/*
* Copyright (C) 2011 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.
*/
#undef DEBUG_HDCP
//#define LOG_NDEBUG 0
#define LOG_TAG "PreviewPlayerBase"
#include <utils/Log.h>
#include <dlfcn.h>
#include "include/ARTSPController.h"
#include "PreviewPlayerBase.h"
#include "AudioPlayerBase.h"
#include "include/SoftwareRenderer.h"
#include "include/NuCachedSource2.h"
#include "include/ThrottledSource.h"
#include "include/MPEG2TSExtractor.h"
#include <binder/IPCThreadState.h>
#include <binder/IServiceManager.h>
#include <media/IMediaPlayerService.h>
#include <media/stagefright/foundation/hexdump.h>
#include <media/stagefright/foundation/ADebug.h>
#include <media/stagefright/DataSource.h>
#include <media/stagefright/FileSource.h>
#include <media/stagefright/MediaBuffer.h>
#include <media/stagefright/MediaDefs.h>
#include <media/stagefright/MediaExtractor.h>
#include <media/stagefright/MediaSource.h>
#include <media/stagefright/MetaData.h>
#include <media/stagefright/OMXCodec.h>
#include <surfaceflinger/Surface.h>
#include <gui/ISurfaceTexture.h>
#include <gui/SurfaceTextureClient.h>
#include <surfaceflinger/ISurfaceComposer.h>
#include <media/stagefright/foundation/ALooper.h>
#include <media/stagefright/foundation/AMessage.h>
#include <cutils/properties.h>
#define USE_SURFACE_ALLOC 1
namespace android {
static int64_t kLowWaterMarkUs = 2000000ll; // 2secs
static int64_t kHighWaterMarkUs = 10000000ll; // 10secs
static int64_t kHighWaterMarkRTSPUs = 4000000ll; // 4secs
static const size_t kLowWaterMarkBytes = 40000;
static const size_t kHighWaterMarkBytes = 200000;
struct AwesomeEvent : public TimedEventQueue::Event {
AwesomeEvent(
PreviewPlayerBase *player,
void (PreviewPlayerBase::*method)())
: mPlayer(player),
mMethod(method) {
}
protected:
virtual ~AwesomeEvent() {}
virtual void fire(TimedEventQueue *queue, int64_t /* now_us */) {
(mPlayer->*mMethod)();
}
private:
PreviewPlayerBase *mPlayer;
void (PreviewPlayerBase::*mMethod)();
AwesomeEvent(const AwesomeEvent &);
AwesomeEvent &operator=(const AwesomeEvent &);
};
struct AwesomeLocalRenderer : public AwesomeRenderer {
AwesomeLocalRenderer(
const sp<ANativeWindow> &nativeWindow, const sp<MetaData> &meta)
: mTarget(new SoftwareRenderer(nativeWindow, meta)) {
}
virtual void render(MediaBuffer *buffer) {
render((const uint8_t *)buffer->data() + buffer->range_offset(),
buffer->range_length());
}
void render(const void *data, size_t size) {
mTarget->render(data, size, NULL);
}
protected:
virtual ~AwesomeLocalRenderer() {
delete mTarget;
mTarget = NULL;
}
private:
SoftwareRenderer *mTarget;
AwesomeLocalRenderer(const AwesomeLocalRenderer &);
AwesomeLocalRenderer &operator=(const AwesomeLocalRenderer &);;
};
struct AwesomeNativeWindowRenderer : public AwesomeRenderer {
AwesomeNativeWindowRenderer(
const sp<ANativeWindow> &nativeWindow,
int32_t rotationDegrees)
: mNativeWindow(nativeWindow) {
applyRotation(rotationDegrees);
}
virtual void render(MediaBuffer *buffer) {
status_t err = mNativeWindow->queueBuffer(
mNativeWindow.get(), buffer->graphicBuffer().get());
if (err != 0) {
LOGE("queueBuffer failed with error %s (%d)", strerror(-err),
-err);
return;
}
sp<MetaData> metaData = buffer->meta_data();
metaData->setInt32(kKeyRendered, 1);
}
protected:
virtual ~AwesomeNativeWindowRenderer() {}
private:
sp<ANativeWindow> mNativeWindow;
void applyRotation(int32_t rotationDegrees) {
uint32_t transform;
switch (rotationDegrees) {
case 0: transform = 0; break;
case 90: transform = HAL_TRANSFORM_ROT_90; break;
case 180: transform = HAL_TRANSFORM_ROT_180; break;
case 270: transform = HAL_TRANSFORM_ROT_270; break;
default: transform = 0; break;
}
if (transform) {
CHECK_EQ(0, native_window_set_buffers_transform(
mNativeWindow.get(), transform));
}
}
AwesomeNativeWindowRenderer(const AwesomeNativeWindowRenderer &);
AwesomeNativeWindowRenderer &operator=(
const AwesomeNativeWindowRenderer &);
};
// To collect the decoder usage
void addBatteryData(uint32_t params) {
sp<IBinder> binder =
defaultServiceManager()->getService(String16("media.player"));
sp<IMediaPlayerService> service = interface_cast<IMediaPlayerService>(binder);
CHECK(service.get() != NULL);
service->addBatteryData(params);
}
////////////////////////////////////////////////////////////////////////////////
PreviewPlayerBase::PreviewPlayerBase()
: mQueueStarted(false),
mTimeSource(NULL),
mVideoRendererIsPreview(false),
mAudioPlayer(NULL),
mDisplayWidth(0),
mDisplayHeight(0),
mFlags(0),
mExtractorFlags(0),
mVideoBuffer(NULL),
mDecryptHandle(NULL),
mLastVideoTimeUs(-1) {
CHECK_EQ(mClient.connect(), (status_t)OK);
DataSource::RegisterDefaultSniffers();
mVideoEvent = new AwesomeEvent(this, &PreviewPlayerBase::onVideoEvent);
mVideoEventPending = false;
mStreamDoneEvent = new AwesomeEvent(this, &PreviewPlayerBase::onStreamDone);
mStreamDoneEventPending = false;
mBufferingEvent = new AwesomeEvent(this, &PreviewPlayerBase::onBufferingUpdate);
mBufferingEventPending = false;
mVideoLagEvent = new AwesomeEvent(this, &PreviewPlayerBase::onVideoLagUpdate);
mVideoEventPending = false;
mCheckAudioStatusEvent = new AwesomeEvent(
this, &PreviewPlayerBase::onCheckAudioStatus);
mAudioStatusEventPending = false;
reset();
}
PreviewPlayerBase::~PreviewPlayerBase() {
if (mQueueStarted) {
mQueue.stop();
}
reset();
mClient.disconnect();
}
void PreviewPlayerBase::cancelPlayerEvents(bool keepBufferingGoing) {
mQueue.cancelEvent(mVideoEvent->eventID());
mVideoEventPending = false;
mQueue.cancelEvent(mStreamDoneEvent->eventID());
mStreamDoneEventPending = false;
mQueue.cancelEvent(mCheckAudioStatusEvent->eventID());
mAudioStatusEventPending = false;
mQueue.cancelEvent(mVideoLagEvent->eventID());
mVideoLagEventPending = false;
if (!keepBufferingGoing) {
mQueue.cancelEvent(mBufferingEvent->eventID());
mBufferingEventPending = false;
}
}
void PreviewPlayerBase::setListener(const wp<MediaPlayerBase> &listener) {
Mutex::Autolock autoLock(mLock);
mListener = listener;
}
status_t PreviewPlayerBase::setDataSource(
const char *uri, const KeyedVector<String8, String8> *headers) {
Mutex::Autolock autoLock(mLock);
return setDataSource_l(uri, headers);
}
status_t PreviewPlayerBase::setDataSource_l(
const char *uri, const KeyedVector<String8, String8> *headers) {
reset_l();
mUri = uri;
if (headers) {
mUriHeaders = *headers;
ssize_t index = mUriHeaders.indexOfKey(String8("x-hide-urls-from-log"));
if (index >= 0) {
// Browser is in "incognito" mode, suppress logging URLs.
// This isn't something that should be passed to the server.
mUriHeaders.removeItemsAt(index);
mFlags |= INCOGNITO;
}
}
if (!(mFlags & INCOGNITO)) {
LOGI("setDataSource_l('%s')", mUri.string());
} else {
LOGI("setDataSource_l(URL suppressed)");
}
// The actual work will be done during preparation in the call to
// ::finishSetDataSource_l to avoid blocking the calling thread in
// setDataSource for any significant time.
return OK;
}
status_t PreviewPlayerBase::setDataSource(
int fd, int64_t offset, int64_t length) {
Mutex::Autolock autoLock(mLock);
reset_l();
sp<DataSource> dataSource = new FileSource(fd, offset, length);
status_t err = dataSource->initCheck();
if (err != OK) {
return err;
}
mFileSource = dataSource;
return setDataSource_l(dataSource);
}
status_t PreviewPlayerBase::setDataSource(const sp<IStreamSource> &source) {
return INVALID_OPERATION;
}
status_t PreviewPlayerBase::setDataSource_l(
const sp<DataSource> &dataSource) {
sp<MediaExtractor> extractor = MediaExtractor::Create(dataSource);
if (extractor == NULL) {
return UNKNOWN_ERROR;
}
dataSource->getDrmInfo(mDecryptHandle, &mDrmManagerClient);
if (mDecryptHandle != NULL) {
CHECK(mDrmManagerClient);
if (RightsStatus::RIGHTS_VALID != mDecryptHandle->status) {
notifyListener_l(MEDIA_ERROR, MEDIA_ERROR_UNKNOWN, ERROR_DRM_NO_LICENSE);
}
}
return setDataSource_l(extractor);
}
status_t PreviewPlayerBase::setDataSource_l(const sp<MediaExtractor> &extractor) {
// Attempt to approximate overall stream bitrate by summing all
// tracks' individual bitrates, if not all of them advertise bitrate,
// we have to fail.
int64_t totalBitRate = 0;
for (size_t i = 0; i < extractor->countTracks(); ++i) {
sp<MetaData> meta = extractor->getTrackMetaData(i);
int32_t bitrate;
if (!meta->findInt32(kKeyBitRate, &bitrate)) {
totalBitRate = -1;
break;
}
totalBitRate += bitrate;
}
mBitrate = totalBitRate;
LOGV("mBitrate = %lld bits/sec", mBitrate);
bool haveAudio = false;
bool haveVideo = false;
for (size_t i = 0; i < extractor->countTracks(); ++i) {
sp<MetaData> meta = extractor->getTrackMetaData(i);
const char *mime;
CHECK(meta->findCString(kKeyMIMEType, &mime));
if (!haveVideo && !strncasecmp(mime, "video/", 6)) {
setVideoSource(extractor->getTrack(i));
haveVideo = true;
// Set the presentation/display size
int32_t displayWidth, displayHeight;
bool success = meta->findInt32(kKeyDisplayWidth, &displayWidth);
if (success) {
success = meta->findInt32(kKeyDisplayHeight, &displayHeight);
}
if (success) {
mDisplayWidth = displayWidth;
mDisplayHeight = displayHeight;
}
} else if (!haveAudio && !strncasecmp(mime, "audio/", 6)) {
setAudioSource(extractor->getTrack(i));
haveAudio = true;
if (!strcasecmp(mime, MEDIA_MIMETYPE_AUDIO_VORBIS)) {
// Only do this for vorbis audio, none of the other audio
// formats even support this ringtone specific hack and
// retrieving the metadata on some extractors may turn out
// to be very expensive.
sp<MetaData> fileMeta = extractor->getMetaData();
int32_t loop;
if (fileMeta != NULL
&& fileMeta->findInt32(kKeyAutoLoop, &loop) && loop != 0) {
mFlags |= AUTO_LOOPING;
}
}
}
if (haveAudio && haveVideo) {
break;
}
}
if (!haveAudio && !haveVideo) {
return UNKNOWN_ERROR;
}
mExtractorFlags = extractor->flags();
return OK;
}
void PreviewPlayerBase::reset() {
Mutex::Autolock autoLock(mLock);
reset_l();
}
void PreviewPlayerBase::reset_l() {
mDisplayWidth = 0;
mDisplayHeight = 0;
if (mDecryptHandle != NULL) {
mDrmManagerClient->setPlaybackStatus(mDecryptHandle,
Playback::STOP, 0);
mDecryptHandle = NULL;
mDrmManagerClient = NULL;
}
if (mFlags & PLAYING) {
uint32_t params = IMediaPlayerService::kBatteryDataTrackDecoder;
if ((mAudioSource != NULL) && (mAudioSource != mAudioTrack)) {
params |= IMediaPlayerService::kBatteryDataTrackAudio;
}
if (mVideoSource != NULL) {
params |= IMediaPlayerService::kBatteryDataTrackVideo;
}
addBatteryData(params);
}
if (mFlags & PREPARING) {
mFlags |= PREPARE_CANCELLED;
if (mConnectingDataSource != NULL) {
LOGI("interrupting the connection process");
mConnectingDataSource->disconnect();
} else if (mConnectingRTSPController != NULL) {
LOGI("interrupting the connection process");
mConnectingRTSPController->disconnect();
}
if (mFlags & PREPARING_CONNECTED) {
// We are basically done preparing, we're just buffering
// enough data to start playback, we can safely interrupt that.
finishAsyncPrepare_l();
}
}
while (mFlags & PREPARING) {
mPreparedCondition.wait(mLock);
}
cancelPlayerEvents();
mCachedSource.clear();
mAudioTrack.clear();
mVideoTrack.clear();
// Shutdown audio first, so that the respone to the reset request
// appears to happen instantaneously as far as the user is concerned
// If we did this later, audio would continue playing while we
// shutdown the video-related resources and the player appear to
// not be as responsive to a reset request.
if (mAudioPlayer == NULL && mAudioSource != NULL) {
// If we had an audio player, it would have effectively
// taken possession of the audio source and stopped it when
// _it_ is stopped. Otherwise this is still our responsibility.
mAudioSource->stop();
}
mAudioSource.clear();
mTimeSource = NULL;
delete mAudioPlayer;
mAudioPlayer = NULL;
mVideoRenderer.clear();
if (mRTSPController != NULL) {
mRTSPController->disconnect();
mRTSPController.clear();
}
if (mVideoSource != NULL) {
shutdownVideoDecoder_l();
}
mDurationUs = -1;
mFlags = 0;
mExtractorFlags = 0;
mTimeSourceDeltaUs = 0;
mVideoTimeUs = 0;
mSeeking = NO_SEEK;
mSeekNotificationSent = false;
mSeekTimeUs = 0;
mUri.setTo("");
mUriHeaders.clear();
mFileSource.clear();
mBitrate = -1;
mLastVideoTimeUs = -1;
}
void PreviewPlayerBase::notifyListener_l(int msg, int ext1, int ext2) {
if (mListener != NULL) {
sp<MediaPlayerBase> listener = mListener.promote();
if (listener != NULL) {
listener->sendEvent(msg, ext1, ext2);
}
}
}
bool PreviewPlayerBase::getBitrate(int64_t *bitrate) {
off64_t size;
if (mDurationUs >= 0 && mCachedSource != NULL
&& mCachedSource->getSize(&size) == OK) {
*bitrate = size * 8000000ll / mDurationUs; // in bits/sec
return true;
}
if (mBitrate >= 0) {
*bitrate = mBitrate;
return true;
}
*bitrate = 0;
return false;
}
// Returns true iff cached duration is available/applicable.
bool PreviewPlayerBase::getCachedDuration_l(int64_t *durationUs, bool *eos) {
int64_t bitrate;
if (mRTSPController != NULL) {
*durationUs = mRTSPController->getQueueDurationUs(eos);
return true;
} else if (mCachedSource != NULL && getBitrate(&bitrate)) {
status_t finalStatus;
size_t cachedDataRemaining = mCachedSource->approxDataRemaining(&finalStatus);
*durationUs = cachedDataRemaining * 8000000ll / bitrate;
*eos = (finalStatus != OK);
return true;
}
return false;
}
void PreviewPlayerBase::ensureCacheIsFetching_l() {
if (mCachedSource != NULL) {
mCachedSource->resumeFetchingIfNecessary();
}
}
void PreviewPlayerBase::onVideoLagUpdate() {
Mutex::Autolock autoLock(mLock);
if (!mVideoLagEventPending) {
return;
}
mVideoLagEventPending = false;
int64_t audioTimeUs = mAudioPlayer->getMediaTimeUs();
int64_t videoLateByUs = audioTimeUs - mVideoTimeUs;
if (!(mFlags & VIDEO_AT_EOS) && videoLateByUs > 300000ll) {
LOGV("video late by %lld ms.", videoLateByUs / 1000ll);
notifyListener_l(
MEDIA_INFO,
MEDIA_INFO_VIDEO_TRACK_LAGGING,
videoLateByUs / 1000ll);
}
postVideoLagEvent_l();
}
void PreviewPlayerBase::onBufferingUpdate() {
Mutex::Autolock autoLock(mLock);
if (!mBufferingEventPending) {
return;
}
mBufferingEventPending = false;
if (mCachedSource != NULL) {
status_t finalStatus;
size_t cachedDataRemaining = mCachedSource->approxDataRemaining(&finalStatus);
bool eos = (finalStatus != OK);
if (eos) {
if (finalStatus == ERROR_END_OF_STREAM) {
notifyListener_l(MEDIA_BUFFERING_UPDATE, 100);
}
if (mFlags & PREPARING) {
LOGV("cache has reached EOS, prepare is done.");
finishAsyncPrepare_l();
}
} else {
int64_t bitrate;
if (getBitrate(&bitrate)) {
size_t cachedSize = mCachedSource->cachedSize();
int64_t cachedDurationUs = cachedSize * 8000000ll / bitrate;
int percentage = 100.0 * (double)cachedDurationUs / mDurationUs;
if (percentage > 100) {
percentage = 100;
}
notifyListener_l(MEDIA_BUFFERING_UPDATE, percentage);
} else {
// We don't know the bitrate of the stream, use absolute size
// limits to maintain the cache.
if ((mFlags & PLAYING) && !eos
&& (cachedDataRemaining < kLowWaterMarkBytes)) {
LOGI("cache is running low (< %d) , pausing.",
kLowWaterMarkBytes);
mFlags |= CACHE_UNDERRUN;
pause_l();
ensureCacheIsFetching_l();
notifyListener_l(MEDIA_INFO, MEDIA_INFO_BUFFERING_START);
} else if (eos || cachedDataRemaining > kHighWaterMarkBytes) {
if (mFlags & CACHE_UNDERRUN) {
LOGI("cache has filled up (> %d), resuming.",
kHighWaterMarkBytes);
mFlags &= ~CACHE_UNDERRUN;
play_l();
notifyListener_l(MEDIA_INFO, MEDIA_INFO_BUFFERING_END);
} else if (mFlags & PREPARING) {
LOGV("cache has filled up (> %d), prepare is done",
kHighWaterMarkBytes);
finishAsyncPrepare_l();
}
}
}
}
}
int64_t cachedDurationUs;
bool eos;
if (getCachedDuration_l(&cachedDurationUs, &eos)) {
LOGV("cachedDurationUs = %.2f secs, eos=%d",
cachedDurationUs / 1E6, eos);
int64_t highWaterMarkUs =
(mRTSPController != NULL) ? kHighWaterMarkRTSPUs : kHighWaterMarkUs;
if ((mFlags & PLAYING) && !eos
&& (cachedDurationUs < kLowWaterMarkUs)) {
LOGI("cache is running low (%.2f secs) , pausing.",
cachedDurationUs / 1E6);
mFlags |= CACHE_UNDERRUN;
pause_l();
ensureCacheIsFetching_l();
notifyListener_l(MEDIA_INFO, MEDIA_INFO_BUFFERING_START);
} else if (eos || cachedDurationUs > highWaterMarkUs) {
if (mFlags & CACHE_UNDERRUN) {
LOGI("cache has filled up (%.2f secs), resuming.",
cachedDurationUs / 1E6);
mFlags &= ~CACHE_UNDERRUN;
play_l();
notifyListener_l(MEDIA_INFO, MEDIA_INFO_BUFFERING_END);
} else if (mFlags & PREPARING) {
LOGV("cache has filled up (%.2f secs), prepare is done",
cachedDurationUs / 1E6);
finishAsyncPrepare_l();
}
}
}
postBufferingEvent_l();
}
void PreviewPlayerBase::onStreamDone() {
// Posted whenever any stream finishes playing.
Mutex::Autolock autoLock(mLock);
if (!mStreamDoneEventPending) {
return;
}
mStreamDoneEventPending = false;
if (mStreamDoneStatus != ERROR_END_OF_STREAM) {
LOGV("MEDIA_ERROR %d", mStreamDoneStatus);
notifyListener_l(
MEDIA_ERROR, MEDIA_ERROR_UNKNOWN, mStreamDoneStatus);
pause_l(true /* at eos */);
mFlags |= AT_EOS;
return;
}
const bool allDone =
(mVideoSource == NULL || (mFlags & VIDEO_AT_EOS))
&& (mAudioSource == NULL || (mFlags & AUDIO_AT_EOS));
if (!allDone) {
return;
}
if (mFlags & (LOOPING | AUTO_LOOPING)) {
seekTo_l(0);
if (mVideoSource != NULL) {
postVideoEvent_l();
}
} else {
LOGV("MEDIA_PLAYBACK_COMPLETE");
notifyListener_l(MEDIA_PLAYBACK_COMPLETE);
pause_l(true /* at eos */);
mFlags |= AT_EOS;
}
}
status_t PreviewPlayerBase::play() {
Mutex::Autolock autoLock(mLock);
mFlags &= ~CACHE_UNDERRUN;
return play_l();
}
status_t PreviewPlayerBase::play_l() {
mFlags &= ~SEEK_PREVIEW;
if (mFlags & PLAYING) {
return OK;
}
if (!(mFlags & PREPARED)) {
status_t err = prepare_l();
if (err != OK) {
return err;
}
}
mFlags |= PLAYING;
mFlags |= FIRST_FRAME;
if (mDecryptHandle != NULL) {
int64_t position;
getPosition(&position);
mDrmManagerClient->setPlaybackStatus(mDecryptHandle,
Playback::START, position / 1000);
}
if (mAudioSource != NULL) {
if (mAudioPlayer == NULL) {
if (mAudioSink != NULL) {
mAudioPlayer = new AudioPlayerBase(mAudioSink, this);
mAudioPlayer->setSource(mAudioSource);
mTimeSource = mAudioPlayer;
// If there was a seek request before we ever started,
// honor the request now.
// Make sure to do this before starting the audio player
// to avoid a race condition.
seekAudioIfNecessary_l();
}
}
CHECK(!(mFlags & AUDIO_RUNNING));
if (mVideoSource == NULL) {
status_t err = startAudioPlayer_l();
if (err != OK) {
delete mAudioPlayer;
mAudioPlayer = NULL;
mFlags &= ~(PLAYING | FIRST_FRAME);
if (mDecryptHandle != NULL) {
mDrmManagerClient->setPlaybackStatus(
mDecryptHandle, Playback::STOP, 0);
}
return err;
}
}
}
if (mTimeSource == NULL && mAudioPlayer == NULL) {
mTimeSource = &mSystemTimeSource;
}
if (mVideoSource != NULL) {
// Kick off video playback
postVideoEvent_l();
if (mAudioSource != NULL && mVideoSource != NULL) {
postVideoLagEvent_l();
}
}
if (mFlags & AT_EOS) {
// Legacy behaviour, if a stream finishes playing and then
// is started again, we play from the start...
seekTo_l(0);
}
uint32_t params = IMediaPlayerService::kBatteryDataCodecStarted
| IMediaPlayerService::kBatteryDataTrackDecoder;
if ((mAudioSource != NULL) && (mAudioSource != mAudioTrack)) {
params |= IMediaPlayerService::kBatteryDataTrackAudio;
}
if (mVideoSource != NULL) {
params |= IMediaPlayerService::kBatteryDataTrackVideo;
}
addBatteryData(params);
return OK;
}
status_t PreviewPlayerBase::startAudioPlayer_l() {
CHECK(!(mFlags & AUDIO_RUNNING));
if (mAudioSource == NULL || mAudioPlayer == NULL) {
return OK;
}
if (!(mFlags & AUDIOPLAYER_STARTED)) {
mFlags |= AUDIOPLAYER_STARTED;
// We've already started the MediaSource in order to enable
// the prefetcher to read its data.
status_t err = mAudioPlayer->start(
true /* sourceAlreadyStarted */);
if (err != OK) {
notifyListener_l(MEDIA_ERROR, MEDIA_ERROR_UNKNOWN, err);
return err;
}
} else {
mAudioPlayer->resume();
}
mFlags |= AUDIO_RUNNING;
mWatchForAudioEOS = true;
return OK;
}
void PreviewPlayerBase::notifyVideoSize_l() {
sp<MetaData> meta = mVideoSource->getFormat();
int32_t vWidth, vHeight;
int32_t cropLeft, cropTop, cropRight, cropBottom;
CHECK(meta->findInt32(kKeyWidth, &vWidth));
CHECK(meta->findInt32(kKeyHeight, &vHeight));
mGivenWidth = vWidth;
mGivenHeight = vHeight;
if (!meta->findRect(
kKeyCropRect, &cropLeft, &cropTop, &cropRight, &cropBottom)) {
cropLeft = cropTop = 0;
cropRight = vWidth - 1;
cropBottom = vHeight - 1;
LOGD("got dimensions only %d x %d", vWidth, vHeight);
} else {
LOGD("got crop rect %d, %d, %d, %d",
cropLeft, cropTop, cropRight, cropBottom);
}
mCropRect.left = cropLeft;
mCropRect.right = cropRight;
mCropRect.top = cropTop;
mCropRect.bottom = cropBottom;
int32_t displayWidth;
if (meta->findInt32(kKeyDisplayWidth, &displayWidth)) {
LOGV("Display width changed (%d=>%d)", mDisplayWidth, displayWidth);
mDisplayWidth = displayWidth;
}
int32_t displayHeight;
if (meta->findInt32(kKeyDisplayHeight, &displayHeight)) {
LOGV("Display height changed (%d=>%d)", mDisplayHeight, displayHeight);
mDisplayHeight = displayHeight;
}
int32_t usableWidth = cropRight - cropLeft + 1;
int32_t usableHeight = cropBottom - cropTop + 1;
if (mDisplayWidth != 0) {
usableWidth = mDisplayWidth;
}
if (mDisplayHeight != 0) {
usableHeight = mDisplayHeight;
}
int32_t rotationDegrees;
if (!mVideoTrack->getFormat()->findInt32(
kKeyRotation, &rotationDegrees)) {
rotationDegrees = 0;
}
if (rotationDegrees == 90 || rotationDegrees == 270) {
notifyListener_l(
MEDIA_SET_VIDEO_SIZE, usableHeight, usableWidth);
} else {
notifyListener_l(
MEDIA_SET_VIDEO_SIZE, usableWidth, usableHeight);
}
}
void PreviewPlayerBase::initRenderer_l() {
if (mNativeWindow == NULL) {
return;
}
sp<MetaData> meta = mVideoSource->getFormat();
int32_t format;
const char *component;
CHECK(meta->findInt32(kKeyColorFormat, &format));
CHECK(meta->findCString(kKeyDecoderComponent, &component));
int32_t rotationDegrees;
if (!mVideoTrack->getFormat()->findInt32(
kKeyRotation, &rotationDegrees)) {
rotationDegrees = 0;
}
mVideoRenderer.clear();
// Must ensure that mVideoRenderer's destructor is actually executed
// before creating a new one.
IPCThreadState::self()->flushCommands();
if (USE_SURFACE_ALLOC && strncmp(component, "OMX.", 4) == 0) {
// Hardware decoders avoid the CPU color conversion by decoding
// directly to ANativeBuffers, so we must use a renderer that
// just pushes those buffers to the ANativeWindow.
mVideoRenderer =
new AwesomeNativeWindowRenderer(mNativeWindow, rotationDegrees);
} else {
// Other decoders are instantiated locally and as a consequence
// allocate their buffers in local address space. This renderer
// then performs a color conversion and copy to get the data
// into the ANativeBuffer.
mVideoRenderer = new AwesomeLocalRenderer(mNativeWindow, meta);
}
}
status_t PreviewPlayerBase::pause() {
Mutex::Autolock autoLock(mLock);
mFlags &= ~CACHE_UNDERRUN;
return pause_l();
}
status_t PreviewPlayerBase::pause_l(bool at_eos) {
if (!(mFlags & PLAYING)) {
return OK;
}
cancelPlayerEvents(true /* keepBufferingGoing */);
if (mAudioPlayer != NULL && (mFlags & AUDIO_RUNNING)) {
if (at_eos) {
// If we played the audio stream to completion we
// want to make sure that all samples remaining in the audio
// track's queue are played out.
mAudioPlayer->pause(true /* playPendingSamples */);
} else {
mAudioPlayer->pause();
}
mFlags &= ~AUDIO_RUNNING;
}
mFlags &= ~PLAYING;
if (mDecryptHandle != NULL) {
mDrmManagerClient->setPlaybackStatus(mDecryptHandle,
Playback::PAUSE, 0);
}
uint32_t params = IMediaPlayerService::kBatteryDataTrackDecoder;
if ((mAudioSource != NULL) && (mAudioSource != mAudioTrack)) {
params |= IMediaPlayerService::kBatteryDataTrackAudio;
}
if (mVideoSource != NULL) {
params |= IMediaPlayerService::kBatteryDataTrackVideo;
}
addBatteryData(params);
return OK;
}
bool PreviewPlayerBase::isPlaying() const {
return (mFlags & PLAYING) || (mFlags & CACHE_UNDERRUN);
}
void PreviewPlayerBase::setSurface(const sp<Surface> &surface) {
Mutex::Autolock autoLock(mLock);
mSurface = surface;
setNativeWindow_l(surface);
}
void PreviewPlayerBase::setSurfaceTexture(const sp<ISurfaceTexture> &surfaceTexture) {
Mutex::Autolock autoLock(mLock);
mSurface.clear();
if (surfaceTexture != NULL) {
setNativeWindow_l(new SurfaceTextureClient(surfaceTexture));
}
}
void PreviewPlayerBase::shutdownVideoDecoder_l() {
if (mVideoBuffer) {
mVideoBuffer->release();
mVideoBuffer = NULL;
}
mVideoSource->stop();
// The following hack is necessary to ensure that the OMX
// component is completely released by the time we may try
// to instantiate it again.
wp<MediaSource> tmp = mVideoSource;
mVideoSource.clear();
while (tmp.promote() != NULL) {
usleep(1000);
}
IPCThreadState::self()->flushCommands();
}
void PreviewPlayerBase::setNativeWindow_l(const sp<ANativeWindow> &native) {
mNativeWindow = native;
if (mVideoSource == NULL) {
return;
}
LOGI("attempting to reconfigure to use new surface");
bool wasPlaying = (mFlags & PLAYING) != 0;
pause_l();
mVideoRenderer.clear();
shutdownVideoDecoder_l();
CHECK_EQ(initVideoDecoder(), (status_t)OK);
if (mLastVideoTimeUs >= 0) {
mSeeking = SEEK;
mSeekNotificationSent = true;
mSeekTimeUs = mLastVideoTimeUs;
mFlags &= ~(AT_EOS | AUDIO_AT_EOS | VIDEO_AT_EOS);
}
if (wasPlaying) {
play_l();
}
}
void PreviewPlayerBase::setAudioSink(
const sp<MediaPlayerBase::AudioSink> &audioSink) {
Mutex::Autolock autoLock(mLock);
mAudioSink = audioSink;
}
status_t PreviewPlayerBase::setLooping(bool shouldLoop) {
Mutex::Autolock autoLock(mLock);
mFlags = mFlags & ~LOOPING;
if (shouldLoop) {
mFlags |= LOOPING;
}
return OK;
}
status_t PreviewPlayerBase::getDuration(int64_t *durationUs) {
Mutex::Autolock autoLock(mMiscStateLock);
if (mDurationUs < 0) {
return UNKNOWN_ERROR;
}
*durationUs = mDurationUs;
return OK;
}
status_t PreviewPlayerBase::getPosition(int64_t *positionUs) {
if (mRTSPController != NULL) {
*positionUs = mRTSPController->getNormalPlayTimeUs();
}
else if (mSeeking != NO_SEEK) {
*positionUs = mSeekTimeUs;
} else if (mVideoSource != NULL
&& (mAudioPlayer == NULL || !(mFlags & VIDEO_AT_EOS))) {
Mutex::Autolock autoLock(mMiscStateLock);
*positionUs = mVideoTimeUs;
} else if (mAudioPlayer != NULL) {
*positionUs = mAudioPlayer->getMediaTimeUs();
} else {
*positionUs = 0;
}
return OK;
}
status_t PreviewPlayerBase::seekTo(int64_t timeUs) {
if (mExtractorFlags & MediaExtractor::CAN_SEEK) {
Mutex::Autolock autoLock(mLock);
return seekTo_l(timeUs);
}
return OK;
}
// static
void PreviewPlayerBase::OnRTSPSeekDoneWrapper(void *cookie) {
static_cast<PreviewPlayerBase *>(cookie)->onRTSPSeekDone();
}
void PreviewPlayerBase::onRTSPSeekDone() {
notifyListener_l(MEDIA_SEEK_COMPLETE);
mSeekNotificationSent = true;
}
status_t PreviewPlayerBase::seekTo_l(int64_t timeUs) {
if (mRTSPController != NULL) {
mRTSPController->seekAsync(timeUs, OnRTSPSeekDoneWrapper, this);
return OK;
}
if (mFlags & CACHE_UNDERRUN) {
mFlags &= ~CACHE_UNDERRUN;
play_l();
}
if ((mFlags & PLAYING) && mVideoSource != NULL && (mFlags & VIDEO_AT_EOS)) {
// Video playback completed before, there's no pending
// video event right now. In order for this new seek
// to be honored, we need to post one.
postVideoEvent_l();
}
mSeeking = SEEK;
mSeekNotificationSent = false;
mSeekTimeUs = timeUs;
mFlags &= ~(AT_EOS | AUDIO_AT_EOS | VIDEO_AT_EOS);
seekAudioIfNecessary_l();
if (!(mFlags & PLAYING)) {
LOGV("seeking while paused, sending SEEK_COMPLETE notification"
" immediately.");
notifyListener_l(MEDIA_SEEK_COMPLETE);
mSeekNotificationSent = true;
if ((mFlags & PREPARED) && mVideoSource != NULL) {
mFlags |= SEEK_PREVIEW;
postVideoEvent_l();
}
}
return OK;
}
void PreviewPlayerBase::seekAudioIfNecessary_l() {
if (mSeeking != NO_SEEK && mVideoSource == NULL && mAudioPlayer != NULL) {
mAudioPlayer->seekTo(mSeekTimeUs);
mWatchForAudioSeekComplete = true;
mWatchForAudioEOS = true;
if (mDecryptHandle != NULL) {
mDrmManagerClient->setPlaybackStatus(mDecryptHandle,
Playback::PAUSE, 0);
mDrmManagerClient->setPlaybackStatus(mDecryptHandle,
Playback::START, mSeekTimeUs / 1000);
}
}
}
void PreviewPlayerBase::setAudioSource(sp<MediaSource> source) {
CHECK(source != NULL);
mAudioTrack = source;
}
status_t PreviewPlayerBase::initAudioDecoder() {
sp<MetaData> meta = mAudioTrack->getFormat();
const char *mime;
CHECK(meta->findCString(kKeyMIMEType, &mime));
if (!strcasecmp(mime, MEDIA_MIMETYPE_AUDIO_RAW)) {
mAudioSource = mAudioTrack;
} else {
mAudioSource = OMXCodec::Create(
mClient.interface(), mAudioTrack->getFormat(),
false, // createEncoder
mAudioTrack);
}
if (mAudioSource != NULL) {
int64_t durationUs;
if (mAudioTrack->getFormat()->findInt64(kKeyDuration, &durationUs)) {
Mutex::Autolock autoLock(mMiscStateLock);
if (mDurationUs < 0 || durationUs > mDurationUs) {
mDurationUs = durationUs;
}
}
status_t err = mAudioSource->start();
if (err != OK) {
mAudioSource.clear();
return err;
}
} else if (!strcasecmp(mime, MEDIA_MIMETYPE_AUDIO_QCELP)) {
// For legacy reasons we're simply going to ignore the absence
// of an audio decoder for QCELP instead of aborting playback
// altogether.
return OK;
}
return mAudioSource != NULL ? OK : UNKNOWN_ERROR;
}
void PreviewPlayerBase::setVideoSource(sp<MediaSource> source) {
CHECK(source != NULL);
mVideoTrack = source;
}
status_t PreviewPlayerBase::initVideoDecoder(uint32_t flags) {
// Either the application or the DRM system can independently say
// that there must be a hardware-protected path to an external video sink.
// For now we always require a hardware-protected path to external video sink
// if content is DRMed, but eventually this could be optional per DRM agent.
// When the application wants protection, then
// (USE_SURFACE_ALLOC && (mSurface != 0) &&
// (mSurface->getFlags() & ISurfaceComposer::eProtectedByApp))
// will be true, but that part is already handled by SurfaceFlinger.
#ifdef DEBUG_HDCP
// For debugging, we allow a system property to control the protected usage.
// In case of uninitialized or unexpected property, we default to "DRM only".
bool setProtectionBit = false;
char value[PROPERTY_VALUE_MAX];
if (property_get("persist.sys.hdcp_checking", value, NULL)) {
if (!strcmp(value, "never")) {
// nop
} else if (!strcmp(value, "always")) {
setProtectionBit = true;
} else if (!strcmp(value, "drm-only")) {
if (mDecryptHandle != NULL) {
setProtectionBit = true;
}
// property value is empty, or unexpected value
} else {
if (mDecryptHandle != NULL) {
setProtectionBit = true;
}
}
// can' read property value
} else {
if (mDecryptHandle != NULL) {
setProtectionBit = true;
}
}
// note that usage bit is already cleared, so no need to clear it in the "else" case
if (setProtectionBit) {
flags |= OMXCodec::kEnableGrallocUsageProtected;
}
#else
if (mDecryptHandle != NULL) {
flags |= OMXCodec::kEnableGrallocUsageProtected;
}
#endif
LOGV("initVideoDecoder flags=0x%x", flags);
mVideoSource = OMXCodec::Create(
mClient.interface(), mVideoTrack->getFormat(),
false, // createEncoder
mVideoTrack,
NULL, flags, USE_SURFACE_ALLOC ? mNativeWindow : NULL);
if (mVideoSource != NULL) {
int64_t durationUs;
if (mVideoTrack->getFormat()->findInt64(kKeyDuration, &durationUs)) {
Mutex::Autolock autoLock(mMiscStateLock);
if (mDurationUs < 0 || durationUs > mDurationUs) {
mDurationUs = durationUs;
}
}
status_t err = mVideoSource->start();
if (err != OK) {
mVideoSource.clear();
return err;
}
}
return mVideoSource != NULL ? OK : UNKNOWN_ERROR;
}
void PreviewPlayerBase::finishSeekIfNecessary(int64_t videoTimeUs) {
if (mSeeking == SEEK_VIDEO_ONLY) {
mSeeking = NO_SEEK;
return;
}
if (mSeeking == NO_SEEK || (mFlags & SEEK_PREVIEW)) {
return;
}
if (mAudioPlayer != NULL) {
LOGV("seeking audio to %lld us (%.2f secs).", videoTimeUs, videoTimeUs / 1E6);
// If we don't have a video time, seek audio to the originally
// requested seek time instead.
mAudioPlayer->seekTo(videoTimeUs < 0 ? mSeekTimeUs : videoTimeUs);
mWatchForAudioSeekComplete = true;
mWatchForAudioEOS = true;
} else if (!mSeekNotificationSent) {
// If we're playing video only, report seek complete now,
// otherwise audio player will notify us later.
notifyListener_l(MEDIA_SEEK_COMPLETE);
mSeekNotificationSent = true;
}
mFlags |= FIRST_FRAME;
mSeeking = NO_SEEK;
if (mDecryptHandle != NULL) {
mDrmManagerClient->setPlaybackStatus(mDecryptHandle,
Playback::PAUSE, 0);
mDrmManagerClient->setPlaybackStatus(mDecryptHandle,
Playback::START, videoTimeUs / 1000);
}
}
void PreviewPlayerBase::onVideoEvent() {
Mutex::Autolock autoLock(mLock);
if (!mVideoEventPending) {
// The event has been cancelled in reset_l() but had already
// been scheduled for execution at that time.
return;
}
mVideoEventPending = false;
if (mSeeking != NO_SEEK) {
if (mVideoBuffer) {
mVideoBuffer->release();
mVideoBuffer = NULL;
}
if (mSeeking == SEEK && mCachedSource != NULL && mAudioSource != NULL
&& !(mFlags & SEEK_PREVIEW)) {
// We're going to seek the video source first, followed by
// the audio source.
// In order to avoid jumps in the DataSource offset caused by
// the audio codec prefetching data from the old locations
// while the video codec is already reading data from the new
// locations, we'll "pause" the audio source, causing it to
// stop reading input data until a subsequent seek.
if (mAudioPlayer != NULL && (mFlags & AUDIO_RUNNING)) {
mAudioPlayer->pause();
mFlags &= ~AUDIO_RUNNING;
}
mAudioSource->pause();
}
}
if (!mVideoBuffer) {
MediaSource::ReadOptions options;
if (mSeeking != NO_SEEK) {
LOGV("seeking to %lld us (%.2f secs)", mSeekTimeUs, mSeekTimeUs / 1E6);
options.setSeekTo(
mSeekTimeUs,
mSeeking == SEEK_VIDEO_ONLY
? MediaSource::ReadOptions::SEEK_NEXT_SYNC
: MediaSource::ReadOptions::SEEK_CLOSEST_SYNC);
}
for (;;) {
status_t err = mVideoSource->read(&mVideoBuffer, &options);
options.clearSeekTo();
if (err != OK) {
CHECK(mVideoBuffer == NULL);
if (err == INFO_FORMAT_CHANGED) {
LOGV("VideoSource signalled format change.");
notifyVideoSize_l();
if (mVideoRenderer != NULL) {
mVideoRendererIsPreview = false;
initRenderer_l();
}
continue;
}
// So video playback is complete, but we may still have
// a seek request pending that needs to be applied
// to the audio track.
if (mSeeking != NO_SEEK) {
LOGV("video stream ended while seeking!");
}
finishSeekIfNecessary(-1);
if (mAudioPlayer != NULL
&& !(mFlags & (AUDIO_RUNNING | SEEK_PREVIEW))) {
startAudioPlayer_l();
}
mFlags |= VIDEO_AT_EOS;
postStreamDoneEvent_l(err);
return;
}
if (mVideoBuffer->range_length() == 0) {
// Some decoders, notably the PV AVC software decoder
// return spurious empty buffers that we just want to ignore.
mVideoBuffer->release();
mVideoBuffer = NULL;
continue;
}
break;
}
}
int64_t timeUs;
CHECK(mVideoBuffer->meta_data()->findInt64(kKeyTime, &timeUs));
mLastVideoTimeUs = timeUs;
if (mSeeking == SEEK_VIDEO_ONLY) {
if (mSeekTimeUs > timeUs) {
LOGI("XXX mSeekTimeUs = %lld us, timeUs = %lld us",
mSeekTimeUs, timeUs);
}
}
{
Mutex::Autolock autoLock(mMiscStateLock);
mVideoTimeUs = timeUs;
}
SeekType wasSeeking = mSeeking;
finishSeekIfNecessary(timeUs);
if (mAudioPlayer != NULL && !(mFlags & (AUDIO_RUNNING | SEEK_PREVIEW))) {
status_t err = startAudioPlayer_l();
if (err != OK) {
LOGE("Startung the audio player failed w/ err %d", err);
return;
}
}
TimeSource *ts = (mFlags & AUDIO_AT_EOS) ? &mSystemTimeSource : mTimeSource;
if (mFlags & FIRST_FRAME) {
mFlags &= ~FIRST_FRAME;
mTimeSourceDeltaUs = ts->getRealTimeUs() - timeUs;
}
int64_t realTimeUs, mediaTimeUs;
if (!(mFlags & AUDIO_AT_EOS) && mAudioPlayer != NULL
&& mAudioPlayer->getMediaTimeMapping(&realTimeUs, &mediaTimeUs)) {
mTimeSourceDeltaUs = realTimeUs - mediaTimeUs;
}
if (wasSeeking == SEEK_VIDEO_ONLY) {
int64_t nowUs = ts->getRealTimeUs() - mTimeSourceDeltaUs;
int64_t latenessUs = nowUs - timeUs;
if (latenessUs > 0) {
LOGI("after SEEK_VIDEO_ONLY we're late by %.2f secs", latenessUs / 1E6);
}
}
if (wasSeeking == NO_SEEK) {
// Let's display the first frame after seeking right away.
int64_t nowUs = ts->getRealTimeUs() - mTimeSourceDeltaUs;
int64_t latenessUs = nowUs - timeUs;
if (latenessUs > 500000ll
&& mRTSPController == NULL
&& mAudioPlayer != NULL
&& mAudioPlayer->getMediaTimeMapping(
&realTimeUs, &mediaTimeUs)) {
LOGI("we're much too late (%.2f secs), video skipping ahead",
latenessUs / 1E6);
mVideoBuffer->release();
mVideoBuffer = NULL;
mSeeking = SEEK_VIDEO_ONLY;
mSeekTimeUs = mediaTimeUs;
postVideoEvent_l();
return;
}
if (latenessUs > 40000) {
// We're more than 40ms late.
LOGV("we're late by %lld us (%.2f secs), dropping frame",
latenessUs, latenessUs / 1E6);
mVideoBuffer->release();
mVideoBuffer = NULL;
postVideoEvent_l();
return;
}
if (latenessUs < -10000) {
// We're more than 10ms early.
postVideoEvent_l(10000);
return;
}
}
if (mVideoRendererIsPreview || mVideoRenderer == NULL) {
mVideoRendererIsPreview = false;
initRenderer_l();
}
if (mVideoRenderer != NULL) {
mVideoRenderer->render(mVideoBuffer);
}
mVideoBuffer->release();
mVideoBuffer = NULL;
if (wasSeeking != NO_SEEK && (mFlags & SEEK_PREVIEW)) {
mFlags &= ~SEEK_PREVIEW;
return;
}
postVideoEvent_l();
}
void PreviewPlayerBase::postVideoEvent_l(int64_t delayUs) {
if (mVideoEventPending) {
return;
}
mVideoEventPending = true;
mQueue.postEventWithDelay(mVideoEvent, delayUs < 0 ? 10000 : delayUs);
}
void PreviewPlayerBase::postStreamDoneEvent_l(status_t status) {
if (mStreamDoneEventPending) {
return;
}
mStreamDoneEventPending = true;
mStreamDoneStatus = status;
mQueue.postEvent(mStreamDoneEvent);
}
void PreviewPlayerBase::postBufferingEvent_l() {
if (mBufferingEventPending) {
return;
}
mBufferingEventPending = true;
mQueue.postEventWithDelay(mBufferingEvent, 1000000ll);
}
void PreviewPlayerBase::postVideoLagEvent_l() {
if (mVideoLagEventPending) {
return;
}
mVideoLagEventPending = true;
mQueue.postEventWithDelay(mVideoLagEvent, 1000000ll);
}
void PreviewPlayerBase::postCheckAudioStatusEvent_l(int64_t delayUs) {
if (mAudioStatusEventPending) {
return;
}
mAudioStatusEventPending = true;
mQueue.postEventWithDelay(mCheckAudioStatusEvent, delayUs);
}
void PreviewPlayerBase::onCheckAudioStatus() {
Mutex::Autolock autoLock(mLock);
if (!mAudioStatusEventPending) {
// Event was dispatched and while we were blocking on the mutex,
// has already been cancelled.
return;
}
mAudioStatusEventPending = false;
if (mWatchForAudioSeekComplete && !mAudioPlayer->isSeeking()) {
mWatchForAudioSeekComplete = false;
if (!mSeekNotificationSent) {
notifyListener_l(MEDIA_SEEK_COMPLETE);
mSeekNotificationSent = true;
}
mSeeking = NO_SEEK;
}
status_t finalStatus;
if (mWatchForAudioEOS && mAudioPlayer->reachedEOS(&finalStatus)) {
mWatchForAudioEOS = false;
mFlags |= AUDIO_AT_EOS;
mFlags |= FIRST_FRAME;
postStreamDoneEvent_l(finalStatus);
}
}
status_t PreviewPlayerBase::prepare() {
Mutex::Autolock autoLock(mLock);
return prepare_l();
}
status_t PreviewPlayerBase::prepare_l() {
if (mFlags & PREPARED) {
return OK;
}
if (mFlags & PREPARING) {
return UNKNOWN_ERROR;
}
mIsAsyncPrepare = false;
status_t err = prepareAsync_l();
if (err != OK) {
return err;
}
while (mFlags & PREPARING) {
mPreparedCondition.wait(mLock);
}
return mPrepareResult;
}
status_t PreviewPlayerBase::prepareAsync() {
Mutex::Autolock autoLock(mLock);
if (mFlags & PREPARING) {
return UNKNOWN_ERROR; // async prepare already pending
}
mIsAsyncPrepare = true;
return prepareAsync_l();
}
status_t PreviewPlayerBase::prepareAsync_l() {
if (mFlags & PREPARING) {
return UNKNOWN_ERROR; // async prepare already pending
}
if (!mQueueStarted) {
mQueue.start();
mQueueStarted = true;
}
mFlags |= PREPARING;
mAsyncPrepareEvent = new AwesomeEvent(
this, &PreviewPlayerBase::onPrepareAsyncEvent);
mQueue.postEvent(mAsyncPrepareEvent);
return OK;
}
status_t PreviewPlayerBase::finishSetDataSource_l() {
sp<DataSource> dataSource;
if (!strncasecmp("http://", mUri.string(), 7)
|| !strncasecmp("https://", mUri.string(), 8)) {
mConnectingDataSource = HTTPBase::Create(
(mFlags & INCOGNITO)
? HTTPBase::kFlagIncognito
: 0);
mLock.unlock();
status_t err = mConnectingDataSource->connect(mUri, &mUriHeaders);
mLock.lock();
if (err != OK) {
mConnectingDataSource.clear();
LOGI("mConnectingDataSource->connect() returned %d", err);
return err;
}
#if 0
mCachedSource = new NuCachedSource2(
new ThrottledSource(
mConnectingDataSource, 50 * 1024 /* bytes/sec */));
#else
mCachedSource = new NuCachedSource2(mConnectingDataSource);
#endif
mConnectingDataSource.clear();
dataSource = mCachedSource;
String8 contentType = dataSource->getMIMEType();
if (strncasecmp(contentType.string(), "audio/", 6)) {
// We're not doing this for streams that appear to be audio-only
// streams to ensure that even low bandwidth streams start
// playing back fairly instantly.
// We're going to prefill the cache before trying to instantiate
// the extractor below, as the latter is an operation that otherwise
// could block on the datasource for a significant amount of time.
// During that time we'd be unable to abort the preparation phase
// without this prefill.
mLock.unlock();
for (;;) {
status_t finalStatus;
size_t cachedDataRemaining =
mCachedSource->approxDataRemaining(&finalStatus);
if (finalStatus != OK || cachedDataRemaining >= kHighWaterMarkBytes
|| (mFlags & PREPARE_CANCELLED)) {
break;
}
usleep(200000);
}
mLock.lock();
}
if (mFlags & PREPARE_CANCELLED) {
LOGI("Prepare cancelled while waiting for initial cache fill.");
return UNKNOWN_ERROR;
}
} else if (!strncasecmp("rtsp://", mUri.string(), 7)) {
if (mLooper == NULL) {
mLooper = new ALooper;
mLooper->setName("rtsp");
mLooper->start();
}
mRTSPController = new ARTSPController(mLooper);
mConnectingRTSPController = mRTSPController;
mLock.unlock();
status_t err = mRTSPController->connect(mUri.string());
mLock.lock();
mConnectingRTSPController.clear();
LOGI("ARTSPController::connect returned %d", err);
if (err != OK) {
mRTSPController.clear();
return err;
}
sp<MediaExtractor> extractor = mRTSPController.get();
return setDataSource_l(extractor);
} else {
dataSource = DataSource::CreateFromURI(mUri.string(), &mUriHeaders);
}
if (dataSource == NULL) {
return UNKNOWN_ERROR;
}
sp<MediaExtractor> extractor = MediaExtractor::Create(dataSource);
if (extractor == NULL) {
return UNKNOWN_ERROR;
}
dataSource->getDrmInfo(mDecryptHandle, &mDrmManagerClient);
if (mDecryptHandle != NULL) {
CHECK(mDrmManagerClient);
if (RightsStatus::RIGHTS_VALID != mDecryptHandle->status) {
notifyListener_l(MEDIA_ERROR, MEDIA_ERROR_UNKNOWN, ERROR_DRM_NO_LICENSE);
}
}
return setDataSource_l(extractor);
}
void PreviewPlayerBase::abortPrepare(status_t err) {
CHECK(err != OK);
if (mIsAsyncPrepare) {
notifyListener_l(MEDIA_ERROR, MEDIA_ERROR_UNKNOWN, err);
}
mPrepareResult = err;
mFlags &= ~(PREPARING|PREPARE_CANCELLED|PREPARING_CONNECTED);
mAsyncPrepareEvent = NULL;
mPreparedCondition.broadcast();
}
// static
bool PreviewPlayerBase::ContinuePreparation(void *cookie) {
PreviewPlayerBase *me = static_cast<PreviewPlayerBase *>(cookie);
return (me->mFlags & PREPARE_CANCELLED) == 0;
}
void PreviewPlayerBase::onPrepareAsyncEvent() {
Mutex::Autolock autoLock(mLock);
if (mFlags & PREPARE_CANCELLED) {
LOGI("prepare was cancelled before doing anything");
abortPrepare(UNKNOWN_ERROR);
return;
}
if (mUri.size() > 0) {
status_t err = finishSetDataSource_l();
if (err != OK) {
abortPrepare(err);
return;
}
}
if (mVideoTrack != NULL && mVideoSource == NULL) {
status_t err = initVideoDecoder();
if (err != OK) {
abortPrepare(err);
return;
}
}
if (mAudioTrack != NULL && mAudioSource == NULL) {
status_t err = initAudioDecoder();
if (err != OK) {
abortPrepare(err);
return;
}
}
mFlags |= PREPARING_CONNECTED;
if (mCachedSource != NULL || mRTSPController != NULL) {
postBufferingEvent_l();
} else {
finishAsyncPrepare_l();
}
}
void PreviewPlayerBase::finishAsyncPrepare_l() {
if (mIsAsyncPrepare) {
if (mVideoSource == NULL) {
notifyListener_l(MEDIA_SET_VIDEO_SIZE, 0, 0);
} else {
notifyVideoSize_l();
}
notifyListener_l(MEDIA_PREPARED);
}
mPrepareResult = OK;
mFlags &= ~(PREPARING|PREPARE_CANCELLED|PREPARING_CONNECTED);
mFlags |= PREPARED;
mAsyncPrepareEvent = NULL;
mPreparedCondition.broadcast();
}
uint32_t PreviewPlayerBase::flags() const {
return mExtractorFlags;
}
void PreviewPlayerBase::postAudioEOS(int64_t delayUs) {
Mutex::Autolock autoLock(mLock);
postCheckAudioStatusEvent_l(delayUs);
}
void PreviewPlayerBase::postAudioSeekComplete() {
Mutex::Autolock autoLock(mLock);
postCheckAudioStatusEvent_l(0 /* delayUs */);
}
status_t PreviewPlayerBase::setParameter(int key, const Parcel &request) {
return OK;
}
status_t PreviewPlayerBase::getParameter(int key, Parcel *reply) {
return OK;
}
} // namespace android