mediamtx/internal/formatprocessor/av1.go
2023-07-30 22:55:13 +02:00

143 lines
3.1 KiB
Go

package formatprocessor
import (
"fmt"
"time"
"github.com/bluenviron/gortsplib/v3/pkg/formats"
"github.com/bluenviron/gortsplib/v3/pkg/formats/rtpav1"
"github.com/bluenviron/mediacommon/pkg/codecs/av1"
"github.com/pion/rtp"
"github.com/bluenviron/mediamtx/internal/logger"
)
// UnitAV1 is an AV1 data unit.
type UnitAV1 struct {
BaseUnit
PTS time.Duration
OBUs [][]byte
}
type formatProcessorAV1 struct {
udpMaxPayloadSize int
format *formats.AV1
log logger.Writer
encoder *rtpav1.Encoder
decoder *rtpav1.Decoder
lastKeyFrameTimeReceived bool
lastKeyFrameTime time.Time
}
func newAV1(
udpMaxPayloadSize int,
forma *formats.AV1,
generateRTPPackets bool,
log logger.Writer,
) (*formatProcessorAV1, error) {
t := &formatProcessorAV1{
udpMaxPayloadSize: udpMaxPayloadSize,
format: forma,
log: log,
}
if generateRTPPackets {
err := t.createEncoder()
if err != nil {
return nil, err
}
}
return t, nil
}
func (t *formatProcessorAV1) createEncoder() error {
t.encoder = &rtpav1.Encoder{
PayloadMaxSize: t.udpMaxPayloadSize - 12,
}
return t.encoder.Init()
}
func (t *formatProcessorAV1) checkKeyFrameInterval(ntp time.Time, isKeyFrame bool) {
if !t.lastKeyFrameTimeReceived || isKeyFrame {
t.lastKeyFrameTimeReceived = true
t.lastKeyFrameTime = ntp
return
}
if ntp.Sub(t.lastKeyFrameTime) >= maxKeyFrameInterval {
t.lastKeyFrameTime = ntp
t.log.Log(logger.Warn, "no AV1 key frames received in %v, stream can't be decoded", maxKeyFrameInterval)
}
}
func (t *formatProcessorAV1) checkOBUs(ntp time.Time, obus [][]byte) {
containsKeyFrame, _ := av1.ContainsKeyFrame(obus)
t.checkKeyFrameInterval(ntp, containsKeyFrame)
}
func (t *formatProcessorAV1) Process(unit Unit, hasNonRTSPReaders bool) error { //nolint:dupl
tunit := unit.(*UnitAV1)
if tunit.RTPPackets != nil {
pkt := tunit.RTPPackets[0]
// remove padding
pkt.Header.Padding = false
pkt.PaddingSize = 0
if pkt.MarshalSize() > t.udpMaxPayloadSize {
return fmt.Errorf("payload size (%d) is greater than maximum allowed (%d)",
pkt.MarshalSize(), t.udpMaxPayloadSize)
}
// decode from RTP
if hasNonRTSPReaders || t.decoder != nil {
if t.decoder == nil {
var err error
t.decoder, err = t.format.CreateDecoder2()
if err != nil {
return err
}
}
// DecodeUntilMarker() is necessary, otherwise Encode() generates partial groups
obus, pts, err := t.decoder.DecodeUntilMarker(pkt)
if err != nil {
if err == rtpav1.ErrNonStartingPacketAndNoPrevious || err == rtpav1.ErrMorePacketsNeeded {
return nil
}
return err
}
tunit.OBUs = obus
t.checkOBUs(tunit.NTP, obus)
tunit.PTS = pts
}
// route packet as is
return nil
}
t.checkOBUs(tunit.NTP, tunit.OBUs)
// encode into RTP
pkts, err := t.encoder.Encode(tunit.OBUs, tunit.PTS)
if err != nil {
return err
}
tunit.RTPPackets = pkts
return nil
}
func (t *formatProcessorAV1) UnitForRTPPacket(pkt *rtp.Packet, ntp time.Time) Unit {
return &UnitAV1{
BaseUnit: BaseUnit{
RTPPackets: []*rtp.Packet{pkt},
NTP: ntp,
},
}
}