/* ** ** Copyright 2007, The Android Open Source Project ** ** Licensed under the Apache License, Version 2.0 (the "License"); ** you may not use this file except in compliance with the License. ** You may obtain a copy of the License at ** ** http://www.apache.org/licenses/LICENSE-2.0 ** ** Unless required by applicable law or agreed to in writing, software ** distributed under the License is distributed on an "AS IS" BASIS, ** WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. ** See the License for the specific language governing permissions and ** limitations under the License. */ #ifndef ANDROID_AUDIO_FLINGER_H #define ANDROID_AUDIO_FLINGER_H #include "Configuration.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "FastCapture.h" #include "FastMixer.h" #include #include "AudioWatchdog.h" #include "AudioStreamOut.h" #include "SpdifStreamOut.h" #include "AudioHwDevice.h" #include "NBAIO_Tee.h" #include "ThreadMetrics.h" #include "TrackMetrics.h" #include #include #include #include #include #include "android/media/BnAudioRecord.h" namespace android { class AudioMixer; class AudioBuffer; class AudioResampler; class DeviceHalInterface; class DevicesFactoryHalCallback; class DevicesFactoryHalInterface; class EffectsFactoryHalInterface; class FastMixer; class PassthruBufferProvider; class RecordBufferConverter; class ServerProxy; // ---------------------------------------------------------------------------- static const nsecs_t kDefaultStandbyTimeInNsecs = seconds(3); #define INCLUDING_FROM_AUDIOFLINGER_H class AudioFlinger : public BinderService, public BnAudioFlinger { friend class BinderService; // for AudioFlinger() public: static const char* getServiceName() ANDROID_API { return "media.audio_flinger"; } virtual status_t dump(int fd, const Vector& args); // IAudioFlinger interface, in binder opcode order virtual sp createTrack(const CreateTrackInput& input, CreateTrackOutput& output, status_t *status); virtual sp createRecord(const CreateRecordInput& input, CreateRecordOutput& output, status_t *status); virtual uint32_t sampleRate(audio_io_handle_t ioHandle) const; virtual audio_format_t format(audio_io_handle_t output) const; virtual size_t frameCount(audio_io_handle_t ioHandle) const; virtual size_t frameCountHAL(audio_io_handle_t ioHandle) const; virtual uint32_t latency(audio_io_handle_t output) const; virtual status_t setMasterVolume(float value); virtual status_t setMasterMute(bool muted); virtual float masterVolume() const; virtual bool masterMute() const; // Balance value must be within -1.f (left only) to 1.f (right only) inclusive. status_t setMasterBalance(float balance) override; status_t getMasterBalance(float *balance) const override; virtual status_t setStreamVolume(audio_stream_type_t stream, float value, audio_io_handle_t output); virtual status_t setStreamMute(audio_stream_type_t stream, bool muted); virtual float streamVolume(audio_stream_type_t stream, audio_io_handle_t output) const; virtual bool streamMute(audio_stream_type_t stream) const; virtual status_t setMode(audio_mode_t mode); virtual status_t setMicMute(bool state); virtual bool getMicMute() const; virtual void setRecordSilenced(audio_port_handle_t portId, bool silenced); virtual status_t setParameters(audio_io_handle_t ioHandle, const String8& keyValuePairs); virtual String8 getParameters(audio_io_handle_t ioHandle, const String8& keys) const; virtual void registerClient(const sp& client); virtual size_t getInputBufferSize(uint32_t sampleRate, audio_format_t format, audio_channel_mask_t channelMask) const; virtual status_t openOutput(audio_module_handle_t module, audio_io_handle_t *output, audio_config_t *config, const sp& device, uint32_t *latencyMs, audio_output_flags_t flags); virtual audio_io_handle_t openDuplicateOutput(audio_io_handle_t output1, audio_io_handle_t output2); virtual status_t closeOutput(audio_io_handle_t output); virtual status_t suspendOutput(audio_io_handle_t output); virtual status_t restoreOutput(audio_io_handle_t output); virtual status_t openInput(audio_module_handle_t module, audio_io_handle_t *input, audio_config_t *config, audio_devices_t *device, const String8& address, audio_source_t source, audio_input_flags_t flags); virtual status_t closeInput(audio_io_handle_t input); virtual status_t invalidateStream(audio_stream_type_t stream); virtual status_t setVoiceVolume(float volume); virtual status_t getRenderPosition(uint32_t *halFrames, uint32_t *dspFrames, audio_io_handle_t output) const; virtual uint32_t getInputFramesLost(audio_io_handle_t ioHandle) const; // This is the binder API. For the internal API see nextUniqueId(). virtual audio_unique_id_t newAudioUniqueId(audio_unique_id_use_t use); void acquireAudioSessionId(audio_session_t audioSession, pid_t pid, uid_t uid) override; virtual void releaseAudioSessionId(audio_session_t audioSession, pid_t pid); virtual status_t queryNumberEffects(uint32_t *numEffects) const; virtual status_t queryEffect(uint32_t index, effect_descriptor_t *descriptor) const; virtual status_t getEffectDescriptor(const effect_uuid_t *pUuid, const effect_uuid_t *pTypeUuid, uint32_t preferredTypeFlag, effect_descriptor_t *descriptor) const; virtual sp createEffect( effect_descriptor_t *pDesc, const sp& effectClient, int32_t priority, audio_io_handle_t io, audio_session_t sessionId, const AudioDeviceTypeAddr& device, const String16& opPackageName, pid_t pid, bool probe, status_t *status /*non-NULL*/, int *id, int *enabled); virtual status_t moveEffects(audio_session_t sessionId, audio_io_handle_t srcOutput, audio_io_handle_t dstOutput); void setEffectSuspended(int effectId, audio_session_t sessionId, bool suspended) override; virtual audio_module_handle_t loadHwModule(const char *name); virtual uint32_t getPrimaryOutputSamplingRate(); virtual size_t getPrimaryOutputFrameCount(); virtual status_t setLowRamDevice(bool isLowRamDevice, int64_t totalMemory) override; /* List available audio ports and their attributes */ virtual status_t listAudioPorts(unsigned int *num_ports, struct audio_port *ports); /* Get attributes for a given audio port */ virtual status_t getAudioPort(struct audio_port *port); /* Create an audio patch between several source and sink ports */ virtual status_t createAudioPatch(const struct audio_patch *patch, audio_patch_handle_t *handle); /* Release an audio patch */ virtual status_t releaseAudioPatch(audio_patch_handle_t handle); /* List existing audio patches */ virtual status_t listAudioPatches(unsigned int *num_patches, struct audio_patch *patches); /* Set audio port configuration */ virtual status_t setAudioPortConfig(const struct audio_port_config *config); /* Get the HW synchronization source used for an audio session */ virtual audio_hw_sync_t getAudioHwSyncForSession(audio_session_t sessionId); /* Indicate JAVA services are ready (scheduling, power management ...) */ virtual status_t systemReady(); virtual status_t getMicrophones(std::vector *microphones); virtual status_t setAudioHalPids(const std::vector& pids); virtual status_t onTransact( uint32_t code, const Parcel& data, Parcel* reply, uint32_t flags); // end of IAudioFlinger interface sp newWriter_l(size_t size, const char *name); void unregisterWriter(const sp& writer); sp getEffectsFactory(); status_t openMmapStream(MmapStreamInterface::stream_direction_t direction, const audio_attributes_t *attr, audio_config_base_t *config, const AudioClient& client, audio_port_handle_t *deviceId, audio_session_t *sessionId, const sp& callback, sp& interface, audio_port_handle_t *handle); static int onExternalVibrationStart(const sp& externalVibration); static void onExternalVibrationStop(const sp& externalVibration); status_t addEffectToHal(audio_port_handle_t deviceId, audio_module_handle_t hwModuleId, sp effect); status_t removeEffectFromHal(audio_port_handle_t deviceId, audio_module_handle_t hwModuleId, sp effect); private: // FIXME The 400 is temporarily too high until a leak of writers in media.log is fixed. static const size_t kLogMemorySize = 400 * 1024; sp mLogMemoryDealer; // == 0 when NBLog is disabled // When a log writer is unregistered, it is done lazily so that media.log can continue to see it // for as long as possible. The memory is only freed when it is needed for another log writer. Vector< sp > mUnregisteredWriters; Mutex mUnregisteredWritersLock; public: class SyncEvent; typedef void (*sync_event_callback_t)(const wp& event) ; class SyncEvent : public RefBase { public: SyncEvent(AudioSystem::sync_event_t type, audio_session_t triggerSession, audio_session_t listenerSession, sync_event_callback_t callBack, wp cookie) : mType(type), mTriggerSession(triggerSession), mListenerSession(listenerSession), mCallback(callBack), mCookie(cookie) {} virtual ~SyncEvent() {} void trigger() { Mutex::Autolock _l(mLock); if (mCallback) mCallback(wp(this)); } bool isCancelled() const { Mutex::Autolock _l(mLock); return (mCallback == NULL); } void cancel() { Mutex::Autolock _l(mLock); mCallback = NULL; } AudioSystem::sync_event_t type() const { return mType; } audio_session_t triggerSession() const { return mTriggerSession; } audio_session_t listenerSession() const { return mListenerSession; } wp cookie() const { return mCookie; } private: const AudioSystem::sync_event_t mType; const audio_session_t mTriggerSession; const audio_session_t mListenerSession; sync_event_callback_t mCallback; const wp mCookie; mutable Mutex mLock; }; sp createSyncEvent(AudioSystem::sync_event_t type, audio_session_t triggerSession, audio_session_t listenerSession, sync_event_callback_t callBack, const wp& cookie); bool btNrecIsOff() const { return mBtNrecIsOff.load(); } private: audio_mode_t getMode() const { return mMode; } AudioFlinger() ANDROID_API; virtual ~AudioFlinger(); // call in any IAudioFlinger method that accesses mPrimaryHardwareDev status_t initCheck() const { return mPrimaryHardwareDev == NULL ? NO_INIT : NO_ERROR; } // RefBase virtual void onFirstRef(); AudioHwDevice* findSuitableHwDev_l(audio_module_handle_t module, audio_devices_t deviceType); // Set kEnableExtendedChannels to true to enable greater than stereo output // for the MixerThread and device sink. Number of channels allowed is // FCC_2 <= channels <= AudioMixer::MAX_NUM_CHANNELS. static const bool kEnableExtendedChannels = true; // Returns true if channel mask is permitted for the PCM sink in the MixerThread static inline bool isValidPcmSinkChannelMask(audio_channel_mask_t channelMask) { switch (audio_channel_mask_get_representation(channelMask)) { case AUDIO_CHANNEL_REPRESENTATION_POSITION: { // Haptic channel mask is only applicable for channel position mask. const uint32_t channelCount = audio_channel_count_from_out_mask( channelMask & ~AUDIO_CHANNEL_HAPTIC_ALL); const uint32_t maxChannelCount = kEnableExtendedChannels ? AudioMixer::MAX_NUM_CHANNELS : FCC_2; if (channelCount < FCC_2 // mono is not supported at this time || channelCount > maxChannelCount) { return false; } // check that channelMask is the "canonical" one we expect for the channelCount. return audio_channel_position_mask_is_out_canonical(channelMask); } case AUDIO_CHANNEL_REPRESENTATION_INDEX: if (kEnableExtendedChannels) { const uint32_t channelCount = audio_channel_count_from_out_mask(channelMask); if (channelCount >= FCC_2 // mono is not supported at this time && channelCount <= AudioMixer::MAX_NUM_CHANNELS) { return true; } } return false; default: return false; } } // Set kEnableExtendedPrecision to true to use extended precision in MixerThread static const bool kEnableExtendedPrecision = true; // Returns true if format is permitted for the PCM sink in the MixerThread static inline bool isValidPcmSinkFormat(audio_format_t format) { switch (format) { case AUDIO_FORMAT_PCM_16_BIT: return true; case AUDIO_FORMAT_PCM_FLOAT: case AUDIO_FORMAT_PCM_24_BIT_PACKED: case AUDIO_FORMAT_PCM_32_BIT: case AUDIO_FORMAT_PCM_8_24_BIT: return kEnableExtendedPrecision; default: return false; } } // standby delay for MIXER and DUPLICATING playback threads is read from property // ro.audio.flinger_standbytime_ms or defaults to kDefaultStandbyTimeInNsecs static nsecs_t mStandbyTimeInNsecs; // incremented by 2 when screen state changes, bit 0 == 1 means "off" // AudioFlinger::setParameters() updates, other threads read w/o lock static uint32_t mScreenState; // Internal dump utilities. static const int kDumpLockTimeoutNs = 1 * NANOS_PER_SECOND; static bool dumpTryLock(Mutex& mutex); void dumpPermissionDenial(int fd, const Vector& args); void dumpClients(int fd, const Vector& args); void dumpInternals(int fd, const Vector& args); SimpleLog mThreadLog{16}; // 16 Thread history limit class ThreadBase; void dumpToThreadLog_l(const sp &thread); // --- Client --- class Client : public RefBase { public: Client(const sp& audioFlinger, pid_t pid); virtual ~Client(); sp heap() const; pid_t pid() const { return mPid; } sp audioFlinger() const { return mAudioFlinger; } private: DISALLOW_COPY_AND_ASSIGN(Client); const sp mAudioFlinger; sp mMemoryDealer; const pid_t mPid; }; // --- Notification Client --- class NotificationClient : public IBinder::DeathRecipient { public: NotificationClient(const sp& audioFlinger, const sp& client, pid_t pid, uid_t uid); virtual ~NotificationClient(); sp audioFlingerClient() const { return mAudioFlingerClient; } pid_t getPid() const { return mPid; } uid_t getUid() const { return mUid; } // IBinder::DeathRecipient virtual void binderDied(const wp& who); private: DISALLOW_COPY_AND_ASSIGN(NotificationClient); const sp mAudioFlinger; const pid_t mPid; const uid_t mUid; const sp mAudioFlingerClient; }; // --- MediaLogNotifier --- // Thread in charge of notifying MediaLogService to start merging. // Receives requests from AudioFlinger's binder activity. It is used to reduce the amount of // binder calls to MediaLogService in case of bursts of AudioFlinger binder calls. class MediaLogNotifier : public Thread { public: MediaLogNotifier(); // Requests a MediaLogService notification. It's ignored if there has recently been another void requestMerge(); private: // Every iteration blocks waiting for a request, then interacts with MediaLogService to // start merging. // As every MediaLogService binder call is expensive, once it gets a request it ignores the // following ones for a period of time. virtual bool threadLoop() override; bool mPendingRequests; // Mutex and condition variable around mPendingRequests' value Mutex mMutex; Condition mCond; // Duration of the sleep period after a processed request static const int kPostTriggerSleepPeriod = 1000000; }; const sp mMediaLogNotifier; // This is a helper that is called during incoming binder calls. void requestLogMerge(); class TrackHandle; class RecordHandle; class RecordThread; class PlaybackThread; class MixerThread; class DirectOutputThread; class OffloadThread; class DuplicatingThread; class AsyncCallbackThread; class Track; class RecordTrack; class EffectBase; class EffectModule; class EffectHandle; class EffectChain; class DeviceEffectProxy; class DeviceEffectManager; class PatchPanel; class DeviceEffectManagerCallback; struct AudioStreamIn; struct TeePatch; using TeePatches = std::vector; struct stream_type_t { stream_type_t() : volume(1.0f), mute(false) { } float volume; bool mute; }; // Abstraction for the Audio Source for the RecordThread (HAL or PassthruPatchRecord). struct Source { virtual ~Source() = default; // The following methods have the same signatures as in StreamHalInterface. virtual status_t read(void *buffer, size_t bytes, size_t *read) = 0; virtual status_t getCapturePosition(int64_t *frames, int64_t *time) = 0; virtual status_t standby() = 0; }; // --- PlaybackThread --- #ifdef FLOAT_EFFECT_CHAIN #define EFFECT_BUFFER_FORMAT AUDIO_FORMAT_PCM_FLOAT using effect_buffer_t = float; #else #define EFFECT_BUFFER_FORMAT AUDIO_FORMAT_PCM_16_BIT using effect_buffer_t = int16_t; #endif #include "Threads.h" #include "PatchPanel.h" #include "Effects.h" #include "DeviceEffectManager.h" // Find io handle by session id. // Preference is given to an io handle with a matching effect chain to session id. // If none found, AUDIO_IO_HANDLE_NONE is returned. template static audio_io_handle_t findIoHandleBySessionId_l( audio_session_t sessionId, const T& threads) { audio_io_handle_t io = AUDIO_IO_HANDLE_NONE; for (size_t i = 0; i < threads.size(); i++) { const uint32_t sessionType = threads.valueAt(i)->hasAudioSession(sessionId); if (sessionType != 0) { io = threads.keyAt(i); if ((sessionType & AudioFlinger::ThreadBase::EFFECT_SESSION) != 0) { break; // effect chain here. } } } return io; } // server side of the client's IAudioTrack class TrackHandle : public android::BnAudioTrack { public: explicit TrackHandle(const sp& track); virtual ~TrackHandle(); virtual sp getCblk() const; virtual status_t start(); virtual void stop(); virtual void flush(); virtual void pause(); virtual status_t attachAuxEffect(int effectId); virtual status_t setParameters(const String8& keyValuePairs); virtual status_t selectPresentation(int presentationId, int programId); virtual media::VolumeShaper::Status applyVolumeShaper( const sp& configuration, const sp& operation) override; virtual sp getVolumeShaperState(int id) override; virtual status_t getTimestamp(AudioTimestamp& timestamp); virtual void signal(); // signal playback thread for a change in control block virtual status_t onTransact( uint32_t code, const Parcel& data, Parcel* reply, uint32_t flags); private: const sp mTrack; }; // server side of the client's IAudioRecord class RecordHandle : public android::media::BnAudioRecord { public: explicit RecordHandle(const sp& recordTrack); virtual ~RecordHandle(); virtual binder::Status start(int /*AudioSystem::sync_event_t*/ event, int /*audio_session_t*/ triggerSession); virtual binder::Status stop(); virtual binder::Status getActiveMicrophones( std::vector* activeMicrophones); virtual binder::Status setPreferredMicrophoneDirection( int /*audio_microphone_direction_t*/ direction); virtual binder::Status setPreferredMicrophoneFieldDimension(float zoom); private: const sp mRecordTrack; // for use from destructor void stop_nonvirtual(); }; // Mmap stream control interface implementation. Each MmapThreadHandle controls one // MmapPlaybackThread or MmapCaptureThread instance. class MmapThreadHandle : public MmapStreamInterface { public: explicit MmapThreadHandle(const sp& thread); virtual ~MmapThreadHandle(); // MmapStreamInterface virtuals virtual status_t createMmapBuffer(int32_t minSizeFrames, struct audio_mmap_buffer_info *info); virtual status_t getMmapPosition(struct audio_mmap_position *position); virtual status_t start(const AudioClient& client, const audio_attributes_t *attr, audio_port_handle_t *handle); virtual status_t stop(audio_port_handle_t handle); virtual status_t standby(); private: const sp mThread; }; ThreadBase *checkThread_l(audio_io_handle_t ioHandle) const; PlaybackThread *checkPlaybackThread_l(audio_io_handle_t output) const; MixerThread *checkMixerThread_l(audio_io_handle_t output) const; RecordThread *checkRecordThread_l(audio_io_handle_t input) const; MmapThread *checkMmapThread_l(audio_io_handle_t io) const; VolumeInterface *getVolumeInterface_l(audio_io_handle_t output) const; Vector getAllVolumeInterfaces_l() const; sp openInput_l(audio_module_handle_t module, audio_io_handle_t *input, audio_config_t *config, audio_devices_t device, const String8& address, audio_source_t source, audio_input_flags_t flags, audio_devices_t outputDevice, const String8& outputDeviceAddress); sp openOutput_l(audio_module_handle_t module, audio_io_handle_t *output, audio_config_t *config, audio_devices_t deviceType, const String8& address, audio_output_flags_t flags); void closeOutputFinish(const sp& thread); void closeInputFinish(const sp& thread); // no range check, AudioFlinger::mLock held bool streamMute_l(audio_stream_type_t stream) const { return mStreamTypes[stream].mute; } void ioConfigChanged(audio_io_config_event event, const sp& ioDesc, pid_t pid = 0); // Allocate an audio_unique_id_t. // Specific types are audio_io_handle_t, audio_session_t, effect ID (int), // audio_module_handle_t, and audio_patch_handle_t. // They all share the same ID space, but the namespaces are actually independent // because there are separate KeyedVectors for each kind of ID. // The return value is cast to the specific type depending on how the ID will be used. // FIXME This API does not handle rollover to zero (for unsigned IDs), // or from positive to negative (for signed IDs). // Thus it may fail by returning an ID of the wrong sign, // or by returning a non-unique ID. // This is the internal API. For the binder API see newAudioUniqueId(). audio_unique_id_t nextUniqueId(audio_unique_id_use_t use); status_t moveEffectChain_l(audio_session_t sessionId, PlaybackThread *srcThread, PlaybackThread *dstThread); status_t moveAuxEffectToIo(int EffectId, const sp& dstThread, sp *srcThread); // return thread associated with primary hardware device, or NULL PlaybackThread *primaryPlaybackThread_l() const; DeviceTypeSet primaryOutputDevice_l() const; // return the playback thread with smallest HAL buffer size, and prefer fast PlaybackThread *fastPlaybackThread_l() const; sp getEffectThread_l(audio_session_t sessionId, int effectId); void removeClient_l(pid_t pid); void removeNotificationClient(pid_t pid); bool isNonOffloadableGlobalEffectEnabled_l(); void onNonOffloadableGlobalEffectEnable(); bool isSessionAcquired_l(audio_session_t audioSession); // Store an effect chain to mOrphanEffectChains keyed vector. // Called when a thread exits and effects are still attached to it. // If effects are later created on the same session, they will reuse the same // effect chain and same instances in the effect library. // return ALREADY_EXISTS if a chain with the same session already exists in // mOrphanEffectChains. Note that this should never happen as there is only one // chain for a given session and it is attached to only one thread at a time. status_t putOrphanEffectChain_l(const sp& chain); // Get an effect chain for the specified session in mOrphanEffectChains and remove // it if found. Returns 0 if not found (this is the most common case). sp getOrphanEffectChain_l(audio_session_t session); // Called when the last effect handle on an effect instance is removed. If this // effect belongs to an effect chain in mOrphanEffectChains, the chain is updated // and removed from mOrphanEffectChains if it does not contain any effect. // Return true if the effect was found in mOrphanEffectChains, false otherwise. bool updateOrphanEffectChains(const sp& effect); std::vector< sp > purgeStaleEffects_l(); void broacastParametersToRecordThreads_l(const String8& keyValuePairs); void updateOutDevicesForRecordThreads_l(const DeviceDescriptorBaseVector& devices); void forwardParametersToDownstreamPatches_l( audio_io_handle_t upStream, const String8& keyValuePairs, std::function&)> useThread = nullptr); // AudioStreamIn is immutable, so their fields are const. // For emphasis, we could also make all pointers to them be "const *", // but that would clutter the code unnecessarily. struct AudioStreamIn : public Source { AudioHwDevice* const audioHwDev; sp stream; audio_input_flags_t flags; sp hwDev() const { return audioHwDev->hwDevice(); } AudioStreamIn(AudioHwDevice *dev, sp in, audio_input_flags_t flags) : audioHwDev(dev), stream(in), flags(flags) {} status_t read(void *buffer, size_t bytes, size_t *read) override { return stream->read(buffer, bytes, read); } status_t getCapturePosition(int64_t *frames, int64_t *time) override { return stream->getCapturePosition(frames, time); } status_t standby() override { return stream->standby(); } }; struct TeePatch { sp patchRecord; sp patchTrack; }; // for mAudioSessionRefs only struct AudioSessionRef { AudioSessionRef(audio_session_t sessionid, pid_t pid, uid_t uid) : mSessionid(sessionid), mPid(pid), mUid(uid), mCnt(1) {} const audio_session_t mSessionid; const pid_t mPid; const uid_t mUid; int mCnt; }; mutable Mutex mLock; // protects mClients and mNotificationClients. // must be locked after mLock and ThreadBase::mLock if both must be locked // avoids acquiring AudioFlinger::mLock from inside thread loop. mutable Mutex mClientLock; // protected by mClientLock DefaultKeyedVector< pid_t, wp > mClients; // see ~Client() mutable Mutex mHardwareLock; // NOTE: If both mLock and mHardwareLock mutexes must be held, // always take mLock before mHardwareLock // guarded by mHardwareLock AudioHwDevice* mPrimaryHardwareDev; DefaultKeyedVector mAudioHwDevs; // These two fields are immutable after onFirstRef(), so no lock needed to access sp mDevicesFactoryHal; sp mDevicesFactoryHalCallback; // for dump, indicates which hardware operation is currently in progress (but not stream ops) enum hardware_call_state { AUDIO_HW_IDLE = 0, // no operation in progress AUDIO_HW_INIT, // init_check AUDIO_HW_OUTPUT_OPEN, // open_output_stream AUDIO_HW_OUTPUT_CLOSE, // unused AUDIO_HW_INPUT_OPEN, // unused AUDIO_HW_INPUT_CLOSE, // unused AUDIO_HW_STANDBY, // unused AUDIO_HW_SET_MASTER_VOLUME, // set_master_volume AUDIO_HW_GET_ROUTING, // unused AUDIO_HW_SET_ROUTING, // unused AUDIO_HW_GET_MODE, // unused AUDIO_HW_SET_MODE, // set_mode AUDIO_HW_GET_MIC_MUTE, // get_mic_mute AUDIO_HW_SET_MIC_MUTE, // set_mic_mute AUDIO_HW_SET_VOICE_VOLUME, // set_voice_volume AUDIO_HW_SET_PARAMETER, // set_parameters AUDIO_HW_GET_INPUT_BUFFER_SIZE, // get_input_buffer_size AUDIO_HW_GET_MASTER_VOLUME, // get_master_volume AUDIO_HW_GET_PARAMETER, // get_parameters AUDIO_HW_SET_MASTER_MUTE, // set_master_mute AUDIO_HW_GET_MASTER_MUTE, // get_master_mute AUDIO_HW_GET_MICROPHONES, // getMicrophones }; mutable hardware_call_state mHardwareStatus; // for dump only DefaultKeyedVector< audio_io_handle_t, sp > mPlaybackThreads; stream_type_t mStreamTypes[AUDIO_STREAM_CNT]; // member variables below are protected by mLock float mMasterVolume; bool mMasterMute; float mMasterBalance = 0.f; // end of variables protected by mLock DefaultKeyedVector< audio_io_handle_t, sp > mRecordThreads; // protected by mClientLock DefaultKeyedVector< pid_t, sp > mNotificationClients; // updated by atomic_fetch_add_explicit volatile atomic_uint_fast32_t mNextUniqueIds[AUDIO_UNIQUE_ID_USE_MAX]; audio_mode_t mMode; std::atomic_bool mBtNrecIsOff; // protected by mLock Vector mAudioSessionRefs; float masterVolume_l() const; float getMasterBalance_l() const; bool masterMute_l() const; audio_module_handle_t loadHwModule_l(const char *name); Vector < sp > mPendingSyncEvents; // sync events awaiting for a session // to be created // Effect chains without a valid thread DefaultKeyedVector< audio_session_t , sp > mOrphanEffectChains; // list of sessions for which a valid HW A/V sync ID was retrieved from the HAL DefaultKeyedVector< audio_session_t , audio_hw_sync_t >mHwAvSyncIds; // list of MMAP stream control threads. Those threads allow for wake lock, routing // and volume control for activity on the associated MMAP stream at the HAL. // Audio data transfer is directly handled by the client creating the MMAP stream DefaultKeyedVector< audio_io_handle_t, sp > mMmapThreads; private: sp registerPid(pid_t pid); // always returns non-0 // for use from destructor status_t closeOutput_nonvirtual(audio_io_handle_t output); void closeThreadInternal_l(const sp& thread); status_t closeInput_nonvirtual(audio_io_handle_t input); void closeThreadInternal_l(const sp& thread); void setAudioHwSyncForSession_l(PlaybackThread *thread, audio_session_t sessionId); status_t checkStreamType(audio_stream_type_t stream) const; void filterReservedParameters(String8& keyValuePairs, uid_t callingUid); void logFilteredParameters(size_t originalKVPSize, const String8& originalKVPs, size_t rejectedKVPSize, const String8& rejectedKVPs, uid_t callingUid); public: // These methods read variables atomically without mLock, // though the variables are updated with mLock. bool isLowRamDevice() const { return mIsLowRamDevice; } size_t getClientSharedHeapSize() const; private: std::atomic mIsLowRamDevice; bool mIsDeviceTypeKnown; int64_t mTotalMemory; std::atomic mClientSharedHeapSize; static constexpr size_t kMinimumClientSharedHeapSizeBytes = 1024 * 1024; // 1MB nsecs_t mGlobalEffectEnableTime; // when a global effect was last enabled // protected by mLock PatchPanel mPatchPanel; sp mEffectsFactoryHal; DeviceEffectManager mDeviceEffectManager; bool mSystemReady; mediautils::UidInfo mUidInfo; SimpleLog mRejectedSetParameterLog; SimpleLog mAppSetParameterLog; SimpleLog mSystemSetParameterLog; static inline constexpr const char *mMetricsId = AMEDIAMETRICS_KEY_AUDIO_FLINGER; }; #undef INCLUDING_FROM_AUDIOFLINGER_H std::string formatToString(audio_format_t format); std::string inputFlagsToString(audio_input_flags_t flags); std::string outputFlagsToString(audio_output_flags_t flags); std::string devicesToString(audio_devices_t devices); const char *sourceToString(audio_source_t source); // ---------------------------------------------------------------------------- } // namespace android #endif // ANDROID_AUDIO_FLINGER_H