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android / platform / external / chromium_org / 6680793 / . / media / base / android / media_source_player.cc
blob: b727dd9b0ad05b82f9ec58f750a751153e805560 [file] [log] [blame]
// Copyright (c) 2013 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 "media/base/android/media_source_player.h"
#include <limits>
#include "base/android/jni_android.h"
#include "base/android/jni_string.h"
#include "base/barrier_closure.h"
#include "base/basictypes.h"
#include "base/bind.h"
#include "base/callback_helpers.h"
#include "base/debug/trace_event.h"
#include "base/logging.h"
#include "base/strings/string_number_conversions.h"
#include "media/base/android/audio_decoder_job.h"
#include "media/base/android/media_drm_bridge.h"
#include "media/base/android/media_player_manager.h"
#include "media/base/android/video_decoder_job.h"
#include "media/base/audio_timestamp_helper.h"
#include "media/base/buffers.h"
namespace {
// Use 16bit PCM for audio output. Keep this value in sync with the output
// format we passed to AudioTrack in MediaCodecBridge.
const int kBytesPerAudioOutputSample = 2;
}
namespace media {
// static
bool MediaSourcePlayer::IsTypeSupported(
const std::vector<uint8>& scheme_uuid,
const std::string& security_level,
const std::string& container,
const std::vector<std::string>& codecs) {
if (!MediaDrmBridge::IsCryptoSchemeSupported(scheme_uuid, container)) {
DVLOG(1) << "UUID and container '" << container << "' not supported.";
return false;
}
if (!MediaDrmBridge::IsSecurityLevelSupported(scheme_uuid, security_level)) {
DVLOG(1) << "UUID and security level '" << security_level
<< "' not supported.";
return false;
}
bool is_secure = MediaDrmBridge::IsSecureDecoderRequired(security_level);
for (size_t i = 0; i < codecs.size(); ++i) {
if (!MediaCodecBridge::CanDecode(codecs[i], is_secure)) {
DVLOG(1) << "Codec '" << codecs[i] << "' "
<< (is_secure ? "in secure mode " : "") << "not supported.";
return false;
}
}
return true;
}
MediaSourcePlayer::MediaSourcePlayer(
int player_id,
MediaPlayerManager* manager,
scoped_ptr<DemuxerAndroid> demuxer)
: MediaPlayerAndroid(player_id, manager),
demuxer_(demuxer.Pass()),
pending_event_(NO_EVENT_PENDING),
width_(0),
height_(0),
audio_codec_(kUnknownAudioCodec),
video_codec_(kUnknownVideoCodec),
num_channels_(0),
sampling_rate_(0),
reached_audio_eos_(false),
reached_video_eos_(false),
playing_(false),
is_audio_encrypted_(false),
is_video_encrypted_(false),
volume_(-1.0),
clock_(&default_tick_clock_),
next_video_data_is_iframe_(true),
doing_browser_seek_(false),
pending_seek_(false),
reconfig_audio_decoder_(false),
reconfig_video_decoder_(false),
weak_this_(this),
drm_bridge_(NULL),
is_waiting_for_key_(false) {
demuxer_->Initialize(this);
clock_.SetMaxTime(base::TimeDelta());
}
MediaSourcePlayer::~MediaSourcePlayer() {
Release();
}
void MediaSourcePlayer::SetVideoSurface(gfx::ScopedJavaSurface surface) {
// For an empty surface, always pass it to the decoder job so that it
// can detach from the current one. Otherwise, don't pass an unprotected
// surface if the video content requires a protected one.
if (!surface.IsEmpty() &&
IsProtectedSurfaceRequired() && !surface.is_protected()) {
return;
}
surface_ = surface.Pass();
// If there is a pending surface change event, just wait for it to be
// processed.
if (IsEventPending(SURFACE_CHANGE_EVENT_PENDING))
return;
// Eventual processing of surface change will take care of feeding the new
// video decoder initially with I-frame. See b/8950387.
SetPendingEvent(SURFACE_CHANGE_EVENT_PENDING);
// If seek is already pending, processing of the pending surface change
// event will occur in OnDemuxerSeekDone().
if (IsEventPending(SEEK_EVENT_PENDING))
return;
// If video config change is already pending, processing of the pending
// surface change event will occur in OnDemuxerConfigsAvailable().
if (reconfig_video_decoder_ && IsEventPending(CONFIG_CHANGE_EVENT_PENDING))
return;
// Otherwise we need to trigger pending event processing now.
ProcessPendingEvents();
}
void MediaSourcePlayer::ScheduleSeekEventAndStopDecoding(
const base::TimeDelta& seek_time) {
DVLOG(1) << __FUNCTION__ << "(" << seek_time.InSecondsF() << ")";
DCHECK(!IsEventPending(SEEK_EVENT_PENDING));
pending_seek_ = false;
clock_.SetTime(seek_time, seek_time);
if (audio_timestamp_helper_)
audio_timestamp_helper_->SetBaseTimestamp(seek_time);
if (audio_decoder_job_ && audio_decoder_job_->is_decoding())
audio_decoder_job_->StopDecode();
if (video_decoder_job_ && video_decoder_job_->is_decoding())
video_decoder_job_->StopDecode();
SetPendingEvent(SEEK_EVENT_PENDING);
ProcessPendingEvents();
}
void MediaSourcePlayer::BrowserSeekToCurrentTime() {
DVLOG(1) << __FUNCTION__;
DCHECK(!IsEventPending(SEEK_EVENT_PENDING));
doing_browser_seek_ = true;
ScheduleSeekEventAndStopDecoding(GetCurrentTime());
}
bool MediaSourcePlayer::Seekable() {
// If the duration TimeDelta, converted to milliseconds from microseconds,
// is >= 2^31, then the media is assumed to be unbounded and unseekable.
// 2^31 is the bound due to java player using 32-bit integer for time
// values at millisecond resolution.
return duration_ <
base::TimeDelta::FromMilliseconds(std::numeric_limits<int32>::max());
}
void MediaSourcePlayer::Start() {
DVLOG(1) << __FUNCTION__;
playing_ = true;
if (IsProtectedSurfaceRequired())
manager()->OnProtectedSurfaceRequested(player_id());
StartInternal();
}
void MediaSourcePlayer::Pause(bool is_media_related_action) {
DVLOG(1) << __FUNCTION__;
// Since decoder jobs have their own thread, decoding is not fully paused
// until all the decoder jobs call MediaDecoderCallback(). It is possible
// that Start() is called while the player is waiting for
// MediaDecoderCallback(). In that case, decoding will continue when
// MediaDecoderCallback() is called.
playing_ = false;
start_time_ticks_ = base::TimeTicks();
}
bool MediaSourcePlayer::IsPlaying() {
return playing_;
}
int MediaSourcePlayer::GetVideoWidth() {
return width_;
}
int MediaSourcePlayer::GetVideoHeight() {
return height_;
}
void MediaSourcePlayer::SeekTo(const base::TimeDelta& timestamp) {
DVLOG(1) << __FUNCTION__ << "(" << timestamp.InSecondsF() << ")";
if (IsEventPending(SEEK_EVENT_PENDING)) {
DCHECK(doing_browser_seek_) << "SeekTo while SeekTo in progress";
DCHECK(!pending_seek_) << "SeekTo while SeekTo pending browser seek";
// There is a browser seek currently in progress to obtain I-frame to feed
// a newly constructed video decoder. Remember this real seek request so
// it can be initiated once OnDemuxerSeekDone() occurs for the browser seek.
pending_seek_ = true;
pending_seek_time_ = timestamp;
return;
}
doing_browser_seek_ = false;
ScheduleSeekEventAndStopDecoding(timestamp);
}
base::TimeDelta MediaSourcePlayer::GetCurrentTime() {
return clock_.Elapsed();
}
base::TimeDelta MediaSourcePlayer::GetDuration() {
return duration_;
}
void MediaSourcePlayer::Release() {
DVLOG(1) << __FUNCTION__;
// Allow pending seeks and config changes to survive this Release().
// If previously pending a prefetch done event, or a job was still decoding,
// then at end of Release() we need to ProcessPendingEvents() to process any
// seek or config change that was blocked by the prefetch or decode.
// TODO(qinmin/wolenetz): Maintain channel state to not double-request data
// or drop data received across Release()+Start(). See http://crbug.com/306314
// and http://crbug.com/304234.
bool process_pending_events = false;
process_pending_events = IsEventPending(PREFETCH_DONE_EVENT_PENDING) ||
(audio_decoder_job_ && audio_decoder_job_->is_decoding()) ||
(video_decoder_job_ && video_decoder_job_->is_decoding());
// Clear all the pending events except seeks and config changes.
pending_event_ &= (SEEK_EVENT_PENDING | CONFIG_CHANGE_EVENT_PENDING);
audio_decoder_job_.reset();
ResetVideoDecoderJob();
// Prevent job re-creation attempts in OnDemuxerConfigsAvailable()
reconfig_audio_decoder_ = false;
reconfig_video_decoder_ = false;
// Prevent player restart, including job re-creation attempts.
playing_ = false;
decoder_starvation_callback_.Cancel();
surface_ = gfx::ScopedJavaSurface();
manager()->ReleaseMediaResources(player_id());
if (process_pending_events) {
DVLOG(1) << __FUNCTION__ << " : Resuming seek or config change processing";
ProcessPendingEvents();
}
}
void MediaSourcePlayer::SetVolume(double volume) {
volume_ = volume;
SetVolumeInternal();
}
void MediaSourcePlayer::OnKeyAdded() {
DVLOG(1) << __FUNCTION__;
if (!is_waiting_for_key_)
return;
is_waiting_for_key_ = false;
if (playing_)
StartInternal();
}
bool MediaSourcePlayer::CanPause() {
return Seekable();
}
bool MediaSourcePlayer::CanSeekForward() {
return Seekable();
}
bool MediaSourcePlayer::CanSeekBackward() {
return Seekable();
}
bool MediaSourcePlayer::IsPlayerReady() {
return audio_decoder_job_ || video_decoder_job_;
}
void MediaSourcePlayer::StartInternal() {
DVLOG(1) << __FUNCTION__;
// If there are pending events, wait for them finish.
if (pending_event_ != NO_EVENT_PENDING)
return;
// When we start, we'll have new demuxed data coming in. This new data could
// be clear (not encrypted) or encrypted with different keys. So
// |is_waiting_for_key_| condition may not be true anymore.
is_waiting_for_key_ = false;
// Create decoder jobs if they are not created
ConfigureAudioDecoderJob();
ConfigureVideoDecoderJob();
// If one of the decoder job is not ready, do nothing.
if ((HasAudio() && !audio_decoder_job_) ||
(HasVideo() && !video_decoder_job_)) {
return;
}
SetPendingEvent(PREFETCH_REQUEST_EVENT_PENDING);
ProcessPendingEvents();
}
void MediaSourcePlayer::OnDemuxerConfigsAvailable(
const DemuxerConfigs& configs) {
DVLOG(1) << __FUNCTION__;
duration_ = base::TimeDelta::FromMilliseconds(configs.duration_ms);
clock_.SetDuration(duration_);
audio_codec_ = configs.audio_codec;
num_channels_ = configs.audio_channels;
sampling_rate_ = configs.audio_sampling_rate;
is_audio_encrypted_ = configs.is_audio_encrypted;
audio_extra_data_ = configs.audio_extra_data;
if (HasAudio()) {
DCHECK_GT(num_channels_, 0);
audio_timestamp_helper_.reset(new AudioTimestampHelper(sampling_rate_));
audio_timestamp_helper_->SetBaseTimestamp(GetCurrentTime());
} else {
audio_timestamp_helper_.reset();
}
video_codec_ = configs.video_codec;
width_ = configs.video_size.width();
height_ = configs.video_size.height();
is_video_encrypted_ = configs.is_video_encrypted;
manager()->OnMediaMetadataChanged(
player_id(), duration_, width_, height_, true);
if (IsEventPending(CONFIG_CHANGE_EVENT_PENDING)) {
if (reconfig_audio_decoder_)
ConfigureAudioDecoderJob();
if (reconfig_video_decoder_)
ConfigureVideoDecoderJob();
ClearPendingEvent(CONFIG_CHANGE_EVENT_PENDING);
// Resume decoding after the config change if we are still playing.
if (playing_)
StartInternal();
}
}
void MediaSourcePlayer::OnDemuxerDataAvailable(const DemuxerData& data) {
DVLOG(1) << __FUNCTION__ << "(" << data.type << ")";
DCHECK_LT(0u, data.access_units.size());
if (data.type == DemuxerStream::AUDIO && audio_decoder_job_) {
audio_decoder_job_->OnDataReceived(data);
} else if (data.type == DemuxerStream::VIDEO) {
next_video_data_is_iframe_ = false;
if (video_decoder_job_)
video_decoder_job_->OnDataReceived(data);
}
}
void MediaSourcePlayer::OnDemuxerDurationChanged(base::TimeDelta duration) {
duration_ = duration;
clock_.SetDuration(duration_);
}
base::android::ScopedJavaLocalRef<jobject> MediaSourcePlayer::GetMediaCrypto() {
base::android::ScopedJavaLocalRef<jobject> media_crypto;
if (drm_bridge_)
media_crypto = drm_bridge_->GetMediaCrypto();
return media_crypto;
}
void MediaSourcePlayer::OnMediaCryptoReady() {
DCHECK(!drm_bridge_->GetMediaCrypto().is_null());
drm_bridge_->SetMediaCryptoReadyCB(base::Closure());
if (playing_)
StartInternal();
}
void MediaSourcePlayer::SetDrmBridge(MediaDrmBridge* drm_bridge) {
// Currently we don't support DRM change during the middle of playback, even
// if the player is paused.
// TODO(qinmin): support DRM change after playback has started.
// http://crbug.com/253792.
if (GetCurrentTime() > base::TimeDelta()) {
VLOG(0) << "Setting DRM bridge after playback has started. "
<< "This is not well supported!";
}
drm_bridge_ = drm_bridge;
if (drm_bridge_->GetMediaCrypto().is_null()) {
drm_bridge_->SetMediaCryptoReadyCB(base::Bind(
&MediaSourcePlayer::OnMediaCryptoReady, weak_this_.GetWeakPtr()));
return;
}
if (playing_)
StartInternal();
}
void MediaSourcePlayer::OnDemuxerSeekDone(
const base::TimeDelta& actual_browser_seek_time) {
DVLOG(1) << __FUNCTION__;
ClearPendingEvent(SEEK_EVENT_PENDING);
if (IsEventPending(PREFETCH_REQUEST_EVENT_PENDING))
ClearPendingEvent(PREFETCH_REQUEST_EVENT_PENDING);
next_video_data_is_iframe_ = true;
if (pending_seek_) {
DVLOG(1) << __FUNCTION__ << "processing pending seek";
DCHECK(doing_browser_seek_);
pending_seek_ = false;
SeekTo(pending_seek_time_);
return;
}
// It is possible that a browser seek to I-frame had to seek to a buffered
// I-frame later than the requested one due to data removal or GC. Update
// player clock to the actual seek target.
if (doing_browser_seek_) {
DCHECK(actual_browser_seek_time != kNoTimestamp());
// A browser seek must not jump into the past. Ideally, it seeks to the
// requested time, but it might jump into the future.
DCHECK(actual_browser_seek_time >= GetCurrentTime());
DVLOG(1) << __FUNCTION__ << " : setting clock to actual browser seek time: "
<< actual_browser_seek_time.InSecondsF();
clock_.SetTime(actual_browser_seek_time, actual_browser_seek_time);
if (audio_timestamp_helper_)
audio_timestamp_helper_->SetBaseTimestamp(actual_browser_seek_time);
}
reached_audio_eos_ = false;
reached_video_eos_ = false;
base::TimeDelta current_time = GetCurrentTime();
// TODO(qinmin): Simplify the logic by using |start_presentation_timestamp_|
// to preroll media decoder jobs. Currently |start_presentation_timestamp_|
// is calculated from decoder output, while preroll relies on the access
// unit's timestamp. There are some differences between the two.
preroll_timestamp_ = current_time;
if (audio_decoder_job_)
audio_decoder_job_->BeginPrerolling(preroll_timestamp_);
if (video_decoder_job_)
video_decoder_job_->BeginPrerolling(preroll_timestamp_);
if (!doing_browser_seek_)
manager()->OnSeekComplete(player_id(), current_time);
ProcessPendingEvents();
}
void MediaSourcePlayer::UpdateTimestamps(
const base::TimeDelta& presentation_timestamp, size_t audio_output_bytes) {
base::TimeDelta new_max_time = presentation_timestamp;
if (audio_output_bytes > 0) {
audio_timestamp_helper_->AddFrames(
audio_output_bytes / (kBytesPerAudioOutputSample * num_channels_));
new_max_time = audio_timestamp_helper_->GetTimestamp();
}
clock_.SetMaxTime(new_max_time);
manager()->OnTimeUpdate(player_id(), GetCurrentTime());
}
void MediaSourcePlayer::ProcessPendingEvents() {
DVLOG(1) << __FUNCTION__ << " : 0x" << std::hex << pending_event_;
// Wait for all the decoding jobs to finish before processing pending tasks.
if (video_decoder_job_ && video_decoder_job_->is_decoding()) {
DVLOG(1) << __FUNCTION__ << " : A video job is still decoding.";
return;
}
if (audio_decoder_job_ && audio_decoder_job_->is_decoding()) {
DVLOG(1) << __FUNCTION__ << " : An audio job is still decoding.";
return;
}
if (IsEventPending(PREFETCH_DONE_EVENT_PENDING)) {
DVLOG(1) << __FUNCTION__ << " : PREFETCH_DONE still pending.";
return;
}
if (IsEventPending(SEEK_EVENT_PENDING)) {
DVLOG(1) << __FUNCTION__ << " : Handling SEEK_EVENT";
ClearDecodingData();
demuxer_->RequestDemuxerSeek(GetCurrentTime(), doing_browser_seek_);
return;
}
start_time_ticks_ = base::TimeTicks();
if (IsEventPending(CONFIG_CHANGE_EVENT_PENDING)) {
DVLOG(1) << __FUNCTION__ << " : Handling CONFIG_CHANGE_EVENT.";
DCHECK(reconfig_audio_decoder_ || reconfig_video_decoder_);
demuxer_->RequestDemuxerConfigs();
return;
}
if (IsEventPending(SURFACE_CHANGE_EVENT_PENDING)) {
DVLOG(1) << __FUNCTION__ << " : Handling SURFACE_CHANGE_EVENT.";
// Setting a new surface will require a new MediaCodec to be created.
ResetVideoDecoderJob();
ConfigureVideoDecoderJob();
// Return early if we can't successfully configure a new video decoder job
// yet.
if (HasVideo() && !video_decoder_job_)
return;
}
if (IsEventPending(PREFETCH_REQUEST_EVENT_PENDING)) {
DVLOG(1) << __FUNCTION__ << " : Handling PREFETCH_REQUEST_EVENT.";
DCHECK(audio_decoder_job_ || AudioFinished());
DCHECK(video_decoder_job_ || VideoFinished());
int count = (AudioFinished() ? 0 : 1) + (VideoFinished() ? 0 : 1);
// It is possible that all streams have finished decode, yet starvation
// occurred during the last stream's EOS decode. In this case, prefetch is a
// no-op.
ClearPendingEvent(PREFETCH_REQUEST_EVENT_PENDING);
if (count == 0)
return;
SetPendingEvent(PREFETCH_DONE_EVENT_PENDING);
base::Closure barrier = BarrierClosure(count, base::Bind(
&MediaSourcePlayer::OnPrefetchDone, weak_this_.GetWeakPtr()));
if (!AudioFinished())
audio_decoder_job_->Prefetch(barrier);
if (!VideoFinished())
video_decoder_job_->Prefetch(barrier);
return;
}
DCHECK_EQ(pending_event_, NO_EVENT_PENDING);
// Now that all pending events have been handled, resume decoding if we are
// still playing.
if (playing_)
StartInternal();
}
void MediaSourcePlayer::MediaDecoderCallback(
bool is_audio, MediaCodecStatus status,
const base::TimeDelta& presentation_timestamp, size_t audio_output_bytes) {
DVLOG(1) << __FUNCTION__ << ": " << is_audio << ", " << status;
// TODO(xhwang): Drop IntToString() when http://crbug.com/303899 is fixed.
if (is_audio) {
TRACE_EVENT_ASYNC_END1("media",
"MediaSourcePlayer::DecodeMoreAudio",
audio_decoder_job_.get(),
"MediaCodecStatus",
base::IntToString(status));
} else {
TRACE_EVENT_ASYNC_END1("media",
"MediaSourcePlayer::DecodeMoreVideo",
video_decoder_job_.get(),
"MediaCodecStatus",
base::IntToString(status));
}
// Let tests hook the completion of this decode cycle.
if (!decode_callback_for_testing_.is_null())
base::ResetAndReturn(&decode_callback_for_testing_).Run();
bool is_clock_manager = is_audio || !HasAudio();
if (is_clock_manager)
decoder_starvation_callback_.Cancel();
if (status == MEDIA_CODEC_ERROR) {
DVLOG(1) << __FUNCTION__ << " : decode error";
Release();
manager()->OnError(player_id(), MEDIA_ERROR_DECODE);
return;
}
DCHECK(!IsEventPending(PREFETCH_DONE_EVENT_PENDING));
// Let |SEEK_EVENT_PENDING| (the highest priority event outside of
// |PREFETCH_DONE_EVENT_PENDING|) preempt output EOS detection here. Process
// any other pending events only after handling EOS detection.
if (IsEventPending(SEEK_EVENT_PENDING)) {
ProcessPendingEvents();
return;
}
if (status == MEDIA_CODEC_OUTPUT_END_OF_STREAM)
PlaybackCompleted(is_audio);
if (pending_event_ != NO_EVENT_PENDING) {
ProcessPendingEvents();
return;
}
if (status == MEDIA_CODEC_OUTPUT_END_OF_STREAM)
return;
if (status == MEDIA_CODEC_OK && is_clock_manager &&
presentation_timestamp != kNoTimestamp()) {
UpdateTimestamps(presentation_timestamp, audio_output_bytes);
}
if (!playing_) {
if (is_clock_manager)
clock_.Pause();
return;
}
if (status == MEDIA_CODEC_NO_KEY) {
is_waiting_for_key_ = true;
return;
}
// If the status is MEDIA_CODEC_STOPPED, stop decoding new data. The player is
// in the middle of a seek or stop event and needs to wait for the IPCs to
// come.
if (status == MEDIA_CODEC_STOPPED)
return;
if (is_clock_manager) {
// If we have a valid timestamp, start the starvation callback. Otherwise,
// reset the |start_time_ticks_| so that the next frame will not suffer
// from the decoding delay caused by the current frame.
if (presentation_timestamp != kNoTimestamp())
StartStarvationCallback(presentation_timestamp);
else
start_time_ticks_ = base::TimeTicks::Now();
}
if (is_audio) {
DecodeMoreAudio();
return;
}
DecodeMoreVideo();
}
void MediaSourcePlayer::DecodeMoreAudio() {
DVLOG(1) << __FUNCTION__;
DCHECK(!audio_decoder_job_->is_decoding());
DCHECK(!AudioFinished());
if (audio_decoder_job_->Decode(
start_time_ticks_, start_presentation_timestamp_, base::Bind(
&MediaSourcePlayer::MediaDecoderCallback,
weak_this_.GetWeakPtr(), true))) {
TRACE_EVENT_ASYNC_BEGIN0("media", "MediaSourcePlayer::DecodeMoreAudio",
audio_decoder_job_.get());
return;
}
// Failed to start the next decode.
// Wait for demuxer ready message.
DCHECK(!reconfig_audio_decoder_);
reconfig_audio_decoder_ = true;
// Config change may have just been detected on the other stream. If so,
// don't send a duplicate demuxer config request.
if (IsEventPending(CONFIG_CHANGE_EVENT_PENDING)) {
DCHECK(reconfig_video_decoder_);
return;
}
SetPendingEvent(CONFIG_CHANGE_EVENT_PENDING);
ProcessPendingEvents();
}
void MediaSourcePlayer::DecodeMoreVideo() {
DVLOG(1) << __FUNCTION__;
DCHECK(!video_decoder_job_->is_decoding());
DCHECK(!VideoFinished());
if (video_decoder_job_->Decode(
start_time_ticks_, start_presentation_timestamp_, base::Bind(
&MediaSourcePlayer::MediaDecoderCallback,
weak_this_.GetWeakPtr(), false))) {
TRACE_EVENT_ASYNC_BEGIN0("media", "MediaSourcePlayer::DecodeMoreVideo",
video_decoder_job_.get());
return;
}
// Failed to start the next decode.
// Wait for demuxer ready message.
// After this detection of video config change, next video data received
// will begin with I-frame.
next_video_data_is_iframe_ = true;
DCHECK(!reconfig_video_decoder_);
reconfig_video_decoder_ = true;
// Config change may have just been detected on the other stream. If so,
// don't send a duplicate demuxer config request.
if (IsEventPending(CONFIG_CHANGE_EVENT_PENDING)) {
DCHECK(reconfig_audio_decoder_);
return;
}
SetPendingEvent(CONFIG_CHANGE_EVENT_PENDING);
ProcessPendingEvents();
}
void MediaSourcePlayer::PlaybackCompleted(bool is_audio) {
DVLOG(1) << __FUNCTION__ << "(" << is_audio << ")";
if (is_audio)
reached_audio_eos_ = true;
else
reached_video_eos_ = true;
if (AudioFinished() && VideoFinished()) {
playing_ = false;
clock_.Pause();
start_time_ticks_ = base::TimeTicks();
manager()->OnPlaybackComplete(player_id());
}
}
void MediaSourcePlayer::ClearDecodingData() {
DVLOG(1) << __FUNCTION__;
if (audio_decoder_job_)
audio_decoder_job_->Flush();
if (video_decoder_job_)
video_decoder_job_->Flush();
start_time_ticks_ = base::TimeTicks();
}
bool MediaSourcePlayer::HasVideo() {
return kUnknownVideoCodec != video_codec_;
}
bool MediaSourcePlayer::HasAudio() {
return kUnknownAudioCodec != audio_codec_;
}
bool MediaSourcePlayer::AudioFinished() {
return reached_audio_eos_ || !HasAudio();
}
bool MediaSourcePlayer::VideoFinished() {
return reached_video_eos_ || !HasVideo();
}
void MediaSourcePlayer::ConfigureAudioDecoderJob() {
if (!HasAudio()) {
audio_decoder_job_.reset();
return;
}
// Create audio decoder job only if config changes.
if (audio_decoder_job_ && !reconfig_audio_decoder_)
return;
base::android::ScopedJavaLocalRef<jobject> media_crypto = GetMediaCrypto();
if (is_audio_encrypted_ && media_crypto.is_null())
return;
DCHECK(!audio_decoder_job_ || !audio_decoder_job_->is_decoding());
DVLOG(1) << __FUNCTION__ << " : creating new audio decoder job";
audio_decoder_job_.reset(AudioDecoderJob::Create(
audio_codec_, sampling_rate_, num_channels_, &audio_extra_data_[0],
audio_extra_data_.size(), media_crypto.obj(),
base::Bind(&DemuxerAndroid::RequestDemuxerData,
base::Unretained(demuxer_.get()), DemuxerStream::AUDIO)));
if (audio_decoder_job_) {
SetVolumeInternal();
audio_decoder_job_->BeginPrerolling(preroll_timestamp_);
reconfig_audio_decoder_ = false;
}
}
void MediaSourcePlayer::ResetVideoDecoderJob() {
video_decoder_job_.reset();
// Any eventual video decoder job re-creation will use the current |surface_|.
if (IsEventPending(SURFACE_CHANGE_EVENT_PENDING))
ClearPendingEvent(SURFACE_CHANGE_EVENT_PENDING);
}
void MediaSourcePlayer::ConfigureVideoDecoderJob() {
if (!HasVideo() || surface_.IsEmpty()) {
ResetVideoDecoderJob();
return;
}
// Create video decoder job only if config changes or we don't have a job.
if (video_decoder_job_ && !reconfig_video_decoder_) {
DCHECK(!IsEventPending(SURFACE_CHANGE_EVENT_PENDING));
return;
}
DCHECK(!video_decoder_job_ || !video_decoder_job_->is_decoding());
if (reconfig_video_decoder_) {
// No hack browser seek should be required. I-Frame must be next.
DCHECK(next_video_data_is_iframe_) << "Received video data between "
<< "detecting video config change and reconfiguring video decoder";
}
// If uncertain that video I-frame data is next and there is no seek already
// in process, request browser demuxer seek so the new decoder will decode
// an I-frame first. Otherwise, the new MediaCodec might crash. See b/8950387.
// Eventual OnDemuxerSeekDone() will trigger ProcessPendingEvents() and
// continue from here.
// TODO(wolenetz): Instead of doing hack browser seek, replay cached data
// since last keyframe. See http://crbug.com/304234.
if (!next_video_data_is_iframe_ && !IsEventPending(SEEK_EVENT_PENDING)) {
BrowserSeekToCurrentTime();
return;
}
// Release the old VideoDecoderJob first so the surface can get released.
// Android does not allow 2 MediaCodec instances use the same surface.
ResetVideoDecoderJob();
base::android::ScopedJavaLocalRef<jobject> media_crypto = GetMediaCrypto();
if (is_video_encrypted_ && media_crypto.is_null())
return;
DVLOG(1) << __FUNCTION__ << " : creating new video decoder job";
// Create the new VideoDecoderJob.
bool is_secure = IsProtectedSurfaceRequired();
video_decoder_job_.reset(
VideoDecoderJob::Create(video_codec_,
is_secure,
gfx::Size(width_, height_),
surface_.j_surface().obj(),
media_crypto.obj(),
base::Bind(&DemuxerAndroid::RequestDemuxerData,
base::Unretained(demuxer_.get()),
DemuxerStream::VIDEO)));
if (!video_decoder_job_)
return;
video_decoder_job_->BeginPrerolling(preroll_timestamp_);
reconfig_video_decoder_ = false;
// Inform the fullscreen view the player is ready.
// TODO(qinmin): refactor MediaPlayerBridge so that we have a better way
// to inform ContentVideoView.
manager()->OnMediaMetadataChanged(
player_id(), duration_, width_, height_, true);
}
void MediaSourcePlayer::OnDecoderStarved() {
DVLOG(1) << __FUNCTION__;
SetPendingEvent(PREFETCH_REQUEST_EVENT_PENDING);
ProcessPendingEvents();
}
void MediaSourcePlayer::StartStarvationCallback(
const base::TimeDelta& presentation_timestamp) {
// 20ms was chosen because it is the typical size of a compressed audio frame.
// Anything smaller than this would likely cause unnecessary cycling in and
// out of the prefetch state.
const base::TimeDelta kMinStarvationTimeout =
base::TimeDelta::FromMilliseconds(20);
base::TimeDelta current_timestamp = GetCurrentTime();
base::TimeDelta timeout;
if (HasAudio()) {
timeout = audio_timestamp_helper_->GetTimestamp() - current_timestamp;
} else {
DCHECK(current_timestamp <= presentation_timestamp);
// For video only streams, fps can be estimated from the difference
// between the previous and current presentation timestamps. The
// previous presentation timestamp is equal to current_timestamp.
// TODO(qinmin): determine whether 2 is a good coefficient for estimating
// video frame timeout.
timeout = 2 * (presentation_timestamp - current_timestamp);
}
timeout = std::max(timeout, kMinStarvationTimeout);
decoder_starvation_callback_.Reset(
base::Bind(&MediaSourcePlayer::OnDecoderStarved,
weak_this_.GetWeakPtr()));
base::MessageLoop::current()->PostDelayedTask(
FROM_HERE, decoder_starvation_callback_.callback(), timeout);
}
void MediaSourcePlayer::SetVolumeInternal() {
if (audio_decoder_job_ && volume_ >= 0)
audio_decoder_job_->SetVolume(volume_);
}
bool MediaSourcePlayer::IsProtectedSurfaceRequired() {
return is_video_encrypted_ &&
drm_bridge_ && drm_bridge_->IsProtectedSurfaceRequired();
}
void MediaSourcePlayer::OnPrefetchDone() {
DVLOG(1) << __FUNCTION__;
DCHECK(!audio_decoder_job_ || !audio_decoder_job_->is_decoding());
DCHECK(!video_decoder_job_ || !video_decoder_job_->is_decoding());
// A previously posted OnPrefetchDone() could race against a Release(). If
// Release() won the race, we should no longer have decoder jobs.
// TODO(qinmin/wolenetz): Maintain channel state to not double-request data
// or drop data received across Release()+Start(). See http://crbug.com/306314
// and http://crbug.com/304234.
if (!IsEventPending(PREFETCH_DONE_EVENT_PENDING)) {
DVLOG(1) << __FUNCTION__ << " : aborting";
DCHECK(!audio_decoder_job_ && !video_decoder_job_);
return;
}
ClearPendingEvent(PREFETCH_DONE_EVENT_PENDING);
if (pending_event_ != NO_EVENT_PENDING) {
ProcessPendingEvents();
return;
}
start_time_ticks_ = base::TimeTicks::Now();
start_presentation_timestamp_ = GetCurrentTime();
if (!clock_.IsPlaying())
clock_.Play();
if (!AudioFinished())
DecodeMoreAudio();
if (!VideoFinished())
DecodeMoreVideo();
}
const char* MediaSourcePlayer::GetEventName(PendingEventFlags event) {
static const char* kPendingEventNames[] = {
"SEEK",
"SURFACE_CHANGE",
"CONFIG_CHANGE",
"PREFETCH_REQUEST",
"PREFETCH_DONE",
};
int mask = 1;
for (size_t i = 0; i < arraysize(kPendingEventNames); ++i, mask <<= 1) {
if (event & mask)
return kPendingEventNames[i];
}
return "UNKNOWN";
}
bool MediaSourcePlayer::IsEventPending(PendingEventFlags event) const {
return pending_event_ & event;
}
void MediaSourcePlayer::SetPendingEvent(PendingEventFlags event) {
DVLOG(1) << __FUNCTION__ << "(" << GetEventName(event) << ")";
DCHECK_NE(event, NO_EVENT_PENDING);
DCHECK(!IsEventPending(event));
pending_event_ |= event;
}
void MediaSourcePlayer::ClearPendingEvent(PendingEventFlags event) {
DVLOG(1) << __FUNCTION__ << "(" << GetEventName(event) << ")";
DCHECK_NE(event, NO_EVENT_PENDING);
DCHECK(IsEventPending(event)) << GetEventName(event);
pending_event_ &= ~event;
}
} // namespace media