1 /*
2 * Copyright (C) 2007 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 LOG_NDEBUG 0
18 #define LOG_TAG "SoundPool"
19
20 #include <chrono>
21 #include <inttypes.h>
22 #include <thread>
23 #include <utils/Log.h>
24
25 #define USE_SHARED_MEM_BUFFER
26
27 #include <media/AudioTrack.h>
28 #include "SoundPool.h"
29 #include "SoundPoolThread.h"
30 #include <media/NdkMediaCodec.h>
31 #include <media/NdkMediaExtractor.h>
32 #include <media/NdkMediaFormat.h>
33
34 namespace android
35 {
36
37 int kDefaultBufferCount = 4;
38 uint32_t kMaxSampleRate = 48000;
39 uint32_t kDefaultSampleRate = 44100;
40 uint32_t kDefaultFrameCount = 1200;
41 size_t kDefaultHeapSize = 1024 * 1024; // 1MB
42
43
SoundPool(int maxChannels,const audio_attributes_t * pAttributes)44 SoundPool::SoundPool(int maxChannels, const audio_attributes_t* pAttributes)
45 {
46 ALOGV("SoundPool constructor: maxChannels=%d, attr.usage=%d, attr.flags=0x%x, attr.tags=%s",
47 maxChannels, pAttributes->usage, pAttributes->flags, pAttributes->tags);
48
49 // check limits
50 mMaxChannels = maxChannels;
51 if (mMaxChannels < 1) {
52 mMaxChannels = 1;
53 }
54 else if (mMaxChannels > 32) {
55 mMaxChannels = 32;
56 }
57 ALOGW_IF(maxChannels != mMaxChannels, "App requested %d channels", maxChannels);
58
59 mQuit = false;
60 mMuted = false;
61 mDecodeThread = 0;
62 memcpy(&mAttributes, pAttributes, sizeof(audio_attributes_t));
63 mAllocated = 0;
64 mNextSampleID = 0;
65 mNextChannelID = 0;
66
67 mCallback = 0;
68 mUserData = 0;
69
70 mChannelPool = new SoundChannel[mMaxChannels];
71 for (int i = 0; i < mMaxChannels; ++i) {
72 mChannelPool[i].init(this);
73 mChannels.push_back(&mChannelPool[i]);
74 }
75
76 // start decode thread
77 startThreads();
78 }
79
~SoundPool()80 SoundPool::~SoundPool()
81 {
82 ALOGV("SoundPool destructor");
83 mDecodeThread->quit();
84 quit();
85
86 Mutex::Autolock lock(&mLock);
87
88 mChannels.clear();
89 if (mChannelPool)
90 delete [] mChannelPool;
91 // clean up samples
92 ALOGV("clear samples");
93 mSamples.clear();
94
95 if (mDecodeThread)
96 delete mDecodeThread;
97 }
98
addToRestartList(SoundChannel * channel)99 void SoundPool::addToRestartList(SoundChannel* channel)
100 {
101 Mutex::Autolock lock(&mRestartLock);
102 if (!mQuit) {
103 mRestart.push_back(channel);
104 mCondition.signal();
105 }
106 }
107
addToStopList(SoundChannel * channel)108 void SoundPool::addToStopList(SoundChannel* channel)
109 {
110 Mutex::Autolock lock(&mRestartLock);
111 if (!mQuit) {
112 mStop.push_back(channel);
113 mCondition.signal();
114 }
115 }
116
beginThread(void * arg)117 int SoundPool::beginThread(void* arg)
118 {
119 SoundPool* p = (SoundPool*)arg;
120 return p->run();
121 }
122
run()123 int SoundPool::run()
124 {
125 mRestartLock.lock();
126 while (!mQuit) {
127 mCondition.wait(mRestartLock);
128 ALOGV("awake");
129 if (mQuit) break;
130
131 while (!mStop.empty()) {
132 SoundChannel* channel;
133 ALOGV("Getting channel from stop list");
134 List<SoundChannel* >::iterator iter = mStop.begin();
135 channel = *iter;
136 mStop.erase(iter);
137 mRestartLock.unlock();
138 if (channel != 0) {
139 Mutex::Autolock lock(&mLock);
140 channel->stop();
141 }
142 mRestartLock.lock();
143 if (mQuit) break;
144 }
145
146 while (!mRestart.empty()) {
147 SoundChannel* channel;
148 ALOGV("Getting channel from list");
149 List<SoundChannel*>::iterator iter = mRestart.begin();
150 channel = *iter;
151 mRestart.erase(iter);
152 mRestartLock.unlock();
153 if (channel != 0) {
154 Mutex::Autolock lock(&mLock);
155 channel->nextEvent();
156 }
157 mRestartLock.lock();
158 if (mQuit) break;
159 }
160 }
161
162 mStop.clear();
163 mRestart.clear();
164 mCondition.signal();
165 mRestartLock.unlock();
166 ALOGV("goodbye");
167 return 0;
168 }
169
quit()170 void SoundPool::quit()
171 {
172 mRestartLock.lock();
173 mQuit = true;
174 mCondition.signal();
175 mCondition.wait(mRestartLock);
176 ALOGV("return from quit");
177 mRestartLock.unlock();
178 }
179
startThreads()180 bool SoundPool::startThreads()
181 {
182 createThreadEtc(beginThread, this, "SoundPool");
183 if (mDecodeThread == NULL)
184 mDecodeThread = new SoundPoolThread(this);
185 return mDecodeThread != NULL;
186 }
187
findSample(int sampleID)188 sp<Sample> SoundPool::findSample(int sampleID)
189 {
190 Mutex::Autolock lock(&mLock);
191 return findSample_l(sampleID);
192 }
193
findSample_l(int sampleID)194 sp<Sample> SoundPool::findSample_l(int sampleID)
195 {
196 return mSamples.valueFor(sampleID);
197 }
198
findChannel(int channelID)199 SoundChannel* SoundPool::findChannel(int channelID)
200 {
201 for (int i = 0; i < mMaxChannels; ++i) {
202 if (mChannelPool[i].channelID() == channelID) {
203 return &mChannelPool[i];
204 }
205 }
206 return NULL;
207 }
208
findNextChannel(int channelID)209 SoundChannel* SoundPool::findNextChannel(int channelID)
210 {
211 for (int i = 0; i < mMaxChannels; ++i) {
212 if (mChannelPool[i].nextChannelID() == channelID) {
213 return &mChannelPool[i];
214 }
215 }
216 return NULL;
217 }
218
load(int fd,int64_t offset,int64_t length,int priority __unused)219 int SoundPool::load(int fd, int64_t offset, int64_t length, int priority __unused)
220 {
221 ALOGV("load: fd=%d, offset=%" PRId64 ", length=%" PRId64 ", priority=%d",
222 fd, offset, length, priority);
223 int sampleID;
224 {
225 Mutex::Autolock lock(&mLock);
226 sampleID = ++mNextSampleID;
227 sp<Sample> sample = new Sample(sampleID, fd, offset, length);
228 mSamples.add(sampleID, sample);
229 sample->startLoad();
230 }
231 // mDecodeThread->loadSample() must be called outside of mLock.
232 // mDecodeThread->loadSample() may block on mDecodeThread message queue space;
233 // the message queue emptying may block on SoundPool::findSample().
234 //
235 // It theoretically possible that sample loads might decode out-of-order.
236 mDecodeThread->loadSample(sampleID);
237 return sampleID;
238 }
239
unload(int sampleID)240 bool SoundPool::unload(int sampleID)
241 {
242 ALOGV("unload: sampleID=%d", sampleID);
243 Mutex::Autolock lock(&mLock);
244 return mSamples.removeItem(sampleID) >= 0; // removeItem() returns index or BAD_VALUE
245 }
246
play(int sampleID,float leftVolume,float rightVolume,int priority,int loop,float rate)247 int SoundPool::play(int sampleID, float leftVolume, float rightVolume,
248 int priority, int loop, float rate)
249 {
250 ALOGV("play sampleID=%d, leftVolume=%f, rightVolume=%f, priority=%d, loop=%d, rate=%f",
251 sampleID, leftVolume, rightVolume, priority, loop, rate);
252 SoundChannel* channel;
253 int channelID;
254
255 Mutex::Autolock lock(&mLock);
256
257 if (mQuit) {
258 return 0;
259 }
260 // is sample ready?
261 sp<Sample> sample(findSample_l(sampleID));
262 if ((sample == 0) || (sample->state() != Sample::READY)) {
263 ALOGW(" sample %d not READY", sampleID);
264 return 0;
265 }
266
267 dump();
268
269 // allocate a channel
270 channel = allocateChannel_l(priority, sampleID);
271
272 // no channel allocated - return 0
273 if (!channel) {
274 ALOGV("No channel allocated");
275 return 0;
276 }
277
278 channelID = ++mNextChannelID;
279
280 ALOGV("play channel %p state = %d", channel, channel->state());
281 channel->play(sample, channelID, leftVolume, rightVolume, priority, loop, rate);
282 return channelID;
283 }
284
allocateChannel_l(int priority,int sampleID)285 SoundChannel* SoundPool::allocateChannel_l(int priority, int sampleID)
286 {
287 List<SoundChannel*>::iterator iter;
288 SoundChannel* channel = NULL;
289
290 // check if channel for given sampleID still available
291 if (!mChannels.empty()) {
292 for (iter = mChannels.begin(); iter != mChannels.end(); ++iter) {
293 if (sampleID == (*iter)->getPrevSampleID() && (*iter)->state() == SoundChannel::IDLE) {
294 channel = *iter;
295 mChannels.erase(iter);
296 ALOGV("Allocated recycled channel for same sampleID");
297 break;
298 }
299 }
300 }
301
302 // allocate any channel
303 if (!channel && !mChannels.empty()) {
304 iter = mChannels.begin();
305 if (priority >= (*iter)->priority()) {
306 channel = *iter;
307 mChannels.erase(iter);
308 ALOGV("Allocated active channel");
309 }
310 }
311
312 // update priority and put it back in the list
313 if (channel) {
314 channel->setPriority(priority);
315 for (iter = mChannels.begin(); iter != mChannels.end(); ++iter) {
316 if (priority < (*iter)->priority()) {
317 break;
318 }
319 }
320 mChannels.insert(iter, channel);
321 }
322 return channel;
323 }
324
325 // move a channel from its current position to the front of the list
moveToFront_l(SoundChannel * channel)326 void SoundPool::moveToFront_l(SoundChannel* channel)
327 {
328 for (List<SoundChannel*>::iterator iter = mChannels.begin(); iter != mChannels.end(); ++iter) {
329 if (*iter == channel) {
330 mChannels.erase(iter);
331 mChannels.push_front(channel);
332 break;
333 }
334 }
335 }
336
pause(int channelID)337 void SoundPool::pause(int channelID)
338 {
339 ALOGV("pause(%d)", channelID);
340 Mutex::Autolock lock(&mLock);
341 SoundChannel* channel = findChannel(channelID);
342 if (channel) {
343 channel->pause();
344 }
345 }
346
autoPause()347 void SoundPool::autoPause()
348 {
349 ALOGV("autoPause()");
350 Mutex::Autolock lock(&mLock);
351 for (int i = 0; i < mMaxChannels; ++i) {
352 SoundChannel* channel = &mChannelPool[i];
353 channel->autoPause();
354 }
355 }
356
resume(int channelID)357 void SoundPool::resume(int channelID)
358 {
359 ALOGV("resume(%d)", channelID);
360 Mutex::Autolock lock(&mLock);
361 SoundChannel* channel = findChannel(channelID);
362 if (channel) {
363 channel->resume();
364 }
365 }
366
mute(bool muting)367 void SoundPool::mute(bool muting)
368 {
369 ALOGV("mute(%d)", muting);
370 Mutex::Autolock lock(&mLock);
371 mMuted = muting;
372 if (!mChannels.empty()) {
373 for (List<SoundChannel*>::iterator iter = mChannels.begin();
374 iter != mChannels.end(); ++iter) {
375 (*iter)->mute(muting);
376 }
377 }
378 }
379
autoResume()380 void SoundPool::autoResume()
381 {
382 ALOGV("autoResume()");
383 Mutex::Autolock lock(&mLock);
384 for (int i = 0; i < mMaxChannels; ++i) {
385 SoundChannel* channel = &mChannelPool[i];
386 channel->autoResume();
387 }
388 }
389
stop(int channelID)390 void SoundPool::stop(int channelID)
391 {
392 ALOGV("stop(%d)", channelID);
393 Mutex::Autolock lock(&mLock);
394 SoundChannel* channel = findChannel(channelID);
395 if (channel) {
396 channel->stop();
397 } else {
398 channel = findNextChannel(channelID);
399 if (channel)
400 channel->clearNextEvent();
401 }
402 }
403
setVolume(int channelID,float leftVolume,float rightVolume)404 void SoundPool::setVolume(int channelID, float leftVolume, float rightVolume)
405 {
406 Mutex::Autolock lock(&mLock);
407 SoundChannel* channel = findChannel(channelID);
408 if (channel) {
409 channel->setVolume(leftVolume, rightVolume);
410 }
411 }
412
setPriority(int channelID,int priority)413 void SoundPool::setPriority(int channelID, int priority)
414 {
415 ALOGV("setPriority(%d, %d)", channelID, priority);
416 Mutex::Autolock lock(&mLock);
417 SoundChannel* channel = findChannel(channelID);
418 if (channel) {
419 channel->setPriority(priority);
420 }
421 }
422
setLoop(int channelID,int loop)423 void SoundPool::setLoop(int channelID, int loop)
424 {
425 ALOGV("setLoop(%d, %d)", channelID, loop);
426 Mutex::Autolock lock(&mLock);
427 SoundChannel* channel = findChannel(channelID);
428 if (channel) {
429 channel->setLoop(loop);
430 }
431 }
432
setRate(int channelID,float rate)433 void SoundPool::setRate(int channelID, float rate)
434 {
435 ALOGV("setRate(%d, %f)", channelID, rate);
436 Mutex::Autolock lock(&mLock);
437 SoundChannel* channel = findChannel(channelID);
438 if (channel) {
439 channel->setRate(rate);
440 }
441 }
442
443 // call with lock held
done_l(SoundChannel * channel)444 void SoundPool::done_l(SoundChannel* channel)
445 {
446 ALOGV("done_l(%d)", channel->channelID());
447 // if "stolen", play next event
448 if (channel->nextChannelID() != 0) {
449 ALOGV("add to restart list");
450 addToRestartList(channel);
451 }
452
453 // return to idle state
454 else {
455 ALOGV("move to front");
456 moveToFront_l(channel);
457 }
458 }
459
setCallback(SoundPoolCallback * callback,void * user)460 void SoundPool::setCallback(SoundPoolCallback* callback, void* user)
461 {
462 Mutex::Autolock lock(&mCallbackLock);
463 mCallback = callback;
464 mUserData = user;
465 }
466
notify(SoundPoolEvent event)467 void SoundPool::notify(SoundPoolEvent event)
468 {
469 Mutex::Autolock lock(&mCallbackLock);
470 if (mCallback != NULL) {
471 mCallback(event, this, mUserData);
472 }
473 }
474
dump()475 void SoundPool::dump()
476 {
477 for (int i = 0; i < mMaxChannels; ++i) {
478 mChannelPool[i].dump();
479 }
480 }
481
482
Sample(int sampleID,int fd,int64_t offset,int64_t length)483 Sample::Sample(int sampleID, int fd, int64_t offset, int64_t length)
484 {
485 init();
486 mSampleID = sampleID;
487 mFd = dup(fd);
488 mOffset = offset;
489 mLength = length;
490 ALOGV("create sampleID=%d, fd=%d, offset=%" PRId64 " length=%" PRId64,
491 mSampleID, mFd, mLength, mOffset);
492 }
493
init()494 void Sample::init()
495 {
496 mSize = 0;
497 mRefCount = 0;
498 mSampleID = 0;
499 mState = UNLOADED;
500 mFd = -1;
501 mOffset = 0;
502 mLength = 0;
503 }
504
~Sample()505 Sample::~Sample()
506 {
507 ALOGV("Sample::destructor sampleID=%d, fd=%d", mSampleID, mFd);
508 if (mFd > 0) {
509 ALOGV("close(%d)", mFd);
510 ::close(mFd);
511 }
512 }
513
decode(int fd,int64_t offset,int64_t length,uint32_t * rate,int * numChannels,audio_format_t * audioFormat,audio_channel_mask_t * channelMask,sp<MemoryHeapBase> heap,size_t * memsize)514 static status_t decode(int fd, int64_t offset, int64_t length,
515 uint32_t *rate, int *numChannels, audio_format_t *audioFormat,
516 audio_channel_mask_t *channelMask, sp<MemoryHeapBase> heap,
517 size_t *memsize) {
518
519 ALOGV("fd %d, offset %" PRId64 ", size %" PRId64, fd, offset, length);
520 AMediaExtractor *ex = AMediaExtractor_new();
521 status_t err = AMediaExtractor_setDataSourceFd(ex, fd, offset, length);
522
523 if (err != AMEDIA_OK) {
524 AMediaExtractor_delete(ex);
525 return err;
526 }
527
528 *audioFormat = AUDIO_FORMAT_PCM_16_BIT;
529
530 size_t numTracks = AMediaExtractor_getTrackCount(ex);
531 for (size_t i = 0; i < numTracks; i++) {
532 AMediaFormat *format = AMediaExtractor_getTrackFormat(ex, i);
533 const char *mime;
534 if (!AMediaFormat_getString(format, AMEDIAFORMAT_KEY_MIME, &mime)) {
535 AMediaExtractor_delete(ex);
536 AMediaFormat_delete(format);
537 return UNKNOWN_ERROR;
538 }
539 if (strncmp(mime, "audio/", 6) == 0) {
540
541 AMediaCodec *codec = AMediaCodec_createDecoderByType(mime);
542 if (codec == NULL
543 || AMediaCodec_configure(codec, format,
544 NULL /* window */, NULL /* drm */, 0 /* flags */) != AMEDIA_OK
545 || AMediaCodec_start(codec) != AMEDIA_OK
546 || AMediaExtractor_selectTrack(ex, i) != AMEDIA_OK) {
547 AMediaExtractor_delete(ex);
548 AMediaCodec_delete(codec);
549 AMediaFormat_delete(format);
550 return UNKNOWN_ERROR;
551 }
552
553 bool sawInputEOS = false;
554 bool sawOutputEOS = false;
555 uint8_t* writePos = static_cast<uint8_t*>(heap->getBase());
556 size_t available = heap->getSize();
557 size_t written = 0;
558
559 AMediaFormat_delete(format);
560 format = AMediaCodec_getOutputFormat(codec);
561
562 while (!sawOutputEOS) {
563 if (!sawInputEOS) {
564 ssize_t bufidx = AMediaCodec_dequeueInputBuffer(codec, 5000);
565 ALOGV("input buffer %zd", bufidx);
566 if (bufidx >= 0) {
567 size_t bufsize;
568 uint8_t *buf = AMediaCodec_getInputBuffer(codec, bufidx, &bufsize);
569 if (buf == nullptr) {
570 ALOGE("AMediaCodec_getInputBuffer returned nullptr, short decode");
571 break;
572 }
573 int sampleSize = AMediaExtractor_readSampleData(ex, buf, bufsize);
574 ALOGV("read %d", sampleSize);
575 if (sampleSize < 0) {
576 sampleSize = 0;
577 sawInputEOS = true;
578 ALOGV("EOS");
579 }
580 int64_t presentationTimeUs = AMediaExtractor_getSampleTime(ex);
581
582 media_status_t mstatus = AMediaCodec_queueInputBuffer(codec, bufidx,
583 0 /* offset */, sampleSize, presentationTimeUs,
584 sawInputEOS ? AMEDIACODEC_BUFFER_FLAG_END_OF_STREAM : 0);
585 if (mstatus != AMEDIA_OK) {
586 // AMEDIA_ERROR_UNKNOWN == { -ERANGE -EINVAL -EACCES }
587 ALOGE("AMediaCodec_queueInputBuffer returned status %d, short decode",
588 (int)mstatus);
589 break;
590 }
591 (void)AMediaExtractor_advance(ex);
592 }
593 }
594
595 AMediaCodecBufferInfo info;
596 int status = AMediaCodec_dequeueOutputBuffer(codec, &info, 1);
597 ALOGV("dequeueoutput returned: %d", status);
598 if (status >= 0) {
599 if (info.flags & AMEDIACODEC_BUFFER_FLAG_END_OF_STREAM) {
600 ALOGV("output EOS");
601 sawOutputEOS = true;
602 }
603 ALOGV("got decoded buffer size %d", info.size);
604
605 uint8_t *buf = AMediaCodec_getOutputBuffer(codec, status, NULL /* out_size */);
606 if (buf == nullptr) {
607 ALOGE("AMediaCodec_getOutputBuffer returned nullptr, short decode");
608 break;
609 }
610 size_t dataSize = info.size;
611 if (dataSize > available) {
612 dataSize = available;
613 }
614 memcpy(writePos, buf + info.offset, dataSize);
615 writePos += dataSize;
616 written += dataSize;
617 available -= dataSize;
618 media_status_t mstatus = AMediaCodec_releaseOutputBuffer(
619 codec, status, false /* render */);
620 if (mstatus != AMEDIA_OK) {
621 // AMEDIA_ERROR_UNKNOWN == { -ERANGE -EINVAL -EACCES }
622 ALOGE("AMediaCodec_releaseOutputBuffer returned status %d, short decode",
623 (int)mstatus);
624 break;
625 }
626 if (available == 0) {
627 // there might be more data, but there's no space for it
628 sawOutputEOS = true;
629 }
630 } else if (status == AMEDIACODEC_INFO_OUTPUT_BUFFERS_CHANGED) {
631 ALOGV("output buffers changed");
632 } else if (status == AMEDIACODEC_INFO_OUTPUT_FORMAT_CHANGED) {
633 AMediaFormat_delete(format);
634 format = AMediaCodec_getOutputFormat(codec);
635 ALOGV("format changed to: %s", AMediaFormat_toString(format));
636 } else if (status == AMEDIACODEC_INFO_TRY_AGAIN_LATER) {
637 ALOGV("no output buffer right now");
638 } else if (status <= AMEDIA_ERROR_BASE) {
639 ALOGE("decode error: %d", status);
640 break;
641 } else {
642 ALOGV("unexpected info code: %d", status);
643 }
644 }
645
646 (void)AMediaCodec_stop(codec);
647 (void)AMediaCodec_delete(codec);
648 (void)AMediaExtractor_delete(ex);
649 if (!AMediaFormat_getInt32(format, AMEDIAFORMAT_KEY_SAMPLE_RATE, (int32_t*) rate) ||
650 !AMediaFormat_getInt32(format, AMEDIAFORMAT_KEY_CHANNEL_COUNT, numChannels)) {
651 (void)AMediaFormat_delete(format);
652 return UNKNOWN_ERROR;
653 }
654 if (!AMediaFormat_getInt32(format, AMEDIAFORMAT_KEY_CHANNEL_MASK,
655 (int32_t*) channelMask)) {
656 *channelMask = AUDIO_CHANNEL_NONE;
657 }
658 (void)AMediaFormat_delete(format);
659 *memsize = written;
660 return OK;
661 }
662 (void)AMediaFormat_delete(format);
663 }
664 (void)AMediaExtractor_delete(ex);
665 return UNKNOWN_ERROR;
666 }
667
doLoad()668 status_t Sample::doLoad()
669 {
670 uint32_t sampleRate;
671 int numChannels;
672 audio_format_t format;
673 audio_channel_mask_t channelMask;
674 status_t status;
675 mHeap = new MemoryHeapBase(kDefaultHeapSize);
676
677 ALOGV("Start decode");
678 status = decode(mFd, mOffset, mLength, &sampleRate, &numChannels, &format,
679 &channelMask, mHeap, &mSize);
680 ALOGV("close(%d)", mFd);
681 ::close(mFd);
682 mFd = -1;
683 if (status != NO_ERROR) {
684 ALOGE("Unable to load sample");
685 goto error;
686 }
687 ALOGV("pointer = %p, size = %zu, sampleRate = %u, numChannels = %d",
688 mHeap->getBase(), mSize, sampleRate, numChannels);
689
690 if (sampleRate > kMaxSampleRate) {
691 ALOGE("Sample rate (%u) out of range", sampleRate);
692 status = BAD_VALUE;
693 goto error;
694 }
695
696 if ((numChannels < 1) || (numChannels > FCC_8)) {
697 ALOGE("Sample channel count (%d) out of range", numChannels);
698 status = BAD_VALUE;
699 goto error;
700 }
701
702 mData = new MemoryBase(mHeap, 0, mSize);
703 mSampleRate = sampleRate;
704 mNumChannels = numChannels;
705 mFormat = format;
706 mChannelMask = channelMask;
707 mState = READY;
708 return NO_ERROR;
709
710 error:
711 mHeap.clear();
712 return status;
713 }
714
715
init(SoundPool * soundPool)716 void SoundChannel::init(SoundPool* soundPool)
717 {
718 mSoundPool = soundPool;
719 mPrevSampleID = -1;
720 }
721
722 // call with sound pool lock held
play(const sp<Sample> & sample,int nextChannelID,float leftVolume,float rightVolume,int priority,int loop,float rate)723 void SoundChannel::play(const sp<Sample>& sample, int nextChannelID, float leftVolume,
724 float rightVolume, int priority, int loop, float rate)
725 {
726 sp<AudioTrack> oldTrack;
727 sp<AudioTrack> newTrack;
728 status_t status = NO_ERROR;
729
730 { // scope for the lock
731 Mutex::Autolock lock(&mLock);
732
733 ALOGV("SoundChannel::play %p: sampleID=%d, channelID=%d, leftVolume=%f, rightVolume=%f,"
734 " priority=%d, loop=%d, rate=%f",
735 this, sample->sampleID(), nextChannelID, leftVolume, rightVolume,
736 priority, loop, rate);
737
738 // if not idle, this voice is being stolen
739 if (mState != IDLE) {
740 ALOGV("channel %d stolen - event queued for channel %d", channelID(), nextChannelID);
741 mNextEvent.set(sample, nextChannelID, leftVolume, rightVolume, priority, loop, rate);
742 stop_l();
743 return;
744 }
745
746 // initialize track
747 size_t afFrameCount;
748 uint32_t afSampleRate;
749 audio_stream_type_t streamType =
750 AudioSystem::attributesToStreamType(*mSoundPool->attributes());
751 if (AudioSystem::getOutputFrameCount(&afFrameCount, streamType) != NO_ERROR) {
752 afFrameCount = kDefaultFrameCount;
753 }
754 if (AudioSystem::getOutputSamplingRate(&afSampleRate, streamType) != NO_ERROR) {
755 afSampleRate = kDefaultSampleRate;
756 }
757 int numChannels = sample->numChannels();
758 uint32_t sampleRate = uint32_t(float(sample->sampleRate()) * rate + 0.5);
759 size_t frameCount = 0;
760
761 if (loop) {
762 const audio_format_t format = sample->format();
763 const size_t frameSize = audio_is_linear_pcm(format)
764 ? numChannels * audio_bytes_per_sample(format) : 1;
765 frameCount = sample->size() / frameSize;
766 }
767
768 #ifndef USE_SHARED_MEM_BUFFER
769 uint32_t totalFrames = (kDefaultBufferCount * afFrameCount * sampleRate) / afSampleRate;
770 // Ensure minimum audio buffer size in case of short looped sample
771 if(frameCount < totalFrames) {
772 frameCount = totalFrames;
773 }
774 #endif
775
776 // check if the existing track has the same sample id.
777 if (mAudioTrack != 0 && mPrevSampleID == sample->sampleID()) {
778 // the sample rate may fail to change if the audio track is a fast track.
779 if (mAudioTrack->setSampleRate(sampleRate) == NO_ERROR) {
780 newTrack = mAudioTrack;
781 ALOGV("reusing track %p for sample %d", mAudioTrack.get(), sample->sampleID());
782 }
783 }
784 if (newTrack == 0) {
785 // mToggle toggles each time a track is started on a given channel.
786 // The toggle is concatenated with the SoundChannel address and passed to AudioTrack
787 // as callback user data. This enables the detection of callbacks received from the old
788 // audio track while the new one is being started and avoids processing them with
789 // wrong audio audio buffer size (mAudioBufferSize)
790 unsigned long toggle = mToggle ^ 1;
791 void *userData = (void *)((unsigned long)this | toggle);
792 audio_channel_mask_t sampleChannelMask = sample->channelMask();
793 // When sample contains a not none channel mask, use it as is.
794 // Otherwise, use channel count to calculate channel mask.
795 audio_channel_mask_t channelMask = sampleChannelMask != AUDIO_CHANNEL_NONE
796 ? sampleChannelMask : audio_channel_out_mask_from_count(numChannels);
797
798 // do not create a new audio track if current track is compatible with sample parameters
799 #ifdef USE_SHARED_MEM_BUFFER
800 newTrack = new AudioTrack(streamType, sampleRate, sample->format(),
801 channelMask, sample->getIMemory(), AUDIO_OUTPUT_FLAG_FAST, callback, userData,
802 0 /*default notification frames*/, AUDIO_SESSION_ALLOCATE,
803 AudioTrack::TRANSFER_DEFAULT,
804 NULL /*offloadInfo*/, -1 /*uid*/, -1 /*pid*/, mSoundPool->attributes());
805 #else
806 uint32_t bufferFrames = (totalFrames + (kDefaultBufferCount - 1)) / kDefaultBufferCount;
807 newTrack = new AudioTrack(streamType, sampleRate, sample->format(),
808 channelMask, frameCount, AUDIO_OUTPUT_FLAG_FAST, callback, userData,
809 bufferFrames, AUDIO_SESSION_ALLOCATE, AudioTrack::TRANSFER_DEFAULT,
810 NULL /*offloadInfo*/, -1 /*uid*/, -1 /*pid*/, mSoundPool->attributes());
811 #endif
812 oldTrack = mAudioTrack;
813 status = newTrack->initCheck();
814 if (status != NO_ERROR) {
815 ALOGE("Error creating AudioTrack");
816 // newTrack goes out of scope, so reference count drops to zero
817 goto exit;
818 }
819 // From now on, AudioTrack callbacks received with previous toggle value will be ignored.
820 mToggle = toggle;
821 mAudioTrack = newTrack;
822 ALOGV("using new track %p for sample %d", newTrack.get(), sample->sampleID());
823 }
824 if (mMuted) {
825 newTrack->setVolume(0.0f, 0.0f);
826 } else {
827 newTrack->setVolume(leftVolume, rightVolume);
828 }
829 newTrack->setLoop(0, frameCount, loop);
830 mPos = 0;
831 mSample = sample;
832 mChannelID = nextChannelID;
833 mPriority = priority;
834 mLoop = loop;
835 mLeftVolume = leftVolume;
836 mRightVolume = rightVolume;
837 mNumChannels = numChannels;
838 mRate = rate;
839 clearNextEvent();
840 mState = PLAYING;
841 mAudioTrack->start();
842 mAudioBufferSize = newTrack->frameCount()*newTrack->frameSize();
843 }
844
845 exit:
846 ALOGV("delete oldTrack %p", oldTrack.get());
847 if (status != NO_ERROR) {
848 mAudioTrack.clear();
849 }
850 }
851
nextEvent()852 void SoundChannel::nextEvent()
853 {
854 sp<Sample> sample;
855 int nextChannelID;
856 float leftVolume;
857 float rightVolume;
858 int priority;
859 int loop;
860 float rate;
861
862 // check for valid event
863 {
864 Mutex::Autolock lock(&mLock);
865 nextChannelID = mNextEvent.channelID();
866 if (nextChannelID == 0) {
867 ALOGV("stolen channel has no event");
868 return;
869 }
870
871 sample = mNextEvent.sample();
872 leftVolume = mNextEvent.leftVolume();
873 rightVolume = mNextEvent.rightVolume();
874 priority = mNextEvent.priority();
875 loop = mNextEvent.loop();
876 rate = mNextEvent.rate();
877 }
878
879 ALOGV("Starting stolen channel %d -> %d", channelID(), nextChannelID);
880 play(sample, nextChannelID, leftVolume, rightVolume, priority, loop, rate);
881 }
882
callback(int event,void * user,void * info)883 void SoundChannel::callback(int event, void* user, void *info)
884 {
885 SoundChannel* channel = static_cast<SoundChannel*>((void *)((unsigned long)user & ~1));
886
887 channel->process(event, info, (unsigned long)user & 1);
888 }
889
process(int event,void * info,unsigned long toggle)890 void SoundChannel::process(int event, void *info, unsigned long toggle)
891 {
892 //ALOGV("process(%d)", mChannelID);
893
894 Mutex::Autolock lock(&mLock);
895
896 AudioTrack::Buffer* b = NULL;
897 if (event == AudioTrack::EVENT_MORE_DATA) {
898 b = static_cast<AudioTrack::Buffer *>(info);
899 }
900
901 if (mToggle != toggle) {
902 ALOGV("process wrong toggle %p channel %d", this, mChannelID);
903 if (b != NULL) {
904 b->size = 0;
905 }
906 return;
907 }
908
909 sp<Sample> sample = mSample;
910
911 // ALOGV("SoundChannel::process event %d", event);
912
913 if (event == AudioTrack::EVENT_MORE_DATA) {
914
915 // check for stop state
916 if (b->size == 0) return;
917
918 if (mState == IDLE) {
919 b->size = 0;
920 return;
921 }
922
923 if (sample != 0) {
924 // fill buffer
925 uint8_t* q = (uint8_t*) b->i8;
926 size_t count = 0;
927
928 if (mPos < (int)sample->size()) {
929 uint8_t* p = sample->data() + mPos;
930 count = sample->size() - mPos;
931 if (count > b->size) {
932 count = b->size;
933 }
934 memcpy(q, p, count);
935 // ALOGV("fill: q=%p, p=%p, mPos=%u, b->size=%u, count=%d", q, p, mPos, b->size,
936 // count);
937 } else if (mPos < mAudioBufferSize) {
938 count = mAudioBufferSize - mPos;
939 if (count > b->size) {
940 count = b->size;
941 }
942 memset(q, 0, count);
943 // ALOGV("fill extra: q=%p, mPos=%u, b->size=%u, count=%d", q, mPos, b->size, count);
944 }
945
946 mPos += count;
947 b->size = count;
948 //ALOGV("buffer=%p, [0]=%d", b->i16, b->i16[0]);
949 }
950 } else if (event == AudioTrack::EVENT_UNDERRUN || event == AudioTrack::EVENT_BUFFER_END) {
951 ALOGV("process %p channel %d event %s",
952 this, mChannelID, (event == AudioTrack::EVENT_UNDERRUN) ? "UNDERRUN" :
953 "BUFFER_END");
954 mSoundPool->addToStopList(this);
955 } else if (event == AudioTrack::EVENT_LOOP_END) {
956 ALOGV("End loop %p channel %d", this, mChannelID);
957 } else if (event == AudioTrack::EVENT_NEW_IAUDIOTRACK) {
958 ALOGV("process %p channel %d NEW_IAUDIOTRACK", this, mChannelID);
959 } else {
960 ALOGW("SoundChannel::process unexpected event %d", event);
961 }
962 }
963
964
965 // call with lock held
doStop_l()966 bool SoundChannel::doStop_l()
967 {
968 if (mState != IDLE) {
969 setVolume_l(0, 0);
970 ALOGV("stop");
971 // Since we're forcibly halting the previously playing content,
972 // we sleep here to ensure the volume is ramped down before we stop the track.
973 // Ideally the sleep time is the mixer period, or an approximation thereof
974 // (Fast vs Normal tracks are different).
975 // TODO: consider pausing instead of stop here.
976 std::this_thread::sleep_for(std::chrono::milliseconds(20));
977 mAudioTrack->stop();
978 mPrevSampleID = mSample->sampleID();
979 mSample.clear();
980 mState = IDLE;
981 mPriority = IDLE_PRIORITY;
982 return true;
983 }
984 return false;
985 }
986
987 // call with lock held and sound pool lock held
stop_l()988 void SoundChannel::stop_l()
989 {
990 if (doStop_l()) {
991 mSoundPool->done_l(this);
992 }
993 }
994
995 // call with sound pool lock held
stop()996 void SoundChannel::stop()
997 {
998 bool stopped;
999 {
1000 Mutex::Autolock lock(&mLock);
1001 stopped = doStop_l();
1002 }
1003
1004 if (stopped) {
1005 mSoundPool->done_l(this);
1006 }
1007 }
1008
1009 //FIXME: Pause is a little broken right now
pause()1010 void SoundChannel::pause()
1011 {
1012 Mutex::Autolock lock(&mLock);
1013 if (mState == PLAYING) {
1014 ALOGV("pause track");
1015 mState = PAUSED;
1016 mAudioTrack->pause();
1017 }
1018 }
1019
autoPause()1020 void SoundChannel::autoPause()
1021 {
1022 Mutex::Autolock lock(&mLock);
1023 if (mState == PLAYING) {
1024 ALOGV("pause track");
1025 mState = PAUSED;
1026 mAutoPaused = true;
1027 mAudioTrack->pause();
1028 }
1029 }
1030
resume()1031 void SoundChannel::resume()
1032 {
1033 Mutex::Autolock lock(&mLock);
1034 if (mState == PAUSED) {
1035 ALOGV("resume track");
1036 mState = PLAYING;
1037 mAutoPaused = false;
1038 mAudioTrack->start();
1039 }
1040 }
1041
autoResume()1042 void SoundChannel::autoResume()
1043 {
1044 Mutex::Autolock lock(&mLock);
1045 if (mAutoPaused && (mState == PAUSED)) {
1046 ALOGV("resume track");
1047 mState = PLAYING;
1048 mAutoPaused = false;
1049 mAudioTrack->start();
1050 }
1051 }
1052
setRate(float rate)1053 void SoundChannel::setRate(float rate)
1054 {
1055 Mutex::Autolock lock(&mLock);
1056 if (mAudioTrack != NULL && mSample != 0) {
1057 uint32_t sampleRate = uint32_t(float(mSample->sampleRate()) * rate + 0.5);
1058 mAudioTrack->setSampleRate(sampleRate);
1059 mRate = rate;
1060 }
1061 }
1062
1063 // call with lock held
setVolume_l(float leftVolume,float rightVolume)1064 void SoundChannel::setVolume_l(float leftVolume, float rightVolume)
1065 {
1066 mLeftVolume = leftVolume;
1067 mRightVolume = rightVolume;
1068 if (mAudioTrack != NULL && !mMuted)
1069 mAudioTrack->setVolume(leftVolume, rightVolume);
1070 }
1071
setVolume(float leftVolume,float rightVolume)1072 void SoundChannel::setVolume(float leftVolume, float rightVolume)
1073 {
1074 Mutex::Autolock lock(&mLock);
1075 setVolume_l(leftVolume, rightVolume);
1076 }
1077
mute(bool muting)1078 void SoundChannel::mute(bool muting)
1079 {
1080 Mutex::Autolock lock(&mLock);
1081 mMuted = muting;
1082 if (mAudioTrack != NULL) {
1083 if (mMuted) {
1084 mAudioTrack->setVolume(0.0f, 0.0f);
1085 } else {
1086 mAudioTrack->setVolume(mLeftVolume, mRightVolume);
1087 }
1088 }
1089 }
1090
setLoop(int loop)1091 void SoundChannel::setLoop(int loop)
1092 {
1093 Mutex::Autolock lock(&mLock);
1094 if (mAudioTrack != NULL && mSample != 0) {
1095 uint32_t loopEnd = mSample->size()/mNumChannels/
1096 ((mSample->format() == AUDIO_FORMAT_PCM_16_BIT) ? sizeof(int16_t) : sizeof(uint8_t));
1097 mAudioTrack->setLoop(0, loopEnd, loop);
1098 mLoop = loop;
1099 }
1100 }
1101
~SoundChannel()1102 SoundChannel::~SoundChannel()
1103 {
1104 ALOGV("SoundChannel destructor %p", this);
1105 {
1106 Mutex::Autolock lock(&mLock);
1107 clearNextEvent();
1108 doStop_l();
1109 }
1110 // do not call AudioTrack destructor with mLock held as it will wait for the AudioTrack
1111 // callback thread to exit which may need to execute process() and acquire the mLock.
1112 mAudioTrack.clear();
1113 }
1114
dump()1115 void SoundChannel::dump()
1116 {
1117 ALOGV("mState = %d mChannelID=%d, mNumChannels=%d, mPos = %d, mPriority=%d, mLoop=%d",
1118 mState, mChannelID, mNumChannels, mPos, mPriority, mLoop);
1119 }
1120
set(const sp<Sample> & sample,int channelID,float leftVolume,float rightVolume,int priority,int loop,float rate)1121 void SoundEvent::set(const sp<Sample>& sample, int channelID, float leftVolume,
1122 float rightVolume, int priority, int loop, float rate)
1123 {
1124 mSample = sample;
1125 mChannelID = channelID;
1126 mLeftVolume = leftVolume;
1127 mRightVolume = rightVolume;
1128 mPriority = priority;
1129 mLoop = loop;
1130 mRate =rate;
1131 }
1132
1133 } // end namespace android
1134