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makefragment.go
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makefragment.go
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package fmp4
import (
"github.com/dongjialong2006/vdk/av"
"github.com/dongjialong2006/vdk/format/fmp4/fmp4io"
"github.com/dongjialong2006/vdk/format/fmp4/fragment"
"github.com/dongjialong2006/vdk/format/fmp4/timescale"
"github.com/dongjialong2006/vdk/utils/bits/pio"
)
type fragmentWithData struct {
trackFrag *fmp4io.TrackFrag
packets []av.Packet
independent bool
}
func (f *TrackFragmenter) makeFragment() fragmentWithData {
if len(f.pending) < 2 {
return fragmentWithData{}
}
entryCount := len(f.pending) - 1
// timescale for first packet
startTime := f.pending[0].Time
startDTS := timescale.ToScale(startTime, f.timeScale)
// build fragment metadata
defaultFlags := fmp4io.SampleNoDependencies
if f.codecData.Type().IsVideo() {
defaultFlags = fmp4io.SampleNonKeyframe
}
track := &fmp4io.TrackFrag{
Header: &fmp4io.TrackFragHeader{
Flags: fmp4io.TrackFragDefaultBaseIsMOOF,
TrackID: f.trackID,
},
DecodeTime: &fmp4io.TrackFragDecodeTime{
Version: 1,
Time: startDTS,
},
Run: &fmp4io.TrackFragRun{
Flags: fmp4io.TrackRunDataOffset,
Entries: make([]fmp4io.TrackFragRunEntry, entryCount),
},
}
// add samples to the fragment run
curDTS := startDTS
for i, pkt := range f.pending[:entryCount] {
// calculate the absolute DTS of the next sample and use the difference as the duration
nextTime := f.pending[i+1].Time
nextDTS := timescale.ToScale(nextTime, f.timeScale)
entry := fmp4io.TrackFragRunEntry{
Duration: uint32(nextDTS - curDTS),
Flags: defaultFlags,
Size: uint32(len(pkt.Data)),
}
if pkt.IsKeyFrame {
entry.Flags = fmp4io.SampleNoDependencies
}
if i == 0 {
// Optimistically use the first sample's fields as defaults.
// If a later sample has different values, then the default will be cleared and per-sample values will be used for that field.
track.Header.DefaultDuration = entry.Duration
track.Header.DefaultSize = entry.Size
track.Header.DefaultFlags = entry.Flags
track.Run.FirstSampleFlags = entry.Flags
} else {
if entry.Duration != track.Header.DefaultDuration {
track.Header.DefaultDuration = 0
}
if entry.Size != track.Header.DefaultSize {
track.Header.DefaultSize = 0
}
// The first sample's flags can be specified separately if all other samples have the same flags.
// Thus the default flags come from the second sample.
if i == 1 {
track.Header.DefaultFlags = entry.Flags
} else if entry.Flags != track.Header.DefaultFlags {
track.Header.DefaultFlags = 0
}
}
if pkt.CompositionTime != 0 {
// add composition time to entries in this run
track.Run.Flags |= fmp4io.TrackRunSampleCTS
relCTS := timescale.Relative(pkt.CompositionTime, f.timeScale)
if relCTS < 0 {
// negative composition time needs version 1
track.Run.Version = 1
}
entry.CTS = relCTS
}
// log.Printf("%3d %d -> %d = %d %s -> %s = %s comp %s %d", f.trackID, curDTS, nextDTS, nextDTS-curDTS, pkt.Time, nextTime, nextTime-pkt.Time, pkt.CompositionTime, entry.CTS)
curDTS = nextDTS
track.Run.Entries[i] = entry
}
if track.Header.DefaultSize != 0 {
// all samples are the same size
track.Header.Flags |= fmp4io.TrackFragDefaultSize
} else {
track.Run.Flags |= fmp4io.TrackRunSampleSize
}
if track.Header.DefaultDuration != 0 {
// all samples are the same duration
track.Header.Flags |= fmp4io.TrackFragDefaultDuration
} else {
track.Run.Flags |= fmp4io.TrackRunSampleDuration
}
if track.Header.DefaultFlags != 0 {
// all samples are the same duration
track.Header.Flags |= fmp4io.TrackFragDefaultFlags
if track.Run.FirstSampleFlags != track.Header.DefaultFlags {
// except the first one
track.Run.Flags |= fmp4io.TrackRunFirstSampleFlags
}
} else {
track.Run.Flags |= fmp4io.TrackRunSampleFlags
}
d := fragmentWithData{
trackFrag: track,
packets: f.pending[:entryCount],
independent: track.Run.FirstSampleFlags&fmp4io.SampleNoDependencies != 0,
}
f.pending = []av.Packet{f.pending[entryCount]}
return d
}
func marshalFragment(tracks []fragmentWithData, seqNum uint32, initial bool) fragment.Fragment {
// fill out fragment header
moof := &fmp4io.MovieFrag{
Header: &fmp4io.MovieFragHeader{
Seqnum: seqNum,
},
Tracks: make([]*fmp4io.TrackFrag, len(tracks)),
}
independent := true
for i, track := range tracks {
moof.Tracks[i] = track.trackFrag
if !track.independent {
independent = false
}
}
// calculate track data offsets relative to the start of the MOOF
dataBase := moof.Len() + 8 // MOOF plus the MDAT header
dataOffset := dataBase
for i, track := range tracks {
moof.Tracks[i].Run.DataOffset = uint32(dataOffset)
for _, pkt := range track.packets {
dataOffset += len(pkt.Data)
}
}
// marshal MOOF and MDAT header
var shdrSize int
if initial {
shdrOnce.Do(func() {
shdr = FragmentHeader()
})
shdrSize = len(shdr)
}
b := make([]byte, shdrSize+dataBase, shdrSize+dataOffset)
var n int
if initial {
copy(b, shdr)
n = len(shdr)
}
n += moof.Marshal(b[n:])
pio.PutU32BE(b[n:], uint32(dataOffset-dataBase+8))
pio.PutU32BE(b[n+4:], uint32(fmp4io.MDAT))
// write MDAT contents
for i, track := range tracks {
moof.Tracks[i].Run.DataOffset = uint32(dataOffset)
for _, pkt := range track.packets {
b = append(b, pkt.Data...)
}
}
return fragment.Fragment{
Bytes: b,
Length: len(b),
Independent: independent,
}
}