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|
/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* vim: set ts=8 sts=2 et sw=2 tw=80: */
/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
#include "ContainerParser.h"
#include "WebMBufferedParser.h"
#include "mozilla/EndianUtils.h"
#include "mozilla/ErrorResult.h"
#include "mp4_demuxer/MoofParser.h"
#include "mozilla/Logging.h"
#include "mozilla/Maybe.h"
#include "MediaData.h"
#ifdef MOZ_FMP4
#include "MP4Stream.h"
#include "mp4_demuxer/AtomType.h"
#include "mp4_demuxer/ByteReader.h"
#endif
#include "nsAutoPtr.h"
#include "SourceBufferResource.h"
#include <algorithm>
extern mozilla::LogModule* GetMediaSourceSamplesLog();
#define STRINGIFY(x) #x
#define TOSTRING(x) STRINGIFY(x)
#define MSE_DEBUG(name, arg, ...) MOZ_LOG(GetMediaSourceSamplesLog(), mozilla::LogLevel::Debug, (TOSTRING(name) "(%p:%s)::%s: " arg, this, mType.get(), __func__, ##__VA_ARGS__))
#define MSE_DEBUGV(name, arg, ...) MOZ_LOG(GetMediaSourceSamplesLog(), mozilla::LogLevel::Verbose, (TOSTRING(name) "(%p:%s)::%s: " arg, this, mType.get(), __func__, ##__VA_ARGS__))
namespace mozilla {
ContainerParser::ContainerParser(const nsACString& aType)
: mHasInitData(false)
, mType(aType)
{
}
ContainerParser::~ContainerParser() = default;
MediaResult
ContainerParser::IsInitSegmentPresent(MediaByteBuffer* aData)
{
MSE_DEBUG(ContainerParser, "aLength=%u [%x%x%x%x]",
aData->Length(),
aData->Length() > 0 ? (*aData)[0] : 0,
aData->Length() > 1 ? (*aData)[1] : 0,
aData->Length() > 2 ? (*aData)[2] : 0,
aData->Length() > 3 ? (*aData)[3] : 0);
return NS_ERROR_NOT_AVAILABLE;
}
MediaResult
ContainerParser::IsMediaSegmentPresent(MediaByteBuffer* aData)
{
MSE_DEBUG(ContainerParser, "aLength=%u [%x%x%x%x]",
aData->Length(),
aData->Length() > 0 ? (*aData)[0] : 0,
aData->Length() > 1 ? (*aData)[1] : 0,
aData->Length() > 2 ? (*aData)[2] : 0,
aData->Length() > 3 ? (*aData)[3] : 0);
return NS_ERROR_NOT_AVAILABLE;
}
MediaResult
ContainerParser::ParseStartAndEndTimestamps(MediaByteBuffer* aData,
int64_t& aStart, int64_t& aEnd)
{
return NS_ERROR_NOT_AVAILABLE;
}
bool
ContainerParser::TimestampsFuzzyEqual(int64_t aLhs, int64_t aRhs)
{
return llabs(aLhs - aRhs) <= GetRoundingError();
}
int64_t
ContainerParser::GetRoundingError()
{
NS_WARNING("Using default ContainerParser::GetRoundingError implementation");
return 0;
}
bool
ContainerParser::HasCompleteInitData()
{
return mHasInitData && !!mInitData->Length();
}
MediaByteBuffer*
ContainerParser::InitData()
{
return mInitData;
}
MediaByteRange
ContainerParser::InitSegmentRange()
{
return mCompleteInitSegmentRange;
}
MediaByteRange
ContainerParser::MediaHeaderRange()
{
return mCompleteMediaHeaderRange;
}
MediaByteRange
ContainerParser::MediaSegmentRange()
{
return mCompleteMediaSegmentRange;
}
class WebMContainerParser : public ContainerParser {
public:
explicit WebMContainerParser(const nsACString& aType)
: ContainerParser(aType)
, mParser(0)
, mOffset(0)
{}
static const unsigned NS_PER_USEC = 1000;
static const unsigned USEC_PER_SEC = 1000000;
MediaResult IsInitSegmentPresent(MediaByteBuffer* aData) override
{
ContainerParser::IsInitSegmentPresent(aData);
if (aData->Length() < 4) {
return NS_ERROR_NOT_AVAILABLE;
}
WebMBufferedParser parser(0);
nsTArray<WebMTimeDataOffset> mapping;
ReentrantMonitor dummy("dummy");
bool result = parser.Append(aData->Elements(), aData->Length(), mapping,
dummy);
if (!result) {
return MediaResult(NS_ERROR_FAILURE, RESULT_DETAIL("Invalid webm content"));
}
return parser.mInitEndOffset > 0 ? NS_OK : NS_ERROR_NOT_AVAILABLE;
}
MediaResult IsMediaSegmentPresent(MediaByteBuffer* aData) override
{
ContainerParser::IsMediaSegmentPresent(aData);
if (aData->Length() < 4) {
return NS_ERROR_NOT_AVAILABLE;
}
WebMBufferedParser parser(0);
nsTArray<WebMTimeDataOffset> mapping;
ReentrantMonitor dummy("dummy");
parser.AppendMediaSegmentOnly();
bool result = parser.Append(aData->Elements(), aData->Length(), mapping,
dummy);
if (!result) {
return MediaResult(NS_ERROR_FAILURE, RESULT_DETAIL("Invalid webm content"));
}
return parser.GetClusterOffset() >= 0 ? NS_OK : NS_ERROR_NOT_AVAILABLE;
}
MediaResult ParseStartAndEndTimestamps(MediaByteBuffer* aData,
int64_t& aStart,
int64_t& aEnd) override
{
bool initSegment = NS_SUCCEEDED(IsInitSegmentPresent(aData));
if (mLastMapping &&
(initSegment || NS_SUCCEEDED(IsMediaSegmentPresent(aData)))) {
// The last data contained a complete cluster but we can only detect it
// now that a new one is starting.
// We use mOffset as end position to ensure that any blocks not reported
// by WebMBufferParser are properly skipped.
mCompleteMediaSegmentRange = MediaByteRange(mLastMapping.ref().mSyncOffset,
mOffset);
mLastMapping.reset();
MSE_DEBUG(WebMContainerParser, "New cluster found at start, ending previous one");
return NS_ERROR_NOT_AVAILABLE;
}
if (initSegment) {
mOffset = 0;
mParser = WebMBufferedParser(0);
mOverlappedMapping.Clear();
mInitData = new MediaByteBuffer();
mResource = new SourceBufferResource(NS_LITERAL_CSTRING("video/webm"));
mCompleteMediaHeaderRange = MediaByteRange();
mCompleteMediaSegmentRange = MediaByteRange();
}
// XXX if it only adds new mappings, overlapped but not available
// (e.g. overlap < 0) frames are "lost" from the reported mappings here.
nsTArray<WebMTimeDataOffset> mapping;
mapping.AppendElements(mOverlappedMapping);
mOverlappedMapping.Clear();
ReentrantMonitor dummy("dummy");
mParser.Append(aData->Elements(), aData->Length(), mapping, dummy);
if (mResource) {
mResource->AppendData(aData);
}
// XXX This is a bit of a hack. Assume if there are no timecodes
// present and it's an init segment that it's _just_ an init segment.
// We should be more precise.
if (initSegment || !HasCompleteInitData()) {
if (mParser.mInitEndOffset > 0) {
MOZ_ASSERT(mParser.mInitEndOffset <= mResource->GetLength());
if (!mInitData->SetLength(mParser.mInitEndOffset, fallible)) {
// Super unlikely OOM
return NS_ERROR_OUT_OF_MEMORY;
}
mCompleteInitSegmentRange = MediaByteRange(0, mParser.mInitEndOffset);
char* buffer = reinterpret_cast<char*>(mInitData->Elements());
mResource->ReadFromCache(buffer, 0, mParser.mInitEndOffset);
MSE_DEBUG(WebMContainerParser, "Stashed init of %u bytes.",
mParser.mInitEndOffset);
mResource = nullptr;
} else {
MSE_DEBUG(WebMContainerParser, "Incomplete init found.");
}
mHasInitData = true;
}
mOffset += aData->Length();
if (mapping.IsEmpty()) {
return NS_ERROR_NOT_AVAILABLE;
}
// Calculate media range for first media segment.
// Check if we have a cluster finishing in the current data.
uint32_t endIdx = mapping.Length() - 1;
bool foundNewCluster = false;
while (mapping[0].mSyncOffset != mapping[endIdx].mSyncOffset) {
endIdx -= 1;
foundNewCluster = true;
}
int32_t completeIdx = endIdx;
while (completeIdx >= 0 && mOffset < mapping[completeIdx].mEndOffset) {
MSE_DEBUG(WebMContainerParser, "block is incomplete, missing: %lld",
mapping[completeIdx].mEndOffset - mOffset);
completeIdx -= 1;
}
// Save parsed blocks for which we do not have all data yet.
mOverlappedMapping.AppendElements(mapping.Elements() + completeIdx + 1,
mapping.Length() - completeIdx - 1);
if (completeIdx < 0) {
mLastMapping.reset();
return NS_ERROR_NOT_AVAILABLE;
}
if (mCompleteMediaHeaderRange.IsEmpty()) {
mCompleteMediaHeaderRange = MediaByteRange(mapping[0].mSyncOffset,
mapping[0].mEndOffset);
}
if (foundNewCluster && mOffset >= mapping[endIdx].mEndOffset) {
// We now have all information required to delimit a complete cluster.
int64_t endOffset = mapping[endIdx+1].mSyncOffset;
if (mapping[endIdx+1].mInitOffset > mapping[endIdx].mInitOffset) {
// We have a new init segment before this cluster.
endOffset = mapping[endIdx+1].mInitOffset;
}
mCompleteMediaSegmentRange = MediaByteRange(mapping[endIdx].mSyncOffset,
endOffset);
} else if (mapping[endIdx].mClusterEndOffset >= 0 &&
mOffset >= mapping[endIdx].mClusterEndOffset) {
mCompleteMediaSegmentRange = MediaByteRange(mapping[endIdx].mSyncOffset,
mParser.EndSegmentOffset(mapping[endIdx].mClusterEndOffset));
}
Maybe<WebMTimeDataOffset> previousMapping;
if (completeIdx) {
previousMapping = Some(mapping[completeIdx - 1]);
} else {
previousMapping = mLastMapping;
}
mLastMapping = Some(mapping[completeIdx]);
if (!previousMapping && completeIdx + 1u >= mapping.Length()) {
// We have no previous nor next block available,
// so we can't estimate this block's duration.
return NS_ERROR_NOT_AVAILABLE;
}
uint64_t frameDuration = (completeIdx + 1u < mapping.Length())
? mapping[completeIdx + 1].mTimecode - mapping[completeIdx].mTimecode
: mapping[completeIdx].mTimecode - previousMapping.ref().mTimecode;
aStart = mapping[0].mTimecode / NS_PER_USEC;
aEnd = (mapping[completeIdx].mTimecode + frameDuration) / NS_PER_USEC;
MSE_DEBUG(WebMContainerParser, "[%lld, %lld] [fso=%lld, leo=%lld, l=%u processedIdx=%u fs=%lld]",
aStart, aEnd, mapping[0].mSyncOffset,
mapping[completeIdx].mEndOffset, mapping.Length(), completeIdx,
mCompleteMediaSegmentRange.mEnd);
return NS_OK;
}
int64_t GetRoundingError() override
{
int64_t error = mParser.GetTimecodeScale() / NS_PER_USEC;
return error * 2;
}
private:
WebMBufferedParser mParser;
nsTArray<WebMTimeDataOffset> mOverlappedMapping;
int64_t mOffset;
Maybe<WebMTimeDataOffset> mLastMapping;
};
#ifdef MOZ_FMP4
class MP4ContainerParser : public ContainerParser {
public:
explicit MP4ContainerParser(const nsACString& aType)
: ContainerParser(aType)
{}
MediaResult IsInitSegmentPresent(MediaByteBuffer* aData) override
{
ContainerParser::IsInitSegmentPresent(aData);
// Each MP4 atom has a chunk size and chunk type. The root chunk in an MP4
// file is the 'ftyp' atom followed by a file type. We just check for a
// vaguely valid 'ftyp' atom.
if (aData->Length() < 8) {
return NS_ERROR_NOT_AVAILABLE;
}
AtomParser parser(mType, aData);
if (!parser.IsValid()) {
return MediaResult(
NS_ERROR_FAILURE,
RESULT_DETAIL("Invalid Top-Level Box:%s", parser.LastInvalidBox()));
}
return parser.StartWithInitSegment() ? NS_OK : NS_ERROR_NOT_AVAILABLE;
}
MediaResult IsMediaSegmentPresent(MediaByteBuffer* aData) override
{
if (aData->Length() < 8) {
return NS_ERROR_NOT_AVAILABLE;
}
AtomParser parser(mType, aData);
if (!parser.IsValid()) {
return MediaResult(
NS_ERROR_FAILURE,
RESULT_DETAIL("Invalid Box:%s", parser.LastInvalidBox()));
}
return parser.StartWithMediaSegment() ? NS_OK : NS_ERROR_NOT_AVAILABLE;
}
private:
class AtomParser {
public:
AtomParser(const nsACString& aType, const MediaByteBuffer* aData)
{
const nsCString mType(aType); // for logging macro.
mp4_demuxer::ByteReader reader(aData);
mp4_demuxer::AtomType initAtom("ftyp");
mp4_demuxer::AtomType mediaAtom("moof");
// Valid top-level boxes defined in ISO/IEC 14496-12 (Table 1)
static const mp4_demuxer::AtomType validBoxes[] = {
"ftyp", "moov", // init segment
"pdin", "free", "sidx", // optional prior moov box
"styp", "moof", "mdat", // media segment
"mfra", "skip", "meta", "meco", "ssix", "prft", // others.
"pssh", // optional with encrypted EME, though ignored.
"emsg", // ISO23009-1:2014 Section 5.10.3.3
"bloc", "uuid" // boxes accepted by chrome.
};
while (reader.Remaining() >= 8) {
uint64_t size = reader.ReadU32();
const uint8_t* typec = reader.Peek(4);
mp4_demuxer::AtomType type(reader.ReadU32());
MSE_DEBUGV(AtomParser ,"Checking atom:'%c%c%c%c' @ %u",
typec[0], typec[1], typec[2], typec[3],
(uint32_t)reader.Offset() - 8);
if (std::find(std::begin(validBoxes), std::end(validBoxes), type)
== std::end(validBoxes)) {
// No valid box found, no point continuing.
mLastInvalidBox[0] = typec[0];
mLastInvalidBox[1] = typec[1];
mLastInvalidBox[2] = typec[2];
mLastInvalidBox[3] = typec[3];
mLastInvalidBox[4] = '\0';
mValid = false;
break;
}
if (mInitOffset.isNothing() &&
mp4_demuxer::AtomType(type) == initAtom) {
mInitOffset = Some(reader.Offset());
}
if (mMediaOffset.isNothing() &&
mp4_demuxer::AtomType(type) == mediaAtom) {
mMediaOffset = Some(reader.Offset());
}
if (mInitOffset.isSome() && mMediaOffset.isSome()) {
// We have everything we need.
break;
}
if (size == 1) {
// 64 bits size.
if (!reader.CanReadType<uint64_t>()) {
break;
}
size = reader.ReadU64();
} else if (size == 0) {
// Atom extends to the end of the buffer, it can't have what we're
// looking for.
break;
}
if (reader.Remaining() < size - 8) {
// Incomplete atom.
break;
}
reader.Read(size - 8);
}
}
bool StartWithInitSegment() const
{
return mInitOffset.isSome() &&
(mMediaOffset.isNothing() || mInitOffset.ref() < mMediaOffset.ref());
}
bool StartWithMediaSegment() const
{
return mMediaOffset.isSome() &&
(mInitOffset.isNothing() || mMediaOffset.ref() < mInitOffset.ref());
}
bool IsValid() const { return mValid; }
const char* LastInvalidBox() const { return mLastInvalidBox; }
private:
Maybe<size_t> mInitOffset;
Maybe<size_t> mMediaOffset;
bool mValid = true;
char mLastInvalidBox[5];
};
public:
MediaResult ParseStartAndEndTimestamps(MediaByteBuffer* aData,
int64_t& aStart,
int64_t& aEnd) override
{
bool initSegment = NS_SUCCEEDED(IsInitSegmentPresent(aData));
if (initSegment) {
mResource = new SourceBufferResource(NS_LITERAL_CSTRING("video/mp4"));
mStream = new MP4Stream(mResource);
// We use a timestampOffset of 0 for ContainerParser, and require
// consumers of ParseStartAndEndTimestamps to add their timestamp offset
// manually. This allows the ContainerParser to be shared across different
// timestampOffsets.
mParser = new mp4_demuxer::MoofParser(mStream, 0, /* aIsAudio = */ false);
mInitData = new MediaByteBuffer();
} else if (!mStream || !mParser) {
return NS_ERROR_NOT_AVAILABLE;
}
mResource->AppendData(aData);
MediaByteRangeSet byteRanges;
byteRanges +=
MediaByteRange(int64_t(mParser->mOffset), mResource->GetLength());
mParser->RebuildFragmentedIndex(byteRanges);
if (initSegment || !HasCompleteInitData()) {
MediaByteRange& range = mParser->mInitRange;
if (range.Length()) {
mCompleteInitSegmentRange = range;
if (!mInitData->SetLength(range.Length(), fallible)) {
// Super unlikely OOM
return NS_ERROR_OUT_OF_MEMORY;
}
char* buffer = reinterpret_cast<char*>(mInitData->Elements());
mResource->ReadFromCache(buffer, range.mStart, range.Length());
MSE_DEBUG(MP4ContainerParser ,"Stashed init of %u bytes.",
range.Length());
} else {
MSE_DEBUG(MP4ContainerParser, "Incomplete init found.");
}
mHasInitData = true;
}
mp4_demuxer::Interval<mp4_demuxer::Microseconds> compositionRange =
mParser->GetCompositionRange(byteRanges);
mCompleteMediaHeaderRange = mParser->FirstCompleteMediaHeader();
mCompleteMediaSegmentRange = mParser->FirstCompleteMediaSegment();
ErrorResult rv;
if (HasCompleteInitData()) {
mResource->EvictData(mParser->mOffset, mParser->mOffset, rv);
}
if (NS_WARN_IF(rv.Failed())) {
rv.SuppressException();
return NS_ERROR_OUT_OF_MEMORY;
}
if (compositionRange.IsNull()) {
return NS_ERROR_NOT_AVAILABLE;
}
aStart = compositionRange.start;
aEnd = compositionRange.end;
MSE_DEBUG(MP4ContainerParser, "[%lld, %lld]",
aStart, aEnd);
return NS_OK;
}
// Gaps of up to 35ms (marginally longer than a single frame at 30fps) are considered
// to be sequential frames.
int64_t GetRoundingError() override
{
return 35000;
}
private:
RefPtr<MP4Stream> mStream;
nsAutoPtr<mp4_demuxer::MoofParser> mParser;
};
#endif // MOZ_FMP4
#ifdef MOZ_FMP4
class ADTSContainerParser : public ContainerParser {
public:
explicit ADTSContainerParser(const nsACString& aType)
: ContainerParser(aType)
{}
typedef struct {
size_t header_length; // Length of just the initialization data.
size_t frame_length; // Includes header_length;
uint8_t aac_frames; // Number of AAC frames in the ADTS frame.
bool have_crc;
} Header;
/// Helper to parse the ADTS header, returning data we care about.
/// Returns true if the header is parsed successfully.
/// Returns false if the header is invalid or incomplete,
/// without modifying the passed-in Header object.
bool Parse(MediaByteBuffer* aData, Header& header)
{
MOZ_ASSERT(aData);
// ADTS initialization segments are just the packet header.
if (aData->Length() < 7) {
MSE_DEBUG(ADTSContainerParser, "buffer too short for header.");
return false;
}
// Check 0xfffx sync word plus layer 0.
if (((*aData)[0] != 0xff) || (((*aData)[1] & 0xf6) != 0xf0)) {
MSE_DEBUG(ADTSContainerParser, "no syncword.");
return false;
}
bool have_crc = !((*aData)[1] & 0x01);
if (have_crc && aData->Length() < 9) {
MSE_DEBUG(ADTSContainerParser, "buffer too short for header with crc.");
return false;
}
uint8_t frequency_index = ((*aData)[2] & 0x3c) >> 2;
MOZ_ASSERT(frequency_index < 16);
if (frequency_index == 15) {
MSE_DEBUG(ADTSContainerParser, "explicit frequency disallowed.");
return false;
}
size_t header_length = have_crc ? 9 : 7;
size_t data_length = (((*aData)[3] & 0x03) << 11) |
(((*aData)[4] & 0xff) << 3) |
(((*aData)[5] & 0xe0) >> 5);
uint8_t frames = ((*aData)[6] & 0x03) + 1;
MOZ_ASSERT(frames > 0);
MOZ_ASSERT(frames < 4);
// Return successfully parsed data.
header.header_length = header_length;
header.frame_length = header_length + data_length;
header.aac_frames = frames;
header.have_crc = have_crc;
return true;
}
MediaResult IsInitSegmentPresent(MediaByteBuffer* aData) override
{
// Call superclass for logging.
ContainerParser::IsInitSegmentPresent(aData);
Header header;
if (!Parse(aData, header)) {
return NS_ERROR_NOT_AVAILABLE;
}
MSE_DEBUGV(ADTSContainerParser, "%llu byte frame %d aac frames%s",
(unsigned long long)header.frame_length, (int)header.aac_frames,
header.have_crc ? " crc" : "");
return NS_OK;
}
MediaResult IsMediaSegmentPresent(MediaByteBuffer* aData) override
{
// Call superclass for logging.
ContainerParser::IsMediaSegmentPresent(aData);
// Make sure we have a header so we know how long the frame is.
// NB this assumes the media segment buffer starts with an
// initialization segment. Since every frame has an ADTS header
// this is a normal place to divide packets, but we can re-parse
// mInitData if we need to handle separate media segments.
Header header;
if (!Parse(aData, header)) {
return NS_ERROR_NOT_AVAILABLE;
}
// We're supposed to return true as long as aData contains the
// start of a media segment, whether or not it's complete. So
// return true if we have any data beyond the header.
if (aData->Length() <= header.header_length) {
return NS_ERROR_NOT_AVAILABLE;
}
// We should have at least a partial frame.
return NS_OK;
}
MediaResult ParseStartAndEndTimestamps(MediaByteBuffer* aData,
int64_t& aStart,
int64_t& aEnd) override
{
// ADTS header.
Header header;
if (!Parse(aData, header)) {
return NS_ERROR_NOT_AVAILABLE;
}
mHasInitData = true;
mCompleteInitSegmentRange = MediaByteRange(0, int64_t(header.header_length));
// Cache raw header in case the caller wants a copy.
mInitData = new MediaByteBuffer(header.header_length);
mInitData->AppendElements(aData->Elements(), header.header_length);
// Check that we have enough data for the frame body.
if (aData->Length() < header.frame_length) {
MSE_DEBUGV(ADTSContainerParser, "Not enough data for %llu byte frame"
" in %llu byte buffer.",
(unsigned long long)header.frame_length,
(unsigned long long)(aData->Length()));
return NS_ERROR_NOT_AVAILABLE;
}
mCompleteMediaSegmentRange = MediaByteRange(header.header_length,
header.frame_length);
// The ADTS MediaSource Byte Stream Format document doesn't
// define media header. Just treat it the same as the whole
// media segment.
mCompleteMediaHeaderRange = mCompleteMediaSegmentRange;
MSE_DEBUG(ADTSContainerParser, "[%lld, %lld]",
aStart, aEnd);
// We don't update timestamps, regardless.
return NS_ERROR_NOT_AVAILABLE;
}
// Audio shouldn't have gaps.
// Especially when we generate the timestamps ourselves.
int64_t GetRoundingError() override
{
return 0;
}
};
#endif // MOZ_FMP4
/*static*/ ContainerParser*
ContainerParser::CreateForMIMEType(const nsACString& aType)
{
if (aType.LowerCaseEqualsLiteral("video/webm") || aType.LowerCaseEqualsLiteral("audio/webm")) {
return new WebMContainerParser(aType);
}
if (aType.LowerCaseEqualsLiteral("video/x-matroska") || aType.LowerCaseEqualsLiteral("audio/x-matroska")) {
return new WebMContainerParser(aType);
}
#ifdef MOZ_FMP4
if (aType.LowerCaseEqualsLiteral("video/mp4") || aType.LowerCaseEqualsLiteral("audio/mp4")) {
return new MP4ContainerParser(aType);
}
if (aType.LowerCaseEqualsLiteral("audio/aac")) {
return new ADTSContainerParser(aType);
}
#endif
return new ContainerParser(aType);
}
#undef MSE_DEBUG
#undef MSE_DEBUGV
} // namespace mozilla
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