shaka-packager/packager/packager.cc

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// Copyright 2017 Google Inc. All rights reserved.
//
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file or at
// https://developers.google.com/open-source/licenses/bsd
#include "packager/packager.h"
#include "packager/app/libcrypto_threading.h"
#include "packager/app/packager_util.h"
#include "packager/app/stream_descriptor.h"
#include "packager/base/at_exit.h"
#include "packager/base/files/file_path.h"
#include "packager/base/logging.h"
#include "packager/base/path_service.h"
#include "packager/base/strings/stringprintf.h"
#include "packager/base/threading/simple_thread.h"
#include "packager/base/time/clock.h"
#include "packager/file/file.h"
#include "packager/hls/base/hls_notifier.h"
#include "packager/hls/base/simple_hls_notifier.h"
#include "packager/media/base/container_names.h"
#include "packager/media/base/fourccs.h"
#include "packager/media/base/key_source.h"
#include "packager/media/base/muxer_options.h"
#include "packager/media/base/muxer_util.h"
#include "packager/media/chunking/chunking_handler.h"
#include "packager/media/crypto/encryption_handler.h"
#include "packager/media/demuxer/demuxer.h"
#include "packager/media/event/combined_muxer_listener.h"
#include "packager/media/event/hls_notify_muxer_listener.h"
#include "packager/media/event/mpd_notify_muxer_listener.h"
#include "packager/media/event/vod_media_info_dump_muxer_listener.h"
#include "packager/media/formats/mp2t/ts_muxer.h"
#include "packager/media/formats/mp4/mp4_muxer.h"
#include "packager/media/formats/webm/webm_muxer.h"
#include "packager/media/trick_play/trick_play_handler.h"
#include "packager/mpd/base/dash_iop_mpd_notifier.h"
#include "packager/mpd/base/media_info.pb.h"
#include "packager/mpd/base/mpd_builder.h"
#include "packager/mpd/base/simple_mpd_notifier.h"
#include "packager/version/version.h"
namespace shaka {
// TODO(kqyang): Clean up namespaces.
using media::Demuxer;
using media::KeySource;
using media::MuxerOptions;
namespace media {
namespace {
const char kMediaInfoSuffix[] = ".media_info";
// TODO(rkuroiwa): Write TTML and WebVTT parser (demuxing) for a better check
// and for supporting live/segmenting (muxing). With a demuxer and a muxer,
// CreateRemuxJobs() shouldn't treat text as a special case.
std::string DetermineTextFileFormat(const std::string& file) {
std::string content;
if (!File::ReadFileToString(file.c_str(), &content)) {
LOG(ERROR) << "Failed to open file " << file
<< " to determine file format.";
return "";
}
MediaContainerName container_name = DetermineContainer(
reinterpret_cast<const uint8_t*>(content.data()), content.size());
if (container_name == CONTAINER_WEBVTT) {
return "vtt";
} else if (container_name == CONTAINER_TTML) {
return "ttml";
}
return "";
}
MediaContainerName GetOutputFormat(const StreamDescriptor& descriptor) {
MediaContainerName output_format = CONTAINER_UNKNOWN;
if (!descriptor.output_format.empty()) {
output_format = DetermineContainerFromFormatName(descriptor.output_format);
if (output_format == CONTAINER_UNKNOWN) {
LOG(ERROR) << "Unable to determine output format from '"
<< descriptor.output_format << "'.";
}
} else {
const std::string& output_name = descriptor.output.empty()
? descriptor.segment_template
: descriptor.output;
if (output_name.empty())
return CONTAINER_UNKNOWN;
output_format = DetermineContainerFromFileName(output_name);
if (output_format == CONTAINER_UNKNOWN) {
LOG(ERROR) << "Unable to determine output format from '" << output_name
<< "'.";
}
}
return output_format;
}
Status ValidateStreamDescriptor(bool dump_stream_info,
const StreamDescriptor& stream) {
if (stream.input.empty()) {
return Status(error::INVALID_ARGUMENT, "Stream input not specified.");
}
// The only time a stream can have no outputs, is when dump stream info is
// set.
if (dump_stream_info && stream.output.empty() &&
stream.segment_template.empty()) {
return Status::OK;
}
if (stream.output.empty() && stream.segment_template.empty()) {
return Status(error::INVALID_ARGUMENT,
"Streams must specify 'output' or 'segment template'.");
}
// Whenever there is output, a stream must be selected.
if (stream.stream_selector.empty()) {
return Status(error::INVALID_ARGUMENT,
"Stream stream_selector not specified.");
}
// If a segment template is provided, it must be valid.
if (stream.segment_template.length()) {
Status template_check = ValidateSegmentTemplate(stream.segment_template);
if (!template_check.ok()) {
return template_check;
}
}
// There are some specifics that must be checked based on which format
// we are writing to.
const MediaContainerName output_format = GetOutputFormat(stream);
if (output_format == CONTAINER_UNKNOWN) {
return Status(error::INVALID_ARGUMENT, "Unsupported output format.");
} else if (output_format == MediaContainerName::CONTAINER_MPEG2TS) {
if (stream.segment_template.empty()) {
return Status(error::INVALID_ARGUMENT,
"Please specify segment_template. Single file TS output is "
"not supported.");
}
// Right now the init segment is saved in |output| for multi-segment
// content. However, for TS all segments must be self-initializing so
// there cannot be an init segment.
if (stream.output.length()) {
return Status(error::INVALID_ARGUMENT,
"All TS segments must be self-initializing. Stream "
"descriptors 'output' or 'init_segment' are not allowed.");
}
} else {
// For any other format, if there is a segment template, there must be an
// init segment provided.
if (stream.segment_template.length() && stream.output.empty()) {
return Status(error::INVALID_ARGUMENT,
"Please specify 'init_segment'. All non-TS multi-segment "
"content must provide an init segment.");
}
}
return Status::OK;
}
Status ValidateParams(const PackagingParams& packaging_params,
const std::vector<StreamDescriptor>& stream_descriptors) {
if (!packaging_params.chunking_params.segment_sap_aligned &&
packaging_params.chunking_params.subsegment_sap_aligned) {
return Status(error::INVALID_ARGUMENT,
"Setting segment_sap_aligned to false but "
"subsegment_sap_aligned to true is not allowed.");
}
if (stream_descriptors.empty()) {
return Status(error::INVALID_ARGUMENT,
"Stream descriptors cannot be empty.");
}
// On demand profile generates single file segment while live profile
// generates multiple segments specified using segment template.
const bool on_demand_dash_profile =
stream_descriptors.begin()->segment_template.empty();
for (const auto& descriptor : stream_descriptors) {
if (on_demand_dash_profile != descriptor.segment_template.empty()) {
return Status(error::INVALID_ARGUMENT,
"Inconsistent stream descriptor specification: "
"segment_template should be specified for none or all "
"stream descriptors.");
}
Status stream_check = ValidateStreamDescriptor(
packaging_params.test_params.dump_stream_info, descriptor);
if (!stream_check.ok()) {
return stream_check;
}
}
if (packaging_params.output_media_info && !on_demand_dash_profile) {
// TODO(rkuroiwa, kqyang): Support partial media info dump for live.
return Status(error::UNIMPLEMENTED,
"--output_media_info is only supported for on-demand profile "
"(not using segment_template).");
}
return Status::OK;
}
class StreamDescriptorCompareFn {
public:
bool operator()(const StreamDescriptor& a, const StreamDescriptor& b) {
if (a.input == b.input) {
if (a.stream_selector == b.stream_selector)
// Stream with high trick_play_factor is at the beginning.
return a.trick_play_factor > b.trick_play_factor;
else
return a.stream_selector < b.stream_selector;
}
return a.input < b.input;
}
};
/// Sorted list of StreamDescriptor.
typedef std::multiset<StreamDescriptor, StreamDescriptorCompareFn>
StreamDescriptorList;
// A fake clock that always return time 0 (epoch). Should only be used for
// testing.
class FakeClock : public base::Clock {
public:
base::Time Now() override { return base::Time(); }
};
class Job : public base::SimpleThread {
public:
Job(const std::string& name, std::shared_ptr<OriginHandler> work)
: SimpleThread(name),
work_(work),
wait_(base::WaitableEvent::ResetPolicy::MANUAL,
base::WaitableEvent::InitialState::NOT_SIGNALED) {}
void Initialize() {
DCHECK(work_);
status_ = work_->Initialize();
}
void Cancel() {
DCHECK(work_);
work_->Cancel();
}
const Status& status() const { return status_; }
base::WaitableEvent* wait() { return &wait_; }
private:
Job(const Job&) = delete;
Job& operator=(const Job&) = delete;
void Run() override {
DCHECK(work_);
status_ = work_->Run();
wait_.Signal();
}
std::shared_ptr<OriginHandler> work_;
Status status_;
base::WaitableEvent wait_;
};
bool StreamInfoToTextMediaInfo(const StreamDescriptor& stream_descriptor,
const MuxerOptions& stream_muxer_options,
MediaInfo* text_media_info) {
const std::string& language = stream_descriptor.language;
const std::string format = DetermineTextFileFormat(stream_descriptor.input);
if (format.empty()) {
LOG(ERROR) << "Failed to determine the text file format for "
<< stream_descriptor.input;
return false;
}
if (!File::Copy(stream_descriptor.input.c_str(),
stream_muxer_options.output_file_name.c_str())) {
LOG(ERROR) << "Failed to copy the input file (" << stream_descriptor.input
<< ") to output file (" << stream_muxer_options.output_file_name
<< ").";
return false;
}
text_media_info->set_media_file_name(stream_muxer_options.output_file_name);
text_media_info->set_container_type(MediaInfo::CONTAINER_TEXT);
if (stream_muxer_options.bandwidth != 0) {
text_media_info->set_bandwidth(stream_muxer_options.bandwidth);
} else {
// Text files are usually small and since the input is one file; there's no
// way for the player to do ranged requests. So set this value to something
// reasonable.
const int kDefaultTextBandwidth = 256;
text_media_info->set_bandwidth(kDefaultTextBandwidth);
}
MediaInfo::TextInfo* text_info = text_media_info->mutable_text_info();
text_info->set_format(format);
if (!language.empty())
text_info->set_language(language);
return true;
}
std::shared_ptr<Muxer> CreateOutputMuxer(const MuxerOptions& options,
MediaContainerName container) {
if (container == CONTAINER_WEBM) {
return std::shared_ptr<Muxer>(new webm::WebMMuxer(options));
} else if (container == CONTAINER_MPEG2TS) {
return std::shared_ptr<Muxer>(new mp2t::TsMuxer(options));
} else {
DCHECK_EQ(container, CONTAINER_MOV);
return std::shared_ptr<Muxer>(new mp4::MP4Muxer(options));
}
}
std::shared_ptr<MediaHandler> CreateCryptoHandler(
const PackagingParams& packaging_params,
const StreamDescriptor& stream,
KeySource* key_source) {
if (stream.skip_encryption) {
return nullptr;
}
if (!key_source) {
return nullptr;
}
// Make a copy so that we can modify it for this specific stream.
EncryptionParams encryption_params = packaging_params.encryption_params;
// Use Sample AES in MPEG2TS.
// TODO(kqyang): Consider adding a new flag to enable Sample AES as we
// will support CENC in TS in the future.
if (GetOutputFormat(stream) == CONTAINER_MPEG2TS) {
VLOG(1) << "Use Apple Sample AES encryption for MPEG2TS.";
encryption_params.protection_scheme = kAppleSampleAesProtectionScheme;
}
if (!encryption_params.stream_label_func) {
const int kDefaultMaxSdPixels = 768 * 576;
const int kDefaultMaxHdPixels = 1920 * 1080;
const int kDefaultMaxUhd1Pixels = 4096 * 2160;
encryption_params.stream_label_func = std::bind(
&Packager::DefaultStreamLabelFunction, kDefaultMaxSdPixels,
kDefaultMaxHdPixels, kDefaultMaxUhd1Pixels, std::placeholders::_1);
}
return std::make_shared<EncryptionHandler>(encryption_params, key_source);
}
Status CreateRemuxJobs(const StreamDescriptorList& stream_descriptors,
const PackagingParams& packaging_params,
FakeClock* fake_clock,
KeySource* encryption_key_source,
MpdNotifier* mpd_notifier,
hls::HlsNotifier* hls_notifier,
std::vector<std::unique_ptr<Job>>* jobs) {
// No notifiers OR (mpd_notifier XOR hls_notifier); which is NAND.
DCHECK(!(mpd_notifier && hls_notifier));
DCHECK(jobs);
std::shared_ptr<Demuxer> demuxer;
std::shared_ptr<TrickPlayHandler> trick_play_handler;
std::string previous_input;
std::string previous_stream_selector;
int stream_number = 0;
for (StreamDescriptorList::const_iterator
stream_iter = stream_descriptors.begin();
stream_iter != stream_descriptors.end();
++stream_iter, ++stream_number) {
MediaContainerName output_format = GetOutputFormat(*stream_iter);
// Process stream descriptor.
MuxerOptions stream_muxer_options;
stream_muxer_options.mp4_params = packaging_params.mp4_output_params;
stream_muxer_options.temp_dir = packaging_params.temp_dir;
stream_muxer_options.output_file_name = stream_iter->output;
if (!stream_iter->segment_template.empty()) {
Status template_check =
ValidateSegmentTemplate(stream_iter->segment_template);
if (!template_check.ok()) {
return template_check;
}
stream_muxer_options.segment_template = stream_iter->segment_template;
}
stream_muxer_options.bandwidth = stream_iter->bandwidth;
if (stream_iter->stream_selector == "text" &&
output_format != CONTAINER_MOV) {
MediaInfo text_media_info;
if (!StreamInfoToTextMediaInfo(*stream_iter, stream_muxer_options,
&text_media_info)) {
return Status(error::INVALID_ARGUMENT,
"Could not create media info for stream.");
}
if (mpd_notifier) {
uint32_t unused;
if (!mpd_notifier->NotifyNewContainer(text_media_info, &unused)) {
LOG(ERROR) << "Failed to process text file " << stream_iter->input;
} else {
mpd_notifier->Flush();
}
} else if (packaging_params.output_media_info) {
VodMediaInfoDumpMuxerListener::WriteMediaInfoToFile(
text_media_info,
stream_muxer_options.output_file_name + kMediaInfoSuffix);
}
continue;
}
if (stream_iter->input != previous_input) {
// New remux job needed. Create demux and job thread.
demuxer = std::make_shared<Demuxer>(stream_iter->input);
demuxer->set_dump_stream_info(
packaging_params.test_params.dump_stream_info);
if (packaging_params.decryption_params.key_provider !=
KeyProvider::kNone) {
std::unique_ptr<KeySource> decryption_key_source(
CreateDecryptionKeySource(packaging_params.decryption_params));
if (!decryption_key_source) {
return Status(
error::INVALID_ARGUMENT,
"Must define decryption key source when defining key provider");
}
demuxer->SetKeySource(std::move(decryption_key_source));
}
jobs->emplace_back(new media::Job("RemuxJob", demuxer));
trick_play_handler.reset();
previous_input = stream_iter->input;
// Skip setting up muxers if output is not needed.
if (stream_iter->output.empty() && stream_iter->segment_template.empty())
continue;
}
DCHECK(!jobs->empty());
// Each stream selector requires an individual trick play handler.
// E.g., an input with two video streams needs two trick play handlers.
// TODO(hmchen): add a test case in packager_test.py for two video streams
// input.
if (stream_iter->stream_selector != previous_stream_selector) {
previous_stream_selector = stream_iter->stream_selector;
trick_play_handler.reset();
}
std::shared_ptr<Muxer> muxer(
CreateOutputMuxer(stream_muxer_options, output_format));
if (packaging_params.test_params.inject_fake_clock)
muxer->set_clock(fake_clock);
std::list<std::unique_ptr<MuxerListener>> muxer_listeners;
DCHECK(!(packaging_params.output_media_info && mpd_notifier));
if (packaging_params.output_media_info) {
const std::string output_media_info_file_name =
stream_muxer_options.output_file_name + kMediaInfoSuffix;
muxer_listeners.emplace_back(
new VodMediaInfoDumpMuxerListener(output_media_info_file_name));
}
if (mpd_notifier) {
muxer_listeners.emplace_back(new MpdNotifyMuxerListener(mpd_notifier));
}
if (hls_notifier) {
// TODO(rkuroiwa): Do some smart stuff to group the audios, e.g. detect
// languages.
std::string group_id = stream_iter->hls_group_id;
std::string name = stream_iter->hls_name;
std::string hls_playlist_name = stream_iter->hls_playlist_name;
if (group_id.empty())
group_id = "audio";
if (name.empty())
name = base::StringPrintf("stream_%d", stream_number);
if (hls_playlist_name.empty())
hls_playlist_name = base::StringPrintf("stream_%d.m3u8", stream_number);
muxer_listeners.emplace_back(new HlsNotifyMuxerListener(
hls_playlist_name, name, group_id, hls_notifier));
}
if (!muxer_listeners.empty()) {
std::unique_ptr<CombinedMuxerListener> combined_muxer_listener(
new CombinedMuxerListener(&muxer_listeners));
muxer->SetMuxerListener(std::move(combined_muxer_listener));
}
// Create a new trick_play_handler. Note that the stream_decriptors
// are sorted so that for the same input and stream_selector, the main
// stream is always the last one following the trick play streams.
if (stream_iter->trick_play_factor > 0) {
if (!trick_play_handler) {
trick_play_handler.reset(new TrickPlayHandler());
}
trick_play_handler->SetHandlerForTrickPlay(stream_iter->trick_play_factor,
std::move(muxer));
if (trick_play_handler->IsConnected())
continue;
} else if (trick_play_handler) {
trick_play_handler->SetHandlerForMainStream(std::move(muxer));
DCHECK(trick_play_handler->IsConnected());
continue;
}
std::vector<std::shared_ptr<MediaHandler>> handlers;
auto chunking_handler =
std::make_shared<ChunkingHandler>(packaging_params.chunking_params);
handlers.push_back(chunking_handler);
std::shared_ptr<MediaHandler> crypto_handler = CreateCryptoHandler(
packaging_params, *stream_iter, encryption_key_source);
if (crypto_handler) {
handlers.push_back(crypto_handler);
}
// If trick_play_handler is available, muxer should already be connected to
// trick_play_handler.
if (trick_play_handler) {
handlers.push_back(trick_play_handler);
} else {
handlers.push_back(std::move(muxer));
}
Status status;
status.Update(
demuxer->SetHandler(stream_iter->stream_selector, chunking_handler));
status.Update(ConnectHandlers(handlers));
if (!status.ok()) {
return status;
}
if (!stream_iter->language.empty())
demuxer->SetLanguageOverride(stream_iter->stream_selector,
stream_iter->language);
}
// Initialize processing graph.
Status status;
for (const std::unique_ptr<Job>& job : *jobs) {
job->Initialize();
status.Update(job->status());
}
return status;
}
Status RunJobs(const std::vector<std::unique_ptr<Job>>& jobs) {
// We need to store the jobs and the waits separately in order to use the
// |WaitMany| function. |WaitMany| takes an array of WaitableEvents but we
// need to access the jobs in order to join the thread and check the status.
// The indexes needs to be check in sync or else we won't be able to relate a
// WaitableEvent back to the job.
std::vector<Job*> active_jobs;
std::vector<base::WaitableEvent*> active_waits;
// Start every job and add it to the active jobs list so that we can wait
// on each one.
for (auto& job : jobs) {
job->Start();
active_jobs.push_back(job.get());
active_waits.push_back(job->wait());
}
// Wait for all jobs to complete or an error occurs.
Status status;
while (status.ok() && active_jobs.size()) {
// Wait for an event to finish and then update our status so that we can
// quit if something has gone wrong.
const size_t done =
base::WaitableEvent::WaitMany(active_waits.data(), active_waits.size());
Job* job = active_jobs[done];
job->Join();
status.Update(job->status());
// Remove the job and the wait from our tracking.
active_jobs.erase(active_jobs.begin() + done);
active_waits.erase(active_waits.begin() + done);
}
// If the main loop has exited and there are still jobs running,
// we need to cancel them and clean-up.
for (auto& job : active_jobs) {
job->Cancel();
}
for (auto& job : active_jobs) {
job->Join();
}
return status;
}
} // namespace
} // namespace media
struct Packager::PackagerInternal {
media::FakeClock fake_clock;
std::unique_ptr<KeySource> encryption_key_source;
std::unique_ptr<MpdNotifier> mpd_notifier;
std::unique_ptr<hls::HlsNotifier> hls_notifier;
std::vector<std::unique_ptr<media::Job>> jobs;
};
Packager::Packager() {}
Packager::~Packager() {}
Status Packager::Initialize(
const PackagingParams& packaging_params,
const std::vector<StreamDescriptor>& stream_descriptors) {
// Needed by base::WorkedPool used in ThreadedIoFile.
static base::AtExitManager exit;
static media::LibcryptoThreading libcrypto_threading;
if (internal_)
return Status(error::INVALID_ARGUMENT, "Already initialized.");
Status param_check =
media::ValidateParams(packaging_params, stream_descriptors);
if (!param_check.ok()) {
return param_check;
}
if (!packaging_params.test_params.injected_library_version.empty()) {
SetPackagerVersionForTesting(
packaging_params.test_params.injected_library_version);
}
std::unique_ptr<PackagerInternal> internal(new PackagerInternal);
// Create encryption key source if needed.
if (packaging_params.encryption_params.key_provider != KeyProvider::kNone) {
internal->encryption_key_source = CreateEncryptionKeySource(
static_cast<media::FourCC>(
packaging_params.encryption_params.protection_scheme),
packaging_params.encryption_params);
if (!internal->encryption_key_source)
return Status(error::INVALID_ARGUMENT, "Failed to create key source.");
}
const MpdParams& mpd_params = packaging_params.mpd_params;
if (!mpd_params.mpd_output.empty()) {
const bool on_demand_dash_profile =
stream_descriptors.begin()->segment_template.empty();
MpdOptions mpd_options = media::GetMpdOptions(on_demand_dash_profile,
packaging_params.mpd_params);
if (mpd_params.generate_dash_if_iop_compliant_mpd) {
internal->mpd_notifier.reset(new DashIopMpdNotifier(mpd_options));
} else {
internal->mpd_notifier.reset(new SimpleMpdNotifier(mpd_options));
}
if (!internal->mpd_notifier->Init()) {
LOG(ERROR) << "MpdNotifier failed to initialize.";
return Status(error::INVALID_ARGUMENT,
"Failed to initialize MpdNotifier.");
}
}
const HlsParams& hls_params = packaging_params.hls_params;
if (!hls_params.master_playlist_output.empty()) {
base::FilePath master_playlist_path(
base::FilePath::FromUTF8Unsafe(hls_params.master_playlist_output));
base::FilePath master_playlist_name = master_playlist_path.BaseName();
internal->hls_notifier.reset(new hls::SimpleHlsNotifier(
hls_params.playlist_type, hls_params.time_shift_buffer_depth,
hls_params.base_url,
master_playlist_path.DirName().AsEndingWithSeparator().AsUTF8Unsafe(),
master_playlist_name.AsUTF8Unsafe()));
}
media::StreamDescriptorList stream_descriptor_list;
for (const StreamDescriptor& descriptor : stream_descriptors)
stream_descriptor_list.insert(descriptor);
Status status = media::CreateRemuxJobs(
stream_descriptor_list, packaging_params, &internal->fake_clock,
internal->encryption_key_source.get(), internal->mpd_notifier.get(),
internal->hls_notifier.get(), &internal->jobs);
if (status.ok()) {
internal_ = std::move(internal);
}
return status;
}
Status Packager::Run() {
if (!internal_)
return Status(error::INVALID_ARGUMENT, "Not yet initialized.");
Status status = media::RunJobs(internal_->jobs);
if (!status.ok())
return status;
if (internal_->hls_notifier) {
if (!internal_->hls_notifier->Flush())
return Status(error::INVALID_ARGUMENT, "Failed to flush Hls.");
}
if (internal_->mpd_notifier) {
if (!internal_->mpd_notifier->Flush())
return Status(error::INVALID_ARGUMENT, "Failed to flush Mpd.");
}
return Status::OK;
}
void Packager::Cancel() {
if (!internal_) {
LOG(INFO) << "Not yet initialized. Return directly.";
return;
}
for (const std::unique_ptr<media::Job>& job : internal_->jobs)
job->Cancel();
}
std::string Packager::GetLibraryVersion() {
return GetPackagerVersion();
}
std::string Packager::DefaultStreamLabelFunction(
int max_sd_pixels,
int max_hd_pixels,
int max_uhd1_pixels,
const EncryptionParams::EncryptedStreamAttributes& stream_attributes) {
if (stream_attributes.stream_type ==
EncryptionParams::EncryptedStreamAttributes::kAudio)
return "AUDIO";
if (stream_attributes.stream_type ==
EncryptionParams::EncryptedStreamAttributes::kVideo) {
const int pixels = stream_attributes.oneof.video.width *
stream_attributes.oneof.video.height;
if (pixels <= max_sd_pixels)
return "SD";
if (pixels <= max_hd_pixels)
return "HD";
if (pixels <= max_uhd1_pixels)
return "UHD1";
return "UHD2";
}
return "";
}
} // namespace shaka