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chromium / chromium / src / f8c5dd0d94c9196dd5e40c5c3d858ba92c337a86 / . / chromecast / media / cma / backend / media_pipeline_backend_wrapper.cc
blob: 9b77e2dfafd0daa8102e642e79e700415d032c10 [file] [log] [blame]
// 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 "chromecast/media/cma/backend/media_pipeline_backend_wrapper.h"
#include "base/logging.h"
#include "base/memory/ptr_util.h"
#include "chromecast/media/cma/backend/audio_decoder_wrapper.h"
#include "chromecast/media/cma/backend/media_pipeline_backend_manager.h"
#include "chromecast/media/cma/backend/video_decoder_wrapper.h"
#include "chromecast/public/cast_media_shlib.h"
#include "chromecast/public/media/media_pipeline_backend.h"
#include "chromecast/public/volume_control.h"
namespace chromecast {
namespace media {
using DecoderType = MediaPipelineBackendManager::DecoderType;
// DecoderCreatorCmaBackend transfers the ownership of the created Decoders.
class DecoderCreatorCmaBackend : public CmaBackend {
public:
virtual std::unique_ptr<AudioDecoderWrapper> CreateAudioDecoderWrapper() = 0;
virtual std::unique_ptr<VideoDecoderWrapper> CreateVideoDecoderWrapper() = 0;
};
namespace {
class RevokedMediaPipelineBackendWrapper : public DecoderCreatorCmaBackend {
public:
RevokedMediaPipelineBackendWrapper(const AudioContentType& content_type,
int64_t current_pts)
: content_type_(content_type), current_pts_(current_pts) {}
~RevokedMediaPipelineBackendWrapper() override = default;
std::unique_ptr<AudioDecoderWrapper> CreateAudioDecoderWrapper() override {
return std::make_unique<AudioDecoderWrapper>(content_type_);
}
std::unique_ptr<VideoDecoderWrapper> CreateVideoDecoderWrapper() override {
return std::make_unique<VideoDecoderWrapper>();
}
// CmaBackend implementation:
CmaBackend::AudioDecoder* CreateAudioDecoder() override {
NOTREACHED();
return nullptr;
}
CmaBackend::VideoDecoder* CreateVideoDecoder() override {
NOTREACHED();
return nullptr;
}
bool Initialize() override { return true; }
bool Start(int64_t start_pts) override { return true; }
void Stop() override {}
bool Pause() override { return true; }
bool Resume() override { return true; }
int64_t GetCurrentPts() override { return current_pts_; }
bool SetPlaybackRate(float rate) override { return true; }
void LogicalPause() override {}
void LogicalResume() override {}
private:
const AudioContentType content_type_;
const int64_t current_pts_;
DISALLOW_COPY_AND_ASSIGN(RevokedMediaPipelineBackendWrapper);
};
} // namespace
class ActiveMediaPipelineBackendWrapper : public DecoderCreatorCmaBackend {
public:
ActiveMediaPipelineBackendWrapper(
const media::MediaPipelineDeviceParams& params,
MediaPipelineBackendManager* backend_manager);
~ActiveMediaPipelineBackendWrapper() override;
// DecoderCreatorCmaBackend implementation:
// Audio/VideoDecoders are owned by the MediaPipelineBackendWrapper.
std::unique_ptr<AudioDecoderWrapper> CreateAudioDecoderWrapper() override;
std::unique_ptr<VideoDecoderWrapper> CreateVideoDecoderWrapper() override;
// CmaBackend implementation:
AudioDecoder* CreateAudioDecoder() override;
VideoDecoder* CreateVideoDecoder() override;
bool Initialize() override;
bool Start(int64_t start_pts) override;
void Stop() override;
bool Pause() override;
bool Resume() override;
int64_t GetCurrentPts() override;
bool SetPlaybackRate(float rate) override;
void LogicalPause() override;
void LogicalResume() override;
private:
void SetPlaying(bool playing);
bool IsSfx() {
return audio_stream_type_ ==
media::MediaPipelineDeviceParams::kAudioStreamSoundEffects;
}
AudioDecoderWrapper* audio_decoder_ptr_;
bool video_decoder_created_;
const std::unique_ptr<MediaPipelineBackend> backend_;
MediaPipelineBackendManager* const backend_manager_;
const MediaPipelineDeviceParams::AudioStreamType audio_stream_type_;
const AudioContentType content_type_;
bool playing_;
DISALLOW_COPY_AND_ASSIGN(ActiveMediaPipelineBackendWrapper);
};
ActiveMediaPipelineBackendWrapper::ActiveMediaPipelineBackendWrapper(
const media::MediaPipelineDeviceParams& params,
MediaPipelineBackendManager* backend_manager)
: audio_decoder_ptr_(nullptr),
video_decoder_created_(false),
backend_(base::WrapUnique(
media::CastMediaShlib::CreateMediaPipelineBackend(params))),
backend_manager_(backend_manager),
audio_stream_type_(params.audio_type),
content_type_(params.content_type),
playing_(false) {
DCHECK(backend_);
DCHECK(backend_manager_);
}
ActiveMediaPipelineBackendWrapper::~ActiveMediaPipelineBackendWrapper() {
// When the backend is revoked, the video/audio_decoder should be considered
// gone to |backend_manager_|. The reason is that the replacement of the
// Audio/VideoDecoderWrapper are dummy ones that are not actually playing.
if (audio_decoder_ptr_) {
backend_manager_->DecrementDecoderCount(
IsSfx() ? DecoderType::SFX_DECODER : DecoderType::AUDIO_DECODER);
if (playing_) {
backend_manager_->UpdatePlayingAudioCount(IsSfx(), content_type_, -1);
}
}
if (video_decoder_created_) {
backend_manager_->DecrementDecoderCount(DecoderType::VIDEO_DECODER);
}
}
CmaBackend::AudioDecoder*
ActiveMediaPipelineBackendWrapper::CreateAudioDecoder() {
NOTREACHED();
return nullptr;
}
CmaBackend::VideoDecoder*
ActiveMediaPipelineBackendWrapper::CreateVideoDecoder() {
NOTREACHED();
return nullptr;
}
void ActiveMediaPipelineBackendWrapper::LogicalPause() {
SetPlaying(false);
}
void ActiveMediaPipelineBackendWrapper::LogicalResume() {
SetPlaying(true);
}
std::unique_ptr<AudioDecoderWrapper>
ActiveMediaPipelineBackendWrapper::CreateAudioDecoderWrapper() {
DCHECK(!audio_decoder_ptr_);
if (!backend_manager_->IncrementDecoderCount(
IsSfx() ? DecoderType::SFX_DECODER : DecoderType::AUDIO_DECODER))
return nullptr;
MediaPipelineBackend::AudioDecoder* real_decoder =
backend_->CreateAudioDecoder();
if (!real_decoder) {
return nullptr;
}
MediaPipelineBackendManager::BufferDelegate* delegate = nullptr;
// Only set delegate for the primary media stream.
if (content_type_ == media::AudioContentType::kMedia &&
audio_stream_type_ ==
media::MediaPipelineDeviceParams::kAudioStreamNormal) {
delegate = backend_manager_->buffer_delegate();
}
auto audio_decoder = std::make_unique<AudioDecoderWrapper>(
backend_manager_, real_decoder, content_type_, delegate);
audio_decoder_ptr_ = audio_decoder.get();
return audio_decoder;
}
std::unique_ptr<VideoDecoderWrapper>
ActiveMediaPipelineBackendWrapper::CreateVideoDecoderWrapper() {
DCHECK(!video_decoder_created_);
if (!backend_manager_->IncrementDecoderCount(DecoderType::VIDEO_DECODER))
return nullptr;
MediaPipelineBackend::VideoDecoder* real_decoder =
backend_->CreateVideoDecoder();
if (!real_decoder) {
return nullptr;
}
video_decoder_created_ = true;
auto video_decoder = std::make_unique<VideoDecoderWrapper>(real_decoder);
return video_decoder;
}
bool ActiveMediaPipelineBackendWrapper::Initialize() {
bool success = backend_->Initialize();
if (success && audio_decoder_ptr_) {
audio_decoder_ptr_->OnInitialized();
}
return success;
}
bool ActiveMediaPipelineBackendWrapper::Start(int64_t start_pts) {
if (!backend_->Start(start_pts)) {
return false;
}
SetPlaying(true);
return true;
}
void ActiveMediaPipelineBackendWrapper::Stop() {
backend_->Stop();
SetPlaying(false);
}
bool ActiveMediaPipelineBackendWrapper::Pause() {
if (!backend_->Pause()) {
return false;
}
SetPlaying(false);
return true;
}
bool ActiveMediaPipelineBackendWrapper::Resume() {
if (!backend_->Resume()) {
return false;
}
SetPlaying(true);
return true;
}
int64_t ActiveMediaPipelineBackendWrapper::GetCurrentPts() {
return backend_->GetCurrentPts();
}
bool ActiveMediaPipelineBackendWrapper::SetPlaybackRate(float rate) {
return backend_->SetPlaybackRate(rate);
}
void ActiveMediaPipelineBackendWrapper::SetPlaying(bool playing) {
if (playing == playing_) {
return;
}
playing_ = playing;
if (audio_decoder_ptr_) {
backend_manager_->UpdatePlayingAudioCount(IsSfx(), content_type_,
(playing_ ? 1 : -1));
}
}
MediaPipelineBackendWrapper::MediaPipelineBackendWrapper(
const media::MediaPipelineDeviceParams& params,
MediaPipelineBackendManager* backend_manager)
: revoked_(false),
backend_manager_(backend_manager),
content_type_(params.content_type) {
backend_ = std::make_unique<ActiveMediaPipelineBackendWrapper>(
params, backend_manager);
}
MediaPipelineBackendWrapper::~MediaPipelineBackendWrapper() {
backend_manager_->BackendDestroyed(this);
}
void MediaPipelineBackendWrapper::Revoke() {
if (!revoked_) {
revoked_ = true;
if (audio_decoder_)
audio_decoder_->Revoke();
if (video_decoder_)
video_decoder_->Revoke();
backend_ = std::make_unique<RevokedMediaPipelineBackendWrapper>(
content_type_, backend_->GetCurrentPts());
}
}
CmaBackend::AudioDecoder* MediaPipelineBackendWrapper::CreateAudioDecoder() {
DCHECK(!audio_decoder_);
audio_decoder_ = backend_->CreateAudioDecoderWrapper();
return audio_decoder_.get();
}
CmaBackend::VideoDecoder* MediaPipelineBackendWrapper::CreateVideoDecoder() {
DCHECK(!video_decoder_);
video_decoder_ = backend_->CreateVideoDecoderWrapper();
return video_decoder_.get();
}
bool MediaPipelineBackendWrapper::Initialize() {
return backend_->Initialize();
}
bool MediaPipelineBackendWrapper::Start(int64_t start_pts) {
return backend_->Start(start_pts);
}
void MediaPipelineBackendWrapper::Stop() {
backend_->Stop();
}
bool MediaPipelineBackendWrapper::Pause() {
return backend_->Pause();
}
bool MediaPipelineBackendWrapper::Resume() {
return backend_->Resume();
}
int64_t MediaPipelineBackendWrapper::GetCurrentPts() {
return backend_->GetCurrentPts();
}
bool MediaPipelineBackendWrapper::SetPlaybackRate(float rate) {
return backend_->SetPlaybackRate(rate);
}
void MediaPipelineBackendWrapper::LogicalPause() {
return backend_->LogicalPause();
}
void MediaPipelineBackendWrapper::LogicalResume() {
return backend_->LogicalResume();
}
} // namespace media
} // namespace chromecast