1 /*
2  * Copyright (C) 2011 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 //#define USE_LOG SLAndroidLogLevel_Verbose
18 
19 #include "sles_allinclusive.h"
20 #include "android/android_AudioSfDecoder.h"
21 #include "android/channels.h"
22 
23 #include <binder/IServiceManager.h>
24 #include <media/IMediaHTTPService.h>
25 #include <media/stagefright/foundation/ADebug.h>
26 #include <media/stagefright/MediaBuffer.h>
27 #include <media/stagefright/SimpleDecodingSource.h>
28 
29 
30 #define SIZE_CACHED_HIGH_BYTES 1000000
31 #define SIZE_CACHED_MED_BYTES   700000
32 #define SIZE_CACHED_LOW_BYTES   400000
33 
34 namespace android {
35 
36 //--------------------------------------------------------------------------------------------------
AudioSfDecoder(const AudioPlayback_Parameters * params)37 AudioSfDecoder::AudioSfDecoder(const AudioPlayback_Parameters* params) : GenericPlayer(params),
38         mDataSource(0),
39         mAudioSource(0),
40         mAudioSourceStarted(false),
41         mBitrate(-1),
42         mDurationUsec(ANDROID_UNKNOWN_TIME),
43         mDecodeBuffer(NULL),
44         mSeekTimeMsec(0),
45         // play event logic depends on the initial time being zero not ANDROID_UNKNOWN_TIME
46         mLastDecodedPositionUs(0)
47 {
48     SL_LOGD("AudioSfDecoder::AudioSfDecoder()");
49 }
50 
51 
~AudioSfDecoder()52 AudioSfDecoder::~AudioSfDecoder() {
53     SL_LOGD("AudioSfDecoder::~AudioSfDecoder()");
54 }
55 
56 
preDestroy()57 void AudioSfDecoder::preDestroy() {
58     GenericPlayer::preDestroy();
59     SL_LOGD("AudioSfDecoder::preDestroy()");
60     {
61         Mutex::Autolock _l(mBufferSourceLock);
62 
63         if (NULL != mDecodeBuffer) {
64             mDecodeBuffer->release();
65             mDecodeBuffer = NULL;
66         }
67 
68         if ((mAudioSource != 0) && mAudioSourceStarted) {
69             mAudioSource->stop();
70             mAudioSourceStarted = false;
71         }
72     }
73 }
74 
75 
76 //--------------------------------------------------
play()77 void AudioSfDecoder::play() {
78     SL_LOGD("AudioSfDecoder::play");
79 
80     GenericPlayer::play();
81     (new AMessage(kWhatDecode, this))->post();
82 }
83 
84 
getPositionMsec(int * msec)85 void AudioSfDecoder::getPositionMsec(int* msec) {
86     int64_t timeUsec = getPositionUsec();
87     if (timeUsec == ANDROID_UNKNOWN_TIME) {
88         *msec = ANDROID_UNKNOWN_TIME;
89     } else {
90         *msec = timeUsec / 1000;
91     }
92 }
93 
94 
95 //--------------------------------------------------
getPcmFormatKeyCount() const96 uint32_t AudioSfDecoder::getPcmFormatKeyCount() const {
97     return NB_PCMMETADATA_KEYS;
98 }
99 
100 
101 //--------------------------------------------------
getPcmFormatKeySize(uint32_t index,uint32_t * pKeySize)102 bool AudioSfDecoder::getPcmFormatKeySize(uint32_t index, uint32_t* pKeySize) {
103     if (index >= NB_PCMMETADATA_KEYS) {
104         return false;
105     } else {
106         *pKeySize = strlen(kPcmDecodeMetadataKeys[index]) +1;
107         return true;
108     }
109 }
110 
111 
112 //--------------------------------------------------
getPcmFormatKeyName(uint32_t index,uint32_t keySize,char * keyName)113 bool AudioSfDecoder::getPcmFormatKeyName(uint32_t index, uint32_t keySize, char* keyName) {
114     uint32_t actualKeySize;
115     if (!getPcmFormatKeySize(index, &actualKeySize)) {
116         return false;
117     }
118     if (keySize < actualKeySize) {
119         return false;
120     }
121     strncpy(keyName, kPcmDecodeMetadataKeys[index], actualKeySize);
122     return true;
123 }
124 
125 
126 //--------------------------------------------------
getPcmFormatValueSize(uint32_t index,uint32_t * pValueSize)127 bool AudioSfDecoder::getPcmFormatValueSize(uint32_t index, uint32_t* pValueSize) {
128     if (index >= NB_PCMMETADATA_KEYS) {
129         *pValueSize = 0;
130         return false;
131     } else {
132         *pValueSize = sizeof(uint32_t);
133         return true;
134     }
135 }
136 
137 
138 //--------------------------------------------------
getPcmFormatKeyValue(uint32_t index,uint32_t size,uint32_t * pValue)139 bool AudioSfDecoder::getPcmFormatKeyValue(uint32_t index, uint32_t size, uint32_t* pValue) {
140     uint32_t valueSize = 0;
141     if (!getPcmFormatValueSize(index, &valueSize)) {
142         return false;
143     } else if (size != valueSize) {
144         // this ensures we are accessing mPcmFormatValues with a valid size for that index
145         SL_LOGE("Error retrieving metadata value at index %d: using size of %d, should be %d",
146                 index, size, valueSize);
147         return false;
148     } else {
149         android::Mutex::Autolock autoLock(mPcmFormatLock);
150         *pValue = mPcmFormatValues[index];
151         return true;
152     }
153 }
154 
155 
156 //--------------------------------------------------
157 // Event handlers
158 //  it is strictly verboten to call those methods outside of the event loop
159 
160 // Initializes the data and audio sources, and update the PCM format info
161 // post-condition: upon successful initialization based on the player data locator
162 //    GenericPlayer::onPrepare() was called
163 //    mDataSource != 0
164 //    mAudioSource != 0
165 //    mAudioSourceStarted == true
166 // All error returns from this method are via notifyPrepared(status) followed by "return".
onPrepare()167 void AudioSfDecoder::onPrepare() {
168     SL_LOGD("AudioSfDecoder::onPrepare()");
169     Mutex::Autolock _l(mBufferSourceLock);
170 
171     {
172     android::Mutex::Autolock autoLock(mPcmFormatLock);
173     // Initialize the PCM format info with the known parameters before the start of the decode
174     mPcmFormatValues[ANDROID_KEY_INDEX_PCMFORMAT_BITSPERSAMPLE] = SL_PCMSAMPLEFORMAT_FIXED_16;
175     mPcmFormatValues[ANDROID_KEY_INDEX_PCMFORMAT_CONTAINERSIZE] = 16;
176     mPcmFormatValues[ANDROID_KEY_INDEX_PCMFORMAT_ENDIANNESS] = SL_BYTEORDER_LITTLEENDIAN;
177     //    initialization with the default values: they will be replaced by the actual values
178     //      once the decoder has figured them out
179     mPcmFormatValues[ANDROID_KEY_INDEX_PCMFORMAT_NUMCHANNELS] = UNKNOWN_NUMCHANNELS;
180     mPcmFormatValues[ANDROID_KEY_INDEX_PCMFORMAT_SAMPLERATE] = UNKNOWN_SAMPLERATE;
181     mPcmFormatValues[ANDROID_KEY_INDEX_PCMFORMAT_CHANNELMASK] = SL_ANDROID_UNKNOWN_CHANNELMASK;
182     }
183 
184     //---------------------------------
185     // Instantiate and initialize the data source for the decoder
186     sp<DataSource> dataSource;
187 
188     switch (mDataLocatorType) {
189 
190     case kDataLocatorNone:
191         SL_LOGE("AudioSfDecoder::onPrepare: no data locator set");
192         notifyPrepared(MEDIA_ERROR_BASE);
193         return;
194 
195     case kDataLocatorUri:
196         dataSource = DataSource::CreateFromURI(
197                 NULL /* XXX httpService */, mDataLocator.uriRef);
198         if (dataSource == NULL) {
199             SL_LOGE("AudioSfDecoder::onPrepare(): Error opening %s", mDataLocator.uriRef);
200             notifyPrepared(MEDIA_ERROR_BASE);
201             return;
202         }
203         break;
204 
205     case kDataLocatorFd:
206     {
207         // As FileSource unconditionally takes ownership of the fd and closes it, then
208         // we have to make a dup for FileSource if the app wants to keep ownership itself
209         int fd = mDataLocator.fdi.fd;
210         if (mDataLocator.fdi.mCloseAfterUse) {
211             mDataLocator.fdi.mCloseAfterUse = false;
212         } else {
213             fd = ::dup(fd);
214         }
215         dataSource = new FileSource(fd, mDataLocator.fdi.offset, mDataLocator.fdi.length);
216         status_t err = dataSource->initCheck();
217         if (err != OK) {
218             notifyPrepared(err);
219             return;
220         }
221         break;
222     }
223 
224     // AndroidBufferQueue data source is handled by a subclass,
225     // which does not call up to this method.  Hence, the missing case.
226     default:
227         TRESPASS();
228     }
229 
230     //---------------------------------
231     // Instantiate and initialize the decoder attached to the data source
232     sp<IMediaExtractor> extractor = MediaExtractor::Create(dataSource);
233     if (extractor == NULL) {
234         SL_LOGE("AudioSfDecoder::onPrepare: Could not instantiate extractor.");
235         notifyPrepared(ERROR_UNSUPPORTED);
236         return;
237     }
238 
239     ssize_t audioTrackIndex = -1;
240     bool isRawAudio = false;
241     for (size_t i = 0; i < extractor->countTracks(); ++i) {
242         sp<MetaData> meta = extractor->getTrackMetaData(i);
243 
244         const char *mime;
245         CHECK(meta->findCString(kKeyMIMEType, &mime));
246 
247         if (!strncasecmp("audio/", mime, 6)) {
248             if (isSupportedCodec(mime)) {
249                 audioTrackIndex = i;
250 
251                 if (!strcasecmp(MEDIA_MIMETYPE_AUDIO_RAW, mime)) {
252                     isRawAudio = true;
253                 }
254                 break;
255             }
256         }
257     }
258 
259     if (audioTrackIndex < 0) {
260         SL_LOGE("AudioSfDecoder::onPrepare: Could not find a supported audio track.");
261         notifyPrepared(ERROR_UNSUPPORTED);
262         return;
263     }
264 
265     sp<IMediaSource> source = extractor->getTrack(audioTrackIndex);
266     sp<MetaData> meta = source->getFormat();
267 
268     // we can't trust the OMXCodec (if there is one) to issue a INFO_FORMAT_CHANGED so we want
269     // to have some meaningful values as soon as possible.
270     int32_t channelCount;
271     bool hasChannelCount = meta->findInt32(kKeyChannelCount, &channelCount);
272     int32_t sr;
273     bool hasSampleRate = meta->findInt32(kKeySampleRate, &sr);
274 
275     // first compute the duration
276     off64_t size;
277     int64_t durationUs;
278     int32_t durationMsec;
279     if (dataSource->getSize(&size) == OK
280             && meta->findInt64(kKeyDuration, &durationUs)) {
281         if (durationUs != 0) {
282             mBitrate = size * 8000000ll / durationUs;  // in bits/sec
283         } else {
284             mBitrate = -1;
285         }
286         mDurationUsec = durationUs;
287         durationMsec = durationUs / 1000;
288     } else {
289         mBitrate = -1;
290         mDurationUsec = ANDROID_UNKNOWN_TIME;
291         durationMsec = ANDROID_UNKNOWN_TIME;
292     }
293 
294     // then assign the duration under the settings lock
295     {
296         Mutex::Autolock _l(mSettingsLock);
297         mDurationMsec = durationMsec;
298     }
299 
300     // the audio content is not raw PCM, so we need a decoder
301     if (!isRawAudio) {
302         source = SimpleDecodingSource::Create(source);
303         if (source == NULL) {
304             SL_LOGE("AudioSfDecoder::onPrepare: Could not instantiate decoder.");
305             notifyPrepared(ERROR_UNSUPPORTED);
306             return;
307         }
308 
309         meta = source->getFormat();
310     }
311 
312 
313     if (source->start() != OK) {
314         SL_LOGE("AudioSfDecoder::onPrepare: Failed to start source/decoder.");
315         notifyPrepared(MEDIA_ERROR_BASE);
316         return;
317     }
318 
319     //---------------------------------
320     // The data source, and audio source (a decoder if required) are ready to be used
321     mDataSource = dataSource;
322     mAudioSource = source;
323     mAudioSourceStarted = true;
324 
325     if (!hasChannelCount) {
326         CHECK(meta->findInt32(kKeyChannelCount, &channelCount));
327     }
328 
329     if (!hasSampleRate) {
330         CHECK(meta->findInt32(kKeySampleRate, &sr));
331     }
332     // FIXME add code below once channel mask support is in, currently initialized to default
333     //       value computed from the channel count
334     //    if (!hasChannelMask) {
335     //        CHECK(meta->findInt32(kKeyChannelMask, &channelMask));
336     //    }
337 
338     if (!wantPrefetch()) {
339         SL_LOGV("AudioSfDecoder::onPrepare: no need to prefetch");
340         // doesn't need prefetching, notify good to go
341         mCacheStatus = kStatusHigh;
342         mCacheFill = 1000;
343         notifyStatus();
344         notifyCacheFill();
345     }
346 
347     {
348         android::Mutex::Autolock autoLock(mPcmFormatLock);
349         mPcmFormatValues[ANDROID_KEY_INDEX_PCMFORMAT_SAMPLERATE] = sr;
350         mPcmFormatValues[ANDROID_KEY_INDEX_PCMFORMAT_NUMCHANNELS] = channelCount;
351         mPcmFormatValues[ANDROID_KEY_INDEX_PCMFORMAT_CHANNELMASK] =
352                 sles_channel_out_mask_from_count(channelCount);
353     }
354 
355     // at this point we have enough information about the source to create the sink that
356     // will consume the data
357     createAudioSink();
358 
359     // signal successful completion of prepare
360     mStateFlags |= kFlagPrepared;
361 
362     GenericPlayer::onPrepare();
363     SL_LOGD("AudioSfDecoder::onPrepare() done, mStateFlags=0x%x", mStateFlags);
364 }
365 
366 
onPause()367 void AudioSfDecoder::onPause() {
368     SL_LOGV("AudioSfDecoder::onPause()");
369     GenericPlayer::onPause();
370     pauseAudioSink();
371 }
372 
373 
onPlay()374 void AudioSfDecoder::onPlay() {
375     SL_LOGV("AudioSfDecoder::onPlay()");
376     GenericPlayer::onPlay();
377     startAudioSink();
378 }
379 
380 
onSeek(const sp<AMessage> & msg)381 void AudioSfDecoder::onSeek(const sp<AMessage> &msg) {
382     SL_LOGV("AudioSfDecoder::onSeek");
383     int64_t timeMsec;
384     CHECK(msg->findInt64(WHATPARAM_SEEK_SEEKTIME_MS, &timeMsec));
385 
386     Mutex::Autolock _l(mTimeLock);
387     mStateFlags |= kFlagSeeking;
388     mSeekTimeMsec = timeMsec;
389     // don't set mLastDecodedPositionUs to ANDROID_UNKNOWN_TIME; getPositionUsec
390     // ignores mLastDecodedPositionUs while seeking, and substitutes the seek goal instead
391 
392     // nop for now
393     GenericPlayer::onSeek(msg);
394 }
395 
396 
onLoop(const sp<AMessage> & msg)397 void AudioSfDecoder::onLoop(const sp<AMessage> &msg) {
398     SL_LOGV("AudioSfDecoder::onLoop");
399     int32_t loop;
400     CHECK(msg->findInt32(WHATPARAM_LOOP_LOOPING, &loop));
401 
402     if (loop) {
403         //SL_LOGV("AudioSfDecoder::onLoop start looping");
404         mStateFlags |= kFlagLooping;
405     } else {
406         //SL_LOGV("AudioSfDecoder::onLoop stop looping");
407         mStateFlags &= ~kFlagLooping;
408     }
409 
410     // nop for now
411     GenericPlayer::onLoop(msg);
412 }
413 
414 
onCheckCache(const sp<AMessage> & msg)415 void AudioSfDecoder::onCheckCache(const sp<AMessage> &msg) {
416     //SL_LOGV("AudioSfDecoder::onCheckCache");
417     bool eos;
418     CacheStatus_t status = getCacheRemaining(&eos);
419 
420     if (eos || status == kStatusHigh
421             || ((mStateFlags & kFlagPreparing) && (status >= kStatusEnough))) {
422         if (mStateFlags & kFlagPlaying) {
423             startAudioSink();
424         }
425         mStateFlags &= ~kFlagBuffering;
426 
427         SL_LOGV("AudioSfDecoder::onCheckCache: buffering done.");
428 
429         if (mStateFlags & kFlagPreparing) {
430             //SL_LOGV("AudioSfDecoder::onCheckCache: preparation done.");
431             mStateFlags &= ~kFlagPreparing;
432         }
433 
434         if (mStateFlags & kFlagPlaying) {
435             (new AMessage(kWhatDecode, this))->post();
436         }
437         return;
438     }
439 
440     msg->post(100000);
441 }
442 
443 
onDecode()444 void AudioSfDecoder::onDecode() {
445     SL_LOGV("AudioSfDecoder::onDecode");
446 
447     //-------------------------------- Need to buffer some more before decoding?
448     bool eos;
449     if (mDataSource == 0) {
450         // application set play state to paused which failed, then set play state to playing
451         return;
452     }
453 
454     if (wantPrefetch()
455             && (getCacheRemaining(&eos) == kStatusLow)
456             && !eos) {
457         SL_LOGV("buffering more.");
458 
459         if (mStateFlags & kFlagPlaying) {
460             pauseAudioSink();
461         }
462         mStateFlags |= kFlagBuffering;
463         (new AMessage(kWhatCheckCache, this))->post(100000);
464         return;
465     }
466 
467     if (!(mStateFlags & (kFlagPlaying | kFlagBuffering | kFlagPreparing))) {
468         // don't decode if we're not buffering, prefetching or playing
469         //SL_LOGV("don't decode: not buffering, prefetching or playing");
470         return;
471     }
472 
473     //-------------------------------- Decode
474     status_t err;
475     MediaSource::ReadOptions readOptions;
476     if (mStateFlags & kFlagSeeking) {
477         assert(mSeekTimeMsec != ANDROID_UNKNOWN_TIME);
478         readOptions.setSeekTo(mSeekTimeMsec * 1000);
479     }
480 
481     int64_t timeUsec = ANDROID_UNKNOWN_TIME;
482     {
483         Mutex::Autolock _l(mBufferSourceLock);
484 
485         if (NULL != mDecodeBuffer) {
486             // the current decoded buffer hasn't been rendered, drop it
487             mDecodeBuffer->release();
488             mDecodeBuffer = NULL;
489         }
490         if (!mAudioSourceStarted) {
491             return;
492         }
493         err = mAudioSource->read(&mDecodeBuffer, &readOptions);
494         if (err == OK) {
495             // FIXME workaround apparent bug in AAC decoder: kKeyTime is 3 frames old if length is 0
496             if (mDecodeBuffer->range_length() == 0) {
497                 timeUsec = ANDROID_UNKNOWN_TIME;
498             } else {
499                 CHECK(mDecodeBuffer->meta_data()->findInt64(kKeyTime, &timeUsec));
500             }
501         } else {
502             // errors are handled below
503         }
504     }
505 
506     {
507         Mutex::Autolock _l(mTimeLock);
508         if (mStateFlags & kFlagSeeking) {
509             mStateFlags &= ~kFlagSeeking;
510             mSeekTimeMsec = ANDROID_UNKNOWN_TIME;
511         }
512         if (timeUsec != ANDROID_UNKNOWN_TIME) {
513             // Note that though we've decoded this position, we haven't rendered it yet.
514             // So a GetPosition called after this point will observe the advanced position,
515             // even though the PCM may not have been supplied to the sink.  That's OK as
516             // we don't claim to provide AAC frame-accurate (let alone sample-accurate) GetPosition.
517             mLastDecodedPositionUs = timeUsec;
518         }
519     }
520 
521     //-------------------------------- Handle return of decode
522     if (err != OK) {
523         bool continueDecoding = false;
524         switch (err) {
525             case ERROR_END_OF_STREAM:
526                 if (0 < mDurationUsec) {
527                     Mutex::Autolock _l(mTimeLock);
528                     mLastDecodedPositionUs = mDurationUsec;
529                 }
530                 // handle notification and looping at end of stream
531                 if (mStateFlags & kFlagPlaying) {
532                     notify(PLAYEREVENT_ENDOFSTREAM, 1, true /*async*/);
533                 }
534                 if (mStateFlags & kFlagLooping) {
535                     seek(0);
536                     // kick-off decoding again
537                     continueDecoding = true;
538                 }
539                 break;
540             case INFO_FORMAT_CHANGED:
541                 SL_LOGD("MediaSource::read encountered INFO_FORMAT_CHANGED");
542                 // reconfigure output
543                 {
544                     Mutex::Autolock _l(mBufferSourceLock);
545                     hasNewDecodeParams();
546                 }
547                 continueDecoding = true;
548                 break;
549             case INFO_DISCONTINUITY:
550                 SL_LOGD("MediaSource::read encountered INFO_DISCONTINUITY");
551                 continueDecoding = true;
552                 break;
553             default:
554                 SL_LOGE("MediaSource::read returned error %d", err);
555                 break;
556         }
557         if (continueDecoding) {
558             if (NULL == mDecodeBuffer) {
559                 (new AMessage(kWhatDecode, this))->post();
560                 return;
561             }
562         } else {
563             return;
564         }
565     }
566 
567     //-------------------------------- Render
568     sp<AMessage> msg = new AMessage(kWhatRender, this);
569     msg->post();
570 
571 }
572 
573 
onMessageReceived(const sp<AMessage> & msg)574 void AudioSfDecoder::onMessageReceived(const sp<AMessage> &msg) {
575     switch (msg->what()) {
576         case kWhatDecode:
577             onDecode();
578             break;
579 
580         case kWhatRender:
581             onRender();
582             break;
583 
584         case kWhatCheckCache:
585             onCheckCache(msg);
586             break;
587 
588         default:
589             GenericPlayer::onMessageReceived(msg);
590             break;
591     }
592 }
593 
594 //--------------------------------------------------
595 // Prepared state, prefetch status notifications
notifyPrepared(status_t prepareRes)596 void AudioSfDecoder::notifyPrepared(status_t prepareRes) {
597     assert(!(mStateFlags & (kFlagPrepared | kFlagPreparedUnsuccessfully)));
598     if (NO_ERROR == prepareRes) {
599         // The "then" fork is not currently used, but is kept here to make it easier
600         // to replace by a new signalPrepareCompletion(status) if we re-visit this later.
601         mStateFlags |= kFlagPrepared;
602     } else {
603         mStateFlags |= kFlagPreparedUnsuccessfully;
604     }
605     // Do not call the superclass onPrepare to notify, because it uses a default error
606     // status code but we can provide a more specific one.
607     // GenericPlayer::onPrepare();
608     notify(PLAYEREVENT_PREPARED, (int32_t)prepareRes, true /*async*/);
609     SL_LOGD("AudioSfDecoder::onPrepare() done, mStateFlags=0x%x", mStateFlags);
610 }
611 
612 
onNotify(const sp<AMessage> & msg)613 void AudioSfDecoder::onNotify(const sp<AMessage> &msg) {
614     notif_cbf_t notifyClient;
615     void*       notifyUser;
616     {
617         android::Mutex::Autolock autoLock(mNotifyClientLock);
618         if (NULL == mNotifyClient) {
619             return;
620         } else {
621             notifyClient = mNotifyClient;
622             notifyUser   = mNotifyUser;
623         }
624     }
625     int32_t val;
626     if (msg->findInt32(PLAYEREVENT_PREFETCHSTATUSCHANGE, &val)) {
627         SL_LOGV("\tASfPlayer notifying %s = %d", PLAYEREVENT_PREFETCHSTATUSCHANGE, val);
628         notifyClient(kEventPrefetchStatusChange, val, 0, notifyUser);
629     }
630     else if (msg->findInt32(PLAYEREVENT_PREFETCHFILLLEVELUPDATE, &val)) {
631         SL_LOGV("\tASfPlayer notifying %s = %d", PLAYEREVENT_PREFETCHFILLLEVELUPDATE, val);
632         notifyClient(kEventPrefetchFillLevelUpdate, val, 0, notifyUser);
633     }
634     else if (msg->findInt32(PLAYEREVENT_ENDOFSTREAM, &val)) {
635         SL_LOGV("\tASfPlayer notifying %s = %d", PLAYEREVENT_ENDOFSTREAM, val);
636         notifyClient(kEventEndOfStream, val, 0, notifyUser);
637     }
638     else {
639         GenericPlayer::onNotify(msg);
640     }
641 }
642 
643 
644 //--------------------------------------------------
645 // Private utility functions
646 
wantPrefetch()647 bool AudioSfDecoder::wantPrefetch() {
648     if (mDataSource != 0) {
649         return (mDataSource->flags() & DataSource::kWantsPrefetching);
650     } else {
651         // happens if an improper data locator was passed, if the media extractor couldn't be
652         //  initialized, if there is no audio track in the media, if the OMX decoder couldn't be
653         //  instantiated, if the source couldn't be opened, or if the MediaSource
654         //  couldn't be started
655         SL_LOGV("AudioSfDecoder::wantPrefetch() tries to access NULL mDataSource");
656         return false;
657     }
658 }
659 
660 
getPositionUsec()661 int64_t AudioSfDecoder::getPositionUsec() {
662     Mutex::Autolock _l(mTimeLock);
663     if (mStateFlags & kFlagSeeking) {
664         return mSeekTimeMsec * 1000;
665     } else {
666         return mLastDecodedPositionUs;
667     }
668 }
669 
670 
getCacheRemaining(bool * eos)671 CacheStatus_t AudioSfDecoder::getCacheRemaining(bool *eos) {
672     sp<NuCachedSource2> cachedSource =
673         static_cast<NuCachedSource2 *>(mDataSource.get());
674 
675     CacheStatus_t oldStatus = mCacheStatus;
676 
677     status_t finalStatus;
678     size_t dataRemaining = cachedSource->approxDataRemaining(&finalStatus);
679     *eos = (finalStatus != OK);
680 
681     CHECK_GE(mBitrate, 0);
682 
683     int64_t dataRemainingUs = dataRemaining * 8000000ll / mBitrate;
684     //SL_LOGV("AudioSfDecoder::getCacheRemaining: approx %.2f secs remaining (eos=%d)",
685     //       dataRemainingUs / 1E6, *eos);
686 
687     if (*eos) {
688         // data is buffered up to the end of the stream, it can't get any better than this
689         mCacheStatus = kStatusHigh;
690         mCacheFill = 1000;
691 
692     } else {
693         if (mDurationUsec > 0) {
694             // known duration:
695 
696             //   fill level is ratio of how much has been played + how much is
697             //   cached, divided by total duration
698             int64_t currentPositionUsec = getPositionUsec();
699             if (currentPositionUsec == ANDROID_UNKNOWN_TIME) {
700                 // if we don't know where we are, assume the worst for the fill ratio
701                 currentPositionUsec = 0;
702             }
703             if (mDurationUsec > 0) {
704                 mCacheFill = (int16_t) ((1000.0
705                         * (double)(currentPositionUsec + dataRemainingUs) / mDurationUsec));
706             } else {
707                 mCacheFill = 0;
708             }
709             //SL_LOGV("cacheFill = %d", mCacheFill);
710 
711             //   cache status is evaluated against duration thresholds
712             if (dataRemainingUs > DURATION_CACHED_HIGH_MS*1000) {
713                 mCacheStatus = kStatusHigh;
714                 //ALOGV("high");
715             } else if (dataRemainingUs > DURATION_CACHED_MED_MS*1000) {
716                 //ALOGV("enough");
717                 mCacheStatus = kStatusEnough;
718             } else if (dataRemainingUs < DURATION_CACHED_LOW_MS*1000) {
719                 //ALOGV("low");
720                 mCacheStatus = kStatusLow;
721             } else {
722                 mCacheStatus = kStatusIntermediate;
723             }
724 
725         } else {
726             // unknown duration:
727 
728             //   cache status is evaluated against cache amount thresholds
729             //   (no duration so we don't have the bitrate either, could be derived from format?)
730             if (dataRemaining > SIZE_CACHED_HIGH_BYTES) {
731                 mCacheStatus = kStatusHigh;
732             } else if (dataRemaining > SIZE_CACHED_MED_BYTES) {
733                 mCacheStatus = kStatusEnough;
734             } else if (dataRemaining < SIZE_CACHED_LOW_BYTES) {
735                 mCacheStatus = kStatusLow;
736             } else {
737                 mCacheStatus = kStatusIntermediate;
738             }
739         }
740 
741     }
742 
743     if (oldStatus != mCacheStatus) {
744         notifyStatus();
745     }
746 
747     if (abs(mCacheFill - mLastNotifiedCacheFill) > mCacheFillNotifThreshold) {
748         notifyCacheFill();
749     }
750 
751     return mCacheStatus;
752 }
753 
754 
hasNewDecodeParams()755 void AudioSfDecoder::hasNewDecodeParams() {
756 
757     if ((mAudioSource != 0) && mAudioSourceStarted) {
758         sp<MetaData> meta = mAudioSource->getFormat();
759 
760         int32_t channelCount;
761         CHECK(meta->findInt32(kKeyChannelCount, &channelCount));
762         int32_t sr;
763         CHECK(meta->findInt32(kKeySampleRate, &sr));
764 
765         // FIXME similar to onPrepare()
766         {
767             android::Mutex::Autolock autoLock(mPcmFormatLock);
768             SL_LOGV("format changed: old sr=%d, channels=%d; new sr=%d, channels=%d",
769                     mPcmFormatValues[ANDROID_KEY_INDEX_PCMFORMAT_SAMPLERATE],
770                     mPcmFormatValues[ANDROID_KEY_INDEX_PCMFORMAT_NUMCHANNELS],
771                     sr, channelCount);
772             mPcmFormatValues[ANDROID_KEY_INDEX_PCMFORMAT_NUMCHANNELS] = channelCount;
773             mPcmFormatValues[ANDROID_KEY_INDEX_PCMFORMAT_SAMPLERATE] = sr;
774             mPcmFormatValues[ANDROID_KEY_INDEX_PCMFORMAT_CHANNELMASK] =
775                     sles_channel_out_mask_from_count(channelCount);
776         }
777         // there's no need to do a notify of PLAYEREVENT_CHANNEL_COUNT,
778         // because the only listener is for volume updates, and decoders don't support that
779     }
780 
781     // alert users of those params
782     updateAudioSink();
783 }
784 
785 static const char* const kPlaybackOnlyCodecs[] = { MEDIA_MIMETYPE_AUDIO_AMR_NB,
786         MEDIA_MIMETYPE_AUDIO_AMR_WB };
787 #define NB_PLAYBACK_ONLY_CODECS (sizeof(kPlaybackOnlyCodecs)/sizeof(kPlaybackOnlyCodecs[0]))
788 
isSupportedCodec(const char * mime)789 bool AudioSfDecoder::isSupportedCodec(const char* mime) {
790     bool codecRequiresPermission = false;
791     for (unsigned int i = 0 ; i < NB_PLAYBACK_ONLY_CODECS ; i++) {
792         if (!strcasecmp(mime, kPlaybackOnlyCodecs[i])) {
793             codecRequiresPermission = true;
794             break;
795         }
796     }
797     if (codecRequiresPermission) {
798         // verify only the system can decode, for playback only
799         return checkCallingPermission(
800                 String16("android.permission.ALLOW_ANY_CODEC_FOR_PLAYBACK"));
801     } else {
802         return true;
803     }
804 }
805 
806 } // namespace android
807