android_StreamPlayer.cpp revision 3376429dfe306b9bfebf3a50941e2ccf44984495
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//#define USE_LOG SLAndroidLogLevel_Verbose 18 19#include "sles_allinclusive.h" 20#include "android_StreamPlayer.h" 21 22#include <media/IStreamSource.h> 23#include <media/IMediaPlayerService.h> 24#include <media/stagefright/foundation/ADebug.h> 25#include <binder/IPCThreadState.h> 26 27#include "mpeg2ts/ATSParser.h" 28 29//-------------------------------------------------------------------------------------------------- 30namespace android { 31 32StreamSourceAppProxy::StreamSourceAppProxy( 33 IAndroidBufferQueue *androidBufferQueue, 34 const sp<CallbackProtector> &callbackProtector, 35 // sp<StreamPlayer> would cause StreamPlayer's destructor to run during it's own 36 // construction. If you pass in a sp<> to 'this' inside a constructor, then first the 37 // refcount is increased from 0 to 1, then decreased from 1 to 0, which causes the object's 38 // destructor to run from inside it's own constructor. 39 StreamPlayer * /* const sp<StreamPlayer> & */ player) : 40 mBuffersHasBeenSet(false), 41 mAndroidBufferQueue(androidBufferQueue), 42 mCallbackProtector(callbackProtector), 43 mPlayer(player) 44{ 45 SL_LOGV("StreamSourceAppProxy::StreamSourceAppProxy()"); 46} 47 48StreamSourceAppProxy::~StreamSourceAppProxy() { 49 SL_LOGV("StreamSourceAppProxy::~StreamSourceAppProxy()"); 50 disconnect(); 51} 52 53const SLuint32 StreamSourceAppProxy::kItemProcessed[NB_BUFFEREVENT_ITEM_FIELDS] = { 54 SL_ANDROID_ITEMKEY_BUFFERQUEUEEVENT, // item key 55 sizeof(SLuint32), // item size 56 SL_ANDROIDBUFFERQUEUEEVENT_PROCESSED // item data 57}; 58 59//-------------------------------------------------- 60// IStreamSource implementation 61void StreamSourceAppProxy::setListener(const sp<IStreamListener> &listener) { 62 assert(listener != NULL); 63 Mutex::Autolock _l(mLock); 64 assert(mListener == NULL); 65 mListener = listener; 66} 67 68void StreamSourceAppProxy::setBuffers(const Vector<sp<IMemory> > &buffers) { 69 Mutex::Autolock _l(mLock); 70 assert(!mBuffersHasBeenSet); 71 mBuffers = buffers; 72 mBuffersHasBeenSet = true; 73} 74 75void StreamSourceAppProxy::onBufferAvailable(size_t index) { 76 //SL_LOGD("StreamSourceAppProxy::onBufferAvailable(%d)", index); 77 78 { 79 Mutex::Autolock _l(mLock); 80 if (!mBuffersHasBeenSet) { 81 // no buffers available to push data to from the buffer queue, bail 82 return; 83 } 84 CHECK_LT(index, mBuffers.size()); 85#if 0 // enable if needed for debugging 86 sp<IMemory> mem = mBuffers.itemAt(index); 87 SLAint64 length = (SLAint64) mem->size(); 88#endif 89 mAvailableBuffers.push_back(index); 90 //SL_LOGD("onBufferAvailable() now %d buffers available in queue", 91 // mAvailableBuffers.size()); 92 } 93 94 // a new shared mem buffer is available: let's try to fill immediately 95 pullFromBuffQueue(); 96} 97 98void StreamSourceAppProxy::receivedCmd_l(IStreamListener::Command cmd, const sp<AMessage> &msg) { 99 if (mListener != 0) { 100 mListener->issueCommand(cmd, false /* synchronous */, msg); 101 } 102} 103 104void StreamSourceAppProxy::receivedBuffer_l(size_t buffIndex, size_t buffLength) { 105 if (mListener != 0) { 106 mListener->queueBuffer(buffIndex, buffLength); 107 } 108} 109 110void StreamSourceAppProxy::disconnect() { 111 Mutex::Autolock _l(mLock); 112 mListener.clear(); 113 // Force binder to push the decremented reference count for sp<IStreamListener>. 114 // mediaserver and client both have sp<> to the other. When you decrement an sp<> 115 // reference count, binder doesn't push that to the other process immediately. 116 IPCThreadState::self()->flushCommands(); 117 mBuffers.clear(); 118 mBuffersHasBeenSet = false; 119 mAvailableBuffers.clear(); 120} 121 122//-------------------------------------------------- 123// consumption from ABQ: pull from the ABQ, and push to shared memory (media server) 124void StreamSourceAppProxy::pullFromBuffQueue() { 125 126 if (android::CallbackProtector::enterCbIfOk(mCallbackProtector)) { 127 128 size_t bufferId; 129 void* bufferLoc; 130 size_t buffSize; 131 132 slAndroidBufferQueueCallback callback = NULL; 133 void* pBufferContext, *pBufferData, *callbackPContext = NULL; 134 AdvancedBufferHeader *oldFront = NULL; 135 uint32_t dataSize /* , dataUsed */; 136 137 // retrieve data from the buffer queue 138 interface_lock_exclusive(mAndroidBufferQueue); 139 140 // can this read operation cause us to call the buffer queue callback 141 // (either because there was a command with no data, or all the data has been consumed) 142 bool queueCallbackCandidate = false; 143 144 if (mAndroidBufferQueue->mState.count != 0) { 145 // SL_LOGD("nbBuffers in ABQ = %u, buffSize=%u",abq->mState.count, buffSize); 146 assert(mAndroidBufferQueue->mFront != mAndroidBufferQueue->mRear); 147 148 oldFront = mAndroidBufferQueue->mFront; 149 AdvancedBufferHeader *newFront = &oldFront[1]; 150 151 // consume events when starting to read data from a buffer for the first time 152 if (oldFront->mDataSizeConsumed == 0) { 153 // note this code assumes at most one event per buffer; see IAndroidBufferQueue_Enqueue 154 if (oldFront->mItems.mTsCmdData.mTsCmdCode & ANDROID_MP2TSEVENT_EOS) { 155 receivedCmd_l(IStreamListener::EOS); 156 // EOS has no associated data 157 queueCallbackCandidate = true; 158 } else if (oldFront->mItems.mTsCmdData.mTsCmdCode & ANDROID_MP2TSEVENT_DISCONTINUITY) { 159 receivedCmd_l(IStreamListener::DISCONTINUITY); 160 } else if (oldFront->mItems.mTsCmdData.mTsCmdCode & ANDROID_MP2TSEVENT_DISCON_NEWPTS) { 161 sp<AMessage> msg = new AMessage(); 162 msg->setInt64(IStreamListener::kKeyResumeAtPTS, 163 (int64_t)oldFront->mItems.mTsCmdData.mPts); 164 receivedCmd_l(IStreamListener::DISCONTINUITY, msg /*msg*/); 165 } else if (oldFront->mItems.mTsCmdData.mTsCmdCode 166 & ANDROID_MP2TSEVENT_FORMAT_CHANGE_FULL) { 167 sp<AMessage> msg = new AMessage(); 168 msg->setInt32( 169 IStreamListener::kKeyDiscontinuityMask, 170 ATSParser::DISCONTINUITY_FORMATCHANGE); 171 receivedCmd_l(IStreamListener::DISCONTINUITY, msg /*msg*/); 172 } else if (oldFront->mItems.mTsCmdData.mTsCmdCode 173 & ANDROID_MP2TSEVENT_FORMAT_CHANGE_VIDEO) { 174 sp<AMessage> msg = new AMessage(); 175 msg->setInt32( 176 IStreamListener::kKeyDiscontinuityMask, 177 ATSParser::DISCONTINUITY_VIDEO_FORMAT); 178 receivedCmd_l(IStreamListener::DISCONTINUITY, msg /*msg*/); 179 } 180 // note that here we are intentionally only supporting 181 // ANDROID_MP2TSEVENT_FORMAT_CHANGE_VIDEO, see IAndroidBufferQueue.c 182 183 // some commands may introduce a time discontinuity, reevaluate position if needed 184 if (oldFront->mItems.mTsCmdData.mTsCmdCode & (ANDROID_MP2TSEVENT_DISCONTINUITY | 185 ANDROID_MP2TSEVENT_DISCON_NEWPTS | ANDROID_MP2TSEVENT_FORMAT_CHANGE_FULL)) { 186 const sp<StreamPlayer> player(mPlayer.promote()); 187 if (player != NULL) { 188 // FIXME see note at onSeek 189 player->seek(ANDROID_UNKNOWN_TIME); 190 } 191 } 192 oldFront->mItems.mTsCmdData.mTsCmdCode = ANDROID_MP2TSEVENT_NONE; 193 } 194 195 { 196 // we're going to change the shared mem buffer queue, so lock it 197 Mutex::Autolock _l(mLock); 198 if (!mAvailableBuffers.empty()) { 199 bufferId = *mAvailableBuffers.begin(); 200 CHECK_LT(bufferId, mBuffers.size()); 201 sp<IMemory> mem = mBuffers.itemAt(bufferId); 202 bufferLoc = mem->pointer(); 203 buffSize = mem->size(); 204 205 char *pSrc = ((char*)oldFront->mDataBuffer) + oldFront->mDataSizeConsumed; 206 if (oldFront->mDataSizeConsumed + buffSize < oldFront->mDataSize) { 207 // more available than requested, copy as much as requested 208 // consume data: 1/ copy to given destination 209 memcpy(bufferLoc, pSrc, buffSize); 210 // 2/ keep track of how much has been consumed 211 oldFront->mDataSizeConsumed += buffSize; 212 // 3/ notify shared mem listener that new data is available 213 receivedBuffer_l(bufferId, buffSize); 214 mAvailableBuffers.erase(mAvailableBuffers.begin()); 215 } else { 216 // requested as much available or more: consume the whole of the current 217 // buffer and move to the next 218 size_t consumed = oldFront->mDataSize - oldFront->mDataSizeConsumed; 219 //SL_LOGD("consuming rest of buffer: enqueueing=%u", consumed); 220 oldFront->mDataSizeConsumed = oldFront->mDataSize; 221 222 // move queue to next 223 if (newFront == &mAndroidBufferQueue-> 224 mBufferArray[mAndroidBufferQueue->mNumBuffers + 1]) { 225 // reached the end, circle back 226 newFront = mAndroidBufferQueue->mBufferArray; 227 } 228 mAndroidBufferQueue->mFront = newFront; 229 mAndroidBufferQueue->mState.count--; 230 mAndroidBufferQueue->mState.index++; 231 232 if (consumed > 0) { 233 // consume data: 1/ copy to given destination 234 memcpy(bufferLoc, pSrc, consumed); 235 // 2/ keep track of how much has been consumed 236 // here nothing to do because we are done with this buffer 237 // 3/ notify StreamPlayer that new data is available 238 receivedBuffer_l(bufferId, consumed); 239 mAvailableBuffers.erase(mAvailableBuffers.begin()); 240 } 241 242 // data has been consumed, and the buffer queue state has been updated 243 // we will notify the client if applicable 244 queueCallbackCandidate = true; 245 } 246 } 247 248 if (queueCallbackCandidate) { 249 if (mAndroidBufferQueue->mCallbackEventsMask & 250 SL_ANDROIDBUFFERQUEUEEVENT_PROCESSED) { 251 callback = mAndroidBufferQueue->mCallback; 252 // save callback data while under lock 253 callbackPContext = mAndroidBufferQueue->mContext; 254 pBufferContext = (void *)oldFront->mBufferContext; 255 pBufferData = (void *)oldFront->mDataBuffer; 256 dataSize = oldFront->mDataSize; 257 // here a buffer is only dequeued when fully consumed 258 //dataUsed = oldFront->mDataSizeConsumed; 259 } 260 } 261 //SL_LOGD("%d buffers available after reading from queue", mAvailableBuffers.size()); 262 if (!mAvailableBuffers.empty()) { 263 // there is still room in the shared memory, recheck later if we can pull 264 // data from the buffer queue and write it to shared memory 265 const sp<StreamPlayer> player(mPlayer.promote()); 266 if (player != NULL) { 267 player->queueRefilled(); 268 } 269 } 270 } 271 272 } else { // empty queue 273 SL_LOGD("ABQ empty, starving!"); 274 } 275 276 interface_unlock_exclusive(mAndroidBufferQueue); 277 278 // notify client of buffer processed 279 if (NULL != callback) { 280 SLresult result = (*callback)(&mAndroidBufferQueue->mItf, callbackPContext, 281 pBufferContext, pBufferData, dataSize, 282 dataSize, /* dataUsed */ 283 // no messages during playback other than marking the buffer as processed 284 (const SLAndroidBufferItem*)(&kItemProcessed) /* pItems */, 285 NB_BUFFEREVENT_ITEM_FIELDS *sizeof(SLuint32) /* itemsLength */ ); 286 if (SL_RESULT_SUCCESS != result) { 287 // Reserved for future use 288 SL_LOGW("Unsuccessful result %d returned from AndroidBufferQueueCallback", result); 289 } 290 } 291 292 mCallbackProtector->exitCb(); 293 } // enterCbIfOk 294} 295 296 297//-------------------------------------------------------------------------------------------------- 298StreamPlayer::StreamPlayer(const AudioPlayback_Parameters* params, bool hasVideo, 299 IAndroidBufferQueue *androidBufferQueue, const sp<CallbackProtector> &callbackProtector) : 300 GenericMediaPlayer(params, hasVideo), 301 mAppProxy(new StreamSourceAppProxy(androidBufferQueue, callbackProtector, this)), 302 mStopForDestroyCompleted(false) 303{ 304 SL_LOGD("StreamPlayer::StreamPlayer()"); 305} 306 307StreamPlayer::~StreamPlayer() { 308 SL_LOGD("StreamPlayer::~StreamPlayer()"); 309 mAppProxy->disconnect(); 310} 311 312 313void StreamPlayer::onMessageReceived(const sp<AMessage> &msg) { 314 switch (msg->what()) { 315 case kWhatPullFromAbq: 316 onPullFromAndroidBufferQueue(); 317 break; 318 319 case kWhatStopForDestroy: 320 onStopForDestroy(); 321 break; 322 323 default: 324 GenericMediaPlayer::onMessageReceived(msg); 325 break; 326 } 327} 328 329 330void StreamPlayer::preDestroy() { 331 // FIXME NuPlayerDriver is currently not thread-safe, so stop() must be called by looper 332 (new AMessage(kWhatStopForDestroy, id()))->post(); 333 { 334 Mutex::Autolock _l(mStopForDestroyLock); 335 while (!mStopForDestroyCompleted) { 336 mStopForDestroyCondition.wait(mStopForDestroyLock); 337 } 338 } 339 // GenericMediaPlayer::preDestroy will repeat some of what we've done, but that's benign 340 GenericMediaPlayer::preDestroy(); 341} 342 343 344void StreamPlayer::onStopForDestroy() { 345 if (mPlayer != 0) { 346 mPlayer->stop(); 347 // causes CHECK failure in Nuplayer 348 //mPlayer->setDataSource(NULL); 349 mPlayer->setVideoSurfaceTexture(NULL); 350 mPlayer->disconnect(); 351 mPlayer.clear(); 352 { 353 // FIXME ugh make this a method 354 Mutex::Autolock _l(mPreparedPlayerLock); 355 mPreparedPlayer.clear(); 356 } 357 } 358 { 359 Mutex::Autolock _l(mStopForDestroyLock); 360 mStopForDestroyCompleted = true; 361 } 362 mStopForDestroyCondition.signal(); 363} 364 365 366/** 367 * Asynchronously notify the player that the queue is ready to be pulled from. 368 */ 369void StreamPlayer::queueRefilled() { 370 // async notification that the ABQ was refilled: the player should pull from the ABQ, and 371 // and push to shared memory (to the media server) 372 (new AMessage(kWhatPullFromAbq, id()))->post(); 373} 374 375 376void StreamPlayer::appClear_l() { 377 // the user of StreamPlayer has cleared its AndroidBufferQueue: 378 // there's no clear() for the shared memory queue, so this is a no-op 379} 380 381 382//-------------------------------------------------- 383// Event handlers 384void StreamPlayer::onPrepare() { 385 SL_LOGD("StreamPlayer::onPrepare()"); 386 sp<IMediaPlayerService> mediaPlayerService(getMediaPlayerService()); 387 if (mediaPlayerService != NULL) { 388 mPlayer = mediaPlayerService->create(mPlayerClient /*IMediaPlayerClient*/, 389 mPlaybackParams.sessionId); 390 if (mPlayer == NULL) { 391 SL_LOGE("media player service failed to create player by app proxy"); 392 } else if (mPlayer->setDataSource(mAppProxy /*IStreamSource*/) != NO_ERROR) { 393 SL_LOGE("setDataSource failed"); 394 mPlayer.clear(); 395 } 396 } 397 if (mPlayer == NULL) { 398 mStateFlags |= kFlagPreparedUnsuccessfully; 399 } 400 GenericMediaPlayer::onPrepare(); 401 SL_LOGD("StreamPlayer::onPrepare() done"); 402} 403 404 405void StreamPlayer::onPlay() { 406 SL_LOGD("StreamPlayer::onPlay()"); 407 // enqueue a message that will cause StreamAppProxy to consume from the queue (again if the 408 // player had starved the shared memory) 409 queueRefilled(); 410 411 GenericMediaPlayer::onPlay(); 412} 413 414 415void StreamPlayer::onPullFromAndroidBufferQueue() { 416 SL_LOGD("StreamPlayer::onPullFromAndroidBufferQueue()"); 417 mAppProxy->pullFromBuffQueue(); 418} 419 420} // namespace android 421