/* * Copyright (C) 2010 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ //#define LOG_NDEBUG 0 #define LOG_TAG "NuPlayerDriver" #include #include #include #include #include "NuPlayerDriver.h" #include "NuPlayer.h" #include "NuPlayerSource.h" #include #include #include #include #include #include #include #include #include static const int kDumpLockRetries = 50; static const int kDumpLockSleepUs = 20000; namespace android { // key for media statistics static const char *kKeyPlayer = "nuplayer"; // attrs for media statistics // NB: these are matched with public Java API constants defined // in frameworks/base/media/java/android/media/MediaPlayer.java // These must be kept synchronized with the constants there. static const char *kPlayerVMime = "android.media.mediaplayer.video.mime"; static const char *kPlayerVCodec = "android.media.mediaplayer.video.codec"; static const char *kPlayerWidth = "android.media.mediaplayer.width"; static const char *kPlayerHeight = "android.media.mediaplayer.height"; static const char *kPlayerFrames = "android.media.mediaplayer.frames"; static const char *kPlayerFramesDropped = "android.media.mediaplayer.dropped"; static const char *kPlayerFrameRate = "android.media.mediaplayer.fps"; static const char *kPlayerAMime = "android.media.mediaplayer.audio.mime"; static const char *kPlayerACodec = "android.media.mediaplayer.audio.codec"; static const char *kPlayerDuration = "android.media.mediaplayer.durationMs"; static const char *kPlayerPlaying = "android.media.mediaplayer.playingMs"; static const char *kPlayerError = "android.media.mediaplayer.err"; static const char *kPlayerErrorCode = "android.media.mediaplayer.errcode"; // NB: These are not yet exposed as public Java API constants. static const char *kPlayerErrorState = "android.media.mediaplayer.errstate"; static const char *kPlayerDataSourceType = "android.media.mediaplayer.dataSource"; // static const char *kPlayerRebuffering = "android.media.mediaplayer.rebufferingMs"; static const char *kPlayerRebufferingCount = "android.media.mediaplayer.rebuffers"; static const char *kPlayerRebufferingAtExit = "android.media.mediaplayer.rebufferExit"; NuPlayerDriver::NuPlayerDriver(pid_t pid) : mState(STATE_IDLE), mIsAsyncPrepare(false), mAsyncResult(UNKNOWN_ERROR), mSetSurfaceInProgress(false), mDurationUs(-1), mPositionUs(-1), mSeekInProgress(false), mPlayingTimeUs(0), mRebufferingTimeUs(0), mRebufferingEvents(0), mRebufferingAtExit(false), mLooper(new ALooper), mMediaClock(new MediaClock), mPlayer(new NuPlayer(pid, mMediaClock)), mPlayerFlags(0), mAnalyticsItem(NULL), mClientUid(-1), mAtEOS(false), mLooping(false), mAutoLoop(false) { ALOGD("NuPlayerDriver(%p) created, clientPid(%d)", this, pid); mLooper->setName("NuPlayerDriver Looper"); mMediaClock->init(); // set up an analytics record mAnalyticsItem = MediaAnalyticsItem::create(kKeyPlayer); mLooper->start( false, /* runOnCallingThread */ true, /* canCallJava */ PRIORITY_AUDIO); mLooper->registerHandler(mPlayer); mPlayer->init(this); } NuPlayerDriver::~NuPlayerDriver() { ALOGV("~NuPlayerDriver(%p)", this); mLooper->stop(); // finalize any pending metrics, usually a no-op. updateMetrics("destructor"); logMetrics("destructor"); if (mAnalyticsItem != NULL) { delete mAnalyticsItem; mAnalyticsItem = NULL; } } status_t NuPlayerDriver::initCheck() { return OK; } status_t NuPlayerDriver::setUID(uid_t uid) { mPlayer->setUID(uid); mClientUid = uid; if (mAnalyticsItem) { mAnalyticsItem->setUid(mClientUid); } return OK; } status_t NuPlayerDriver::setDataSource( const sp &httpService, const char *url, const KeyedVector *headers) { ALOGV("setDataSource(%p) url(%s)", this, uriDebugString(url, false).c_str()); Mutex::Autolock autoLock(mLock); if (mState != STATE_IDLE) { return INVALID_OPERATION; } mState = STATE_SET_DATASOURCE_PENDING; mPlayer->setDataSourceAsync(httpService, url, headers); while (mState == STATE_SET_DATASOURCE_PENDING) { mCondition.wait(mLock); } return mAsyncResult; } status_t NuPlayerDriver::setDataSource(int fd, int64_t offset, int64_t length) { ALOGV("setDataSource(%p) file(%d)", this, fd); Mutex::Autolock autoLock(mLock); if (mState != STATE_IDLE) { return INVALID_OPERATION; } mState = STATE_SET_DATASOURCE_PENDING; mPlayer->setDataSourceAsync(fd, offset, length); while (mState == STATE_SET_DATASOURCE_PENDING) { mCondition.wait(mLock); } return mAsyncResult; } status_t NuPlayerDriver::setDataSource(const sp &source) { ALOGV("setDataSource(%p) stream source", this); Mutex::Autolock autoLock(mLock); if (mState != STATE_IDLE) { return INVALID_OPERATION; } mState = STATE_SET_DATASOURCE_PENDING; mPlayer->setDataSourceAsync(source); while (mState == STATE_SET_DATASOURCE_PENDING) { mCondition.wait(mLock); } return mAsyncResult; } status_t NuPlayerDriver::setDataSource(const sp &source) { ALOGV("setDataSource(%p) callback source", this); Mutex::Autolock autoLock(mLock); if (mState != STATE_IDLE) { return INVALID_OPERATION; } mState = STATE_SET_DATASOURCE_PENDING; mPlayer->setDataSourceAsync(source); while (mState == STATE_SET_DATASOURCE_PENDING) { mCondition.wait(mLock); } return mAsyncResult; } status_t NuPlayerDriver::setVideoSurfaceTexture( const sp &bufferProducer) { ALOGV("setVideoSurfaceTexture(%p)", this); Mutex::Autolock autoLock(mLock); if (mSetSurfaceInProgress) { return INVALID_OPERATION; } switch (mState) { case STATE_SET_DATASOURCE_PENDING: case STATE_RESET_IN_PROGRESS: return INVALID_OPERATION; default: break; } mSetSurfaceInProgress = true; mPlayer->setVideoSurfaceTextureAsync(bufferProducer); while (mSetSurfaceInProgress) { mCondition.wait(mLock); } return OK; } status_t NuPlayerDriver::getBufferingSettings(BufferingSettings* buffering) { ALOGV("getBufferingSettings(%p)", this); { Mutex::Autolock autoLock(mLock); if (mState == STATE_IDLE) { return INVALID_OPERATION; } } return mPlayer->getBufferingSettings(buffering); } status_t NuPlayerDriver::setBufferingSettings(const BufferingSettings& buffering) { ALOGV("setBufferingSettings(%p)", this); { Mutex::Autolock autoLock(mLock); if (mState == STATE_IDLE) { return INVALID_OPERATION; } } return mPlayer->setBufferingSettings(buffering); } status_t NuPlayerDriver::prepare() { ALOGV("prepare(%p)", this); Mutex::Autolock autoLock(mLock); return prepare_l(); } status_t NuPlayerDriver::prepare_l() { switch (mState) { case STATE_UNPREPARED: mState = STATE_PREPARING; // Make sure we're not posting any notifications, success or // failure information is only communicated through our result // code. mIsAsyncPrepare = false; mPlayer->prepareAsync(); while (mState == STATE_PREPARING) { mCondition.wait(mLock); } return (mState == STATE_PREPARED) ? OK : UNKNOWN_ERROR; case STATE_STOPPED: // this is really just paused. handle as seek to start mAtEOS = false; mState = STATE_STOPPED_AND_PREPARING; mIsAsyncPrepare = false; mPlayer->seekToAsync(0, MediaPlayerSeekMode::SEEK_PREVIOUS_SYNC /* mode */, true /* needNotify */); while (mState == STATE_STOPPED_AND_PREPARING) { mCondition.wait(mLock); } return (mState == STATE_STOPPED_AND_PREPARED) ? OK : UNKNOWN_ERROR; default: return INVALID_OPERATION; }; } status_t NuPlayerDriver::prepareAsync() { ALOGV("prepareAsync(%p)", this); Mutex::Autolock autoLock(mLock); switch (mState) { case STATE_UNPREPARED: mState = STATE_PREPARING; mIsAsyncPrepare = true; mPlayer->prepareAsync(); return OK; case STATE_STOPPED: // this is really just paused. handle as seek to start mAtEOS = false; mState = STATE_STOPPED_AND_PREPARING; mIsAsyncPrepare = true; mPlayer->seekToAsync(0, MediaPlayerSeekMode::SEEK_PREVIOUS_SYNC /* mode */, true /* needNotify */); return OK; default: return INVALID_OPERATION; }; } status_t NuPlayerDriver::start() { ALOGV("start(%p), state is %d, eos is %d", this, mState, mAtEOS); Mutex::Autolock autoLock(mLock); return start_l(); } status_t NuPlayerDriver::start_l() { switch (mState) { case STATE_UNPREPARED: { status_t err = prepare_l(); if (err != OK) { return err; } CHECK_EQ(mState, STATE_PREPARED); FALLTHROUGH_INTENDED; } case STATE_PAUSED: case STATE_STOPPED_AND_PREPARED: case STATE_PREPARED: { mPlayer->start(); FALLTHROUGH_INTENDED; } case STATE_RUNNING: { if (mAtEOS) { mPlayer->seekToAsync(0); mAtEOS = false; mPositionUs = -1; } break; } default: return INVALID_OPERATION; } mState = STATE_RUNNING; return OK; } status_t NuPlayerDriver::stop() { ALOGD("stop(%p)", this); Mutex::Autolock autoLock(mLock); switch (mState) { case STATE_RUNNING: mPlayer->pause(); FALLTHROUGH_INTENDED; case STATE_PAUSED: mState = STATE_STOPPED; notifyListener_l(MEDIA_STOPPED); break; case STATE_PREPARED: case STATE_STOPPED: case STATE_STOPPED_AND_PREPARING: case STATE_STOPPED_AND_PREPARED: mState = STATE_STOPPED; break; default: return INVALID_OPERATION; } return OK; } status_t NuPlayerDriver::pause() { ALOGD("pause(%p)", this); // The NuPlayerRenderer may get flushed if pause for long enough, e.g. the pause timeout tear // down for audio offload mode. If that happens, the NuPlayerRenderer will no longer know the // current position. So similar to seekTo, update |mPositionUs| to the pause position by calling // getCurrentPosition here. int unused; getCurrentPosition(&unused); Mutex::Autolock autoLock(mLock); switch (mState) { case STATE_PAUSED: case STATE_PREPARED: return OK; case STATE_RUNNING: mState = STATE_PAUSED; notifyListener_l(MEDIA_PAUSED); mPlayer->pause(); break; default: return INVALID_OPERATION; } return OK; } bool NuPlayerDriver::isPlaying() { return mState == STATE_RUNNING && !mAtEOS; } status_t NuPlayerDriver::setPlaybackSettings(const AudioPlaybackRate &rate) { status_t err = mPlayer->setPlaybackSettings(rate); if (err == OK) { // try to update position int unused; getCurrentPosition(&unused); Mutex::Autolock autoLock(mLock); if (rate.mSpeed == 0.f && mState == STATE_RUNNING) { mState = STATE_PAUSED; notifyListener_l(MEDIA_PAUSED); } else if (rate.mSpeed != 0.f && (mState == STATE_PAUSED || mState == STATE_STOPPED_AND_PREPARED || mState == STATE_PREPARED)) { err = start_l(); } } return err; } status_t NuPlayerDriver::getPlaybackSettings(AudioPlaybackRate *rate) { return mPlayer->getPlaybackSettings(rate); } status_t NuPlayerDriver::setSyncSettings(const AVSyncSettings &sync, float videoFpsHint) { return mPlayer->setSyncSettings(sync, videoFpsHint); } status_t NuPlayerDriver::getSyncSettings(AVSyncSettings *sync, float *videoFps) { return mPlayer->getSyncSettings(sync, videoFps); } status_t NuPlayerDriver::seekTo(int msec, MediaPlayerSeekMode mode) { ALOGV("seekTo(%p) (%d ms, %d) at state %d", this, msec, mode, mState); Mutex::Autolock autoLock(mLock); int64_t seekTimeUs = msec * 1000LL; switch (mState) { case STATE_PREPARED: case STATE_STOPPED_AND_PREPARED: case STATE_PAUSED: case STATE_RUNNING: { mAtEOS = false; mSeekInProgress = true; // seeks can take a while, so we essentially paused notifyListener_l(MEDIA_PAUSED); mPlayer->seekToAsync(seekTimeUs, mode, true /* needNotify */); break; } default: return INVALID_OPERATION; } mPositionUs = seekTimeUs; return OK; } status_t NuPlayerDriver::getCurrentPosition(int *msec) { int64_t tempUs = 0; { Mutex::Autolock autoLock(mLock); if (mSeekInProgress || (mState == STATE_PAUSED && !mAtEOS)) { tempUs = (mPositionUs <= 0) ? 0 : mPositionUs; *msec = (int)divRound(tempUs, (int64_t)(1000)); return OK; } } status_t ret = mPlayer->getCurrentPosition(&tempUs); Mutex::Autolock autoLock(mLock); // We need to check mSeekInProgress here because mPlayer->seekToAsync is an async call, which // means getCurrentPosition can be called before seek is completed. Iow, renderer may return a // position value that's different the seek to position. if (ret != OK) { tempUs = (mPositionUs <= 0) ? 0 : mPositionUs; } else { mPositionUs = tempUs; } *msec = (int)divRound(tempUs, (int64_t)(1000)); return OK; } status_t NuPlayerDriver::getDuration(int *msec) { Mutex::Autolock autoLock(mLock); if (mDurationUs < 0) { return UNKNOWN_ERROR; } *msec = (mDurationUs + 500LL) / 1000; return OK; } void NuPlayerDriver::updateMetrics(const char *where) { if (where == NULL) { where = "unknown"; } ALOGV("updateMetrics(%p) from %s at state %d", this, where, mState); // gather the final stats for this record Vector> trackStats; mPlayer->getStats(&trackStats); if (trackStats.size() > 0) { for (size_t i = 0; i < trackStats.size(); ++i) { const sp &stats = trackStats.itemAt(i); AString mime; stats->findString("mime", &mime); AString name; stats->findString("component-name", &name); if (mime.startsWith("video/")) { int32_t width, height; mAnalyticsItem->setCString(kPlayerVMime, mime.c_str()); if (!name.empty()) { mAnalyticsItem->setCString(kPlayerVCodec, name.c_str()); } if (stats->findInt32("width", &width) && stats->findInt32("height", &height)) { mAnalyticsItem->setInt32(kPlayerWidth, width); mAnalyticsItem->setInt32(kPlayerHeight, height); } int64_t numFramesTotal = 0; int64_t numFramesDropped = 0; stats->findInt64("frames-total", &numFramesTotal); stats->findInt64("frames-dropped-output", &numFramesDropped); mAnalyticsItem->setInt64(kPlayerFrames, numFramesTotal); mAnalyticsItem->setInt64(kPlayerFramesDropped, numFramesDropped); float frameRate = 0; if (stats->findFloat("frame-rate-total", &frameRate)) { mAnalyticsItem->setDouble(kPlayerFrameRate, (double) frameRate); } } else if (mime.startsWith("audio/")) { mAnalyticsItem->setCString(kPlayerAMime, mime.c_str()); if (!name.empty()) { mAnalyticsItem->setCString(kPlayerACodec, name.c_str()); } } } } // always provide duration and playing time, even if they have 0/unknown values. // getDuration() uses mLock for mutex -- careful where we use it. int duration_ms = -1; getDuration(&duration_ms); mAnalyticsItem->setInt64(kPlayerDuration, duration_ms); mPlayer->updateInternalTimers(); mAnalyticsItem->setInt64(kPlayerPlaying, (mPlayingTimeUs+500)/1000 ); if (mRebufferingEvents != 0) { mAnalyticsItem->setInt64(kPlayerRebuffering, (mRebufferingTimeUs+500)/1000 ); mAnalyticsItem->setInt32(kPlayerRebufferingCount, mRebufferingEvents); mAnalyticsItem->setInt32(kPlayerRebufferingAtExit, mRebufferingAtExit); } mAnalyticsItem->setCString(kPlayerDataSourceType, mPlayer->getDataSourceType()); } void NuPlayerDriver::logMetrics(const char *where) { if (where == NULL) { where = "unknown"; } ALOGV("logMetrics(%p) from %s at state %d", this, where, mState); if (mAnalyticsItem == NULL || mAnalyticsItem->isEnabled() == false) { return; } // log only non-empty records // we always updateMetrics() before we get here // and that always injects 3 fields (duration, playing time, and // datasource) into the record. // So the canonical "empty" record has 3 elements in it. if (mAnalyticsItem->count() > 3) { mAnalyticsItem->selfrecord(); // re-init in case we prepare() and start() again. delete mAnalyticsItem ; mAnalyticsItem = MediaAnalyticsItem::create(kKeyPlayer); if (mAnalyticsItem) { mAnalyticsItem->setUid(mClientUid); } } else { ALOGV("nothing to record (only %d fields)", mAnalyticsItem->count()); } } status_t NuPlayerDriver::reset() { ALOGD("reset(%p) at state %d", this, mState); updateMetrics("reset"); logMetrics("reset"); Mutex::Autolock autoLock(mLock); switch (mState) { case STATE_IDLE: return OK; case STATE_SET_DATASOURCE_PENDING: case STATE_RESET_IN_PROGRESS: return INVALID_OPERATION; case STATE_PREPARING: { CHECK(mIsAsyncPrepare); notifyListener_l(MEDIA_PREPARED); break; } default: break; } if (mState != STATE_STOPPED) { notifyListener_l(MEDIA_STOPPED); } if (property_get_bool("persist.debug.sf.stats", false)) { Vector args; dump(-1, args); } mState = STATE_RESET_IN_PROGRESS; mPlayer->resetAsync(); while (mState == STATE_RESET_IN_PROGRESS) { mCondition.wait(mLock); } mDurationUs = -1; mPositionUs = -1; mLooping = false; mPlayingTimeUs = 0; mRebufferingTimeUs = 0; mRebufferingEvents = 0; mRebufferingAtExit = false; return OK; } status_t NuPlayerDriver::notifyAt(int64_t mediaTimeUs) { ALOGV("notifyAt(%p), time:%lld", this, (long long)mediaTimeUs); return mPlayer->notifyAt(mediaTimeUs); } status_t NuPlayerDriver::setLooping(int loop) { mLooping = loop != 0; return OK; } player_type NuPlayerDriver::playerType() { return NU_PLAYER; } status_t NuPlayerDriver::invoke(const Parcel &request, Parcel *reply) { if (reply == NULL) { ALOGE("reply is a NULL pointer"); return BAD_VALUE; } int32_t methodId; status_t ret = request.readInt32(&methodId); if (ret != OK) { ALOGE("Failed to retrieve the requested method to invoke"); return ret; } switch (methodId) { case INVOKE_ID_SET_VIDEO_SCALING_MODE: { int mode = request.readInt32(); return mPlayer->setVideoScalingMode(mode); } case INVOKE_ID_GET_TRACK_INFO: { return mPlayer->getTrackInfo(reply); } case INVOKE_ID_SELECT_TRACK: { int trackIndex = request.readInt32(); int msec = 0; // getCurrentPosition should always return OK getCurrentPosition(&msec); return mPlayer->selectTrack(trackIndex, true /* select */, msec * 1000LL); } case INVOKE_ID_UNSELECT_TRACK: { int trackIndex = request.readInt32(); return mPlayer->selectTrack(trackIndex, false /* select */, 0xdeadbeef /* not used */); } case INVOKE_ID_GET_SELECTED_TRACK: { int32_t type = request.readInt32(); return mPlayer->getSelectedTrack(type, reply); } default: { return INVALID_OPERATION; } } } void NuPlayerDriver::setAudioSink(const sp &audioSink) { mPlayer->setAudioSink(audioSink); mAudioSink = audioSink; } status_t NuPlayerDriver::setParameter( int /* key */, const Parcel & /* request */) { return INVALID_OPERATION; } status_t NuPlayerDriver::getParameter(int key, Parcel *reply) { if (key == FOURCC('m','t','r','X') && mAnalyticsItem != NULL) { // mtrX -- a play on 'metrics' (not matrix) // gather current info all together, parcel it, and send it back updateMetrics("api"); mAnalyticsItem->writeToParcel(reply); return OK; } return INVALID_OPERATION; } status_t NuPlayerDriver::getMetadata( const media::Metadata::Filter& /* ids */, Parcel *records) { Mutex::Autolock autoLock(mLock); using media::Metadata; Metadata meta(records); meta.appendBool( Metadata::kPauseAvailable, mPlayerFlags & NuPlayer::Source::FLAG_CAN_PAUSE); meta.appendBool( Metadata::kSeekBackwardAvailable, mPlayerFlags & NuPlayer::Source::FLAG_CAN_SEEK_BACKWARD); meta.appendBool( Metadata::kSeekForwardAvailable, mPlayerFlags & NuPlayer::Source::FLAG_CAN_SEEK_FORWARD); meta.appendBool( Metadata::kSeekAvailable, mPlayerFlags & NuPlayer::Source::FLAG_CAN_SEEK); return OK; } void NuPlayerDriver::notifyResetComplete() { ALOGD("notifyResetComplete(%p)", this); Mutex::Autolock autoLock(mLock); CHECK_EQ(mState, STATE_RESET_IN_PROGRESS); mState = STATE_IDLE; mCondition.broadcast(); } void NuPlayerDriver::notifySetSurfaceComplete() { ALOGV("notifySetSurfaceComplete(%p)", this); Mutex::Autolock autoLock(mLock); CHECK(mSetSurfaceInProgress); mSetSurfaceInProgress = false; mCondition.broadcast(); } void NuPlayerDriver::notifyDuration(int64_t durationUs) { Mutex::Autolock autoLock(mLock); mDurationUs = durationUs; } void NuPlayerDriver::notifyMorePlayingTimeUs(int64_t playingUs) { Mutex::Autolock autoLock(mLock); mPlayingTimeUs += playingUs; } void NuPlayerDriver::notifyMoreRebufferingTimeUs(int64_t rebufferingUs) { Mutex::Autolock autoLock(mLock); mRebufferingTimeUs += rebufferingUs; mRebufferingEvents++; } void NuPlayerDriver::notifyRebufferingWhenExit(bool status) { Mutex::Autolock autoLock(mLock); mRebufferingAtExit = status; } void NuPlayerDriver::notifySeekComplete() { ALOGV("notifySeekComplete(%p)", this); Mutex::Autolock autoLock(mLock); mSeekInProgress = false; notifySeekComplete_l(); } void NuPlayerDriver::notifySeekComplete_l() { bool wasSeeking = true; if (mState == STATE_STOPPED_AND_PREPARING) { wasSeeking = false; mState = STATE_STOPPED_AND_PREPARED; mCondition.broadcast(); if (!mIsAsyncPrepare) { // if we are preparing synchronously, no need to notify listener return; } } else if (mState == STATE_STOPPED) { // no need to notify listener return; } notifyListener_l(wasSeeking ? MEDIA_SEEK_COMPLETE : MEDIA_PREPARED); } status_t NuPlayerDriver::dump( int fd, const Vector & /* args */) const { Vector > trackStats; mPlayer->getStats(&trackStats); AString logString(" NuPlayer\n"); char buf[256] = {0}; bool locked = false; for (int i = 0; i < kDumpLockRetries; ++i) { if (mLock.tryLock() == NO_ERROR) { locked = true; break; } usleep(kDumpLockSleepUs); } if (locked) { snprintf(buf, sizeof(buf), " state(%d), atEOS(%d), looping(%d), autoLoop(%d)\n", mState, mAtEOS, mLooping, mAutoLoop); mLock.unlock(); } else { snprintf(buf, sizeof(buf), " NPD(%p) lock is taken\n", this); } logString.append(buf); for (size_t i = 0; i < trackStats.size(); ++i) { const sp &stats = trackStats.itemAt(i); AString mime; if (stats->findString("mime", &mime)) { snprintf(buf, sizeof(buf), " mime(%s)\n", mime.c_str()); logString.append(buf); } AString name; if (stats->findString("component-name", &name)) { snprintf(buf, sizeof(buf), " decoder(%s)\n", name.c_str()); logString.append(buf); } if (mime.startsWith("video/")) { int32_t width, height; if (stats->findInt32("width", &width) && stats->findInt32("height", &height)) { snprintf(buf, sizeof(buf), " resolution(%d x %d)\n", width, height); logString.append(buf); } int64_t numFramesTotal = 0; int64_t numFramesDropped = 0; stats->findInt64("frames-total", &numFramesTotal); stats->findInt64("frames-dropped-output", &numFramesDropped); snprintf(buf, sizeof(buf), " numFramesTotal(%lld), numFramesDropped(%lld), " "percentageDropped(%.2f%%)\n", (long long)numFramesTotal, (long long)numFramesDropped, numFramesTotal == 0 ? 0.0 : (double)(numFramesDropped * 100) / numFramesTotal); logString.append(buf); } } ALOGI("%s", logString.c_str()); if (fd >= 0) { FILE *out = fdopen(dup(fd), "w"); fprintf(out, "%s", logString.c_str()); fclose(out); out = NULL; } return OK; } void NuPlayerDriver::notifyListener( int msg, int ext1, int ext2, const Parcel *in) { Mutex::Autolock autoLock(mLock); notifyListener_l(msg, ext1, ext2, in); } void NuPlayerDriver::notifyListener_l( int msg, int ext1, int ext2, const Parcel *in) { ALOGV("notifyListener_l(%p), (%d, %d, %d, %d), loop setting(%d, %d)", this, msg, ext1, ext2, (in == NULL ? -1 : (int)in->dataSize()), mAutoLoop, mLooping); switch (msg) { case MEDIA_PLAYBACK_COMPLETE: { if (mState != STATE_RESET_IN_PROGRESS) { if (mAutoLoop) { audio_stream_type_t streamType = AUDIO_STREAM_MUSIC; if (mAudioSink != NULL) { streamType = mAudioSink->getAudioStreamType(); } if (streamType == AUDIO_STREAM_NOTIFICATION) { ALOGW("disabling auto-loop for notification"); mAutoLoop = false; } } if (mLooping || mAutoLoop) { mPlayer->seekToAsync(0); if (mAudioSink != NULL) { // The renderer has stopped the sink at the end in order to play out // the last little bit of audio. If we're looping, we need to restart it. mAudioSink->start(); } // don't send completion event when looping return; } if (property_get_bool("persist.debug.sf.stats", false)) { Vector args; dump(-1, args); } mPlayer->pause(); mState = STATE_PAUSED; } FALLTHROUGH_INTENDED; } case MEDIA_ERROR: { // when we have an error, add it to the analytics for this playback. // ext1 is our primary 'error type' value. Only add ext2 when non-zero. // [test against msg is due to fall through from previous switch value] if (msg == MEDIA_ERROR && mAnalyticsItem != NULL) { mAnalyticsItem->setInt32(kPlayerError, ext1); if (ext2 != 0) { mAnalyticsItem->setInt32(kPlayerErrorCode, ext2); } mAnalyticsItem->setCString(kPlayerErrorState, stateString(mState).c_str()); } mAtEOS = true; break; } default: break; } mLock.unlock(); sendEvent(msg, ext1, ext2, in); mLock.lock(); } void NuPlayerDriver::notifySetDataSourceCompleted(status_t err) { Mutex::Autolock autoLock(mLock); CHECK_EQ(mState, STATE_SET_DATASOURCE_PENDING); mAsyncResult = err; mState = (err == OK) ? STATE_UNPREPARED : STATE_IDLE; mCondition.broadcast(); } void NuPlayerDriver::notifyPrepareCompleted(status_t err) { ALOGV("notifyPrepareCompleted %d", err); Mutex::Autolock autoLock(mLock); if (mState != STATE_PREPARING) { // We were preparing asynchronously when the client called // reset(), we sent a premature "prepared" notification and // then initiated the reset. This notification is stale. CHECK(mState == STATE_RESET_IN_PROGRESS || mState == STATE_IDLE); return; } CHECK_EQ(mState, STATE_PREPARING); mAsyncResult = err; if (err == OK) { // update state before notifying client, so that if client calls back into NuPlayerDriver // in response, NuPlayerDriver has the right state mState = STATE_PREPARED; if (mIsAsyncPrepare) { notifyListener_l(MEDIA_PREPARED); } } else { mState = STATE_UNPREPARED; if (mIsAsyncPrepare) { notifyListener_l(MEDIA_ERROR, MEDIA_ERROR_UNKNOWN, err); } } sp meta = mPlayer->getFileMeta(); int32_t loop; if (meta != NULL && meta->findInt32(kKeyAutoLoop, &loop) && loop != 0) { mAutoLoop = true; } mCondition.broadcast(); } void NuPlayerDriver::notifyFlagsChanged(uint32_t flags) { Mutex::Autolock autoLock(mLock); mPlayerFlags = flags; } // Modular DRM status_t NuPlayerDriver::prepareDrm(const uint8_t uuid[16], const Vector &drmSessionId) { ALOGV("prepareDrm(%p) state: %d", this, mState); // leaving the state verification for mediaplayer.cpp status_t ret = mPlayer->prepareDrm(uuid, drmSessionId); ALOGV("prepareDrm ret: %d", ret); return ret; } status_t NuPlayerDriver::releaseDrm() { ALOGV("releaseDrm(%p) state: %d", this, mState); // leaving the state verification for mediaplayer.cpp status_t ret = mPlayer->releaseDrm(); ALOGV("releaseDrm ret: %d", ret); return ret; } std::string NuPlayerDriver::stateString(State state) { const char *rval = NULL; char rawbuffer[16]; // allows "%d" switch (state) { case STATE_IDLE: rval = "IDLE"; break; case STATE_SET_DATASOURCE_PENDING: rval = "SET_DATASOURCE_PENDING"; break; case STATE_UNPREPARED: rval = "UNPREPARED"; break; case STATE_PREPARING: rval = "PREPARING"; break; case STATE_PREPARED: rval = "PREPARED"; break; case STATE_RUNNING: rval = "RUNNING"; break; case STATE_PAUSED: rval = "PAUSED"; break; case STATE_RESET_IN_PROGRESS: rval = "RESET_IN_PROGRESS"; break; case STATE_STOPPED: rval = "STOPPED"; break; case STATE_STOPPED_AND_PREPARING: rval = "STOPPED_AND_PREPARING"; break; case STATE_STOPPED_AND_PREPARED: rval = "STOPPED_AND_PREPARED"; break; default: // yes, this buffer is shared and vulnerable to races snprintf(rawbuffer, sizeof(rawbuffer), "%d", state); rval = rawbuffer; break; } return rval; } } // namespace android