blob: a4fe3e92066bcd2e612ebe7505d0196d81e5260f [file] [log] [blame]
// Copyright (c) 2011 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "webkit/media/webmediaplayer_impl.h"
#include <limits>
#include <string>
#include "base/bind.h"
#include "base/callback.h"
#include "base/command_line.h"
#include "base/metrics/histogram.h"
#include "media/base/composite_data_source_factory.h"
#include "media/base/filter_collection.h"
#include "media/base/limits.h"
#include "media/base/media_log.h"
#include "media/base/media_switches.h"
#include "media/base/pipeline_impl.h"
#include "media/base/video_frame.h"
#include "media/filters/chunk_demuxer_factory.h"
#include "media/filters/dummy_demuxer_factory.h"
#include "media/filters/ffmpeg_audio_decoder.h"
#include "media/filters/ffmpeg_demuxer_factory.h"
#include "media/filters/ffmpeg_video_decoder.h"
#include "media/filters/null_audio_renderer.h"
#include "third_party/WebKit/Source/WebKit/chromium/public/WebRect.h"
#include "third_party/WebKit/Source/WebKit/chromium/public/WebSize.h"
#include "third_party/WebKit/Source/WebKit/chromium/public/WebURL.h"
#include "third_party/WebKit/Source/WebKit/chromium/public/WebVideoFrame.h"
#include "third_party/WebKit/Source/WebKit/chromium/public/WebView.h"
#include "v8/include/v8.h"
#include "webkit/media/buffered_data_source.h"
#include "webkit/media/media_stream_client.h"
#include "webkit/media/simple_data_source.h"
#include "webkit/media/video_renderer_impl.h"
#include "webkit/media/web_video_renderer.h"
#include "webkit/media/webmediaplayer_delegate.h"
#include "webkit/media/webmediaplayer_proxy.h"
#include "webkit/media/webvideoframe_impl.h"
using WebKit::WebCanvas;
using WebKit::WebRect;
using WebKit::WebSize;
using media::PipelineStatus;
namespace {
// Amount of extra memory used by each player instance reported to V8.
// It is not exact number -- first, it differs on different platforms,
// and second, it is very hard to calculate. Instead, use some arbitrary
// value that will cause garbage collection from time to time. We don't want
// it to happen on every allocation, but don't want 5k players to sit in memory
// either. Looks that chosen constant achieves both goals, at least for audio
// objects. (Do not worry about video objects yet, JS programs do not create
// thousands of them...)
const int kPlayerExtraMemory = 1024 * 1024;
// Limits the range of playback rate.
//
// TODO(kylep): Revisit these.
//
// Vista has substantially lower performance than XP or Windows7. If you speed
// up a video too much, it can't keep up, and rendering stops updating except on
// the time bar. For really high speeds, audio becomes a bottleneck and we just
// use up the data we have, which may not achieve the speed requested, but will
// not crash the tab.
//
// A very slow speed, ie 0.00000001x, causes the machine to lock up. (It seems
// like a busy loop). It gets unresponsive, although its not completely dead.
//
// Also our timers are not very accurate (especially for ogg), which becomes
// evident at low speeds and on Vista. Since other speeds are risky and outside
// the norms, we think 1/16x to 16x is a safe and useful range for now.
const float kMinRate = 0.0625f;
const float kMaxRate = 16.0f;
// Platform independent method for converting and rounding floating point
// seconds to an int64 timestamp.
//
// Refer to https://bugs.webkit.org/show_bug.cgi?id=52697 for details.
base::TimeDelta ConvertSecondsToTimestamp(float seconds) {
float microseconds = seconds * base::Time::kMicrosecondsPerSecond;
float integer = ceilf(microseconds);
float difference = integer - microseconds;
// Round down if difference is large enough.
if ((microseconds > 0 && difference > 0.5f) ||
(microseconds <= 0 && difference >= 0.5f)) {
integer -= 1.0f;
}
// Now we can safely cast to int64 microseconds.
return base::TimeDelta::FromMicroseconds(static_cast<int64>(integer));
}
} // namespace
namespace webkit_media {
WebMediaPlayerImpl::WebMediaPlayerImpl(
WebKit::WebMediaPlayerClient* client,
base::WeakPtr<WebMediaPlayerDelegate> delegate,
media::FilterCollection* collection,
media::MessageLoopFactory* message_loop_factory,
MediaStreamClient* media_stream_client,
media::MediaLog* media_log)
: network_state_(WebKit::WebMediaPlayer::Empty),
ready_state_(WebKit::WebMediaPlayer::HaveNothing),
main_loop_(NULL),
filter_collection_(collection),
pipeline_(NULL),
message_loop_factory_(message_loop_factory),
paused_(true),
seeking_(false),
playback_rate_(0.0f),
pending_seek_(false),
client_(client),
proxy_(NULL),
delegate_(delegate),
media_stream_client_(media_stream_client),
media_log_(media_log),
is_accelerated_compositing_active_(false),
incremented_externally_allocated_memory_(false) {
// Saves the current message loop.
DCHECK(!main_loop_);
main_loop_ = MessageLoop::current();
media_log_->AddEvent(
media_log_->CreateEvent(media::MediaLogEvent::WEBMEDIAPLAYER_CREATED));
}
bool WebMediaPlayerImpl::Initialize(
WebKit::WebFrame* frame,
bool use_simple_data_source,
scoped_refptr<WebVideoRenderer> web_video_renderer) {
DCHECK_EQ(main_loop_, MessageLoop::current());
MessageLoop* pipeline_message_loop =
message_loop_factory_->GetMessageLoop("PipelineThread");
if (!pipeline_message_loop) {
NOTREACHED() << "Could not start PipelineThread";
return false;
}
// Let V8 know we started new thread if we did not did it yet.
// Made separate task to avoid deletion of player currently being created.
// Also, delaying GC until after player starts gets rid of starting lag --
// collection happens in parallel with playing.
// TODO(enal): remove when we get rid of per-audio-stream thread.
if (!incremented_externally_allocated_memory_) {
MessageLoop::current()->PostTask(
FROM_HERE,
base::Bind(&WebMediaPlayerImpl::IncrementExternallyAllocatedMemory,
AsWeakPtr()));
}
is_accelerated_compositing_active_ =
frame->view()->isAcceleratedCompositingActive();
pipeline_ = new media::PipelineImpl(pipeline_message_loop, media_log_);
// Also we want to be notified of |main_loop_| destruction.
main_loop_->AddDestructionObserver(this);
// Creates the proxy.
proxy_ = new WebMediaPlayerProxy(main_loop_, this);
web_video_renderer->SetWebMediaPlayerProxy(proxy_);
proxy_->SetVideoRenderer(web_video_renderer);
// Set our pipeline callbacks.
pipeline_->Init(
base::Bind(&WebMediaPlayerProxy::PipelineEndedCallback,
proxy_.get()),
base::Bind(&WebMediaPlayerProxy::PipelineErrorCallback,
proxy_.get()),
base::Bind(&WebMediaPlayerProxy::NetworkEventCallback,
proxy_.get()));
// A simple data source that keeps all data in memory.
scoped_ptr<media::DataSourceFactory> simple_data_source_factory(
SimpleDataSource::CreateFactory(MessageLoop::current(), frame,
media_log_,
proxy_->GetBuildObserver()));
// A sophisticated data source that does memory caching.
scoped_ptr<media::DataSourceFactory> buffered_data_source_factory(
BufferedDataSource::CreateFactory(MessageLoop::current(), frame,
media_log_,
proxy_->GetBuildObserver()));
scoped_ptr<media::CompositeDataSourceFactory> data_source_factory(
new media::CompositeDataSourceFactory());
if (use_simple_data_source) {
data_source_factory->AddFactory(simple_data_source_factory.release());
data_source_factory->AddFactory(buffered_data_source_factory.release());
} else {
data_source_factory->AddFactory(buffered_data_source_factory.release());
data_source_factory->AddFactory(simple_data_source_factory.release());
}
scoped_ptr<media::DemuxerFactory> demuxer_factory(
new media::FFmpegDemuxerFactory(data_source_factory.release(),
pipeline_message_loop));
std::string source_url = GetClient()->sourceURL().spec();
if (!source_url.empty()) {
demuxer_factory.reset(
new media::ChunkDemuxerFactory(source_url,
demuxer_factory.release(),
proxy_));
}
filter_collection_->SetDemuxerFactory(demuxer_factory.release());
// Add in the default filter factories.
filter_collection_->AddAudioDecoder(new media::FFmpegAudioDecoder(
message_loop_factory_->GetMessageLoop("AudioDecoderThread")));
filter_collection_->AddVideoDecoder(new media::FFmpegVideoDecoder(
message_loop_factory_->GetMessageLoop("VideoDecoderThread")));
filter_collection_->AddAudioRenderer(new media::NullAudioRenderer());
return true;
}
WebMediaPlayerImpl::~WebMediaPlayerImpl() {
DCHECK_EQ(main_loop_, MessageLoop::current());
Destroy();
media_log_->AddEvent(
media_log_->CreateEvent(media::MediaLogEvent::WEBMEDIAPLAYER_DESTROYED));
if (delegate_)
delegate_->PlayerGone(this);
// Finally tell the |main_loop_| we don't want to be notified of destruction
// event.
if (main_loop_) {
main_loop_->RemoveDestructionObserver(this);
}
}
namespace {
// Helper enum for reporting scheme histograms.
enum URLSchemeForHistogram {
kUnknownURLScheme,
kMissingURLScheme,
kHttpURLScheme,
kHttpsURLScheme,
kFtpURLScheme,
kChromeExtensionURLScheme,
kJavascriptURLScheme,
kFileURLScheme,
kBlobURLScheme,
kDataURLScheme,
kMaxURLScheme = kDataURLScheme // Must be equal to highest enum value.
};
URLSchemeForHistogram URLScheme(const GURL& url) {
if (!url.has_scheme()) return kMissingURLScheme;
if (url.SchemeIs("http")) return kHttpURLScheme;
if (url.SchemeIs("https")) return kHttpsURLScheme;
if (url.SchemeIs("ftp")) return kFtpURLScheme;
if (url.SchemeIs("chrome-extension")) return kChromeExtensionURLScheme;
if (url.SchemeIs("javascript")) return kJavascriptURLScheme;
if (url.SchemeIs("file")) return kFileURLScheme;
if (url.SchemeIs("blob")) return kBlobURLScheme;
if (url.SchemeIs("data")) return kDataURLScheme;
return kUnknownURLScheme;
}
} // anonymous namespace
void WebMediaPlayerImpl::load(const WebKit::WebURL& url) {
DCHECK_EQ(main_loop_, MessageLoop::current());
DCHECK(proxy_);
UMA_HISTOGRAM_ENUMERATION("Media.URLScheme", URLScheme(url), kMaxURLScheme);
if (media_stream_client_) {
bool has_video = false;
bool has_audio = false;
scoped_refptr<media::VideoDecoder> new_decoder =
media_stream_client_->GetVideoDecoder(url, message_loop_factory_.get());
if (new_decoder.get()) {
// Remove the default decoder.
scoped_refptr<media::VideoDecoder> old_videodecoder;
filter_collection_->SelectVideoDecoder(&old_videodecoder);
filter_collection_->AddVideoDecoder(new_decoder.get());
has_video = true;
}
// TODO(wjia): add audio decoder handling when it's available.
if (has_video || has_audio)
filter_collection_->SetDemuxerFactory(
new media::DummyDemuxerFactory(has_video, has_audio));
}
// Handle any volume changes that occured before load().
setVolume(GetClient()->volume());
// Get the preload value.
setPreload(GetClient()->preload());
// Initialize the pipeline.
SetNetworkState(WebKit::WebMediaPlayer::Loading);
SetReadyState(WebKit::WebMediaPlayer::HaveNothing);
pipeline_->Start(
filter_collection_.release(),
url.spec(),
base::Bind(&WebMediaPlayerProxy::PipelineInitializationCallback,
proxy_.get()));
media_log_->AddEvent(media_log_->CreateLoadEvent(url.spec()));
}
void WebMediaPlayerImpl::cancelLoad() {
DCHECK_EQ(main_loop_, MessageLoop::current());
}
void WebMediaPlayerImpl::play() {
DCHECK_EQ(main_loop_, MessageLoop::current());
paused_ = false;
pipeline_->SetPlaybackRate(playback_rate_);
media_log_->AddEvent(media_log_->CreateEvent(media::MediaLogEvent::PLAY));
if (delegate_)
delegate_->DidPlay(this);
}
void WebMediaPlayerImpl::pause() {
DCHECK_EQ(main_loop_, MessageLoop::current());
paused_ = true;
pipeline_->SetPlaybackRate(0.0f);
paused_time_ = pipeline_->GetCurrentTime();
media_log_->AddEvent(media_log_->CreateEvent(media::MediaLogEvent::PAUSE));
if (delegate_)
delegate_->DidPause(this);
}
bool WebMediaPlayerImpl::supportsFullscreen() const {
DCHECK_EQ(main_loop_, MessageLoop::current());
return true;
}
bool WebMediaPlayerImpl::supportsSave() const {
DCHECK_EQ(main_loop_, MessageLoop::current());
return true;
}
void WebMediaPlayerImpl::seek(float seconds) {
DCHECK_EQ(main_loop_, MessageLoop::current());
// WebKit fires a seek(0) at the very start, however pipeline already does a
// seek(0) internally. Avoid doing seek(0) the second time because this will
// cause extra pre-rolling and will break servers without range request
// support.
//
// We still have to notify WebKit that time has changed otherwise
// HTMLMediaElement gets into an inconsistent state.
if (pipeline_->GetCurrentTime().ToInternalValue() == 0 && seconds == 0) {
GetClient()->timeChanged();
return;
}
if (seeking_) {
pending_seek_ = true;
pending_seek_seconds_ = seconds;
return;
}
media_log_->AddEvent(media_log_->CreateSeekEvent(seconds));
base::TimeDelta seek_time = ConvertSecondsToTimestamp(seconds);
// Update our paused time.
if (paused_) {
paused_time_ = seek_time;
}
seeking_ = true;
proxy_->DemuxerFlush();
// Kick off the asynchronous seek!
pipeline_->Seek(
seek_time,
base::Bind(&WebMediaPlayerProxy::PipelineSeekCallback,
proxy_.get()));
}
void WebMediaPlayerImpl::setEndTime(float seconds) {
DCHECK_EQ(main_loop_, MessageLoop::current());
// TODO(hclam): add method call when it has been implemented.
return;
}
void WebMediaPlayerImpl::setRate(float rate) {
DCHECK_EQ(main_loop_, MessageLoop::current());
// TODO(kylep): Remove when support for negatives is added. Also, modify the
// following checks so rewind uses reasonable values also.
if (rate < 0.0f)
return;
// Limit rates to reasonable values by clamping.
if (rate != 0.0f) {
if (rate < kMinRate)
rate = kMinRate;
else if (rate > kMaxRate)
rate = kMaxRate;
}
playback_rate_ = rate;
if (!paused_) {
pipeline_->SetPlaybackRate(rate);
}
}
void WebMediaPlayerImpl::setVolume(float volume) {
DCHECK_EQ(main_loop_, MessageLoop::current());
pipeline_->SetVolume(volume);
}
void WebMediaPlayerImpl::setVisible(bool visible) {
DCHECK_EQ(main_loop_, MessageLoop::current());
// TODO(hclam): add appropriate method call when pipeline has it implemented.
return;
}
#define COMPILE_ASSERT_MATCHING_ENUM(webkit_name, chromium_name) \
COMPILE_ASSERT(static_cast<int>(WebKit::WebMediaPlayer::webkit_name) == \
static_cast<int>(media::chromium_name), \
mismatching_enums)
COMPILE_ASSERT_MATCHING_ENUM(None, NONE);
COMPILE_ASSERT_MATCHING_ENUM(MetaData, METADATA);
COMPILE_ASSERT_MATCHING_ENUM(Auto, AUTO);
void WebMediaPlayerImpl::setPreload(WebKit::WebMediaPlayer::Preload preload) {
DCHECK_EQ(main_loop_, MessageLoop::current());
pipeline_->SetPreload(static_cast<media::Preload>(preload));
}
bool WebMediaPlayerImpl::totalBytesKnown() {
DCHECK_EQ(main_loop_, MessageLoop::current());
return pipeline_->GetTotalBytes() != 0;
}
bool WebMediaPlayerImpl::hasVideo() const {
DCHECK_EQ(main_loop_, MessageLoop::current());
return pipeline_->HasVideo();
}
bool WebMediaPlayerImpl::hasAudio() const {
DCHECK_EQ(main_loop_, MessageLoop::current());
return pipeline_->HasAudio();
}
WebKit::WebSize WebMediaPlayerImpl::naturalSize() const {
DCHECK_EQ(main_loop_, MessageLoop::current());
gfx::Size size;
pipeline_->GetNaturalVideoSize(&size);
return WebKit::WebSize(size);
}
bool WebMediaPlayerImpl::paused() const {
DCHECK_EQ(main_loop_, MessageLoop::current());
return pipeline_->GetPlaybackRate() == 0.0f;
}
bool WebMediaPlayerImpl::seeking() const {
DCHECK_EQ(main_loop_, MessageLoop::current());
if (ready_state_ == WebKit::WebMediaPlayer::HaveNothing)
return false;
return seeking_;
}
float WebMediaPlayerImpl::duration() const {
DCHECK_EQ(main_loop_, MessageLoop::current());
base::TimeDelta duration = pipeline_->GetMediaDuration();
if (duration.InMicroseconds() == media::Limits::kMaxTimeInMicroseconds)
return std::numeric_limits<float>::infinity();
return static_cast<float>(duration.InSecondsF());
}
float WebMediaPlayerImpl::currentTime() const {
DCHECK_EQ(main_loop_, MessageLoop::current());
if (paused_) {
return static_cast<float>(paused_time_.InSecondsF());
}
return static_cast<float>(pipeline_->GetCurrentTime().InSecondsF());
}
int WebMediaPlayerImpl::dataRate() const {
DCHECK_EQ(main_loop_, MessageLoop::current());
// TODO(hclam): Add this method call if pipeline has it in the interface.
return 0;
}
WebKit::WebMediaPlayer::NetworkState WebMediaPlayerImpl::networkState() const {
return network_state_;
}
WebKit::WebMediaPlayer::ReadyState WebMediaPlayerImpl::readyState() const {
return ready_state_;
}
const WebKit::WebTimeRanges& WebMediaPlayerImpl::buffered() {
DCHECK_EQ(main_loop_, MessageLoop::current());
// Update buffered_ with the most recent buffered time.
if (buffered_.size() > 0) {
float buffered_time = static_cast<float>(
pipeline_->GetBufferedTime().InSecondsF());
if (buffered_time >= buffered_[0].start)
buffered_[0].end = buffered_time;
}
return buffered_;
}
float WebMediaPlayerImpl::maxTimeSeekable() const {
DCHECK_EQ(main_loop_, MessageLoop::current());
// If we are performing streaming, we report that we cannot seek at all.
// We are using this flag to indicate if the data source supports seeking
// or not. We should be able to seek even if we are performing streaming.
// TODO(hclam): We need to update this when we have better caching.
if (pipeline_->IsStreaming())
return 0.0f;
return static_cast<float>(pipeline_->GetMediaDuration().InSecondsF());
}
unsigned long long WebMediaPlayerImpl::bytesLoaded() const {
DCHECK_EQ(main_loop_, MessageLoop::current());
return pipeline_->GetBufferedBytes();
}
unsigned long long WebMediaPlayerImpl::totalBytes() const {
DCHECK_EQ(main_loop_, MessageLoop::current());
return pipeline_->GetTotalBytes();
}
void WebMediaPlayerImpl::setSize(const WebSize& size) {
DCHECK_EQ(main_loop_, MessageLoop::current());
DCHECK(proxy_);
proxy_->SetSize(gfx::Rect(0, 0, size.width, size.height));
}
void WebMediaPlayerImpl::paint(WebCanvas* canvas,
const WebRect& rect) {
DCHECK_EQ(main_loop_, MessageLoop::current());
DCHECK(proxy_);
#if WEBKIT_USING_SKIA
proxy_->Paint(canvas, rect);
#elif WEBKIT_USING_CG
// Get the current scaling in X and Y.
CGAffineTransform mat = CGContextGetCTM(canvas);
float scale_x = sqrt(mat.a * mat.a + mat.b * mat.b);
float scale_y = sqrt(mat.c * mat.c + mat.d * mat.d);
float inverse_scale_x = SkScalarNearlyZero(scale_x) ? 0.0f : 1.0f / scale_x;
float inverse_scale_y = SkScalarNearlyZero(scale_y) ? 0.0f : 1.0f / scale_y;
int scaled_width = static_cast<int>(rect.width * fabs(scale_x));
int scaled_height = static_cast<int>(rect.height * fabs(scale_y));
// Make sure we don't create a huge canvas.
// TODO(hclam): Respect the aspect ratio.
if (scaled_width > static_cast<int>(media::Limits::kMaxCanvas))
scaled_width = media::Limits::kMaxCanvas;
if (scaled_height > static_cast<int>(media::Limits::kMaxCanvas))
scaled_height = media::Limits::kMaxCanvas;
// If there is no preexisting platform canvas, or if the size has
// changed, recreate the canvas. This is to avoid recreating the bitmap
// buffer over and over for each frame of video.
if (!skia_canvas_.get() ||
skia_canvas_->getDevice()->width() != scaled_width ||
skia_canvas_->getDevice()->height() != scaled_height) {
skia_canvas_.reset(
new skia::PlatformCanvas(scaled_width, scaled_height, true));
}
// Draw to our temporary skia canvas.
gfx::Rect normalized_rect(scaled_width, scaled_height);
proxy_->Paint(skia_canvas_.get(), normalized_rect);
// The mac coordinate system is flipped vertical from the normal skia
// coordinates. During painting of the frame, flip the coordinates
// system and, for simplicity, also translate the clip rectangle to
// start at 0,0.
CGContextSaveGState(canvas);
CGContextTranslateCTM(canvas, rect.x, rect.height + rect.y);
CGContextScaleCTM(canvas, inverse_scale_x, -inverse_scale_y);
// We need a local variable CGRect version for DrawToContext.
CGRect normalized_cgrect =
CGRectMake(normalized_rect.x(), normalized_rect.y(),
normalized_rect.width(), normalized_rect.height());
// Copy the frame rendered to our temporary skia canvas onto the passed in
// canvas.
skia::DrawToNativeContext(skia_canvas_.get(), canvas, 0, 0,
&normalized_cgrect);
CGContextRestoreGState(canvas);
#else
NOTIMPLEMENTED() << "We only support rendering to skia or CG";
#endif
}
bool WebMediaPlayerImpl::hasSingleSecurityOrigin() const {
if (proxy_)
return proxy_->HasSingleOrigin();
return true;
}
WebKit::WebMediaPlayer::MovieLoadType
WebMediaPlayerImpl::movieLoadType() const {
DCHECK_EQ(main_loop_, MessageLoop::current());
// TODO(hclam): If the pipeline is performing streaming, we say that this is
// a live stream. But instead it should be a StoredStream if we have proper
// caching.
if (pipeline_->IsStreaming())
return WebKit::WebMediaPlayer::LiveStream;
return WebKit::WebMediaPlayer::Unknown;
}
float WebMediaPlayerImpl::mediaTimeForTimeValue(float timeValue) const {
return ConvertSecondsToTimestamp(timeValue).InSecondsF();
}
unsigned WebMediaPlayerImpl::decodedFrameCount() const {
DCHECK_EQ(main_loop_, MessageLoop::current());
media::PipelineStatistics stats = pipeline_->GetStatistics();
return stats.video_frames_decoded;
}
unsigned WebMediaPlayerImpl::droppedFrameCount() const {
DCHECK_EQ(main_loop_, MessageLoop::current());
media::PipelineStatistics stats = pipeline_->GetStatistics();
return stats.video_frames_dropped;
}
unsigned WebMediaPlayerImpl::audioDecodedByteCount() const {
DCHECK_EQ(main_loop_, MessageLoop::current());
media::PipelineStatistics stats = pipeline_->GetStatistics();
return stats.audio_bytes_decoded;
}
unsigned WebMediaPlayerImpl::videoDecodedByteCount() const {
DCHECK_EQ(main_loop_, MessageLoop::current());
media::PipelineStatistics stats = pipeline_->GetStatistics();
return stats.video_bytes_decoded;
}
WebKit::WebVideoFrame* WebMediaPlayerImpl::getCurrentFrame() {
scoped_refptr<media::VideoFrame> video_frame;
proxy_->GetCurrentFrame(&video_frame);
if (video_frame.get())
return new WebVideoFrameImpl(video_frame);
return NULL;
}
void WebMediaPlayerImpl::putCurrentFrame(
WebKit::WebVideoFrame* web_video_frame) {
if (web_video_frame) {
scoped_refptr<media::VideoFrame> video_frame(
WebVideoFrameImpl::toVideoFrame(web_video_frame));
proxy_->PutCurrentFrame(video_frame);
delete web_video_frame;
}
}
bool WebMediaPlayerImpl::sourceAppend(const unsigned char* data,
unsigned length) {
DCHECK_EQ(main_loop_, MessageLoop::current());
return proxy_->DemuxerAppend(data, length);
}
void WebMediaPlayerImpl::sourceEndOfStream(
WebKit::WebMediaPlayer::EndOfStreamStatus status) {
DCHECK_EQ(main_loop_, MessageLoop::current());
media::PipelineStatus pipeline_status = media::PIPELINE_OK;
switch(status) {
case WebKit::WebMediaPlayer::EosNoError:
break;
case WebKit::WebMediaPlayer::EosNetworkError:
pipeline_status = media::PIPELINE_ERROR_NETWORK;
break;
case WebKit::WebMediaPlayer::EosDecodeError:
pipeline_status = media::PIPELINE_ERROR_DECODE;
break;
default:
NOTIMPLEMENTED();
}
proxy_->DemuxerEndOfStream(pipeline_status);
}
void WebMediaPlayerImpl::WillDestroyCurrentMessageLoop() {
Destroy();
main_loop_ = NULL;
}
void WebMediaPlayerImpl::Repaint() {
DCHECK_EQ(main_loop_, MessageLoop::current());
GetClient()->repaint();
}
void WebMediaPlayerImpl::OnPipelineInitialize(PipelineStatus status) {
DCHECK_EQ(main_loop_, MessageLoop::current());
if (status == media::PIPELINE_OK) {
// Only keep one time range starting from 0.
WebKit::WebTimeRanges new_buffered(static_cast<size_t>(1));
new_buffered[0].start = 0.0f;
new_buffered[0].end =
static_cast<float>(pipeline_->GetMediaDuration().InSecondsF());
buffered_.swap(new_buffered);
if (hasVideo()) {
UMA_HISTOGRAM_BOOLEAN("Media.AcceleratedCompositingActive",
is_accelerated_compositing_active_);
}
if (pipeline_->IsLoaded()) {
SetNetworkState(WebKit::WebMediaPlayer::Loaded);
}
// Since we have initialized the pipeline, say we have everything otherwise
// we'll remain either loading/idle.
// TODO(hclam): change this to report the correct status.
SetReadyState(WebKit::WebMediaPlayer::HaveMetadata);
SetReadyState(WebKit::WebMediaPlayer::HaveEnoughData);
} else {
// TODO(hclam): should use |status| to determine the state
// properly and reports error using MediaError.
// WebKit uses FormatError to indicate an error for bogus URL or bad file.
// Since we are at the initialization stage we can safely treat every error
// as format error. Should post a task to call to |webmediaplayer_|.
SetNetworkState(WebKit::WebMediaPlayer::FormatError);
}
// Repaint to trigger UI update.
Repaint();
}
void WebMediaPlayerImpl::OnPipelineSeek(PipelineStatus status) {
DCHECK_EQ(main_loop_, MessageLoop::current());
seeking_ = false;
if (pending_seek_) {
pending_seek_ = false;
seek(pending_seek_seconds_);
return;
}
if (status == media::PIPELINE_OK) {
// Update our paused time.
if (paused_) {
paused_time_ = pipeline_->GetCurrentTime();
}
SetReadyState(WebKit::WebMediaPlayer::HaveEnoughData);
GetClient()->timeChanged();
}
}
void WebMediaPlayerImpl::OnPipelineEnded(PipelineStatus status) {
DCHECK_EQ(main_loop_, MessageLoop::current());
if (status == media::PIPELINE_OK) {
GetClient()->timeChanged();
}
}
void WebMediaPlayerImpl::OnPipelineError(PipelineStatus error) {
DCHECK_EQ(main_loop_, MessageLoop::current());
switch (error) {
case media::PIPELINE_OK:
LOG(DFATAL) << "PIPELINE_OK isn't an error!";
break;
case media::PIPELINE_ERROR_NETWORK:
SetNetworkState(WebMediaPlayer::NetworkError);
break;
case media::PIPELINE_ERROR_INITIALIZATION_FAILED:
case media::PIPELINE_ERROR_REQUIRED_FILTER_MISSING:
case media::PIPELINE_ERROR_COULD_NOT_RENDER:
case media::PIPELINE_ERROR_URL_NOT_FOUND:
case media::PIPELINE_ERROR_READ:
case media::DEMUXER_ERROR_COULD_NOT_OPEN:
case media::DEMUXER_ERROR_COULD_NOT_PARSE:
case media::DEMUXER_ERROR_NO_SUPPORTED_STREAMS:
case media::DEMUXER_ERROR_COULD_NOT_CREATE_THREAD:
case media::DECODER_ERROR_NOT_SUPPORTED:
case media::DATASOURCE_ERROR_URL_NOT_SUPPORTED:
// Format error.
SetNetworkState(WebMediaPlayer::FormatError);
break;
case media::PIPELINE_ERROR_DECODE:
case media::PIPELINE_ERROR_ABORT:
case media::PIPELINE_ERROR_OUT_OF_MEMORY:
case media::PIPELINE_ERROR_AUDIO_HARDWARE:
case media::PIPELINE_ERROR_OPERATION_PENDING:
case media::PIPELINE_ERROR_INVALID_STATE:
// Decode error.
SetNetworkState(WebMediaPlayer::DecodeError);
break;
}
// Repaint to trigger UI update.
Repaint();
}
void WebMediaPlayerImpl::OnNetworkEvent(bool is_downloading_data) {
DCHECK_EQ(main_loop_, MessageLoop::current());
if (is_downloading_data)
SetNetworkState(WebKit::WebMediaPlayer::Loading);
else
SetNetworkState(WebKit::WebMediaPlayer::Idle);
}
void WebMediaPlayerImpl::OnDemuxerOpened() {
DCHECK_EQ(main_loop_, MessageLoop::current());
GetClient()->sourceOpened();
}
void WebMediaPlayerImpl::SetNetworkState(
WebKit::WebMediaPlayer::NetworkState state) {
DCHECK_EQ(main_loop_, MessageLoop::current());
// Always notify to ensure client has the latest value.
network_state_ = state;
GetClient()->networkStateChanged();
}
void WebMediaPlayerImpl::SetReadyState(
WebKit::WebMediaPlayer::ReadyState state) {
DCHECK_EQ(main_loop_, MessageLoop::current());
// Always notify to ensure client has the latest value.
ready_state_ = state;
GetClient()->readyStateChanged();
}
void WebMediaPlayerImpl::Destroy() {
DCHECK_EQ(main_loop_, MessageLoop::current());
// Tell the data source to abort any pending reads so that the pipeline is
// not blocked when issuing stop commands to the other filters.
if (proxy_) {
proxy_->AbortDataSources();
proxy_->DemuxerShutdown();
}
// Make sure to kill the pipeline so there's no more media threads running.
// Note: stopping the pipeline might block for a long time.
if (pipeline_) {
media::PipelineStatusNotification note;
pipeline_->Stop(note.Callback());
note.Wait();
// Let V8 know we are not using extra resources anymore.
if (incremented_externally_allocated_memory_) {
v8::V8::AdjustAmountOfExternalAllocatedMemory(-kPlayerExtraMemory);
incremented_externally_allocated_memory_ = false;
}
}
message_loop_factory_.reset();
// And then detach the proxy, it may live on the render thread for a little
// longer until all the tasks are finished.
if (proxy_) {
proxy_->Detach();
proxy_ = NULL;
}
}
WebKit::WebMediaPlayerClient* WebMediaPlayerImpl::GetClient() {
DCHECK_EQ(main_loop_, MessageLoop::current());
DCHECK(client_);
return client_;
}
void WebMediaPlayerImpl::IncrementExternallyAllocatedMemory() {
DCHECK_EQ(main_loop_, MessageLoop::current());
incremented_externally_allocated_memory_ = true;
v8::V8::AdjustAmountOfExternalAllocatedMemory(kPlayerExtraMemory);
}
} // namespace webkit_media