// Package aghnet contains some utilities for networking. package aghnet import ( "encoding/json" "fmt" "net" "os" "os/exec" "runtime" "strconv" "strings" "syscall" "time" "github.com/AdguardTeam/AdGuardHome/internal/aghstrings" "github.com/AdguardTeam/golibs/errors" "github.com/AdguardTeam/golibs/log" ) // ErrNoStaticIPInfo is returned by IfaceHasStaticIP when no information about // the IP being static is available. const ErrNoStaticIPInfo errors.Error = "no information about static ip" // IfaceHasStaticIP checks if interface is configured to have static IP address. // If it can't give a definitive answer, it returns false and an error for which // errors.Is(err, ErrNoStaticIPInfo) is true. func IfaceHasStaticIP(ifaceName string) (has bool, err error) { return ifaceHasStaticIP(ifaceName) } // IfaceSetStaticIP sets static IP address for network interface. func IfaceSetStaticIP(ifaceName string) (err error) { return ifaceSetStaticIP(ifaceName) } // GatewayIP returns IP address of interface's gateway. func GatewayIP(ifaceName string) net.IP { cmd := exec.Command("ip", "route", "show", "dev", ifaceName) log.Tracef("executing %s %v", cmd.Path, cmd.Args) d, err := cmd.Output() if err != nil || cmd.ProcessState.ExitCode() != 0 { return nil } fields := strings.Fields(string(d)) // The meaningful "ip route" command output should contain the word // "default" at first field and default gateway IP address at third // field. if len(fields) < 3 || fields[0] != "default" { return nil } return net.ParseIP(fields[2]) } // CanBindPort checks if we can bind to the given port. func CanBindPort(port int) (can bool, err error) { var addr *net.TCPAddr addr, err = net.ResolveTCPAddr("tcp", fmt.Sprintf("127.0.0.1:%d", port)) if err != nil { return false, err } var listener *net.TCPListener listener, err = net.ListenTCP("tcp", addr) if err != nil { return false, err } _ = listener.Close() return true, nil } // NetInterface represents an entry of network interfaces map. type NetInterface struct { MTU int `json:"mtu"` Name string `json:"name"` HardwareAddr net.HardwareAddr `json:"hardware_address"` Flags net.Flags `json:"flags"` // Array with the network interface addresses. Addresses []net.IP `json:"ip_addresses,omitempty"` // Array with IP networks for this network interface. Subnets []*net.IPNet `json:"-"` } // MarshalJSON implements the json.Marshaler interface for NetInterface. func (iface NetInterface) MarshalJSON() ([]byte, error) { type netInterface NetInterface return json.Marshal(&struct { HardwareAddr string `json:"hardware_address"` Flags string `json:"flags"` netInterface }{ HardwareAddr: iface.HardwareAddr.String(), Flags: iface.Flags.String(), netInterface: netInterface(iface), }) } // GetValidNetInterfacesForWeb returns interfaces that are eligible for DNS and WEB only // we do not return link-local addresses here func GetValidNetInterfacesForWeb() ([]*NetInterface, error) { ifaces, err := net.Interfaces() if err != nil { return nil, fmt.Errorf("couldn't get interfaces: %w", err) } if len(ifaces) == 0 { return nil, errors.Error("couldn't find any legible interface") } var netInterfaces []*NetInterface for _, iface := range ifaces { var addrs []net.Addr addrs, err = iface.Addrs() if err != nil { return nil, fmt.Errorf("failed to get addresses for interface %s: %w", iface.Name, err) } netIface := &NetInterface{ MTU: iface.MTU, Name: iface.Name, HardwareAddr: iface.HardwareAddr, Flags: iface.Flags, } // Collect network interface addresses. for _, addr := range addrs { ipNet, ok := addr.(*net.IPNet) if !ok { // Should be net.IPNet, this is weird. return nil, fmt.Errorf("got iface.Addrs() element %s that is not net.IPNet, it is %T", addr, addr) } // Ignore link-local. if ipNet.IP.IsLinkLocalUnicast() { continue } netIface.Addresses = append(netIface.Addresses, ipNet.IP) netIface.Subnets = append(netIface.Subnets, ipNet) } // Discard interfaces with no addresses. if len(netIface.Addresses) != 0 { netInterfaces = append(netInterfaces, netIface) } } return netInterfaces, nil } // GetInterfaceByIP returns the name of interface containing provided ip. func GetInterfaceByIP(ip net.IP) string { ifaces, err := GetValidNetInterfacesForWeb() if err != nil { return "" } for _, iface := range ifaces { for _, addr := range iface.Addresses { if ip.Equal(addr) { return iface.Name } } } return "" } // GetSubnet returns pointer to net.IPNet for the specified interface or nil if // the search fails. func GetSubnet(ifaceName string) *net.IPNet { netIfaces, err := GetValidNetInterfacesForWeb() if err != nil { log.Error("Could not get network interfaces info: %v", err) return nil } for _, netIface := range netIfaces { if netIface.Name == ifaceName && len(netIface.Subnets) > 0 { return netIface.Subnets[0] } } return nil } // CheckPortAvailable - check if TCP port is available func CheckPortAvailable(host net.IP, port int) error { ln, err := net.Listen("tcp", net.JoinHostPort(host.String(), strconv.Itoa(port))) if err != nil { return err } _ = ln.Close() // It seems that net.Listener.Close() doesn't close file descriptors right away. // We wait for some time and hope that this fd will be closed. time.Sleep(100 * time.Millisecond) return nil } // CheckPacketPortAvailable - check if UDP port is available func CheckPacketPortAvailable(host net.IP, port int) error { ln, err := net.ListenPacket("udp", net.JoinHostPort(host.String(), strconv.Itoa(port))) if err != nil { return err } _ = ln.Close() // It seems that net.Listener.Close() doesn't close file descriptors right away. // We wait for some time and hope that this fd will be closed. time.Sleep(100 * time.Millisecond) return err } // ErrorIsAddrInUse - check if error is "address already in use" func ErrorIsAddrInUse(err error) bool { errOpError, ok := err.(*net.OpError) if !ok { return false } errSyscallError, ok := errOpError.Err.(*os.SyscallError) if !ok { return false } errErrno, ok := errSyscallError.Err.(syscall.Errno) if !ok { return false } if runtime.GOOS == "windows" { const WSAEADDRINUSE = 10048 return errErrno == WSAEADDRINUSE } return errErrno == syscall.EADDRINUSE } // SplitHost is a wrapper for net.SplitHostPort for the cases when the hostport // does not necessarily contain a port. func SplitHost(hostport string) (host string, err error) { host, _, err = net.SplitHostPort(hostport) if err != nil { // Check for the missing port error. If it is that error, just // use the host as is. // // See the source code for net.SplitHostPort. const missingPort = "missing port in address" addrErr := &net.AddrError{} if !errors.As(err, &addrErr) || addrErr.Err != missingPort { return "", err } host = hostport } return host, nil } // TODO(e.burkov): Inspect the charToHex, ipParseARPA6, ipReverse and // UnreverseAddr and maybe refactor it. // charToHex converts character to a hexadecimal. func charToHex(n byte) int8 { if n >= '0' && n <= '9' { return int8(n) - '0' } else if (n|0x20) >= 'a' && (n|0x20) <= 'f' { return (int8(n) | 0x20) - 'a' + 10 } return -1 } // ipParseARPA6 parse IPv6 reverse address func ipParseARPA6(s string) (ip6 net.IP) { if len(s) != 63 { return nil } ip6 = make(net.IP, 16) for i := 0; i != 64; i += 4 { // parse "0.1." n := charToHex(s[i]) n2 := charToHex(s[i+2]) if s[i+1] != '.' || (i != 60 && s[i+3] != '.') || n < 0 || n2 < 0 { return nil } ip6[16-i/4-1] = byte(n2<<4) | byte(n&0x0f) } return ip6 } // ipReverse inverts byte order of ip. func ipReverse(ip net.IP) (rev net.IP) { ipLen := len(ip) rev = make(net.IP, ipLen) for i, b := range ip { rev[ipLen-i-1] = b } return rev } // ARPA addresses' suffixes. const ( arpaV4Suffix = ".in-addr.arpa" arpaV6Suffix = ".ip6.arpa" ) // UnreverseAddr tries to convert reversed ARPA to a normal IP address. func UnreverseAddr(arpa string) (unreversed net.IP) { // Unify the input data. arpa = strings.TrimSuffix(arpa, ".") arpa = strings.ToLower(arpa) if strings.HasSuffix(arpa, arpaV4Suffix) { ip := strings.TrimSuffix(arpa, arpaV4Suffix) ip4 := net.ParseIP(ip).To4() if ip4 == nil { return nil } return ipReverse(ip4) } else if strings.HasSuffix(arpa, arpaV6Suffix) { ip := strings.TrimSuffix(arpa, arpaV6Suffix) return ipParseARPA6(ip) } // The suffix unrecognizable. return nil } // The length of extreme cases of arpa formatted addresses. // // The example of IPv4 with maximum length: // // 49.91.20.104.in-addr.arpa // // The example of IPv6 with maximum length: // // 1.3.b.5.4.1.8.6.0.0.0.0.0.0.0.0.0.0.0.0.0.1.0.0.0.0.7.4.6.0.6.2.ip6.arpa // const ( arpaV4MaxLen = len("000.000.000.000") + len(arpaV4Suffix) arpaV6MaxLen = len("0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0.0") + len(arpaV6Suffix) ) // ReverseAddr returns the ARPA hostname of the ip suitable for reverse DNS // (PTR) record lookups. This is the modified version of ReverseAddr from // github.com/miekg/dns package with no error among returned values. func ReverseAddr(ip net.IP) (arpa string) { const dot = "." var strLen int var suffix string var writeByte func(val byte) b := &strings.Builder{} if ip4 := ip.To4(); ip4 != nil { strLen, suffix = arpaV4MaxLen, arpaV4Suffix[1:] ip = ip4 writeByte = func(val byte) { aghstrings.WriteToBuilder(b, strconv.Itoa(int(val)), dot) } } else if ip6 := ip.To16(); ip6 != nil { strLen, suffix = arpaV6MaxLen, arpaV6Suffix[1:] ip = ip6 writeByte = func(val byte) { aghstrings.WriteToBuilder( b, strconv.FormatUint(uint64(val&0xF), 16), dot, strconv.FormatUint(uint64(val>>4), 16), dot, ) } } else { return "" } b.Grow(strLen) for i := len(ip) - 1; i >= 0; i-- { writeByte(ip[i]) } aghstrings.WriteToBuilder(b, suffix) return b.String() } // CollectAllIfacesAddrs returns the slice of all network interfaces IP // addresses without port number. func CollectAllIfacesAddrs() (addrs []string, err error) { var ifaces []net.Interface ifaces, err = net.Interfaces() if err != nil { return nil, fmt.Errorf("getting network interfaces: %w", err) } for _, iface := range ifaces { var ifaceAddrs []net.Addr ifaceAddrs, err = iface.Addrs() if err != nil { return nil, fmt.Errorf("getting addresses for %q: %w", iface.Name, err) } for _, addr := range ifaceAddrs { cidr := addr.String() var ip net.IP ip, _, err = net.ParseCIDR(cidr) if err != nil { return nil, fmt.Errorf("parsing cidr: %w", err) } addrs = append(addrs, ip.String()) } } return addrs, nil }