sdk/objc/components/audio/RTCAudioSessionConfiguration.m - src - Git at Google

 /*
  *  Copyright 2016 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.
  */

 #import "RTCAudioSessionConfiguration.h"
 #import "RTCAudioSession.h"

 #import "helpers/RTCDispatcher.h"
 #import "helpers/UIDevice+RTCDevice.h"

 // Try to use mono to save resources. Also avoids channel format conversion
 // in the I/O audio unit. Initial tests have shown that it is possible to use
 // mono natively for built-in microphones and for BT headsets but not for
 // wired headsets. Wired headsets only support stereo as native channel format
 // but it is a low cost operation to do a format conversion to mono in the
 // audio unit. Hence, we will not hit a RTC_CHECK in
 // VerifyAudioParametersForActiveAudioSession() for a mismatch between the
 // preferred number of channels and the actual number of channels.
 const int kRTCAudioSessionPreferredNumberOfChannels = 1;

 // Preferred hardware sample rate (unit is in Hertz). The client sample rate
 // will be set to this value as well to avoid resampling the the audio unit's
 // format converter. Note that, some devices, e.g. BT headsets, only supports
 // 8000Hz as native sample rate.
 const double kRTCAudioSessionHighPerformanceSampleRate = 48000.0;

 // Use a hardware I/O buffer size (unit is in seconds) that matches the 10ms
 // size used by WebRTC. The exact actual size will differ between devices.
 // Example: using 48kHz on iPhone 6 results in a native buffer size of
 // ~10.6667ms or 512 audio frames per buffer. The FineAudioBuffer instance will
 // take care of any buffering required to convert between native buffers and
 // buffers used by WebRTC. It is beneficial for the performance if the native
 // size is as an even multiple of 10ms as possible since it results in "clean"
 // callback sequence without bursts of callbacks back to back.
 const double kRTCAudioSessionHighPerformanceIOBufferDuration = 0.02;

 static RTC_OBJC_TYPE(RTCAudioSessionConfiguration) *gWebRTCConfiguration = nil;

 @implementation RTC_OBJC_TYPE (RTCAudioSessionConfiguration)

 @synthesize category = _category;
 @synthesize categoryOptions = _categoryOptions;
 @synthesize mode = _mode;
 @synthesize sampleRate = _sampleRate;
 @synthesize ioBufferDuration = _ioBufferDuration;
 @synthesize inputNumberOfChannels = _inputNumberOfChannels;
 @synthesize outputNumberOfChannels = _outputNumberOfChannels;

 - (instancetype)init {
   if (self = [super init]) {
     // Use a category which supports simultaneous recording and playback.
     // By default, using this category implies that our app’s audio is
     // nonmixable, hence activating the session will interrupt any other
     // audio sessions which are also nonmixable.
     _category = AVAudioSessionCategoryPlayAndRecord;
     _categoryOptions = AVAudioSessionCategoryOptionAllowBluetooth;

     // Specify mode for two-way voice communication (e.g. VoIP).
     _mode = AVAudioSessionModeVoiceChat;

     // Use best sample rate and buffer duration if the CPU has more than one
     // core.
     _sampleRate = kRTCAudioSessionHighPerformanceSampleRate;
     _ioBufferDuration = kRTCAudioSessionHighPerformanceIOBufferDuration;

     // We try to use mono in both directions to save resources and format
     // conversions in the audio unit. Some devices does only support stereo;
     // e.g. wired headset on iPhone 6.
     // TODO(henrika): add support for stereo if needed.
     _inputNumberOfChannels = kRTCAudioSessionPreferredNumberOfChannels;
     _outputNumberOfChannels = kRTCAudioSessionPreferredNumberOfChannels;
   }
   return self;
 }

 + (void)initialize {
   gWebRTCConfiguration = [[self alloc] init];
 }

 + (instancetype)currentConfiguration {
   RTC_OBJC_TYPE(RTCAudioSession) *session = [RTC_OBJC_TYPE(RTCAudioSession) sharedInstance];
   RTC_OBJC_TYPE(RTCAudioSessionConfiguration) *config =
       [[RTC_OBJC_TYPE(RTCAudioSessionConfiguration) alloc] init];
   config.category = session.category;
   config.categoryOptions = session.categoryOptions;
   config.mode = session.mode;
   config.sampleRate = session.sampleRate;
   config.ioBufferDuration = session.IOBufferDuration;
   config.inputNumberOfChannels = session.inputNumberOfChannels;
   config.outputNumberOfChannels = session.outputNumberOfChannels;
   return config;
 }

 + (instancetype)webRTCConfiguration {
   @synchronized(self) {
     return (RTC_OBJC_TYPE(RTCAudioSessionConfiguration) *)gWebRTCConfiguration;
   }
 }

 + (void)setWebRTCConfiguration:(RTC_OBJC_TYPE(RTCAudioSessionConfiguration) *)configuration {
   @synchronized(self) {
     gWebRTCConfiguration = configuration;
   }
 }

 @end
	/*
	* Copyright 2016 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.
	*/

	#import "RTCAudioSessionConfiguration.h"
	#import "RTCAudioSession.h"

	#import "helpers/RTCDispatcher.h"
	#import "helpers/UIDevice+RTCDevice.h"

	// Try to use mono to save resources. Also avoids channel format conversion
	// in the I/O audio unit. Initial tests have shown that it is possible to use
	// mono natively for built-in microphones and for BT headsets but not for
	// wired headsets. Wired headsets only support stereo as native channel format
	// but it is a low cost operation to do a format conversion to mono in the
	// audio unit. Hence, we will not hit a RTC_CHECK in
	// VerifyAudioParametersForActiveAudioSession() for a mismatch between the
	// preferred number of channels and the actual number of channels.
	const int kRTCAudioSessionPreferredNumberOfChannels = 1;

	// Preferred hardware sample rate (unit is in Hertz). The client sample rate
	// will be set to this value as well to avoid resampling the the audio unit's
	// format converter. Note that, some devices, e.g. BT headsets, only supports
	// 8000Hz as native sample rate.
	const double kRTCAudioSessionHighPerformanceSampleRate = 48000.0;

	// Use a hardware I/O buffer size (unit is in seconds) that matches the 10ms
	// size used by WebRTC. The exact actual size will differ between devices.
	// Example: using 48kHz on iPhone 6 results in a native buffer size of
	// ~10.6667ms or 512 audio frames per buffer. The FineAudioBuffer instance will
	// take care of any buffering required to convert between native buffers and
	// buffers used by WebRTC. It is beneficial for the performance if the native
	// size is as an even multiple of 10ms as possible since it results in "clean"
	// callback sequence without bursts of callbacks back to back.
	const double kRTCAudioSessionHighPerformanceIOBufferDuration = 0.02;

	static RTC_OBJC_TYPE(RTCAudioSessionConfiguration) *gWebRTCConfiguration = nil;

	@implementation RTC_OBJC_TYPE (RTCAudioSessionConfiguration)

	@synthesize category = _category;
	@synthesize categoryOptions = _categoryOptions;
	@synthesize mode = _mode;
	@synthesize sampleRate = _sampleRate;
	@synthesize ioBufferDuration = _ioBufferDuration;
	@synthesize inputNumberOfChannels = _inputNumberOfChannels;
	@synthesize outputNumberOfChannels = _outputNumberOfChannels;

	- (instancetype)init {
	if (self = [super init]) {
	// Use a category which supports simultaneous recording and playback.
	// By default, using this category implies that our app’s audio is
	// nonmixable, hence activating the session will interrupt any other
	// audio sessions which are also nonmixable.
	_category = AVAudioSessionCategoryPlayAndRecord;
	_categoryOptions = AVAudioSessionCategoryOptionAllowBluetooth;

	// Specify mode for two-way voice communication (e.g. VoIP).
	_mode = AVAudioSessionModeVoiceChat;

	// Use best sample rate and buffer duration if the CPU has more than one
	// core.
	_sampleRate = kRTCAudioSessionHighPerformanceSampleRate;
	_ioBufferDuration = kRTCAudioSessionHighPerformanceIOBufferDuration;

	// We try to use mono in both directions to save resources and format
	// conversions in the audio unit. Some devices does only support stereo;
	// e.g. wired headset on iPhone 6.
	// TODO(henrika): add support for stereo if needed.
	_inputNumberOfChannels = kRTCAudioSessionPreferredNumberOfChannels;
	_outputNumberOfChannels = kRTCAudioSessionPreferredNumberOfChannels;
	}
	return self;
	}

	+ (void)initialize {
	gWebRTCConfiguration = [[self alloc] init];
	}

	+ (instancetype)currentConfiguration {
	RTC_OBJC_TYPE(RTCAudioSession) *session = [RTC_OBJC_TYPE(RTCAudioSession) sharedInstance];
	RTC_OBJC_TYPE(RTCAudioSessionConfiguration) *config =
	[[RTC_OBJC_TYPE(RTCAudioSessionConfiguration) alloc] init];
	config.category = session.category;
	config.categoryOptions = session.categoryOptions;
	config.mode = session.mode;
	config.sampleRate = session.sampleRate;
	config.ioBufferDuration = session.IOBufferDuration;
	config.inputNumberOfChannels = session.inputNumberOfChannels;
	config.outputNumberOfChannels = session.outputNumberOfChannels;
	return config;
	}

	+ (instancetype)webRTCConfiguration {
	@synchronized(self) {
	return (RTC_OBJC_TYPE(RTCAudioSessionConfiguration) *)gWebRTCConfiguration;
	}
	}

	+ (void)setWebRTCConfiguration:(RTC_OBJC_TYPE(RTCAudioSessionConfiguration) *)configuration {
	@synchronized(self) {
	gWebRTCConfiguration = configuration;
	}
	}

	@end