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|
/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* 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 "nsError.h"
#include "MediaDecoderStateMachine.h"
#include "AbstractMediaDecoder.h"
#include "MediaResource.h"
#ifdef MOZ_AV1
#include "AOMDecoder.h"
#endif
#include "OpusDecoder.h"
#include "VPXDecoder.h"
#include "WebMDemuxer.h"
#include "WebMBufferedParser.h"
#include "gfx2DGlue.h"
#include "mozilla/Atomics.h"
#include "mozilla/EndianUtils.h"
#include "mozilla/SharedThreadPool.h"
#include "MediaDataDemuxer.h"
#include "nsAutoPtr.h"
#include "nsAutoRef.h"
#include "NesteggPacketHolder.h"
#include "XiphExtradata.h"
#include "prprf.h" // leaving it for PR_vsnprintf()
#include "mozilla/Sprintf.h"
#include <algorithm>
#include <numeric>
#include <stdint.h>
#define WEBM_DEBUG(arg, ...) MOZ_LOG(gMediaDemuxerLog, mozilla::LogLevel::Debug, ("WebMDemuxer(%p)::%s: " arg, this, __func__, ##__VA_ARGS__))
extern mozilla::LazyLogModule gMediaDemuxerLog;
namespace mozilla {
using namespace gfx;
LazyLogModule gNesteggLog("Nestegg");
// How far ahead will we look when searching future keyframe. In microseconds.
// This value is based on what appears to be a reasonable value as most webm
// files encountered appear to have keyframes located < 4s.
#define MAX_LOOK_AHEAD 10000000
static Atomic<uint32_t> sStreamSourceID(0u);
// Functions for reading and seeking using WebMDemuxer required for
// nestegg_io. The 'user data' passed to these functions is the
// demuxer.
static int webmdemux_read(void* aBuffer, size_t aLength, void* aUserData)
{
MOZ_ASSERT(aUserData);
MOZ_ASSERT(aLength < UINT32_MAX);
WebMDemuxer::NestEggContext* context =
reinterpret_cast<WebMDemuxer::NestEggContext*>(aUserData);
uint32_t count = aLength;
if (context->IsMediaSource()) {
int64_t length = context->GetEndDataOffset();
int64_t position = context->GetResource()->Tell();
MOZ_ASSERT(position <= context->GetResource()->GetLength());
MOZ_ASSERT(position <= length);
if (length >= 0 && count + position > length) {
count = length - position;
}
MOZ_ASSERT(count <= aLength);
}
uint32_t bytes = 0;
nsresult rv =
context->GetResource()->Read(static_cast<char*>(aBuffer), count, &bytes);
bool eof = bytes < aLength;
return NS_FAILED(rv) ? -1 : eof ? 0 : 1;
}
static int webmdemux_seek(int64_t aOffset, int aWhence, void* aUserData)
{
MOZ_ASSERT(aUserData);
WebMDemuxer::NestEggContext* context = reinterpret_cast<WebMDemuxer::NestEggContext*>(aUserData);
nsresult rv = context->GetResource()->Seek(aWhence, aOffset);
return NS_SUCCEEDED(rv) ? 0 : -1;
}
static int64_t webmdemux_tell(void* aUserData)
{
MOZ_ASSERT(aUserData);
WebMDemuxer::NestEggContext* context = reinterpret_cast<WebMDemuxer::NestEggContext*>(aUserData);
return context->GetResource()->Tell();
}
static void webmdemux_log(nestegg* aContext,
unsigned int aSeverity,
char const* aFormat, ...)
{
if (!MOZ_LOG_TEST(gNesteggLog, LogLevel::Debug)) {
return;
}
va_list args;
char msg[256];
const char* sevStr;
switch(aSeverity) {
case NESTEGG_LOG_DEBUG:
sevStr = "DBG";
break;
case NESTEGG_LOG_INFO:
sevStr = "INF";
break;
case NESTEGG_LOG_WARNING:
sevStr = "WRN";
break;
case NESTEGG_LOG_ERROR:
sevStr = "ERR";
break;
case NESTEGG_LOG_CRITICAL:
sevStr = "CRT";
break;
default:
sevStr = "UNK";
break;
}
va_start(args, aFormat);
SprintfLiteral(msg, "%p [Nestegg-%s] ", aContext, sevStr);
PR_vsnprintf(msg+strlen(msg), sizeof(msg)-strlen(msg), aFormat, args);
MOZ_LOG(gNesteggLog, LogLevel::Debug, (msg));
va_end(args);
}
WebMDemuxer::NestEggContext::~NestEggContext()
{
if (mContext) {
nestegg_destroy(mContext);
}
}
int
WebMDemuxer::NestEggContext::Init()
{
nestegg_io io;
io.read = webmdemux_read;
io.seek = webmdemux_seek;
io.tell = webmdemux_tell;
io.userdata = this;
// While reading the metadata, we do not really care about which nestegg
// context is being used so long that they are both initialised.
// For reading the metadata however, we will use mVideoContext.
return nestegg_init(&mContext, io, &webmdemux_log,
mParent->IsMediaSource() ? mResource.GetLength() : -1);
}
WebMDemuxer::WebMDemuxer(MediaResource* aResource)
: WebMDemuxer(aResource, false)
{
}
WebMDemuxer::WebMDemuxer(MediaResource* aResource, bool aIsMediaSource)
: mVideoContext(this, aResource)
, mAudioContext(this, aResource)
, mBufferedState(nullptr)
, mInitData(nullptr)
, mVideoTrack(0)
, mAudioTrack(0)
, mSeekPreroll(0)
, mAudioCodec(-1)
, mVideoCodec(-1)
, mHasVideo(false)
, mHasAudio(false)
, mNeedReIndex(true)
, mLastWebMBlockOffset(-1)
, mIsMediaSource(aIsMediaSource)
{
}
WebMDemuxer::~WebMDemuxer()
{
Reset(TrackInfo::kVideoTrack);
Reset(TrackInfo::kAudioTrack);
}
RefPtr<WebMDemuxer::InitPromise>
WebMDemuxer::Init()
{
InitBufferedState();
if (NS_FAILED(ReadMetadata())) {
return InitPromise::CreateAndReject(NS_ERROR_DOM_MEDIA_METADATA_ERR, __func__);
}
if (!GetNumberTracks(TrackInfo::kAudioTrack) &&
!GetNumberTracks(TrackInfo::kVideoTrack)) {
return InitPromise::CreateAndReject(NS_ERROR_DOM_MEDIA_METADATA_ERR, __func__);
}
return InitPromise::CreateAndResolve(NS_OK, __func__);
}
void
WebMDemuxer::InitBufferedState()
{
MOZ_ASSERT(!mBufferedState);
mBufferedState = new WebMBufferedState;
}
bool
WebMDemuxer::HasTrackType(TrackInfo::TrackType aType) const
{
return !!GetNumberTracks(aType);
}
uint32_t
WebMDemuxer::GetNumberTracks(TrackInfo::TrackType aType) const
{
switch(aType) {
case TrackInfo::kAudioTrack:
return mHasAudio ? 1 : 0;
case TrackInfo::kVideoTrack:
return mHasVideo ? 1 : 0;
default:
return 0;
}
}
UniquePtr<TrackInfo>
WebMDemuxer::GetTrackInfo(TrackInfo::TrackType aType,
size_t aTrackNumber) const
{
switch(aType) {
case TrackInfo::kAudioTrack:
return mInfo.mAudio.Clone();
case TrackInfo::kVideoTrack:
return mInfo.mVideo.Clone();
default:
return nullptr;
}
}
already_AddRefed<MediaTrackDemuxer>
WebMDemuxer::GetTrackDemuxer(TrackInfo::TrackType aType, uint32_t aTrackNumber)
{
if (GetNumberTracks(aType) <= aTrackNumber) {
return nullptr;
}
RefPtr<WebMTrackDemuxer> e =
new WebMTrackDemuxer(this, aType, aTrackNumber);
mDemuxers.AppendElement(e);
return e.forget();
}
nsresult
WebMDemuxer::Reset(TrackInfo::TrackType aType)
{
if (aType == TrackInfo::kVideoTrack) {
mVideoPackets.Reset();
} else {
mAudioPackets.Reset();
}
return NS_OK;
}
nsresult
WebMDemuxer::ReadMetadata()
{
int r = mVideoContext.Init();
if (r == -1) {
return NS_ERROR_FAILURE;
}
if (mAudioContext.Init() == -1) {
return NS_ERROR_FAILURE;
}
// For reading the metadata we can only use the video resource/context.
MediaResourceIndex& resource = Resource(TrackInfo::kVideoTrack);
nestegg* context = Context(TrackInfo::kVideoTrack);
{
// Check how much data nestegg read and force feed it to BufferedState.
RefPtr<MediaByteBuffer> buffer = resource.MediaReadAt(0, resource.Tell());
if (!buffer) {
return NS_ERROR_FAILURE;
}
mBufferedState->NotifyDataArrived(buffer->Elements(), buffer->Length(), 0);
if (mBufferedState->GetInitEndOffset() < 0) {
return NS_ERROR_FAILURE;
}
MOZ_ASSERT(mBufferedState->GetInitEndOffset() <= resource.Tell());
}
mInitData = resource.MediaReadAt(0, mBufferedState->GetInitEndOffset());
if (!mInitData ||
mInitData->Length() != size_t(mBufferedState->GetInitEndOffset())) {
return NS_ERROR_FAILURE;
}
unsigned int ntracks = 0;
r = nestegg_track_count(context, &ntracks);
if (r == -1) {
return NS_ERROR_FAILURE;
}
for (unsigned int track = 0; track < ntracks; ++track) {
int id = nestegg_track_codec_id(context, track);
if (id == -1) {
return NS_ERROR_FAILURE;
}
int type = nestegg_track_type(context, track);
if (type == NESTEGG_TRACK_VIDEO && !mHasVideo) {
nestegg_video_params params;
r = nestegg_track_video_params(context, track, ¶ms);
if (r == -1) {
return NS_ERROR_FAILURE;
}
mVideoCodec = nestegg_track_codec_id(context, track);
switch(mVideoCodec) {
case NESTEGG_CODEC_VP8:
mInfo.mVideo.mMimeType = "video/webm; codecs=vp8";
break;
case NESTEGG_CODEC_VP9:
mInfo.mVideo.mMimeType = "video/webm; codecs=vp9";
break;
case NESTEGG_CODEC_AV1:
mInfo.mVideo.mMimeType = "video/webm; codecs=av1";
break;
case NESTEGG_CODEC_AVC1: {
mInfo.mVideo.mMimeType = "video/webm; codecs=avc1";
unsigned char* data = 0;
size_t length = 0;
r = nestegg_track_codec_data(context, track, 0, &data, &length);
if (r == -1) {
return NS_ERROR_FAILURE;
}
mInfo.mVideo.mExtraData = new MediaByteBuffer(length);
mInfo.mVideo.mExtraData->AppendElements(data, length);
break;
}
default:
NS_WARNING("Unknown WebM video codec");
return NS_ERROR_FAILURE;
}
// Picture region, taking into account cropping, before scaling
// to the display size.
unsigned int cropH = params.crop_right + params.crop_left;
unsigned int cropV = params.crop_bottom + params.crop_top;
nsIntRect pictureRect(params.crop_left,
params.crop_top,
params.width - cropH,
params.height - cropV);
// If the cropping data appears invalid then use the frame data
if (pictureRect.width <= 0 ||
pictureRect.height <= 0 ||
pictureRect.x < 0 ||
pictureRect.y < 0) {
pictureRect.x = 0;
pictureRect.y = 0;
pictureRect.width = params.width;
pictureRect.height = params.height;
}
// Validate the container-reported frame and pictureRect sizes. This
// ensures that our video frame creation code doesn't overflow.
nsIntSize displaySize(params.display_width, params.display_height);
nsIntSize frameSize(params.width, params.height);
if (!IsValidVideoRegion(frameSize, pictureRect, displaySize)) {
// Video track's frame sizes will overflow. Ignore the video track.
continue;
}
mVideoTrack = track;
mHasVideo = true;
mInfo.mVideo.mDisplay = displaySize;
mInfo.mVideo.mImage = frameSize;
mInfo.mVideo.SetImageRect(pictureRect);
switch (params.stereo_mode) {
case NESTEGG_VIDEO_MONO:
mInfo.mVideo.mStereoMode = StereoMode::MONO;
break;
case NESTEGG_VIDEO_STEREO_LEFT_RIGHT:
mInfo.mVideo.mStereoMode = StereoMode::LEFT_RIGHT;
break;
case NESTEGG_VIDEO_STEREO_BOTTOM_TOP:
mInfo.mVideo.mStereoMode = StereoMode::BOTTOM_TOP;
break;
case NESTEGG_VIDEO_STEREO_TOP_BOTTOM:
mInfo.mVideo.mStereoMode = StereoMode::TOP_BOTTOM;
break;
case NESTEGG_VIDEO_STEREO_RIGHT_LEFT:
mInfo.mVideo.mStereoMode = StereoMode::RIGHT_LEFT;
break;
}
uint64_t duration = 0;
r = nestegg_duration(context, &duration);
if (!r) {
mInfo.mVideo.mDuration = media::TimeUnit::FromNanoseconds(duration).ToMicroseconds();
}
mInfo.mVideo.mCrypto = GetTrackCrypto(TrackInfo::kVideoTrack, track);
if (mInfo.mVideo.mCrypto.mValid) {
mCrypto.AddInitData(NS_LITERAL_STRING("webm"), mInfo.mVideo.mCrypto.mKeyId);
}
} else if (type == NESTEGG_TRACK_AUDIO && !mHasAudio) {
nestegg_audio_params params;
r = nestegg_track_audio_params(context, track, ¶ms);
if (r == -1) {
return NS_ERROR_FAILURE;
}
mAudioTrack = track;
mHasAudio = true;
mAudioCodec = nestegg_track_codec_id(context, track);
if (mAudioCodec == NESTEGG_CODEC_VORBIS) {
mInfo.mAudio.mMimeType = "audio/vorbis";
} else if (mAudioCodec == NESTEGG_CODEC_OPUS) {
mInfo.mAudio.mMimeType = "audio/opus";
OpusDataDecoder::AppendCodecDelay(mInfo.mAudio.mCodecSpecificConfig,
media::TimeUnit::FromNanoseconds(params.codec_delay).ToMicroseconds());
} else if (mAudioCodec == NESTEGG_CODEC_AAC) {
mInfo.mAudio.mMimeType = "audio/mp4a-latm";
}
mSeekPreroll = params.seek_preroll;
mInfo.mAudio.mRate = params.rate;
mInfo.mAudio.mChannels = params.channels;
unsigned int nheaders = 0;
r = nestegg_track_codec_data_count(context, track, &nheaders);
if (r == -1) {
return NS_ERROR_FAILURE;
}
AutoTArray<const unsigned char*,4> headers;
AutoTArray<size_t,4> headerLens;
for (uint32_t header = 0; header < nheaders; ++header) {
unsigned char* data = 0;
size_t length = 0;
r = nestegg_track_codec_data(context, track, header, &data, &length);
if (r == -1) {
return NS_ERROR_FAILURE;
}
headers.AppendElement(data);
headerLens.AppendElement(length);
}
// Vorbis has 3 headers, convert to Xiph extradata format to send them to
// the demuxer.
// TODO: This is already the format WebM stores them in. Would be nice
// to avoid having libnestegg split them only for us to pack them again,
// but libnestegg does not give us an API to access this data directly.
if (nheaders > 1) {
if (!XiphHeadersToExtradata(mInfo.mAudio.mCodecSpecificConfig,
headers, headerLens)) {
return NS_ERROR_FAILURE;
}
}
else {
mInfo.mAudio.mCodecSpecificConfig->AppendElements(headers[0],
headerLens[0]);
}
uint64_t duration = 0;
r = nestegg_duration(context, &duration);
if (!r) {
mInfo.mAudio.mDuration = media::TimeUnit::FromNanoseconds(duration).ToMicroseconds();
}
mInfo.mAudio.mCrypto = GetTrackCrypto(TrackInfo::kAudioTrack, track);
if (mInfo.mAudio.mCrypto.mValid) {
mCrypto.AddInitData(NS_LITERAL_STRING("webm"), mInfo.mAudio.mCrypto.mKeyId);
}
}
}
return NS_OK;
}
bool
WebMDemuxer::IsSeekable() const
{
return Context(TrackInfo::kVideoTrack) &&
nestegg_has_cues(Context(TrackInfo::kVideoTrack));
}
bool
WebMDemuxer::IsSeekableOnlyInBufferedRanges() const
{
return Context(TrackInfo::kVideoTrack) &&
!nestegg_has_cues(Context(TrackInfo::kVideoTrack));
}
void
WebMDemuxer::EnsureUpToDateIndex()
{
if (!mNeedReIndex || !mInitData) {
return;
}
AutoPinned<MediaResource> resource(
Resource(TrackInfo::kVideoTrack).GetResource());
MediaByteRangeSet byteRanges;
nsresult rv = resource->GetCachedRanges(byteRanges);
if (NS_FAILED(rv) || !byteRanges.Length()) {
return;
}
mBufferedState->UpdateIndex(byteRanges, resource);
mNeedReIndex = false;
if (!mIsMediaSource) {
return;
}
mLastWebMBlockOffset = mBufferedState->GetLastBlockOffset();
MOZ_ASSERT(mLastWebMBlockOffset <= resource->GetLength());
}
void
WebMDemuxer::NotifyDataArrived()
{
WEBM_DEBUG("");
mNeedReIndex = true;
}
void
WebMDemuxer::NotifyDataRemoved()
{
mBufferedState->Reset();
if (mInitData) {
mBufferedState->NotifyDataArrived(mInitData->Elements(), mInitData->Length(), 0);
}
mNeedReIndex = true;
}
UniquePtr<EncryptionInfo>
WebMDemuxer::GetCrypto()
{
return mCrypto.IsEncrypted() ? MakeUnique<EncryptionInfo>(mCrypto) : nullptr;
}
CryptoTrack
WebMDemuxer::GetTrackCrypto(TrackInfo::TrackType aType, size_t aTrackNumber) {
const int WEBM_IV_SIZE = 16;
const unsigned char * contentEncKeyId;
size_t contentEncKeyIdLength;
CryptoTrack crypto;
nestegg* context = Context(aType);
int r = nestegg_track_content_enc_key_id(context, aTrackNumber, &contentEncKeyId, &contentEncKeyIdLength);
if (r == -1) {
WEBM_DEBUG("nestegg_track_content_enc_key_id failed r=%d", r);
return crypto;
}
uint32_t i;
nsTArray<uint8_t> initData;
for (i = 0; i < contentEncKeyIdLength; i++) {
initData.AppendElement(contentEncKeyId[i]);
}
if (!initData.IsEmpty()) {
crypto.mValid = true;
// crypto.mMode is not used for WebMs
crypto.mIVSize = WEBM_IV_SIZE;
crypto.mKeyId = Move(initData);
}
return crypto;
}
nsresult
WebMDemuxer::GetNextPacket(TrackInfo::TrackType aType, MediaRawDataQueue *aSamples)
{
if (mIsMediaSource) {
// To ensure mLastWebMBlockOffset is properly up to date.
EnsureUpToDateIndex();
}
RefPtr<NesteggPacketHolder> holder;
nsresult rv = NextPacket(aType, holder);
if (NS_FAILED(rv)) {
return rv;
}
int r = 0;
unsigned int count = 0;
r = nestegg_packet_count(holder->Packet(), &count);
if (r == -1) {
return NS_ERROR_DOM_MEDIA_DEMUXER_ERR;
}
int64_t tstamp = holder->Timestamp();
int64_t duration = holder->Duration();
// The end time of this frame is the start time of the next frame. Fetch
// the timestamp of the next packet for this track. If we've reached the
// end of the resource, use the file's duration as the end time of this
// video frame.
int64_t next_tstamp = INT64_MIN;
if (aType == TrackInfo::kAudioTrack) {
RefPtr<NesteggPacketHolder> next_holder;
rv = NextPacket(aType, next_holder);
if (NS_FAILED(rv) && rv != NS_ERROR_DOM_MEDIA_END_OF_STREAM) {
return rv;
}
if (next_holder) {
next_tstamp = next_holder->Timestamp();
PushAudioPacket(next_holder);
} else if (duration >= 0) {
next_tstamp = tstamp + duration;
} else if (!mIsMediaSource ||
(mIsMediaSource && mLastAudioFrameTime.isSome())) {
next_tstamp = tstamp;
next_tstamp += tstamp - mLastAudioFrameTime.refOr(0);
} else {
PushAudioPacket(holder);
}
mLastAudioFrameTime = Some(tstamp);
} else if (aType == TrackInfo::kVideoTrack) {
RefPtr<NesteggPacketHolder> next_holder;
rv = NextPacket(aType, next_holder);
if (NS_FAILED(rv) && rv != NS_ERROR_DOM_MEDIA_END_OF_STREAM) {
return rv;
}
if (next_holder) {
next_tstamp = next_holder->Timestamp();
PushVideoPacket(next_holder);
} else if (duration >= 0) {
next_tstamp = tstamp + duration;
} else if (!mIsMediaSource ||
(mIsMediaSource && mLastVideoFrameTime.isSome())) {
next_tstamp = tstamp;
next_tstamp += tstamp - mLastVideoFrameTime.refOr(0);
} else {
PushVideoPacket(holder);
}
mLastVideoFrameTime = Some(tstamp);
}
if (mIsMediaSource && next_tstamp == INT64_MIN) {
return NS_ERROR_DOM_MEDIA_END_OF_STREAM;
}
int64_t discardPadding = 0;
if (aType == TrackInfo::kAudioTrack) {
(void) nestegg_packet_discard_padding(holder->Packet(), &discardPadding);
}
int packetEncryption = nestegg_packet_encryption(holder->Packet());
for (uint32_t i = 0; i < count; ++i) {
unsigned char* data;
size_t length;
r = nestegg_packet_data(holder->Packet(), i, &data, &length);
if (r == -1) {
WEBM_DEBUG("nestegg_packet_data failed r=%d", r);
return NS_ERROR_DOM_MEDIA_DEMUXER_ERR;
}
bool isKeyframe = false;
if (aType == TrackInfo::kAudioTrack) {
isKeyframe = true;
} else if (aType == TrackInfo::kVideoTrack) {
if (packetEncryption == NESTEGG_PACKET_HAS_SIGNAL_BYTE_ENCRYPTED) {
// Packet is encrypted, can't peek, use packet info
isKeyframe = nestegg_packet_has_keyframe(holder->Packet()) == NESTEGG_PACKET_HAS_KEYFRAME_TRUE;
} else {
auto sample = MakeSpan(data, length);
switch (mVideoCodec) {
case NESTEGG_CODEC_VP8:
isKeyframe = VPXDecoder::IsKeyframe(sample, VPXDecoder::Codec::VP8);
break;
case NESTEGG_CODEC_VP9:
isKeyframe = VPXDecoder::IsKeyframe(sample, VPXDecoder::Codec::VP9);
break;
#ifdef MOZ_AV1
case NESTEGG_CODEC_AV1:
isKeyframe = AOMDecoder::IsKeyframe(sample);
break;
#endif
case NESTEGG_CODEC_AVC1:
isKeyframe = nestegg_packet_has_keyframe(holder->Packet());
break;
default:
NS_WARNING("Cannot detect keyframes in unknown WebM video codec");
return NS_ERROR_FAILURE;
}
if (isKeyframe) {
// For both VP8 and VP9, we only look for resolution changes
// on keyframes. Other resolution changes are invalid.
auto dimensions = nsIntSize(0, 0);
switch (mVideoCodec) {
case NESTEGG_CODEC_VP8:
dimensions = VPXDecoder::GetFrameSize(sample, VPXDecoder::Codec::VP8);
break;
case NESTEGG_CODEC_VP9:
dimensions = VPXDecoder::GetFrameSize(sample, VPXDecoder::Codec::VP9);
break;
#ifdef MOZ_AV1
case NESTEGG_CODEC_AV1:
dimensions = AOMDecoder::GetFrameSize(sample);
break;
#endif
}
if (mLastSeenFrameSize.isSome()
&& (dimensions != mLastSeenFrameSize.value())) {
mInfo.mVideo.mDisplay = dimensions;
mSharedVideoTrackInfo = new SharedTrackInfo(mInfo.mVideo, ++sStreamSourceID);
}
mLastSeenFrameSize = Some(dimensions);
}
}
}
WEBM_DEBUG("push sample tstamp: %ld next_tstamp: %ld length: %ld kf: %d",
tstamp, next_tstamp, length, isKeyframe);
RefPtr<MediaRawData> sample = new MediaRawData(data, length);
if (length && !sample->Data()) {
// OOM.
return NS_ERROR_OUT_OF_MEMORY;
}
sample->mTimecode = tstamp;
sample->mTime = tstamp;
sample->mDuration = next_tstamp - tstamp;
sample->mOffset = holder->Offset();
sample->mKeyframe = isKeyframe;
if (discardPadding && i == count - 1) {
CheckedInt64 discardFrames;
if (discardPadding < 0) {
// This is an invalid value as discard padding should never be negative.
// Set to maximum value so that the decoder will reject it as it's
// greater than the number of frames available.
discardFrames = INT32_MAX;
WEBM_DEBUG("Invalid negative discard padding");
} else {
discardFrames = TimeUnitToFrames(
media::TimeUnit::FromNanoseconds(discardPadding), mInfo.mAudio.mRate);
}
if (discardFrames.isValid()) {
sample->mDiscardPadding = discardFrames.value();
}
}
if (packetEncryption == NESTEGG_PACKET_HAS_SIGNAL_BYTE_UNENCRYPTED ||
packetEncryption == NESTEGG_PACKET_HAS_SIGNAL_BYTE_ENCRYPTED) {
nsAutoPtr<MediaRawDataWriter> writer(sample->CreateWriter());
unsigned char const* iv;
size_t ivLength;
nestegg_packet_iv(holder->Packet(), &iv, &ivLength);
writer->mCrypto.mValid = true;
writer->mCrypto.mIVSize = ivLength;
if (ivLength == 0) {
// Frame is not encrypted
writer->mCrypto.mPlainSizes.AppendElement(length);
writer->mCrypto.mEncryptedSizes.AppendElement(0);
} else {
// Frame is encrypted
writer->mCrypto.mIV.AppendElements(iv, 8);
// Iv from a sample is 64 bits, must be padded with 64 bits more 0s
// in compliance with spec
for (uint32_t i = 0; i < 8; i++) {
writer->mCrypto.mIV.AppendElement(0);
}
writer->mCrypto.mPlainSizes.AppendElement(0);
writer->mCrypto.mEncryptedSizes.AppendElement(length);
}
}
if (aType == TrackInfo::kVideoTrack) {
sample->mTrackInfo = mSharedVideoTrackInfo;
}
if (mVideoCodec == NESTEGG_CODEC_AVC1) {
sample->mExtraData = mInfo.mVideo.mExtraData;
}
aSamples->Push(sample);
}
return NS_OK;
}
nsresult
WebMDemuxer::NextPacket(TrackInfo::TrackType aType,
RefPtr<NesteggPacketHolder>& aPacket)
{
bool isVideo = aType == TrackInfo::kVideoTrack;
// Flag to indicate that we do need to playback these types of
// packets.
bool hasType = isVideo ? mHasVideo : mHasAudio;
if (!hasType) {
return NS_ERROR_DOM_MEDIA_DEMUXER_ERR;
}
// The packet queue for the type that we are interested in.
WebMPacketQueue &packets = isVideo ? mVideoPackets : mAudioPackets;
if (packets.GetSize() > 0) {
aPacket = packets.PopFront();
return NS_OK;
}
// Track we are interested in
uint32_t ourTrack = isVideo ? mVideoTrack : mAudioTrack;
do {
RefPtr<NesteggPacketHolder> holder;
nsresult rv = DemuxPacket(aType, holder);
if (NS_FAILED(rv)) {
return rv;
}
if (!holder) {
return NS_ERROR_DOM_MEDIA_DEMUXER_ERR;
}
if (ourTrack == holder->Track()) {
aPacket = holder;
return NS_OK;
}
} while (true);
}
nsresult
WebMDemuxer::DemuxPacket(TrackInfo::TrackType aType,
RefPtr<NesteggPacketHolder>& aPacket)
{
nestegg_packet* packet;
int r = nestegg_read_packet(Context(aType), &packet);
if (r == 0) {
nestegg_read_reset(Context(aType));
return NS_ERROR_DOM_MEDIA_END_OF_STREAM;
} else if (r < 0) {
return NS_ERROR_DOM_MEDIA_DEMUXER_ERR;
}
unsigned int track = 0;
r = nestegg_packet_track(packet, &track);
if (r == -1) {
return NS_ERROR_DOM_MEDIA_DEMUXER_ERR;
}
int64_t offset = Resource(aType).Tell();
RefPtr<NesteggPacketHolder> holder = new NesteggPacketHolder();
if (!holder->Init(packet, offset, track, false)) {
return NS_ERROR_DOM_MEDIA_DEMUXER_ERR;
}
aPacket = holder;
return NS_OK;
}
void
WebMDemuxer::PushAudioPacket(NesteggPacketHolder* aItem)
{
mAudioPackets.PushFront(aItem);
}
void
WebMDemuxer::PushVideoPacket(NesteggPacketHolder* aItem)
{
mVideoPackets.PushFront(aItem);
}
nsresult
WebMDemuxer::SeekInternal(TrackInfo::TrackType aType,
const media::TimeUnit& aTarget)
{
EnsureUpToDateIndex();
uint32_t trackToSeek = mHasVideo ? mVideoTrack : mAudioTrack;
uint64_t target = aTarget.ToNanoseconds();
if (NS_FAILED(Reset(aType))) {
return NS_ERROR_FAILURE;
}
if (mSeekPreroll) {
uint64_t startTime = 0;
if (!mBufferedState->GetStartTime(&startTime)) {
startTime = 0;
}
WEBM_DEBUG("Seek Target: %f",
media::TimeUnit::FromNanoseconds(target).ToSeconds());
if (target < mSeekPreroll || target - mSeekPreroll < startTime) {
target = startTime;
} else {
target -= mSeekPreroll;
}
WEBM_DEBUG("SeekPreroll: %f StartTime: %f Adjusted Target: %f",
media::TimeUnit::FromNanoseconds(mSeekPreroll).ToSeconds(),
media::TimeUnit::FromNanoseconds(startTime).ToSeconds(),
media::TimeUnit::FromNanoseconds(target).ToSeconds());
}
int r = nestegg_track_seek(Context(aType), trackToSeek, target);
if (r == -1) {
WEBM_DEBUG("track_seek for track %u to %f failed, r=%d", trackToSeek,
media::TimeUnit::FromNanoseconds(target).ToSeconds(), r);
// Try seeking directly based on cluster information in memory.
int64_t offset = 0;
bool rv = mBufferedState->GetOffsetForTime(target, &offset);
if (!rv) {
WEBM_DEBUG("mBufferedState->GetOffsetForTime failed too");
return NS_ERROR_FAILURE;
}
r = nestegg_offset_seek(Context(aType), offset);
if (r == -1) {
WEBM_DEBUG("and nestegg_offset_seek to %" PRIu64 " failed", offset);
return NS_ERROR_FAILURE;
}
WEBM_DEBUG("got offset from buffered state: %" PRIu64 "", offset);
}
if (aType == TrackInfo::kAudioTrack) {
mLastAudioFrameTime.reset();
} else {
mLastVideoFrameTime.reset();
}
return NS_OK;
}
media::TimeIntervals
WebMDemuxer::GetBuffered()
{
EnsureUpToDateIndex();
AutoPinned<MediaResource> resource(
Resource(TrackInfo::kVideoTrack).GetResource());
media::TimeIntervals buffered;
MediaByteRangeSet ranges;
nsresult rv = resource->GetCachedRanges(ranges);
if (NS_FAILED(rv)) {
return media::TimeIntervals();
}
uint64_t duration = 0;
uint64_t startOffset = 0;
if (!nestegg_duration(Context(TrackInfo::kVideoTrack), &duration)) {
if(mBufferedState->GetStartTime(&startOffset)) {
duration += startOffset;
}
WEBM_DEBUG("Duration: %f StartTime: %f",
media::TimeUnit::FromNanoseconds(duration).ToSeconds(),
media::TimeUnit::FromNanoseconds(startOffset).ToSeconds());
}
for (uint32_t index = 0; index < ranges.Length(); index++) {
uint64_t start, end;
bool rv = mBufferedState->CalculateBufferedForRange(ranges[index].mStart,
ranges[index].mEnd,
&start, &end);
if (rv) {
NS_ASSERTION(startOffset <= start,
"startOffset negative or larger than start time");
if (duration && end > duration) {
WEBM_DEBUG("limit range to duration, end: %f duration: %f",
media::TimeUnit::FromNanoseconds(end).ToSeconds(),
media::TimeUnit::FromNanoseconds(duration).ToSeconds());
end = duration;
}
media::TimeUnit startTime = media::TimeUnit::FromNanoseconds(start);
media::TimeUnit endTime = media::TimeUnit::FromNanoseconds(end);
WEBM_DEBUG("add range %f-%f", startTime.ToSeconds(), endTime.ToSeconds());
buffered += media::TimeInterval(startTime, endTime);
}
}
return buffered;
}
bool WebMDemuxer::GetOffsetForTime(uint64_t aTime, int64_t* aOffset)
{
EnsureUpToDateIndex();
return mBufferedState && mBufferedState->GetOffsetForTime(aTime, aOffset);
}
//WebMTrackDemuxer
WebMTrackDemuxer::WebMTrackDemuxer(WebMDemuxer* aParent,
TrackInfo::TrackType aType,
uint32_t aTrackNumber)
: mParent(aParent)
, mType(aType)
, mNeedKeyframe(true)
{
mInfo = mParent->GetTrackInfo(aType, aTrackNumber);
MOZ_ASSERT(mInfo);
}
WebMTrackDemuxer::~WebMTrackDemuxer()
{
mSamples.Reset();
}
UniquePtr<TrackInfo>
WebMTrackDemuxer::GetInfo() const
{
return mInfo->Clone();
}
RefPtr<WebMTrackDemuxer::SeekPromise>
WebMTrackDemuxer::Seek(media::TimeUnit aTime)
{
// Seeks to aTime. Upon success, SeekPromise will be resolved with the
// actual time seeked to. Typically the random access point time
media::TimeUnit seekTime = aTime;
mSamples.Reset();
mParent->SeekInternal(mType, aTime);
nsresult rv = mParent->GetNextPacket(mType, &mSamples);
if (NS_FAILED(rv)) {
if (rv == NS_ERROR_DOM_MEDIA_END_OF_STREAM) {
// Ignore the error for now, the next GetSample will be rejected with EOS.
return SeekPromise::CreateAndResolve(media::TimeUnit(), __func__);
}
return SeekPromise::CreateAndReject(rv, __func__);
}
mNeedKeyframe = true;
// Check what time we actually seeked to.
if (mSamples.GetSize() > 0) {
const RefPtr<MediaRawData>& sample = mSamples.First();
seekTime = media::TimeUnit::FromMicroseconds(sample->mTime);
}
SetNextKeyFrameTime();
return SeekPromise::CreateAndResolve(seekTime, __func__);
}
nsresult
WebMTrackDemuxer::NextSample(RefPtr<MediaRawData>& aData)
{
nsresult rv;
while (mSamples.GetSize() < 1 &&
NS_SUCCEEDED((rv = mParent->GetNextPacket(mType, &mSamples)))) {
}
if (mSamples.GetSize()) {
aData = mSamples.PopFront();
return NS_OK;
}
return rv;
}
RefPtr<WebMTrackDemuxer::SamplesPromise>
WebMTrackDemuxer::GetSamples(int32_t aNumSamples)
{
RefPtr<SamplesHolder> samples = new SamplesHolder;
MOZ_ASSERT(aNumSamples);
nsresult rv = NS_ERROR_DOM_MEDIA_END_OF_STREAM;
while (aNumSamples) {
RefPtr<MediaRawData> sample;
rv = NextSample(sample);
if (NS_FAILED(rv)) {
break;
}
if (mNeedKeyframe && !sample->mKeyframe) {
continue;
}
mNeedKeyframe = false;
samples->mSamples.AppendElement(sample);
aNumSamples--;
}
if (samples->mSamples.IsEmpty()) {
return SamplesPromise::CreateAndReject(rv, __func__);
} else {
UpdateSamples(samples->mSamples);
return SamplesPromise::CreateAndResolve(samples, __func__);
}
}
void
WebMTrackDemuxer::SetNextKeyFrameTime()
{
if (mType != TrackInfo::kVideoTrack || mParent->IsMediaSource()) {
return;
}
int64_t frameTime = -1;
mNextKeyframeTime.reset();
MediaRawDataQueue skipSamplesQueue;
bool foundKeyframe = false;
while (!foundKeyframe && mSamples.GetSize()) {
RefPtr<MediaRawData> sample = mSamples.PopFront();
if (sample->mKeyframe) {
frameTime = sample->mTime;
foundKeyframe = true;
}
skipSamplesQueue.Push(sample.forget());
}
Maybe<int64_t> startTime;
if (skipSamplesQueue.GetSize()) {
const RefPtr<MediaRawData>& sample = skipSamplesQueue.First();
startTime.emplace(sample->mTimecode);
}
// Demux and buffer frames until we find a keyframe.
RefPtr<MediaRawData> sample;
nsresult rv = NS_OK;
while (!foundKeyframe && NS_SUCCEEDED((rv = NextSample(sample)))) {
if (sample->mKeyframe) {
frameTime = sample->mTime;
foundKeyframe = true;
}
int64_t sampleTimecode = sample->mTimecode;
skipSamplesQueue.Push(sample.forget());
if (!startTime) {
startTime.emplace(sampleTimecode);
} else if (!foundKeyframe &&
sampleTimecode > startTime.ref() + MAX_LOOK_AHEAD) {
WEBM_DEBUG("Couldn't find keyframe in a reasonable time, aborting");
break;
}
}
// We may have demuxed more than intended, so ensure that all frames are kept
// in the right order.
mSamples.PushFront(Move(skipSamplesQueue));
if (frameTime != -1) {
mNextKeyframeTime.emplace(media::TimeUnit::FromMicroseconds(frameTime));
WEBM_DEBUG("Next Keyframe %f (%u queued %.02fs)",
mNextKeyframeTime.value().ToSeconds(),
uint32_t(mSamples.GetSize()),
media::TimeUnit::FromMicroseconds(mSamples.Last()->mTimecode - mSamples.First()->mTimecode).ToSeconds());
} else {
WEBM_DEBUG("Couldn't determine next keyframe time (%u queued)",
uint32_t(mSamples.GetSize()));
}
}
void
WebMTrackDemuxer::Reset()
{
mSamples.Reset();
media::TimeIntervals buffered = GetBuffered();
mNeedKeyframe = true;
if (buffered.Length()) {
WEBM_DEBUG("Seek to start point: %f", buffered.Start(0).ToSeconds());
mParent->SeekInternal(mType, buffered.Start(0));
SetNextKeyFrameTime();
} else {
mNextKeyframeTime.reset();
}
}
void
WebMTrackDemuxer::UpdateSamples(nsTArray<RefPtr<MediaRawData>>& aSamples)
{
for (const auto& sample : aSamples) {
if (sample->mCrypto.mValid) {
nsAutoPtr<MediaRawDataWriter> writer(sample->CreateWriter());
writer->mCrypto.mMode = mInfo->mCrypto.mMode;
writer->mCrypto.mIVSize = mInfo->mCrypto.mIVSize;
writer->mCrypto.mKeyId.AppendElements(mInfo->mCrypto.mKeyId);
}
}
if (mNextKeyframeTime.isNothing() ||
aSamples.LastElement()->mTime >= mNextKeyframeTime.value().ToMicroseconds()) {
SetNextKeyFrameTime();
}
}
nsresult
WebMTrackDemuxer::GetNextRandomAccessPoint(media::TimeUnit* aTime)
{
if (mNextKeyframeTime.isNothing()) {
// There's no next key frame.
*aTime =
media::TimeUnit::FromMicroseconds(std::numeric_limits<int64_t>::max());
} else {
*aTime = mNextKeyframeTime.ref();
}
return NS_OK;
}
RefPtr<WebMTrackDemuxer::SkipAccessPointPromise>
WebMTrackDemuxer::SkipToNextRandomAccessPoint(media::TimeUnit aTimeThreshold)
{
uint32_t parsed = 0;
bool found = false;
RefPtr<MediaRawData> sample;
nsresult rv = NS_OK;
int64_t sampleTime;
WEBM_DEBUG("TimeThreshold: %f", aTimeThreshold.ToSeconds());
while (!found && NS_SUCCEEDED((rv = NextSample(sample)))) {
parsed++;
sampleTime = sample->mTime;
if (sample->mKeyframe && sampleTime >= aTimeThreshold.ToMicroseconds()) {
found = true;
mSamples.Reset();
mSamples.PushFront(sample.forget());
}
}
if (NS_SUCCEEDED(rv)) {
SetNextKeyFrameTime();
}
if (found) {
WEBM_DEBUG("next sample: %f (parsed: %d)",
media::TimeUnit::FromMicroseconds(sampleTime).ToSeconds(),
parsed);
return SkipAccessPointPromise::CreateAndResolve(parsed, __func__);
} else {
SkipFailureHolder failure(NS_ERROR_DOM_MEDIA_END_OF_STREAM, parsed);
return SkipAccessPointPromise::CreateAndReject(Move(failure), __func__);
}
}
media::TimeIntervals
WebMTrackDemuxer::GetBuffered()
{
return mParent->GetBuffered();
}
void
WebMTrackDemuxer::BreakCycles()
{
mParent = nullptr;
}
int64_t
WebMTrackDemuxer::GetEvictionOffset(const media::TimeUnit& aTime)
{
int64_t offset;
if (!mParent->GetOffsetForTime(aTime.ToNanoseconds(), &offset)) {
return 0;
}
return offset;
}
#undef WEBM_DEBUG
} // namespace mozilla
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