using System.Collections.Generic; using System.IO; using System.Net.Sockets; using System.Numerics; using System.Text.RegularExpressions; namespace System.Net { /// /// IP Network utility class. /// Use IPNetwork.Parse to create instances. /// public class IPNetwork : IComparable { #region properties //private uint _network; private BigInteger _ipaddress; private AddressFamily _family; //private uint _netmask; //private uint _broadcast; //private uint _firstUsable; //private uint _lastUsable; //private uint _usable; private byte _cidr; #endregion #region accessors private BigInteger _network { get { BigInteger uintNetwork = this._ipaddress & this._netmask; return uintNetwork; } } /// /// Network address /// public IPAddress Network { get { return IPNetwork.ToIPAddress(this._network, this._family); } } /// /// Address Family /// public AddressFamily AddressFamily { get { return this._family; } } private BigInteger _netmask { get { return IPNetwork.ToUint(this._cidr, this._family); } } /// /// Netmask /// public IPAddress Netmask { get { return IPNetwork.ToIPAddress(this._netmask, this._family); } } private BigInteger _broadcast { get { int width = this._family == Sockets.AddressFamily.InterNetwork ? 4 : 16; BigInteger uintBroadcast = this._network + this._netmask.PositiveReverse(width); return uintBroadcast; } } /// /// Broadcast address /// public IPAddress Broadcast { get { if (this._family == Sockets.AddressFamily.InterNetworkV6) { return null; } return IPNetwork.ToIPAddress(this._broadcast, this._family); } } /// /// First usable IP adress in Network /// public IPAddress FirstUsable { get { BigInteger fisrt = this._family == Sockets.AddressFamily.InterNetworkV6 ? this._network : (this.Usable <= 0) ? this._network : this._network + 1; return IPNetwork.ToIPAddress(fisrt, this._family); } } /// /// Last usable IP adress in Network /// public IPAddress LastUsable { get { BigInteger last = this._family == Sockets.AddressFamily.InterNetworkV6 ? this._broadcast : (this.Usable <= 0) ? this._network : this._broadcast - 1; return IPNetwork.ToIPAddress(last, this._family); } } /// /// Number of usable IP adress in Network /// public BigInteger Usable { get { if (this._family == Sockets.AddressFamily.InterNetworkV6) { return this.Total; } byte[] mask = new byte[] { 0xff, 0xff, 0xff, 0xff, 0x00 }; BigInteger bmask = new BigInteger(mask); BigInteger usableIps = (_cidr > 30) ? 0 : ((bmask >> _cidr) - 1); return usableIps; } } /// /// Number of IP adress in Network /// public BigInteger Total { get { int max = this._family == Sockets.AddressFamily.InterNetwork ? 32 : 128; BigInteger count = BigInteger.Pow(2, (max - _cidr)); return count; } } /// /// The CIDR netmask notation /// public byte Cidr { get { return this._cidr; } } #endregion #region constructor #if TRAVISCI public #else internal #endif IPNetwork(BigInteger ipaddress, AddressFamily family, byte cidr) { int maxCidr = family == Sockets.AddressFamily.InterNetwork ? 32 : 128; if (cidr > maxCidr) { throw new ArgumentOutOfRangeException("cidr"); } this._ipaddress = ipaddress; this._family = family; this._cidr = cidr; } #endregion #region parsers /// /// 192.168.168.100 - 255.255.255.0 /// /// Network : 192.168.168.0 /// Netmask : 255.255.255.0 /// Cidr : 24 /// Start : 192.168.168.1 /// End : 192.168.168.254 /// Broadcast : 192.168.168.255 /// /// /// /// public static IPNetwork Parse(string ipaddress, string netmask) { IPNetwork ipnetwork = null; IPNetwork.InternalParse(false, ipaddress, netmask, out ipnetwork); return ipnetwork; } /// /// 192.168.168.100/24 /// /// Network : 192.168.168.0 /// Netmask : 255.255.255.0 /// Cidr : 24 /// Start : 192.168.168.1 /// End : 192.168.168.254 /// Broadcast : 192.168.168.255 /// /// /// /// public static IPNetwork Parse(string ipaddress, byte cidr) { IPNetwork ipnetwork = null; IPNetwork.InternalParse(false, ipaddress, cidr, out ipnetwork); return ipnetwork; } /// /// 192.168.168.100 255.255.255.0 /// /// Network : 192.168.168.0 /// Netmask : 255.255.255.0 /// Cidr : 24 /// Start : 192.168.168.1 /// End : 192.168.168.254 /// Broadcast : 192.168.168.255 /// /// /// /// public static IPNetwork Parse(IPAddress ipaddress, IPAddress netmask) { IPNetwork ipnetwork = null; IPNetwork.InternalParse(false, ipaddress, netmask, out ipnetwork); return ipnetwork; } /// /// 192.168.0.1/24 /// 192.168.0.1 255.255.255.0 /// /// Network : 192.168.0.0 /// Netmask : 255.255.255.0 /// Cidr : 24 /// Start : 192.168.0.1 /// End : 192.168.0.254 /// Broadcast : 192.168.0.255 /// /// /// public static IPNetwork Parse(string network) { IPNetwork ipnetwork = null; IPNetwork.InternalParse(false, network, out ipnetwork); return ipnetwork; } #endregion #region TryParse /// /// 192.168.168.100 - 255.255.255.0 /// /// Network : 192.168.168.0 /// Netmask : 255.255.255.0 /// Cidr : 24 /// Start : 192.168.168.1 /// End : 192.168.168.254 /// Broadcast : 192.168.168.255 /// /// /// /// public static bool TryParse(string ipaddress, string netmask, out IPNetwork ipnetwork) { IPNetwork ipnetwork2 = null; IPNetwork.InternalParse(true, ipaddress, netmask, out ipnetwork2); bool parsed = (ipnetwork2 != null); ipnetwork = ipnetwork2; return parsed; } /// /// 192.168.168.100/24 /// /// Network : 192.168.168.0 /// Netmask : 255.255.255.0 /// Cidr : 24 /// Start : 192.168.168.1 /// End : 192.168.168.254 /// Broadcast : 192.168.168.255 /// /// /// /// public static bool TryParse(string ipaddress, byte cidr, out IPNetwork ipnetwork) { IPNetwork ipnetwork2 = null; IPNetwork.InternalParse(true, ipaddress, cidr, out ipnetwork2); bool parsed = (ipnetwork2 != null); ipnetwork = ipnetwork2; return parsed; } /// /// 192.168.0.1/24 /// 192.168.0.1 255.255.255.0 /// /// Network : 192.168.0.0 /// Netmask : 255.255.255.0 /// Cidr : 24 /// Start : 192.168.0.1 /// End : 192.168.0.254 /// Broadcast : 192.168.0.255 /// /// /// /// public static bool TryParse(string network, out IPNetwork ipnetwork) { IPNetwork ipnetwork2 = null; IPNetwork.InternalParse(true, network, out ipnetwork2); bool parsed = (ipnetwork2 != null); ipnetwork = ipnetwork2; return parsed; } /// /// 192.168.0.1/24 /// 192.168.0.1 255.255.255.0 /// /// Network : 192.168.0.0 /// Netmask : 255.255.255.0 /// Cidr : 24 /// Start : 192.168.0.1 /// End : 192.168.0.254 /// Broadcast : 192.168.0.255 /// /// /// /// /// public static bool TryParse(IPAddress ipaddress, IPAddress netmask, out IPNetwork ipnetwork) { IPNetwork ipnetwork2 = null; IPNetwork.InternalParse(true, ipaddress, netmask, out ipnetwork2); bool parsed = (ipnetwork2 != null); ipnetwork = ipnetwork2; return parsed; } #endregion #region InternalParse /// /// 192.168.168.100 - 255.255.255.0 /// /// Network : 192.168.168.0 /// Netmask : 255.255.255.0 /// Cidr : 24 /// Start : 192.168.168.1 /// End : 192.168.168.254 /// Broadcast : 192.168.168.255 /// /// /// /// private static void InternalParse(bool tryParse, string ipaddress, string netmask, out IPNetwork ipnetwork) { if (string.IsNullOrEmpty(ipaddress)) { if (tryParse == false) { throw new ArgumentNullException("ipaddress"); } ipnetwork = null; return; } if (string.IsNullOrEmpty(netmask)) { if (tryParse == false) { throw new ArgumentNullException("netmask"); } ipnetwork = null; return; } IPAddress ip = null; bool ipaddressParsed = IPAddress.TryParse(ipaddress, out ip); if (ipaddressParsed == false) { if (tryParse == false) { throw new ArgumentException("ipaddress"); } ipnetwork = null; return; } IPAddress mask = null; bool netmaskParsed = IPAddress.TryParse(netmask, out mask); if (netmaskParsed == false) { if (tryParse == false) { throw new ArgumentException("netmask"); } ipnetwork = null; return; } IPNetwork.InternalParse(tryParse, ip, mask, out ipnetwork); } private static void InternalParse(bool tryParse, string network, out IPNetwork ipnetwork) { if (string.IsNullOrEmpty(network)) { if (tryParse == false) { throw new ArgumentNullException("network"); } ipnetwork = null; return; } network = Regex.Replace(network, @"[^0-9a-fA-F\.\/\s\:]+", ""); network = Regex.Replace(network, @"\s{2,}", " "); network = network.Trim(); string[] args = network.Split(new char[] { ' ', '/' }); byte cidr = 0; if (args.Length == 1) { if (IPNetwork.TryGuessCidr(args[0], out cidr)) { IPNetwork.InternalParse(tryParse, args[0], cidr, out ipnetwork); return; } if (tryParse == false) { throw new ArgumentException("network"); } ipnetwork = null; return; } if (byte.TryParse(args[1], out cidr)) { IPNetwork.InternalParse(tryParse, args[0], cidr, out ipnetwork); return; } IPNetwork.InternalParse(tryParse, args[0], args[1], out ipnetwork); return; } /// /// 192.168.168.100 255.255.255.0 /// /// Network : 192.168.168.0 /// Netmask : 255.255.255.0 /// Cidr : 24 /// Start : 192.168.168.1 /// End : 192.168.168.254 /// Broadcast : 192.168.168.255 /// /// /// /// private static void InternalParse(bool tryParse, IPAddress ipaddress, IPAddress netmask, out IPNetwork ipnetwork) { if (ipaddress == null) { if (tryParse == false) { throw new ArgumentNullException("ipaddress"); } ipnetwork = null; return; } if (netmask == null) { if (tryParse == false) { throw new ArgumentNullException("netmask"); } ipnetwork = null; return; } BigInteger uintIpAddress = IPNetwork.ToBigInteger(ipaddress); byte? cidr2 = null; bool parsed = IPNetwork.TryToCidr(netmask, out cidr2); if (parsed == false) { if (tryParse == false) { throw new ArgumentException("netmask"); } ipnetwork = null; return; } byte cidr = (byte)cidr2; IPNetwork ipnet = new IPNetwork(uintIpAddress, ipaddress.AddressFamily, cidr); ipnetwork = ipnet; return; } /// /// 192.168.168.100/24 /// /// Network : 192.168.168.0 /// Netmask : 255.255.255.0 /// Cidr : 24 /// Start : 192.168.168.1 /// End : 192.168.168.254 /// Broadcast : 192.168.168.255 /// /// /// /// private static void InternalParse(bool tryParse, string ipaddress, byte cidr, out IPNetwork ipnetwork) { if (string.IsNullOrEmpty(ipaddress)) { if (tryParse == false) { throw new ArgumentNullException("ipaddress"); } ipnetwork = null; return; } IPAddress ip = null; bool ipaddressParsed = IPAddress.TryParse(ipaddress, out ip); if (ipaddressParsed == false) { if (tryParse == false) { throw new ArgumentException("ipaddress"); } ipnetwork = null; return; } IPAddress mask = null; bool parsedNetmask = IPNetwork.TryToNetmask(cidr, ip.AddressFamily, out mask); if (parsedNetmask == false) { if (tryParse == false) { throw new ArgumentException("cidr"); } ipnetwork = null; return; } IPNetwork.InternalParse(tryParse, ip, mask, out ipnetwork); } #endregion #region converters #region ToUint /// /// Convert an ipadress to decimal /// 0.0.0.0 -> 0 /// 0.0.1.0 -> 256 /// /// /// public static BigInteger ToBigInteger(IPAddress ipaddress) { BigInteger? uintIpAddress = null; IPNetwork.InternalToBigInteger(false, ipaddress, out uintIpAddress); return (BigInteger)uintIpAddress; } /// /// Convert an ipadress to decimal /// 0.0.0.0 -> 0 /// 0.0.1.0 -> 256 /// /// /// public static bool TryToBigInteger(IPAddress ipaddress, out BigInteger? uintIpAddress) { BigInteger? uintIpAddress2 = null; IPNetwork.InternalToBigInteger(true, ipaddress, out uintIpAddress2); bool parsed = (uintIpAddress2 != null); uintIpAddress = uintIpAddress2; return parsed; } #if TRAVISCI public #else internal #endif static void InternalToBigInteger(bool tryParse, IPAddress ipaddress, out BigInteger? uintIpAddress) { if (ipaddress == null) { if (tryParse == false) { throw new ArgumentNullException("ipaddress"); } uintIpAddress = null; return; } byte[] bytes = ipaddress.GetAddressBytes(); /// 20180217 lduchosal /// code impossible to reach, GetAddressBytes returns either 4 or 16 bytes length addresses /// if (bytes.Length != 4 && bytes.Length != 16) { /// if (tryParse == false) { /// throw new ArgumentException("bytes"); /// } /// uintIpAddress = null; /// return; /// } Array.Reverse(bytes); var unsigned = new List(bytes); unsigned.Add(0); uintIpAddress = new BigInteger(unsigned.ToArray()); return; } /// /// Convert a cidr to BigInteger netmask /// /// /// public static BigInteger ToUint(byte cidr, AddressFamily family) { BigInteger? uintNetmask = null; IPNetwork.InternalToBigInteger(false, cidr, family, out uintNetmask); return (BigInteger)uintNetmask; } /// /// Convert a cidr to uint netmask /// /// /// public static bool TryToUint(byte cidr, AddressFamily family, out BigInteger? uintNetmask) { BigInteger? uintNetmask2 = null; IPNetwork.InternalToBigInteger(true, cidr, family, out uintNetmask2); bool parsed = (uintNetmask2 != null); uintNetmask = uintNetmask2; return parsed; } /// /// Convert a cidr to uint netmask /// /// /// #if TRAVISCI public #else internal #endif static void InternalToBigInteger(bool tryParse, byte cidr, AddressFamily family, out BigInteger? uintNetmask) { if (family == AddressFamily.InterNetwork && cidr > 32) { if (tryParse == false) { throw new ArgumentOutOfRangeException("cidr"); } uintNetmask = null; return; } if (family == AddressFamily.InterNetworkV6 && cidr > 128) { if (tryParse == false) { throw new ArgumentOutOfRangeException("cidr"); } uintNetmask = null; return; } if (family != AddressFamily.InterNetwork && family != AddressFamily.InterNetworkV6) { if (tryParse == false) { throw new NotSupportedException(family.ToString()); } uintNetmask = null; return; } if (family == AddressFamily.InterNetwork) { uintNetmask = cidr == 0 ? 0 : 0xffffffff << (32 - cidr); return; } BigInteger mask = new BigInteger(new byte[] { 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0x00 }); BigInteger masked = cidr == 0 ? 0 : mask << (128 - cidr); byte[] m = masked.ToByteArray(); byte[] bmask = new byte[17]; int copy = m.Length > 16 ? 16 : m.Length; Array.Copy(m, 0, bmask, 0, copy); uintNetmask = new BigInteger(bmask); } #endregion #region ToCidr /// /// Convert netmask to CIDR /// 255.255.255.0 -> 24 /// 255.255.0.0 -> 16 /// 255.0.0.0 -> 8 /// /// /// private static void InternalToCidr(bool tryParse, BigInteger netmask, AddressFamily family, out byte? cidr) { if (!IPNetwork.InternalValidNetmask(netmask, family)) { if (tryParse == false) { throw new ArgumentException("netmask"); } cidr = null; return; } byte cidr2 = IPNetwork.BitsSet(netmask, family); cidr = cidr2; return; } /// /// Convert netmask to CIDR /// 255.255.255.0 -> 24 /// 255.255.0.0 -> 16 /// 255.0.0.0 -> 8 /// /// /// public static byte ToCidr(IPAddress netmask) { byte? cidr = null; IPNetwork.InternalToCidr(false, netmask, out cidr); return (byte)cidr; } /// /// Convert netmask to CIDR /// 255.255.255.0 -> 24 /// 255.255.0.0 -> 16 /// 255.0.0.0 -> 8 /// /// /// public static bool TryToCidr(IPAddress netmask, out byte? cidr) { byte? cidr2 = null; IPNetwork.InternalToCidr(true, netmask, out cidr2); bool parsed = (cidr2 != null); cidr = cidr2; return parsed; } private static void InternalToCidr(bool tryParse, IPAddress netmask, out byte? cidr) { if (netmask == null) { if (tryParse == false) { throw new ArgumentNullException("netmask"); } cidr = null; return; } BigInteger? uintNetmask2 = null; bool parsed = IPNetwork.TryToBigInteger(netmask, out uintNetmask2); /// 20180217 lduchosal /// impossible to reach code. /// if (parsed == false) { /// if (tryParse == false) { /// throw new ArgumentException("netmask"); /// } /// cidr = null; /// return; /// } BigInteger uintNetmask = (BigInteger)uintNetmask2; byte? cidr2 = null; IPNetwork.InternalToCidr(tryParse, uintNetmask, netmask.AddressFamily, out cidr2); cidr = cidr2; return; } #endregion #region ToNetmask /// /// Convert CIDR to netmask /// 24 -> 255.255.255.0 /// 16 -> 255.255.0.0 /// 8 -> 255.0.0.0 /// /// /// /// public static IPAddress ToNetmask(byte cidr, AddressFamily family) { IPAddress netmask = null; IPNetwork.InternalToNetmask(false, cidr, family, out netmask); return netmask; } /// /// Convert CIDR to netmask /// 24 -> 255.255.255.0 /// 16 -> 255.255.0.0 /// 8 -> 255.0.0.0 /// /// /// /// public static bool TryToNetmask(byte cidr, AddressFamily family, out IPAddress netmask) { IPAddress netmask2 = null; IPNetwork.InternalToNetmask(true, cidr, family, out netmask2); bool parsed = (netmask2 != null); netmask = netmask2; return parsed; } #if TRAVISCI public #else internal #endif static void InternalToNetmask(bool tryParse, byte cidr, AddressFamily family, out IPAddress netmask) { if (family != AddressFamily.InterNetwork && family != AddressFamily.InterNetworkV6) { if (tryParse == false) { throw new ArgumentException("family"); } netmask = null; return; } /// 20180217 lduchosal /// impossible to reach code, byte cannot be negative : /// /// if (cidr < 0) { /// if (tryParse == false) { /// throw new ArgumentOutOfRangeException("cidr"); /// } /// netmask = null; /// return; /// } int maxCidr = family == Sockets.AddressFamily.InterNetwork ? 32 : 128; if (cidr > maxCidr) { if (tryParse == false) { throw new ArgumentOutOfRangeException("cidr"); } netmask = null; return; } BigInteger mask = IPNetwork.ToUint(cidr, family); IPAddress netmask2 = IPNetwork.ToIPAddress(mask, family); netmask = netmask2; return; } #endregion #endregion #region utils #region BitsSet /// /// Count bits set to 1 in netmask /// /// /// /// private static byte BitsSet(BigInteger netmask, AddressFamily family) { string s = netmask.ToBinaryString(); return (byte)s.Replace("0", "") .ToCharArray() .Length; } /// /// Count bits set to 1 in netmask /// /// /// public static uint BitsSet(IPAddress netmask) { BigInteger uintNetmask = IPNetwork.ToBigInteger(netmask); uint bits = IPNetwork.BitsSet(uintNetmask, netmask.AddressFamily); return bits; } #endregion #region ValidNetmask /// /// return true if netmask is a valid netmask /// 255.255.255.0, 255.0.0.0, 255.255.240.0, ... /// /// /// /// public static bool ValidNetmask(IPAddress netmask) { if (netmask == null) { throw new ArgumentNullException("netmask"); } BigInteger uintNetmask = IPNetwork.ToBigInteger(netmask); bool valid = IPNetwork.InternalValidNetmask(uintNetmask, netmask.AddressFamily); return valid; } #if TRAVISCI public #else internal #endif static bool InternalValidNetmask(BigInteger netmask, AddressFamily family) { if (family != AddressFamily.InterNetwork && family != AddressFamily.InterNetworkV6) { throw new ArgumentException("family"); } var mask = family == AddressFamily.InterNetwork ? new BigInteger(0x0ffffffff) : new BigInteger(new byte[]{ 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0x00 }); BigInteger neg = ((~netmask) & (mask)); bool isNetmask = ((neg + 1) & neg) == 0; return isNetmask; } #endregion #region ToIPAddress /// /// Transform a uint ipaddress into IPAddress object /// /// /// public static IPAddress ToIPAddress(BigInteger ipaddress, AddressFamily family) { int width = family == AddressFamily.InterNetwork ? 4 : 16; byte[] bytes = ipaddress.ToByteArray(); byte[] bytes2 = new byte[width]; int copy = bytes.Length > width ? width : bytes.Length; Array.Copy(bytes, 0, bytes2, 0, copy); Array.Reverse(bytes2); byte[] sized = Resize(bytes2, family); IPAddress ip = new IPAddress(sized); return ip; } #if TRAVISCI public #else internal #endif static byte[] Resize(byte[] bytes, AddressFamily family) { if (family != AddressFamily.InterNetwork && family != AddressFamily.InterNetworkV6) { throw new ArgumentException("family"); } int width = family == AddressFamily.InterNetwork ? 4 : 16; if (bytes.Length > width) { throw new ArgumentException("bytes"); } byte[] result = new byte[width]; Array.Copy(bytes, 0, result, 0, bytes.Length); return result; } #endregion #endregion #region contains /// /// return true if ipaddress is contained in network /// /// /// public bool Contains(IPAddress ipaddress) { if (ipaddress == null) { throw new ArgumentNullException("ipaddress"); } if (AddressFamily != ipaddress.AddressFamily) { return false; } BigInteger uintNetwork = _network; BigInteger uintBroadcast = _broadcast; BigInteger uintAddress = IPNetwork.ToBigInteger(ipaddress); bool contains = (uintAddress >= uintNetwork && uintAddress <= uintBroadcast); return contains; } [Obsolete("static Contains is deprecated, please use instance Contains.")] public static bool Contains(IPNetwork network, IPAddress ipaddress) { if (network == null) { throw new ArgumentNullException("network"); } return network.Contains(ipaddress); } /// /// return true is network2 is fully contained in network /// /// /// public bool Contains(IPNetwork network2) { if (network2 == null) { throw new ArgumentNullException("network2"); } BigInteger uintNetwork = _network; BigInteger uintBroadcast = _broadcast; BigInteger uintFirst = network2._network; BigInteger uintLast = network2._broadcast; bool contains = (uintFirst >= uintNetwork && uintLast <= uintBroadcast); return contains; } [Obsolete("static Contains is deprecated, please use instance Contains.")] public static bool Contains(IPNetwork network, IPNetwork network2) { if (network == null) { throw new ArgumentNullException("network"); } return network.Contains(network2); } #endregion #region overlap /// /// return true is network2 overlap network /// /// /// public bool Overlap(IPNetwork network2) { if (network2 == null) { throw new ArgumentNullException("network2"); } BigInteger uintNetwork = _network; BigInteger uintBroadcast = _broadcast; BigInteger uintFirst = network2._network; BigInteger uintLast = network2._broadcast; bool overlap = (uintFirst >= uintNetwork && uintFirst <= uintBroadcast) || (uintLast >= uintNetwork && uintLast <= uintBroadcast) || (uintFirst <= uintNetwork && uintLast >= uintBroadcast) || (uintFirst >= uintNetwork && uintLast <= uintBroadcast); return overlap; } [Obsolete("static Overlap is deprecated, please use instance Overlap.")] public static bool Overlap(IPNetwork network, IPNetwork network2) { if (network == null) { throw new ArgumentNullException("network"); } return network.Overlap(network2); } #endregion #region ToString public override string ToString() { return string.Format("{0}/{1}", this.Network, this.Cidr); } #endregion #region IANA block private static readonly Lazy _iana_ablock_reserved = new Lazy(() => IPNetwork.Parse("10.0.0.0/8")); private static readonly Lazy _iana_bblock_reserved = new Lazy(() => IPNetwork.Parse("172.16.0.0/12")); private static readonly Lazy _iana_cblock_reserved = new Lazy(() => IPNetwork.Parse("192.168.0.0/16")); /// /// 10.0.0.0/8 /// /// public static IPNetwork IANA_ABLK_RESERVED1 { get { return _iana_ablock_reserved.Value; } } /// /// 172.12.0.0/12 /// /// public static IPNetwork IANA_BBLK_RESERVED1 { get { return _iana_bblock_reserved.Value; } } /// /// 192.168.0.0/16 /// /// public static IPNetwork IANA_CBLK_RESERVED1 { get { return _iana_cblock_reserved.Value; } } /// /// return true if ipaddress is contained in /// IANA_ABLK_RESERVED1, IANA_BBLK_RESERVED1, IANA_CBLK_RESERVED1 /// /// /// public static bool IsIANAReserved(IPAddress ipaddress) { if (ipaddress == null) { throw new ArgumentNullException("ipaddress"); } return IPNetwork.IANA_ABLK_RESERVED1.Contains(ipaddress) || IPNetwork.IANA_BBLK_RESERVED1.Contains(ipaddress) || IPNetwork.IANA_CBLK_RESERVED1.Contains(ipaddress); } /// /// return true if ipnetwork is contained in /// IANA_ABLK_RESERVED1, IANA_BBLK_RESERVED1, IANA_CBLK_RESERVED1 /// /// public bool IsIANAReserved() { return IPNetwork.IANA_ABLK_RESERVED1.Contains(this) || IPNetwork.IANA_BBLK_RESERVED1.Contains(this) || IPNetwork.IANA_CBLK_RESERVED1.Contains(this); } [Obsolete("static IsIANAReserved is deprecated, please use instance IsIANAReserved.")] public static bool IsIANAReserved(IPNetwork ipnetwork) { if (ipnetwork == null) { throw new ArgumentNullException("ipnetwork"); } return ipnetwork.IsIANAReserved(); } #endregion #region Subnet /// /// Subnet a network into multiple nets of cidr mask /// Subnet 192.168.0.0/24 into cidr 25 gives 192.168.0.0/25, 192.168.0.128/25 /// Subnet 10.0.0.0/8 into cidr 9 gives 10.0.0.0/9, 10.128.0.0/9 /// /// /// public IPNetworkCollection Subnet(byte cidr) { IPNetworkCollection ipnetworkCollection = null; IPNetwork.InternalSubnet(false, this, cidr, out ipnetworkCollection); return ipnetworkCollection; } [Obsolete("static Subnet is deprecated, please use instance Subnet.")] public static IPNetworkCollection Subnet(IPNetwork network, byte cidr) { if (network == null) { throw new ArgumentNullException("network"); } return network.Subnet(cidr); } /// /// Subnet a network into multiple nets of cidr mask /// Subnet 192.168.0.0/24 into cidr 25 gives 192.168.0.0/25, 192.168.0.128/25 /// Subnet 10.0.0.0/8 into cidr 9 gives 10.0.0.0/9, 10.128.0.0/9 /// /// /// public bool TrySubnet(byte cidr, out IPNetworkCollection ipnetworkCollection) { IPNetworkCollection inc = null; IPNetwork.InternalSubnet(true, this, cidr, out inc); if (inc == null) { ipnetworkCollection = null; return false; } ipnetworkCollection = inc; return true; } [Obsolete("static TrySubnet is deprecated, please use instance TrySubnet.")] public static bool TrySubnet(IPNetwork network, byte cidr, out IPNetworkCollection ipnetworkCollection) { if (network == null) { throw new ArgumentNullException("network"); } return network.TrySubnet(cidr, out ipnetworkCollection); } #if TRAVISCI public #else internal #endif static void InternalSubnet(bool trySubnet, IPNetwork network, byte cidr, out IPNetworkCollection ipnetworkCollection) { if (network == null) { if (trySubnet == false) { throw new ArgumentNullException("network"); } ipnetworkCollection = null; return; } int maxCidr = network._family == Sockets.AddressFamily.InterNetwork ? 32 : 128; if (cidr > maxCidr) { if (trySubnet == false) { throw new ArgumentOutOfRangeException("cidr"); } ipnetworkCollection = null; return; } if (cidr < network.Cidr) { if (trySubnet == false) { throw new ArgumentException("cidr"); } ipnetworkCollection = null; return; } ipnetworkCollection = new IPNetworkCollection(network, cidr); return; } #endregion #region Supernet /// /// Supernet two consecutive cidr equal subnet into a single one /// 192.168.0.0/24 + 192.168.1.0/24 = 192.168.0.0/23 /// 10.1.0.0/16 + 10.0.0.0/16 = 10.0.0.0/15 /// 192.168.0.0/24 + 192.168.0.0/25 = 192.168.0.0/24 /// /// /// public IPNetwork Supernet(IPNetwork network2) { IPNetwork supernet = null; IPNetwork.InternalSupernet(false, this, network2, out supernet); return supernet; } [Obsolete("static Supernet is deprecated, please use instance Supernet.")] public static IPNetwork Supernet(IPNetwork network, IPNetwork network2) { return network.Supernet(network2); } /// /// Try to supernet two consecutive cidr equal subnet into a single one /// 192.168.0.0/24 + 192.168.1.0/24 = 192.168.0.0/23 /// 10.1.0.0/16 + 10.0.0.0/16 = 10.0.0.0/15 /// 192.168.0.0/24 + 192.168.0.0/25 = 192.168.0.0/24 /// /// /// public bool TrySupernet(IPNetwork network2, out IPNetwork supernet) { IPNetwork outSupernet = null; IPNetwork.InternalSupernet(true, this, network2, out outSupernet); bool parsed = (outSupernet != null); supernet = outSupernet; return parsed; } [Obsolete("static TrySupernet is deprecated, please use instance TrySupernet.")] public static bool TrySupernet(IPNetwork network, IPNetwork network2, out IPNetwork supernet) { if (network == null) { throw new ArgumentNullException("network"); } return network.TrySupernet(network2, out supernet); } #if TRAVISCI public #else internal #endif static void InternalSupernet(bool trySupernet, IPNetwork network1, IPNetwork network2, out IPNetwork supernet) { if (network1 == null) { if (trySupernet == false) { throw new ArgumentNullException("network1"); } supernet = null; return; } if (network2 == null) { if (trySupernet == false) { throw new ArgumentNullException("network2"); } supernet = null; return; } if (network1.Contains(network2)) { supernet = new IPNetwork(network1._network, network1._family, network1.Cidr); return; } if (network2.Contains(network1)) { supernet = new IPNetwork(network2._network, network2._family, network2.Cidr); return; } if (network1._cidr != network2._cidr) { if (trySupernet == false) { throw new ArgumentException("cidr"); } supernet = null; return; } IPNetwork first = (network1._network < network2._network) ? network1 : network2; IPNetwork last = (network1._network > network2._network) ? network1 : network2; /// Starting from here : /// network1 and network2 have the same cidr, /// network1 does not contain network2, /// network2 does not contain network1, /// first is the lower subnet /// last is the higher subnet if ((first._broadcast + 1) != last._network) { if (trySupernet == false) { throw new ArgumentOutOfRangeException("network"); } supernet = null; return; } BigInteger uintSupernet = first._network; byte cidrSupernet = (byte)(first._cidr - 1); IPNetwork networkSupernet = new IPNetwork(uintSupernet, first._family, cidrSupernet); if (networkSupernet._network != first._network) { if (trySupernet == false) { throw new ArgumentException("network"); } supernet = null; return; } supernet = networkSupernet; return; } #endregion #region GetHashCode public override int GetHashCode() { return string.Format("{0}|{1}|{2}", this._ipaddress.GetHashCode(), this._network.GetHashCode(), this._cidr.GetHashCode()).GetHashCode(); } #endregion #region SupernetArray /// /// Supernet a list of subnet /// 192.168.0.0/24 + 192.168.1.0/24 = 192.168.0.0/23 /// 192.168.0.0/24 + 192.168.1.0/24 + 192.168.2.0/24 + 192.168.3.0/24 = 192.168.0.0/22 /// /// /// /// public static IPNetwork[] Supernet(IPNetwork[] ipnetworks) { IPNetwork[] supernet; InternalSupernet(false, ipnetworks, out supernet); return supernet; } /// /// Supernet a list of subnet /// 192.168.0.0/24 + 192.168.1.0/24 = 192.168.0.0/23 /// 192.168.0.0/24 + 192.168.1.0/24 + 192.168.2.0/24 + 192.168.3.0/24 = 192.168.0.0/22 /// /// /// /// public static bool TrySupernet(IPNetwork[] ipnetworks, out IPNetwork[] supernet) { bool supernetted = InternalSupernet(true, ipnetworks, out supernet); return supernetted; } #if TRAVISCI public #else internal #endif static bool InternalSupernet(bool trySupernet, IPNetwork[] ipnetworks, out IPNetwork[] supernet) { if (ipnetworks == null) { if (trySupernet == false) { throw new ArgumentNullException("ipnetworks"); } supernet = null; return false; } if (ipnetworks.Length <= 0) { supernet = new IPNetwork[0]; return true; } List supernetted = new List(); List ipns = IPNetwork.Array2List(ipnetworks); Stack current = IPNetwork.List2Stack(ipns); int previousCount = 0; int currentCount = current.Count; while (previousCount != currentCount) { supernetted.Clear(); while (current.Count > 1) { IPNetwork ipn1 = current.Pop(); IPNetwork ipn2 = current.Peek(); IPNetwork outNetwork = null; bool success = ipn1.TrySupernet(ipn2, out outNetwork); if (success) { current.Pop(); current.Push(outNetwork); } else { supernetted.Add(ipn1); } } if (current.Count == 1) { supernetted.Add(current.Pop()); } previousCount = currentCount; currentCount = supernetted.Count; current = IPNetwork.List2Stack(supernetted); } supernet = supernetted.ToArray(); return true; } private static Stack List2Stack(List list) { Stack stack = new Stack(); list.ForEach(new Action( delegate (IPNetwork ipn) { stack.Push(ipn); } )); return stack; } private static List Array2List(IPNetwork[] array) { List ipns = new List(); ipns.AddRange(array); IPNetwork.RemoveNull(ipns); ipns.Sort(new Comparison( delegate (IPNetwork ipn1, IPNetwork ipn2) { int networkCompare = ipn1._network.CompareTo(ipn2._network); if (networkCompare == 0) { int cidrCompare = ipn1._cidr.CompareTo(ipn2._cidr); return cidrCompare; } return networkCompare; } )); ipns.Reverse(); return ipns; } private static void RemoveNull(List ipns) { ipns.RemoveAll(new Predicate( delegate (IPNetwork ipn) { if (ipn == null) { return true; } return false; } )); } #endregion #region WideSubnet public static IPNetwork WideSubnet(string start, string end) { if (string.IsNullOrEmpty(start)) { throw new ArgumentNullException("start"); } if (string.IsNullOrEmpty(end)) { throw new ArgumentNullException("end"); } IPAddress startIP; if (!IPAddress.TryParse(start, out startIP)) { throw new ArgumentException("start"); } IPAddress endIP; if (!IPAddress.TryParse(end, out endIP)) { throw new ArgumentException("end"); } if (startIP.AddressFamily != endIP.AddressFamily) { throw new NotSupportedException("MixedAddressFamily"); } IPNetwork ipnetwork = new IPNetwork(0, startIP.AddressFamily, 0); for (byte cidr = 32; cidr >= 0; cidr--) { IPNetwork wideSubnet = IPNetwork.Parse(start, cidr); if (wideSubnet.Contains(endIP)) { ipnetwork = wideSubnet; break; } } return ipnetwork; } public static bool TryWideSubnet(IPNetwork[] ipnetworks, out IPNetwork ipnetwork) { IPNetwork ipn = null; IPNetwork.InternalWideSubnet(true, ipnetworks, out ipn); if (ipn == null) { ipnetwork = null; return false; } ipnetwork = ipn; return true; } public static IPNetwork WideSubnet(IPNetwork[] ipnetworks) { IPNetwork ipn = null; IPNetwork.InternalWideSubnet(false, ipnetworks, out ipn); return ipn; } internal static void InternalWideSubnet(bool tryWide, IPNetwork[] ipnetworks, out IPNetwork ipnetwork) { if (ipnetworks == null) { if (tryWide == false) { throw new ArgumentNullException("ipnetworks"); } ipnetwork = null; return; } IPNetwork[] nnin = Array.FindAll(ipnetworks, new Predicate( delegate (IPNetwork ipnet) { return ipnet != null; } )); if (nnin.Length <= 0) { if (tryWide == false) { throw new ArgumentException("ipnetworks"); } ipnetwork = null; return; } if (nnin.Length == 1) { IPNetwork ipn0 = nnin[0]; ipnetwork = ipn0; return; } Array.Sort(nnin); IPNetwork nnin0 = nnin[0]; BigInteger uintNnin0 = nnin0._ipaddress; IPNetwork nninX = nnin[nnin.Length - 1]; IPAddress ipaddressX = nninX.Broadcast; AddressFamily family = ipnetworks[0]._family; foreach (var ipnx in ipnetworks) { if (ipnx._family != family) { throw new ArgumentException("MixedAddressFamily"); } } IPNetwork ipn = new IPNetwork(0, family, 0); for (byte cidr = nnin0._cidr; cidr >= 0; cidr--) { IPNetwork wideSubnet = new IPNetwork(uintNnin0, family, cidr); if (wideSubnet.Contains(ipaddressX)) { ipn = wideSubnet; break; } } ipnetwork = ipn; return; } #endregion #region Print /// /// Print an ipnetwork in a clear representation string /// /// public string Print() { StringWriter sw = new StringWriter(); sw.WriteLine("IPNetwork : {0}", ToString()); sw.WriteLine("Network : {0}", Network); sw.WriteLine("Netmask : {0}", Netmask); sw.WriteLine("Cidr : {0}", Cidr); sw.WriteLine("Broadcast : {0}", Broadcast); sw.WriteLine("FirstUsable : {0}", FirstUsable); sw.WriteLine("LastUsable : {0}", LastUsable); sw.WriteLine("Usable : {0}", Usable); return sw.ToString(); } [Obsolete("static Print is deprecated, please use instance Print.")] public static string Print(IPNetwork ipnetwork) { if (ipnetwork == null) { throw new ArgumentNullException("ipnetwork"); } return ipnetwork.Print(); } #endregion #region TryGuessCidr /// /// /// Class Leading bits Default netmask /// A (CIDR /8) 00 255.0.0.0 /// A (CIDR /8) 01 255.0.0.0 /// B (CIDR /16) 10 255.255.0.0 /// C (CIDR /24) 11 255.255.255.0 /// /// /// /// /// public static bool TryGuessCidr(string ip, out byte cidr) { IPAddress ipaddress = null; bool parsed = IPAddress.TryParse(string.Format("{0}", ip), out ipaddress); if (parsed == false) { cidr = 0; return false; } if (ipaddress.AddressFamily == AddressFamily.InterNetworkV6) { cidr = 64; return true; } BigInteger uintIPAddress = IPNetwork.ToBigInteger(ipaddress); uintIPAddress = uintIPAddress >> 29; if (uintIPAddress <= 3) { cidr = 8; return true; } else if (uintIPAddress <= 5) { cidr = 16; return true; } else if (uintIPAddress <= 6) { cidr = 24; return true; } cidr = 0; return false; } /// /// Try to parse cidr. Have to be >= 0 and <= 32 or 128 /// /// /// /// public static bool TryParseCidr(string sidr, AddressFamily family, out byte? cidr) { byte b = 0; if (!byte.TryParse(sidr, out b)) { cidr = null; return false; } IPAddress netmask = null; if (!IPNetwork.TryToNetmask(b, family, out netmask)) { cidr = null; return false; } cidr = b; return true; } #endregion #region ListIPAddress [Obsolete("static ListIPAddress is deprecated, please use instance ListIPAddress.")] public static IPAddressCollection ListIPAddress(IPNetwork ipnetwork) { return ipnetwork.ListIPAddress(); } public IPAddressCollection ListIPAddress() { return new IPAddressCollection(this); } #endregion /** * Need a better way to do it * #region TrySubstractNetwork public static bool TrySubstractNetwork(IPNetwork[] ipnetworks, IPNetwork substract, out IEnumerable result) { if (ipnetworks == null) { result = null; return false; } if (ipnetworks.Length <= 0) { result = null; return false; } if (substract == null) { result = null; return false; } var results = new List(); foreach (var ipn in ipnetworks) { if (!Overlap(ipn, substract)) { results.Add(ipn); continue; } var collection = ipn.Subnet(substract.Cidr); var rtemp = new List(); foreach(var subnet in collection) { if (subnet != substract) { rtemp.Add(subnet); } } var supernets = Supernet(rtemp.ToArray()); results.AddRange(supernets); } result = results; return true; } #endregion * **/ #region IComparable Members public static Int32 Compare(IPNetwork left, IPNetwork right) { // two null IPNetworks are equal if (ReferenceEquals(left, null) && ReferenceEquals(right, null)) return 0; // two same IPNetworks are equal if (ReferenceEquals(left, right)) return 0; // null is always sorted first if (ReferenceEquals(left, null)) return -1; if (ReferenceEquals(right, null)) return 1; // first test the network var result = left._network.CompareTo(right._network); if (result != 0) return result; // then test the cidr result = left._cidr.CompareTo(right._cidr); return result; } public Int32 CompareTo(IPNetwork other) { return Compare(this, other); } public Int32 CompareTo(Object obj) { // null is at less if (obj == null) return 1; // convert to a proper Cidr object var other = obj as IPNetwork; // type problem if null if (other == null) { throw new ArgumentException( "The supplied parameter is an invalid type. Please supply an IPNetwork type.", "obj"); } // perform the comparision return CompareTo(other); } #endregion #region IEquatable Members public static Boolean Equals(IPNetwork left, IPNetwork right) { return Compare(left, right) == 0; } public Boolean Equals(IPNetwork other) { return Equals(this, other); } public override Boolean Equals(Object obj) { return Equals(this, obj as IPNetwork); } #endregion #region Operators public static Boolean operator ==(IPNetwork left, IPNetwork right) { return Equals(left, right); } public static Boolean operator !=(IPNetwork left, IPNetwork right) { return !Equals(left, right); } public static Boolean operator <(IPNetwork left, IPNetwork right) { return Compare(left, right) < 0; } public static Boolean operator >(IPNetwork left, IPNetwork right) { return Compare(left, right) > 0; } #endregion } }