInputStream* AudioManagerAlsa::MakeLinearInputStream(
	const AudioParameters& params,
	const std::string& device_id,
	const LogCallback& log_callback) {
	DCHECK_EQ(AudioParameters::AUDIO_PCM_LINEAR, params.format());
	return MakeInputStream(params, device_id);
	}

	AudioInputStream* AudioManagerAlsa::MakeLowLatencyInputStream(
	const AudioParameters& params,
	const std::string& device_id,
	const LogCallback& log_callback) {
	DCHECK_EQ(AudioParameters::AUDIO_PCM_LOW_LATENCY, params.format());
	return MakeInputStream(params, device_id);
	}

	AudioParameters AudioManagerAlsa::GetPreferredOutputStreamParameters(
	const std::string& output_device_id,
	const AudioParameters& input_params) {
	// TODO(tommi): Support \|output_device_id\|.
	DLOG_IF(ERROR, !output_device_id.empty()) << "Not implemented!";
	static const int kDefaultOutputBufferSize = 2048;
	ChannelLayoutConfig channel_layout_config = ChannelLayoutConfig::Stereo();
	int sample_rate = kDefaultSampleRate;
	int buffer_size = kDefaultOutputBufferSize;
	if (input_params.IsValid()) {
	// Some clients, such as WebRTC, have a more limited use case and work
	// acceptably with a smaller buffer size. The check below allows clients
	// which want to try a smaller buffer size on Linux to do so.
	// TODO(dalecurtis): This should include bits per channel and channel layout
	// eventually.
	sample_rate = input_params.sample_rate();
	channel_layout_config = input_params.channel_layout_config();
	buffer_size = std::min(input_params.frames_per_buffer(), buffer_size);
	}

	int user_buffer_size = GetUserBufferSize();
	if (user_buffer_size)
	buffer_size = user_buffer_size;

	return AudioParameters(AudioParameters::AUDIO_PCM_LOW_LATENCY,
	channel_layout_config, sample_rate, buffer_size);
	}

	AudioOutputStream* AudioManagerAlsa::MakeOutputStream(
	const AudioParameters& params) {
	std::string device_name = AlsaPcmOutputStream::kAutoSelectDevice;
	if (base::CommandLine::ForCurrentProcess()->HasSwitch(
	switches::kAlsaOutputDevice)) {
	device_name = base::CommandLine::ForCurrentProcess()->GetSwitchValueASCII(
	switches::kAlsaOutputDevice);
	}
	return new AlsaPcmOutputStream(device_name, params, wrapper_.get(), this);
	}

	AudioInputStream* AudioManagerAlsa::MakeInputStream(
	const AudioParameters& params, const std::string& device_id) {
	std::string device_name =
	(device_id == AudioDeviceDescription::kDefaultDeviceId)
	? AlsaPcmInputStream::kAutoSelectDevice
	: device_id;
	if (base::CommandLine::ForCurrentProcess()->HasSwitch(
	switches::kAlsaInputDevice)) {
	device_name = base::CommandLine::ForCurrentProcess()->GetSwitchValueASCII(
	switches::kAlsaInputDevice);
	}

	return new AlsaPcmInputStream(this, device_name, params, wrapper_.get());
	}

	} // namespace media