/* * Copyright (C) 2010 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. */ #ifdef ANDROID #include "media/AudioEffect.h" #include "hardware/audio_effect.h" #endif /* Interface structures */ typedef struct Object_interface { const struct SLObjectItf_ *mItf; // const // field mThis would be redundant within an IObject, so we substitute mEngine CEngine *mEngine; // const const ClassTable *mClass; // const SLuint32 mInstanceID; // const for debugger and for RPC, 0 means unpublished slObjectCallback mCallback; void *mContext; unsigned mGottenMask; ///< bit-mask of interfaces exposed or added, then gotten unsigned mLossOfControlMask; // interfaces with loss of control enabled unsigned mAttributesMask; // attributes which have changed since last sync #if USE_PROFILES & USE_PROFILES_BASE SLint32 mPriority; #endif pthread_mutex_t mMutex; #ifdef USE_DEBUG // Only keep the pthread_t, not the kernel tid, because pthread_self() is very fast // (typically just arithmetic on the stack pointer). But a gettid() is a kernel call // and so too slow to do every time a mutex is acquired. However, we can determine // the kernel tid from the pthread_t. pthread_t mOwner; const char *mFile; int mLine; volatile int32_t mGeneration; // read without a lock, incremented with a lock #endif pthread_cond_t mCond; SLuint8 mState; // really SLuint32, but SLuint8 to save space #if USE_PROFILES & USE_PROFILES_BASE SLuint8 mPreemptable; // really SLboolean, but SLuint8 to save space #else SLuint8 mPadding; #endif SLuint8 mStrongRefCount; // number of strong references to this object // (object cannot be destroyed as long as > 0, and referrers _prefer_ it stay in Realized state) // for best alignment, do not add any fields here #define INTERFACES_Default 1 SLuint8 mInterfaceStates[INTERFACES_Default]; // state of each of interface // do not add any fields here } IObject; #include "locks.h" typedef struct { const struct SL3DCommitItf_ *mItf; IObject *mThis; SLboolean mDeferred; SLuint32 mGeneration; // incremented each master clock cycle SLuint32 mWaiting; // number of threads waiting in Commit } I3DCommit; enum CartesianSphericalActive { CARTESIAN_COMPUTED_SPHERICAL_SET, CARTESIAN_REQUESTED_SPHERICAL_SET, CARTESIAN_UNKNOWN_SPHERICAL_SET, CARTESIAN_SET_SPHERICAL_COMPUTED, // not in 1.0.1 CARTESIAN_SET_SPHERICAL_REQUESTED, // not in 1.0.1 CARTESIAN_SET_SPHERICAL_UNKNOWN }; typedef struct { const struct SL3DDopplerItf_ *mItf; IObject *mThis; // The API allows client to specify either Cartesian and spherical velocities. // But an implementation will likely prefer one or the other. So for // maximum portablity, we maintain both units and an indication of which // unit was set most recently. In addition, we keep a flag saying whether // the other unit has been derived yet. It can take significant time // to compute the other unit, so this may be deferred to another thread. // For this reason we also keep an indication of whether the secondary // has been computed yet, and its accuracy. // Though only one unit is primary at a time, a union is inappropriate: // the application might read in both units (not in 1.0.1), // and due to multi-threading concerns. SLVec3D mVelocityCartesian; struct { SLmillidegree mAzimuth; SLmillidegree mElevation; SLmillidegree mSpeed; } mVelocitySpherical; enum CartesianSphericalActive mVelocityActive; SLpermille mDopplerFactor; } I3DDoppler; typedef struct { const struct SL3DGroupingItf_ *mItf; IObject *mThis; C3DGroup *mGroup; // strong reference to associated group or NULL } I3DGrouping; enum AnglesVectorsActive { ANGLES_COMPUTED_VECTORS_SET, // not in 1.0.1 ANGLES_REQUESTED_VECTORS_SET, // not in 1.0.1 ANGLES_UNKNOWN_VECTORS_SET, ANGLES_SET_VECTORS_COMPUTED, ANGLES_SET_VECTORS_REQUESTED, ANGLES_SET_VECTORS_UNKNOWN }; typedef struct { const struct SL3DLocationItf_ *mItf; IObject *mThis; SLVec3D mLocationCartesian; struct { SLmillidegree mAzimuth; SLmillidegree mElevation; SLmillimeter mDistance; } mLocationSpherical; enum CartesianSphericalActive mLocationActive; struct { SLmillidegree mHeading; SLmillidegree mPitch; SLmillidegree mRoll; } mOrientationAngles; struct { SLVec3D mFront; SLVec3D mAbove; SLVec3D mUp; } mOrientationVectors; enum AnglesVectorsActive mOrientationActive; // Rotations can be slow, so are deferred. SLmillidegree mTheta; SLVec3D mAxis; SLboolean mRotatePending; } I3DLocation; typedef struct { const struct SL3DMacroscopicItf_ *mItf; IObject *mThis; struct { SLmillimeter mWidth; SLmillimeter mHeight; SLmillimeter mDepth; } mSize; struct { SLmillimeter mHeading; SLmillimeter mPitch; SLmillimeter mRoll; } mOrientationAngles; struct { SLVec3D mFront; SLVec3D mAbove; SLVec3D mUp; } mOrientationVectors; enum AnglesVectorsActive mOrientationActive; // Rotations can be slow, so are deferred. SLmillidegree mTheta; SLVec3D mAxis; SLboolean mRotatePending; } I3DMacroscopic; typedef struct { const struct SL3DSourceItf_ *mItf; IObject *mThis; SLboolean mHeadRelative; SLboolean mRolloffMaxDistanceMute; SLmillimeter mMaxDistance; SLmillimeter mMinDistance; SLmillidegree mConeInnerAngle; SLmillidegree mConeOuterAngle; SLmillibel mConeOuterLevel; SLpermille mRolloffFactor; SLpermille mRoomRolloffFactor; SLuint8 mDistanceModel; } I3DSource; typedef struct { const struct SLAudioDecoderCapabilitiesItf_ *mItf; IObject *mThis; } IAudioDecoderCapabilities; typedef struct { const struct SLAudioEncoderItf_ *mItf; IObject *mThis; SLAudioEncoderSettings mSettings; } IAudioEncoder; typedef struct { const struct SLAudioEncoderCapabilitiesItf_ *mItf; IObject *mThis; } IAudioEncoderCapabilities; typedef struct { const struct SLAudioIODeviceCapabilitiesItf_ *mItf; IObject *mThis; slAvailableAudioInputsChangedCallback mAvailableAudioInputsChangedCallback; void *mAvailableAudioInputsChangedContext; slAvailableAudioOutputsChangedCallback mAvailableAudioOutputsChangedCallback; void *mAvailableAudioOutputsChangedContext; slDefaultDeviceIDMapChangedCallback mDefaultDeviceIDMapChangedCallback; void *mDefaultDeviceIDMapChangedContext; } IAudioIODeviceCapabilities; typedef struct { const struct SLBassBoostItf_ *mItf; IObject *mThis; SLboolean mEnabled; SLpermille mStrength; #if defined(ANDROID) effect_descriptor_t mBassBoostDescriptor; android::sp mBassBoostEffect; #endif } IBassBoost; typedef struct BufferQueue_interface { const struct SLBufferQueueItf_ *mItf; IObject *mThis; SLBufferQueueState mState; slBufferQueueCallback mCallback; void *mContext; // originally SLuint32, but range-checked down to SLuint16 SLuint16 mNumBuffers; /*SLboolean*/ SLuint16 mClearRequested; BufferHeader *mArray; BufferHeader *mFront, *mRear; #ifdef ANDROID SLuint32 mSizeConsumed; #endif // saves a malloc in the typical case #define BUFFER_HEADER_TYPICAL 4 BufferHeader mTypical[BUFFER_HEADER_TYPICAL+1]; } IBufferQueue; #define MAX_DEVICE 2 // hard-coded array size for default in/out typedef struct { const struct SLDeviceVolumeItf_ *mItf; IObject *mThis; SLint32 mVolume[MAX_DEVICE]; } IDeviceVolume; typedef struct { const struct SLDynamicInterfaceManagementItf_ *mItf; IObject *mThis; slDynamicInterfaceManagementCallback mCallback; void *mContext; } IDynamicInterfaceManagement; typedef struct { const struct SLDynamicSourceItf_ *mItf; IObject *mThis; SLDataSource *mDataSource; } IDynamicSource; // private struct EnableLevel { SLboolean mEnable; SLmillibel mSendLevel; }; // indexes into IEffectSend.mEnableLevels #define AUX_ENVIRONMENTALREVERB 0 #define AUX_PRESETREVERB 1 #define AUX_MAX 2 typedef struct { const struct SLEffectSendItf_ *mItf; IObject *mThis; struct EnableLevel mEnableLevels[AUX_MAX]; // wet enable and volume per effect type } IEffectSend; typedef struct Engine_interface { const struct SLEngineItf_ *mItf; IObject *mThis; SLboolean mLossOfControlGlobal; #ifdef USE_SDL COutputMix *mOutputMix; // SDL pulls PCM from an arbitrary IOutputMixExt #endif // Each engine is its own universe. SLuint32 mInstanceCount; unsigned mInstanceMask; // 1 bit per active object unsigned mChangedMask; // objects which have changed since last sync #define MAX_INSTANCE 32 // maximum active objects per engine, see mInstanceMask IObject *mInstances[MAX_INSTANCE]; SLboolean mShutdown; SLboolean mShutdownAck; // SLuint32 mVersion; // 0xXXYYZZ where XX=major, YY=minor, ZZ=step } IEngine; typedef struct { const struct SLEngineCapabilitiesItf_ *mItf; IObject *mThis; SLboolean mThreadSafe; // const SLuint32 mMaxIndexLED; SLuint32 mMaxIndexVibra; } IEngineCapabilities; typedef struct { const struct SLEnvironmentalReverbItf_ *mItf; IObject *mThis; SLEnvironmentalReverbSettings mProperties; #if defined(ANDROID) effect_descriptor_t mEnvironmentalReverbDescriptor; android::sp mEnvironmentalReverbEffect; #endif } IEnvironmentalReverb; struct EqualizerBand { SLmilliHertz mMin; SLmilliHertz mCenter; SLmilliHertz mMax; }; #if defined(ANDROID) #define MAX_EQ_BANDS 0 #else #define MAX_EQ_BANDS 4 // compile-time limit, runtime limit may be smaller #endif typedef struct { const struct SLEqualizerItf_ *mItf; IObject *mThis; SLboolean mEnabled; SLuint16 mPreset; #if 0 < MAX_EQ_BANDS SLmillibel mLevels[MAX_EQ_BANDS]; #endif // const to end of struct SLuint16 mNumPresets; SLuint16 mNumBands; #if !defined(ANDROID) const struct EqualizerBand *mBands; const struct EqualizerPreset *mPresets; #endif SLmillibel mBandLevelRangeMin; SLmillibel mBandLevelRangeMax; #if defined(ANDROID) effect_descriptor_t mEqDescriptor; android::sp mEqEffect; #endif } IEqualizer; #define MAX_LED_COUNT 32 typedef struct { const struct SLLEDArrayItf_ *mItf; IObject *mThis; SLuint32 mLightMask; SLHSL mColors[MAX_LED_COUNT]; // const SLuint8 mCount; } ILEDArray; typedef struct { const struct SLMetadataExtractionItf_ *mItf; IObject *mThis; SLuint32 mKeySize; const void *mKey; SLuint32 mKeyEncoding; const SLchar *mValueLangCountry; SLuint32 mValueEncoding; SLuint8 mFilterMask; int mKeyFilter; } IMetadataExtraction; typedef struct { const struct SLMetadataTraversalItf_ *mItf; IObject *mThis; SLuint32 mIndex; SLuint32 mMode; SLuint32 mCount; SLuint32 mSize; } IMetadataTraversal; typedef struct { const struct SLMIDIMessageItf_ *mItf; IObject *mThis; slMetaEventCallback mMetaEventCallback; void *mMetaEventContext; slMIDIMessageCallback mMessageCallback; void *mMessageContext; SLuint8 mMessageTypes; } IMIDIMessage; typedef struct { const struct SLMIDIMuteSoloItf_ *mItf; IObject *mThis; SLuint16 mChannelMuteMask; SLuint16 mChannelSoloMask; SLuint32 mTrackMuteMask; SLuint32 mTrackSoloMask; // const SLuint16 mTrackCount; } IMIDIMuteSolo; typedef struct { const struct SLMIDITempoItf_ *mItf; IObject *mThis; SLuint32 mTicksPerQuarterNote; SLuint32 mMicrosecondsPerQuarterNote; } IMIDITempo; typedef struct { const struct SLMIDITimeItf_ *mItf; IObject *mThis; SLuint32 mDuration; SLuint32 mPosition; SLuint32 mStartTick; SLuint32 mNumTicks; } IMIDITime; typedef struct { const struct SLMuteSoloItf_ *mItf; IObject *mThis; // fields that were formerly here are now at CAudioPlayer } IMuteSolo; #define MAX_TRACK 32 // see mActiveMask typedef struct { const struct SLOutputMixItf_ *mItf; IObject *mThis; slMixDeviceChangeCallback mCallback; void *mContext; } IOutputMix; #ifdef USE_OUTPUTMIXEXT typedef struct { const struct SLOutputMixExtItf_ *mItf; IObject *mThis; unsigned mActiveMask; // 1 bit per active track Track mTracks[MAX_TRACK]; SLboolean mDestroyRequested; ///< Mixer to acknowledge application's call to Object::Destroy } IOutputMixExt; #endif typedef struct { const struct SLPitchItf_ *mItf; IObject *mThis; SLpermille mPitch; // const SLpermille mMinPitch; SLpermille mMaxPitch; } IPitch; typedef struct Play_interface { const struct SLPlayItf_ *mItf; IObject *mThis; SLuint32 mState; // next 2 fields are read-only to application SLmillisecond mDuration; SLmillisecond mPosition; slPlayCallback mCallback; void *mContext; SLuint32 mEventFlags; // the ISeek trick of using a distinct value doesn't work here because it's readable by app SLmillisecond mMarkerPosition; SLmillisecond mPositionUpdatePeriod; // Zero means do not do position updates (FIXME ~0) #ifdef USE_OUTPUTMIXEXT SLuint32 mFrameUpdatePeriod; // mPositionUpdatePeriod in frame units SLmillisecond mLastSeekPosition; // Last known accurate position, set at Seek SLuint32 mFramesSinceLastSeek; // Frames mixed since last known accurate position SLuint32 mFramesSincePositionUpdate; // Frames mixed since last position update callback #endif } IPlay; typedef struct { const struct SLPlaybackRateItf_ *mItf; IObject *mThis; SLpermille mRate; SLuint32 mProperties; // const after initialization SLpermille mMinRate; SLpermille mMaxRate; SLpermille mStepSize; SLuint32 mCapabilities; } IPlaybackRate; typedef struct { const struct SLPrefetchStatusItf_ *mItf; IObject *mThis; SLuint32 mStatus; SLpermille mLevel; slPrefetchCallback mCallback; void *mContext; SLuint32 mCallbackEventsMask; SLpermille mFillUpdatePeriod; #ifdef ANDROID /** FIXME used to call PrefetchStatus callback with object unlocked prior to return from API */ slPrefetchCallback mDeferredPrefetchCallback; void *mDeferredPrefetchContext; SLuint32 mDeferredPrefetchEvents; #endif } IPrefetchStatus; typedef struct { const struct SLPresetReverbItf_ *mItf; IObject *mThis; SLuint16 mPreset; #if defined(ANDROID) effect_descriptor_t mPresetReverbDescriptor; android::sp mPresetReverbEffect; #endif } IPresetReverb; typedef struct { const struct SLRatePitchItf_ *mItf; IObject *mThis; SLpermille mRate; // const SLpermille mMinRate; SLpermille mMaxRate; } IRatePitch; typedef struct { const struct SLRecordItf_ *mItf; IObject *mThis; SLuint32 mState; SLmillisecond mDurationLimit; SLmillisecond mPosition; slRecordCallback mCallback; void *mContext; SLuint32 mCallbackEventsMask; SLmillisecond mMarkerPosition; SLmillisecond mPositionUpdatePeriod; } IRecord; typedef struct { const struct SLSeekItf_ *mItf; IObject *mThis; SLmillisecond mPos; // mPos != SL_TIME_UNKNOWN means pending seek request SLboolean mLoopEnabled; SLmillisecond mStartPos; SLmillisecond mEndPos; } ISeek; typedef struct { const struct SLThreadSyncItf_ *mItf; IObject *mThis; SLboolean mInCriticalSection; SLuint32 mWaiting; // number of threads waiting pthread_t mOwner; } IThreadSync; typedef struct { const struct SLVibraItf_ *mItf; IObject *mThis; SLboolean mVibrate; SLmilliHertz mFrequency; SLpermille mIntensity; } IVibra; typedef struct { const struct SLVirtualizerItf_ *mItf; IObject *mThis; SLboolean mEnabled; SLpermille mStrength; #if defined(ANDROID) effect_descriptor_t mVirtualizerDescriptor; android::sp mVirtualizerEffect; #endif } IVirtualizer; typedef struct { const struct SLVisualizationItf_ *mItf; IObject *mThis; slVisualizationCallback mCallback; void *mContext; SLmilliHertz mRate; } IVisualization; typedef struct /*Volume_interface*/ { const struct SLVolumeItf_ *mItf; IObject *mThis; // Values as specified by the application SLmillibel mLevel; SLpermille mStereoPosition; SLuint8 /*SLboolean*/ mMute; SLuint8 /*SLboolean*/ mEnableStereoPosition; } IVolume; typedef struct { const struct XAEngineItf_ *mItf; IObject *mThis; } IXAEngine; #define NB_SUPPORTED_STREAMS 1 // only one (video) stream supported in this implementation typedef struct { const struct XAStreamInformationItf_ *mItf; IObject *mThis; xaStreamEventChangeCallback mCallback; void *mContext; XAboolean mActiveStreams[NB_SUPPORTED_STREAMS]; #ifdef ANDROID android::Vector mStreamInfoTable; #endif } IStreamInformation; typedef struct { const struct XAVideoDecoderCapabilitiesItf_ *mItf; IObject *mThis; } IVideoDecoderCapabilities; /* Class structures */ /*typedef*/ struct C3DGroup_struct { IObject mObject; #define INTERFACES_3DGroup 6 // see MPH_to_3DGroup in MPH_to.c for list of interfaces SLuint8 mInterfaceStates2[INTERFACES_3DGroup - INTERFACES_Default]; IDynamicInterfaceManagement mDynamicInterfaceManagement; I3DLocation m3DLocation; I3DDoppler m3DDoppler; I3DSource m3DSource; I3DMacroscopic m3DMacroscopic; // remaining are per-instance private fields not associated with an interface unsigned mMemberMask; // set of member objects } /*C3DGroup*/; #ifdef ANDROID // FIXME Move these into the I... section above typedef struct { const struct SLAndroidEffectItf_ *mItf; IObject *mThis; android::KeyedVector *mEffects; } IAndroidEffect; typedef struct { const struct SLAndroidEffectCapabilitiesItf_ *mItf; IObject *mThis; SLuint32 mNumFx; effect_descriptor_t* mFxDescriptors; } IAndroidEffectCapabilities; typedef struct { const struct SLAndroidEffectSendItf_ *mItf; IObject *mThis; // only one send per interface for now (1 bus) SLboolean mEnabled; SLmillibel mSendLevel; //android::KeyedVector mSendLevels; } IAndroidEffectSend; typedef struct { const struct SLAndroidConfigurationItf_ *mItf; IObject *mThis; } IAndroidConfiguration; typedef struct { const struct SLAndroidBufferQueueItf_ *mItf; IObject *mThis; SLAndroidBufferQueueState mState; slAndroidBufferQueueCallback mCallback; SLuint32 mCallbackEventsMask; void *mContext; SLuint16 mNumBuffers; AndroidBufferType_type mBufferType; AdvancedBufferHeader *mBufferArray; AdvancedBufferHeader *mFront, *mRear; bool mEOS; // whether EOS has been enqueued; never reset } IAndroidBufferQueue; #endif