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mediamtx/internal/formatprocessor/h265.go

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package formatprocessor
import (
"bytes"
"time"
"github.com/bluenviron/gortsplib/v3/pkg/formats"
"github.com/bluenviron/gortsplib/v3/pkg/formats/rtph265"
"github.com/bluenviron/mediacommon/pkg/codecs/h265"
"github.com/pion/rtp"
)
// extract VPS, SPS and PPS without decoding RTP packets
func rtpH265ExtractVPSSPSPPS(pkt *rtp.Packet) ([]byte, []byte, []byte) {
if len(pkt.Payload) < 2 {
return nil, nil, nil
}
typ := h265.NALUType((pkt.Payload[0] >> 1) & 0b111111)
switch typ {
case h265.NALUType_VPS_NUT:
return pkt.Payload, nil, nil
case h265.NALUType_SPS_NUT:
return nil, pkt.Payload, nil
case h265.NALUType_PPS_NUT:
return nil, nil, pkt.Payload
case h265.NALUType_AggregationUnit:
payload := pkt.Payload[2:]
var vps []byte
var sps []byte
var pps []byte
for len(payload) > 0 {
if len(payload) < 2 {
break
}
size := uint16(payload[0])<<8 | uint16(payload[1])
payload = payload[2:]
if size == 0 {
break
}
if int(size) > len(payload) {
return nil, nil, nil
}
nalu := payload[:size]
payload = payload[size:]
typ = h265.NALUType((pkt.Payload[0] >> 1) & 0b111111)
switch typ {
case h265.NALUType_VPS_NUT:
vps = nalu
case h265.NALUType_SPS_NUT:
sps = nalu
case h265.NALUType_PPS_NUT:
pps = nalu
}
}
return vps, sps, pps
default:
return nil, nil, nil
}
}
// UnitH265 is a H265 data unit.
type UnitH265 struct {
RTPPackets []*rtp.Packet
NTP time.Time
PTS time.Duration
AU [][]byte
}
// GetRTPPackets implements Unit.
func (d *UnitH265) GetRTPPackets() []*rtp.Packet {
return d.RTPPackets
}
// GetNTP implements Unit.
func (d *UnitH265) GetNTP() time.Time {
return d.NTP
}
type formatProcessorH265 struct {
udpMaxPayloadSize int
format *formats.H265
encoder *rtph265.Encoder
decoder *rtph265.Decoder
}
func newH265(
udpMaxPayloadSize int,
forma *formats.H265,
allocateEncoder bool,
) (*formatProcessorH265, error) {
t := &formatProcessorH265{
udpMaxPayloadSize: udpMaxPayloadSize,
format: forma,
}
if allocateEncoder {
t.encoder = forma.CreateEncoder()
}
return t, nil
}
func (t *formatProcessorH265) updateTrackParametersFromRTPPacket(pkt *rtp.Packet) {
vps, sps, pps := rtpH265ExtractVPSSPSPPS(pkt)
update := false
if vps != nil && !bytes.Equal(vps, t.format.VPS) {
update = true
}
if sps != nil && !bytes.Equal(sps, t.format.SPS) {
update = true
}
if pps != nil && !bytes.Equal(pps, t.format.PPS) {
update = true
}
if update {
if vps == nil {
vps = t.format.VPS
}
if sps == nil {
sps = t.format.SPS
}
if pps == nil {
pps = t.format.PPS
}
t.format.SafeSetParams(vps, sps, pps)
}
}
func (t *formatProcessorH265) updateTrackParametersFromNALUs(nalus [][]byte) {
vps := t.format.VPS
sps := t.format.SPS
pps := t.format.PPS
update := false
for _, nalu := range nalus {
typ := h265.NALUType((nalu[0] >> 1) & 0b111111)
switch typ {
case h265.NALUType_VPS_NUT:
if !bytes.Equal(nalu, t.format.VPS) {
vps = nalu
update = true
}
case h265.NALUType_SPS_NUT:
if !bytes.Equal(nalu, t.format.SPS) {
sps = nalu
update = true
}
case h265.NALUType_PPS_NUT:
if !bytes.Equal(nalu, t.format.PPS) {
pps = nalu
update = true
}
}
}
if update {
t.format.SafeSetParams(vps, sps, pps)
}
}
func (t *formatProcessorH265) remuxAccessUnit(nalus [][]byte) [][]byte {
addParameters := false
n := 0
for _, nalu := range nalus {
typ := h265.NALUType((nalu[0] >> 1) & 0b111111)
switch typ {
case h265.NALUType_VPS_NUT, h265.NALUType_SPS_NUT, h265.NALUType_PPS_NUT: // remove parameters
continue
case h265.NALUType_AUD_NUT: // remove AUDs
continue
// prepend parameters if there's at least a random access unit
case h265.NALUType_IDR_W_RADL, h265.NALUType_IDR_N_LP, h265.NALUType_CRA_NUT:
if !addParameters {
addParameters = true
if t.format.VPS != nil && t.format.SPS != nil && t.format.PPS != nil {
n += 3
}
}
}
n++
}
if n == 0 {
return nil
}
filteredNALUs := make([][]byte, n)
i := 0
if addParameters && t.format.VPS != nil && t.format.SPS != nil && t.format.PPS != nil {
filteredNALUs[0] = t.format.VPS
filteredNALUs[1] = t.format.SPS
filteredNALUs[2] = t.format.PPS
i = 3
}
for _, nalu := range nalus {
typ := h265.NALUType((nalu[0] >> 1) & 0b111111)
switch typ {
case h265.NALUType_VPS_NUT, h265.NALUType_SPS_NUT, h265.NALUType_PPS_NUT:
continue
case h265.NALUType_AUD_NUT:
continue
}
filteredNALUs[i] = nalu
i++
}
return filteredNALUs
}
func (t *formatProcessorH265) Process(unit Unit, hasNonRTSPReaders bool) error { //nolint:dupl
tunit := unit.(*UnitH265)
if tunit.RTPPackets != nil {
pkt := tunit.RTPPackets[0]
t.updateTrackParametersFromRTPPacket(pkt)
if t.encoder == nil {
// remove padding
pkt.Header.Padding = false
pkt.PaddingSize = 0
// RTP packets exceed maximum size: start re-encoding them
if pkt.MarshalSize() > t.udpMaxPayloadSize {
v1 := pkt.SSRC
v2 := pkt.SequenceNumber
v3 := pkt.Timestamp
t.encoder = &rtph265.Encoder{
PayloadMaxSize: t.udpMaxPayloadSize - 12,
PayloadType: pkt.PayloadType,
SSRC: &v1,
InitialSequenceNumber: &v2,
InitialTimestamp: &v3,
MaxDONDiff: t.format.MaxDONDiff,
}
t.encoder.Init()
}
}
// decode from RTP
if hasNonRTSPReaders || t.encoder != nil {
if t.decoder == nil {
t.decoder = t.format.CreateDecoder()
}
if t.encoder != nil {
tunit.RTPPackets = nil
}
// DecodeUntilMarker() is necessary, otherwise Encode() generates partial groups
au, pts, err := t.decoder.DecodeUntilMarker(pkt)
if err != nil {
if err == rtph265.ErrNonStartingPacketAndNoPrevious || err == rtph265.ErrMorePacketsNeeded {
return nil
}
return err
}
tunit.AU = au
tunit.PTS = pts
tunit.AU = t.remuxAccessUnit(tunit.AU)
}
// route packet as is
if t.encoder == nil {
return nil
}
} else {
t.updateTrackParametersFromNALUs(tunit.AU)
tunit.AU = t.remuxAccessUnit(tunit.AU)
}
if len(tunit.AU) != 0 {
pkts, err := t.encoder.Encode(tunit.AU, tunit.PTS)
if err != nil {
return err
}
tunit.RTPPackets = pkts
} else {
tunit.RTPPackets = nil
}
return nil
}
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