func main() { fe, err := frontend.Open("/dev/dvb/adapter0/frontend0") checkErr(err) checkErr(fe.SetDeliverySystem(dvb.SysDVBT)) checkErr(fe.SetFrequency(778e6)) checkErr(fe.SetBandwidth(8e6)) checkErr(fe.SetCodeRateHP(dvb.FECAuto)) checkErr(fe.SetCodeRateLP(dvb.FECAuto)) checkErr(fe.SetTxMode(dvb.TxModeAuto)) checkErr(fe.SetGuard(dvb.GuardAuto)) checkErr(fe.SetHierarchy(dvb.HierarchyNone)) checkErr(fe.Tune()) deadline := time.Now().Add(5 * time.Second) var ev frontend.Event for ev.Status()&frontend.HasLock == 0 { timedout, err := frontend.API3{fe}.WaitEvent(&ev, deadline) checkErr(err) if timedout { log.Fatal("tuning timeout") } log.Println(ev.Status()) } log.Println("tuned!") }
func Tune(fpath, sys, pol string, freqHz int64, bwHz int, srBd uint) (fe frontend.Device, err error) { var polar rune switch pol { case "h", "v": polar = rune((pol)[0]) default: err = errors.New("unknown polarization: " + pol) return } fe, err = frontend.Open(fpath) if err != nil { return } switch sys { case "t": if err = fe.SetDeliverySystem(dvb.SysDVBT); err != nil { return } if err = fe.SetModulation(dvb.QAMAuto); err != nil { return } if err = fe.SetFrequency(uint32(freqHz)); err != nil { return } if err = fe.SetInversion(dvb.InversionAuto); err != nil { return } if bwHz != 0 { if err = fe.SetBandwidth(uint32(bwHz)); err != nil { return } } if err = fe.SetCodeRateHP(dvb.FECAuto); err != nil { return } if err = fe.SetCodeRateLP(dvb.FECAuto); err != nil { return } if err = fe.SetTxMode(dvb.TxModeAuto); err != nil { return } if err = fe.SetGuard(dvb.GuardAuto); err != nil { return } if err = fe.SetHierarchy(dvb.HierarchyNone); err != nil { return } case "s", "s2": if sys == "s" { if err = fe.SetDeliverySystem(dvb.SysDVBS); err != nil { return } if err = fe.SetModulation(dvb.QPSK); err != nil { return } } else { if err = fe.SetDeliverySystem(dvb.SysDVBS2); err != nil { return } if err = fe.SetModulation(dvb.PSK8); err != nil { return } if err = fe.SetRolloff(dvb.RolloffAuto); err != nil { return } if err = fe.SetPilot(dvb.PilotAuto); err != nil { return } } if err = fe.SetSymbolRate(uint32(srBd)); err != nil { return } if err = fe.SetInnerFEC(dvb.FECAuto); err != nil { return } if err = fe.SetInversion(dvb.InversionAuto); err != nil { return } ifreq, tone, volt := frontend.SecParam(freqHz, polar) if err = fe.SetFrequency(ifreq); err != nil { return } if err = fe.SetTone(tone); err != nil { return } if err = fe.SetVoltage(volt); err != nil { return } case "ca", "cb", "cc": switch sys { case "ca": err = fe.SetDeliverySystem(dvb.SysDVBCAnnexA) case "cb": err = fe.SetDeliverySystem(dvb.SysDVBCAnnexB) case "cc": err = fe.SetDeliverySystem(dvb.SysDVBCAnnexC) } if err != nil { return } if err = fe.SetModulation(dvb.QAMAuto); err != nil { return } if err = fe.SetFrequency(uint32(freqHz)); err != nil { return } if err = fe.SetInversion(dvb.InversionAuto); err != nil { return } if err = fe.SetSymbolRate(uint32(srBd)); err != nil { return } if err = fe.SetInnerFEC(dvb.FECAuto); err != nil { return } default: err = errors.New("unknown delivery system: " + sys) return } err = fe.Tune() return }
func main() { adapterPath := flag.String( "a", "/dev/dvb/adapter0", "path to the adapter directory", ) frontendPath := flag.String( "f", "frontend0", "frontend path, relative to the adapter directory", ) demuxPath := flag.String( "d", "demux0", "demux path, relative to the adapter directory", ) flag.Usage = usage flag.Parse() args := flag.Args() if len(args) < 4 { usage() os.Exit(1) } freq, err := strconv.ParseInt(args[0], 0, 64) checkErr(err) freq *= 1e6 var polar byte switch args[1] { case "v", "V": polar = 'v' case "h", "H": polar = 'h' default: die("wrong polarisation: " + args[1]) } sr, err := strconv.ParseUint(args[2], 0, 32) checkErr(err) args = args[3:] pids := make([]int16, len(args)) for i, a := range args { pid, err := strconv.ParseInt(a, 0, 64) checkErr(err) if uint64(pid) > 8192 { die(a + " isn't in valid PID range [0, 8192]") } pids[i] = int16(pid) } fe, err := frontend.Open(filepath.Join(*adapterPath, *frontendPath)) checkErr(err) checkErr(fe.SetDeliverySystem(dvb.SysDVBS2)) checkErr(fe.SetModulation(dvb.PSK8)) checkErr(fe.SetRolloff(dvb.RolloffAuto)) checkErr(fe.SetPilot(dvb.PilotAuto)) checkErr(fe.SetSymbolRate(uint32(sr * 1e3))) checkErr(fe.SetInnerFEC(dvb.FECAuto)) checkErr(fe.SetInversion(dvb.InversionAuto)) ifreq, tone, volt := frontend.SecParam(freq, rune(polar)) checkErr(fe.SetFrequency(ifreq)) checkErr(fe.SetTone(tone)) checkErr(fe.SetVoltage(volt)) checkErr(fe.Tune()) deadline := time.Now().Add(5 * time.Second) var ev frontend.Event for ev.Status()&frontend.HasLock == 0 { timedout, err := frontend.API3{fe}.WaitEvent(&ev, deadline) checkErr(err) if timedout { die("tuning timeout") } fmt.Fprintln(os.Stderr, ev.Status()) } fmt.Fprintln(os.Stderr, "tuned!") dmx := demux.Device(filepath.Join(*adapterPath, *demuxPath)) f, err := dmx.NewStreamFilter( &demux.StreamFilterParam{ Pid: pids[0], In: demux.InFrontend, Out: demux.OutTSDemuxTap, Type: demux.Other, }, ) checkErr(err) defer f.Close() for _, pid := range pids[1:] { checkErr(f.AddPid(pid)) } checkErr(f.SetBufferSize(1024 * ts.PktLen)) checkErr(f.Start()) r := ts.NewPktStreamReader(f) pkt := new(ts.ArrayPkt) for { t := time.Now() n := 4000 for i := 0; i < n; i++ { checkErr(r.ReadPkt(pkt)) } dt := time.Now().Sub(t) pps := time.Duration(n) * time.Second / dt fmt.Printf("%d pkt/s (%d kb/s)\n", pps, pps*ts.PktLen*8/1000) } }