Home | History | Annotate | Download | only in android
      1 /*
      2  * Copyright (C) 2010 The Android Open Source Project
      3  *
      4  * Licensed under the Apache License, Version 2.0 (the "License");
      5  * you may not use this file except in compliance with the License.
      6  * You may obtain a copy of the License at
      7  *
      8  *      http://www.apache.org/licenses/LICENSE-2.0
      9  *
     10  * Unless required by applicable law or agreed to in writing, software
     11  * distributed under the License is distributed on an "AS IS" BASIS,
     12  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
     13  * See the License for the specific language governing permissions and
     14  * limitations under the License.
     15  */
     16 
     17 #include "sles_allinclusive.h"
     18 #include "android_prompts.h"
     19 #include "android/android_AudioToCbRenderer.h"
     20 #include "android/android_StreamPlayer.h"
     21 #include "android/android_LocAVPlayer.h"
     22 #include "android/include/AacBqToPcmCbRenderer.h"
     23 
     24 #include <fcntl.h>
     25 #include <sys/stat.h>
     26 
     27 #include <system/audio.h>
     28 
     29 template class android::KeyedVector<SLuint32, android::AudioEffect* > ;
     30 
     31 #define KEY_STREAM_TYPE_PARAMSIZE  sizeof(SLint32)
     32 
     33 #define AUDIOTRACK_MIN_PLAYBACKRATE_PERMILLE  500
     34 #define AUDIOTRACK_MAX_PLAYBACKRATE_PERMILLE 2000
     35 
     36 #define MEDIAPLAYER_MIN_PLAYBACKRATE_PERMILLE AUDIOTRACK_MIN_PLAYBACKRATE_PERMILLE
     37 #define MEDIAPLAYER_MAX_PLAYBACKRATE_PERMILLE AUDIOTRACK_MAX_PLAYBACKRATE_PERMILLE
     38 
     39 //-----------------------------------------------------------------------------
     40 // FIXME this method will be absorbed into android_audioPlayer_setPlayState() once
     41 //       bufferqueue and uri/fd playback are moved under the GenericPlayer C++ object
     42 SLresult aplayer_setPlayState(const android::sp<android::GenericPlayer> &ap, SLuint32 playState,
     43         AndroidObjectState* pObjState) {
     44     SLresult result = SL_RESULT_SUCCESS;
     45     AndroidObjectState objState = *pObjState;
     46 
     47     switch (playState) {
     48      case SL_PLAYSTATE_STOPPED:
     49          SL_LOGV("setting GenericPlayer to SL_PLAYSTATE_STOPPED");
     50          ap->stop();
     51          break;
     52      case SL_PLAYSTATE_PAUSED:
     53          SL_LOGV("setting GenericPlayer to SL_PLAYSTATE_PAUSED");
     54          switch(objState) {
     55          case ANDROID_UNINITIALIZED:
     56              *pObjState = ANDROID_PREPARING;
     57              ap->prepare();
     58              break;
     59          case ANDROID_PREPARING:
     60              break;
     61          case ANDROID_READY:
     62              ap->pause();
     63              break;
     64          default:
     65              SL_LOGE(ERROR_PLAYERSETPLAYSTATE_INVALID_OBJECT_STATE_D, playState);
     66              result = SL_RESULT_INTERNAL_ERROR;
     67              break;
     68          }
     69          break;
     70      case SL_PLAYSTATE_PLAYING: {
     71          SL_LOGV("setting GenericPlayer to SL_PLAYSTATE_PLAYING");
     72          switch(objState) {
     73          case ANDROID_UNINITIALIZED:
     74              *pObjState = ANDROID_PREPARING;
     75              ap->prepare();
     76              // intended fall through
     77          case ANDROID_PREPARING:
     78              // intended fall through
     79          case ANDROID_READY:
     80              ap->play();
     81              break;
     82          default:
     83              SL_LOGE(ERROR_PLAYERSETPLAYSTATE_INVALID_OBJECT_STATE_D, playState);
     84              result = SL_RESULT_INTERNAL_ERROR;
     85              break;
     86          }
     87          }
     88          break;
     89      default:
     90          // checked by caller, should not happen
     91          SL_LOGE(ERROR_SHOULDNT_BE_HERE_S, "aplayer_setPlayState");
     92          result = SL_RESULT_INTERNAL_ERROR;
     93          break;
     94      }
     95 
     96     return result;
     97 }
     98 
     99 
    100 //-----------------------------------------------------------------------------
    101 // Callback associated with a AudioToCbRenderer of an SL ES AudioPlayer that gets its data
    102 // from a URI or FD, to write the decoded audio data to a buffer queue
    103 static size_t adecoder_writeToBufferQueue(const uint8_t *data, size_t size, CAudioPlayer* ap) {
    104     if (!android::CallbackProtector::enterCbIfOk(ap->mCallbackProtector)) {
    105         // it is not safe to enter the callback (the player is about to go away)
    106         return 0;
    107     }
    108     size_t sizeConsumed = 0;
    109     SL_LOGD("received %d bytes from decoder", size);
    110     slBufferQueueCallback callback = NULL;
    111     void * callbackPContext = NULL;
    112 
    113     // push decoded data to the buffer queue
    114     object_lock_exclusive(&ap->mObject);
    115 
    116     if (ap->mBufferQueue.mState.count != 0) {
    117         assert(ap->mBufferQueue.mFront != ap->mBufferQueue.mRear);
    118 
    119         BufferHeader *oldFront = ap->mBufferQueue.mFront;
    120         BufferHeader *newFront = &oldFront[1];
    121 
    122         uint8_t *pDest = (uint8_t *)oldFront->mBuffer + ap->mBufferQueue.mSizeConsumed;
    123         if (ap->mBufferQueue.mSizeConsumed + size < oldFront->mSize) {
    124             // room to consume the whole or rest of the decoded data in one shot
    125             ap->mBufferQueue.mSizeConsumed += size;
    126             // consume data but no callback to the BufferQueue interface here
    127             memcpy (pDest, data, size);
    128             sizeConsumed = size;
    129         } else {
    130             // push as much as possible of the decoded data into the buffer queue
    131             sizeConsumed = oldFront->mSize - ap->mBufferQueue.mSizeConsumed;
    132 
    133             // the buffer at the head of the buffer queue is full, update the state
    134             ap->mBufferQueue.mSizeConsumed = 0;
    135             if (newFront == &ap->mBufferQueue.mArray[ap->mBufferQueue.mNumBuffers + 1]) {
    136                 newFront = ap->mBufferQueue.mArray;
    137             }
    138             ap->mBufferQueue.mFront = newFront;
    139 
    140             ap->mBufferQueue.mState.count--;
    141             ap->mBufferQueue.mState.playIndex++;
    142             // consume data
    143             memcpy (pDest, data, sizeConsumed);
    144             // data has been copied to the buffer, and the buffer queue state has been updated
    145             // we will notify the client if applicable
    146             callback = ap->mBufferQueue.mCallback;
    147             // save callback data
    148             callbackPContext = ap->mBufferQueue.mContext;
    149         }
    150 
    151     } else {
    152         // no available buffers in the queue to write the decoded data
    153         sizeConsumed = 0;
    154     }
    155 
    156     object_unlock_exclusive(&ap->mObject);
    157     // notify client
    158     if (NULL != callback) {
    159         (*callback)(&ap->mBufferQueue.mItf, callbackPContext);
    160     }
    161 
    162     ap->mCallbackProtector->exitCb();
    163     return sizeConsumed;
    164 }
    165 
    166 
    167 //-----------------------------------------------------------------------------
    168 #define LEFT_CHANNEL_MASK  0x1 << 0
    169 #define RIGHT_CHANNEL_MASK 0x1 << 1
    170 
    171 void android_audioPlayer_volumeUpdate(CAudioPlayer* ap)
    172 {
    173     assert(ap != NULL);
    174 
    175     // the source's channel count, where zero means unknown
    176     SLuint8 channelCount = ap->mNumChannels;
    177 
    178     // whether each channel is audible
    179     bool leftAudibilityFactor, rightAudibilityFactor;
    180 
    181     // mute has priority over solo
    182     if (channelCount >= STEREO_CHANNELS) {
    183         if (ap->mMuteMask & LEFT_CHANNEL_MASK) {
    184             // left muted
    185             leftAudibilityFactor = false;
    186         } else {
    187             // left not muted
    188             if (ap->mSoloMask & LEFT_CHANNEL_MASK) {
    189                 // left soloed
    190                 leftAudibilityFactor = true;
    191             } else {
    192                 // left not soloed
    193                 if (ap->mSoloMask & RIGHT_CHANNEL_MASK) {
    194                     // right solo silences left
    195                     leftAudibilityFactor = false;
    196                 } else {
    197                     // left and right are not soloed, and left is not muted
    198                     leftAudibilityFactor = true;
    199                 }
    200             }
    201         }
    202 
    203         if (ap->mMuteMask & RIGHT_CHANNEL_MASK) {
    204             // right muted
    205             rightAudibilityFactor = false;
    206         } else {
    207             // right not muted
    208             if (ap->mSoloMask & RIGHT_CHANNEL_MASK) {
    209                 // right soloed
    210                 rightAudibilityFactor = true;
    211             } else {
    212                 // right not soloed
    213                 if (ap->mSoloMask & LEFT_CHANNEL_MASK) {
    214                     // left solo silences right
    215                     rightAudibilityFactor = false;
    216                 } else {
    217                     // left and right are not soloed, and right is not muted
    218                     rightAudibilityFactor = true;
    219                 }
    220             }
    221         }
    222 
    223     // channel mute and solo are ignored for mono and unknown channel count sources
    224     } else {
    225         leftAudibilityFactor = true;
    226         rightAudibilityFactor = true;
    227     }
    228 
    229     // compute volumes without setting
    230     const bool audibilityFactors[2] = {leftAudibilityFactor, rightAudibilityFactor};
    231     float volumes[2];
    232     android_player_volumeUpdate(volumes, &ap->mVolume, channelCount, ap->mAmplFromDirectLevel,
    233             audibilityFactors);
    234     float leftVol = volumes[0], rightVol = volumes[1];
    235 
    236     // set volume on the underlying media player or audio track
    237     if (ap->mAPlayer != 0) {
    238         ap->mAPlayer->setVolume(leftVol, rightVol);
    239     } else if (ap->mAudioTrack != 0) {
    240         ap->mAudioTrack->setVolume(leftVol, rightVol);
    241     }
    242 
    243     // changes in the AudioPlayer volume must be reflected in the send level:
    244     //  in SLEffectSendItf or in SLAndroidEffectSendItf?
    245     // FIXME replace interface test by an internal API once we have one.
    246     if (NULL != ap->mEffectSend.mItf) {
    247         for (unsigned int i=0 ; i<AUX_MAX ; i++) {
    248             if (ap->mEffectSend.mEnableLevels[i].mEnable) {
    249                 android_fxSend_setSendLevel(ap,
    250                         ap->mEffectSend.mEnableLevels[i].mSendLevel + ap->mVolume.mLevel);
    251                 // there's a single aux bus on Android, so we can stop looking once the first
    252                 // aux effect is found.
    253                 break;
    254             }
    255         }
    256     } else if (NULL != ap->mAndroidEffectSend.mItf) {
    257         android_fxSend_setSendLevel(ap, ap->mAndroidEffectSend.mSendLevel + ap->mVolume.mLevel);
    258     }
    259 }
    260 
    261 // Called by android_audioPlayer_volumeUpdate and android_mediaPlayer_volumeUpdate to compute
    262 // volumes, but setting volumes is handled by the caller.
    263 
    264 void android_player_volumeUpdate(float *pVolumes /*[2]*/, const IVolume *volumeItf, unsigned
    265 channelCount, float amplFromDirectLevel, const bool *audibilityFactors /*[2]*/)
    266 {
    267     assert(pVolumes != NULL);
    268     assert(volumeItf != NULL);
    269     // OK for audibilityFactors to be NULL
    270 
    271     bool leftAudibilityFactor, rightAudibilityFactor;
    272 
    273     // apply player mute factor
    274     // note that AudioTrack has mute() but not MediaPlayer, so it's easier to use volume
    275     // to mute for both rather than calling mute() for AudioTrack
    276 
    277     // player is muted
    278     if (volumeItf->mMute) {
    279         leftAudibilityFactor = false;
    280         rightAudibilityFactor = false;
    281     // player isn't muted, and channel mute/solo audibility factors are available (AudioPlayer)
    282     } else if (audibilityFactors != NULL) {
    283         leftAudibilityFactor = audibilityFactors[0];
    284         rightAudibilityFactor = audibilityFactors[1];
    285     // player isn't muted, and channel mute/solo audibility factors aren't available (MediaPlayer)
    286     } else {
    287         leftAudibilityFactor = true;
    288         rightAudibilityFactor = true;
    289     }
    290 
    291     // compute amplification as the combination of volume level and stereo position
    292     //   amplification (or attenuation) from volume level
    293     float amplFromVolLevel = sles_to_android_amplification(volumeItf->mLevel);
    294     //   amplification from direct level (changed in SLEffectSendtItf and SLAndroidEffectSendItf)
    295     float leftVol  = amplFromVolLevel * amplFromDirectLevel;
    296     float rightVol = leftVol;
    297 
    298     // amplification from stereo position
    299     if (volumeItf->mEnableStereoPosition) {
    300         // Left/right amplification (can be attenuations) factors derived for the StereoPosition
    301         float amplFromStereoPos[STEREO_CHANNELS];
    302         // panning law depends on content channel count: mono to stereo panning vs stereo balance
    303         if (1 == channelCount) {
    304             // mono to stereo panning
    305             double theta = (1000+volumeItf->mStereoPosition)*M_PI_4/1000.0f; // 0 <= theta <= Pi/2
    306             amplFromStereoPos[0] = cos(theta);
    307             amplFromStereoPos[1] = sin(theta);
    308         // channel count is 0 (unknown), 2 (stereo), or > 2 (multi-channel)
    309         } else {
    310             // stereo balance
    311             if (volumeItf->mStereoPosition > 0) {
    312                 amplFromStereoPos[0] = (1000-volumeItf->mStereoPosition)/1000.0f;
    313                 amplFromStereoPos[1] = 1.0f;
    314             } else {
    315                 amplFromStereoPos[0] = 1.0f;
    316                 amplFromStereoPos[1] = (1000+volumeItf->mStereoPosition)/1000.0f;
    317             }
    318         }
    319         leftVol  *= amplFromStereoPos[0];
    320         rightVol *= amplFromStereoPos[1];
    321     }
    322 
    323     // apply audibility factors
    324     if (!leftAudibilityFactor) {
    325         leftVol = 0.0;
    326     }
    327     if (!rightAudibilityFactor) {
    328         rightVol = 0.0;
    329     }
    330 
    331     // return the computed volumes
    332     pVolumes[0] = leftVol;
    333     pVolumes[1] = rightVol;
    334 }
    335 
    336 //-----------------------------------------------------------------------------
    337 void audioTrack_handleMarker_lockPlay(CAudioPlayer* ap) {
    338     //SL_LOGV("received event EVENT_MARKER from AudioTrack");
    339     slPlayCallback callback = NULL;
    340     void* callbackPContext = NULL;
    341 
    342     interface_lock_shared(&ap->mPlay);
    343     callback = ap->mPlay.mCallback;
    344     callbackPContext = ap->mPlay.mContext;
    345     interface_unlock_shared(&ap->mPlay);
    346 
    347     if (NULL != callback) {
    348         // getting this event implies SL_PLAYEVENT_HEADATMARKER was set in the event mask
    349         (*callback)(&ap->mPlay.mItf, callbackPContext, SL_PLAYEVENT_HEADATMARKER);
    350     }
    351 }
    352 
    353 //-----------------------------------------------------------------------------
    354 void audioTrack_handleNewPos_lockPlay(CAudioPlayer* ap) {
    355     //SL_LOGV("received event EVENT_NEW_POS from AudioTrack");
    356     slPlayCallback callback = NULL;
    357     void* callbackPContext = NULL;
    358 
    359     interface_lock_shared(&ap->mPlay);
    360     callback = ap->mPlay.mCallback;
    361     callbackPContext = ap->mPlay.mContext;
    362     interface_unlock_shared(&ap->mPlay);
    363 
    364     if (NULL != callback) {
    365         // getting this event implies SL_PLAYEVENT_HEADATNEWPOS was set in the event mask
    366         (*callback)(&ap->mPlay.mItf, callbackPContext, SL_PLAYEVENT_HEADATNEWPOS);
    367     }
    368 }
    369 
    370 
    371 //-----------------------------------------------------------------------------
    372 void audioTrack_handleUnderrun_lockPlay(CAudioPlayer* ap) {
    373     slPlayCallback callback = NULL;
    374     void* callbackPContext = NULL;
    375 
    376     interface_lock_shared(&ap->mPlay);
    377     callback = ap->mPlay.mCallback;
    378     callbackPContext = ap->mPlay.mContext;
    379     bool headStalled = (ap->mPlay.mEventFlags & SL_PLAYEVENT_HEADSTALLED) != 0;
    380     interface_unlock_shared(&ap->mPlay);
    381 
    382     if ((NULL != callback) && headStalled) {
    383         (*callback)(&ap->mPlay.mItf, callbackPContext, SL_PLAYEVENT_HEADSTALLED);
    384     }
    385 }
    386 
    387 
    388 //-----------------------------------------------------------------------------
    389 /**
    390  * post-condition: play state of AudioPlayer is SL_PLAYSTATE_PAUSED if setPlayStateToPaused is true
    391  *
    392  * note: a conditional flag, setPlayStateToPaused, is used here to specify whether the play state
    393  *       needs to be changed when the player reaches the end of the content to play. This is
    394  *       relative to what the specification describes for buffer queues vs the
    395  *       SL_PLAYEVENT_HEADATEND event. In the OpenSL ES specification 1.0.1:
    396  *        - section 8.12 SLBufferQueueItf states "In the case of starvation due to insufficient
    397  *          buffers in the queue, the playing of audio data stops. The player remains in the
    398  *          SL_PLAYSTATE_PLAYING state."
    399  *        - section 9.2.31 SL_PLAYEVENT states "SL_PLAYEVENT_HEADATEND Playback head is at the end
    400  *          of the current content and the player has paused."
    401  */
    402 void audioPlayer_dispatch_headAtEnd_lockPlay(CAudioPlayer *ap, bool setPlayStateToPaused,
    403         bool needToLock) {
    404     //SL_LOGV("ap=%p, setPlayStateToPaused=%d, needToLock=%d", ap, setPlayStateToPaused,
    405     //        needToLock);
    406     slPlayCallback playCallback = NULL;
    407     void * playContext = NULL;
    408     // SLPlayItf callback or no callback?
    409     if (needToLock) {
    410         interface_lock_exclusive(&ap->mPlay);
    411     }
    412     if (ap->mPlay.mEventFlags & SL_PLAYEVENT_HEADATEND) {
    413         playCallback = ap->mPlay.mCallback;
    414         playContext = ap->mPlay.mContext;
    415     }
    416     if (setPlayStateToPaused) {
    417         ap->mPlay.mState = SL_PLAYSTATE_PAUSED;
    418     }
    419     if (needToLock) {
    420         interface_unlock_exclusive(&ap->mPlay);
    421     }
    422     // enqueue callback with no lock held
    423     if (NULL != playCallback) {
    424 #ifndef USE_ASYNCHRONOUS_PLAY_CALLBACK
    425         (*playCallback)(&ap->mPlay.mItf, playContext, SL_PLAYEVENT_HEADATEND);
    426 #else
    427         SLresult result = EnqueueAsyncCallback_ppi(ap, playCallback, &ap->mPlay.mItf, playContext,
    428                 SL_PLAYEVENT_HEADATEND);
    429         if (SL_RESULT_SUCCESS != result) {
    430             ALOGW("Callback %p(%p, %p, SL_PLAYEVENT_HEADATEND) dropped", playCallback,
    431                     &ap->mPlay.mItf, playContext);
    432         }
    433 #endif
    434     }
    435 
    436 }
    437 
    438 
    439 //-----------------------------------------------------------------------------
    440 SLresult audioPlayer_setStreamType(CAudioPlayer* ap, SLint32 type) {
    441     SLresult result = SL_RESULT_SUCCESS;
    442     SL_LOGV("type %d", type);
    443 
    444     audio_stream_type_t newStreamType = ANDROID_DEFAULT_OUTPUT_STREAM_TYPE;
    445     switch(type) {
    446     case SL_ANDROID_STREAM_VOICE:
    447         newStreamType = AUDIO_STREAM_VOICE_CALL;
    448         break;
    449     case SL_ANDROID_STREAM_SYSTEM:
    450         newStreamType = AUDIO_STREAM_SYSTEM;
    451         break;
    452     case SL_ANDROID_STREAM_RING:
    453         newStreamType = AUDIO_STREAM_RING;
    454         break;
    455     case SL_ANDROID_STREAM_MEDIA:
    456         newStreamType = AUDIO_STREAM_MUSIC;
    457         break;
    458     case SL_ANDROID_STREAM_ALARM:
    459         newStreamType = AUDIO_STREAM_ALARM;
    460         break;
    461     case SL_ANDROID_STREAM_NOTIFICATION:
    462         newStreamType = AUDIO_STREAM_NOTIFICATION;
    463         break;
    464     default:
    465         SL_LOGE(ERROR_PLAYERSTREAMTYPE_SET_UNKNOWN_TYPE);
    466         result = SL_RESULT_PARAMETER_INVALID;
    467         break;
    468     }
    469 
    470     // stream type needs to be set before the object is realized
    471     // (ap->mAudioTrack is supposed to be NULL until then)
    472     if (SL_OBJECT_STATE_UNREALIZED != ap->mObject.mState) {
    473         SL_LOGE(ERROR_PLAYERSTREAMTYPE_REALIZED);
    474         result = SL_RESULT_PRECONDITIONS_VIOLATED;
    475     } else {
    476         ap->mStreamType = newStreamType;
    477     }
    478 
    479     return result;
    480 }
    481 
    482 
    483 //-----------------------------------------------------------------------------
    484 SLresult audioPlayer_getStreamType(CAudioPlayer* ap, SLint32 *pType) {
    485     SLresult result = SL_RESULT_SUCCESS;
    486 
    487     switch(ap->mStreamType) {
    488     case AUDIO_STREAM_VOICE_CALL:
    489         *pType = SL_ANDROID_STREAM_VOICE;
    490         break;
    491     case AUDIO_STREAM_SYSTEM:
    492         *pType = SL_ANDROID_STREAM_SYSTEM;
    493         break;
    494     case AUDIO_STREAM_RING:
    495         *pType = SL_ANDROID_STREAM_RING;
    496         break;
    497     case AUDIO_STREAM_DEFAULT:
    498     case AUDIO_STREAM_MUSIC:
    499         *pType = SL_ANDROID_STREAM_MEDIA;
    500         break;
    501     case AUDIO_STREAM_ALARM:
    502         *pType = SL_ANDROID_STREAM_ALARM;
    503         break;
    504     case AUDIO_STREAM_NOTIFICATION:
    505         *pType = SL_ANDROID_STREAM_NOTIFICATION;
    506         break;
    507     default:
    508         result = SL_RESULT_INTERNAL_ERROR;
    509         *pType = SL_ANDROID_STREAM_MEDIA;
    510         break;
    511     }
    512 
    513     return result;
    514 }
    515 
    516 
    517 //-----------------------------------------------------------------------------
    518 void audioPlayer_auxEffectUpdate(CAudioPlayer* ap) {
    519     if ((ap->mAudioTrack != 0) && (ap->mAuxEffect != 0)) {
    520         android_fxSend_attach(ap, true, ap->mAuxEffect, ap->mVolume.mLevel + ap->mAuxSendLevel);
    521     }
    522 }
    523 
    524 
    525 //-----------------------------------------------------------------------------
    526 /*
    527  * returns true if the given data sink is supported by AudioPlayer that doesn't
    528  *   play to an OutputMix object, false otherwise
    529  *
    530  * pre-condition: the locator of the audio sink is not SL_DATALOCATOR_OUTPUTMIX
    531  */
    532 bool audioPlayer_isSupportedNonOutputMixSink(const SLDataSink* pAudioSink) {
    533     bool result = true;
    534     const SLuint32 sinkLocatorType = *(SLuint32 *)pAudioSink->pLocator;
    535     const SLuint32 sinkFormatType = *(SLuint32 *)pAudioSink->pFormat;
    536 
    537     switch (sinkLocatorType) {
    538 
    539     case SL_DATALOCATOR_BUFFERQUEUE:
    540     case SL_DATALOCATOR_ANDROIDSIMPLEBUFFERQUEUE:
    541         if (SL_DATAFORMAT_PCM != sinkFormatType) {
    542             SL_LOGE("Unsupported sink format 0x%x, expected SL_DATAFORMAT_PCM",
    543                     (unsigned)sinkFormatType);
    544             result = false;
    545         }
    546         // it's no use checking the PCM format fields because additional characteristics
    547         // such as the number of channels, or sample size are unknown to the player at this stage
    548         break;
    549 
    550     default:
    551         SL_LOGE("Unsupported sink locator type 0x%x", (unsigned)sinkLocatorType);
    552         result = false;
    553         break;
    554     }
    555 
    556     return result;
    557 }
    558 
    559 
    560 //-----------------------------------------------------------------------------
    561 /*
    562  * returns the Android object type if the locator type combinations for the source and sinks
    563  *   are supported by this implementation, INVALID_TYPE otherwise
    564  */
    565 AndroidObjectType audioPlayer_getAndroidObjectTypeForSourceSink(CAudioPlayer *ap) {
    566 
    567     const SLDataSource *pAudioSrc = &ap->mDataSource.u.mSource;
    568     const SLDataSink *pAudioSnk = &ap->mDataSink.u.mSink;
    569     const SLuint32 sourceLocatorType = *(SLuint32 *)pAudioSrc->pLocator;
    570     const SLuint32 sinkLocatorType = *(SLuint32 *)pAudioSnk->pLocator;
    571     AndroidObjectType type = INVALID_TYPE;
    572 
    573     //--------------------------------------
    574     // Sink / source matching check:
    575     // the following source / sink combinations are supported
    576     //     SL_DATALOCATOR_BUFFERQUEUE                / SL_DATALOCATOR_OUTPUTMIX
    577     //     SL_DATALOCATOR_ANDROIDSIMPLEBUFFERQUEUE   / SL_DATALOCATOR_OUTPUTMIX
    578     //     SL_DATALOCATOR_URI                        / SL_DATALOCATOR_OUTPUTMIX
    579     //     SL_DATALOCATOR_ANDROIDFD                  / SL_DATALOCATOR_OUTPUTMIX
    580     //     SL_DATALOCATOR_ANDROIDBUFFERQUEUE         / SL_DATALOCATOR_OUTPUTMIX
    581     //     SL_DATALOCATOR_ANDROIDBUFFERQUEUE         / SL_DATALOCATOR_BUFFERQUEUE
    582     //     SL_DATALOCATOR_URI                        / SL_DATALOCATOR_BUFFERQUEUE
    583     //     SL_DATALOCATOR_ANDROIDFD                  / SL_DATALOCATOR_BUFFERQUEUE
    584     //     SL_DATALOCATOR_URI                        / SL_DATALOCATOR_ANDROIDSIMPLEBUFFERQUEUE
    585     //     SL_DATALOCATOR_ANDROIDFD                  / SL_DATALOCATOR_ANDROIDSIMPLEBUFFERQUEUE
    586     switch (sinkLocatorType) {
    587 
    588     case SL_DATALOCATOR_OUTPUTMIX: {
    589         switch (sourceLocatorType) {
    590 
    591         //   Buffer Queue to AudioTrack
    592         case SL_DATALOCATOR_BUFFERQUEUE:
    593         case SL_DATALOCATOR_ANDROIDSIMPLEBUFFERQUEUE:
    594             type = AUDIOPLAYER_FROM_PCM_BUFFERQUEUE;
    595             break;
    596 
    597         //   URI or FD to MediaPlayer
    598         case SL_DATALOCATOR_URI:
    599         case SL_DATALOCATOR_ANDROIDFD:
    600             type = AUDIOPLAYER_FROM_URIFD;
    601             break;
    602 
    603         //   Android BufferQueue to MediaPlayer (shared memory streaming)
    604         case SL_DATALOCATOR_ANDROIDBUFFERQUEUE:
    605             type = AUDIOPLAYER_FROM_TS_ANDROIDBUFFERQUEUE;
    606             break;
    607 
    608         default:
    609             SL_LOGE("Source data locator 0x%x not supported with SL_DATALOCATOR_OUTPUTMIX sink",
    610                     (unsigned)sourceLocatorType);
    611             break;
    612         }
    613         }
    614         break;
    615 
    616     case SL_DATALOCATOR_BUFFERQUEUE:
    617     case SL_DATALOCATOR_ANDROIDSIMPLEBUFFERQUEUE:
    618         switch (sourceLocatorType) {
    619 
    620         //   URI or FD decoded to PCM in a buffer queue
    621         case SL_DATALOCATOR_URI:
    622         case SL_DATALOCATOR_ANDROIDFD:
    623             type = AUDIOPLAYER_FROM_URIFD_TO_PCM_BUFFERQUEUE;
    624             break;
    625 
    626         //   AAC ADTS Android buffer queue decoded to PCM in a buffer queue
    627         case SL_DATALOCATOR_ANDROIDBUFFERQUEUE:
    628             type = AUDIOPLAYER_FROM_ADTS_ABQ_TO_PCM_BUFFERQUEUE;
    629             break;
    630 
    631         default:
    632             SL_LOGE("Source data locator 0x%x not supported with SL_DATALOCATOR_BUFFERQUEUE sink",
    633                     (unsigned)sourceLocatorType);
    634             break;
    635         }
    636         break;
    637 
    638     default:
    639         SL_LOGE("Sink data locator 0x%x not supported", (unsigned)sinkLocatorType);
    640         break;
    641     }
    642 
    643     return type;
    644 }
    645 
    646 
    647 //-----------------------------------------------------------------------------
    648 /*
    649  * Callback associated with an SfPlayer of an SL ES AudioPlayer that gets its data
    650  * from a URI or FD, for prepare, prefetch, and play events
    651  */
    652 static void sfplayer_handlePrefetchEvent(int event, int data1, int data2, void* user) {
    653 
    654     // FIXME see similar code and comment in player_handleMediaPlayerEventNotifications
    655 
    656     if (NULL == user) {
    657         return;
    658     }
    659 
    660     CAudioPlayer *ap = (CAudioPlayer *)user;
    661     if (!android::CallbackProtector::enterCbIfOk(ap->mCallbackProtector)) {
    662         // it is not safe to enter the callback (the track is about to go away)
    663         return;
    664     }
    665     union {
    666         char c[sizeof(int)];
    667         int i;
    668     } u;
    669     u.i = event;
    670     SL_LOGV("sfplayer_handlePrefetchEvent(event='%c%c%c%c' (%d), data1=%d, data2=%d, user=%p) from "
    671             "SfAudioPlayer", u.c[3], u.c[2], u.c[1], u.c[0], event, data1, data2, user);
    672     switch(event) {
    673 
    674     case android::GenericPlayer::kEventPrepared: {
    675         SL_LOGV("Received GenericPlayer::kEventPrepared for CAudioPlayer %p", ap);
    676 
    677         // assume no callback
    678         slPrefetchCallback callback = NULL;
    679         void* callbackPContext;
    680         SLuint32 events;
    681 
    682         object_lock_exclusive(&ap->mObject);
    683 
    684         // mark object as prepared; same state is used for successful or unsuccessful prepare
    685         assert(ap->mAndroidObjState == ANDROID_PREPARING);
    686         ap->mAndroidObjState = ANDROID_READY;
    687 
    688         if (PLAYER_SUCCESS == data1) {
    689             // Most of successful prepare completion for ap->mAPlayer
    690             // is handled by GenericPlayer and its subclasses.
    691         } else {
    692             // SfPlayer prepare() failed prefetching, there is no event in SLPrefetchStatus to
    693             //  indicate a prefetch error, so we signal it by sending simultaneously two events:
    694             //  - SL_PREFETCHEVENT_FILLLEVELCHANGE with a level of 0
    695             //  - SL_PREFETCHEVENT_STATUSCHANGE with a status of SL_PREFETCHSTATUS_UNDERFLOW
    696             SL_LOGE(ERROR_PLAYER_PREFETCH_d, data1);
    697             if (IsInterfaceInitialized(&(ap->mObject), MPH_PREFETCHSTATUS)) {
    698                 ap->mPrefetchStatus.mLevel = 0;
    699                 ap->mPrefetchStatus.mStatus = SL_PREFETCHSTATUS_UNDERFLOW;
    700                 if (!(~ap->mPrefetchStatus.mCallbackEventsMask &
    701                         (SL_PREFETCHEVENT_FILLLEVELCHANGE | SL_PREFETCHEVENT_STATUSCHANGE))) {
    702                     callback = ap->mPrefetchStatus.mCallback;
    703                     callbackPContext = ap->mPrefetchStatus.mContext;
    704                     events = SL_PREFETCHEVENT_FILLLEVELCHANGE | SL_PREFETCHEVENT_STATUSCHANGE;
    705                 }
    706             }
    707         }
    708 
    709         object_unlock_exclusive(&ap->mObject);
    710 
    711         // callback with no lock held
    712         if (NULL != callback) {
    713             (*callback)(&ap->mPrefetchStatus.mItf, callbackPContext, events);
    714         }
    715 
    716     }
    717     break;
    718 
    719     case android::GenericPlayer::kEventPrefetchFillLevelUpdate : {
    720         if (!IsInterfaceInitialized(&(ap->mObject), MPH_PREFETCHSTATUS)) {
    721             break;
    722         }
    723         slPrefetchCallback callback = NULL;
    724         void* callbackPContext = NULL;
    725 
    726         // SLPrefetchStatusItf callback or no callback?
    727         interface_lock_exclusive(&ap->mPrefetchStatus);
    728         if (ap->mPrefetchStatus.mCallbackEventsMask & SL_PREFETCHEVENT_FILLLEVELCHANGE) {
    729             callback = ap->mPrefetchStatus.mCallback;
    730             callbackPContext = ap->mPrefetchStatus.mContext;
    731         }
    732         ap->mPrefetchStatus.mLevel = (SLpermille)data1;
    733         interface_unlock_exclusive(&ap->mPrefetchStatus);
    734 
    735         // callback with no lock held
    736         if (NULL != callback) {
    737             (*callback)(&ap->mPrefetchStatus.mItf, callbackPContext,
    738                     SL_PREFETCHEVENT_FILLLEVELCHANGE);
    739         }
    740     }
    741     break;
    742 
    743     case android::GenericPlayer::kEventPrefetchStatusChange: {
    744         if (!IsInterfaceInitialized(&(ap->mObject), MPH_PREFETCHSTATUS)) {
    745             break;
    746         }
    747         slPrefetchCallback callback = NULL;
    748         void* callbackPContext = NULL;
    749 
    750         // SLPrefetchStatusItf callback or no callback?
    751         object_lock_exclusive(&ap->mObject);
    752         if (ap->mPrefetchStatus.mCallbackEventsMask & SL_PREFETCHEVENT_STATUSCHANGE) {
    753             callback = ap->mPrefetchStatus.mCallback;
    754             callbackPContext = ap->mPrefetchStatus.mContext;
    755         }
    756         if (data1 >= android::kStatusIntermediate) {
    757             ap->mPrefetchStatus.mStatus = SL_PREFETCHSTATUS_SUFFICIENTDATA;
    758         } else if (data1 < android::kStatusIntermediate) {
    759             ap->mPrefetchStatus.mStatus = SL_PREFETCHSTATUS_UNDERFLOW;
    760         }
    761         object_unlock_exclusive(&ap->mObject);
    762 
    763         // callback with no lock held
    764         if (NULL != callback) {
    765             (*callback)(&ap->mPrefetchStatus.mItf, callbackPContext, SL_PREFETCHEVENT_STATUSCHANGE);
    766         }
    767         }
    768         break;
    769 
    770     case android::GenericPlayer::kEventEndOfStream: {
    771         audioPlayer_dispatch_headAtEnd_lockPlay(ap, true /*set state to paused?*/, true);
    772         if ((ap->mAudioTrack != 0) && (!ap->mSeek.mLoopEnabled)) {
    773             ap->mAudioTrack->stop();
    774         }
    775         }
    776         break;
    777 
    778     case android::GenericPlayer::kEventChannelCount: {
    779         object_lock_exclusive(&ap->mObject);
    780         if (UNKNOWN_NUMCHANNELS == ap->mNumChannels && UNKNOWN_NUMCHANNELS != data1) {
    781             ap->mNumChannels = data1;
    782             android_audioPlayer_volumeUpdate(ap);
    783         }
    784         object_unlock_exclusive(&ap->mObject);
    785         }
    786         break;
    787 
    788     case android::GenericPlayer::kEventPlay: {
    789         slPlayCallback callback = NULL;
    790         void* callbackPContext = NULL;
    791 
    792         interface_lock_shared(&ap->mPlay);
    793         callback = ap->mPlay.mCallback;
    794         callbackPContext = ap->mPlay.mContext;
    795         interface_unlock_shared(&ap->mPlay);
    796 
    797         if (NULL != callback) {
    798             SLuint32 event = (SLuint32) data1;  // SL_PLAYEVENT_HEAD*
    799 #ifndef USE_ASYNCHRONOUS_PLAY_CALLBACK
    800             // synchronous callback requires a synchronous GetPosition implementation
    801             (*callback)(&ap->mPlay.mItf, callbackPContext, event);
    802 #else
    803             // asynchronous callback works with any GetPosition implementation
    804             SLresult result = EnqueueAsyncCallback_ppi(ap, callback, &ap->mPlay.mItf,
    805                     callbackPContext, event);
    806             if (SL_RESULT_SUCCESS != result) {
    807                 ALOGW("Callback %p(%p, %p, 0x%x) dropped", callback,
    808                         &ap->mPlay.mItf, callbackPContext, event);
    809             }
    810 #endif
    811         }
    812         }
    813         break;
    814 
    815       case android::GenericPlayer::kEventErrorAfterPrepare: {
    816         SL_LOGV("kEventErrorAfterPrepare");
    817 
    818         // assume no callback
    819         slPrefetchCallback callback = NULL;
    820         void* callbackPContext = NULL;
    821 
    822         object_lock_exclusive(&ap->mObject);
    823         if (IsInterfaceInitialized(&ap->mObject, MPH_PREFETCHSTATUS)) {
    824             ap->mPrefetchStatus.mLevel = 0;
    825             ap->mPrefetchStatus.mStatus = SL_PREFETCHSTATUS_UNDERFLOW;
    826             if (!(~ap->mPrefetchStatus.mCallbackEventsMask &
    827                     (SL_PREFETCHEVENT_FILLLEVELCHANGE | SL_PREFETCHEVENT_STATUSCHANGE))) {
    828                 callback = ap->mPrefetchStatus.mCallback;
    829                 callbackPContext = ap->mPrefetchStatus.mContext;
    830             }
    831         }
    832         object_unlock_exclusive(&ap->mObject);
    833 
    834         // FIXME there's interesting information in data1, but no API to convey it to client
    835         SL_LOGE("Error after prepare: %d", data1);
    836 
    837         // callback with no lock held
    838         if (NULL != callback) {
    839             (*callback)(&ap->mPrefetchStatus.mItf, callbackPContext,
    840                     SL_PREFETCHEVENT_FILLLEVELCHANGE | SL_PREFETCHEVENT_STATUSCHANGE);
    841         }
    842 
    843       }
    844       break;
    845 
    846     case android::GenericPlayer::kEventHasVideoSize:
    847         //SL_LOGW("Unexpected kEventHasVideoSize");
    848         break;
    849 
    850     default:
    851         break;
    852     }
    853 
    854     ap->mCallbackProtector->exitCb();
    855 }
    856 
    857 // From EffectDownmix.h
    858 const uint32_t kSides = AUDIO_CHANNEL_OUT_SIDE_LEFT | AUDIO_CHANNEL_OUT_SIDE_RIGHT;
    859 const uint32_t kBacks = AUDIO_CHANNEL_OUT_BACK_LEFT | AUDIO_CHANNEL_OUT_BACK_RIGHT;
    860 const uint32_t kUnsupported =
    861         AUDIO_CHANNEL_OUT_FRONT_LEFT_OF_CENTER | AUDIO_CHANNEL_OUT_FRONT_RIGHT_OF_CENTER |
    862         AUDIO_CHANNEL_OUT_TOP_CENTER |
    863         AUDIO_CHANNEL_OUT_TOP_FRONT_LEFT |
    864         AUDIO_CHANNEL_OUT_TOP_FRONT_CENTER |
    865         AUDIO_CHANNEL_OUT_TOP_FRONT_RIGHT |
    866         AUDIO_CHANNEL_OUT_TOP_BACK_LEFT |
    867         AUDIO_CHANNEL_OUT_TOP_BACK_CENTER |
    868         AUDIO_CHANNEL_OUT_TOP_BACK_RIGHT;
    869 
    870 //TODO(pmclean) This will need to be revisited when arbitrary N-channel support is added.
    871 SLresult android_audioPlayer_validateChannelMask(uint32_t mask, int numChans) {
    872     // Check that the number of channels falls within bounds.
    873     if (numChans < 0 || numChans > 8) {
    874         return SL_RESULT_CONTENT_UNSUPPORTED;
    875     }
    876     // Are there the right number of channels in the mask?
    877     if (audio_channel_count_from_out_mask(mask) != numChans) {
    878         return SL_RESULT_CONTENT_UNSUPPORTED;
    879     }
    880     // check against unsupported channels
    881     if (mask & kUnsupported) {
    882         ALOGE("Unsupported channels (top or front left/right of center)");
    883         return SL_RESULT_CONTENT_UNSUPPORTED;
    884     }
    885     // verify has FL/FR if more than one channel
    886     if (numChans > 1 && (mask & AUDIO_CHANNEL_OUT_STEREO) != AUDIO_CHANNEL_OUT_STEREO) {
    887         ALOGE("Front channels must be present");
    888         return SL_RESULT_CONTENT_UNSUPPORTED;
    889     }
    890     // verify uses SIDE as a pair (ok if not using SIDE at all)
    891     bool hasSides = false;
    892     if ((mask & kSides) != 0) {
    893         if ((mask & kSides) != kSides) {
    894             ALOGE("Side channels must be used as a pair");
    895             return SL_RESULT_CONTENT_UNSUPPORTED;
    896         }
    897         hasSides = true;
    898     }
    899     // verify uses BACK as a pair (ok if not using BACK at all)
    900     bool hasBacks = false;
    901     if ((mask & kBacks) != 0) {
    902         if ((mask & kBacks) != kBacks) {
    903             ALOGE("Back channels must be used as a pair");
    904             return SL_RESULT_CONTENT_UNSUPPORTED;
    905         }
    906         hasBacks = true;
    907     }
    908 
    909     return SL_RESULT_SUCCESS;
    910 }
    911 
    912 //-----------------------------------------------------------------------------
    913 SLresult android_audioPlayer_checkSourceSink(CAudioPlayer *pAudioPlayer)
    914 {
    915     // verify that the locator types for the source / sink combination is supported
    916     pAudioPlayer->mAndroidObjType = audioPlayer_getAndroidObjectTypeForSourceSink(pAudioPlayer);
    917     if (INVALID_TYPE == pAudioPlayer->mAndroidObjType) {
    918         return SL_RESULT_PARAMETER_INVALID;
    919     }
    920 
    921     const SLDataSource *pAudioSrc = &pAudioPlayer->mDataSource.u.mSource;
    922     const SLDataSink *pAudioSnk = &pAudioPlayer->mDataSink.u.mSink;
    923 
    924     // format check:
    925     const SLuint32 sourceLocatorType = *(SLuint32 *)pAudioSrc->pLocator;
    926     const SLuint32 sinkLocatorType = *(SLuint32 *)pAudioSnk->pLocator;
    927     const SLuint32 sourceFormatType = *(SLuint32 *)pAudioSrc->pFormat;
    928     const SLuint32 sinkFormatType = *(SLuint32 *)pAudioSnk->pFormat;
    929 
    930     const SLuint32 *df_representation = NULL; // pointer to representation field, if it exists
    931 
    932     switch (sourceLocatorType) {
    933     //------------------
    934     //   Buffer Queues
    935     case SL_DATALOCATOR_BUFFERQUEUE:
    936     case SL_DATALOCATOR_ANDROIDSIMPLEBUFFERQUEUE:
    937         {
    938         SLDataLocator_BufferQueue *dl_bq = (SLDataLocator_BufferQueue *) pAudioSrc->pLocator;
    939 
    940         // Buffer format
    941         switch (sourceFormatType) {
    942         //     currently only PCM buffer queues are supported,
    943         case SL_ANDROID_DATAFORMAT_PCM_EX: {
    944             SLAndroidDataFormat_PCM_EX *df_pcm =
    945                     (SLAndroidDataFormat_PCM_EX *) pAudioSrc->pFormat;
    946             switch (df_pcm->representation) {
    947             case SL_ANDROID_PCM_REPRESENTATION_SIGNED_INT:
    948             case SL_ANDROID_PCM_REPRESENTATION_UNSIGNED_INT:
    949             case SL_ANDROID_PCM_REPRESENTATION_FLOAT:
    950                 df_representation = &df_pcm->representation;
    951                 break;
    952             default:
    953                 SL_LOGE("Cannot create audio player: unsupported representation: %d",
    954                         df_pcm->representation);
    955                 return SL_RESULT_CONTENT_UNSUPPORTED;
    956             }
    957             }; // SL_ANDROID_DATAFORMAT_PCM_EX - fall through to next test.
    958         case SL_DATAFORMAT_PCM: {
    959             SLDataFormat_PCM *df_pcm = (SLDataFormat_PCM *) pAudioSrc->pFormat;
    960             SLresult result = android_audioPlayer_validateChannelMask(df_pcm->channelMask,
    961                                                                       df_pcm->numChannels);
    962             if (result != SL_RESULT_SUCCESS) {
    963                 SL_LOGE("Cannot create audio player: unsupported PCM data source with %u channels",
    964                         (unsigned) df_pcm->numChannels);
    965                 return result;
    966             }
    967 
    968             switch (df_pcm->samplesPerSec) {
    969             case SL_SAMPLINGRATE_8:
    970             case SL_SAMPLINGRATE_11_025:
    971             case SL_SAMPLINGRATE_12:
    972             case SL_SAMPLINGRATE_16:
    973             case SL_SAMPLINGRATE_22_05:
    974             case SL_SAMPLINGRATE_24:
    975             case SL_SAMPLINGRATE_32:
    976             case SL_SAMPLINGRATE_44_1:
    977             case SL_SAMPLINGRATE_48:
    978                 break;
    979             case SL_SAMPLINGRATE_64:
    980             case SL_SAMPLINGRATE_88_2:
    981             case SL_SAMPLINGRATE_96:
    982             case SL_SAMPLINGRATE_192:
    983             default:
    984                 SL_LOGE("Cannot create audio player: unsupported sample rate %u milliHz",
    985                     (unsigned) df_pcm->samplesPerSec);
    986                 return SL_RESULT_CONTENT_UNSUPPORTED;
    987             }
    988             switch (df_pcm->bitsPerSample) {
    989             case SL_PCMSAMPLEFORMAT_FIXED_8:
    990                 if (df_representation &&
    991                         *df_representation != SL_ANDROID_PCM_REPRESENTATION_UNSIGNED_INT) {
    992                     goto default_err;
    993                 }
    994                 break;
    995             case SL_PCMSAMPLEFORMAT_FIXED_16:
    996             case SL_PCMSAMPLEFORMAT_FIXED_24:
    997                 if (df_representation &&
    998                         *df_representation != SL_ANDROID_PCM_REPRESENTATION_SIGNED_INT) {
    999                     goto default_err;
   1000                 }
   1001                 break;
   1002             case SL_PCMSAMPLEFORMAT_FIXED_32:
   1003                 if (df_representation
   1004                         && *df_representation != SL_ANDROID_PCM_REPRESENTATION_SIGNED_INT
   1005                         && *df_representation != SL_ANDROID_PCM_REPRESENTATION_FLOAT) {
   1006                     goto default_err;
   1007                 }
   1008                 break;
   1009                 // others
   1010             default:
   1011             default_err:
   1012                 // this should have already been rejected by checkDataFormat
   1013                 SL_LOGE("Cannot create audio player: unsupported sample bit depth %u",
   1014                         (SLuint32)df_pcm->bitsPerSample);
   1015                 return SL_RESULT_CONTENT_UNSUPPORTED;
   1016             }
   1017             switch (df_pcm->containerSize) {
   1018             case 8:
   1019             case 16:
   1020             case 24:
   1021             case 32:
   1022                 break;
   1023                 // others
   1024             default:
   1025                 SL_LOGE("Cannot create audio player: unsupported container size %u",
   1026                     (unsigned) df_pcm->containerSize);
   1027                 return SL_RESULT_CONTENT_UNSUPPORTED;
   1028             }
   1029             // df_pcm->channelMask: the earlier platform-independent check and the
   1030             //     upcoming check by sles_to_android_channelMaskOut are sufficient
   1031             switch (df_pcm->endianness) {
   1032             case SL_BYTEORDER_LITTLEENDIAN:
   1033                 break;
   1034             case SL_BYTEORDER_BIGENDIAN:
   1035                 SL_LOGE("Cannot create audio player: unsupported big-endian byte order");
   1036                 return SL_RESULT_CONTENT_UNSUPPORTED;
   1037                 // native is proposed but not yet in spec
   1038             default:
   1039                 SL_LOGE("Cannot create audio player: unsupported byte order %u",
   1040                     (unsigned) df_pcm->endianness);
   1041                 return SL_RESULT_CONTENT_UNSUPPORTED;
   1042             }
   1043             } //case SL_DATAFORMAT_PCM
   1044             break;
   1045         case SL_DATAFORMAT_MIME:
   1046         case XA_DATAFORMAT_RAWIMAGE:
   1047             SL_LOGE("Cannot create audio player with buffer queue data source "
   1048                 "without SL_DATAFORMAT_PCM format");
   1049             return SL_RESULT_CONTENT_UNSUPPORTED;
   1050         default:
   1051             // invalid data format is detected earlier
   1052             assert(false);
   1053             return SL_RESULT_INTERNAL_ERROR;
   1054         } // switch (sourceFormatType)
   1055         } // case SL_DATALOCATOR_BUFFERQUEUE or SL_DATALOCATOR_ANDROIDSIMPLEBUFFERQUEUE
   1056         break;
   1057     //------------------
   1058     //   URI
   1059     case SL_DATALOCATOR_URI:
   1060         {
   1061         SLDataLocator_URI *dl_uri = (SLDataLocator_URI *) pAudioSrc->pLocator;
   1062         if (NULL == dl_uri->URI) {
   1063             return SL_RESULT_PARAMETER_INVALID;
   1064         }
   1065         // URI format
   1066         switch (sourceFormatType) {
   1067         case SL_DATAFORMAT_MIME:
   1068             break;
   1069         case SL_DATAFORMAT_PCM:
   1070         case XA_DATAFORMAT_RAWIMAGE:
   1071             SL_LOGE("Cannot create audio player with SL_DATALOCATOR_URI data source without "
   1072                 "SL_DATAFORMAT_MIME format");
   1073             return SL_RESULT_CONTENT_UNSUPPORTED;
   1074         } // switch (sourceFormatType)
   1075         // decoding format check
   1076         if ((sinkLocatorType != SL_DATALOCATOR_OUTPUTMIX) &&
   1077                 !audioPlayer_isSupportedNonOutputMixSink(pAudioSnk)) {
   1078             return SL_RESULT_CONTENT_UNSUPPORTED;
   1079         }
   1080         } // case SL_DATALOCATOR_URI
   1081         break;
   1082     //------------------
   1083     //   File Descriptor
   1084     case SL_DATALOCATOR_ANDROIDFD:
   1085         {
   1086         // fd is already non null
   1087         switch (sourceFormatType) {
   1088         case SL_DATAFORMAT_MIME:
   1089             break;
   1090         case SL_DATAFORMAT_PCM:
   1091             // FIXME implement
   1092             SL_LOGD("[ FIXME implement PCM FD data sources ]");
   1093             break;
   1094         case XA_DATAFORMAT_RAWIMAGE:
   1095             SL_LOGE("Cannot create audio player with SL_DATALOCATOR_ANDROIDFD data source "
   1096                 "without SL_DATAFORMAT_MIME or SL_DATAFORMAT_PCM format");
   1097             return SL_RESULT_CONTENT_UNSUPPORTED;
   1098         default:
   1099             // invalid data format is detected earlier
   1100             assert(false);
   1101             return SL_RESULT_INTERNAL_ERROR;
   1102         } // switch (sourceFormatType)
   1103         if ((sinkLocatorType != SL_DATALOCATOR_OUTPUTMIX) &&
   1104                 !audioPlayer_isSupportedNonOutputMixSink(pAudioSnk)) {
   1105             return SL_RESULT_CONTENT_UNSUPPORTED;
   1106         }
   1107         } // case SL_DATALOCATOR_ANDROIDFD
   1108         break;
   1109     //------------------
   1110     //   Stream
   1111     case SL_DATALOCATOR_ANDROIDBUFFERQUEUE:
   1112     {
   1113         switch (sourceFormatType) {
   1114         case SL_DATAFORMAT_MIME:
   1115         {
   1116             SLDataFormat_MIME *df_mime = (SLDataFormat_MIME *) pAudioSrc->pFormat;
   1117             if (NULL == df_mime) {
   1118                 SL_LOGE("MIME type null invalid");
   1119                 return SL_RESULT_CONTENT_UNSUPPORTED;
   1120             }
   1121             SL_LOGD("source MIME is %s", (char*)df_mime->mimeType);
   1122             switch(df_mime->containerType) {
   1123             case SL_CONTAINERTYPE_MPEG_TS:
   1124                 if (strcasecmp((char*)df_mime->mimeType, (const char *)XA_ANDROID_MIME_MP2TS)) {
   1125                     SL_LOGE("Invalid MIME (%s) for container SL_CONTAINERTYPE_MPEG_TS, expects %s",
   1126                             (char*)df_mime->mimeType, XA_ANDROID_MIME_MP2TS);
   1127                     return SL_RESULT_CONTENT_UNSUPPORTED;
   1128                 }
   1129                 break;
   1130             case SL_CONTAINERTYPE_RAW:
   1131             case SL_CONTAINERTYPE_AAC:
   1132                 if (strcasecmp((char*)df_mime->mimeType, (const char *)SL_ANDROID_MIME_AACADTS) &&
   1133                         strcasecmp((char*)df_mime->mimeType,
   1134                                 ANDROID_MIME_AACADTS_ANDROID_FRAMEWORK)) {
   1135                     SL_LOGE("Invalid MIME (%s) for container type %d, expects %s",
   1136                             (char*)df_mime->mimeType, df_mime->containerType,
   1137                             SL_ANDROID_MIME_AACADTS);
   1138                     return SL_RESULT_CONTENT_UNSUPPORTED;
   1139                 }
   1140                 break;
   1141             default:
   1142                 SL_LOGE("Cannot create player with SL_DATALOCATOR_ANDROIDBUFFERQUEUE data source "
   1143                                         "that is not fed MPEG-2 TS data or AAC ADTS data");
   1144                 return SL_RESULT_CONTENT_UNSUPPORTED;
   1145             }
   1146         }
   1147         break;
   1148         default:
   1149             SL_LOGE("Cannot create player with SL_DATALOCATOR_ANDROIDBUFFERQUEUE data source "
   1150                     "without SL_DATAFORMAT_MIME format");
   1151             return SL_RESULT_CONTENT_UNSUPPORTED;
   1152         }
   1153     }
   1154     break; // case SL_DATALOCATOR_ANDROIDBUFFERQUEUE
   1155     //------------------
   1156     //   Address
   1157     case SL_DATALOCATOR_ADDRESS:
   1158     case SL_DATALOCATOR_IODEVICE:
   1159     case SL_DATALOCATOR_OUTPUTMIX:
   1160     case XA_DATALOCATOR_NATIVEDISPLAY:
   1161     case SL_DATALOCATOR_MIDIBUFFERQUEUE:
   1162         SL_LOGE("Cannot create audio player with data locator type 0x%x",
   1163                 (unsigned) sourceLocatorType);
   1164         return SL_RESULT_CONTENT_UNSUPPORTED;
   1165     default:
   1166         SL_LOGE("Cannot create audio player with invalid data locator type 0x%x",
   1167                 (unsigned) sourceLocatorType);
   1168         return SL_RESULT_PARAMETER_INVALID;
   1169     }// switch (locatorType)
   1170 
   1171     return SL_RESULT_SUCCESS;
   1172 }
   1173 
   1174 
   1175 //-----------------------------------------------------------------------------
   1176 // Callback associated with an AudioTrack of an SL ES AudioPlayer that gets its data
   1177 // from a buffer queue. This will not be called once the AudioTrack has been destroyed.
   1178 static void audioTrack_callBack_pullFromBuffQueue(int event, void* user, void *info) {
   1179     CAudioPlayer *ap = (CAudioPlayer *)user;
   1180 
   1181     if (!android::CallbackProtector::enterCbIfOk(ap->mCallbackProtector)) {
   1182         // it is not safe to enter the callback (the track is about to go away)
   1183         return;
   1184     }
   1185 
   1186     void * callbackPContext = NULL;
   1187     switch(event) {
   1188 
   1189     case android::AudioTrack::EVENT_MORE_DATA: {
   1190         //SL_LOGV("received event EVENT_MORE_DATA from AudioTrack TID=%d", gettid());
   1191         slBufferQueueCallback callback = NULL;
   1192         slPrefetchCallback prefetchCallback = NULL;
   1193         void *prefetchContext = NULL;
   1194         SLuint32 prefetchEvents = SL_PREFETCHEVENT_NONE;
   1195         android::AudioTrack::Buffer* pBuff = (android::AudioTrack::Buffer*)info;
   1196 
   1197         // retrieve data from the buffer queue
   1198         interface_lock_exclusive(&ap->mBufferQueue);
   1199 
   1200         if (ap->mBufferQueue.mState.count != 0) {
   1201             //SL_LOGV("nbBuffers in queue = %u",ap->mBufferQueue.mState.count);
   1202             assert(ap->mBufferQueue.mFront != ap->mBufferQueue.mRear);
   1203 
   1204             BufferHeader *oldFront = ap->mBufferQueue.mFront;
   1205             BufferHeader *newFront = &oldFront[1];
   1206 
   1207             // declared as void * because this code supports both 8-bit and 16-bit PCM data
   1208             void *pSrc = (char *)oldFront->mBuffer + ap->mBufferQueue.mSizeConsumed;
   1209             if (ap->mBufferQueue.mSizeConsumed + pBuff->size < oldFront->mSize) {
   1210                 // can't consume the whole or rest of the buffer in one shot
   1211                 ap->mBufferQueue.mSizeConsumed += pBuff->size;
   1212                 // leave pBuff->size untouched
   1213                 // consume data
   1214                 // FIXME can we avoid holding the lock during the copy?
   1215                 memcpy (pBuff->raw, pSrc, pBuff->size);
   1216             } else {
   1217                 // finish consuming the buffer or consume the buffer in one shot
   1218                 pBuff->size = oldFront->mSize - ap->mBufferQueue.mSizeConsumed;
   1219                 ap->mBufferQueue.mSizeConsumed = 0;
   1220 
   1221                 if (newFront ==
   1222                         &ap->mBufferQueue.mArray
   1223                             [ap->mBufferQueue.mNumBuffers + 1])
   1224                 {
   1225                     newFront = ap->mBufferQueue.mArray;
   1226                 }
   1227                 ap->mBufferQueue.mFront = newFront;
   1228 
   1229                 ap->mBufferQueue.mState.count--;
   1230                 ap->mBufferQueue.mState.playIndex++;
   1231 
   1232                 // consume data
   1233                 // FIXME can we avoid holding the lock during the copy?
   1234                 memcpy (pBuff->raw, pSrc, pBuff->size);
   1235 
   1236                 // data has been consumed, and the buffer queue state has been updated
   1237                 // we will notify the client if applicable
   1238                 callback = ap->mBufferQueue.mCallback;
   1239                 // save callback data
   1240                 callbackPContext = ap->mBufferQueue.mContext;
   1241             }
   1242         } else { // empty queue
   1243             // signal no data available
   1244             pBuff->size = 0;
   1245 
   1246             // signal we're at the end of the content, but don't pause (see note in function)
   1247             audioPlayer_dispatch_headAtEnd_lockPlay(ap, false /*set state to paused?*/, false);
   1248 
   1249             // signal underflow to prefetch status itf
   1250             if (IsInterfaceInitialized(&(ap->mObject), MPH_PREFETCHSTATUS)) {
   1251                 ap->mPrefetchStatus.mStatus = SL_PREFETCHSTATUS_UNDERFLOW;
   1252                 ap->mPrefetchStatus.mLevel = 0;
   1253                 // callback or no callback?
   1254                 prefetchEvents = ap->mPrefetchStatus.mCallbackEventsMask &
   1255                         (SL_PREFETCHEVENT_STATUSCHANGE | SL_PREFETCHEVENT_FILLLEVELCHANGE);
   1256                 if (SL_PREFETCHEVENT_NONE != prefetchEvents) {
   1257                     prefetchCallback = ap->mPrefetchStatus.mCallback;
   1258                     prefetchContext  = ap->mPrefetchStatus.mContext;
   1259                 }
   1260             }
   1261 
   1262             // stop the track so it restarts playing faster when new data is enqueued
   1263             ap->mAudioTrack->stop();
   1264         }
   1265         interface_unlock_exclusive(&ap->mBufferQueue);
   1266 
   1267         // notify client
   1268         if (NULL != prefetchCallback) {
   1269             assert(SL_PREFETCHEVENT_NONE != prefetchEvents);
   1270             // spec requires separate callbacks for each event
   1271             if (prefetchEvents & SL_PREFETCHEVENT_STATUSCHANGE) {
   1272                 (*prefetchCallback)(&ap->mPrefetchStatus.mItf, prefetchContext,
   1273                         SL_PREFETCHEVENT_STATUSCHANGE);
   1274             }
   1275             if (prefetchEvents & SL_PREFETCHEVENT_FILLLEVELCHANGE) {
   1276                 (*prefetchCallback)(&ap->mPrefetchStatus.mItf, prefetchContext,
   1277                         SL_PREFETCHEVENT_FILLLEVELCHANGE);
   1278             }
   1279         }
   1280         if (NULL != callback) {
   1281             (*callback)(&ap->mBufferQueue.mItf, callbackPContext);
   1282         }
   1283     }
   1284     break;
   1285 
   1286     case android::AudioTrack::EVENT_MARKER:
   1287         //SL_LOGI("received event EVENT_MARKER from AudioTrack");
   1288         audioTrack_handleMarker_lockPlay(ap);
   1289         break;
   1290 
   1291     case android::AudioTrack::EVENT_NEW_POS:
   1292         //SL_LOGI("received event EVENT_NEW_POS from AudioTrack");
   1293         audioTrack_handleNewPos_lockPlay(ap);
   1294         break;
   1295 
   1296     case android::AudioTrack::EVENT_UNDERRUN:
   1297         //SL_LOGI("received event EVENT_UNDERRUN from AudioTrack");
   1298         audioTrack_handleUnderrun_lockPlay(ap);
   1299         break;
   1300 
   1301     case android::AudioTrack::EVENT_BUFFER_END:
   1302     case android::AudioTrack::EVENT_LOOP_END:
   1303         // These are unexpected so fall through
   1304     default:
   1305         // FIXME where does the notification of SL_PLAYEVENT_HEADMOVING fit?
   1306         SL_LOGE("Encountered unknown AudioTrack event %d for CAudioPlayer %p", event,
   1307                 (CAudioPlayer *)user);
   1308         break;
   1309     }
   1310 
   1311     ap->mCallbackProtector->exitCb();
   1312 }
   1313 
   1314 
   1315 //-----------------------------------------------------------------------------
   1316 void android_audioPlayer_create(CAudioPlayer *pAudioPlayer) {
   1317 
   1318     // pAudioPlayer->mAndroidObjType has been set in android_audioPlayer_checkSourceSink()
   1319     // and if it was == INVALID_TYPE, then IEngine_CreateAudioPlayer would never call us
   1320     assert(INVALID_TYPE != pAudioPlayer->mAndroidObjType);
   1321 
   1322     // These initializations are in the same order as the field declarations in classes.h
   1323 
   1324     // FIXME Consolidate initializations (many of these already in IEngine_CreateAudioPlayer)
   1325     // mAndroidObjType: see above comment
   1326     pAudioPlayer->mAndroidObjState = ANDROID_UNINITIALIZED;
   1327     pAudioPlayer->mSessionId = android::AudioSystem::newAudioUniqueId();
   1328 
   1329     // placeholder: not necessary yet as session ID lifetime doesn't extend beyond player
   1330     // android::AudioSystem::acquireAudioSessionId(pAudioPlayer->mSessionId);
   1331 
   1332     pAudioPlayer->mStreamType = ANDROID_DEFAULT_OUTPUT_STREAM_TYPE;
   1333 
   1334     // mAudioTrack
   1335     pAudioPlayer->mCallbackProtector = new android::CallbackProtector();
   1336     // mAPLayer
   1337     // mAuxEffect
   1338 
   1339     pAudioPlayer->mAuxSendLevel = 0;
   1340     pAudioPlayer->mAmplFromDirectLevel = 1.0f; // matches initial mDirectLevel value
   1341     pAudioPlayer->mDeferredStart = false;
   1342 
   1343     // This section re-initializes interface-specific fields that
   1344     // can be set or used regardless of whether the interface is
   1345     // exposed on the AudioPlayer or not
   1346 
   1347     switch (pAudioPlayer->mAndroidObjType) {
   1348     case AUDIOPLAYER_FROM_PCM_BUFFERQUEUE:
   1349         pAudioPlayer->mPlaybackRate.mMinRate = AUDIOTRACK_MIN_PLAYBACKRATE_PERMILLE;
   1350         pAudioPlayer->mPlaybackRate.mMaxRate = AUDIOTRACK_MAX_PLAYBACKRATE_PERMILLE;
   1351         break;
   1352     case AUDIOPLAYER_FROM_URIFD:
   1353         pAudioPlayer->mPlaybackRate.mMinRate = MEDIAPLAYER_MIN_PLAYBACKRATE_PERMILLE;
   1354         pAudioPlayer->mPlaybackRate.mMaxRate = MEDIAPLAYER_MAX_PLAYBACKRATE_PERMILLE;
   1355         break;
   1356     default:
   1357         // use the default range
   1358         break;
   1359     }
   1360 
   1361 }
   1362 
   1363 
   1364 //-----------------------------------------------------------------------------
   1365 SLresult android_audioPlayer_setConfig(CAudioPlayer *ap, const SLchar *configKey,
   1366         const void *pConfigValue, SLuint32 valueSize) {
   1367 
   1368     SLresult result;
   1369 
   1370     assert(NULL != ap && NULL != configKey && NULL != pConfigValue);
   1371     if (strcmp((const char*)configKey, (const char*)SL_ANDROID_KEY_STREAM_TYPE) == 0) {
   1372 
   1373         // stream type
   1374         if (KEY_STREAM_TYPE_PARAMSIZE > valueSize) {
   1375             SL_LOGE(ERROR_CONFIG_VALUESIZE_TOO_LOW);
   1376             result = SL_RESULT_BUFFER_INSUFFICIENT;
   1377         } else {
   1378             result = audioPlayer_setStreamType(ap, *(SLuint32*)pConfigValue);
   1379         }
   1380 
   1381     } else {
   1382         SL_LOGE(ERROR_CONFIG_UNKNOWN_KEY);
   1383         result = SL_RESULT_PARAMETER_INVALID;
   1384     }
   1385 
   1386     return result;
   1387 }
   1388 
   1389 
   1390 //-----------------------------------------------------------------------------
   1391 SLresult android_audioPlayer_getConfig(CAudioPlayer* ap, const SLchar *configKey,
   1392         SLuint32* pValueSize, void *pConfigValue) {
   1393 
   1394     SLresult result;
   1395 
   1396     assert(NULL != ap && NULL != configKey && NULL != pValueSize);
   1397     if (strcmp((const char*)configKey, (const char*)SL_ANDROID_KEY_STREAM_TYPE) == 0) {
   1398 
   1399         // stream type
   1400         if (NULL == pConfigValue) {
   1401             result = SL_RESULT_SUCCESS;
   1402         } else if (KEY_STREAM_TYPE_PARAMSIZE > *pValueSize) {
   1403             SL_LOGE(ERROR_CONFIG_VALUESIZE_TOO_LOW);
   1404             result = SL_RESULT_BUFFER_INSUFFICIENT;
   1405         } else {
   1406             result = audioPlayer_getStreamType(ap, (SLint32*)pConfigValue);
   1407         }
   1408         *pValueSize = KEY_STREAM_TYPE_PARAMSIZE;
   1409 
   1410     } else {
   1411         SL_LOGE(ERROR_CONFIG_UNKNOWN_KEY);
   1412         result = SL_RESULT_PARAMETER_INVALID;
   1413     }
   1414 
   1415     return result;
   1416 }
   1417 
   1418 
   1419 // Called from android_audioPlayer_realize for a PCM buffer queue player
   1420 // to determine if it can use a fast track.
   1421 static bool canUseFastTrack(CAudioPlayer *pAudioPlayer)
   1422 {
   1423     assert(pAudioPlayer->mAndroidObjType == AUDIOPLAYER_FROM_PCM_BUFFERQUEUE);
   1424 
   1425     // no need to check the buffer queue size, application side
   1426     // double-buffering (and more) is not a requirement for using fast tracks
   1427 
   1428     // Check a blacklist of interfaces that are incompatible with fast tracks.
   1429     // The alternative, to check a whitelist of compatible interfaces, is
   1430     // more maintainable but is too slow.  As a compromise, in a debug build
   1431     // we use both methods and warn if they produce different results.
   1432     // In release builds, we only use the blacklist method.
   1433     // If a blacklisted interface is added after realization using
   1434     // DynamicInterfaceManagement::AddInterface,
   1435     // then this won't be detected but the interface will be ineffective.
   1436     bool blacklistResult = true;
   1437     static const unsigned blacklist[] = {
   1438         MPH_BASSBOOST,
   1439         MPH_EFFECTSEND,
   1440         MPH_ENVIRONMENTALREVERB,
   1441         MPH_EQUALIZER,
   1442         MPH_PLAYBACKRATE,
   1443         MPH_PRESETREVERB,
   1444         MPH_VIRTUALIZER,
   1445         MPH_ANDROIDEFFECT,
   1446         MPH_ANDROIDEFFECTSEND,
   1447         // FIXME The problem with a blacklist is remembering to add new interfaces here
   1448     };
   1449     for (unsigned i = 0; i < sizeof(blacklist)/sizeof(blacklist[0]); ++i) {
   1450         if (IsInterfaceInitialized(&pAudioPlayer->mObject, blacklist[i])) {
   1451             blacklistResult = false;
   1452             break;
   1453         }
   1454     }
   1455 #if LOG_NDEBUG == 0
   1456     bool whitelistResult = true;
   1457     static const unsigned whitelist[] = {
   1458         MPH_BUFFERQUEUE,
   1459         MPH_DYNAMICINTERFACEMANAGEMENT,
   1460         MPH_METADATAEXTRACTION,
   1461         MPH_MUTESOLO,
   1462         MPH_OBJECT,
   1463         MPH_PLAY,
   1464         MPH_PREFETCHSTATUS,
   1465         MPH_VOLUME,
   1466         MPH_ANDROIDCONFIGURATION,
   1467         MPH_ANDROIDSIMPLEBUFFERQUEUE,
   1468         MPH_ANDROIDBUFFERQUEUESOURCE,
   1469     };
   1470     for (unsigned mph = MPH_MIN; mph < MPH_MAX; ++mph) {
   1471         for (unsigned i = 0; i < sizeof(whitelist)/sizeof(whitelist[0]); ++i) {
   1472             if (mph == whitelist[i]) {
   1473                 goto compatible;
   1474             }
   1475         }
   1476         if (IsInterfaceInitialized(&pAudioPlayer->mObject, mph)) {
   1477             whitelistResult = false;
   1478             break;
   1479         }
   1480 compatible: ;
   1481     }
   1482     if (whitelistResult != blacklistResult) {
   1483         ALOGW("whitelistResult != blacklistResult");
   1484         // and use blacklistResult below
   1485     }
   1486 #endif
   1487     return blacklistResult;
   1488 }
   1489 
   1490 
   1491 //-----------------------------------------------------------------------------
   1492 // FIXME abstract out the diff between CMediaPlayer and CAudioPlayer
   1493 SLresult android_audioPlayer_realize(CAudioPlayer *pAudioPlayer, SLboolean async) {
   1494 
   1495     SLresult result = SL_RESULT_SUCCESS;
   1496     SL_LOGV("Realize pAudioPlayer=%p", pAudioPlayer);
   1497 
   1498     AudioPlayback_Parameters app;
   1499     app.sessionId = pAudioPlayer->mSessionId;
   1500     app.streamType = pAudioPlayer->mStreamType;
   1501 
   1502     switch (pAudioPlayer->mAndroidObjType) {
   1503 
   1504     //-----------------------------------
   1505     // AudioTrack
   1506     case AUDIOPLAYER_FROM_PCM_BUFFERQUEUE:
   1507         {
   1508         // initialize platform-specific CAudioPlayer fields
   1509 
   1510         SLDataLocator_BufferQueue *dl_bq = (SLDataLocator_BufferQueue *)
   1511                 pAudioPlayer->mDynamicSource.mDataSource;
   1512         SLDataFormat_PCM *df_pcm = (SLDataFormat_PCM *)
   1513                 pAudioPlayer->mDynamicSource.mDataSource->pFormat;
   1514 
   1515         uint32_t sampleRate = sles_to_android_sampleRate(df_pcm->samplesPerSec);
   1516 
   1517         audio_output_flags_t policy;
   1518         if (canUseFastTrack(pAudioPlayer)) {
   1519             policy = AUDIO_OUTPUT_FLAG_FAST;
   1520         } else {
   1521             policy = AUDIO_OUTPUT_FLAG_NONE;
   1522         }
   1523 
   1524         pAudioPlayer->mAudioTrack = new android::AudioTrack(
   1525                 pAudioPlayer->mStreamType,                           // streamType
   1526                 sampleRate,                                          // sampleRate
   1527                 sles_to_android_sampleFormat(df_pcm),                // format
   1528                 sles_to_android_channelMaskOut(df_pcm->numChannels, df_pcm->channelMask),
   1529                                                                      // channel mask
   1530                 0,                                                   // frameCount
   1531                 policy,                                              // flags
   1532                 audioTrack_callBack_pullFromBuffQueue,               // callback
   1533                 (void *) pAudioPlayer,                               // user
   1534                 0,     // FIXME find appropriate frame count         // notificationFrame
   1535                 pAudioPlayer->mSessionId);
   1536         android::status_t status = pAudioPlayer->mAudioTrack->initCheck();
   1537         if (status != android::NO_ERROR) {
   1538             SL_LOGE("AudioTrack::initCheck status %u", status);
   1539             result = SL_RESULT_CONTENT_UNSUPPORTED;
   1540             pAudioPlayer->mAudioTrack.clear();
   1541             return result;
   1542         }
   1543 
   1544         // initialize platform-independent CAudioPlayer fields
   1545 
   1546         pAudioPlayer->mNumChannels = df_pcm->numChannels;
   1547         pAudioPlayer->mSampleRateMilliHz = df_pcm->samplesPerSec; // Note: bad field name in SL ES
   1548 
   1549         // This use case does not have a separate "prepare" step
   1550         pAudioPlayer->mAndroidObjState = ANDROID_READY;
   1551         }
   1552         break;
   1553 
   1554     //-----------------------------------
   1555     // MediaPlayer
   1556     case AUDIOPLAYER_FROM_URIFD: {
   1557         pAudioPlayer->mAPlayer = new android::LocAVPlayer(&app, false /*hasVideo*/);
   1558         pAudioPlayer->mAPlayer->init(sfplayer_handlePrefetchEvent,
   1559                         (void*)pAudioPlayer /*notifUSer*/);
   1560 
   1561         switch (pAudioPlayer->mDataSource.mLocator.mLocatorType) {
   1562             case SL_DATALOCATOR_URI: {
   1563                 // The legacy implementation ran Stagefright within the application process, and
   1564                 // so allowed local pathnames specified by URI that were openable by
   1565                 // the application but were not openable by mediaserver.
   1566                 // The current implementation runs Stagefright (mostly) within mediaserver,
   1567                 // which runs as a different UID and likely a different current working directory.
   1568                 // For backwards compatibility with any applications which may have relied on the
   1569                 // previous behavior, we convert an openable file URI into an FD.
   1570                 // Note that unlike SL_DATALOCATOR_ANDROIDFD, this FD is owned by us
   1571                 // and so we close it as soon as we've passed it (via Binder dup) to mediaserver.
   1572                 const char *uri = (const char *)pAudioPlayer->mDataSource.mLocator.mURI.URI;
   1573                 if (!isDistantProtocol(uri)) {
   1574                     // don't touch the original uri, we may need it later
   1575                     const char *pathname = uri;
   1576                     // skip over an optional leading file:// prefix
   1577                     if (!strncasecmp(pathname, "file://", 7)) {
   1578                         pathname += 7;
   1579                     }
   1580                     // attempt to open it as a file using the application's credentials
   1581                     int fd = ::open(pathname, O_RDONLY);
   1582                     if (fd >= 0) {
   1583                         // if open is successful, then check to see if it's a regular file
   1584                         struct stat statbuf;
   1585                         if (!::fstat(fd, &statbuf) && S_ISREG(statbuf.st_mode)) {
   1586                             // treat similarly to an FD data locator, but
   1587                             // let setDataSource take responsibility for closing fd
   1588                             pAudioPlayer->mAPlayer->setDataSource(fd, 0, statbuf.st_size, true);
   1589                             break;
   1590                         }
   1591                         // we were able to open it, but it's not a file, so let mediaserver try
   1592                         (void) ::close(fd);
   1593                     }
   1594                 }
   1595                 // if either the URI didn't look like a file, or open failed, or not a file
   1596                 pAudioPlayer->mAPlayer->setDataSource(uri);
   1597                 } break;
   1598             case SL_DATALOCATOR_ANDROIDFD: {
   1599                 int64_t offset = (int64_t)pAudioPlayer->mDataSource.mLocator.mFD.offset;
   1600                 pAudioPlayer->mAPlayer->setDataSource(
   1601                         (int)pAudioPlayer->mDataSource.mLocator.mFD.fd,
   1602                         offset == SL_DATALOCATOR_ANDROIDFD_USE_FILE_SIZE ?
   1603                                 (int64_t)PLAYER_FD_FIND_FILE_SIZE : offset,
   1604                         (int64_t)pAudioPlayer->mDataSource.mLocator.mFD.length);
   1605                 }
   1606                 break;
   1607             default:
   1608                 SL_LOGE(ERROR_PLAYERREALIZE_UNKNOWN_DATASOURCE_LOCATOR);
   1609                 break;
   1610         }
   1611 
   1612         }
   1613         break;
   1614 
   1615     //-----------------------------------
   1616     // StreamPlayer
   1617     case AUDIOPLAYER_FROM_TS_ANDROIDBUFFERQUEUE: {
   1618         android::StreamPlayer* splr = new android::StreamPlayer(&app, false /*hasVideo*/,
   1619                 &pAudioPlayer->mAndroidBufferQueue, pAudioPlayer->mCallbackProtector);
   1620         pAudioPlayer->mAPlayer = splr;
   1621         splr->init(sfplayer_handlePrefetchEvent, (void*)pAudioPlayer);
   1622         }
   1623         break;
   1624 
   1625     //-----------------------------------
   1626     // AudioToCbRenderer
   1627     case AUDIOPLAYER_FROM_URIFD_TO_PCM_BUFFERQUEUE: {
   1628         android::AudioToCbRenderer* decoder = new android::AudioToCbRenderer(&app);
   1629         pAudioPlayer->mAPlayer = decoder;
   1630         // configures the callback for the sink buffer queue
   1631         decoder->setDataPushListener(adecoder_writeToBufferQueue, pAudioPlayer);
   1632         // configures the callback for the notifications coming from the SF code
   1633         decoder->init(sfplayer_handlePrefetchEvent, (void*)pAudioPlayer);
   1634 
   1635         switch (pAudioPlayer->mDataSource.mLocator.mLocatorType) {
   1636         case SL_DATALOCATOR_URI:
   1637             decoder->setDataSource(
   1638                     (const char*)pAudioPlayer->mDataSource.mLocator.mURI.URI);
   1639             break;
   1640         case SL_DATALOCATOR_ANDROIDFD: {
   1641             int64_t offset = (int64_t)pAudioPlayer->mDataSource.mLocator.mFD.offset;
   1642             decoder->setDataSource(
   1643                     (int)pAudioPlayer->mDataSource.mLocator.mFD.fd,
   1644                     offset == SL_DATALOCATOR_ANDROIDFD_USE_FILE_SIZE ?
   1645                             (int64_t)PLAYER_FD_FIND_FILE_SIZE : offset,
   1646                             (int64_t)pAudioPlayer->mDataSource.mLocator.mFD.length);
   1647             }
   1648             break;
   1649         default:
   1650             SL_LOGE(ERROR_PLAYERREALIZE_UNKNOWN_DATASOURCE_LOCATOR);
   1651             break;
   1652         }
   1653 
   1654         }
   1655         break;
   1656 
   1657     //-----------------------------------
   1658     // AacBqToPcmCbRenderer
   1659     case AUDIOPLAYER_FROM_ADTS_ABQ_TO_PCM_BUFFERQUEUE: {
   1660         android::AacBqToPcmCbRenderer* bqtobq = new android::AacBqToPcmCbRenderer(&app,
   1661                 &pAudioPlayer->mAndroidBufferQueue);
   1662         // configures the callback for the sink buffer queue
   1663         bqtobq->setDataPushListener(adecoder_writeToBufferQueue, pAudioPlayer);
   1664         pAudioPlayer->mAPlayer = bqtobq;
   1665         // configures the callback for the notifications coming from the SF code,
   1666         // but also implicitly configures the AndroidBufferQueue from which ADTS data is read
   1667         pAudioPlayer->mAPlayer->init(sfplayer_handlePrefetchEvent, (void*)pAudioPlayer);
   1668         }
   1669         break;
   1670 
   1671     //-----------------------------------
   1672     default:
   1673         SL_LOGE(ERROR_PLAYERREALIZE_UNEXPECTED_OBJECT_TYPE_D, pAudioPlayer->mAndroidObjType);
   1674         result = SL_RESULT_INTERNAL_ERROR;
   1675         break;
   1676     }
   1677 
   1678     // proceed with effect initialization
   1679     // initialize EQ
   1680     // FIXME use a table of effect descriptors when adding support for more effects
   1681     if (memcmp(SL_IID_EQUALIZER, &pAudioPlayer->mEqualizer.mEqDescriptor.type,
   1682             sizeof(effect_uuid_t)) == 0) {
   1683         SL_LOGV("Need to initialize EQ for AudioPlayer=%p", pAudioPlayer);
   1684         android_eq_init(pAudioPlayer->mSessionId, &pAudioPlayer->mEqualizer);
   1685     }
   1686     // initialize BassBoost
   1687     if (memcmp(SL_IID_BASSBOOST, &pAudioPlayer->mBassBoost.mBassBoostDescriptor.type,
   1688             sizeof(effect_uuid_t)) == 0) {
   1689         SL_LOGV("Need to initialize BassBoost for AudioPlayer=%p", pAudioPlayer);
   1690         android_bb_init(pAudioPlayer->mSessionId, &pAudioPlayer->mBassBoost);
   1691     }
   1692     // initialize Virtualizer
   1693     if (memcmp(SL_IID_VIRTUALIZER, &pAudioPlayer->mVirtualizer.mVirtualizerDescriptor.type,
   1694                sizeof(effect_uuid_t)) == 0) {
   1695         SL_LOGV("Need to initialize Virtualizer for AudioPlayer=%p", pAudioPlayer);
   1696         android_virt_init(pAudioPlayer->mSessionId, &pAudioPlayer->mVirtualizer);
   1697     }
   1698 
   1699     // initialize EffectSend
   1700     // FIXME initialize EffectSend
   1701 
   1702     return result;
   1703 }
   1704 
   1705 
   1706 //-----------------------------------------------------------------------------
   1707 /**
   1708  * Called with a lock on AudioPlayer, and blocks until safe to destroy
   1709  */
   1710 SLresult android_audioPlayer_preDestroy(CAudioPlayer *pAudioPlayer) {
   1711     SL_LOGD("android_audioPlayer_preDestroy(%p)", pAudioPlayer);
   1712     SLresult result = SL_RESULT_SUCCESS;
   1713 
   1714     bool disableCallbacksBeforePreDestroy;
   1715     switch (pAudioPlayer->mAndroidObjType) {
   1716     // Not yet clear why this order is important, but it reduces detected deadlocks
   1717     case AUDIOPLAYER_FROM_URIFD_TO_PCM_BUFFERQUEUE:
   1718         disableCallbacksBeforePreDestroy = true;
   1719         break;
   1720     // Use the old behavior for all other use cases until proven
   1721     // case AUDIOPLAYER_FROM_ADTS_ABQ_TO_PCM_BUFFERQUEUE:
   1722     default:
   1723         disableCallbacksBeforePreDestroy = false;
   1724         break;
   1725     }
   1726 
   1727     if (disableCallbacksBeforePreDestroy) {
   1728         object_unlock_exclusive(&pAudioPlayer->mObject);
   1729         if (pAudioPlayer->mCallbackProtector != 0) {
   1730             pAudioPlayer->mCallbackProtector->requestCbExitAndWait();
   1731         }
   1732         object_lock_exclusive(&pAudioPlayer->mObject);
   1733     }
   1734 
   1735     if (pAudioPlayer->mAPlayer != 0) {
   1736         pAudioPlayer->mAPlayer->preDestroy();
   1737     }
   1738     SL_LOGD("android_audioPlayer_preDestroy(%p) after mAPlayer->preDestroy()", pAudioPlayer);
   1739 
   1740     if (!disableCallbacksBeforePreDestroy) {
   1741         object_unlock_exclusive(&pAudioPlayer->mObject);
   1742         if (pAudioPlayer->mCallbackProtector != 0) {
   1743             pAudioPlayer->mCallbackProtector->requestCbExitAndWait();
   1744         }
   1745         object_lock_exclusive(&pAudioPlayer->mObject);
   1746     }
   1747 
   1748     return result;
   1749 }
   1750 
   1751 
   1752 //-----------------------------------------------------------------------------
   1753 SLresult android_audioPlayer_destroy(CAudioPlayer *pAudioPlayer) {
   1754     SLresult result = SL_RESULT_SUCCESS;
   1755     SL_LOGV("android_audioPlayer_destroy(%p)", pAudioPlayer);
   1756     switch (pAudioPlayer->mAndroidObjType) {
   1757 
   1758     case AUDIOPLAYER_FROM_PCM_BUFFERQUEUE:
   1759         // We own the audio track for PCM buffer queue players
   1760         if (pAudioPlayer->mAudioTrack != 0) {
   1761             pAudioPlayer->mAudioTrack->stop();
   1762             // Note that there may still be another reference in post-unlock phase of SetPlayState
   1763             pAudioPlayer->mAudioTrack.clear();
   1764         }
   1765         break;
   1766 
   1767     case AUDIOPLAYER_FROM_URIFD:     // intended fall-through
   1768     case AUDIOPLAYER_FROM_TS_ANDROIDBUFFERQUEUE:    // intended fall-through
   1769     case AUDIOPLAYER_FROM_URIFD_TO_PCM_BUFFERQUEUE: // intended fall-through
   1770     case AUDIOPLAYER_FROM_ADTS_ABQ_TO_PCM_BUFFERQUEUE:
   1771         pAudioPlayer->mAPlayer.clear();
   1772         break;
   1773     //-----------------------------------
   1774     default:
   1775         SL_LOGE(ERROR_PLAYERDESTROY_UNEXPECTED_OBJECT_TYPE_D, pAudioPlayer->mAndroidObjType);
   1776         result = SL_RESULT_INTERNAL_ERROR;
   1777         break;
   1778     }
   1779 
   1780     // placeholder: not necessary yet as session ID lifetime doesn't extend beyond player
   1781     // android::AudioSystem::releaseAudioSessionId(pAudioPlayer->mSessionId);
   1782 
   1783     pAudioPlayer->mCallbackProtector.clear();
   1784 
   1785     // explicit destructor
   1786     pAudioPlayer->mAudioTrack.~sp();
   1787     // note that SetPlayState(PLAYING) may still hold a reference
   1788     pAudioPlayer->mCallbackProtector.~sp();
   1789     pAudioPlayer->mAuxEffect.~sp();
   1790     pAudioPlayer->mAPlayer.~sp();
   1791 
   1792     return result;
   1793 }
   1794 
   1795 
   1796 //-----------------------------------------------------------------------------
   1797 SLresult android_audioPlayer_setPlaybackRateAndConstraints(CAudioPlayer *ap, SLpermille rate,
   1798         SLuint32 constraints) {
   1799     SLresult result = SL_RESULT_SUCCESS;
   1800     switch(ap->mAndroidObjType) {
   1801     case AUDIOPLAYER_FROM_PCM_BUFFERQUEUE: {
   1802         // these asserts were already checked by the platform-independent layer
   1803         assert((AUDIOTRACK_MIN_PLAYBACKRATE_PERMILLE <= rate) &&
   1804                 (rate <= AUDIOTRACK_MAX_PLAYBACKRATE_PERMILLE));
   1805         assert(constraints & SL_RATEPROP_NOPITCHCORAUDIO);
   1806         // get the content sample rate
   1807         uint32_t contentRate = sles_to_android_sampleRate(ap->mSampleRateMilliHz);
   1808         // apply the SL ES playback rate on the AudioTrack as a factor of its content sample rate
   1809         if (ap->mAudioTrack != 0) {
   1810             ap->mAudioTrack->setSampleRate(contentRate * (rate/1000.0f));
   1811         }
   1812         }
   1813         break;
   1814     case AUDIOPLAYER_FROM_URIFD: {
   1815         assert((MEDIAPLAYER_MIN_PLAYBACKRATE_PERMILLE <= rate) &&
   1816                         (rate <= MEDIAPLAYER_MAX_PLAYBACKRATE_PERMILLE));
   1817         assert(constraints & SL_RATEPROP_NOPITCHCORAUDIO);
   1818         // apply the SL ES playback rate on the GenericPlayer
   1819         if (ap->mAPlayer != 0) {
   1820             ap->mAPlayer->setPlaybackRate((int16_t)rate);
   1821         }
   1822         }
   1823         break;
   1824 
   1825     default:
   1826         SL_LOGE("Unexpected object type %d", ap->mAndroidObjType);
   1827         result = SL_RESULT_FEATURE_UNSUPPORTED;
   1828         break;
   1829     }
   1830     return result;
   1831 }
   1832 
   1833 
   1834 //-----------------------------------------------------------------------------
   1835 // precondition
   1836 //  called with no lock held
   1837 //  ap != NULL
   1838 //  pItemCount != NULL
   1839 SLresult android_audioPlayer_metadata_getItemCount(CAudioPlayer *ap, SLuint32 *pItemCount) {
   1840     if (ap->mAPlayer == 0) {
   1841         return SL_RESULT_PARAMETER_INVALID;
   1842     }
   1843     switch(ap->mAndroidObjType) {
   1844       case AUDIOPLAYER_FROM_URIFD_TO_PCM_BUFFERQUEUE:
   1845       case AUDIOPLAYER_FROM_ADTS_ABQ_TO_PCM_BUFFERQUEUE:
   1846         {
   1847             android::AudioSfDecoder* decoder =
   1848                     static_cast<android::AudioSfDecoder*>(ap->mAPlayer.get());
   1849             *pItemCount = decoder->getPcmFormatKeyCount();
   1850         }
   1851         break;
   1852       default:
   1853         *pItemCount = 0;
   1854         break;
   1855     }
   1856     return SL_RESULT_SUCCESS;
   1857 }
   1858 
   1859 
   1860 //-----------------------------------------------------------------------------
   1861 // precondition
   1862 //  called with no lock held
   1863 //  ap != NULL
   1864 //  pKeySize != NULL
   1865 SLresult android_audioPlayer_metadata_getKeySize(CAudioPlayer *ap,
   1866         SLuint32 index, SLuint32 *pKeySize) {
   1867     if (ap->mAPlayer == 0) {
   1868         return SL_RESULT_PARAMETER_INVALID;
   1869     }
   1870     SLresult res = SL_RESULT_SUCCESS;
   1871     switch(ap->mAndroidObjType) {
   1872       case AUDIOPLAYER_FROM_URIFD_TO_PCM_BUFFERQUEUE:
   1873       case AUDIOPLAYER_FROM_ADTS_ABQ_TO_PCM_BUFFERQUEUE:
   1874         {
   1875             android::AudioSfDecoder* decoder =
   1876                     static_cast<android::AudioSfDecoder*>(ap->mAPlayer.get());
   1877             SLuint32 keyNameSize = 0;
   1878             if (!decoder->getPcmFormatKeySize(index, &keyNameSize)) {
   1879                 res = SL_RESULT_PARAMETER_INVALID;
   1880             } else {
   1881                 // *pKeySize is the size of the region used to store the key name AND
   1882                 //   the information about the key (size, lang, encoding)
   1883                 *pKeySize = keyNameSize + sizeof(SLMetadataInfo);
   1884             }
   1885         }
   1886         break;
   1887       default:
   1888         *pKeySize = 0;
   1889         res = SL_RESULT_PARAMETER_INVALID;
   1890         break;
   1891     }
   1892     return res;
   1893 }
   1894 
   1895 
   1896 //-----------------------------------------------------------------------------
   1897 // precondition
   1898 //  called with no lock held
   1899 //  ap != NULL
   1900 //  pKey != NULL
   1901 SLresult android_audioPlayer_metadata_getKey(CAudioPlayer *ap,
   1902         SLuint32 index, SLuint32 size, SLMetadataInfo *pKey) {
   1903     if (ap->mAPlayer == 0) {
   1904         return SL_RESULT_PARAMETER_INVALID;
   1905     }
   1906     SLresult res = SL_RESULT_SUCCESS;
   1907     switch(ap->mAndroidObjType) {
   1908       case AUDIOPLAYER_FROM_URIFD_TO_PCM_BUFFERQUEUE:
   1909       case AUDIOPLAYER_FROM_ADTS_ABQ_TO_PCM_BUFFERQUEUE:
   1910         {
   1911             android::AudioSfDecoder* decoder =
   1912                     static_cast<android::AudioSfDecoder*>(ap->mAPlayer.get());
   1913             if ((size < sizeof(SLMetadataInfo) ||
   1914                     (!decoder->getPcmFormatKeyName(index, size - sizeof(SLMetadataInfo),
   1915                             (char*)pKey->data)))) {
   1916                 res = SL_RESULT_PARAMETER_INVALID;
   1917             } else {
   1918                 // successfully retrieved the key value, update the other fields
   1919                 pKey->encoding = SL_CHARACTERENCODING_UTF8;
   1920                 memcpy((char *) pKey->langCountry, "en", 3);
   1921                 pKey->size = strlen((char*)pKey->data) + 1;
   1922             }
   1923         }
   1924         break;
   1925       default:
   1926         res = SL_RESULT_PARAMETER_INVALID;
   1927         break;
   1928     }
   1929     return res;
   1930 }
   1931 
   1932 
   1933 //-----------------------------------------------------------------------------
   1934 // precondition
   1935 //  called with no lock held
   1936 //  ap != NULL
   1937 //  pValueSize != NULL
   1938 SLresult android_audioPlayer_metadata_getValueSize(CAudioPlayer *ap,
   1939         SLuint32 index, SLuint32 *pValueSize) {
   1940     if (ap->mAPlayer == 0) {
   1941         return SL_RESULT_PARAMETER_INVALID;
   1942     }
   1943     SLresult res = SL_RESULT_SUCCESS;
   1944     switch(ap->mAndroidObjType) {
   1945       case AUDIOPLAYER_FROM_URIFD_TO_PCM_BUFFERQUEUE:
   1946       case AUDIOPLAYER_FROM_ADTS_ABQ_TO_PCM_BUFFERQUEUE:
   1947         {
   1948             android::AudioSfDecoder* decoder =
   1949                     static_cast<android::AudioSfDecoder*>(ap->mAPlayer.get());
   1950             SLuint32 valueSize = 0;
   1951             if (!decoder->getPcmFormatValueSize(index, &valueSize)) {
   1952                 res = SL_RESULT_PARAMETER_INVALID;
   1953             } else {
   1954                 // *pValueSize is the size of the region used to store the key value AND
   1955                 //   the information about the value (size, lang, encoding)
   1956                 *pValueSize = valueSize + sizeof(SLMetadataInfo);
   1957             }
   1958         }
   1959         break;
   1960       default:
   1961           *pValueSize = 0;
   1962           res = SL_RESULT_PARAMETER_INVALID;
   1963           break;
   1964     }
   1965     return res;
   1966 }
   1967 
   1968 
   1969 //-----------------------------------------------------------------------------
   1970 // precondition
   1971 //  called with no lock held
   1972 //  ap != NULL
   1973 //  pValue != NULL
   1974 SLresult android_audioPlayer_metadata_getValue(CAudioPlayer *ap,
   1975         SLuint32 index, SLuint32 size, SLMetadataInfo *pValue) {
   1976     if (ap->mAPlayer == 0) {
   1977         return SL_RESULT_PARAMETER_INVALID;
   1978     }
   1979     SLresult res = SL_RESULT_SUCCESS;
   1980     switch(ap->mAndroidObjType) {
   1981       case AUDIOPLAYER_FROM_URIFD_TO_PCM_BUFFERQUEUE:
   1982       case AUDIOPLAYER_FROM_ADTS_ABQ_TO_PCM_BUFFERQUEUE:
   1983         {
   1984             android::AudioSfDecoder* decoder =
   1985                     static_cast<android::AudioSfDecoder*>(ap->mAPlayer.get());
   1986             pValue->encoding = SL_CHARACTERENCODING_BINARY;
   1987             memcpy((char *) pValue->langCountry, "en", 3); // applicable here?
   1988             SLuint32 valueSize = 0;
   1989             if ((size < sizeof(SLMetadataInfo)
   1990                     || (!decoder->getPcmFormatValueSize(index, &valueSize))
   1991                     || (!decoder->getPcmFormatKeyValue(index, size - sizeof(SLMetadataInfo),
   1992                             (SLuint32*)pValue->data)))) {
   1993                 res = SL_RESULT_PARAMETER_INVALID;
   1994             } else {
   1995                 pValue->size = valueSize;
   1996             }
   1997         }
   1998         break;
   1999       default:
   2000         res = SL_RESULT_PARAMETER_INVALID;
   2001         break;
   2002     }
   2003     return res;
   2004 }
   2005 
   2006 //-----------------------------------------------------------------------------
   2007 // preconditions
   2008 //  ap != NULL
   2009 //  mutex is locked
   2010 //  play state has changed
   2011 void android_audioPlayer_setPlayState(CAudioPlayer *ap) {
   2012 
   2013     SLuint32 playState = ap->mPlay.mState;
   2014     AndroidObjectState objState = ap->mAndroidObjState;
   2015 
   2016     switch(ap->mAndroidObjType) {
   2017     case AUDIOPLAYER_FROM_PCM_BUFFERQUEUE:
   2018         switch (playState) {
   2019         case SL_PLAYSTATE_STOPPED:
   2020             SL_LOGV("setting AudioPlayer to SL_PLAYSTATE_STOPPED");
   2021             if (ap->mAudioTrack != 0) {
   2022                 ap->mAudioTrack->stop();
   2023             }
   2024             break;
   2025         case SL_PLAYSTATE_PAUSED:
   2026             SL_LOGV("setting AudioPlayer to SL_PLAYSTATE_PAUSED");
   2027             if (ap->mAudioTrack != 0) {
   2028                 ap->mAudioTrack->pause();
   2029             }
   2030             break;
   2031         case SL_PLAYSTATE_PLAYING:
   2032             SL_LOGV("setting AudioPlayer to SL_PLAYSTATE_PLAYING");
   2033             if (ap->mAudioTrack != 0) {
   2034                 // instead of ap->mAudioTrack->start();
   2035                 ap->mDeferredStart = true;
   2036             }
   2037             break;
   2038         default:
   2039             // checked by caller, should not happen
   2040             break;
   2041         }
   2042         break;
   2043 
   2044     case AUDIOPLAYER_FROM_URIFD:      // intended fall-through
   2045     case AUDIOPLAYER_FROM_TS_ANDROIDBUFFERQUEUE:     // intended fall-through
   2046     case AUDIOPLAYER_FROM_URIFD_TO_PCM_BUFFERQUEUE:  // intended fall-through
   2047     case AUDIOPLAYER_FROM_ADTS_ABQ_TO_PCM_BUFFERQUEUE:
   2048         // FIXME report and use the return code to the lock mechanism, which is where play state
   2049         //   changes are updated (see object_unlock_exclusive_attributes())
   2050         aplayer_setPlayState(ap->mAPlayer, playState, &(ap->mAndroidObjState));
   2051         break;
   2052     default:
   2053         SL_LOGE(ERROR_PLAYERSETPLAYSTATE_UNEXPECTED_OBJECT_TYPE_D, ap->mAndroidObjType);
   2054         break;
   2055     }
   2056 }
   2057 
   2058 
   2059 //-----------------------------------------------------------------------------
   2060 // call when either player event flags, marker position, or position update period changes
   2061 void android_audioPlayer_usePlayEventMask(CAudioPlayer *ap) {
   2062     IPlay *pPlayItf = &ap->mPlay;
   2063     SLuint32 eventFlags = pPlayItf->mEventFlags;
   2064     /*switch(ap->mAndroidObjType) {
   2065     case AUDIOPLAYER_FROM_PCM_BUFFERQUEUE:*/
   2066 
   2067     if (ap->mAPlayer != 0) {
   2068         assert(ap->mAudioTrack == 0);
   2069         ap->mAPlayer->setPlayEvents((int32_t) eventFlags, (int32_t) pPlayItf->mMarkerPosition,
   2070                 (int32_t) pPlayItf->mPositionUpdatePeriod);
   2071         return;
   2072     }
   2073 
   2074     if (ap->mAudioTrack == 0) {
   2075         return;
   2076     }
   2077 
   2078     if (eventFlags & SL_PLAYEVENT_HEADATMARKER) {
   2079         ap->mAudioTrack->setMarkerPosition((uint32_t)((((int64_t)pPlayItf->mMarkerPosition
   2080                 * sles_to_android_sampleRate(ap->mSampleRateMilliHz)))/1000));
   2081     } else {
   2082         // clear marker
   2083         ap->mAudioTrack->setMarkerPosition(0);
   2084     }
   2085 
   2086     if (eventFlags & SL_PLAYEVENT_HEADATNEWPOS) {
   2087          ap->mAudioTrack->setPositionUpdatePeriod(
   2088                 (uint32_t)((((int64_t)pPlayItf->mPositionUpdatePeriod
   2089                 * sles_to_android_sampleRate(ap->mSampleRateMilliHz)))/1000));
   2090     } else {
   2091         // clear periodic update
   2092         ap->mAudioTrack->setPositionUpdatePeriod(0);
   2093     }
   2094 
   2095     if (eventFlags & SL_PLAYEVENT_HEADATEND) {
   2096         // nothing to do for SL_PLAYEVENT_HEADATEND, callback event will be checked against mask
   2097     }
   2098 
   2099     if (eventFlags & SL_PLAYEVENT_HEADMOVING) {
   2100         // FIXME support SL_PLAYEVENT_HEADMOVING
   2101         SL_LOGD("[ FIXME: IPlay_SetCallbackEventsMask(SL_PLAYEVENT_HEADMOVING) on an "
   2102             "SL_OBJECTID_AUDIOPLAYER to be implemented ]");
   2103     }
   2104     if (eventFlags & SL_PLAYEVENT_HEADSTALLED) {
   2105         // nothing to do for SL_PLAYEVENT_HEADSTALLED, callback event will be checked against mask
   2106     }
   2107 
   2108 }
   2109 
   2110 
   2111 //-----------------------------------------------------------------------------
   2112 SLresult android_audioPlayer_getDuration(IPlay *pPlayItf, SLmillisecond *pDurMsec) {
   2113     CAudioPlayer *ap = (CAudioPlayer *)pPlayItf->mThis;
   2114     switch(ap->mAndroidObjType) {
   2115 
   2116       case AUDIOPLAYER_FROM_URIFD:  // intended fall-through
   2117       case AUDIOPLAYER_FROM_URIFD_TO_PCM_BUFFERQUEUE: {
   2118         int32_t durationMsec = ANDROID_UNKNOWN_TIME;
   2119         if (ap->mAPlayer != 0) {
   2120             ap->mAPlayer->getDurationMsec(&durationMsec);
   2121         }
   2122         *pDurMsec = durationMsec == ANDROID_UNKNOWN_TIME ? SL_TIME_UNKNOWN : durationMsec;
   2123         break;
   2124       }
   2125 
   2126       case AUDIOPLAYER_FROM_TS_ANDROIDBUFFERQUEUE: // intended fall-through
   2127       case AUDIOPLAYER_FROM_PCM_BUFFERQUEUE:
   2128       case AUDIOPLAYER_FROM_ADTS_ABQ_TO_PCM_BUFFERQUEUE:
   2129       default: {
   2130         *pDurMsec = SL_TIME_UNKNOWN;
   2131       }
   2132     }
   2133     return SL_RESULT_SUCCESS;
   2134 }
   2135 
   2136 
   2137 //-----------------------------------------------------------------------------
   2138 void android_audioPlayer_getPosition(IPlay *pPlayItf, SLmillisecond *pPosMsec) {
   2139     CAudioPlayer *ap = (CAudioPlayer *)pPlayItf->mThis;
   2140     switch(ap->mAndroidObjType) {
   2141 
   2142       case AUDIOPLAYER_FROM_PCM_BUFFERQUEUE:
   2143         if ((ap->mSampleRateMilliHz == UNKNOWN_SAMPLERATE) || (ap->mAudioTrack == 0)) {
   2144             *pPosMsec = 0;
   2145         } else {
   2146             uint32_t positionInFrames;
   2147             ap->mAudioTrack->getPosition(&positionInFrames);
   2148             *pPosMsec = ((int64_t)positionInFrames * 1000) /
   2149                     sles_to_android_sampleRate(ap->mSampleRateMilliHz);
   2150         }
   2151         break;
   2152 
   2153       case AUDIOPLAYER_FROM_TS_ANDROIDBUFFERQUEUE:    // intended fall-through
   2154       case AUDIOPLAYER_FROM_URIFD:
   2155       case AUDIOPLAYER_FROM_URIFD_TO_PCM_BUFFERQUEUE:
   2156       case AUDIOPLAYER_FROM_ADTS_ABQ_TO_PCM_BUFFERQUEUE: {
   2157         int32_t posMsec = ANDROID_UNKNOWN_TIME;
   2158         if (ap->mAPlayer != 0) {
   2159             ap->mAPlayer->getPositionMsec(&posMsec);
   2160         }
   2161         *pPosMsec = posMsec == ANDROID_UNKNOWN_TIME ? 0 : posMsec;
   2162         break;
   2163       }
   2164 
   2165       default:
   2166         *pPosMsec = 0;
   2167     }
   2168 }
   2169 
   2170 
   2171 //-----------------------------------------------------------------------------
   2172 SLresult android_audioPlayer_seek(CAudioPlayer *ap, SLmillisecond posMsec) {
   2173     SLresult result = SL_RESULT_SUCCESS;
   2174 
   2175     switch(ap->mAndroidObjType) {
   2176 
   2177       case AUDIOPLAYER_FROM_PCM_BUFFERQUEUE:      // intended fall-through
   2178       case AUDIOPLAYER_FROM_TS_ANDROIDBUFFERQUEUE:
   2179       case AUDIOPLAYER_FROM_ADTS_ABQ_TO_PCM_BUFFERQUEUE:
   2180         result = SL_RESULT_FEATURE_UNSUPPORTED;
   2181         break;
   2182 
   2183       case AUDIOPLAYER_FROM_URIFD:                   // intended fall-through
   2184       case AUDIOPLAYER_FROM_URIFD_TO_PCM_BUFFERQUEUE:
   2185         if (ap->mAPlayer != 0) {
   2186             ap->mAPlayer->seek(posMsec);
   2187         }
   2188         break;
   2189 
   2190       default:
   2191         break;
   2192     }
   2193     return result;
   2194 }
   2195 
   2196 
   2197 //-----------------------------------------------------------------------------
   2198 SLresult android_audioPlayer_loop(CAudioPlayer *ap, SLboolean loopEnable) {
   2199     SLresult result = SL_RESULT_SUCCESS;
   2200 
   2201     switch (ap->mAndroidObjType) {
   2202     case AUDIOPLAYER_FROM_URIFD:
   2203     // case AUDIOPLAY_FROM_URIFD_TO_PCM_BUFFERQUEUE:
   2204     //      would actually work, but what's the point?
   2205       if (ap->mAPlayer != 0) {
   2206         ap->mAPlayer->loop((bool)loopEnable);
   2207       }
   2208       break;
   2209     default:
   2210       result = SL_RESULT_FEATURE_UNSUPPORTED;
   2211       break;
   2212     }
   2213     return result;
   2214 }
   2215 
   2216 
   2217 //-----------------------------------------------------------------------------
   2218 SLresult android_audioPlayer_setBufferingUpdateThresholdPerMille(CAudioPlayer *ap,
   2219         SLpermille threshold) {
   2220     SLresult result = SL_RESULT_SUCCESS;
   2221 
   2222     switch (ap->mAndroidObjType) {
   2223       case AUDIOPLAYER_FROM_URIFD:
   2224         if (ap->mAPlayer != 0) {
   2225             ap->mAPlayer->setBufferingUpdateThreshold(threshold / 10);
   2226         }
   2227         break;
   2228 
   2229       default: {}
   2230     }
   2231 
   2232     return result;
   2233 }
   2234 
   2235 
   2236 //-----------------------------------------------------------------------------
   2237 void android_audioPlayer_bufferQueue_onRefilled_l(CAudioPlayer *ap) {
   2238     // the AudioTrack associated with the AudioPlayer receiving audio from a PCM buffer
   2239     // queue was stopped when the queue become empty, we restart as soon as a new buffer
   2240     // has been enqueued since we're in playing state
   2241     if (ap->mAudioTrack != 0) {
   2242         // instead of ap->mAudioTrack->start();
   2243         ap->mDeferredStart = true;
   2244     }
   2245 
   2246     // when the queue became empty, an underflow on the prefetch status itf was sent. Now the queue
   2247     // has received new data, signal it has sufficient data
   2248     if (IsInterfaceInitialized(&(ap->mObject), MPH_PREFETCHSTATUS)) {
   2249         // we wouldn't have been called unless we were previously in the underflow state
   2250         assert(SL_PREFETCHSTATUS_UNDERFLOW == ap->mPrefetchStatus.mStatus);
   2251         assert(0 == ap->mPrefetchStatus.mLevel);
   2252         ap->mPrefetchStatus.mStatus = SL_PREFETCHSTATUS_SUFFICIENTDATA;
   2253         ap->mPrefetchStatus.mLevel = 1000;
   2254         // callback or no callback?
   2255         SLuint32 prefetchEvents = ap->mPrefetchStatus.mCallbackEventsMask &
   2256                 (SL_PREFETCHEVENT_STATUSCHANGE | SL_PREFETCHEVENT_FILLLEVELCHANGE);
   2257         if (SL_PREFETCHEVENT_NONE != prefetchEvents) {
   2258             ap->mPrefetchStatus.mDeferredPrefetchCallback = ap->mPrefetchStatus.mCallback;
   2259             ap->mPrefetchStatus.mDeferredPrefetchContext  = ap->mPrefetchStatus.mContext;
   2260             ap->mPrefetchStatus.mDeferredPrefetchEvents   = prefetchEvents;
   2261         }
   2262     }
   2263 }
   2264 
   2265 
   2266 //-----------------------------------------------------------------------------
   2267 /*
   2268  * BufferQueue::Clear
   2269  */
   2270 SLresult android_audioPlayer_bufferQueue_onClear(CAudioPlayer *ap) {
   2271     SLresult result = SL_RESULT_SUCCESS;
   2272 
   2273     switch (ap->mAndroidObjType) {
   2274     //-----------------------------------
   2275     // AudioTrack
   2276     case AUDIOPLAYER_FROM_PCM_BUFFERQUEUE:
   2277         if (ap->mAudioTrack != 0) {
   2278             ap->mAudioTrack->flush();
   2279         }
   2280         break;
   2281     default:
   2282         result = SL_RESULT_INTERNAL_ERROR;
   2283         break;
   2284     }
   2285 
   2286     return result;
   2287 }
   2288 
   2289 
   2290 //-----------------------------------------------------------------------------
   2291 void android_audioPlayer_androidBufferQueue_clear_l(CAudioPlayer *ap) {
   2292     switch (ap->mAndroidObjType) {
   2293     case AUDIOPLAYER_FROM_TS_ANDROIDBUFFERQUEUE:
   2294       if (ap->mAPlayer != 0) {
   2295         android::StreamPlayer* splr = static_cast<android::StreamPlayer*>(ap->mAPlayer.get());
   2296         splr->appClear_l();
   2297       } break;
   2298     case AUDIOPLAYER_FROM_ADTS_ABQ_TO_PCM_BUFFERQUEUE:
   2299       // nothing to do here, fall through
   2300     default:
   2301       break;
   2302     }
   2303 }
   2304 
   2305 void android_audioPlayer_androidBufferQueue_onRefilled_l(CAudioPlayer *ap) {
   2306     switch (ap->mAndroidObjType) {
   2307     case AUDIOPLAYER_FROM_TS_ANDROIDBUFFERQUEUE:
   2308       if (ap->mAPlayer != 0) {
   2309         android::StreamPlayer* splr = static_cast<android::StreamPlayer*>(ap->mAPlayer.get());
   2310         splr->queueRefilled();
   2311       } break;
   2312     case AUDIOPLAYER_FROM_ADTS_ABQ_TO_PCM_BUFFERQUEUE:
   2313       // FIXME this may require waking up the decoder if it is currently starved and isn't polling
   2314     default:
   2315       break;
   2316     }
   2317 }
   2318