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a7ce5b7a533f938ad819a13a87cc861ebacb4ff8
gortsplib/serverstream.go
aler9 a7ce5b7a53 update docs
2022-02-18 10:08:47 +01:00

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package gortsplib
import (
"sync"
"sync/atomic"
"time"
"github.com/pion/rtcp"
"github.com/pion/rtp"
"github.com/aler9/gortsplib/pkg/liberrors"
)
type trackInfo struct {
lastSequenceNumber uint32
lastTimeRTP uint32
lastTimeNTP int64
lastSSRC uint32
}
// ServerStream represents a single stream.
// This is in charge of
// - distributing the stream to each reader
// - allocating multicast listeners
// - gathering infos about the stream to generate SSRC and RTP-Info
type ServerStream struct {
s *Server
tracks Tracks
mutex sync.RWMutex
readersUnicast map[*ServerSession]struct{}
readers map[*ServerSession]struct{}
serverMulticastHandlers []*serverMulticastHandler
trackInfos []*trackInfo
}
// NewServerStream allocates a ServerStream.
func NewServerStream(tracks Tracks) *ServerStream {
tracks = tracks.clone()
tracks.setControls()
st := &ServerStream{
tracks: tracks,
readersUnicast: make(map[*ServerSession]struct{}),
readers: make(map[*ServerSession]struct{}),
}
st.trackInfos = make([]*trackInfo, len(tracks))
for i := range st.trackInfos {
st.trackInfos[i] = &trackInfo{}
}
return st
}
// Close closes a ServerStream.
func (st *ServerStream) Close() error {
st.mutex.Lock()
defer st.mutex.Unlock()
if st.s != nil {
select {
case st.s.streamRemove <- st:
case <-st.s.ctx.Done():
}
}
for ss := range st.readers {
ss.Close()
}
if st.serverMulticastHandlers != nil {
for _, h := range st.serverMulticastHandlers {
h.close()
}
st.serverMulticastHandlers = nil
}
st.readers = nil
st.readersUnicast = nil
return nil
}
// Tracks returns the tracks of the stream.
func (st *ServerStream) Tracks() Tracks {
return st.tracks
}
func (st *ServerStream) ssrc(trackID int) uint32 {
return atomic.LoadUint32(&st.trackInfos[trackID].lastSSRC)
}
func (st *ServerStream) timestamp(trackID int) uint32 {
lastTimeRTP := atomic.LoadUint32(&st.trackInfos[trackID].lastTimeRTP)
lastTimeNTP := atomic.LoadInt64(&st.trackInfos[trackID].lastTimeNTP)
if lastTimeRTP == 0 || lastTimeNTP == 0 {
return 0
}
return uint32(uint64(lastTimeRTP) +
uint64(time.Since(time.Unix(lastTimeNTP, 0)).Seconds()*float64(st.tracks[trackID].ClockRate())))
}
func (st *ServerStream) lastSequenceNumber(trackID int) uint16 {
return uint16(atomic.LoadUint32(&st.trackInfos[trackID].lastSequenceNumber))
}
func (st *ServerStream) readerAdd(
ss *ServerSession,
transport Transport,
clientPorts *[2]int,
) error {
st.mutex.Lock()
defer st.mutex.Unlock()
if st.s == nil {
st.s = ss.s
select {
case st.s.streamAdd <- st:
case <-st.s.ctx.Done():
}
}
switch transport {
case TransportUDP:
// check if client ports are already in use by another reader.
for r := range st.readersUnicast {
if *r.setuppedTransport == TransportUDP &&
r.author.ip().Equal(ss.author.ip()) &&
r.author.zone() == ss.author.zone() {
for _, rt := range r.setuppedTracks {
if rt.udpRTPPort == clientPorts[0] {
return liberrors.ErrServerUDPPortsAlreadyInUse{Port: rt.udpRTPPort}
}
}
}
}
case TransportUDPMulticast:
// allocate multicast listeners
if st.serverMulticastHandlers == nil {
st.serverMulticastHandlers = make([]*serverMulticastHandler, len(st.tracks))
for i := range st.tracks {
h, err := newServerMulticastHandler(st.s)
if err != nil {
for _, h := range st.serverMulticastHandlers {
if h != nil {
h.close()
}
}
st.serverMulticastHandlers = nil
return err
}
st.serverMulticastHandlers[i] = h
}
}
}
st.readers[ss] = struct{}{}
return nil
}
func (st *ServerStream) readerRemove(ss *ServerSession) {
st.mutex.Lock()
defer st.mutex.Unlock()
delete(st.readers, ss)
if len(st.readers) == 0 && st.serverMulticastHandlers != nil {
for _, l := range st.serverMulticastHandlers {
l.rtpl.close()
l.rtcpl.close()
}
st.serverMulticastHandlers = nil
}
}
func (st *ServerStream) readerSetActive(ss *ServerSession) {
st.mutex.Lock()
defer st.mutex.Unlock()
switch *ss.setuppedTransport {
case TransportUDP, TransportTCP:
st.readersUnicast[ss] = struct{}{}
default: // UDPMulticast
for trackID := range ss.setuppedTracks {
st.serverMulticastHandlers[trackID].rtcpl.addClient(
ss.author.ip(), st.serverMulticastHandlers[trackID].rtcpl.port(), ss, trackID, false)
}
}
}
func (st *ServerStream) readerSetInactive(ss *ServerSession) {
st.mutex.Lock()
defer st.mutex.Unlock()
switch *ss.setuppedTransport {
case TransportUDP, TransportTCP:
delete(st.readersUnicast, ss)
default: // UDPMulticast
if st.serverMulticastHandlers != nil {
for trackID := range ss.setuppedTracks {
st.serverMulticastHandlers[trackID].rtcpl.removeClient(ss)
}
}
}
}
// WritePacketRTP writes a RTP packet to all the readers of the stream.
func (st *ServerStream) WritePacketRTP(trackID int, pkt *rtp.Packet) {
byts, err := pkt.Marshal()
if err != nil {
return
}
track := st.trackInfos[trackID]
atomic.StoreUint32(&track.lastSequenceNumber,
uint32(pkt.Header.SequenceNumber))
atomic.StoreUint32(&track.lastTimeRTP, pkt.Header.Timestamp)
atomic.StoreInt64(&track.lastTimeNTP, time.Now().Unix())
atomic.StoreUint32(&track.lastSSRC, pkt.Header.SSRC)
st.mutex.RLock()
defer st.mutex.RUnlock()
// send unicast
for r := range st.readersUnicast {
r.writePacketRTP(trackID, byts)
}
// send multicast
if st.serverMulticastHandlers != nil {
st.serverMulticastHandlers[trackID].writePacketRTP(byts)
}
}
// WritePacketRTCP writes a RTCP packet to all the readers of the stream.
func (st *ServerStream) WritePacketRTCP(trackID int, pkt rtcp.Packet) {
byts, err := pkt.Marshal()
if err != nil {
return
}
st.mutex.RLock()
defer st.mutex.RUnlock()
// send unicast
for r := range st.readersUnicast {
r.writePacketRTCP(trackID, byts)
}
// send multicast
if st.serverMulticastHandlers != nil {
st.serverMulticastHandlers[trackID].writePacketRTCP(byts)
}
}
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