mediamtx/main.go
2020-10-03 21:10:41 +02:00

406 lines
8.9 KiB
Go

package main
import (
"fmt"
"io"
"log"
"net"
"os"
"sync/atomic"
"time"
"github.com/aler9/gortsplib"
"gopkg.in/alecthomas/kingpin.v2"
)
var Version = "v0.0.0"
const (
checkPathPeriod = 5 * time.Second
)
type program struct {
conf *conf
logHandler *logHandler
metrics *metrics
pprof *pprof
paths map[string]*path
serverUdpRtp *serverUDP
serverUdpRtcp *serverUDP
serverTcp *serverTCP
clients map[*client]struct{}
udpPublishersMap *udpPublishersMap
readersMap *readersMap
// use pointers to avoid a crash on 32bit platforms
// https://github.com/golang/go/issues/9959
countClients *int64
countPublishers *int64
countReaders *int64
countSourcesRtsp *int64
countSourcesRtspRunning *int64
countSourcesRtmp *int64
countSourcesRtmpRunning *int64
clientNew chan net.Conn
clientClose chan *client
clientDescribe chan clientDescribeReq
clientAnnounce chan clientAnnounceReq
clientSetupPlay chan clientSetupPlayReq
clientPlay chan *client
clientRecord chan *client
sourceRtspReady chan *sourceRtsp
sourceRtspNotReady chan *sourceRtsp
sourceRtmpReady chan *sourceRtmp
sourceRtmpNotReady chan *sourceRtmp
terminate chan struct{}
done chan struct{}
}
func newProgram(args []string, stdin io.Reader) (*program, error) {
k := kingpin.New("rtsp-simple-server",
"rtsp-simple-server "+Version+"\n\nRTSP server.")
argVersion := k.Flag("version", "print version").Bool()
argConfPath := k.Arg("confpath", "path to a config file. The default is rtsp-simple-server.yml. Use 'stdin' to read config from stdin").Default("rtsp-simple-server.yml").String()
kingpin.MustParse(k.Parse(args))
if *argVersion == true {
fmt.Println(Version)
os.Exit(0)
}
conf, err := loadConf(*argConfPath, stdin)
if err != nil {
return nil, err
}
logHandler, err := newLogHandler(conf.logDestinationsParsed, conf.LogFile)
if err != nil {
return nil, err
}
p := &program{
conf: conf,
logHandler: logHandler,
paths: make(map[string]*path),
clients: make(map[*client]struct{}),
udpPublishersMap: newUdpPublisherMap(),
readersMap: newReadersMap(),
countClients: func() *int64 {
v := int64(0)
return &v
}(),
countPublishers: func() *int64 {
v := int64(0)
return &v
}(),
countReaders: func() *int64 {
v := int64(0)
return &v
}(),
countSourcesRtsp: func() *int64 {
v := int64(0)
return &v
}(),
countSourcesRtspRunning: func() *int64 {
v := int64(0)
return &v
}(),
countSourcesRtmp: func() *int64 {
v := int64(0)
return &v
}(),
countSourcesRtmpRunning: func() *int64 {
v := int64(0)
return &v
}(),
clientNew: make(chan net.Conn),
clientClose: make(chan *client),
clientDescribe: make(chan clientDescribeReq),
clientAnnounce: make(chan clientAnnounceReq),
clientSetupPlay: make(chan clientSetupPlayReq),
clientPlay: make(chan *client),
clientRecord: make(chan *client),
sourceRtspReady: make(chan *sourceRtsp),
sourceRtspNotReady: make(chan *sourceRtsp),
sourceRtmpReady: make(chan *sourceRtmp),
sourceRtmpNotReady: make(chan *sourceRtmp),
terminate: make(chan struct{}),
done: make(chan struct{}),
}
p.log("rtsp-simple-server %s", Version)
if conf.Metrics {
p.metrics, err = newMetrics(p)
if err != nil {
return nil, err
}
}
if conf.Pprof {
p.pprof, err = newPprof(p)
if err != nil {
return nil, err
}
}
for name, pathConf := range conf.Paths {
if pathConf.regexp == nil {
p.paths[name] = newPath(p, name, pathConf)
}
}
if _, ok := conf.protocolsParsed[gortsplib.StreamProtocolUDP]; ok {
p.serverUdpRtp, err = newServerUDP(p, conf.RtpPort, gortsplib.StreamTypeRtp)
if err != nil {
return nil, err
}
p.serverUdpRtcp, err = newServerUDP(p, conf.RtcpPort, gortsplib.StreamTypeRtcp)
if err != nil {
return nil, err
}
}
p.serverTcp, err = newServerTCP(p)
if err != nil {
return nil, err
}
go p.run()
return p, nil
}
func (p *program) log(format string, args ...interface{}) {
countClients := atomic.LoadInt64(p.countClients)
countPublishers := atomic.LoadInt64(p.countPublishers)
countReaders := atomic.LoadInt64(p.countReaders)
log.Printf(fmt.Sprintf("[%d/%d/%d] "+format, append([]interface{}{countClients,
countPublishers, countReaders}, args...)...))
}
func (p *program) run() {
if p.metrics != nil {
go p.metrics.run()
}
if p.pprof != nil {
go p.pprof.run()
}
if p.serverUdpRtp != nil {
go p.serverUdpRtp.run()
}
if p.serverUdpRtcp != nil {
go p.serverUdpRtcp.run()
}
go p.serverTcp.run()
for _, p := range p.paths {
p.onInit()
}
checkPathsTicker := time.NewTicker(checkPathPeriod)
defer checkPathsTicker.Stop()
outer:
for {
select {
case <-checkPathsTicker.C:
for _, path := range p.paths {
path.onCheck()
}
case conn := <-p.clientNew:
c := newClient(p, conn)
p.clients[c] = struct{}{}
atomic.AddInt64(p.countClients, 1)
c.log("connected")
case client := <-p.clientClose:
if _, ok := p.clients[client]; !ok {
continue
}
client.close()
case req := <-p.clientDescribe:
// create path if it doesn't exist
if _, ok := p.paths[req.pathName]; !ok {
p.paths[req.pathName] = newPath(p, req.pathName, req.pathConf)
}
p.paths[req.pathName].onDescribe(req.client)
case req := <-p.clientAnnounce:
// create path if it doesn't exist
if path, ok := p.paths[req.pathName]; !ok {
p.paths[req.pathName] = newPath(p, req.pathName, req.pathConf)
} else {
if path.publisher != nil {
req.res <- fmt.Errorf("someone is already publishing on path '%s'", req.pathName)
continue
}
}
p.paths[req.pathName].publisher = req.client
p.paths[req.pathName].publisherTrackCount = req.trackCount
p.paths[req.pathName].publisherSdp = req.sdp
req.client.path = p.paths[req.pathName]
req.client.state = clientStatePreRecord
req.res <- nil
case req := <-p.clientSetupPlay:
path, ok := p.paths[req.pathName]
if !ok || !path.publisherReady {
req.res <- fmt.Errorf("no one is publishing on path '%s'", req.pathName)
continue
}
if req.trackId >= path.publisherTrackCount {
req.res <- fmt.Errorf("track %d does not exist", req.trackId)
continue
}
req.client.path = path
req.client.state = clientStatePrePlay
req.res <- nil
case client := <-p.clientPlay:
atomic.AddInt64(p.countReaders, 1)
client.state = clientStatePlay
p.readersMap.add(client)
case client := <-p.clientRecord:
atomic.AddInt64(p.countPublishers, 1)
client.state = clientStateRecord
if client.streamProtocol == gortsplib.StreamProtocolUDP {
for trackId, track := range client.streamTracks {
addr := makeUDPPublisherAddr(client.ip(), track.rtpPort)
p.udpPublishersMap.add(addr, &udpPublisher{
client: client,
trackId: trackId,
streamType: gortsplib.StreamTypeRtp,
})
addr = makeUDPPublisherAddr(client.ip(), track.rtcpPort)
p.udpPublishersMap.add(addr, &udpPublisher{
client: client,
trackId: trackId,
streamType: gortsplib.StreamTypeRtcp,
})
}
}
client.path.onPublisherSetReady()
case s := <-p.sourceRtspReady:
s.path.onPublisherSetReady()
case s := <-p.sourceRtspNotReady:
s.path.onPublisherSetNotReady()
case s := <-p.sourceRtmpReady:
s.path.onPublisherSetReady()
case s := <-p.sourceRtmpNotReady:
s.path.onPublisherSetNotReady()
case <-p.terminate:
break outer
}
}
go func() {
for {
select {
case _, ok := <-p.clientNew:
if !ok {
return
}
case <-p.clientClose:
case <-p.clientDescribe:
case req := <-p.clientAnnounce:
req.res <- fmt.Errorf("terminated")
case req := <-p.clientSetupPlay:
req.res <- fmt.Errorf("terminated")
case <-p.clientPlay:
case <-p.clientRecord:
case <-p.sourceRtspReady:
case <-p.sourceRtspNotReady:
case <-p.sourceRtmpReady:
case <-p.sourceRtmpNotReady:
}
}
}()
p.udpPublishersMap.clear()
p.readersMap.clear()
for _, p := range p.paths {
p.onClose(true)
}
p.serverTcp.close()
if p.serverUdpRtcp != nil {
p.serverUdpRtcp.close()
}
if p.serverUdpRtp != nil {
p.serverUdpRtp.close()
}
for c := range p.clients {
c.close()
<-c.done
}
if p.metrics != nil {
p.metrics.close()
}
if p.pprof != nil {
p.pprof.close()
}
p.logHandler.close()
close(p.clientNew)
close(p.clientClose)
close(p.clientDescribe)
close(p.clientAnnounce)
close(p.clientSetupPlay)
close(p.clientPlay)
close(p.clientRecord)
close(p.sourceRtspReady)
close(p.sourceRtspNotReady)
close(p.done)
}
func (p *program) close() {
close(p.terminate)
<-p.done
}
func main() {
_, err := newProgram(os.Args[1:], os.Stdin)
if err != nil {
log.Fatal("ERR: ", err)
}
select {}
}