blob: 72e669a2a5df10227a5ebe0182cd9a7953ee1e6e [file] [log] [blame]
** 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
** Unless required by applicable law or agreed to in writing, software
** distributed under the License is distributed on an "AS IS" BASIS,
** See the License for the specific language governing permissions and
** limitations under the License.
#include "Configuration.h"
#include <atomic>
#include <mutex>
#include <chrono>
#include <deque>
#include <map>
#include <numeric>
#include <optional>
#include <set>
#include <string>
#include <vector>
#include <stdint.h>
#include <sys/types.h>
#include <limits.h>
#include <android/os/BnExternalVibrationController.h>
#include <android-base/macros.h>
#include <cutils/atomic.h>
#include <cutils/compiler.h>
#include <cutils/properties.h>
#include <media/IAudioFlinger.h>
#include <media/IAudioFlingerClient.h>
#include <media/IAudioTrack.h>
#include <media/AudioSystem.h>
#include <media/AudioTrack.h>
#include <media/MmapStreamInterface.h>
#include <media/MmapStreamCallback.h>
#include <utils/Errors.h>
#include <utils/threads.h>
#include <utils/SortedVector.h>
#include <utils/TypeHelpers.h>
#include <utils/Vector.h>
#include <binder/AppOpsManager.h>
#include <binder/BinderService.h>
#include <binder/IAppOpsCallback.h>
#include <binder/MemoryDealer.h>
#include <system/audio.h>
#include <system/audio_policy.h>
#include <media/audiohal/EffectBufferHalInterface.h>
#include <media/audiohal/StreamHalInterface.h>
#include <media/AudioBufferProvider.h>
#include <media/AudioMixer.h>
#include <media/ExtendedAudioBufferProvider.h>
#include <media/LinearMap.h>
#include <media/VolumeShaper.h>
#include <audio_utils/clock.h>
#include <audio_utils/FdToString.h>
#include <audio_utils/SimpleLog.h>
#include <audio_utils/TimestampVerifier.h>
#include "FastCapture.h"
#include "FastMixer.h"
#include <media/nbaio/NBAIO.h>
#include "AudioWatchdog.h"
#include "AudioStreamOut.h"
#include "SpdifStreamOut.h"
#include "AudioHwDevice.h"
#include "NBAIO_Tee.h"
#include <powermanager/IPowerManager.h>
#include <media/nblog/NBLog.h>
#include <private/media/AudioEffectShared.h>
#include <private/media/AudioTrackShared.h>
#include <vibrator/ExternalVibration.h>
#include "android/media/BnAudioRecord.h"
namespace android {
class AudioMixer;
class AudioBuffer;
class AudioResampler;
class DeviceHalInterface;
class DevicesFactoryHalInterface;
class EffectsFactoryHalInterface;
class FastMixer;
class PassthruBufferProvider;
class RecordBufferConverter;
class ServerProxy;
// ----------------------------------------------------------------------------
static const nsecs_t kDefaultStandbyTimeInNsecs = seconds(3);
class AudioFlinger :
public BinderService<AudioFlinger>,
public BnAudioFlinger
friend class BinderService<AudioFlinger>; // for AudioFlinger()
static const char* getServiceName() ANDROID_API { return "media.audio_flinger"; }
virtual status_t dump(int fd, const Vector<String16>& args);
// IAudioFlinger interface, in binder opcode order
virtual sp<IAudioTrack> createTrack(const CreateTrackInput& input,
CreateTrackOutput& output,
status_t *status);
virtual sp<media::IAudioRecord> 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(uid_t uid, 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<IAudioFlingerClient>& 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,
audio_devices_t *devices,
const String8& address,
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);
virtual void acquireAudioSessionId(audio_session_t audioSession, pid_t pid);
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<IEffect> createEffect(
effect_descriptor_t *pDesc,
const sp<IEffectClient>& effectClient,
int32_t priority,
audio_io_handle_t io,
audio_session_t sessionId,
const String16& opPackageName,
pid_t pid,
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<media::MicrophoneInfo> *microphones);
virtual status_t onTransact(
uint32_t code,
const Parcel& data,
Parcel* reply,
uint32_t flags);
// end of IAudioFlinger interface
sp<NBLog::Writer> newWriter_l(size_t size, const char *name);
void unregisterWriter(const sp<NBLog::Writer>& writer);
sp<EffectsFactoryHalInterface> 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<MmapStreamCallback>& callback,
sp<MmapStreamInterface>& interface,
audio_port_handle_t *handle);
static int onExternalVibrationStart(const sp<os::ExternalVibration>& externalVibration);
static void onExternalVibrationStop(const sp<os::ExternalVibration>& externalVibration);
// 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<MemoryDealer> 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<NBLog::Writer> > mUnregisteredWriters;
Mutex mUnregisteredWritersLock;
class SyncEvent;
typedef void (*sync_event_callback_t)(const wp<SyncEvent>& event) ;
class SyncEvent : public RefBase {
SyncEvent(AudioSystem::sync_event_t type,
audio_session_t triggerSession,
audio_session_t listenerSession,
sync_event_callback_t callBack,
wp<RefBase> cookie)
: mType(type), mTriggerSession(triggerSession), mListenerSession(listenerSession),
mCallback(callBack), mCookie(cookie)
virtual ~SyncEvent() {}
void trigger() { Mutex::Autolock _l(mLock); if (mCallback) mCallback(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<RefBase> cookie() const { return mCookie; }
const AudioSystem::sync_event_t mType;
const audio_session_t mTriggerSession;
const audio_session_t mListenerSession;
sync_event_callback_t mCallback;
const wp<RefBase> mCookie;
mutable Mutex mLock;
sp<SyncEvent> createSyncEvent(AudioSystem::sync_event_t type,
audio_session_t triggerSession,
audio_session_t listenerSession,
sync_event_callback_t callBack,
const wp<RefBase>& cookie);
bool btNrecIsOff() const { return mBtNrecIsOff.load(); }
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 ?
// RefBase
virtual void onFirstRef();
AudioHwDevice* findSuitableHwDev_l(audio_module_handle_t module,
audio_devices_t devices);
// 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)) {
// Haptic channel mask is only applicable for channel position mask.
const uint32_t channelCount = audio_channel_count_from_out_mask(
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);
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;
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) {
return true;
return kEnableExtendedPrecision;
return false;
// standby delay for MIXER and DUPLICATING playback threads is read from property
// 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<String16>& args);
void dumpClients(int fd, const Vector<String16>& args);
void dumpInternals(int fd, const Vector<String16>& args);
SimpleLog mThreadLog{16}; // 16 Thread history limit
class ThreadBase;
void dumpToThreadLog_l(const sp<ThreadBase> &thread);
// --- Client ---
class Client : public RefBase {
Client(const sp<AudioFlinger>& audioFlinger, pid_t pid);
virtual ~Client();
sp<MemoryDealer> heap() const;
pid_t pid() const { return mPid; }
sp<AudioFlinger> audioFlinger() const { return mAudioFlinger; }
const sp<AudioFlinger> mAudioFlinger;
sp<MemoryDealer> mMemoryDealer;
const pid_t mPid;
// --- Notification Client ---
class NotificationClient : public IBinder::DeathRecipient {
NotificationClient(const sp<AudioFlinger>& audioFlinger,
const sp<IAudioFlingerClient>& client,
pid_t pid);
virtual ~NotificationClient();
sp<IAudioFlingerClient> audioFlingerClient() const { return mAudioFlingerClient; }
// IBinder::DeathRecipient
virtual void binderDied(const wp<IBinder>& who);
const sp<AudioFlinger> mAudioFlinger;
const pid_t mPid;
const sp<IAudioFlingerClient> 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 {
// Requests a MediaLogService notification. It's ignored if there has recently been another
void requestMerge();
// 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<MediaLogNotifier> 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 EffectModule;
class EffectHandle;
class EffectChain;
struct AudioStreamIn;
struct TeePatch;
using TeePatches = std::vector<TeePatch>;
struct stream_type_t {
: volume(1.0f),
float volume;
bool mute;
// --- PlaybackThread ---
using effect_buffer_t = float;
using effect_buffer_t = int16_t;
#include "Threads.h"
#include "Effects.h"
#include "PatchPanel.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 <typename T>
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 {
explicit TrackHandle(const sp<PlaybackThread::Track>& track);
virtual ~TrackHandle();
virtual sp<IMemory> 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<media::VolumeShaper::Configuration>& configuration,
const sp<media::VolumeShaper::Operation>& operation) override;
virtual sp<media::VolumeShaper::State> 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);
const sp<PlaybackThread::Track> mTrack;
// server side of the client's IAudioRecord
class RecordHandle : public android::media::BnAudioRecord {
explicit RecordHandle(const sp<RecordThread::RecordTrack>& 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<media::MicrophoneInfo>* activeMicrophones);
virtual binder::Status setPreferredMicrophoneDirection(
int /*audio_microphone_direction_t*/ direction);
virtual binder::Status setPreferredMicrophoneFieldDimension(float zoom);
const sp<RecordThread::RecordTrack> 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 {
explicit MmapThreadHandle(const sp<MmapThread>& 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,
audio_port_handle_t *handle);
virtual status_t stop(audio_port_handle_t handle);
virtual status_t standby();
const sp<MmapThread> 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 <VolumeInterface *> getAllVolumeInterfaces_l() const;
sp<ThreadBase> 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<ThreadBase> openOutput_l(audio_module_handle_t module,
audio_io_handle_t *output,
audio_config_t *config,
audio_devices_t devices,
const String8& address,
audio_output_flags_t flags);
void closeOutputFinish(const sp<PlaybackThread>& thread);
void closeInputFinish(const sp<RecordThread>& 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<AudioIoDescriptor>& 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<PlaybackThread>& dstThread,
sp<PlaybackThread> *srcThread);
// return thread associated with primary hardware device, or NULL
PlaybackThread *primaryPlaybackThread_l() const;
audio_devices_t primaryOutputDevice_l() const;
// return the playback thread with smallest HAL buffer size, and prefer fast
PlaybackThread *fastPlaybackThread_l() const;
sp<ThreadBase> 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<EffectChain>& 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<EffectChain> 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<EffectModule>& effect);
std::vector< sp<EffectModule> > purgeStaleEffects_l();
void broacastParametersToRecordThreads_l(const String8& keyValuePairs);
void forwardParametersToDownstreamPatches_l(
audio_io_handle_t upStream, const String8& keyValuePairs,
std::function<bool(const sp<PlaybackThread>&)> 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 {
AudioHwDevice* const audioHwDev;
sp<StreamInHalInterface> stream;
audio_input_flags_t flags;
sp<DeviceHalInterface> hwDev() const { return audioHwDev->hwDevice(); }
AudioStreamIn(AudioHwDevice *dev, sp<StreamInHalInterface> in, audio_input_flags_t flags) :
audioHwDev(dev), stream(in), flags(flags) {}
struct TeePatch {
sp<RecordThread::PatchRecord> patchRecord;
sp<PlaybackThread::PatchTrack> patchTrack;
// for mAudioSessionRefs only
struct AudioSessionRef {
AudioSessionRef(audio_session_t sessionid, pid_t pid) :
mSessionid(sessionid), mPid(pid), mCnt(1) {}
const audio_session_t mSessionid;
const pid_t mPid;
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<Client> > mClients; // see ~Client()
mutable Mutex mHardwareLock;
// NOTE: If both mLock and mHardwareLock mutexes must be held,
// always take mLock before mHardwareLock
// These two fields are immutable after onFirstRef(), so no lock needed to access
AudioHwDevice* mPrimaryHardwareDev; // mAudioHwDevs[0] or NULL
DefaultKeyedVector<audio_module_handle_t, AudioHwDevice*> mAudioHwDevs;
sp<DevicesFactoryHalInterface> mDevicesFactoryHal;
// 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_SET_MASTER_VOLUME, // set_master_volume
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
mutable hardware_call_state mHardwareStatus; // for dump only
DefaultKeyedVector< audio_io_handle_t, sp<PlaybackThread> > 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<RecordThread> > mRecordThreads;
// protected by mClientLock
DefaultKeyedVector< pid_t, sp<NotificationClient> > 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<AudioSessionRef*> mAudioSessionRefs;
float masterVolume_l() const;
float getMasterBalance_l() const;
bool masterMute_l() const;
audio_module_handle_t loadHwModule_l(const char *name);
Vector < sp<SyncEvent> > mPendingSyncEvents; // sync events awaiting for a session
// to be created
// Effect chains without a valid thread
DefaultKeyedVector< audio_session_t , sp<EffectChain> > 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<MmapThread> > mMmapThreads;
sp<Client> 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<PlaybackThread>& thread);
status_t closeInput_nonvirtual(audio_io_handle_t input);
void closeThreadInternal_l(const sp<RecordThread>& 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);
// These methods read variables atomically without mLock,
// though the variables are updated with mLock.
bool isLowRamDevice() const { return mIsLowRamDevice; }
size_t getClientSharedHeapSize() const;
std::atomic<bool> mIsLowRamDevice;
bool mIsDeviceTypeKnown;
int64_t mTotalMemory;
std::atomic<size_t> 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<EffectsFactoryHalInterface> mEffectsFactoryHal;
bool mSystemReady;
SimpleLog mRejectedSetParameterLog;
SimpleLog mAppSetParameterLog;
SimpleLog mSystemSetParameterLog;
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