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cobalt / cobalt / HEAD / . / media / remoting / renderer_controller.cc
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// Copyright 2016 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/remoting/renderer_controller.h"
#include "base/bind.h"
#include "base/logging.h"
#include "base/time/default_tick_clock.h"
#include "base/time/tick_clock.h"
#include "base/time/time.h"
#include "media/remoting/metrics.h"
#if defined(OS_ANDROID)
#include "media/base/android/media_codec_util.h"
#endif
namespace media {
namespace remoting {
using mojom::RemotingSinkAudioCapability;
using mojom::RemotingSinkFeature;
using mojom::RemotingSinkVideoCapability;
namespace {
// The duration to delay the start of media remoting to ensure all preconditions
// are held stable before switching to media remoting.
constexpr base::TimeDelta kDelayedStart = base::Seconds(5);
constexpr int kPixelsPerSec4k = 3840 * 2160 * 30; // 4k 30fps.
constexpr int kPixelsPerSec2k = 1920 * 1080 * 30; // 1080p 30fps.
// The minimum media element duration that is allowed for media remoting.
// Frequent switching into and out of media remoting for short-duration media
// can feel "janky" to the user.
constexpr double kMinRemotingMediaDurationInSec = 60;
StopTrigger GetStopTrigger(mojom::RemotingStopReason reason) {
switch (reason) {
case mojom::RemotingStopReason::ROUTE_TERMINATED:
return ROUTE_TERMINATED;
case mojom::RemotingStopReason::SOURCE_GONE:
return MEDIA_ELEMENT_DESTROYED;
case mojom::RemotingStopReason::MESSAGE_SEND_FAILED:
return MESSAGE_SEND_FAILED;
case mojom::RemotingStopReason::DATA_SEND_FAILED:
return DATA_SEND_FAILED;
case mojom::RemotingStopReason::UNEXPECTED_FAILURE:
return UNEXPECTED_FAILURE;
case mojom::RemotingStopReason::SERVICE_GONE:
return SERVICE_GONE;
case mojom::RemotingStopReason::USER_DISABLED:
return USER_DISABLED;
case mojom::RemotingStopReason::LOCAL_PLAYBACK:
// This RemotingStopReason indicates the RendererController initiated the
// session shutdown in the immediate past, and the trigger for that should
// have already been recorded in the metrics. Here, this is just duplicate
// feedback from the sink for that same event. Return UNKNOWN_STOP_TRIGGER
// because this reason can not be a stop trigger and it would be a logic
// flaw for this value to be recorded in the metrics.
return UNKNOWN_STOP_TRIGGER;
}
return UNKNOWN_STOP_TRIGGER; // To suppress compiler warning on Windows.
}
MediaObserverClient::ReasonToSwitchToLocal GetSwitchReason(
StopTrigger stop_trigger) {
switch (stop_trigger) {
case FRAME_DROP_RATE_HIGH:
case PACING_TOO_SLOWLY:
return MediaObserverClient::ReasonToSwitchToLocal::POOR_PLAYBACK_QUALITY;
case EXITED_FULLSCREEN:
case BECAME_AUXILIARY_CONTENT:
case DISABLED_BY_PAGE:
case USER_DISABLED:
case UNKNOWN_STOP_TRIGGER:
return MediaObserverClient::ReasonToSwitchToLocal::NORMAL;
case UNSUPPORTED_AUDIO_CODEC:
case UNSUPPORTED_VIDEO_CODEC:
case UNSUPPORTED_AUDIO_AND_VIDEO_CODECS:
case DECRYPTION_ERROR:
case RECEIVER_INITIALIZE_FAILED:
case RECEIVER_PIPELINE_ERROR:
case PEERS_OUT_OF_SYNC:
case RPC_INVALID:
case DATA_PIPE_CREATE_ERROR:
case MOJO_PIPE_ERROR:
case MESSAGE_SEND_FAILED:
case DATA_SEND_FAILED:
case UNEXPECTED_FAILURE:
return MediaObserverClient::ReasonToSwitchToLocal::PIPELINE_ERROR;
case ROUTE_TERMINATED:
case MEDIA_ELEMENT_DESTROYED:
case START_RACE:
case SERVICE_GONE:
return MediaObserverClient::ReasonToSwitchToLocal::ROUTE_TERMINATED;
}
// To suppress compiler warning on Windows.
return MediaObserverClient::ReasonToSwitchToLocal::ROUTE_TERMINATED;
}
} // namespace
RendererController::RendererController(
mojo::PendingReceiver<mojom::RemotingSource> source_receiver,
mojo::PendingRemote<mojom::Remoter> remoter)
#if BUILDFLAG(ENABLE_MEDIA_REMOTING_RPC)
: rpc_messenger_([this](std::vector<uint8_t> message) {
SendMessageToSink(std::move(message));
}),
#else
:
#endif
receiver_(this, std::move(source_receiver)),
remoter_(std::move(remoter)),
clock_(base::DefaultTickClock::GetInstance()) {
DCHECK(remoter_);
}
RendererController::~RendererController() {
DCHECK(thread_checker_.CalledOnValidThread());
SetClient(nullptr);
}
void RendererController::OnSinkAvailable(
mojom::RemotingSinkMetadataPtr metadata) {
DCHECK(thread_checker_.CalledOnValidThread());
sink_metadata_ = *metadata;
if (!SinkSupportsRemoting()) {
OnSinkGone();
return;
}
UpdateAndMaybeSwitch(SINK_AVAILABLE, UNKNOWN_STOP_TRIGGER);
}
void RendererController::OnSinkGone() {
DCHECK(thread_checker_.CalledOnValidThread());
// Prevent the clients to start any future remoting sessions. Won't affect the
// behavior of the currently-running session (if any).
sink_metadata_ = mojom::RemotingSinkMetadata();
}
void RendererController::OnStarted() {
DCHECK(thread_checker_.CalledOnValidThread());
VLOG(1) << "Remoting started successively.";
if (remote_rendering_started_ && client_) {
metrics_recorder_.DidStartSession();
client_->SwitchToRemoteRenderer(sink_metadata_.friendly_name);
}
}
void RendererController::OnStartFailed(mojom::RemotingStartFailReason reason) {
DCHECK(thread_checker_.CalledOnValidThread());
VLOG(1) << "Failed to start remoting:" << reason;
if (remote_rendering_started_) {
metrics_recorder_.WillStopSession(START_RACE);
remote_rendering_started_ = false;
}
}
void RendererController::OnStopped(mojom::RemotingStopReason reason) {
DCHECK(thread_checker_.CalledOnValidThread());
VLOG(1) << "Remoting stopped: " << reason;
OnSinkGone();
UpdateAndMaybeSwitch(UNKNOWN_START_TRIGGER, GetStopTrigger(reason));
}
void RendererController::OnMessageFromSink(
const std::vector<uint8_t>& message) {
DCHECK(thread_checker_.CalledOnValidThread());
#if BUILDFLAG(ENABLE_MEDIA_REMOTING_RPC)
std::unique_ptr<openscreen::cast::RpcMessage> rpc(
new openscreen::cast::RpcMessage());
if (!rpc->ParseFromArray(message.data(), message.size())) {
VLOG(1) << "corrupted Rpc message";
OnSinkGone();
UpdateAndMaybeSwitch(UNKNOWN_START_TRIGGER, RPC_INVALID);
return;
}
rpc_messenger_.ProcessMessageFromRemote(std::move(rpc));
#endif
}
void RendererController::OnBecameDominantVisibleContent(bool is_dominant) {
DCHECK(thread_checker_.CalledOnValidThread());
if (is_dominant_content_ == is_dominant)
return;
is_dominant_content_ = is_dominant;
// Reset the errors when the media element stops being the dominant visible
// content in the tab.
if (!is_dominant_content_)
encountered_renderer_fatal_error_ = false;
UpdateAndMaybeSwitch(BECAME_DOMINANT_CONTENT, BECAME_AUXILIARY_CONTENT);
}
void RendererController::OnRemotePlaybackDisabled(bool disabled) {
DCHECK(thread_checker_.CalledOnValidThread());
is_remote_playback_disabled_ = disabled;
metrics_recorder_.OnRemotePlaybackDisabled(disabled);
UpdateAndMaybeSwitch(ENABLED_BY_PAGE, DISABLED_BY_PAGE);
}
#if BUILDFLAG(ENABLE_MEDIA_REMOTING_RPC)
openscreen::WeakPtr<openscreen::cast::RpcMessenger>
RendererController::GetRpcMessenger() {
DCHECK(thread_checker_.CalledOnValidThread());
return rpc_messenger_.GetWeakPtr();
}
#endif
void RendererController::StartDataPipe(uint32_t data_pipe_capacity,
bool audio,
bool video,
DataPipeStartCallback done_callback) {
DCHECK(thread_checker_.CalledOnValidThread());
DCHECK(!done_callback.is_null());
bool ok = audio || video;
mojo::ScopedDataPipeProducerHandle audio_producer_handle;
mojo::ScopedDataPipeConsumerHandle audio_consumer_handle;
if (ok && audio) {
ok &= mojo::CreateDataPipe(data_pipe_capacity, audio_producer_handle,
audio_consumer_handle) == MOJO_RESULT_OK;
}
mojo::ScopedDataPipeProducerHandle video_producer_handle;
mojo::ScopedDataPipeConsumerHandle video_consumer_handle;
if (ok && video) {
ok &= mojo::CreateDataPipe(data_pipe_capacity, video_producer_handle,
video_consumer_handle) == MOJO_RESULT_OK;
}
if (!ok) {
LOG(ERROR) << "No audio nor video to establish data pipe";
std::move(done_callback)
.Run(mojo::NullRemote(), mojo::NullRemote(),
mojo::ScopedDataPipeProducerHandle(),
mojo::ScopedDataPipeProducerHandle());
return;
}
mojo::PendingRemote<mojom::RemotingDataStreamSender> audio_stream_sender;
mojo::PendingRemote<mojom::RemotingDataStreamSender> video_stream_sender;
remoter_->StartDataStreams(
std::move(audio_consumer_handle), std::move(video_consumer_handle),
audio ? audio_stream_sender.InitWithNewPipeAndPassReceiver()
: mojo::NullReceiver(),
video ? video_stream_sender.InitWithNewPipeAndPassReceiver()
: mojo::NullReceiver());
std::move(done_callback)
.Run(std::move(audio_stream_sender), std::move(video_stream_sender),
std::move(audio_producer_handle), std::move(video_producer_handle));
}
void RendererController::OnMetadataChanged(const PipelineMetadata& metadata) {
DCHECK(thread_checker_.CalledOnValidThread());
const bool was_audio_codec_supported = has_audio() && IsAudioCodecSupported();
const bool was_video_codec_supported = has_video() && IsVideoCodecSupported();
pipeline_metadata_ = metadata;
const bool is_audio_codec_supported = has_audio() && IsAudioCodecSupported();
const bool is_video_codec_supported = has_video() && IsVideoCodecSupported();
metrics_recorder_.OnPipelineMetadataChanged(metadata);
StartTrigger start_trigger = UNKNOWN_START_TRIGGER;
if (!was_audio_codec_supported && is_audio_codec_supported)
start_trigger = SUPPORTED_AUDIO_CODEC;
if (!was_video_codec_supported && is_video_codec_supported) {
start_trigger = start_trigger == SUPPORTED_AUDIO_CODEC
? SUPPORTED_AUDIO_AND_VIDEO_CODECS
: SUPPORTED_VIDEO_CODEC;
}
StopTrigger stop_trigger = UNKNOWN_STOP_TRIGGER;
if (was_audio_codec_supported && !is_audio_codec_supported)
stop_trigger = UNSUPPORTED_AUDIO_CODEC;
if (was_video_codec_supported && !is_video_codec_supported) {
stop_trigger = stop_trigger == UNSUPPORTED_AUDIO_CODEC
? UNSUPPORTED_AUDIO_AND_VIDEO_CODECS
: UNSUPPORTED_VIDEO_CODEC;
}
UpdateRemotePlaybackAvailabilityMonitoringState();
UpdateAndMaybeSwitch(start_trigger, stop_trigger);
}
void RendererController::OnDataSourceInitialized(
const GURL& url_after_redirects) {
DCHECK(thread_checker_.CalledOnValidThread());
if (url_after_redirects == url_after_redirects_)
return;
// TODO(avayvod): Does WMPI update MediaObserver when metadata becomes
// invalid or should we reset it here?
url_after_redirects_ = url_after_redirects;
UpdateRemotePlaybackAvailabilityMonitoringState();
}
void RendererController::OnHlsManifestDetected() {
#if defined(OS_ANDROID)
is_hls_ = true;
UpdateRemotePlaybackAvailabilityMonitoringState();
#else
NOTREACHED();
#endif
}
void RendererController::UpdateRemotePlaybackAvailabilityMonitoringState() {
// Currently RemotePlayback-initated media remoting only supports URL flinging
// thus the source is supported when the URL is either http or https, video and
// audio codecs are supported by the remote playback device; HLS is playable by
// Chrome on Android (which is not detected by the pipeline metadata atm).
#if defined(OS_ANDROID)
const bool is_media_supported = is_hls_ || IsRemotePlaybackSupported();
#else
const bool is_media_supported = IsAudioOrVideoSupported();
#endif
// TODO(avayvod): add a check for CORS.
bool is_source_supported = url_after_redirects_.has_scheme() &&
(url_after_redirects_.SchemeIs("http") ||
url_after_redirects_.SchemeIs("https")) &&
is_media_supported;
if (client_)
client_->UpdateRemotePlaybackCompatibility(is_source_supported);
}
bool RendererController::IsVideoCodecSupported() const {
DCHECK(thread_checker_.CalledOnValidThread());
return GetVideoCompatibility() == RemotingCompatibility::kCompatible;
}
bool RendererController::IsAudioCodecSupported() const {
DCHECK(thread_checker_.CalledOnValidThread());
return GetAudioCompatibility() == RemotingCompatibility::kCompatible;
}
void RendererController::OnPlaying() {
DCHECK(thread_checker_.CalledOnValidThread());
is_paused_ = false;
UpdateAndMaybeSwitch(PLAY_COMMAND, UNKNOWN_STOP_TRIGGER);
}
void RendererController::OnPaused() {
DCHECK(thread_checker_.CalledOnValidThread());
is_paused_ = true;
// Cancel the start if in the middle of delayed start.
CancelDelayedStart();
}
RemotingCompatibility RendererController::GetVideoCompatibility() const {
DCHECK(thread_checker_.CalledOnValidThread());
DCHECK(has_video());
// Media Remoting doesn't support encrypted media.
if (pipeline_metadata_.video_decoder_config.is_encrypted())
return RemotingCompatibility::kEncryptedVideo;
bool compatible = false;
switch (pipeline_metadata_.video_decoder_config.codec()) {
case VideoCodec::kH264:
compatible = HasVideoCapability(RemotingSinkVideoCapability::CODEC_H264);
break;
case VideoCodec::kVP8:
compatible = HasVideoCapability(RemotingSinkVideoCapability::CODEC_VP8);
break;
case VideoCodec::kVP9:
compatible = HasVideoCapability(RemotingSinkVideoCapability::CODEC_VP9);
break;
case VideoCodec::kHEVC:
compatible = HasVideoCapability(RemotingSinkVideoCapability::CODEC_HEVC);
break;
default:
VLOG(2) << "Remoting does not support video codec: "
<< pipeline_metadata_.video_decoder_config.codec();
}
return compatible ? RemotingCompatibility::kCompatible
: RemotingCompatibility::kIncompatibleVideoCodec;
}
RemotingCompatibility RendererController::GetAudioCompatibility() const {
DCHECK(thread_checker_.CalledOnValidThread());
DCHECK(has_audio());
// Media Remoting doesn't support encrypted media.
if (pipeline_metadata_.audio_decoder_config.is_encrypted())
return RemotingCompatibility::kEncryptedAudio;
bool compatible = false;
switch (pipeline_metadata_.audio_decoder_config.codec()) {
case AudioCodec::kAAC:
compatible = HasAudioCapability(RemotingSinkAudioCapability::CODEC_AAC);
break;
case AudioCodec::kOpus:
compatible = HasAudioCapability(RemotingSinkAudioCapability::CODEC_OPUS);
break;
case AudioCodec::kMP3:
case AudioCodec::kPCM:
case AudioCodec::kVorbis:
case AudioCodec::kFLAC:
case AudioCodec::kAMR_NB:
case AudioCodec::kAMR_WB:
case AudioCodec::kPCM_MULAW:
case AudioCodec::kGSM_MS:
case AudioCodec::kPCM_S16BE:
case AudioCodec::kPCM_S24BE:
case AudioCodec::kEAC3:
case AudioCodec::kPCM_ALAW:
case AudioCodec::kALAC:
case AudioCodec::kAC3:
compatible =
HasAudioCapability(RemotingSinkAudioCapability::CODEC_BASELINE_SET);
break;
default:
VLOG(2) << "Remoting does not support audio codec: "
<< pipeline_metadata_.audio_decoder_config.codec();
}
return compatible ? RemotingCompatibility::kCompatible
: RemotingCompatibility::kIncompatibleAudioCodec;
}
RemotingCompatibility RendererController::GetCompatibility() const {
DCHECK(thread_checker_.CalledOnValidThread());
DCHECK(client_);
if (is_remote_playback_disabled_)
return RemotingCompatibility::kDisabledByPage;
if (!has_video() && !has_audio())
return RemotingCompatibility::kNoAudioNorVideo;
if (has_video()) {
RemotingCompatibility compatibility = GetVideoCompatibility();
if (compatibility != RemotingCompatibility::kCompatible)
return compatibility;
}
if (has_audio()) {
RemotingCompatibility compatibility = GetAudioCompatibility();
if (compatibility != RemotingCompatibility::kCompatible)
return compatibility;
}
if (client_->Duration() <= kMinRemotingMediaDurationInSec)
return RemotingCompatibility::kDurationBelowThreshold;
return RemotingCompatibility::kCompatible;
}
bool RendererController::IsAudioOrVideoSupported() const {
return ((has_audio() || has_video()) &&
(!has_video() || IsVideoCodecSupported()) &&
(!has_audio() || IsAudioCodecSupported()));
}
void RendererController::UpdateAndMaybeSwitch(StartTrigger start_trigger,
StopTrigger stop_trigger) {
DCHECK(thread_checker_.CalledOnValidThread());
// Being the dominant visible content is the signal that starts remote
// rendering.
// Also, only switch to remoting when media is playing. Since the renderer is
// created when video starts loading, the receiver would display a black
// screen if switching to remoting while paused. Thus, the user experience is
// improved by not starting remoting until playback resumes.
bool should_be_remoting = client_ && !encountered_renderer_fatal_error_ &&
is_dominant_content_ && !is_paused_ &&
SinkSupportsRemoting();
if (should_be_remoting) {
const RemotingCompatibility compatibility = GetCompatibility();
metrics_recorder_.RecordCompatibility(compatibility);
should_be_remoting = compatibility == RemotingCompatibility::kCompatible;
}
if ((remote_rendering_started_ ||
delayed_start_stability_timer_.IsRunning()) == should_be_remoting) {
return;
}
if (should_be_remoting) {
WaitForStabilityBeforeStart(start_trigger);
} else if (delayed_start_stability_timer_.IsRunning()) {
DCHECK(!remote_rendering_started_);
CancelDelayedStart();
} else {
remote_rendering_started_ = false;
DCHECK_NE(UNKNOWN_STOP_TRIGGER, stop_trigger);
metrics_recorder_.WillStopSession(stop_trigger);
if (client_)
client_->SwitchToLocalRenderer(GetSwitchReason(stop_trigger));
VLOG(2) << "Request to stop remoting: stop_trigger=" << stop_trigger;
remoter_->Stop(mojom::RemotingStopReason::LOCAL_PLAYBACK);
}
}
void RendererController::WaitForStabilityBeforeStart(
StartTrigger start_trigger) {
DCHECK(!delayed_start_stability_timer_.IsRunning());
DCHECK(!remote_rendering_started_);
DCHECK(client_);
delayed_start_stability_timer_.Start(
FROM_HERE, kDelayedStart,
base::BindOnce(&RendererController::OnDelayedStartTimerFired,
base::Unretained(this), start_trigger,
client_->DecodedFrameCount(), clock_->NowTicks()));
}
void RendererController::CancelDelayedStart() {
delayed_start_stability_timer_.Stop();
}
void RendererController::OnDelayedStartTimerFired(
StartTrigger start_trigger,
unsigned decoded_frame_count_before_delay,
base::TimeTicks delayed_start_time) {
DCHECK(is_dominant_content_);
DCHECK(!remote_rendering_started_);
DCHECK(client_); // This task is canceled otherwise.
base::TimeDelta elapsed = clock_->NowTicks() - delayed_start_time;
DCHECK(!elapsed.is_zero());
if (has_video()) {
const double frame_rate =
(client_->DecodedFrameCount() - decoded_frame_count_before_delay) /
elapsed.InSecondsF();
const double pixels_per_second =
frame_rate * pipeline_metadata_.natural_size.GetArea();
const bool supported = RecordPixelRateSupport(pixels_per_second);
if (!supported) {
permanently_disable_remoting_ = true;
return;
}
}
remote_rendering_started_ = true;
DCHECK_NE(UNKNOWN_START_TRIGGER, start_trigger);
metrics_recorder_.WillStartSession(start_trigger);
// |MediaObserverClient::SwitchToRemoteRenderer()| will be called after
// remoting is started successfully.
remoter_->Start();
}
bool RendererController::RecordPixelRateSupport(double pixels_per_second) {
if (pixels_per_second <= kPixelsPerSec2k) {
metrics_recorder_.RecordVideoPixelRateSupport(
PixelRateSupport::k2kSupported);
return true;
}
if (pixels_per_second <= kPixelsPerSec4k) {
if (HasVideoCapability(mojom::RemotingSinkVideoCapability::SUPPORT_4K)) {
metrics_recorder_.RecordVideoPixelRateSupport(
PixelRateSupport::k4kSupported);
return true;
} else {
metrics_recorder_.RecordVideoPixelRateSupport(
PixelRateSupport::k4kNotSupported);
return false;
}
}
metrics_recorder_.RecordVideoPixelRateSupport(
PixelRateSupport::kOver4kNotSupported);
return false;
}
void RendererController::OnRendererFatalError(StopTrigger stop_trigger) {
DCHECK(thread_checker_.CalledOnValidThread());
// Do not act on errors caused by things like Mojo pipes being closed during
// shutdown.
if (!remote_rendering_started_)
return;
encountered_renderer_fatal_error_ = true;
UpdateAndMaybeSwitch(UNKNOWN_START_TRIGGER, stop_trigger);
}
void RendererController::SetClient(MediaObserverClient* client) {
DCHECK(thread_checker_.CalledOnValidThread());
client_ = client;
if (!client_) {
CancelDelayedStart();
if (remote_rendering_started_) {
metrics_recorder_.WillStopSession(MEDIA_ELEMENT_DESTROYED);
remoter_->Stop(mojom::RemotingStopReason::UNEXPECTED_FAILURE);
remote_rendering_started_ = false;
}
return;
}
}
bool RendererController::HasVideoCapability(
mojom::RemotingSinkVideoCapability capability) const {
return std::find(std::begin(sink_metadata_.video_capabilities),
std::end(sink_metadata_.video_capabilities),
capability) != std::end(sink_metadata_.video_capabilities);
}
bool RendererController::HasAudioCapability(
mojom::RemotingSinkAudioCapability capability) const {
return std::find(std::begin(sink_metadata_.audio_capabilities),
std::end(sink_metadata_.audio_capabilities),
capability) != std::end(sink_metadata_.audio_capabilities);
}
bool RendererController::HasFeatureCapability(
RemotingSinkFeature capability) const {
return std::find(std::begin(sink_metadata_.features),
std::end(sink_metadata_.features),
capability) != std::end(sink_metadata_.features);
}
bool RendererController::SinkSupportsRemoting() const {
return HasFeatureCapability(RemotingSinkFeature::RENDERING);
}
void RendererController::SendMessageToSink(std::vector<uint8_t> message) {
DCHECK(thread_checker_.CalledOnValidThread());
remoter_->SendMessageToSink(message);
}
#if defined(OS_ANDROID)
bool RendererController::IsAudioRemotePlaybackSupported() const {
DCHECK(thread_checker_.CalledOnValidThread());
DCHECK(has_audio());
if (pipeline_metadata_.audio_decoder_config.is_encrypted())
return false;
switch (pipeline_metadata_.audio_decoder_config.codec()) {
case AudioCodec::kAAC:
case AudioCodec::kOpus:
case AudioCodec::kMP3:
case AudioCodec::kPCM:
case AudioCodec::kVorbis:
case AudioCodec::kFLAC:
case AudioCodec::kAMR_NB:
case AudioCodec::kAMR_WB:
case AudioCodec::kPCM_MULAW:
case AudioCodec::kGSM_MS:
case AudioCodec::kPCM_S16BE:
case AudioCodec::kPCM_S24BE:
case AudioCodec::kEAC3:
case AudioCodec::kPCM_ALAW:
case AudioCodec::kALAC:
case AudioCodec::kAC3:
return true;
default:
return false;
}
}
bool RendererController::IsVideoRemotePlaybackSupported() const {
DCHECK(thread_checker_.CalledOnValidThread());
DCHECK(has_video());
if (pipeline_metadata_.video_decoder_config.is_encrypted())
return false;
switch (pipeline_metadata_.video_decoder_config.codec()) {
case VideoCodec::kH264:
case VideoCodec::kVP8:
case VideoCodec::kVP9:
case VideoCodec::kHEVC:
return true;
default:
return false;
}
}
bool RendererController::IsRemotePlaybackSupported() const {
return ((has_audio() || has_video()) &&
(!has_video() || IsVideoRemotePlaybackSupported()) &&
(!has_audio() || IsAudioRemotePlaybackSupported()));
}
#endif // defined(OS_ANDROID)
} // namespace remoting
} // namespace media