// Generate a local routing table structure following the code at // https://github.com/google/gopacket/blob/master/routing/routing.go // // Plan 9 networking is described here: http://9p.io/magic/man2html/3/ip package netroute import ( "bytes" "fmt" "io/ioutil" "net" "strconv" "strings" "github.com/google/gopacket/routing" ) const netdir = "/net" func New() (routing.Router, error) { rtr := &router{} rtr.ifaces = make(map[int]net.Interface) rtr.addrs = make(map[int]ipAddrs) ifaces, err := net.Interfaces() if err != nil { return nil, fmt.Errorf("could not get interfaces: %v", err) } for _, iface := range ifaces { rtr.ifaces[iface.Index] = iface var addrs ipAddrs ifaceAddrs, err := iface.Addrs() if err != nil { return nil, err } for _, addr := range ifaceAddrs { if inet, ok := addr.(*net.IPNet); ok { // Go has a nasty habit of giving you IPv4s as ::ffff:1.2.3.4 instead of 1.2.3.4. // We want to use mapped v4 addresses as v4 preferred addresses, never as v6 // preferred addresses. if v4 := inet.IP.To4(); v4 != nil { if addrs.v4 == nil { addrs.v4 = v4 } } else if addrs.v6 == nil { addrs.v6 = inet.IP } } } rtr.addrs[iface.Index] = addrs } rtr.v4, rtr.v6, err = parseIPRoutes() if err != nil { return nil, err } return rtr, nil } func parseIPRoutes() (v4, v6 routeSlice, err error) { buf, err := ioutil.ReadFile(netdir + "/iproute") if err != nil { return nil, nil, err } for { i := bytes.IndexRune(buf, '\n') if i <= 0 { break } f := strings.Fields(string(buf[:i])) buf = buf[i+1:] if len(f) < 8 { return nil, nil, fmt.Errorf("iproute entry contains %d fields", len(f)) } flags, rt, err := parseRoute(f) if err != nil { return nil, nil, err } if rt.Dst != nil { // If gateway for destination 127.0.0.1/32 is 127.0.0.1, set it to nil. if m, n := rt.Dst.Mask.Size(); n > 0 && m == n && rt.Dst.IP.Equal(rt.Gateway) { rt.Gateway = nil } } if strings.ContainsRune(flags, '4') { // IPv4 v4 = append(v4, rt) } if strings.ContainsRune(flags, '6') { // IPv6 v6 = append(v6, rt) } } return v4, v6, nil } func parseRoute(f []string) (flags string, rt *rtInfo, err error) { rt = new(rtInfo) isV4 := strings.ContainsRune(f[3], '4') // flags rt.PrefSrc, rt.Src, err = parsePlan9CIDR(f[6], f[7], isV4) if err != nil { return "", nil, err } _, rt.Dst, err = parsePlan9CIDR(f[0], f[1], isV4) if err != nil { return "", nil, err } rt.Gateway = net.ParseIP(f[2]) n, err := strconv.ParseUint(f[5], 10, 32) if err != nil { return "", nil, err } rt.InputIface = 0 rt.OutputIface = uint32(n) + 1 // starts at 0, so net package adds 1 rt.Priority = 0 return f[3], rt, nil } func parsePlan9CIDR(addr, mask string, isV4 bool) (net.IP, *net.IPNet, error) { if len(mask) == 0 || mask[0] != '/' { return nil, nil, fmt.Errorf("invalid CIDR mask %v", mask) } n, err := strconv.ParseUint(mask[1:], 10, 32) if err != nil { return nil, nil, err } ip := net.ParseIP(addr) iplen := net.IPv6len if isV4 { // Plan 9 uses IPv6 mask for IPv4 addresses n -= 8 * (net.IPv6len - net.IPv4len) iplen = net.IPv4len } if n == 0 && ip.IsUnspecified() { return nil, nil, nil } m := net.CIDRMask(int(n), 8*iplen) return ip, &net.IPNet{IP: ip.Mask(m), Mask: m}, nil }