jrouter/main.go

package main

import (
	"context"
	"flag"
	"log"
	"net"
	"os"
	"os/signal"
	"regexp"
	"sync"

	"gitea.drjosh.dev/josh/jrouter/aurp"
)

var hasPortRE = regexp.MustCompile(`:\d+$`)

var configFilePath = flag.String("config", "jrouter.yaml", "Path to configuration file to use")

func main() {
	flag.Parse()
	log.Println("jrouter")

	cfg, err := loadConfig(*configFilePath)
	if err != nil {
		log.Fatalf("Couldn't load configuration file: %v", err)
	}

	localIP := net.ParseIP(cfg.LocalIP).To4()
	if localIP == nil {
		iaddrs, err := net.InterfaceAddrs()
		if err != nil {
			log.Fatalf("Couldn't read network interface addresses: %v", err)
		}
		for _, iaddr := range iaddrs {
			inet, ok := iaddr.(*net.IPNet)
			if !ok {
				continue
			}
			if !inet.IP.IsGlobalUnicast() {
				continue
			}
			localIP = inet.IP.To4()
			if localIP != nil {
				break
			}
		}
		if localIP == nil {
			log.Fatalf("No global unicast IPv4 addresses on any network interfaces, and no valid local_ip address in configuration")
		}
	}
	localDI := aurp.IPDomainIdentifier(localIP)

	log.Printf("Using %v as local domain identifier", localIP)

	peers := make(map[udpAddr]*peer)
	var nextConnID uint16

	ln, err := net.ListenUDP("udp4", &net.UDPAddr{Port: int(cfg.ListenPort)})
	if err != nil {
		log.Fatalf("Couldn't listen on udp4:387: %v", err)
	}
	log.Printf("Listening on %v", ln.LocalAddr())

	log.Println("Press ^C or send SIGINT to stop the router gracefully")
	cctx, cancel := context.WithCancel(context.Background())
	defer cancel()
	ctx, _ := signal.NotifyContext(cctx, os.Interrupt)

	// Wait until all peer handlers have finished before closing the port
	var handlersWG sync.WaitGroup
	defer func() {
		log.Print("Waiting for handlers to return...")
		handlersWG.Wait()
		ln.Close()
	}()
	goHandler := func(p *peer) {
		handlersWG.Add(1)
		go func() {
			defer handlersWG.Done()
			p.handle(ctx)
		}()
	}

	for _, peerStr := range cfg.Peers {
		if !hasPortRE.MatchString(peerStr) {
			peerStr += ":387"
		}

		raddr, err := net.ResolveUDPAddr("udp4", peerStr)
		if err != nil {
			log.Fatalf("Invalid UDP address: %v", err)
		}
		log.Printf("resolved %q to %v", peerStr, raddr)

		tr := &aurp.Transport{
			LocalDI:     localDI,
			RemoteDI:    aurp.IPDomainIdentifier(raddr.IP),
			LocalConnID: nextConnID,
		}
		nextConnID++

		peer := &peer{
			tr:    tr,
			conn:  ln,
			raddr: raddr,
			recv:  make(chan aurp.Packet, 1024),
		}
		goHandler(peer)
		peers[udpAddrFromNet(raddr)] = peer
	}

	// Incoming packet loop
	for {
		if ctx.Err() != nil {
			return
		}

		pktbuf := make([]byte, 65536)
		pktlen, raddr, readErr := ln.ReadFromUDP(pktbuf)
		// net.PacketConn.ReadFrom: "Callers should always process
		// the n > 0 bytes returned before considering the error err."

		log.Printf("Received packet of length %d from %v", pktlen, raddr)

		dh, pkt, parseErr := aurp.ParsePacket(pktbuf[:pktlen])
		if parseErr != nil {
			log.Printf("Failed to parse packet: %v", parseErr)
		}
		if readErr != nil {
			log.Printf("Failed to read packet: %v", readErr)
			return
		}

		log.Printf("The packet parsed succesfully as a %T", pkt)

		if _, ok := pkt.(*aurp.AppleTalkPacket); ok {
			// Probably something like:
			//
			// * parse the DDP header
			// * check that this is headed for our local network
			// * write the packet out in an EtherTalk frame
			//
			// or maybe if we were implementing a "central hub"
			//
			// * parse the DDP header
			// * see if we know the network
			// * forward to the peer with that network and lowest metric
			log.Print("TODO: handle AppleTalk packets")
		}

		// Existing peer?
		ra := udpAddrFromNet(raddr)
		pr := peers[ra]
		if pr == nil {
			// New peer!
			nextConnID++
			pr = &peer{
				tr: &aurp.Transport{
					LocalDI:     localDI,
					RemoteDI:    dh.SourceDI, // platinum rule
					LocalConnID: nextConnID,
				},
				conn:  ln,
				raddr: raddr,
				recv:  make(chan aurp.Packet, 1024),
			}
			peers[ra] = pr
			goHandler(pr)
		}

		// Pass the packet to the goroutine in charge of this peer.
		select {
		case pr.recv <- pkt:
			// That's it for us.

		case <-ctx.Done():
			return
		}
	}
}

// Hashable net.UDPAddr
type udpAddr struct {
	ipv4 [4]byte
	port uint16
}

func udpAddrFromNet(a *net.UDPAddr) udpAddr {
	return udpAddr{
		ipv4: [4]byte(a.IP.To4()),
		port: uint16(a.Port),
	}
}

func (u udpAddr) toNet() *net.UDPAddr {
	return &net.UDPAddr{
		IP:   u.ipv4[:],
		Port: int(u.port),
	}
}
WIP 2024-03-10 11:57:03 +11:00			`package main`

WIP 2024-03-15 15:17:21 +11:00			`import (`
Tickle handling 2024-03-30 14:13:34 +11:00			`"context"`
WIP 2024-03-22 16:14:55 +11:00			`"flag"`
WIP 2024-03-15 15:17:21 +11:00			`"log"`
			`"net"`
Handle SIGINT, send RD 2024-03-30 14:24:16 +11:00			`"os"`
			`"os/signal"`
WIP 2024-03-24 18:01:24 +11:00			`"regexp"`
Take 4 2024-03-30 14:49:18 +11:00			`"sync"`
WIP 2024-03-15 15:17:21 +11:00
			`"gitea.drjosh.dev/josh/jrouter/aurp"`
			`)`

WIP 2024-03-24 18:01:24 +11:00			var hasPortRE = regexp.MustCompile(`:\d+$`)

			`var configFilePath = flag.String("config", "jrouter.yaml", "Path to configuration file to use")`

WIP 2024-03-10 11:57:03 +11:00			`func main() {`
WIP 2024-03-22 16:14:55 +11:00			`flag.Parse()`
WIP 2024-03-15 15:17:21 +11:00			`log.Println("jrouter")`

WIP 2024-03-24 18:01:24 +11:00			`cfg, err := loadConfig(*configFilePath)`
			`if err != nil {`
			`log.Fatalf("Couldn't load configuration file: %v", err)`
			`}`

			`localIP := net.ParseIP(cfg.LocalIP).To4()`
WIP 2024-03-22 16:14:55 +11:00			`if localIP == nil {`
			`iaddrs, err := net.InterfaceAddrs()`
			`if err != nil {`
			`log.Fatalf("Couldn't read network interface addresses: %v", err)`
			`}`
			`for _, iaddr := range iaddrs {`
			`inet, ok := iaddr.(*net.IPNet)`
			`if !ok {`
			`continue`
			`}`
			`if !inet.IP.IsGlobalUnicast() {`
			`continue`
			`}`
			`localIP = inet.IP.To4()`
			`if localIP != nil {`
			`break`
			`}`
			`}`
			`if localIP == nil {`
WIP 2024-03-24 18:01:24 +11:00			`log.Fatalf("No global unicast IPv4 addresses on any network interfaces, and no valid local_ip address in configuration")`
WIP 2024-03-22 16:14:55 +11:00			`}`
			`}`
WIP 2024-03-24 21:10:24 +11:00			`localDI := aurp.IPDomainIdentifier(localIP)`
WIP 2024-03-22 16:14:55 +11:00
			`log.Printf("Using %v as local domain identifier", localIP)`

WIP 2024-03-24 18:01:24 +11:00			`peers := make(map[udpAddr]*peer)`
WIP 2024-03-22 16:14:55 +11:00			`var nextConnID uint16`

WIP 2024-03-24 18:01:24 +11:00			`ln, err := net.ListenUDP("udp4", &net.UDPAddr{Port: int(cfg.ListenPort)})`
WIP 2024-03-15 15:17:21 +11:00			`if err != nil {`
			`log.Fatalf("Couldn't listen on udp4:387: %v", err)`
			`}`
WIP 2024-03-24 18:01:24 +11:00			`log.Printf("Listening on %v", ln.LocalAddr())`

Handle SIGINT, send RD 2024-03-30 14:24:16 +11:00			`log.Println("Press ^C or send SIGINT to stop the router gracefully")`
Take 3 2024-03-30 14:37:41 +11:00			`cctx, cancel := context.WithCancel(context.Background())`
			`defer cancel()`
			`ctx, _ := signal.NotifyContext(cctx, os.Interrupt)`
Take 4 2024-03-30 14:49:18 +11:00
			`// Wait until all peer handlers have finished before closing the port`
			`var handlersWG sync.WaitGroup`
			`defer func() {`
Log waiting for handlers 2024-03-30 17:04:27 +11:00			`log.Print("Waiting for handlers to return...")`
Take 4 2024-03-30 14:49:18 +11:00			`handlersWG.Wait()`
Fix ^C not closing packet loop 2024-03-30 14:30:58 +11:00			`ln.Close()`
			`}()`
Take 4 2024-03-30 14:49:18 +11:00			`goHandler := func(p *peer) {`
			`handlersWG.Add(1)`
			`go func() {`
			`defer handlersWG.Done()`
			`p.handle(ctx)`
			`}()`
			`}`
Handle SIGINT, send RD 2024-03-30 14:24:16 +11:00
WIP 2024-03-24 18:01:24 +11:00			`for _, peerStr := range cfg.Peers {`
			`if !hasPortRE.MatchString(peerStr) {`
			`peerStr += ":387"`
			`}`

			`raddr, err := net.ResolveUDPAddr("udp4", peerStr)`
			`if err != nil {`
			`log.Fatalf("Invalid UDP address: %v", err)`
			`}`
			`log.Printf("resolved %q to %v", peerStr, raddr)`

			`tr := &aurp.Transport{`
WIP 2024-03-24 21:10:24 +11:00			`LocalDI: localDI,`
WIP 2024-03-24 18:01:24 +11:00			`RemoteDI: aurp.IPDomainIdentifier(raddr.IP),`
			`LocalConnID: nextConnID,`
			`}`
			`nextConnID++`

			`peer := &peer{`
			`tr: tr,`
			`conn: ln,`
			`raddr: raddr,`
WIP 2024-03-24 21:10:24 +11:00			`recv: make(chan aurp.Packet, 1024),`
WIP 2024-03-24 18:01:24 +11:00			`}`
Take 4 2024-03-30 14:49:18 +11:00			`goHandler(peer)`
WIP 2024-03-24 18:01:24 +11:00			`peers[udpAddrFromNet(raddr)] = peer`
			`}`
WIP 2024-03-15 15:17:21 +11:00
			`// Incoming packet loop`
			`for {`
Take 5 2024-03-30 14:56:04 +11:00			`if ctx.Err() != nil {`
			`return`
			`}`

Handle SIGINT, send RD 2024-03-30 14:24:16 +11:00			`pktbuf := make([]byte, 65536)`
			`pktlen, raddr, readErr := ln.ReadFromUDP(pktbuf)`
WIP 2024-03-22 16:14:55 +11:00			`// net.PacketConn.ReadFrom: "Callers should always process`
WIP 2024-03-15 16:15:24 +11:00			`// the n > 0 bytes returned before considering the error err."`

WIP 2024-03-24 18:01:24 +11:00			`log.Printf("Received packet of length %d from %v", pktlen, raddr)`

Handle SIGINT, send RD 2024-03-30 14:24:16 +11:00			`dh, pkt, parseErr := aurp.ParsePacket(pktbuf[:pktlen])`
WIP 2024-03-15 16:15:24 +11:00			`if parseErr != nil {`
			`log.Printf("Failed to parse packet: %v", parseErr)`
WIP 2024-03-15 15:17:21 +11:00			`}`
WIP 2024-03-15 16:15:24 +11:00			`if readErr != nil {`
			`log.Printf("Failed to read packet: %v", readErr)`
Fix ^C not closing packet loop 2024-03-30 14:30:58 +11:00			`return`
WIP 2024-03-15 15:17:21 +11:00			`}`
WIP 2024-03-22 16:14:55 +11:00
Take 3 2024-03-30 14:37:41 +11:00			`log.Printf("The packet parsed succesfully as a %T", pkt)`

Start adding states 2024-03-30 16:14:18 +11:00			`if _, ok := pkt.(*aurp.AppleTalkPacket); ok {`
			`// Probably something like:`
			`//`
			`// * parse the DDP header`
			`// * check that this is headed for our local network`
			`// * write the packet out in an EtherTalk frame`
			`//`
			`// or maybe if we were implementing a "central hub"`
			`//`
			`// * parse the DDP header`
			`// * see if we know the network`
			`// * forward to the peer with that network and lowest metric`
			`log.Print("TODO: handle AppleTalk packets")`
			`}`

WIP 2024-03-22 16:14:55 +11:00			`// Existing peer?`
WIP 2024-03-24 18:01:24 +11:00			`ra := udpAddrFromNet(raddr)`
			`pr := peers[ra]`
			`if pr == nil {`
WIP 2024-03-22 16:14:55 +11:00			`// New peer!`
			`nextConnID++`
WIP 2024-03-24 18:01:24 +11:00			`pr = &peer{`
			`tr: &aurp.Transport{`
WIP 2024-03-24 21:10:24 +11:00			`LocalDI: localDI,`
WIP 2024-03-24 18:01:24 +11:00			`RemoteDI: dh.SourceDI, // platinum rule`
			`LocalConnID: nextConnID,`
			`},`
			`conn: ln,`
			`raddr: raddr,`
WIP 2024-03-24 21:10:24 +11:00			`recv: make(chan aurp.Packet, 1024),`
WIP 2024-03-24 18:01:24 +11:00			`}`
			`peers[ra] = pr`
Take 4 2024-03-30 14:49:18 +11:00			`goHandler(pr)`
WIP 2024-03-22 16:14:55 +11:00			`}`

WIP 2024-03-24 21:10:24 +11:00			`// Pass the packet to the goroutine in charge of this peer.`
Fix ^C not closing packet loop 2024-03-30 14:30:58 +11:00			`select {`
			`case pr.recv <- pkt:`
			`// That's it for us.`

			`case <-ctx.Done():`
			`return`
			`}`
WIP 2024-03-24 21:10:24 +11:00			`}`
			`}`

WIP 2024-03-24 18:01:24 +11:00			`// Hashable net.UDPAddr`
			`type udpAddr struct {`
			`ipv4 [4]byte`
			`port uint16`
			`}`

			`func udpAddrFromNet(a *net.UDPAddr) udpAddr {`
			`return udpAddr{`
			`ipv4: [4]byte(a.IP.To4()),`
			`port: uint16(a.Port),`
			`}`
			`}`

			`func (u udpAddr) toNet() *net.UDPAddr {`
			`return &net.UDPAddr{`
			`IP: u.ipv4[:],`
			`Port: int(u.port),`
			`}`
			`}`