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server_stream.go
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package gortsplib
import (
"fmt"
"sync"
"sync/atomic"
"time"
"github.com/pion/rtcp"
"github.com/pion/rtp"
"github.com/bluenviron/gortsplib/v4/pkg/description"
"github.com/bluenviron/gortsplib/v4/pkg/format"
"github.com/bluenviron/gortsplib/v4/pkg/liberrors"
)
// NewServerStream allocates a ServerStream.
//
// Deprecated: replaced by ServerStream.Initialize().
func NewServerStream(s *Server, desc *description.Session) *ServerStream {
st := &ServerStream{
Server: s,
Desc: desc,
}
err := st.Initialize()
if err != nil {
panic(err)
}
return st
}
// ServerStream represents a data stream.
// This is in charge of
// - storing stream description and statistics
// - distributing the stream to each reader
// - allocating multicast listeners
type ServerStream struct {
Server *Server
Desc *description.Session
mutex sync.RWMutex
readers map[*ServerSession]struct{}
multicastReaderCount int
activeUnicastReaders map[*ServerSession]struct{}
medias map[*description.Media]*serverStreamMedia
closed bool
}
// Initialize initializes a ServerStream.
func (st *ServerStream) Initialize() error {
if st.Server == nil || st.Server.sessions == nil {
return fmt.Errorf("server not present or not initialized")
}
st.readers = make(map[*ServerSession]struct{})
st.activeUnicastReaders = make(map[*ServerSession]struct{})
st.medias = make(map[*description.Media]*serverStreamMedia, len(st.Desc.Medias))
for i, medi := range st.Desc.Medias {
sm := &serverStreamMedia{
st: st,
media: medi,
trackID: i,
}
err := sm.initialize()
if err != nil {
for _, medi := range st.Desc.Medias[:i] {
st.medias[medi].close()
}
return err
}
st.medias[medi] = sm
}
return nil
}
// Close closes a ServerStream.
func (st *ServerStream) Close() {
st.mutex.Lock()
st.closed = true
st.mutex.Unlock()
for ss := range st.readers {
ss.Close()
}
for _, sm := range st.medias {
sm.close()
}
}
// BytesSent returns the number of written bytes.
//
// Deprecated: replaced by Stats()
func (st *ServerStream) BytesSent() uint64 {
v := uint64(0)
for _, me := range st.medias {
v += atomic.LoadUint64(me.bytesSent)
}
return v
}
// Description returns the description of the stream.
//
// Deprecated: use ServerStream.Desc.
func (st *ServerStream) Description() *description.Session {
return st.Desc
}
// Stats returns stream statistics.
func (st *ServerStream) Stats() *ServerStreamStats {
mediaStats := func() map[*description.Media]ServerStreamStatsMedia {
ret := make(map[*description.Media]ServerStreamStatsMedia, len(st.medias))
for med, sm := range st.medias {
ret[med] = ServerStreamStatsMedia{
BytesSent: atomic.LoadUint64(sm.bytesSent),
RTCPPacketsSent: atomic.LoadUint64(sm.rtcpPacketsSent),
Formats: func() map[format.Format]ServerStreamStatsFormat {
ret := make(map[format.Format]ServerStreamStatsFormat)
for _, fo := range sm.formats {
ret[fo.format] = ServerStreamStatsFormat{
RTPPacketsSent: atomic.LoadUint64(fo.rtpPacketsSent),
LocalSSRC: fo.localSSRC,
}
}
return ret
}(),
}
}
return ret
}()
return &ServerStreamStats{
BytesSent: func() uint64 {
v := uint64(0)
for _, ms := range mediaStats {
v += ms.BytesSent
}
return v
}(),
RTPPacketsSent: func() uint64 {
v := uint64(0)
for _, ms := range mediaStats {
for _, f := range ms.Formats {
v += f.RTPPacketsSent
}
}
return v
}(),
RTCPPacketsSent: func() uint64 {
v := uint64(0)
for _, ms := range mediaStats {
v += ms.RTCPPacketsSent
}
return v
}(),
Medias: mediaStats,
}
}
func (st *ServerStream) readerAdd(
ss *ServerSession,
clientPorts *[2]int,
) error {
st.mutex.Lock()
defer st.mutex.Unlock()
if st.closed {
return liberrors.ErrServerStreamClosed{}
}
switch *ss.setuppedTransport {
case TransportUDP:
// check whether UDP ports and IP are already assigned to another reader
for r := range st.readers {
if *r.setuppedTransport == TransportUDP &&
r.author.ip().Equal(ss.author.ip()) &&
r.author.zone() == ss.author.zone() {
for _, rt := range r.setuppedMedias {
if rt.udpRTPReadPort == clientPorts[0] {
return liberrors.ErrServerUDPPortsAlreadyInUse{Port: rt.udpRTPReadPort}
}
}
}
}
case TransportUDPMulticast:
if st.multicastReaderCount == 0 {
for _, media := range st.medias {
mw := &serverMulticastWriter{
s: st.Server,
}
err := mw.initialize()
if err != nil {
return err
}
media.multicastWriter = mw
}
}
st.multicastReaderCount++
}
st.readers[ss] = struct{}{}
return nil
}
func (st *ServerStream) readerRemove(ss *ServerSession) {
st.mutex.Lock()
defer st.mutex.Unlock()
if st.closed {
return
}
delete(st.readers, ss)
if *ss.setuppedTransport == TransportUDPMulticast {
st.multicastReaderCount--
if st.multicastReaderCount == 0 {
for _, media := range st.medias {
media.multicastWriter.close()
media.multicastWriter = nil
}
}
}
}
func (st *ServerStream) readerSetActive(ss *ServerSession) {
st.mutex.Lock()
defer st.mutex.Unlock()
if st.closed {
return
}
if *ss.setuppedTransport == TransportUDPMulticast {
for medi, sm := range ss.setuppedMedias {
streamMedia := st.medias[medi]
streamMedia.multicastWriter.rtcpl.addClient(
ss.author.ip(), streamMedia.multicastWriter.rtcpl.port(), sm.readPacketRTCPUDPPlay)
}
} else {
st.activeUnicastReaders[ss] = struct{}{}
}
}
func (st *ServerStream) readerSetInactive(ss *ServerSession) {
st.mutex.Lock()
defer st.mutex.Unlock()
if st.closed {
return
}
if *ss.setuppedTransport == TransportUDPMulticast {
for medi := range ss.setuppedMedias {
streamMedia := st.medias[medi]
streamMedia.multicastWriter.rtcpl.removeClient(ss.author.ip(), streamMedia.multicastWriter.rtcpl.port())
}
} else {
delete(st.activeUnicastReaders, ss)
}
}
// WritePacketRTP writes a RTP packet to all the readers of the stream.
func (st *ServerStream) WritePacketRTP(medi *description.Media, pkt *rtp.Packet) error {
return st.WritePacketRTPWithNTP(medi, pkt, st.Server.timeNow())
}
// WritePacketRTPWithNTP writes a RTP packet to all the readers of the stream.
// ntp is the absolute timestamp of the packet, and is sent with periodic RTCP sender reports.
func (st *ServerStream) WritePacketRTPWithNTP(medi *description.Media, pkt *rtp.Packet, ntp time.Time) error {
st.mutex.RLock()
defer st.mutex.RUnlock()
if st.closed {
return liberrors.ErrServerStreamClosed{}
}
sm := st.medias[medi]
sf := sm.formats[pkt.PayloadType]
return sf.writePacketRTP(pkt, ntp)
}
// WritePacketRTCP writes a RTCP packet to all the readers of the stream.
func (st *ServerStream) WritePacketRTCP(medi *description.Media, pkt rtcp.Packet) error {
st.mutex.RLock()
defer st.mutex.RUnlock()
if st.closed {
return liberrors.ErrServerStreamClosed{}
}
sm := st.medias[medi]
return sm.writePacketRTCP(pkt)
}