package main import ( "flag" "fmt" "log" "net" "os" "os/signal" "strconv" "strings" "syscall" "github.com/gopatchy/artmap/artnet" "github.com/gopatchy/artmap/config" "github.com/gopatchy/artmap/remap" "github.com/gopatchy/artmap/sacn" ) type App struct { cfg *config.Config artReceiver *artnet.Receiver artPcapReceiver *artnet.PcapReceiver sacnReceiver *sacn.Receiver sacnPcapReceiver *sacn.PcapReceiver artSender *artnet.Sender sacnSender *sacn.Sender discovery *artnet.Discovery engine *remap.Engine targets map[artnet.Universe]*net.UDPAddr broadcasts []*net.UDPAddr debug bool } func main() { configPath := flag.String("config", "config.toml", "path to config file") artnetListen := flag.String("artnet-listen", ":6454", "artnet listen address (empty to disable)") artnetPcap := flag.String("artnet-pcap", "", "use pcap for artnet on interface (e.g. en0, any)") artnetBroadcast := flag.String("artnet-broadcast", "auto", "artnet broadcast addresses (comma-separated, or 'auto')") sacnPcap := flag.String("sacn-pcap", "", "use pcap for sacn on interface (e.g. en0, any)") debug := flag.Bool("debug", false, "log incoming/outgoing dmx packets") flag.Parse() // Load config cfg, err := config.Load(*configPath) if err != nil { log.Fatalf("config error: %v", err) } log.Printf("[config] loaded mappings=%d", len(cfg.Mappings)) // Create remapping engine engine := remap.NewEngine(cfg.Normalize()) // Log mappings for _, m := range cfg.Mappings { log.Printf("[config] %s -> %s", m.From, m.To) } // Parse targets targets := make(map[artnet.Universe]*net.UDPAddr) pollTargets := make(map[string]*net.UDPAddr) // dedupe by address string for _, t := range cfg.Targets { if t.Universe.Protocol != config.ProtocolArtNet { continue // only artnet targets need addresses } addr, err := parseTargetAddr(t.Address) if err != nil { log.Fatalf("target error: address=%q err=%v", t.Address, err) } targets[t.Universe.Universe] = addr pollTargets[addr.String()] = addr log.Printf("[config] target %s -> %s", t.Universe, addr) } // Parse broadcast addresses var broadcasts []*net.UDPAddr if *artnetBroadcast != "" { if *artnetBroadcast == "auto" { broadcasts = detectBroadcastAddrs() } else { for _, addrStr := range strings.Split(*artnetBroadcast, ",") { addrStr = strings.TrimSpace(addrStr) addr, err := parseTargetAddr(addrStr) if err != nil { log.Fatalf("broadcast error: address=%q err=%v", addrStr, err) } broadcasts = append(broadcasts, addr) } } for _, addr := range broadcasts { pollTargets[addr.String()] = addr log.Printf("[config] broadcast %s", addr) } } // Convert poll targets to slice pollTargetSlice := make([]*net.UDPAddr, 0, len(pollTargets)) for _, addr := range pollTargets { pollTargetSlice = append(pollTargetSlice, addr) } // Create ArtNet sender artSender, err := artnet.NewSender() if err != nil { log.Fatalf("artnet sender error: %v", err) } defer artSender.Close() // Create sACN sender sacnSender, err := sacn.NewSender("artmap") if err != nil { log.Fatalf("sacn sender error: %v", err) } defer sacnSender.Close() // Create discovery destUniverses := engine.DestUniverses() discovery := artnet.NewDiscovery(artSender, "artmap", "ArtNet Remapping Proxy", destUniverses, pollTargetSlice) // Create app app := &App{ cfg: cfg, artSender: artSender, sacnSender: sacnSender, discovery: discovery, engine: engine, targets: targets, broadcasts: broadcasts, debug: *debug, } // Create ArtNet receiver if enabled if *artnetPcap != "" { // Use pcap-based receiver (requires root, avoids port conflicts) iface := *artnetPcap if iface == "auto" { iface = "any" } pcapReceiver, err := artnet.NewPcapReceiver(iface, app) if err != nil { log.Fatalf("artnet pcap error: %v", err) } app.artPcapReceiver = pcapReceiver pcapReceiver.Start() log.Printf("[artnet] pcap listening iface=%s", iface) } else if *artnetListen != "" { addr, err := parseListenAddr(*artnetListen) if err != nil { log.Fatalf("artnet listen error: %v", err) } artReceiver, err := artnet.NewReceiver(addr, app) if err != nil { log.Fatalf("artnet receiver error: %v", err) } app.artReceiver = artReceiver artReceiver.Start() log.Printf("[artnet] listening addr=%s", addr) } // Create sACN receiver if needed sacnUniverses := cfg.SACNSourceUniverses() if len(sacnUniverses) > 0 { if *sacnPcap != "" { // Use pcap-based receiver (requires root, avoids port conflicts) iface := *sacnPcap if iface == "auto" { iface = sacn.DefaultInterface() } pcapReceiver, err := sacn.NewPcapReceiver(iface, sacnUniverses, app.HandleSACN) if err != nil { log.Fatalf("sacn pcap error: %v", err) } app.sacnPcapReceiver = pcapReceiver pcapReceiver.Start() log.Printf("[sacn] pcap listening iface=%s universes=%v", iface, sacnUniverses) } else { // Use standard UDP receiver sacnReceiver, err := sacn.NewReceiver(sacnUniverses, app.HandleSACN) if err != nil { log.Fatalf("sacn receiver error: %v", err) } app.sacnReceiver = sacnReceiver sacnReceiver.Start() log.Printf("[sacn] listening universes=%v", sacnUniverses) } } // Start discovery discovery.Start() // Wait for interrupt sigChan := make(chan os.Signal, 1) signal.Notify(sigChan, syscall.SIGINT, syscall.SIGTERM) <-sigChan log.Println("[main] shutting down") if app.artReceiver != nil { app.artReceiver.Stop() } if app.artPcapReceiver != nil { app.artPcapReceiver.Stop() } if app.sacnReceiver != nil { app.sacnReceiver.Stop() } if app.sacnPcapReceiver != nil { app.sacnPcapReceiver.Stop() } discovery.Stop() } // HandleDMX implements artnet.PacketHandler func (a *App) HandleDMX(src *net.UDPAddr, pkt *artnet.DMXPacket) { if a.debug { log.Printf("[<-artnet] src=%s universe=%s seq=%d len=%d", src.IP, pkt.Universe, pkt.Sequence, pkt.Length) } a.sendOutputs(a.engine.Remap(config.ProtocolArtNet, pkt.Universe, pkt.Data)) } // HandlePoll implements artnet.PacketHandler func (a *App) HandlePoll(src *net.UDPAddr, pkt *artnet.PollPacket) { if a.debug { log.Printf("[<-artnet] poll src=%s", src.IP) } a.discovery.HandlePoll(src) } // HandlePollReply implements artnet.PacketHandler func (a *App) HandlePollReply(src *net.UDPAddr, pkt *artnet.PollReplyPacket) { if a.debug { log.Printf("[<-artnet] pollreply src=%s", src.IP) } a.discovery.HandlePollReply(src, pkt) } // HandleSACN handles incoming sACN DMX data func (a *App) HandleSACN(universe uint16, data [512]byte) { if a.debug { log.Printf("[<-sacn] universe=%d", universe) } a.sendOutputs(a.engine.Remap(config.ProtocolSACN, artnet.Universe(universe), data)) } func (a *App) sendOutputs(outputs []remap.Output) { for _, out := range outputs { switch out.Protocol { case config.ProtocolSACN: if a.debug { log.Printf("[->sacn] universe=%d", uint16(out.Universe)) } if err := a.sacnSender.SendDMX(uint16(out.Universe), out.Data[:]); err != nil { log.Printf("[->sacn] error: universe=%d err=%v", uint16(out.Universe), err) } default: // ArtNet // Configured target takes priority over discovery if target, ok := a.targets[out.Universe]; ok { if a.debug { log.Printf("[->artnet] dst=%s universe=%s", target.IP, out.Universe) } if err := a.artSender.SendDMX(target, out.Universe, out.Data[:]); err != nil { log.Printf("[->artnet] error: dst=%s err=%v", target.IP, err) } } else if nodes := a.discovery.GetNodesForUniverse(out.Universe); len(nodes) > 0 { for _, node := range nodes { addr := &net.UDPAddr{ IP: node.IP, Port: int(node.Port), } if a.debug { log.Printf("[->artnet] dst=%s universe=%s", node.IP, out.Universe) } if err := a.artSender.SendDMX(addr, out.Universe, out.Data[:]); err != nil { log.Printf("[->artnet] error: dst=%s err=%v", node.IP, err) } } } else if len(a.broadcasts) > 0 { for _, bcast := range a.broadcasts { if a.debug { log.Printf("[->artnet] broadcast dst=%s universe=%s", bcast.IP, out.Universe) } if err := a.artSender.SendDMX(bcast, out.Universe, out.Data[:]); err != nil { log.Printf("[->artnet] error: dst=%s err=%v", bcast.IP, err) } } } else { log.Printf("[->artnet] no target: universe=%s", out.Universe) } } } } func init() { log.SetFlags(log.Ltime | log.Lmicroseconds) } // parseListenAddr parses listen address formats: // - "host:port" -> bind to specific host and port // - "host" -> bind to specific host, default port // - ":port" -> bind to all interfaces, specific port func parseListenAddr(s string) (*net.UDPAddr, error) { var host string var port int if strings.Contains(s, ":") { h, p, err := net.SplitHostPort(s) if err != nil { return nil, err } host = h if p == "" { port = artnet.Port } else { port, err = strconv.Atoi(p) if err != nil { return nil, err } } } else { host = s port = artnet.Port } var ip net.IP if host == "" { ip = net.IPv4zero } else { ip = net.ParseIP(host) if ip == nil { return nil, fmt.Errorf("invalid IP address: %s", host) } } return &net.UDPAddr{IP: ip, Port: port}, nil } // parseTargetAddr parses target address formats: // - "host:port" -> specific host and port // - "host" -> specific host, default ArtNet port func parseTargetAddr(s string) (*net.UDPAddr, error) { var host string var port int if strings.Contains(s, ":") { h, p, err := net.SplitHostPort(s) if err != nil { return nil, err } host = h port, err = strconv.Atoi(p) if err != nil { return nil, err } } else { host = s port = artnet.Port } ip := net.ParseIP(host) if ip == nil { return nil, fmt.Errorf("invalid IP address: %s", host) } return &net.UDPAddr{IP: ip, Port: port}, nil } // detectBroadcastAddrs returns broadcast addresses for all network interfaces func detectBroadcastAddrs() []*net.UDPAddr { var addrs []*net.UDPAddr seen := make(map[string]bool) ifaces, err := net.Interfaces() if err != nil { return addrs } for _, iface := range ifaces { // Skip loopback and down interfaces if iface.Flags&net.FlagLoopback != 0 || iface.Flags&net.FlagUp == 0 { continue } ifaceAddrs, err := iface.Addrs() if err != nil { continue } for _, addr := range ifaceAddrs { ipnet, ok := addr.(*net.IPNet) if !ok { continue } ip4 := ipnet.IP.To4() if ip4 == nil { continue } // Calculate broadcast address: IP | ~mask mask := ipnet.Mask if len(mask) != 4 { continue } broadcast := make(net.IP, 4) for i := 0; i < 4; i++ { broadcast[i] = ip4[i] | ^mask[i] } key := broadcast.String() if seen[key] { continue } seen[key] = true addrs = append(addrs, &net.UDPAddr{ IP: broadcast, Port: artnet.Port, }) } } return addrs }