GStreamerRegistryScanner.cpp [plain text]
#include "config.h"
#include "GStreamerRegistryScanner.h"
#if USE(GSTREAMER)
#include "ContentType.h"
#include "GStreamerCommon.h"
#include "RuntimeApplicationChecks.h"
#include <fnmatch.h>
#include <gst/pbutils/codec-utils.h>
#include <wtf/PrintStream.h>
#include <wtf/WeakPtr.h>
namespace WebCore {
GST_DEBUG_CATEGORY_STATIC(webkit_media_gst_registry_scanner_debug);
#define GST_CAT_DEFAULT webkit_media_gst_registry_scanner_debug
GStreamerRegistryScanner& GStreamerRegistryScanner::singleton()
{
static NeverDestroyed<GStreamerRegistryScanner> sharedInstance;
return sharedInstance;
}
void GStreamerRegistryScanner::getSupportedDecodingTypes(HashSet<String, ASCIICaseInsensitiveHash>& types)
{
if (isInWebProcess())
types = singleton().mimeTypeSet(GStreamerRegistryScanner::Configuration::Decoding);
else
types = GStreamerRegistryScanner().mimeTypeSet(GStreamerRegistryScanner::Configuration::Decoding);
}
GStreamerRegistryScanner::ElementFactories::ElementFactories(OptionSet<ElementFactories::Type> types)
{
if (types.contains(Type::AudioDecoder))
audioDecoderFactories = gst_element_factory_list_get_elements(GST_ELEMENT_FACTORY_TYPE_DECODER | GST_ELEMENT_FACTORY_TYPE_MEDIA_AUDIO, GST_RANK_MARGINAL);
if (types.contains(Type::AudioParser))
audioParserFactories = gst_element_factory_list_get_elements(GST_ELEMENT_FACTORY_TYPE_PARSER | GST_ELEMENT_FACTORY_TYPE_MEDIA_AUDIO, GST_RANK_NONE);
if (types.contains(Type::VideoDecoder))
videoDecoderFactories = gst_element_factory_list_get_elements(GST_ELEMENT_FACTORY_TYPE_DECODER | GST_ELEMENT_FACTORY_TYPE_MEDIA_VIDEO, GST_RANK_MARGINAL);
if (types.contains(Type::VideoParser))
videoParserFactories = gst_element_factory_list_get_elements(GST_ELEMENT_FACTORY_TYPE_PARSER | GST_ELEMENT_FACTORY_TYPE_MEDIA_VIDEO, GST_RANK_MARGINAL);
if (types.contains(Type::Demuxer))
demuxerFactories = gst_element_factory_list_get_elements(GST_ELEMENT_FACTORY_TYPE_DEMUXER, GST_RANK_MARGINAL);
if (types.contains(Type::AudioEncoder))
audioEncoderFactories = gst_element_factory_list_get_elements(GST_ELEMENT_FACTORY_TYPE_ENCODER | GST_ELEMENT_FACTORY_TYPE_MEDIA_AUDIO, GST_RANK_MARGINAL);
if (types.contains(Type::VideoEncoder))
videoEncoderFactories = gst_element_factory_list_get_elements(GST_ELEMENT_FACTORY_TYPE_ENCODER | GST_ELEMENT_FACTORY_TYPE_MEDIA_VIDEO, GST_RANK_MARGINAL);
if (types.contains(Type::Muxer))
muxerFactories = gst_element_factory_list_get_elements(GST_ELEMENT_FACTORY_TYPE_MUXER, GST_RANK_MARGINAL);
}
GStreamerRegistryScanner::ElementFactories::~ElementFactories()
{
gst_plugin_feature_list_free(audioDecoderFactories);
gst_plugin_feature_list_free(audioParserFactories);
gst_plugin_feature_list_free(videoDecoderFactories);
gst_plugin_feature_list_free(videoParserFactories);
gst_plugin_feature_list_free(demuxerFactories);
gst_plugin_feature_list_free(audioEncoderFactories);
gst_plugin_feature_list_free(videoEncoderFactories);
gst_plugin_feature_list_free(muxerFactories);
}
const char* GStreamerRegistryScanner::ElementFactories::elementFactoryTypeToString(GStreamerRegistryScanner::ElementFactories::Type factoryType)
{
switch (factoryType) {
case Type::AudioParser:
return "audio parser";
case Type::AudioDecoder:
return "audio decoder";
case Type::VideoParser:
return "video parser";
case Type::VideoDecoder:
return "video decoder";
case Type::Demuxer:
return "demuxer";
case Type::AudioEncoder:
return "audio encoder";
case Type::VideoEncoder:
return "video encoder";
case Type::Muxer:
return "muxer";
case Type::All:
break;
}
RELEASE_ASSERT_NOT_REACHED();
}
GList* GStreamerRegistryScanner::ElementFactories::factory(GStreamerRegistryScanner::ElementFactories::Type factoryType) const
{
switch (factoryType) {
case GStreamerRegistryScanner::ElementFactories::Type::AudioParser:
return audioParserFactories;
case GStreamerRegistryScanner::ElementFactories::Type::AudioDecoder:
return audioDecoderFactories;
case GStreamerRegistryScanner::ElementFactories::Type::VideoParser:
return videoParserFactories;
case GStreamerRegistryScanner::ElementFactories::Type::VideoDecoder:
return videoDecoderFactories;
case GStreamerRegistryScanner::ElementFactories::Type::Demuxer:
return demuxerFactories;
case GStreamerRegistryScanner::ElementFactories::Type::AudioEncoder:
return audioEncoderFactories;
case GStreamerRegistryScanner::ElementFactories::Type::VideoEncoder:
return videoEncoderFactories;
case GStreamerRegistryScanner::ElementFactories::Type::Muxer:
return muxerFactories;
case GStreamerRegistryScanner::ElementFactories::Type::All:
break;
}
RELEASE_ASSERT_NOT_REACHED();
}
GStreamerRegistryScanner::RegistryLookupResult GStreamerRegistryScanner::ElementFactories::hasElementForMediaType(ElementFactories::Type factoryType, const char* capsString, ElementFactories::CheckHardwareClassifier shouldCheckHardwareClassifier, Optional<Vector<String>> disallowedList) const
{
auto* elementFactories = factory(factoryType);
if (!elementFactories)
return { };
GstPadDirection padDirection = GST_PAD_SINK;
if (factoryType == Type::AudioEncoder || factoryType == Type::VideoEncoder || factoryType == Type::Muxer)
padDirection = GST_PAD_SRC;
GRefPtr<GstCaps> caps = adoptGRef(gst_caps_from_string(capsString));
GList* candidates = gst_element_factory_list_filter(elementFactories, caps.get(), padDirection, false);
bool isSupported = candidates;
bool isUsingHardware = false;
if (disallowedList.hasValue() && !disallowedList->isEmpty()) {
bool hasValidCandidate = false;
for (GList* factories = candidates; factories; factories = g_list_next(factories)) {
String name = String::fromUTF8(gst_plugin_feature_get_name(GST_PLUGIN_FEATURE_CAST(factories->data)));
if (disallowedList->contains(name))
continue;
hasValidCandidate = true;
break;
}
if (!hasValidCandidate) {
GST_WARNING("All %s elements matching caps %" GST_PTR_FORMAT " are disallowed", elementFactoryTypeToString(factoryType), caps.get());
isSupported = false;
shouldCheckHardwareClassifier = CheckHardwareClassifier::No;
}
}
if (shouldCheckHardwareClassifier == CheckHardwareClassifier::Yes) {
for (GList* factories = candidates; factories; factories = g_list_next(factories)) {
auto* factory = reinterpret_cast<GstElementFactory*>(factories->data);
String metadata = gst_element_factory_get_metadata(factory, GST_ELEMENT_METADATA_KLASS);
auto components = metadata.split('/');
if (components.contains("Hardware")) {
isUsingHardware = true;
break;
}
}
}
gst_plugin_feature_list_free(candidates);
GST_LOG("Lookup result for %s matching caps %" GST_PTR_FORMAT " : isSupported=%s, isUsingHardware=%s", elementFactoryTypeToString(factoryType), caps.get(), boolForPrinting(isSupported), boolForPrinting(isUsingHardware));
return { isSupported, isUsingHardware };
}
GStreamerRegistryScanner::GStreamerRegistryScanner(bool isMediaSource)
: m_isMediaSource(isMediaSource)
{
if (!isInWebProcess())
gst_init(nullptr, nullptr);
GST_DEBUG_CATEGORY_INIT(webkit_media_gst_registry_scanner_debug, "webkitregistryscanner", 0, "WebKit GStreamer registry scanner");
ElementFactories factories(OptionSet<ElementFactories::Type>::fromRaw(static_cast<unsigned>(ElementFactories::Type::All)));
initializeDecoders(factories);
initializeEncoders(factories);
#ifndef GST_DISABLE_GST_DEBUG
GST_DEBUG("%s registry scanner initialized", m_isMediaSource ? "MSE" : "Regular playback");
for (auto& mimeType : m_decoderMimeTypeSet)
GST_DEBUG("Decoder mime-type registered: %s", mimeType.utf8().data());
for (auto& item : m_decoderCodecMap)
GST_DEBUG("%s decoder codec pattern registered: %s", item.value ? "Hardware" : "Software", item.key.string().utf8().data());
for (auto& mimeType : m_encoderMimeTypeSet)
GST_DEBUG("Encoder mime-type registered: %s", mimeType.utf8().data());
for (auto& item : m_encoderCodecMap)
GST_DEBUG("%s encoder codec pattern registered: %s", item.value ? "Hardware" : "Software", item.key.string().utf8().data());
#endif
}
const HashSet<String, ASCIICaseInsensitiveHash>& GStreamerRegistryScanner::mimeTypeSet(Configuration configuration) const
{
switch (configuration) {
case Configuration::Decoding:
return m_decoderMimeTypeSet;
case Configuration::Encoding:
return m_encoderMimeTypeSet;
}
RELEASE_ASSERT_NOT_REACHED();
}
bool GStreamerRegistryScanner::isContainerTypeSupported(Configuration configuration, const String& containerType) const
{
switch (configuration) {
case Configuration::Decoding:
return m_decoderMimeTypeSet.contains(containerType);
case Configuration::Encoding:
return m_encoderMimeTypeSet.contains(containerType);
}
RELEASE_ASSERT_NOT_REACHED();
}
void GStreamerRegistryScanner::fillMimeTypeSetFromCapsMapping(const GStreamerRegistryScanner::ElementFactories& factories, const Vector<GstCapsWebKitMapping>& mapping)
{
for (const auto& current : mapping) {
if (factories.hasElementForMediaType(current.elementType, current.capsString)) {
if (!current.webkitCodecPatterns.isEmpty()) {
for (const auto& pattern : current.webkitCodecPatterns)
m_decoderCodecMap.add(pattern, false);
}
if (!current.webkitMimeTypes.isEmpty()) {
for (const auto& mimeType : current.webkitMimeTypes)
m_decoderMimeTypeSet.add(mimeType);
} else
m_decoderMimeTypeSet.add(AtomString(current.capsString));
}
}
}
void GStreamerRegistryScanner::initializeDecoders(const GStreamerRegistryScanner::ElementFactories& factories)
{
if (factories.hasElementForMediaType(ElementFactories::Type::AudioDecoder, "audio/mpeg, mpegversion=(int)4")) {
m_decoderMimeTypeSet.add(AtomString("audio/aac"));
m_decoderMimeTypeSet.add(AtomString("audio/mp4"));
m_decoderMimeTypeSet.add(AtomString("audio/x-m4a"));
m_decoderCodecMap.add(AtomString("mpeg"), false);
m_decoderCodecMap.add(AtomString("mp4a*"), false);
}
auto opusSupported = factories.hasElementForMediaType(ElementFactories::Type::AudioDecoder, "audio/x-opus");
if (opusSupported && (!m_isMediaSource || factories.hasElementForMediaType(ElementFactories::Type::AudioParser, "audio/x-opus"))) {
m_decoderMimeTypeSet.add(AtomString("audio/opus"));
m_decoderCodecMap.add(AtomString("opus"), false);
m_decoderCodecMap.add(AtomString("x-opus"), false);
}
auto vorbisSupported = factories.hasElementForMediaType(ElementFactories::Type::AudioDecoder, "audio/x-vorbis");
if (vorbisSupported && (!m_isMediaSource || factories.hasElementForMediaType(ElementFactories::Type::AudioParser, "audio/x-vorbis"))) {
m_decoderCodecMap.add(AtomString("vorbis"), false);
m_decoderCodecMap.add(AtomString("x-vorbis"), false);
}
bool matroskaSupported = factories.hasElementForMediaType(ElementFactories::Type::Demuxer, "video/x-matroska");
if (matroskaSupported) {
auto vp8DecoderAvailable = factories.hasElementForMediaType(ElementFactories::Type::VideoDecoder, "video/x-vp8", ElementFactories::CheckHardwareClassifier::Yes);
auto vp9DecoderAvailable = factories.hasElementForMediaType(ElementFactories::Type::VideoDecoder, "video/x-vp9", ElementFactories::CheckHardwareClassifier::Yes);
if (vp8DecoderAvailable || vp9DecoderAvailable)
m_decoderMimeTypeSet.add(AtomString("video/webm"));
if (vp8DecoderAvailable) {
m_decoderCodecMap.add(AtomString("vp8"), vp8DecoderAvailable.isUsingHardware);
m_decoderCodecMap.add(AtomString("x-vp8"), vp8DecoderAvailable.isUsingHardware);
m_decoderCodecMap.add(AtomString("vp8.0"), vp8DecoderAvailable.isUsingHardware);
}
if (vp9DecoderAvailable) {
m_decoderCodecMap.add(AtomString("vp9"), vp9DecoderAvailable.isUsingHardware);
m_decoderCodecMap.add(AtomString("x-vp9"), vp9DecoderAvailable.isUsingHardware);
m_decoderCodecMap.add(AtomString("vp9.0"), vp9DecoderAvailable.isUsingHardware);
m_decoderCodecMap.add(AtomString("vp09*"), vp9DecoderAvailable.isUsingHardware);
}
if (opusSupported)
m_decoderMimeTypeSet.add(AtomString("audio/webm"));
}
auto h264DecoderAvailable = factories.hasElementForMediaType(ElementFactories::Type::VideoDecoder, "video/x-h264, profile=(string){ constrained-baseline, baseline, high }", ElementFactories::CheckHardwareClassifier::Yes);
if (h264DecoderAvailable && (!m_isMediaSource || factories.hasElementForMediaType(ElementFactories::Type::VideoParser, "video/x-h264"))) {
m_decoderMimeTypeSet.add(AtomString("video/mp4"));
m_decoderMimeTypeSet.add(AtomString("video/x-m4v"));
m_decoderCodecMap.add(AtomString("x-h264"), h264DecoderAvailable.isUsingHardware);
m_decoderCodecMap.add(AtomString("avc*"), h264DecoderAvailable.isUsingHardware);
m_decoderCodecMap.add(AtomString("mp4v*"), h264DecoderAvailable.isUsingHardware);
}
Vector<String> av1DecodersDisallowedList { "av1dec"_s };
if ((matroskaSupported || isContainerTypeSupported(Configuration::Decoding, "video/mp4")) && factories.hasElementForMediaType(ElementFactories::Type::VideoDecoder, "video/x-av1", ElementFactories::CheckHardwareClassifier::No, makeOptional(WTFMove(av1DecodersDisallowedList)))) {
m_decoderCodecMap.add(AtomString("av01*"), false);
m_decoderCodecMap.add(AtomString("av1"), false);
m_decoderCodecMap.add(AtomString("x-av1"), false);
}
if (m_isMediaSource)
return;
Vector<GstCapsWebKitMapping> mapping = {
{ ElementFactories::Type::AudioDecoder, "audio/midi", { "audio/midi", "audio/riff-midi" }, { } },
{ ElementFactories::Type::AudioDecoder, "audio/x-ac3", { }, { } },
{ ElementFactories::Type::AudioDecoder, "audio/x-dts", { }, { } },
{ ElementFactories::Type::AudioDecoder, "audio/x-eac3", { "audio/x-ac3" }, { } },
{ ElementFactories::Type::AudioDecoder, "audio/x-flac", { "audio/x-flac", "audio/flac" }, { } },
{ ElementFactories::Type::AudioDecoder, "audio/x-sbc", { }, { } },
{ ElementFactories::Type::AudioDecoder, "audio/x-sid", { }, { } },
{ ElementFactories::Type::AudioDecoder, "audio/x-speex", { "audio/speex", "audio/x-speex" }, { } },
{ ElementFactories::Type::AudioDecoder, "audio/x-wavpack", { "audio/x-wavpack" }, { } },
{ ElementFactories::Type::VideoDecoder, "video/mpeg, mpegversion=(int){1,2}, systemstream=(boolean)false", { "video/mpeg" }, { "mpeg" } },
{ ElementFactories::Type::VideoDecoder, "video/mpegts", { }, { } },
{ ElementFactories::Type::VideoDecoder, "video/x-dirac", { }, { } },
{ ElementFactories::Type::VideoDecoder, "video/x-flash-video", { "video/flv", "video/x-flv" }, { } },
{ ElementFactories::Type::VideoDecoder, "video/x-h263", { }, { } },
{ ElementFactories::Type::VideoDecoder, "video/x-msvideocodec", { "video/x-msvideo" }, { } },
{ ElementFactories::Type::Demuxer, "application/vnd.rn-realmedia", { }, { } },
{ ElementFactories::Type::Demuxer, "application/x-3gp", { }, { } },
{ ElementFactories::Type::Demuxer, "application/x-hls", { "application/vnd.apple.mpegurl", "application/x-mpegurl" }, { } },
{ ElementFactories::Type::Demuxer, "application/x-pn-realaudio", { }, { } },
{ ElementFactories::Type::Demuxer, "audio/x-aiff", { }, { } },
{ ElementFactories::Type::Demuxer, "audio/x-wav", { "audio/x-wav", "audio/wav", "audio/vnd.wave" }, { "1" } },
{ ElementFactories::Type::Demuxer, "video/quicktime", { }, { } },
{ ElementFactories::Type::Demuxer, "video/quicktime, variant=(string)3gpp", { "video/3gpp" }, { } },
{ ElementFactories::Type::Demuxer, "video/x-ms-asf", { }, { } },
};
fillMimeTypeSetFromCapsMapping(factories, mapping);
if (factories.hasElementForMediaType(ElementFactories::Type::Demuxer, "application/ogg")) {
m_decoderMimeTypeSet.add(AtomString("application/ogg"));
if (vorbisSupported) {
m_decoderMimeTypeSet.add(AtomString("audio/ogg"));
m_decoderMimeTypeSet.add(AtomString("audio/x-vorbis+ogg"));
}
if (factories.hasElementForMediaType(ElementFactories::Type::AudioDecoder, "audio/x-speex")) {
m_decoderMimeTypeSet.add(AtomString("audio/ogg"));
m_decoderCodecMap.add(AtomString("speex"), false);
}
if (factories.hasElementForMediaType(ElementFactories::Type::VideoDecoder, "video/x-theora")) {
m_decoderMimeTypeSet.add(AtomString("video/ogg"));
m_decoderCodecMap.add(AtomString("theora"), false);
}
}
bool audioMpegSupported = false;
if (factories.hasElementForMediaType(ElementFactories::Type::AudioDecoder, "audio/mpeg, mpegversion=(int)1, layer=(int)[1, 3]")) {
audioMpegSupported = true;
m_decoderMimeTypeSet.add(AtomString("audio/mp1"));
m_decoderMimeTypeSet.add(AtomString("audio/mp3"));
m_decoderMimeTypeSet.add(AtomString("audio/x-mp3"));
m_decoderCodecMap.add(AtomString("audio/mp3"), false);
m_decoderCodecMap.add(AtomString("mp3"), false);
}
if (factories.hasElementForMediaType(ElementFactories::Type::AudioDecoder, "audio/mpeg, mpegversion=(int)2")) {
audioMpegSupported = true;
m_decoderMimeTypeSet.add(AtomString("audio/mp2"));
}
audioMpegSupported |= isContainerTypeSupported(Configuration::Decoding, "audio/mp4");
if (audioMpegSupported) {
m_decoderMimeTypeSet.add(AtomString("audio/mpeg"));
m_decoderMimeTypeSet.add(AtomString("audio/x-mpeg"));
}
if (matroskaSupported) {
m_decoderMimeTypeSet.add(AtomString("video/x-matroska"));
if (factories.hasElementForMediaType(ElementFactories::Type::VideoDecoder, "video/x-vp10"))
m_decoderMimeTypeSet.add(AtomString("video/webm"));
}
}
void GStreamerRegistryScanner::initializeEncoders(const GStreamerRegistryScanner::ElementFactories& factories)
{
if (m_isMediaSource)
return;
auto aacSupported = factories.hasElementForMediaType(ElementFactories::Type::AudioEncoder, "audio/mpeg, mpegversion=(int)4");
if (factories.hasElementForMediaType(ElementFactories::Type::AudioEncoder, "audio/mpeg, mpegversion=(int)4")) {
m_encoderCodecMap.add(AtomString("mpeg"), false);
m_encoderCodecMap.add(AtomString("mp4a*"), false);
}
auto opusSupported = factories.hasElementForMediaType(ElementFactories::Type::AudioEncoder, "audio/x-opus");
if (opusSupported) {
m_encoderCodecMap.add(AtomString("opus"), false);
m_encoderCodecMap.add(AtomString("x-opus"), false);
}
auto vorbisSupported = factories.hasElementForMediaType(ElementFactories::Type::AudioEncoder, "audio/x-vorbis");
if (vorbisSupported) {
m_encoderCodecMap.add(AtomString("vorbis"), false);
m_encoderCodecMap.add(AtomString("x-vorbis"), false);
}
Vector<String> av1EncodersDisallowedList { "av1enc"_s };
auto av1EncoderAvailable = factories.hasElementForMediaType(ElementFactories::Type::VideoEncoder, "video/x-av1", ElementFactories::CheckHardwareClassifier::Yes, makeOptional(WTFMove(av1EncodersDisallowedList)));
if (av1EncoderAvailable) {
m_encoderCodecMap.add(AtomString("av01*"), false);
m_encoderCodecMap.add(AtomString("av1"), false);
m_encoderCodecMap.add(AtomString("x-av1"), false);
}
auto vp8EncoderAvailable = factories.hasElementForMediaType(ElementFactories::Type::VideoEncoder, "video/x-vp8", ElementFactories::CheckHardwareClassifier::Yes);
if (vp8EncoderAvailable) {
m_encoderCodecMap.add(AtomString("vp8"), vp8EncoderAvailable.isUsingHardware);
m_encoderCodecMap.add(AtomString("x-vp8"), vp8EncoderAvailable.isUsingHardware);
m_encoderCodecMap.add(AtomString("vp8.0"), vp8EncoderAvailable.isUsingHardware);
}
auto vp9EncoderAvailable = factories.hasElementForMediaType(ElementFactories::Type::VideoEncoder, "video/x-vp9", ElementFactories::CheckHardwareClassifier::Yes);
if (vp9EncoderAvailable) {
m_encoderCodecMap.add(AtomString("vp9"), vp9EncoderAvailable.isUsingHardware);
m_encoderCodecMap.add(AtomString("x-vp9"), vp9EncoderAvailable.isUsingHardware);
m_encoderCodecMap.add(AtomString("vp9.0"), vp9EncoderAvailable.isUsingHardware);
m_encoderCodecMap.add(AtomString("vp09*"), vp9EncoderAvailable.isUsingHardware);
}
if (factories.hasElementForMediaType(ElementFactories::Type::Muxer, "video/webm") && (vp8EncoderAvailable || vp9EncoderAvailable || av1EncoderAvailable))
m_encoderMimeTypeSet.add(AtomString("video/webm"));
if (factories.hasElementForMediaType(ElementFactories::Type::Muxer, "audio/webm")) {
if (opusSupported)
m_encoderMimeTypeSet.add(AtomString("audio/opus"));
m_encoderMimeTypeSet.add(AtomString("audio/webm"));
}
if (factories.hasElementForMediaType(ElementFactories::Type::Muxer, "audio/ogg") && (vorbisSupported || opusSupported))
m_encoderMimeTypeSet.add(AtomString("audio/ogg"));
auto h264EncoderAvailable = factories.hasElementForMediaType(ElementFactories::Type::VideoEncoder, "video/x-h264, profile=(string){ constrained-baseline, baseline, high }", ElementFactories::CheckHardwareClassifier::Yes);
if (h264EncoderAvailable) {
m_encoderCodecMap.add(AtomString("x-h264"), h264EncoderAvailable.isUsingHardware);
m_encoderCodecMap.add(AtomString("avc*"), h264EncoderAvailable.isUsingHardware);
m_encoderCodecMap.add(AtomString("mp4v*"), h264EncoderAvailable.isUsingHardware);
}
if (factories.hasElementForMediaType(ElementFactories::Type::Muxer, "video/quicktime")) {
if (opusSupported)
m_encoderMimeTypeSet.add(AtomString("audio/opus"));
if (aacSupported) {
m_encoderMimeTypeSet.add(AtomString("audio/aac"));
m_encoderMimeTypeSet.add(AtomString("audio/mp4"));
m_encoderMimeTypeSet.add(AtomString("audio/x-m4a"));
}
if (h264EncoderAvailable) {
m_encoderMimeTypeSet.add(AtomString("video/mp4"));
m_encoderMimeTypeSet.add(AtomString("video/x-m4v"));
}
}
}
bool GStreamerRegistryScanner::isCodecSupported(Configuration configuration, const String& codec, bool shouldCheckForHardwareUse) const
{
size_t slashIndex = codec.find('/');
String codecName = slashIndex != WTF::notFound ? codec.substring(slashIndex + 1) : codec;
bool supported = false;
if (codecName.startsWith("avc1"))
supported = isAVC1CodecSupported(configuration, codecName, shouldCheckForHardwareUse);
else {
auto& codecMap = configuration == Configuration::Decoding ? m_decoderCodecMap : m_encoderCodecMap;
for (const auto& item : codecMap) {
if (!fnmatch(item.key.string().utf8().data(), codecName.utf8().data(), 0)) {
supported = shouldCheckForHardwareUse ? item.value : true;
if (supported)
break;
}
}
}
const char* configLogString = configurationNameForLogging(configuration);
GST_LOG("Checked %s %s codec \"%s\" supported %s", shouldCheckForHardwareUse ? "hardware" : "software", configLogString, codecName.utf8().data(), boolForPrinting(supported));
return supported;
}
MediaPlayerEnums::SupportsType GStreamerRegistryScanner::isContentTypeSupported(Configuration configuration, const ContentType& contentType, const Vector<ContentType>& contentTypesRequiringHardwareSupport) const
{
using SupportsType = MediaPlayerEnums::SupportsType;
const auto& containerType = contentType.containerType().convertToASCIILowercase();
if (!isContainerTypeSupported(configuration, containerType))
return SupportsType::IsNotSupported;
const auto& codecs = contentType.codecs();
if (codecs.isEmpty())
return SupportsType::MayBeSupported;
for (const auto& item : codecs) {
auto codec = item.convertToASCIILowercase();
bool requiresHardwareSupport = contentTypesRequiringHardwareSupport
.findMatching([containerType, codec](auto& hardwareContentType) -> bool {
auto hardwareContainer = hardwareContentType.containerType();
if (!hardwareContainer.isEmpty()
&& fnmatch(hardwareContainer.utf8().data(), containerType.utf8().data(), 0))
return false;
auto hardwareCodecs = hardwareContentType.codecs();
return hardwareCodecs.isEmpty()
|| hardwareCodecs.findMatching([codec](auto& hardwareCodec) -> bool {
return !fnmatch(hardwareCodec.utf8().data(), codec.utf8().data(), 0);
}) != notFound;
}) != notFound;
if (!isCodecSupported(configuration, codec, requiresHardwareSupport))
return SupportsType::IsNotSupported;
}
return SupportsType::IsSupported;
}
bool GStreamerRegistryScanner::areAllCodecsSupported(Configuration configuration, const Vector<String>& codecs, bool shouldCheckForHardwareUse) const
{
for (const auto& codec : codecs) {
if (!isCodecSupported(configuration, codec, shouldCheckForHardwareUse))
return false;
}
return true;
}
bool GStreamerRegistryScanner::isAVC1CodecSupported(Configuration configuration, const String& codec, bool shouldCheckForHardwareUse) const
{
auto checkH264Caps = [&](const char* capsString) {
OptionSet<ElementFactories::Type> factoryTypes;
switch (configuration) {
case Configuration::Decoding:
factoryTypes.add(ElementFactories::Type::VideoDecoder);
break;
case Configuration::Encoding:
factoryTypes.add(ElementFactories::Type::VideoEncoder);
break;
}
auto lookupResult = ElementFactories(factoryTypes).hasElementForMediaType(factoryTypes.toSingleValue().value(), capsString, ElementFactories::CheckHardwareClassifier::Yes);
bool supported = lookupResult && shouldCheckForHardwareUse ? lookupResult.isUsingHardware : true;
GST_DEBUG("%s decoding supported for codec %s: %s", shouldCheckForHardwareUse ? "Hardware" : "Software", codec.utf8().data(), boolForPrinting(supported));
return supported;
};
if (codec.find('.') == notFound) {
GST_DEBUG("Codec has no profile/level, falling back to unconstrained caps");
return checkH264Caps("video/x-h264");
}
auto components = codec.split('.');
long int spsAsInteger = strtol(components[1].utf8().data(), nullptr, 16);
uint8_t sps[3];
sps[0] = spsAsInteger >> 16;
sps[1] = spsAsInteger >> 8;
sps[2] = spsAsInteger;
const char* profile = gst_codec_utils_h264_get_profile(sps, 3);
const char* level = gst_codec_utils_h264_get_level(sps, 3);
char levelAsStringFallback[2] = { '\0', '\0' };
if (!level && sps[2] > 0 && sps[2] <= 5) {
levelAsStringFallback[0] = static_cast<char>('0' + sps[2]);
level = levelAsStringFallback;
}
if (!profile || !level) {
GST_ERROR("H.264 profile / level was not recognised in codec %s", codec.utf8().data());
return false;
}
GST_DEBUG("Codec %s translates to H.264 profile %s and level %s", codec.utf8().data(), profile, level);
if (const char* maxVideoResolution = g_getenv("WEBKIT_GST_MAX_AVC1_RESOLUTION")) {
uint8_t levelAsInteger = gst_codec_utils_h264_get_level_idc(level);
GST_DEBUG("Maximum video resolution requested: %s, supplied codec level IDC: %u", maxVideoResolution, levelAsInteger);
uint8_t maxLevel = 0;
const char* maxLevelString = "";
if (!g_strcmp0(maxVideoResolution, "1080P")) {
maxLevel = 40;
maxLevelString = "4";
} else if (!g_strcmp0(maxVideoResolution, "720P")) {
maxLevel = 31;
maxLevelString = "3.1";
} else if (!g_strcmp0(maxVideoResolution, "480P")) {
maxLevel = 30;
maxLevelString = "3";
} else {
g_warning("Invalid value for WEBKIT_GST_MAX_AVC1_RESOLUTION. Currently supported, 1080P, 720P and 480P.");
return false;
}
if (levelAsInteger > maxLevel)
return false;
return checkH264Caps(makeString("video/x-h264, level=(string)", maxLevelString).utf8().data());
}
if (webkitGstCheckVersion(1, 18, 0)) {
GST_DEBUG("Checking video decoders for constrained caps");
return checkH264Caps(makeString("video/x-h264, level=(string)", level, ", profile=(string)", profile).utf8().data());
}
GST_DEBUG("Falling back to unconstrained caps");
return checkH264Caps("video/x-h264");
}
const char* GStreamerRegistryScanner::configurationNameForLogging(Configuration configuration) const
{
const char* configLogString = "";
switch (configuration) {
case Configuration::Encoding:
configLogString = "encoding";
break;
case Configuration::Decoding:
configLogString = "decoding";
break;
}
return configLogString;
}
GStreamerRegistryScanner::RegistryLookupResult GStreamerRegistryScanner::isConfigurationSupported(Configuration configuration, const MediaConfiguration& mediaConfiguration) const
{
bool isSupported = false;
bool isUsingHardware = false;
const char* configLogString = configurationNameForLogging(configuration);
if (mediaConfiguration.video) {
auto& videoConfiguration = mediaConfiguration.video.value();
GST_DEBUG("Checking %s support for video configuration: \"%s\" size: %ux%u bitrate: %" G_GUINT64_FORMAT " framerate: %f", configLogString,
videoConfiguration.contentType.utf8().data(),
videoConfiguration.width, videoConfiguration.height,
videoConfiguration.bitrate, videoConfiguration.framerate);
auto contentType = ContentType(videoConfiguration.contentType);
isSupported = isContainerTypeSupported(configuration, contentType.containerType());
auto codecs = contentType.codecs();
if (!codecs.isEmpty())
isUsingHardware = areAllCodecsSupported(configuration, codecs, true);
}
if (mediaConfiguration.audio) {
auto& audioConfiguration = mediaConfiguration.audio.value();
GST_DEBUG("Checking %s support for audio configuration: \"%s\" %s channels, bitrate: %" G_GUINT64_FORMAT " samplerate: %u", configLogString,
audioConfiguration.contentType.utf8().data(), audioConfiguration.channels.utf8().data(),
audioConfiguration.bitrate.valueOr(0), audioConfiguration.samplerate.valueOr(0));
auto contentType = ContentType(audioConfiguration.contentType);
isSupported = isContainerTypeSupported(configuration, contentType.containerType());
}
return { isSupported, isUsingHardware };
}
}
#endif