/**************************************************************************** Copyright (c) 2014-2016 Chukong Technologies Inc. Copyright (c) 2017-2018 Xiamen Yaji Software Co., Ltd. Copyright (c) 2018-2020 HALX99. Copyright (c) 2021-2023 Bytedance Inc. https://axmolengine.github.io/ Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. ****************************************************************************/ #define LOG_TAG "AudioEngineImpl" #include "platform/PlatformConfig.h" #include "audio/AudioEngineImpl.h" #include "audio/AudioDecoderManager.h" #if AX_TARGET_PLATFORM == AX_PLATFORM_IOS || AX_TARGET_PLATFORM == AX_PLATFORM_MAC # import #endif #include "audio/AudioEngine.h" #include "platform/FileUtils.h" #include "base/Director.h" #include "base/Scheduler.h" #include "base/Utils.h" #if AX_USE_ALSOFT # include "alc/inprogext.h" #endif #if AX_TARGET_PLATFORM == AX_PLATFORM_IOS # import #endif static ALCdevice* s_ALDevice = nullptr; static ALCcontext* s_ALContext = nullptr; static ax::AudioEngineImpl* s_instance = nullptr; static void ccALPauseDevice() { ALOGD("%s", "===> ccALPauseDevice"); #if AX_USE_ALSOFT alcDevicePauseSOFT(s_ALDevice); #else if (alcGetCurrentContext()) alcMakeContextCurrent(nullptr); #endif } static void ccALResumeDevice() { ALOGD("%s", "===> ccALResumeDevice"); #if AX_USE_ALSOFT alcDeviceResumeSOFT(s_ALDevice); #else if (alcGetCurrentContext()) alcMakeContextCurrent(nullptr); alcMakeContextCurrent(s_ALContext); #endif } #if AX_TARGET_PLATFORM == AX_PLATFORM_IOS # if TARGET_OS_SIMULATOR # define AVAUDIOSESSION_DEFAULT_CATEGORY \ AVAudioSessionCategoryPlayback // Fix can't hear sound in ios simulator 16.0 # else # define AVAUDIOSESSION_DEFAULT_CATEGORY AVAudioSessionCategoryAmbient # endif @interface AudioEngineSessionHandler : NSObject { } - (id)init; - (void)handleInterruption:(NSNotification*)notification; @end @implementation AudioEngineSessionHandler - (id)init { if (self = [super init]) { int deviceVer = [[[UIDevice currentDevice] systemVersion] intValue]; ALOGD("===> The device version: %d", deviceVer); [[NSNotificationCenter defaultCenter] addObserver:self selector:@selector(handleInterruption:) name:AVAudioSessionInterruptionNotification object:[AVAudioSession sharedInstance]]; // Fix handphone plugin/unplugin sound session pasued problem [[NSNotificationCenter defaultCenter] addObserver:self selector:@selector(handleInterruption:) name:AVAudioSessionRouteChangeNotification object:[AVAudioSession sharedInstance]]; [[NSNotificationCenter defaultCenter] addObserver:self selector:@selector(handleInterruption:) name:UIApplicationDidBecomeActiveNotification object:nil]; [[NSNotificationCenter defaultCenter] addObserver:self selector:@selector(handleInterruption:) name:UIApplicationWillResignActiveNotification object:nil]; BOOL success = [[AVAudioSession sharedInstance] setCategory:AVAUDIOSESSION_DEFAULT_CATEGORY error:nil]; if (!success) ALOGE("Fail to set audio session."); } return self; } - (void)handleInterruption:(NSNotification*)notification { static bool isAudioSessionInterrupted = false; static bool resumeOnBecomingActive = false; static bool pauseOnResignActive = false; if ([notification.name isEqualToString:AVAudioSessionInterruptionNotification]) { NSInteger reason = [[[notification userInfo] objectForKey:AVAudioSessionInterruptionTypeKey] integerValue]; if (reason == AVAudioSessionInterruptionTypeBegan) { isAudioSessionInterrupted = true; if ([UIApplication sharedApplication].applicationState != UIApplicationStateActive) { ALOGD( "AVAudioSessionInterruptionTypeBegan, application != UIApplicationStateActive, " "alcMakeContextCurrent(nullptr)"); } else { ALOGD( "AVAudioSessionInterruptionTypeBegan, application == UIApplicationStateActive, " "pauseOnResignActive = true"); } // We always pause device when interruption began ccALPauseDevice(); } else if (reason == AVAudioSessionInterruptionTypeEnded) { isAudioSessionInterrupted = false; if ([UIApplication sharedApplication].applicationState == UIApplicationStateActive) { ALOGD( "AVAudioSessionInterruptionTypeEnded, application == UIApplicationStateActive, " "alcMakeContextCurrent(s_ALContext)"); NSError* error = nil; [[AVAudioSession sharedInstance] setActive:YES error:&error]; ccALResumeDevice(); if (ax::Director::getInstance()->isPaused()) { ALOGD("AVAudioSessionInterruptionTypeEnded, director was paused, try to resume it."); ax::Director::getInstance()->resume(); } } else { ALOGD( "AVAudioSessionInterruptionTypeEnded, application != UIApplicationStateActive, " "resumeOnBecomingActive = true"); resumeOnBecomingActive = true; } } } else if ([notification.name isEqualToString:UIApplicationWillResignActiveNotification]) { ALOGD("UIApplicationWillResignActiveNotification"); if (pauseOnResignActive) { pauseOnResignActive = false; ALOGD("UIApplicationWillResignActiveNotification, alcMakeContextCurrent(nullptr)"); ccALPauseDevice(); } } else if ([notification.name isEqualToString:UIApplicationDidBecomeActiveNotification]) { ALOGD("UIApplicationDidBecomeActiveNotification"); if (resumeOnBecomingActive) { resumeOnBecomingActive = false; ALOGD("UIApplicationDidBecomeActiveNotification, alcMakeContextCurrent(s_ALContext)"); NSError* error = nil; BOOL success = [[AVAudioSession sharedInstance] setCategory:AVAUDIOSESSION_DEFAULT_CATEGORY error:&error]; if (!success) { ALOGE("Fail to set audio session."); return; } [[AVAudioSession sharedInstance] setActive:YES error:&error]; ccALResumeDevice(); } else if (isAudioSessionInterrupted) { ALOGD("Audio session is still interrupted!"); } } else if ([notification.name isEqualToString:AVAudioSessionRouteChangeNotification]) { // replay ccALPauseDevice(); ccALResumeDevice(); } } - (void)dealloc { [[NSNotificationCenter defaultCenter] removeObserver:self name:AVAudioSessionInterruptionNotification object:nil]; [[NSNotificationCenter defaultCenter] removeObserver:self name:AVAudioSessionRouteChangeNotification object:nil]; [[NSNotificationCenter defaultCenter] removeObserver:self name:UIApplicationDidBecomeActiveNotification object:nil]; [[NSNotificationCenter defaultCenter] removeObserver:self name:UIApplicationWillResignActiveNotification object:nil]; [super dealloc]; } @end static id s_AudioEngineSessionHandler = nullptr; #endif #if AX_USE_ALSOFT # if !defined(AL_API_NOEXCEPT17) # define AL_API_NOEXCEPT17 # endif static void alcReopenDeviceOnAxmolThread() { ax::Director::getInstance()->queueOperation([](void*) { auto alcReopenDeviceSOFTProc = (decltype(alcReopenDeviceSOFT)*)alcGetProcAddress(s_ALDevice, "alcReopenDeviceSOFT"); if (alcReopenDeviceSOFTProc) alcReopenDeviceSOFTProc(s_ALDevice, nullptr, nullptr); }); } # if defined(ALC_SOFT_system_events) && (defined(_WIN32) || AX_TARGET_PLATFORM == AX_PLATFORM_MAC) # define _AX_USE_ALC_EVENTS 1 static void ALC_APIENTRY _onALCEvent(ALCenum eventType, ALCenum deviceType, ALCdevice* device, ALCsizei length, const ALCchar* message, void* userParam) AL_API_NOEXCEPT17 { if (eventType == ALC_EVENT_TYPE_DEFAULT_DEVICE_CHANGED_SOFT) alcReopenDeviceOnAxmolThread(); } # endif static void AL_APIENTRY _onALEvent(ALenum eventType, ALuint object, ALuint param, ALsizei length, const ALchar* message, void* userParam) AL_API_NOEXCEPT17 { if (eventType == AL_EVENT_TYPE_DISCONNECTED_SOFT) alcReopenDeviceOnAxmolThread(); } #endif #if defined(__APPLE__) && !AX_USE_ALSOFT typedef ALvoid (*alSourceNotificationProc)(ALuint sid, ALuint notificationID, ALvoid* userData); typedef ALenum (*alSourceAddNotificationProcPtr)(ALuint sid, ALuint notificationID, alSourceNotificationProc notifyProc, ALvoid* userData); static ALenum alSourceAddNotificationExt(ALuint sid, ALuint notificationID, alSourceNotificationProc notifyProc, ALvoid* userData) { static alSourceAddNotificationProcPtr proc = nullptr; if (proc == nullptr) { proc = (alSourceAddNotificationProcPtr)alcGetProcAddress(nullptr, "alSourceAddNotification"); } if (proc) { return proc(sid, notificationID, notifyProc, userData); } return AL_INVALID_VALUE; } ALvoid ax::AudioEngineImpl::myAlSourceNotificationCallback(ALuint sid, ALuint notificationID, ALvoid* userData) { // Currently, we only care about AL_BUFFERS_PROCESSED event if (notificationID != AL_BUFFERS_PROCESSED) return; AudioPlayer* player = nullptr; s_instance->_threadMutex.lock(); for (const auto& e : s_instance->_audioPlayers) { player = e.second; if (player->_alSource == sid && player->_streamingSource) { player->wakeupRotateThread(); } } s_instance->_threadMutex.unlock(); } #endif NS_AX_BEGIN AudioEngineImpl::AudioEngineImpl() : _scheduled(false), _currentAudioID(0), _scheduler(nullptr) { s_instance = this; } AudioEngineImpl::~AudioEngineImpl() { if (_scheduled && _scheduler != nullptr) { _scheduler->unschedule(AX_SCHEDULE_SELECTOR(AudioEngineImpl::update), this); } if (s_ALContext) { alDeleteSources(MAX_AUDIOINSTANCES, _alSources); _audioCaches.clear(); alcMakeContextCurrent(nullptr); alcDestroyContext(s_ALContext); s_ALContext = nullptr; } if (s_ALDevice) { alcCloseDevice(s_ALDevice); s_ALDevice = nullptr; } AudioDecoderManager::destroy(); #if AX_TARGET_PLATFORM == AX_PLATFORM_IOS [s_AudioEngineSessionHandler release]; #endif s_instance = nullptr; } bool AudioEngineImpl::init() { bool ret = false; do { #if AX_TARGET_PLATFORM == AX_PLATFORM_IOS s_AudioEngineSessionHandler = [[AudioEngineSessionHandler alloc] init]; #endif s_ALDevice = alcOpenDevice(nullptr); if (s_ALDevice) { s_ALContext = alcCreateContext(s_ALDevice, nullptr); alcMakeContextCurrent(s_ALContext); alGenSources(MAX_AUDIOINSTANCES, _alSources); auto alError = alGetError(); if (alError != AL_NO_ERROR) { ALOGE("%s:generating sources failed! error = %x\n", __FUNCTION__, alError); break; } for (int i = 0; i < MAX_AUDIOINSTANCES; ++i) { _unusedSourcesPool.push(_alSources[i]); #if defined(__APPLE__) && !AX_USE_ALSOFT alSourceAddNotificationExt(_alSources[i], AL_BUFFERS_PROCESSED, myAlSourceNotificationCallback, nullptr); #endif } // fixed #16170: Random crash in alGenBuffers(AudioCache::readDataTask) at startup // Please note that, as we know the OpenAL operation is atomic (threadsafe), // 'alGenBuffers' may be invoked by different threads. But in current implementation of 'alGenBuffers', // When the first time it's invoked, application may crash!!! // Why? OpenAL is opensource by Apple and could be found at // http://opensource.apple.com/source/OpenAL/OpenAL-48.7/Source/OpenAL/oalImp.cpp . /* void InitializeBufferMap() { if (gOALBufferMap == NULL) // Position 1 { gOALBufferMap = new OALBufferMap (); // Position 2 // Position Gap gBufferMapLock = new CAGuard("OAL:BufferMapLock"); // Position 3 gDeadOALBufferMap = new OALBufferMap (); OALBuffer *newBuffer = new OALBuffer (AL_NONE); gOALBufferMap->Add(AL_NONE, &newBuffer); } } AL_API ALvoid AL_APIENTRY alGenBuffers(ALsizei n, ALuint *bids) { ... try { if (n < 0) throw ((OSStatus) AL_INVALID_VALUE); InitializeBufferMap(); if (gOALBufferMap == NULL) throw ((OSStatus) AL_INVALID_OPERATION); CAGuard::Locker locked(*gBufferMapLock); // Position 4 ... ... } */ // 'gBufferMapLock' will be initialized in the 'InitializeBufferMap' function, // that's the problem. It means that 'InitializeBufferMap' may be invoked in different threads. // It will be very dangerous in multi-threads environment. // Imagine there're two threads (Thread A, Thread B), they call 'alGenBuffers' simultaneously. // While A goto 'Position Gap', 'gOALBufferMap' was assigned, then B goto 'Position 1' and find // that 'gOALBufferMap' isn't NULL, B just jump over 'InitialBufferMap' and goto 'Position 4'. // Meanwhile, A is still at 'Position Gap', B will crash at '*gBufferMapLock' since 'gBufferMapLock' // is still a null pointer. Oops, how could Apple implemented this method in this fucking way? // Workaround is do an unused invocation in the mainthread right after OpenAL is initialized successfully // as bellow. // ================ Workaround begin ================ // #if !AX_USE_ALSOFT ALuint unusedAlBufferId = 0; alGenBuffers(1, &unusedAlBufferId); alDeleteBuffers(1, &unusedAlBufferId); #endif // ================ Workaround end ================ // _scheduler = Director::getInstance()->getScheduler(); ret = AudioDecoderManager::init(); const char* vender = alGetString(AL_VENDOR); const char* version = alGetString(AL_VERSION); #if AX_USE_ALSOFT # if defined(_AX_USE_ALC_EVENTS) auto alcEventControlSOFTProc = (decltype(alcEventControlSOFT)*)alGetProcAddress("alcEventControlSOFT"); auto alcEventCallbackSOFTProc = (decltype(alcEventCallbackSOFT)*)alGetProcAddress("alcEventCallbackSOFT"); if (alcEventControlSOFTProc && alcEventCallbackSOFTProc) { // Enable receiving disconnection events ALenum event = ALC_EVENT_TYPE_DEFAULT_DEVICE_CHANGED_SOFT; alcEventControlSOFTProc(1, &event, AL_TRUE); // Set callback alcEventCallbackSOFTProc(_onALCEvent, this); } # else auto alEventControlSOFTProc = (LPALEVENTCONTROLSOFT)alGetProcAddress("alEventControlSOFT"); auto alEventCallbackSOFTProc = (LPALEVENTCALLBACKSOFT)alGetProcAddress("alEventCallbackSOFT"); if (alEventControlSOFTProc && alEventCallbackSOFTProc) { // Enable receiving disconnection events ALenum event = AL_EVENT_TYPE_DISCONNECTED_SOFT; alEventControlSOFTProc(1, &event, AL_TRUE); // Set callback alEventCallbackSOFTProc(_onALEvent, this); } # endif alDisable(AL_STOP_SOURCES_ON_DISCONNECT_SOFT); #endif ALOGI("OpenAL was initialized successfully, vender:%s, version:%s", vender, version); } } while (false); return ret; } AudioCache* AudioEngineImpl::preload(std::string_view filePath, std::function callback) { AudioCache* audioCache = nullptr; auto it = _audioCaches.find(filePath); if (it == _audioCaches.end()) { audioCache = new AudioCache(); // hlookup_second(it); _audioCaches.emplace(filePath, std::unique_ptr(audioCache)); audioCache->_fileFullPath = FileUtils::getInstance()->fullPathForFilename(filePath); unsigned int cacheId = audioCache->_id; auto isCacheDestroyed = audioCache->_isDestroyed; AudioEngine::addTask([audioCache, cacheId, isCacheDestroyed]() { if (*isCacheDestroyed) { ALOGV("AudioCache (id=%u) was destroyed, no need to launch readDataTask.", cacheId); audioCache->setSkipReadDataTask(true); return; } audioCache->readDataTask(cacheId); }); } else { audioCache = it->second.get(); } if (audioCache && callback) { audioCache->addLoadCallback(callback); } return audioCache; } AUDIO_ID AudioEngineImpl::play2d(std::string_view filePath, bool loop, float volume, float time) { if (s_ALDevice == nullptr) { return AudioEngine::INVALID_AUDIO_ID; } ALuint alSource = findValidSource(); if (alSource == AL_INVALID) { return AudioEngine::INVALID_AUDIO_ID; } auto player = new AudioPlayer; if (player == nullptr) { return AudioEngine::INVALID_AUDIO_ID; } player->_alSource = alSource; player->_loop = loop; player->_volume = volume; if (time > 0.0f) { player->_currTime = time; player->_timeDirty = true; } auto audioCache = preload(filePath, nullptr); if (audioCache == nullptr) { delete player; return AudioEngine::INVALID_AUDIO_ID; } player->setCache(audioCache); _threadMutex.lock(); _audioPlayers.emplace(++_currentAudioID, player); _threadMutex.unlock(); audioCache->addPlayCallback(std::bind(&AudioEngineImpl::_play2d, this, audioCache, _currentAudioID)); if (!_scheduled) { _scheduled = true; _scheduler->schedule(AX_SCHEDULE_SELECTOR(AudioEngineImpl::update), this, 0.05f, false); } return _currentAudioID; } void AudioEngineImpl::_play2d(AudioCache* cache, AUDIO_ID audioID) { std::unique_lock lck(_threadMutex); auto iter = _audioPlayers.find(audioID); if (iter == _audioPlayers.end()) return; auto player = iter->second; // Note: It maybe in sub thread or main thread :( if (!*cache->_isDestroyed && cache->_state == AudioCache::State::READY) { if (player->play2d()) { _scheduler->runOnAxmolThread([audioID]() { if (AudioEngine::_audioIDInfoMap.find(audioID) != AudioEngine::_audioIDInfoMap.end()) { AudioEngine::_audioIDInfoMap[audioID].state = AudioEngine::AudioState::PLAYING; } }); } } else { ALOGD("AudioEngineImpl::_play2d, cache was destroyed or not ready!"); player->_removeByAudioEngine = true; } } ALuint AudioEngineImpl::findValidSource() { ALuint sourceId = AL_INVALID; if (!_unusedSourcesPool.empty()) { sourceId = _unusedSourcesPool.front(); _unusedSourcesPool.pop(); } return sourceId; } void AudioEngineImpl::setVolume(AUDIO_ID audioID, float volume) { std::unique_lock lck(_threadMutex); auto iter = _audioPlayers.find(audioID); if (iter == _audioPlayers.end()) return; auto player = iter->second; lck.unlock(); player->_volume = volume; if (player->_ready) { alSourcef(player->_alSource, AL_GAIN, volume); auto error = alGetError(); if (error != AL_NO_ERROR) { ALOGE("%s: audio id = " AUDIO_ID_PRID ", error = %x", __FUNCTION__, audioID, error); } } } void AudioEngineImpl::setLoop(AUDIO_ID audioID, bool loop) { std::unique_lock lck(_threadMutex); auto iter = _audioPlayers.find(audioID); if (iter == _audioPlayers.end()) return; auto player = iter->second; lck.unlock(); if (player->_ready) { if (player->_streamingSource) { player->setLoop(loop); } else { if (loop) { alSourcei(player->_alSource, AL_LOOPING, AL_TRUE); } else { alSourcei(player->_alSource, AL_LOOPING, AL_FALSE); } auto error = alGetError(); if (error != AL_NO_ERROR) { ALOGE("%s: audio id = " AUDIO_ID_PRID ", error = %x", __FUNCTION__, audioID, error); } } } else { player->_loop = loop; } } bool AudioEngineImpl::pause(AUDIO_ID audioID) { std::unique_lock lck(_threadMutex); auto iter = _audioPlayers.find(audioID); if (iter == _audioPlayers.end()) return false; auto player = iter->second; lck.unlock(); bool ret = true; alSourcePause(player->_alSource); auto error = alGetError(); if (error != AL_NO_ERROR) { ret = false; ALOGE("%s: audio id = " AUDIO_ID_PRID ", error = %x\n", __FUNCTION__, audioID, error); } return ret; } bool AudioEngineImpl::resume(AUDIO_ID audioID) { bool ret = true; std::unique_lock lck(_threadMutex); auto iter = _audioPlayers.find(audioID); if (iter == _audioPlayers.end()) return false; auto player = iter->second; lck.unlock(); alSourcePlay(player->_alSource); auto error = alGetError(); if (error != AL_NO_ERROR) { ret = false; ALOGE("%s: audio id = " AUDIO_ID_PRID ", error = %x\n", __FUNCTION__, audioID, error); } return ret; } void AudioEngineImpl::stop(AUDIO_ID audioID) { std::unique_lock lck(_threadMutex); auto iter = _audioPlayers.find(audioID); if (iter == _audioPlayers.end()) return; auto player = iter->second; player->destroy(); // Call '_updatePlayersState' method to cleanup immediately since the schedule may be cancelled without any // notification. _updatePlayers(true); } void AudioEngineImpl::stopAll() { std::lock_guard lck(_threadMutex); for (auto&& player : _audioPlayers) { player.second->destroy(); } // Note: Don't set the flag to false here, it should be set in 'update' function. // Otherwise, the state got from alSourceState may be wrong // for(int index = 0; index < MAX_AUDIOINSTANCES; ++index) // { // _alSourceUsed[_alSources[index]] = false; // } // Call '_updatePlayers' method to cleanup immediately since the schedule may be cancelled without any notification. _updatePlayers(true); } float AudioEngineImpl::getDuration(AUDIO_ID audioID) { std::lock_guard lck(_threadMutex); auto it = _audioPlayers.find(audioID); if (it != _audioPlayers.end()) { auto player = it->second; if (player->_ready) { return player->_audioCache->_duration; } } return AudioEngine::TIME_UNKNOWN; } float AudioEngineImpl::getCurrentTime(AUDIO_ID audioID) { std::unique_lock lck(_threadMutex); auto it = _audioPlayers.find(audioID); if (it == _audioPlayers.end()) return 0.0f; float ret = 0.0f; auto player = it->second; if (player->_ready) { if (player->_streamingSource) { ret = player->getTime(); } else { alGetSourcef(player->_alSource, AL_SEC_OFFSET, &ret); auto error = alGetError(); if (error != AL_NO_ERROR) { ALOGE("%s, audio id:" AUDIO_ID_PRID ",error code:%x", __FUNCTION__, audioID, error); } } } return ret; } bool AudioEngineImpl::setCurrentTime(AUDIO_ID audioID, float time) { bool ret = false; std::unique_lock lck(_threadMutex); auto iter = _audioPlayers.find(audioID); if (iter == _audioPlayers.end()) return false; auto player = iter->second; do { if (!player->_ready) { break; } if (player->_streamingSource) { ret = player->setTime(time); break; } else { if (player->_audioCache->_framesRead != player->_audioCache->_totalFrames && (time * player->_audioCache->_sampleRate) > player->_audioCache->_framesRead) { ALOGE("%s: audio id = " AUDIO_ID_PRID, __FUNCTION__, audioID); break; } alSourcef(player->_alSource, AL_SEC_OFFSET, time); auto error = alGetError(); if (error != AL_NO_ERROR) { ALOGE("%s: audio id = " AUDIO_ID_PRID ", error = %x", __FUNCTION__, audioID, error); } ret = true; } } while (0); return ret; } void AudioEngineImpl::setFinishCallback(AUDIO_ID audioID, const std::function& callback) { std::unique_lock lck(_threadMutex); auto iter = _audioPlayers.find(audioID); if (iter == _audioPlayers.end()) return; auto player = iter->second; lck.unlock(); player->_finishCallbak = callback; } void AudioEngineImpl::update(float /*dt*/) { std::unique_lock lck(_threadMutex); _updatePlayers(false); } void AudioEngineImpl::_updatePlayers(bool forStop) { AUDIO_ID audioID; AudioPlayer* player; ALuint alSource; // ALOGV("AudioPlayer count: %d", (int)_audioPlayers.size()); for (auto it = _audioPlayers.begin(); it != _audioPlayers.end();) { audioID = it->first; player = it->second; alSource = player->_alSource; if (player->_removeByAudioEngine) { AudioEngine::remove(audioID); it = _audioPlayers.erase(it); delete player; _unusedSourcesPool.push(alSource); } else if (player->_ready && player->isFinished()) { std::string filePath; if (player->_finishCallbak) { auto& audioInfo = AudioEngine::_audioIDInfoMap[audioID]; filePath = audioInfo.filePath; } AudioEngine::remove(audioID); it = _audioPlayers.erase(it); if (player->_finishCallbak) { /// ###IMPORTANT: don't call immidiately, because at callback, user-end may play a new audio /// cause _audioPlayers' iterator goan to invalid. _finishCallbacks.emplace_back( [finishCallback = std::move(player->_finishCallbak), audioID, filePath = std::move(filePath)]() { finishCallback(audioID, filePath); }); } // clear cache when audio player finsihed properly player->setCache(nullptr); delete player; _unusedSourcesPool.push(alSource); } else { ++it; } } // don't invoke finish callback when stop/stopAll to avoid stack overflow if (UTILS_LIKELY(!forStop)) { if (!_finishCallbacks.empty()) { for (auto&& finishCallback : _finishCallbacks) finishCallback(); _finishCallbacks.clear(); } if (_audioPlayers.empty()) _unscheduleUpdate(); } else if (!_audioPlayers.empty() && !_finishCallbacks.empty()) _unscheduleUpdate(); } void AudioEngineImpl::_unscheduleUpdate() { if (_scheduled) { _scheduled = false; _scheduler->unschedule(AX_SCHEDULE_SELECTOR(AudioEngineImpl::update), this); } } void AudioEngineImpl::uncache(std::string_view filePath) { _audioCaches.erase(filePath); } void AudioEngineImpl::uncacheAll() { // prevent player hold invalid AudioCache* pointer, since all audio caches purged for (auto&& player : _audioPlayers) player.second->setCache(nullptr); _audioCaches.clear(); } NS_AX_END #undef LOG_TAG