path: root/chromium/content/renderer/media/media_factory.cc

// Copyright 2017 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 "content/renderer/media/media_factory.h"

#include <string>
#include <utility>

#include "base/bind.h"
#include "base/command_line.h"
#include "base/memory/ptr_util.h"
#include "base/metrics/field_trial_params.h"
#include "base/task_runner_util.h"
#include "base/threading/thread_task_runner_handle.h"
#include "build/build_config.h"
#include "build/buildflag.h"
#include "cc/trees/layer_tree_settings.h"
#include "content/public/common/content_client.h"
#include "content/public/renderer/content_renderer_client.h"
#include "content/renderer/media/audio/audio_device_factory.h"
#include "content/renderer/media/render_media_log.h"
#include "content/renderer/media/renderer_webmediaplayer_delegate.h"
#include "content/renderer/media/stream/media_stream_renderer_factory_impl.h"
#include "content/renderer/render_frame_impl.h"
#include "content/renderer/render_thread_impl.h"
#include "content/renderer/render_view_impl.h"
#include "media/base/bind_to_current_loop.h"
#include "media/base/cdm_factory.h"
#include "media/base/decoder_factory.h"
#include "media/base/media_switches.h"
#include "media/base/renderer_factory_selector.h"
#include "media/blink/remote_playback_client_wrapper_impl.h"
#include "media/blink/resource_fetch_context.h"
#include "media/blink/webencryptedmediaclient_impl.h"
#include "media/blink/webmediaplayer_impl.h"
#include "media/media_buildflags.h"
#include "media/renderers/decrypting_renderer_factory.h"
#include "media/renderers/default_decoder_factory.h"
#include "media/renderers/default_renderer_factory.h"
#include "media/video/gpu_video_accelerator_factories.h"
#include "mojo/public/cpp/bindings/associated_interface_ptr.h"
#include "services/service_manager/public/cpp/connect.h"
#include "services/service_manager/public/cpp/interface_provider.h"
#include "services/viz/public/cpp/gpu/context_provider_command_buffer.h"
#include "third_party/blink/public/platform/modules/mediastream/web_media_element_source_utils.h"
#include "third_party/blink/public/platform/web_surface_layer_bridge.h"
#include "third_party/blink/public/platform/web_video_frame_submitter.h"
#include "third_party/blink/public/web/blink.h"
#include "third_party/blink/public/web/modules/mediastream/webmediaplayer_ms.h"
#include "third_party/blink/public/web/web_local_frame.h"
#include "url/origin.h"

#if defined(OS_ANDROID)
#include "content/renderer/media/android/flinging_renderer_client_factory.h"
#include "content/renderer/media/android/media_player_renderer_client_factory.h"
#include "content/renderer/media/android/stream_texture_wrapper_impl.h"
#include "media/base/android/media_codec_util.h"
#include "media/base/media.h"
#include "url/gurl.h"
#endif

#if BUILDFLAG(ENABLE_MOJO_MEDIA)
#include "content/renderer/media/media_interface_factory.h"
#endif

#if defined(OS_FUCHSIA)
#include "media/cdm/fuchsia/fuchsia_cdm_factory.h"
#elif BUILDFLAG(ENABLE_MOJO_CDM)
#include "media/mojo/clients/mojo_cdm_factory.h"  // nogncheck
#else
#include "media/cdm/default_cdm_factory.h"
#endif

#if defined(OS_FUCHSIA) && BUILDFLAG(ENABLE_MOJO_CDM)
#error "MojoCdm should be disabled for Fuchsia."
#endif

#if BUILDFLAG(ENABLE_MOJO_RENDERER)
#include "media/mojo/clients/mojo_renderer_factory.h"  // nogncheck
#endif

#if BUILDFLAG(ENABLE_MOJO_AUDIO_DECODER) || BUILDFLAG(ENABLE_MOJO_VIDEO_DECODER)
#include "media/mojo/clients/mojo_decoder_factory.h"  // nogncheck
#endif

#if BUILDFLAG(ENABLE_MEDIA_REMOTING)
#include "media/remoting/courier_renderer_factory.h"    // nogncheck
#include "media/remoting/renderer_controller.h"         // nogncheck
#endif

namespace {
class FrameFetchContext : public media::ResourceFetchContext {
 public:
  explicit FrameFetchContext(blink::WebLocalFrame* frame) : frame_(frame) {
    DCHECK(frame_);
  }
  ~FrameFetchContext() override = default;

  blink::WebLocalFrame* frame() const { return frame_; }

  // media::ResourceFetchContext implementation.
  std::unique_ptr<blink::WebAssociatedURLLoader> CreateUrlLoader(
      const blink::WebAssociatedURLLoaderOptions& options) override {
    return base::WrapUnique(frame_->CreateAssociatedURLLoader(options));
  }

 private:
  blink::WebLocalFrame* frame_;
  DISALLOW_COPY_AND_ASSIGN(FrameFetchContext);
};

// Obtains the media ContextProvider and calls the given callback on the same
// thread this is called on. Obtaining the media ContextProvider requires
// establishing a GPUChannelHost, which must be done on the main thread.
void PostContextProviderToCallback(
    scoped_refptr<base::SingleThreadTaskRunner> main_task_runner,
    scoped_refptr<viz::RasterContextProvider> unwanted_context_provider,
    blink::WebSubmitterConfigurationCallback set_context_provider_callback) {
  // |unwanted_context_provider| needs to be destroyed on the current thread.
  // Therefore, post a reply-callback that retains a reference to it, so that it
  // doesn't get destroyed on the main thread.
  main_task_runner->PostTaskAndReply(
      FROM_HERE,
      base::BindOnce(
          [](scoped_refptr<viz::RasterContextProvider>
                 unwanted_context_provider,
             blink::WebSubmitterConfigurationCallback cb) {
            auto* rti = content::RenderThreadImpl::current();
            auto context_provider = rti->GetVideoFrameCompositorContextProvider(
                std::move(unwanted_context_provider));
            std::move(cb).Run(!rti->IsGpuCompositingDisabled(),
                              std::move(context_provider));
          },
          unwanted_context_provider,
          media::BindToCurrentLoop(std::move(set_context_provider_callback))),
      base::BindOnce([](scoped_refptr<viz::RasterContextProvider>
                            unwanted_context_provider) {},
                     unwanted_context_provider));
}

}  // namespace

namespace content {

// static
blink::WebMediaPlayer::SurfaceLayerMode
MediaFactory::GetVideoSurfaceLayerMode() {
#if defined(OS_ANDROID)
  if (base::FeatureList::IsEnabled(media::kDisableSurfaceLayerForVideo))
    return blink::WebMediaPlayer::SurfaceLayerMode::kNever;
#endif  // OS_ANDROID

  if (base::FeatureList::IsEnabled(media::kUseSurfaceLayerForVideo))
    return blink::WebMediaPlayer::SurfaceLayerMode::kAlways;

  return blink::WebMediaPlayer::SurfaceLayerMode::kOnDemand;
}

MediaFactory::MediaFactory(
    RenderFrameImpl* render_frame,
    media::RequestRoutingTokenCallback request_routing_token_cb)
    : render_frame_(render_frame),
      request_routing_token_cb_(std::move(request_routing_token_cb)) {}

MediaFactory::~MediaFactory() {
  // Release the DecoderFactory to the media thread since it may still be in use
  // there due to pending pipeline Stop() calls. Once each Stop() completes, no
  // new tasks using the DecoderFactory will execute, so we don't need to worry
  // about additional posted tasks from Stop().
  if (decoder_factory_) {
    // DeleteSoon() shouldn't ever fail, we should always have a RenderThread at
    // this time and subsequently a media thread. To fail, the media thread must
    // be dead/dying (which only happens at ~RenderThreadImpl), in which case
    // the process is about to die anyways.
    RenderThreadImpl::current()->GetMediaThreadTaskRunner()->DeleteSoon(
        FROM_HERE, std::move(decoder_factory_));
  }
}

void MediaFactory::SetupMojo() {
  // Only do setup once.
  DCHECK(!remote_interfaces_);

  remote_interfaces_ = render_frame_->GetRemoteInterfaces();
  DCHECK(remote_interfaces_);
}

#if defined(OS_ANDROID)
// Returns true if the MediaPlayerRenderer should be used for playback, false
// if the default renderer should be used instead.
//
// Note that HLS and MP4 detection are pre-redirect and path-based. It is
// possible to load such a URL and find different content.
bool UseMediaPlayerRenderer(const GURL& url) {
  // Always use the default renderer for playing blob URLs.
  if (url.SchemeIsBlob())
    return false;

  // Don't use the default renderer if the container likely contains a codec we
  // can't decode in software and platform decoders are not available.
  if (!media::HasPlatformDecoderSupport()) {
    // Assume that "mp4" means H264. Without platform decoder support we cannot
    // play it with the default renderer so use MediaPlayerRenderer.
    // http://crbug.com/642988.
    if (base::ToLowerASCII(url.spec()).find("mp4") != std::string::npos)
      return true;
  }

  // Otherwise, use the default renderer.
  return false;
}
#endif  // defined(OS_ANDROID)

std::unique_ptr<blink::WebVideoFrameSubmitter> MediaFactory::CreateSubmitter(
    scoped_refptr<base::SingleThreadTaskRunner>*
        video_frame_compositor_task_runner,
    const cc::LayerTreeSettings& settings) {
  blink::WebMediaPlayer::SurfaceLayerMode use_surface_layer_for_video =
      GetVideoSurfaceLayerMode();
  content::RenderThreadImpl* render_thread =
      content::RenderThreadImpl::current();
  *video_frame_compositor_task_runner = nullptr;

  if (!render_thread)
    return nullptr;

  bool use_sync_primitives = false;
  if (use_surface_layer_for_video ==
      blink::WebMediaPlayer::SurfaceLayerMode::kAlways) {
    // Run the compositor / frame submitter on its own thread.
    *video_frame_compositor_task_runner =
        render_thread->CreateVideoFrameCompositorTaskRunner();
    // We must use sync primitives on this thread.
    use_sync_primitives = true;
  } else {
    // Run on the cc thread, even if we may switch to SurfaceLayer mode later
    // if we're in kOnDemand mode.  We do this to avoid switching threads when
    // switching to SurfaceLayer.
    *video_frame_compositor_task_runner =
        render_thread->compositor_task_runner()
            ? render_thread->compositor_task_runner()
            : render_frame_->GetTaskRunner(
                  blink::TaskType::kInternalMediaRealTime);

    // TODO(https://crbug/901513): Remove once kOnDemand is removed.
    render_thread->SetVideoFrameCompositorTaskRunner(
        *video_frame_compositor_task_runner);
  }

  std::unique_ptr<blink::WebVideoFrameSubmitter> submitter;

  if (use_surface_layer_for_video !=
      blink::WebMediaPlayer::SurfaceLayerMode::kNever) {
    submitter = blink::WebVideoFrameSubmitter::Create(
        base::BindRepeating(
            &PostContextProviderToCallback,
            RenderThreadImpl::current()->GetCompositorMainThreadTaskRunner()),
        settings, use_sync_primitives);
  }

  DCHECK(*video_frame_compositor_task_runner);

  return submitter;
}

blink::WebMediaPlayer* MediaFactory::CreateMediaPlayer(
    const blink::WebMediaPlayerSource& source,
    blink::WebMediaPlayerClient* client,
    blink::WebMediaPlayerEncryptedMediaClient* encrypted_client,
    blink::WebContentDecryptionModule* initial_cdm,
    const blink::WebString& sink_id,
    blink::WebLayerTreeView* layer_tree_view,
    const cc::LayerTreeSettings& settings) {
  blink::WebLocalFrame* web_frame = render_frame_->GetWebFrame();
  blink::WebSecurityOrigin security_origin =
      render_frame_->GetWebFrame()->GetSecurityOrigin();
  blink::WebMediaStream web_stream =
      blink::GetWebMediaStreamFromWebMediaPlayerSource(source);
  if (!web_stream.IsNull())
    return CreateWebMediaPlayerForMediaStream(
        client, sink_id, security_origin, web_frame, layer_tree_view, settings);

  // If |source| was not a MediaStream, it must be a URL.
  // TODO(guidou): Fix this when support for other srcObject types is added.
  DCHECK(source.IsURL());
  blink::WebURL url = source.GetAsURL();

  RenderThreadImpl* render_thread = RenderThreadImpl::current();
  // Render thread may not exist in tests, returning nullptr if it does not.
  if (!render_thread)
    return nullptr;

  scoped_refptr<media::SwitchableAudioRendererSink> audio_renderer_sink =
      AudioDeviceFactory::NewSwitchableAudioRendererSink(
          blink::WebAudioDeviceSourceType::kMediaElement,
          render_frame_->GetRoutingID(),
          media::AudioSinkParameters(/*session_id=*/base::UnguessableToken(),
                                     sink_id.Utf8()));

  const WebPreferences webkit_preferences =
      render_frame_->GetWebkitPreferences();
  bool embedded_media_experience_enabled = false;
  bool use_media_player_renderer = false;
#if defined(OS_ANDROID)
  use_media_player_renderer = UseMediaPlayerRenderer(url);
  embedded_media_experience_enabled =
      webkit_preferences.embedded_media_experience_enabled;
#endif  // defined(OS_ANDROID)

  // When memory pressure based garbage collection is enabled for MSE, the
  // |enable_instant_source_buffer_gc| flag controls whether the GC is done
  // immediately on memory pressure notification or during the next SourceBuffer
  // append (slower, but is MSE-spec compliant).
  bool enable_instant_source_buffer_gc =
      base::GetFieldTrialParamByFeatureAsBool(
          media::kMemoryPressureBasedSourceBufferGC,
          "enable_instant_source_buffer_gc", false);

  // This must be created for every new WebMediaPlayer, each instance generates
  // a new player id which is used to collate logs on the browser side.
  std::unique_ptr<media::MediaLog> media_log(new RenderMediaLog(
      url::Origin(security_origin).GetURL(),
      render_frame_->GetTaskRunner(blink::TaskType::kInternalMedia)));

  base::WeakPtr<media::MediaObserver> media_observer;

  auto factory_selector = CreateRendererFactorySelector(
      media_log.get(), use_media_player_renderer,
      render_frame_->GetRenderFrameMediaPlaybackOptions()
          .is_mojo_renderer_enabled,
      GetDecoderFactory(),
      std::make_unique<media::RemotePlaybackClientWrapperImpl>(client),
      &media_observer);

#if BUILDFLAG(ENABLE_MEDIA_REMOTING)
  DCHECK(media_observer);
#endif

  if (!fetch_context_) {
    fetch_context_ = std::make_unique<FrameFetchContext>(web_frame);
    DCHECK(!url_index_);
    url_index_ = std::make_unique<media::UrlIndex>(fetch_context_.get());
  }
  DCHECK_EQ(static_cast<FrameFetchContext*>(fetch_context_.get())->frame(),
            web_frame);

  media::mojom::MediaMetricsProviderPtr metrics_provider;
  remote_interfaces_->GetInterface(mojo::MakeRequest(&metrics_provider));

  scoped_refptr<base::SingleThreadTaskRunner>
      video_frame_compositor_task_runner;
  std::unique_ptr<blink::WebVideoFrameSubmitter> submitter =
      CreateSubmitter(&video_frame_compositor_task_runner, settings);

  DCHECK(layer_tree_view);
  scoped_refptr<base::SingleThreadTaskRunner> media_task_runner =
      render_thread->GetMediaThreadTaskRunner();

  if (!media_task_runner) {
    // If the media thread failed to start, we will receive a null task runner.
    // Fail the creation by returning null, and let callers handle the error.
    // See https://crbug.com/775393.
    return nullptr;
  }

  std::unique_ptr<media::WebMediaPlayerParams> params(
      new media::WebMediaPlayerParams(
          std::move(media_log),
          base::BindRepeating(&ContentRendererClient::DeferMediaLoad,
                              base::Unretained(GetContentClient()->renderer()),
                              static_cast<RenderFrame*>(render_frame_),
                              GetWebMediaPlayerDelegate()->has_played_media()),
          audio_renderer_sink, media_task_runner,
          render_thread->GetWorkerTaskRunner(),
          render_thread->compositor_task_runner(),
          video_frame_compositor_task_runner,
          base::Bind(&v8::Isolate::AdjustAmountOfExternalAllocatedMemory,
                     base::Unretained(blink::MainThreadIsolate())),
          initial_cdm, request_routing_token_cb_, media_observer,
          enable_instant_source_buffer_gc, embedded_media_experience_enabled,
          std::move(metrics_provider),
          base::BindOnce(&blink::WebSurfaceLayerBridge::Create,
                         layer_tree_view),
          RenderThreadImpl::current()->SharedMainThreadContextProvider(),
          GetVideoSurfaceLayerMode(),
          render_frame_->GetRenderFrameMediaPlaybackOptions()
              .is_background_suspend_enabled,
          render_frame_->GetRenderFrameMediaPlaybackOptions()
              .is_background_video_playback_enabled,
          render_frame_->GetRenderFrameMediaPlaybackOptions()
              .is_background_video_track_optimization_supported));

  std::unique_ptr<media::VideoFrameCompositor> vfc =
      std::make_unique<media::VideoFrameCompositor>(
          params->video_frame_compositor_task_runner(), std::move(submitter));

  media::WebMediaPlayerImpl* media_player = new media::WebMediaPlayerImpl(
      web_frame, client, encrypted_client, GetWebMediaPlayerDelegate(),
      std::move(factory_selector), url_index_.get(), std::move(vfc),
      std::move(params));

  return media_player;
}

blink::WebEncryptedMediaClient* MediaFactory::EncryptedMediaClient() {
  if (!web_encrypted_media_client_) {
    web_encrypted_media_client_.reset(new media::WebEncryptedMediaClientImpl(
        GetCdmFactory(), render_frame_->GetMediaPermission()));
  }
  return web_encrypted_media_client_.get();
}

std::unique_ptr<media::RendererFactorySelector>
MediaFactory::CreateRendererFactorySelector(
    media::MediaLog* media_log,
    bool use_media_player,
    bool enable_mojo_renderer,
    media::DecoderFactory* decoder_factory,
    std::unique_ptr<media::RemotePlaybackClientWrapper> client_wrapper,
    base::WeakPtr<media::MediaObserver>* out_media_observer) {
  RenderThreadImpl* render_thread = RenderThreadImpl::current();
  // Render thread may not exist in tests, returning nullptr if it does not.
  if (!render_thread)
    return nullptr;

  auto factory_selector = std::make_unique<media::RendererFactorySelector>();

#if defined(OS_ANDROID)
  DCHECK(remote_interfaces_);

  // MediaPlayerRendererClientFactory setup.
  auto mojo_media_player_renderer_factory =
      std::make_unique<media::MojoRendererFactory>(
          GetMediaInterfaceFactory());

  // Always give |factory_selector| a MediaPlayerRendererClient factory. WMPI
  // might fallback to it if the final redirected URL is an HLS url.
  factory_selector->AddFactory(
      media::RendererFactorySelector::FactoryType::MEDIA_PLAYER,
      std::make_unique<MediaPlayerRendererClientFactory>(
          render_thread->compositor_task_runner(),
          std::move(mojo_media_player_renderer_factory),
          base::BindRepeating(&StreamTextureWrapperImpl::Create,
                              render_thread->EnableStreamTextureCopy(),
                              render_thread->GetStreamTexureFactory(),
                              base::ThreadTaskRunnerHandle::Get())));

  factory_selector->SetUseMediaPlayer(use_media_player);

  // FlingingRendererClientFactory (FRCF) setup.
  auto mojo_flinging_factory =
      std::make_unique<media::MojoRendererFactory>(GetMediaInterfaceFactory());

  auto flinging_factory = std::make_unique<FlingingRendererClientFactory>(
      std::move(mojo_flinging_factory), std::move(client_wrapper));

  // base::Unretained() is safe here because |factory_selector| owns and
  // outlives |flinging_factory|.
  factory_selector->StartRequestRemotePlayStateCB(
      base::BindOnce(&FlingingRendererClientFactory::SetRemotePlayStateChangeCB,
                     base::Unretained(flinging_factory.get())));

  // base::Unretained() is also safe here, for the same reasons.
  factory_selector->SetQueryIsFlingingActiveCB(
      base::BindRepeating(&FlingingRendererClientFactory::IsFlingingActive,
                          base::Unretained(flinging_factory.get())));

  factory_selector->AddFactory(
      media::RendererFactorySelector::FactoryType::FLINGING,
      std::move(flinging_factory));
#endif  // defined(OS_ANDROID)

  bool use_mojo_renderer_factory = false;
#if BUILDFLAG(ENABLE_MOJO_RENDERER)
  use_mojo_renderer_factory = enable_mojo_renderer;
  if (use_mojo_renderer_factory) {
    auto mojo_renderer_factory = std::make_unique<media::MojoRendererFactory>(
        GetMediaInterfaceFactory());

    // The "default" MojoRendererFactory can be wrapped by a
    // DecryptingRendererFactory without changing any behavior.
    // TODO(tguilbert/xhwang): Add "FactoryType::DECRYPTING" if ever we need to
    // distinguish between a "pure" and "decrypting" MojoRenderer.
    factory_selector->AddFactory(
        media::RendererFactorySelector::FactoryType::MOJO,
        std::make_unique<media::DecryptingRendererFactory>(
            media_log, std::move(mojo_renderer_factory)));

    factory_selector->SetBaseFactoryType(
        media::RendererFactorySelector::FactoryType::MOJO);
  }
#endif  // BUILDFLAG(ENABLE_MOJO_RENDERER)

  if (!use_mojo_renderer_factory) {
    factory_selector->AddFactory(
        media::RendererFactorySelector::FactoryType::DEFAULT,
        std::make_unique<media::DefaultRendererFactory>(
            media_log, decoder_factory,
            base::Bind(&RenderThreadImpl::GetGpuFactories,
                       base::Unretained(render_thread))));

    factory_selector->SetBaseFactoryType(
        media::RendererFactorySelector::FactoryType::DEFAULT);
  }

#if BUILDFLAG(ENABLE_MEDIA_REMOTING)
  media::mojom::RemotingSourcePtr remoting_source;
  auto remoting_source_request = mojo::MakeRequest(&remoting_source);
  media::mojom::RemoterPtr remoter;
  GetRemoterFactory()->Create(std::move(remoting_source),
                              mojo::MakeRequest(&remoter));
  using RemotingController = media::remoting::RendererController;
  auto remoting_controller = std::make_unique<RemotingController>(
      std::move(remoting_source_request), std::move(remoter));
  *out_media_observer = remoting_controller->GetWeakPtr();

  auto courier_factory =
      std::make_unique<media::remoting::CourierRendererFactory>(
          std::move(remoting_controller));

  // base::Unretained is safe here because |factory_selector| owns
  // |courier_factory|.
  factory_selector->SetQueryIsRemotingActiveCB(
      base::Bind(&media::remoting::CourierRendererFactory::IsRemotingActive,
                 base::Unretained(courier_factory.get())));

  factory_selector->AddFactory(
      media::RendererFactorySelector::FactoryType::COURIER,
      std::move(courier_factory));
#endif

  return factory_selector;
}

blink::WebMediaPlayer* MediaFactory::CreateWebMediaPlayerForMediaStream(
    blink::WebMediaPlayerClient* client,
    const blink::WebString& sink_id,
    const blink::WebSecurityOrigin& security_origin,
    blink::WebLocalFrame* frame,
    blink::WebLayerTreeView* layer_tree_view,
    const cc::LayerTreeSettings& settings) {
#if BUILDFLAG(ENABLE_WEBRTC)
  RenderThreadImpl* const render_thread = RenderThreadImpl::current();

  scoped_refptr<base::SingleThreadTaskRunner>
      video_frame_compositor_task_runner;
  std::unique_ptr<blink::WebVideoFrameSubmitter> submitter =
      CreateSubmitter(&video_frame_compositor_task_runner, settings);

  DCHECK(layer_tree_view);
  return new blink::WebMediaPlayerMS(
      frame, client, GetWebMediaPlayerDelegate(),
      std::make_unique<RenderMediaLog>(
          url::Origin(security_origin).GetURL(),
          render_frame_->GetTaskRunner(blink::TaskType::kInternalMedia)),
      CreateMediaStreamRendererFactory(),
      render_frame_->GetTaskRunner(blink::TaskType::kInternalMedia),
      render_thread->GetIOTaskRunner(), video_frame_compositor_task_runner,
      render_thread->GetMediaThreadTaskRunner(),
      render_thread->GetWorkerTaskRunner(), render_thread->GetGpuFactories(),
      sink_id,
      base::BindOnce(&blink::WebSurfaceLayerBridge::Create, layer_tree_view),
      std::move(submitter), GetVideoSurfaceLayerMode());
#else
  return NULL;
#endif  // BUILDFLAG(ENABLE_WEBRTC)
}

media::RendererWebMediaPlayerDelegate*
MediaFactory::GetWebMediaPlayerDelegate() {
  if (!media_player_delegate_) {
    media_player_delegate_ =
        new media::RendererWebMediaPlayerDelegate(render_frame_);
  }
  return media_player_delegate_;
}

std::unique_ptr<blink::WebMediaStreamRendererFactory>
MediaFactory::CreateMediaStreamRendererFactory() {
  std::unique_ptr<blink::WebMediaStreamRendererFactory> factory =
      GetContentClient()->renderer()->CreateMediaStreamRendererFactory();
  if (factory.get())
    return factory;
#if BUILDFLAG(ENABLE_WEBRTC)
  return std::make_unique<MediaStreamRendererFactoryImpl>();
#else
  return nullptr;
#endif
}

media::DecoderFactory* MediaFactory::GetDecoderFactory() {
  if (!decoder_factory_) {
    std::unique_ptr<media::DecoderFactory> external_decoder_factory;
#if BUILDFLAG(ENABLE_MOJO_AUDIO_DECODER) || BUILDFLAG(ENABLE_MOJO_VIDEO_DECODER)
    external_decoder_factory.reset(
        new media::MojoDecoderFactory(GetMediaInterfaceFactory()));
#endif
    decoder_factory_.reset(
        new media::DefaultDecoderFactory(std::move(external_decoder_factory)));
  }

  return decoder_factory_.get();
}

#if BUILDFLAG(ENABLE_MEDIA_REMOTING)
media::mojom::RemoterFactory* MediaFactory::GetRemoterFactory() {
  if (!remoter_factory_) {
    DCHECK(remote_interfaces_);
    remote_interfaces_->GetInterface(&remoter_factory_);
  }
  return remoter_factory_.get();
}
#endif

media::CdmFactory* MediaFactory::GetCdmFactory() {
  if (cdm_factory_)
    return cdm_factory_.get();

#if defined(OS_FUCHSIA)
  cdm_factory_ = std::make_unique<media::FuchsiaCdmFactory>();
#elif BUILDFLAG(ENABLE_MOJO_CDM)
  cdm_factory_ =
      std::make_unique<media::MojoCdmFactory>(GetMediaInterfaceFactory());
#else
  cdm_factory_ = std::make_unique<media::DefaultCdmFactory>();
#endif  // BUILDFLAG(ENABLE_MOJO_CDM)

  return cdm_factory_.get();
}

#if BUILDFLAG(ENABLE_MOJO_MEDIA)
media::mojom::InterfaceFactory* MediaFactory::GetMediaInterfaceFactory() {
  if (!media_interface_factory_) {
    DCHECK(remote_interfaces_);
    media_interface_factory_.reset(
        new MediaInterfaceFactory(remote_interfaces_));
  }

  return media_interface_factory_.get();
}
#endif  // BUILDFLAG(ENABLE_MOJO_MEDIA)

}  // namespace content