2024-05-05 18:15:46 +10:00
10 changed files with 257 additions and 234 deletions
--- a/main.go
+++ b/main.go
@ -50,6 +50,7 @@ const routingTableTemplate = `
 	<thead><tr>
 		<th>Network range</th>
 		<th>Extended?</th>
 		<th>Zone names</th>
 		<th>Distance</th>
 		<th>Last seen</th>
 		<th>Port</th>
@ -58,7 +59,8 @@ const routingTableTemplate = `
 {{range $route := . }}
 	<tr>
 		<td>{{$route.NetStart}}{{if not (eq $route.NetStart $route.NetEnd)}} - {{$route.NetEnd}}{{end}}</td>
-		<td>{{if $route.Extended}}✅{{else}}❌{{end}}</td>
+		<td>{{if $route.Extended}}✅{{else}}-{{end}}</td>
 		<td>{{range $route.ZoneNames.ToSlice}}{{.}}<br>{{end}}</td>
 		<td>{{$route.Distance}}</td>
 		<td>{{$route.LastSeenAgo}}</td>
 		<td>
@ -78,27 +80,6 @@ const routingTableTemplate = `
 </table>
 `
 const zoneTableTemplate = `
 <table>
 	<thead><tr>
 		<th>Network</th>
 		<th>Name</th>
 		<th>Local Port</th>
 		<th>Last seen</th>
 	</tr></thead>
 	<tbody>
 {{range $zone := . }}
 	<tr>
 		<td>{{$zone.Network}}</td>
 		<td>{{$zone.Name}}</td>
 		<td>{{with $zone.LocalPort}}{{.Device}}{{else}}-{{end}}</td>
 		<td>{{$zone.LastSeenAgo}}</td>
 	</tr>
 {{end}}
 	</tbody>
 </table>
 `
 const peerTableTemplate = `
 <table>
 	<thead><tr>
@ -220,15 +201,6 @@ func main() {
 		return rs, nil
 	})
 	zones := router.NewZoneTable()
 	status.AddItem(ctx, "Zone table", zoneTableTemplate, func(context.Context) (any, error) {
 		zs := zones.Dump()
 		slices.SortFunc(zs, func(za, zb router.Zone) int {
 			return cmp.Compare(za.Name, zb.Name)
 		})
 		return zs, nil
 	})
 	// -------------------------------- Peers ---------------------------------
 	var peersMu sync.Mutex
 	peers := make(map[udpAddr]*router.AURPPeer)
@ -316,7 +288,6 @@ func main() {
 		}
 		peer := &router.AURPPeer{
 			Config: cfg,
 			Transport: &aurp.Transport{
 				LocalDI:     localDI,
 				RemoteDI:    aurp.IPDomainIdentifier(raddr.IP),
@ -326,8 +297,7 @@ func main() {
 			ConfiguredAddr: peerStr,
 			RemoteAddr:     raddr,
 			ReceiveCh:      make(chan aurp.Packet, 1024),
-			RoutingTable:   routes,
+			RouteTable:     routes,
 			ZoneTable:      zones,
 		}
 		aurp.Inc(&nextConnID)
 		peersMu.Lock()
@ -344,7 +314,7 @@ func main() {
 	rooter := &router.Router{
 		Config:     cfg,
 		RouteTable: routes,
-		ZoneTable:  zones,
+		// ZoneTable:  zones,
 	}
 	etherTalkPort := &router.EtherTalkPort{
@ -353,16 +323,13 @@ func main() {
 		NetStart:        cfg.EtherTalk.NetStart,
 		NetEnd:          cfg.EtherTalk.NetEnd,
 		DefaultZoneName: cfg.EtherTalk.ZoneName,
-		AvailableZones:  []string{cfg.EtherTalk.ZoneName},
+		AvailableZones:  router.SetFromSlice([]string{cfg.EtherTalk.ZoneName}),
 		PcapHandle:      pcapHandle,
 		AARPMachine:     aarpMachine,
 		Router:          rooter,
 	}
 	rooter.Ports = append(rooter.Ports, etherTalkPort)
 	routes.InsertEtherTalkDirect(etherTalkPort)
 	for _, az := range etherTalkPort.AvailableZones {
 		zones.Upsert(etherTalkPort.NetStart, az, etherTalkPort)
 	}
 	// --------------------------------- RTMP ---------------------------------
 	go etherTalkPort.RunRTMP(ctx)
@ -428,17 +395,15 @@ func main() {
 				}
 				// New peer!
 				pr = &router.AURPPeer{
 					Config: cfg,
 					Transport: &aurp.Transport{
 						LocalDI:     localDI,
 						RemoteDI:    dh.SourceDI, // platinum rule
 						LocalConnID: nextConnID,
 					},
-					UDPConn:      ln,
+					UDPConn:    ln,
-					RemoteAddr:   raddr,
+					RemoteAddr: raddr,
-					ReceiveCh:    make(chan aurp.Packet, 1024),
+					ReceiveCh:  make(chan aurp.Packet, 1024),
-					RoutingTable: routes,
+					RouteTable: routes,
 					ZoneTable:    zones,
 				}
 				aurp.Inc(&nextConnID)
 				peers[ra] = pr
--- a/router/misc.go
+++ b/router/misc.go
@ -0,0 +1,52 @@
 /*
   Copyright 2024 Josh Deprez
   Licensed under the Apache License, Version 2.0 (the "License");
   you may not use this file except in compliance with the License.
   You may obtain a copy of the License at
       http://www.apache.org/licenses/LICENSE-2.0
   Unless required by applicable law or agreed to in writing, software
   distributed under the License is distributed on an "AS IS" BASIS,
   WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
   See the License for the specific language governing permissions and
   limitations under the License.
 */
 package router
 // StringSet is a set of strings.
 // Yep, yet another string set implementation. Took me 2 minutes to write *shrug*
 type StringSet map[string]struct{}
 func (set StringSet) ToSlice() []string {
 	ss := make([]string, 0, len(set))
 	for s := range set {
 		ss = append(ss, s)
 	}
 	return ss
 }
 func (set StringSet) Contains(s string) bool {
 	_, c := set[s]
 	return c
 }
 func (set StringSet) Insert(ss ...string) {
 	for _, s := range ss {
 		set[s] = struct{}{}
 	}
 }
 func (set StringSet) Add(t StringSet) {
 	for s := range t {
 		set[s] = struct{}{}
 	}
 }
 func SetFromSlice(ss []string) StringSet {
 	set := make(StringSet, len(ss))
 	set.Insert(ss...)
 	return set
 }
--- a/router/nbp.go
+++ b/router/nbp.go
@ -20,7 +20,6 @@ import (
 	"context"
 	"fmt"
 	"log"
 	"slices"
 	"gitea.drjosh.dev/josh/jrouter/atalk"
 	"gitea.drjosh.dev/josh/jrouter/atalk/nbp"
@ -74,10 +73,10 @@ func (port *EtherTalkPort) handleNBPBrRq(ctx context.Context, ddpkt *ddp.ExtPack
 	// 	tuple.Zone = port.DefaultZoneName
 	// }
-	zones := port.Router.ZoneTable.LookupName(tuple.Zone)
+	routes := port.Router.RouteTable.RoutesForZone(tuple.Zone)
-	for _, z := range zones {
+	for _, route := range routes {
-		if outPort := z.LocalPort; outPort != nil {
+		if outPort := route.EtherTalkDirect; outPort != nil {
 			// If it's for a local zone, translate it to a LkUp and broadcast
 			// out the corresponding EtherTalk port.
 			// "Note: On an internet, nodes on extended networks performing lookups in
@ -147,7 +146,7 @@ func (port *EtherTalkPort) handleNBPBrRq(ctx context.Context, ddpkt *ddp.ExtPack
 				SrcNet:    ddpkt.SrcNet,
 				SrcNode:   ddpkt.SrcNode,
 				SrcSocket: ddpkt.SrcSocket,
-				DstNet:    z.Network,
+				DstNet:    route.NetStart,
 				DstNode:   0x00, // Any router for the dest network
 				DstSocket: 2,
 				Proto:     ddp.ProtoNBP,
@ -170,7 +169,7 @@ func (rtr *Router) handleNBPFwdReq(ctx context.Context, ddpkt *ddp.ExtPacket, nb
 	tuple := &nbpkt.Tuples[0]
 	for _, outPort := range rtr.Ports {
-		if !slices.Contains(outPort.AvailableZones, tuple.Zone) {
+		if !outPort.AvailableZones.Contains(tuple.Zone) {
 			continue
 		}
 		log.Printf("NBP: Converting FwdReq to LkUp (%v)", tuple)
--- a/router/peer_aurp.go
+++ b/router/peer_aurp.go
@ -94,9 +94,6 @@ func (ss SenderState) String() string {
 // AURPPeer handles the peering with a peer AURP router.
 type AURPPeer struct {
 	// Whole router config.
 	Config *Config
 	// AURP-Tr state for producing packets.
 	Transport *aurp.Transport
@ -114,11 +111,8 @@ type AURPPeer struct {
 	// Incoming packet channel.
 	ReceiveCh chan aurp.Packet
-	// Routing table (the peer will add/remove/update routes)
+	// Route table (the peer will add/remove/update routes and zones)
-	RoutingTable *RouteTable
+	RouteTable *RouteTable
 	// Zone table (the peer will add/remove/update zones)
 	ZoneTable *ZoneTable
 	mu     sync.RWMutex
 	rstate ReceiverState
@ -253,7 +247,7 @@ func (p *AURPPeer) Handle(ctx context.Context) error {
 				if sendRetries >= tickleRetryLimit {
 					log.Printf("AURP Peer: Send retry limit reached while waiting for Tickle-Ack, closing connection")
 					p.setRState(ReceiverUnconnected)
-					p.RoutingTable.DeleteAURPPeer(p)
+					p.RouteTable.DeleteAURPPeer(p)
 					break
 				}
@ -272,7 +266,7 @@ func (p *AURPPeer) Handle(ctx context.Context) error {
 				if sendRetries >= sendRetryLimit {
 					log.Printf("AURP Peer: Send retry limit reached while waiting for RI-Rsp, closing connection")
 					p.setRState(ReceiverUnconnected)
-					p.RoutingTable.DeleteAURPPeer(p)
+					p.RouteTable.DeleteAURPPeer(p)
 					break
 				}
@ -443,15 +437,17 @@ func (p *AURPPeer) Handle(ctx context.Context) error {
 					log.Printf("AURP Peer: Received RI-Req but was not expecting one (sender state was %v)", p.sstate)
 				}
-				nets := aurp.NetworkTuples{
+				var nets aurp.NetworkTuples
-					{
+				for _, r := range p.RouteTable.ValidNonAURPRoutes() {
-						Extended:   true,
+					nets = append(nets, aurp.NetworkTuple{
-						RangeStart: p.Config.EtherTalk.NetStart,
+						Extended:   r.Extended,
-						RangeEnd:   p.Config.EtherTalk.NetEnd,
+						RangeStart: r.NetStart,
-						Distance:   0,
+						RangeEnd:   r.NetEnd,
-					},
+						Distance:   r.Distance,
 					})
 				}
 				p.Transport.LocalSeq = 1
 				// TODO: Split tuples across multiple packets as required
 				lastRISent = p.Transport.NewRIRspPacket(aurp.RoutingFlagLast, nets)
 				if _, err := p.Send(lastRISent); err != nil {
 					log.Printf("AURP Peer: Couldn't send RI-Rsp packet: %v", err)
@ -467,7 +463,7 @@ func (p *AURPPeer) Handle(ctx context.Context) error {
 				log.Printf("AURP Peer: Learned about these networks: %v", pkt.Networks)
 				for _, nt := range pkt.Networks {
-					p.RoutingTable.InsertAURPRoute(
+					p.RouteTable.InsertAURPRoute(
 						p,
 						nt.Extended,
 						ddp.Network(nt.RangeStart),
@ -507,11 +503,28 @@ func (p *AURPPeer) Handle(ctx context.Context) error {
 				sendRetries = 0
 				// If SZI flag is set, send ZI-Rsp (transaction)
 				// TODO: split ZI-Rsp packets similarly to ZIP Replies
 				if pkt.Flags&aurp.RoutingFlagSendZoneInfo != 0 {
-					zones := map[ddp.Network][]string{
+					// Inspect last routing info packet sent to determine
-						p.Config.EtherTalk.NetStart: {p.Config.EtherTalk.ZoneName},
+					// networks to gather names for
 					var nets []ddp.Network
 					switch last := lastRISent.(type) {
 					case *aurp.RIRspPacket:
 						for _, nt := range last.Networks {
 							nets = append(nets, nt.RangeStart)
 						}
 					case *aurp.RIUpdPacket:
 						for _, et := range last.Events {
 							// Only networks that were added
 							if et.EventCode != aurp.EventCodeNA {
 								continue
 							}
 							nets = append(nets, et.RangeStart)
 						}
 					}
 					zones := p.RouteTable.ZonesForNetworks(nets)
 					// TODO: split ZI-Rsp packets similarly to ZIP Replies
 					if _, err := p.Send(p.Transport.NewZIRspPacket(zones)); err != nil {
 						log.Printf("AURP Peer: Couldn't send ZI-Rsp packet: %v", err)
 					}
@ -543,7 +556,7 @@ func (p *AURPPeer) Handle(ctx context.Context) error {
 						// Do nothing except respond with RI-Ack
 					case aurp.EventCodeNA:
-						if err := p.RoutingTable.InsertAURPRoute(
+						if err := p.RouteTable.InsertAURPRoute(
 							p,
 							et.Extended,
 							et.RangeStart,
@ -555,10 +568,10 @@ func (p *AURPPeer) Handle(ctx context.Context) error {
 						ackFlag = aurp.RoutingFlagSendZoneInfo
 					case aurp.EventCodeND:
-						p.RoutingTable.DeleteAURPPeerNetwork(p, et.RangeStart)
+						p.RouteTable.DeleteAURPPeerNetwork(p, et.RangeStart)
 					case aurp.EventCodeNDC:
-						p.RoutingTable.UpdateAURPRouteDistance(p, et.RangeStart, et.Distance+1)
+						p.RouteTable.UpdateAURPRouteDistance(p, et.RangeStart, et.Distance+1)
 					case aurp.EventCodeNRC:
 						// "An exterior router sends a Network Route Change
@ -566,7 +579,7 @@ func (p *AURPPeer) Handle(ctx context.Context) error {
 						// through its local internet changes to a path through
 						// a tunneling port, causing split-horizoned processing
 						// to eliminate that network’s routing information."
-						p.RoutingTable.DeleteAURPPeerNetwork(p, et.RangeStart)
+						p.RouteTable.DeleteAURPPeerNetwork(p, et.RangeStart)
 					case aurp.EventCodeZC:
 						// "This event is reserved for future use."
@ -584,7 +597,7 @@ func (p *AURPPeer) Handle(ctx context.Context) error {
 				}
 				log.Printf("AURP Peer: Router Down: error code %d %s", pkt.ErrorCode, pkt.ErrorCode)
-				p.RoutingTable.DeleteAURPPeer(p)
+				p.RouteTable.DeleteAURPPeer(p)
 				// Respond with RI-Ack
 				if _, err := p.Send(p.Transport.NewRIAckPacket(pkt.ConnectionID, pkt.Sequence, 0)); err != nil {
@ -596,7 +609,7 @@ func (p *AURPPeer) Handle(ctx context.Context) error {
 			case *aurp.ZIReqPacket:
 				// TODO: split ZI-Rsp packets similarly to ZIP Replies
-				zones := p.ZoneTable.Query(pkt.Networks)
+				zones := p.RouteTable.ZonesForNetworks(pkt.Networks)
 				if _, err := p.Send(p.Transport.NewZIRspPacket(zones)); err != nil {
 					log.Printf("AURP Peer: Couldn't send ZI-Rsp packet: %v", err)
 					return err
@ -605,7 +618,7 @@ func (p *AURPPeer) Handle(ctx context.Context) error {
 			case *aurp.ZIRspPacket:
 				log.Printf("AURP Peer: Learned about these zones: %v", pkt.Zones)
 				for _, zt := range pkt.Zones {
-					p.ZoneTable.Upsert(ddp.Network(zt.Network), zt.Name, nil)
+					p.RouteTable.AddZonesToNetwork(zt.Network, zt.Name)
 				}
 			case *aurp.GDZLReqPacket:
--- a/router/port.go
+++ b/router/port.go
@ -37,7 +37,7 @@ type EtherTalkPort struct {
 	NetEnd          ddp.Network
 	MyAddr          ddp.Addr
 	DefaultZoneName string
-	AvailableZones  []string
+	AvailableZones  StringSet
 	PcapHandle      *pcap.Handle
 	AARPMachine     *AARPMachine
 	Router          *Router
--- a/router/route.go
+++ b/router/route.go
@ -34,6 +34,10 @@ type Route struct {
 	LastSeen time.Time
 	// ZoneNames may be empty between learning the existence of a route and
 	// receiving zone information.
 	ZoneNames StringSet
 	// Exactly one of the following should be set
 	AURPPeer        *AURPPeer      // Next hop is this peer router (over AURP)
 	EtherTalkPeer   *EtherTalkPeer // Next hop is this peer router (over EtherTalk)
@ -47,6 +51,13 @@ func (r Route) LastSeenAgo() string {
 	return fmt.Sprintf("%v ago", time.Since(r.LastSeen).Truncate(time.Millisecond))
 }
 // Valid reports whether the route is valid.
 // A valid route has one or more zone names, and if it is learned from a peer
 // router over EtherTalk is not too old.
 func (r *Route) Valid() bool {
 	return len(r.ZoneNames) > 0 && (r.EtherTalkPeer == nil || time.Since(r.LastSeen) <= maxRouteAge)
 }
 type RouteTable struct {
 	mu     sync.Mutex
 	routes map[*Route]struct{}
@ -65,6 +76,7 @@ func (rt *RouteTable) InsertEtherTalkDirect(port *EtherTalkPort) {
 		NetEnd:          port.NetEnd,
 		Distance:        0, // we're connected directly
 		LastSeen:        time.Now(),
 		ZoneNames:       port.AvailableZones,
 		EtherTalkDirect: port,
 	}
@ -93,8 +105,7 @@ func (rt *RouteTable) LookupRoute(network ddp.Network) *Route {
 		if network < r.NetStart || network > r.NetEnd {
 			continue
 		}
-		// Exclude EtherTalk routes that are too old
+		if !r.Valid() {
 		if r.EtherTalkPeer != nil && time.Since(r.LastSeen) > maxRouteAge {
 			continue
 		}
 		if bestRoute == nil {
@ -142,12 +153,12 @@ func (rt *RouteTable) UpdateAURPRouteDistance(peer *AURPPeer, network ddp.Networ
 	}
 }
-func (rt *RouteTable) UpsertEtherTalkRoute(peer *EtherTalkPeer, extended bool, netStart, netEnd ddp.Network, metric uint8) error {
+func (rt *RouteTable) UpsertEtherTalkRoute(peer *EtherTalkPeer, extended bool, netStart, netEnd ddp.Network, metric uint8) (*Route, error) {
 	if netStart > netEnd {
-		return fmt.Errorf("invalid network range [%d, %d]", netStart, netEnd)
+		return nil, fmt.Errorf("invalid network range [%d, %d]", netStart, netEnd)
 	}
 	if netStart != netEnd && !extended {
-		return fmt.Errorf("invalid network range [%d, %d] for nonextended network", netStart, netEnd)
+		return nil, fmt.Errorf("invalid network range [%d, %d] for nonextended network", netStart, netEnd)
 	}
 	rt.mu.Lock()
@ -169,7 +180,7 @@ func (rt *RouteTable) UpsertEtherTalkRoute(peer *EtherTalkPeer, extended bool, n
 		}
 		r.Distance = metric
 		r.LastSeen = time.Now()
-		return nil
+		return r, nil
 	}
 	// Insert.
@ -182,7 +193,7 @@ func (rt *RouteTable) UpsertEtherTalkRoute(peer *EtherTalkPeer, extended bool, n
 		EtherTalkPeer: peer,
 	}
 	rt.routes[r] = struct{}{}
-	return nil
+	return r, nil
 }
 func (rt *RouteTable) InsertAURPRoute(peer *AURPPeer, extended bool, netStart, netEnd ddp.Network, metric uint8) error {
@ -208,13 +219,29 @@ func (rt *RouteTable) InsertAURPRoute(peer *AURPPeer, extended bool, netStart, n
 	return nil
 }
 // ValidRoutes returns all valid routes.
 func (rt *RouteTable) ValidRoutes() []*Route {
 	rt.mu.Lock()
 	defer rt.mu.Unlock()
 	valid := make([]*Route, 0, len(rt.routes))
 	for r := range rt.routes {
-		// Exclude EtherTalk routes that are too old
+		if r.Valid() {
-		if r.EtherTalkPeer != nil && time.Since(r.LastSeen) > maxRouteAge {
+			valid = append(valid, r)
 		}
 	}
 	return valid
 }
 // ValidNonAURPRoutes returns all valid routes that were not learned via AURP.
 func (rt *RouteTable) ValidNonAURPRoutes() []*Route {
 	rt.mu.Lock()
 	defer rt.mu.Unlock()
 	valid := make([]*Route, 0, len(rt.routes))
 	for r := range rt.routes {
 		if r.AURPPeer != nil {
 			continue
 		}
 		if !r.Valid() {
 			continue
 		}
 		valid = append(valid, r)
--- a/router/router.go
+++ b/router/router.go
@ -26,7 +26,6 @@ import (
 type Router struct {
 	Config     *Config
 	RouteTable *RouteTable
 	ZoneTable  *ZoneTable
 	Ports      []*EtherTalkPort
 }
--- a/router/rtmp.go
+++ b/router/rtmp.go
@ -24,6 +24,7 @@ import (
 	"gitea.drjosh.dev/josh/jrouter/atalk"
 	"gitea.drjosh.dev/josh/jrouter/atalk/rtmp"
 	"gitea.drjosh.dev/josh/jrouter/atalk/zip"
 	"gitea.drjosh.dev/josh/jrouter/status"
 	"github.com/sfiera/multitalk/pkg/ddp"
@ -101,8 +102,7 @@ func (port *EtherTalkPort) HandleRTMP(ctx context.Context, pkt *ddp.ExtPacket) e
 			}
 		case rtmp.FunctionLoopProbe:
-			log.Print("RTMP: TODO: handle Loop Probes")
+			return fmt.Errorf("TODO: handle Loop Probes")
 			return nil
 		}
 	case ddp.ProtoRTMPResp:
@ -110,22 +110,51 @@ func (port *EtherTalkPort) HandleRTMP(ctx context.Context, pkt *ddp.ExtPacket) e
 		log.Print("RTMP: Got Response or Data")
 		dataPkt, err := rtmp.UnmarshalDataPacket(pkt.Data)
 		if err != nil {
-			log.Printf("RTMP: Couldn't unmarshal RTMP Data packet: %v", err)
+			return fmt.Errorf("unmarshal RTMP Data packet: %w", err)
 			break
 		}
 		peer := &EtherTalkPeer{
 			Port:     port,
 			PeerAddr: dataPkt.RouterAddr,
 		}
-		for _, rt := range dataPkt.NetworkTuples {
+		var noZones []ddp.Network
-			if err := port.Router.RouteTable.UpsertEtherTalkRoute(peer, rt.Extended, rt.RangeStart, rt.RangeEnd, rt.Distance+1); err != nil {
+		for _, nt := range dataPkt.NetworkTuples {
-				log.Printf("RTMP: Couldn't upsert EtherTalk route: %v", err)
+			route, err := port.Router.RouteTable.UpsertEtherTalkRoute(peer, nt.Extended, nt.RangeStart, nt.RangeEnd, nt.Distance+1)
 			if err != nil {
 				return fmt.Errorf("upsert EtherTalk route: %v", err)
 			}
 			if len(route.ZoneNames) == 0 {
 				noZones = append(noZones, route.NetStart)
 			}
 		}
 		if len(noZones) > 0 {
 			// Send a ZIP Query for all networks we don't have zone names for.
 			// TODO: split networks to fit in multiple packets as needed
 			qryPkt, err := (&zip.QueryPacket{Networks: noZones}).Marshal()
 			if err != nil {
 				return fmt.Errorf("marshal ZIP Query packet: %w", err)
 			}
 			outDDP := &ddp.ExtPacket{
 				ExtHeader: ddp.ExtHeader{
 					Size:      uint16(len(qryPkt)) + atalk.DDPExtHeaderSize,
 					Cksum:     0,
 					SrcNet:    port.MyAddr.Network,
 					SrcNode:   port.MyAddr.Node,
 					SrcSocket: 6,
 					DstNet:    pkt.SrcNet,
 					DstNode:   pkt.SrcNode,
 					DstSocket: 6, // ZIP socket
 					Proto:     ddp.ProtoZIP,
 				},
 				Data: qryPkt,
 			}
 			if err := port.Send(ctx, outDDP); err != nil {
 				return fmt.Errorf("sending ZIP Query: %w", err)
 			}
 		}
 	default:
-		log.Printf("RTMP: invalid DDP type %d on socket 1", pkt.Proto)
+		return fmt.Errorf("invalid DDP type %d on socket 1", pkt.Proto)
 	}
 	return nil
--- a/router/zip.go
+++ b/router/zip.go
@ -20,7 +20,6 @@ import (
 	"context"
 	"fmt"
 	"log"
 	"slices"
 	"gitea.drjosh.dev/josh/jrouter/atalk"
 	"gitea.drjosh.dev/josh/jrouter/atalk/atp"
@ -52,6 +51,9 @@ func (port *EtherTalkPort) handleZIPZIP(ctx context.Context, ddpkt *ddp.ExtPacke
 	case *zip.QueryPacket:
 		return port.handleZIPQuery(ctx, ddpkt, zipkt)
 	case *zip.ReplyPacket:
 		return port.handleZIPReply(zipkt)
 	case *zip.GetNetInfoPacket:
 		return port.handleZIPGetNetInfo(ctx, ddpkt, zipkt)
@ -62,7 +64,7 @@ func (port *EtherTalkPort) handleZIPZIP(ctx context.Context, ddpkt *ddp.ExtPacke
 func (port *EtherTalkPort) handleZIPQuery(ctx context.Context, ddpkt *ddp.ExtPacket, zipkt *zip.QueryPacket) error {
 	log.Printf("ZIP: Got Query for networks %v", zipkt.Networks)
-	networks := port.Router.ZoneTable.Query(zipkt.Networks)
+	networks := port.Router.RouteTable.ZonesForNetworks(zipkt.Networks)
 	sendReply := func(resp *zip.ReplyPacket) error {
 		respRaw, err := resp.Marshal()
@ -156,11 +158,21 @@ func (port *EtherTalkPort) handleZIPQuery(ctx context.Context, ddpkt *ddp.ExtPac
 	return nil
 }
 func (port *EtherTalkPort) handleZIPReply(zipkt *zip.ReplyPacket) error {
 	log.Printf("ZIP: Got Reply containing %v", zipkt.Networks)
 	// Integrate new zone information into route table.
 	for n, zs := range zipkt.Networks {
 		port.Router.RouteTable.AddZonesToNetwork(n, zs...)
 	}
 	return nil
 }
 func (port *EtherTalkPort) handleZIPGetNetInfo(ctx context.Context, ddpkt *ddp.ExtPacket, zipkt *zip.GetNetInfoPacket) error {
 	log.Printf("ZIP: Got GetNetInfo for zone %q", zipkt.ZoneName)
 	// The request is zoneValid if the zone name is available on this network.
-	zoneValid := slices.Contains(port.AvailableZones, zipkt.ZoneName)
+	zoneValid := port.AvailableZones.Contains(zipkt.ZoneName)
 	// The multicast address we return depends on the validity of the zone
 	// name.
@ -258,10 +270,10 @@ func (port *EtherTalkPort) handleZIPTReq(ctx context.Context, ddpkt *ddp.ExtPack
 	switch gzl.Function {
 	case zip.FunctionGetZoneList:
-		resp.Zones = port.Router.ZoneTable.AllNames()
+		resp.Zones = port.Router.RouteTable.AllZoneNames()
 	case zip.FunctionGetLocalZones:
-		resp.Zones = port.AvailableZones
+		resp.Zones = port.AvailableZones.ToSlice()
 	case zip.FunctionGetMyZone:
 		// Note: This shouldn't happen on extended networks (e.g. EtherTalk)
--- a/router/zones.go
+++ b/router/zones.go
@ -17,145 +17,72 @@
 package router
 import (
 	"fmt"
 	"slices"
 	"sort"
 	"sync"
 	"time"
 	"github.com/sfiera/multitalk/pkg/ddp"
 )
-//const maxZoneAge = 10 * time.Minute // TODO: confirm
+func (rt *RouteTable) AddZonesToNetwork(n ddp.Network, zs ...string) {
-
+	rt.mu.Lock()
-type Zone struct {
+	defer rt.mu.Unlock()
-	Network   ddp.Network
+	for r := range rt.routes {
-	Name      string
+		if n < r.NetStart || n > r.NetEnd {
 	LocalPort *EtherTalkPort // nil if remote (local to another router)
 	LastSeen  time.Time
 }
 func (z Zone) LastSeenAgo() string {
 	if z.LastSeen.IsZero() {
 		return "never"
 	}
 	return fmt.Sprintf("%v ago", time.Since(z.LastSeen).Truncate(time.Millisecond))
 }
 type zoneKey struct {
 	network ddp.Network
 	name    string
 }
 type ZoneTable struct {
 	mu    sync.Mutex
 	zones map[zoneKey]*Zone
 }
 func NewZoneTable() *ZoneTable {
 	return &ZoneTable{
 		zones: make(map[zoneKey]*Zone),
 	}
 }
 func (zt *ZoneTable) Dump() []Zone {
 	zt.mu.Lock()
 	defer zt.mu.Unlock()
 	zs := make([]Zone, 0, len(zt.zones))
 	for _, z := range zt.zones {
 		zs = append(zs, *z)
 	}
 	return zs
 }
 func (zt *ZoneTable) Upsert(network ddp.Network, name string, localPort *EtherTalkPort) {
 	zt.mu.Lock()
 	defer zt.mu.Unlock()
 	key := zoneKey{network, name}
 	z := zt.zones[key]
 	if z != nil {
 		z.LocalPort = localPort
 		z.LastSeen = time.Now()
 		return
 	}
 	zt.zones[key] = &Zone{
 		Network:   network,
 		Name:      name,
 		LocalPort: localPort,
 		LastSeen:  time.Now(),
 	}
 }
 func (zt *ZoneTable) Query(ns []ddp.Network) map[ddp.Network][]string {
 	slices.Sort(ns)
 	zs := make(map[ddp.Network][]string)
 	zt.mu.Lock()
 	defer zt.mu.Unlock()
 	for _, z := range zt.zones {
 		// if time.Since(z.LastSeen) > maxZoneAge {
 		// 	continue
 		// }
 		if _, ok := slices.BinarySearch(ns, z.Network); ok {
 			zs[z.Network] = append(zs[z.Network], z.Name)
 		}
 	}
 	return zs
 }
 func (zt *ZoneTable) LookupName(name string) []*Zone {
 	zt.mu.Lock()
 	defer zt.mu.Unlock()
 	var zs []*Zone
 	for _, z := range zt.zones {
 		if z.Name == name {
 			zs = append(zs, z)
 		}
 	}
 	return zs
 }
 // func (zt *ZoneTable) LocalNames() []string {
 // 	zt.mu.Lock()
 // 	seen := make(map[string]struct{})
 // 	zs := make([]string, 0, len(zt.zones))
 // 	for _, z := range zt.zones {
 // 		// if time.Since(z.LastSeen) > maxZoneAge {
 // 		// 	continue
 // 		// }
 // 		if z.Local != nil {
 // 			continue
 // 		}
 // 		if _, s := seen[z.Name]; s {
 // 			continue
 // 		}
 // 		seen[z.Name] = struct{}{}
 // 		zs = append(zs, z.Name)
 // 	}
 // 	zt.mu.Unlock()
 // 	sort.Strings(zs)
 // 	return zs
 // }
 func (zt *ZoneTable) AllNames() []string {
 	zt.mu.Lock()
 	seen := make(map[string]struct{})
 	zs := make([]string, 0, len(zt.zones))
 	for _, z := range zt.zones {
 		// if time.Since(z.LastSeen) > maxZoneAge {
 		// 	continue
 		// }
 		if _, s := seen[z.Name]; s {
 			continue
 		}
-		seen[z.Name] = struct{}{}
+		if r.ZoneNames == nil {
-		zs = append(zs, z.Name)
+			r.ZoneNames = make(StringSet)
 		}
 		r.ZoneNames.Insert(zs...)
 	}
-	zt.mu.Unlock()
+}
-	sort.Strings(zs)
+func (rt *RouteTable) ZonesForNetworks(ns []ddp.Network) map[ddp.Network][]string {
 	zs := make(map[ddp.Network][]string)
 	rt.mu.Lock()
 	defer rt.mu.Unlock()
 	for r := range rt.routes {
 		if !r.Valid() {
 			continue
 		}
 		if _, ok := slices.BinarySearch(ns, r.NetStart); ok {
 			for z := range r.ZoneNames {
 				zs[r.NetStart] = append(zs[r.NetStart], z)
 			}
 		}
 	}
 	return zs
 }
 func (rt *RouteTable) RoutesForZone(zone string) []*Route {
 	rt.mu.Lock()
 	defer rt.mu.Unlock()
 	var routes []*Route
 	for r := range rt.routes {
 		if !r.Valid() {
 			continue
 		}
 		if r.ZoneNames.Contains(zone) {
 			routes = append(routes, r)
 		}
 	}
 	return routes
 }
 func (rt *RouteTable) AllZoneNames() (zones []string) {
 	defer slices.Sort(zones)
 	rt.mu.Lock()
 	defer rt.mu.Unlock()
 	zs := make(StringSet)
 	for r := range rt.routes {
 		if !r.Valid() {
 			continue
 		}
 		zs.Add(r.ZoneNames)
 	}
 	return zs.ToSlice()
 }