package formatprocessor import ( "bytes" "errors" "time" "github.com/bluenviron/gortsplib/v4/pkg/format" "github.com/bluenviron/gortsplib/v4/pkg/format/rtph265" "github.com/bluenviron/mediacommon/pkg/codecs/h265" "github.com/pion/rtp" "github.com/bluenviron/mediamtx/internal/unit" ) // extract VPS, SPS and PPS without decoding RTP packets func rtpH265ExtractParams(payload []byte) ([]byte, []byte, []byte) { if len(payload) < 2 { return nil, nil, nil } typ := h265.NALUType((payload[0] >> 1) & 0b111111) switch typ { case h265.NALUType_VPS_NUT: return payload, nil, nil case h265.NALUType_SPS_NUT: return nil, payload, nil case h265.NALUType_PPS_NUT: return nil, nil, payload case h265.NALUType_AggregationUnit: payload := 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((nalu[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 } } type formatProcessorH265 struct { udpMaxPayloadSize int format *format.H265 encoder *rtph265.Encoder decoder *rtph265.Decoder } func newH265( udpMaxPayloadSize int, forma *format.H265, generateRTPPackets bool, ) (*formatProcessorH265, error) { t := &formatProcessorH265{ udpMaxPayloadSize: udpMaxPayloadSize, format: forma, } if generateRTPPackets { err := t.createEncoder(nil, nil) if err != nil { return nil, err } } return t, nil } func (t *formatProcessorH265) createEncoder( ssrc *uint32, initialSequenceNumber *uint16, ) error { t.encoder = &rtph265.Encoder{ PayloadMaxSize: t.udpMaxPayloadSize - 12, PayloadType: t.format.PayloadTyp, SSRC: ssrc, InitialSequenceNumber: initialSequenceNumber, MaxDONDiff: t.format.MaxDONDiff, } return t.encoder.Init() } func (t *formatProcessorH265) updateTrackParametersFromRTPPacket(payload []byte) { vps, sps, pps := rtpH265ExtractParams(payload) if (vps != nil && !bytes.Equal(vps, t.format.VPS)) || (sps != nil && !bytes.Equal(sps, t.format.SPS)) || (pps != nil && !bytes.Equal(pps, t.format.PPS)) { 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) updateTrackParametersFromAU(au [][]byte) { vps := t.format.VPS sps := t.format.SPS pps := t.format.PPS update := false for _, nalu := range au { 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(au [][]byte) [][]byte { isKeyFrame := false n := 0 for _, nalu := range au { typ := h265.NALUType((nalu[0] >> 1) & 0b111111) switch typ { case h265.NALUType_VPS_NUT, h265.NALUType_SPS_NUT, h265.NALUType_PPS_NUT: // parameters: remove continue case h265.NALUType_AUD_NUT: // AUD: remove continue case h265.NALUType_IDR_W_RADL, h265.NALUType_IDR_N_LP, h265.NALUType_CRA_NUT: // key frame if !isKeyFrame { isKeyFrame = true // prepend parameters 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 isKeyFrame && 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 au { 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) ProcessUnit(uu unit.Unit) error { //nolint:dupl u := uu.(*unit.H265) t.updateTrackParametersFromAU(u.AU) u.AU = t.remuxAccessUnit(u.AU) if u.AU != nil { pkts, err := t.encoder.Encode(u.AU) if err != nil { return err } ts := uint32(multiplyAndDivide(u.PTS, time.Duration(t.format.ClockRate()), time.Second)) for _, pkt := range pkts { pkt.Timestamp += ts } u.RTPPackets = pkts } return nil } func (t *formatProcessorH265) ProcessRTPPacket( //nolint:dupl pkt *rtp.Packet, ntp time.Time, pts time.Duration, hasNonRTSPReaders bool, ) (Unit, error) { u := &unit.H265{ Base: unit.Base{ RTPPackets: []*rtp.Packet{pkt}, NTP: ntp, PTS: pts, }, } t.updateTrackParametersFromRTPPacket(pkt.Payload) 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 err := t.createEncoder(&v1, &v2) if err != nil { return nil, err } } } // decode from RTP if hasNonRTSPReaders || t.decoder != nil || t.encoder != nil { if t.decoder == nil { var err error t.decoder, err = t.format.CreateDecoder() if err != nil { return nil, err } } au, err := t.decoder.Decode(pkt) if t.encoder != nil { u.RTPPackets = nil } if err != nil { if errors.Is(err, rtph265.ErrNonStartingPacketAndNoPrevious) || errors.Is(err, rtph265.ErrMorePacketsNeeded) { return u, nil } return nil, err } u.AU = t.remuxAccessUnit(au) } // route packet as is if t.encoder == nil { return u, nil } // encode into RTP if len(u.AU) != 0 { pkts, err := t.encoder.Encode(u.AU) if err != nil { return nil, err } for _, newPKT := range pkts { newPKT.Timestamp = pkt.Timestamp } u.RTPPackets = pkts } return u, nil }