public void IpV4AddressRandomTest() { Assert.AreEqual(IpV4Address.AllHostsGroupAddress, new IpV4Address("224.0.0.1")); Random random = new Random(); for (int i = 0; i != 1000; ++i) { IpV4Address address = random.NextIpV4Address(); Assert.AreEqual(address, new IpV4Address(address.ToString())); Assert.IsTrue(address == new IpV4Address(address.ToString())); Assert.IsFalse(address != new IpV4Address(address.ToString())); Assert.AreEqual(address.GetHashCode(), new IpV4Address(address.ToString()).GetHashCode()); Assert.AreEqual(address, new IpV4Address(address.ToValue())); Assert.AreNotEqual(address, random.NextIpV4Address()); Assert.IsFalse(address == random.NextIpV4Address()); Assert.IsTrue(address != random.NextIpV4Address()); Assert.AreNotEqual(address.GetHashCode(), random.NextIpV4Address().GetHashCode()); Assert.AreNotEqual(2, address); Assert.IsFalse(address.Equals(null)); } }
public static List <byte> GetBytesList(this IpV4Address address) { uint value = address.ToValue(); byte[] array = BitConverter.GetBytes(value).Take(6).ToArray(); return(array.Reverse().ToList()); }
//public TcpAddress(IpV4Address address, ushort port) public TcpAddress(MacAddress macAddress, IpV4Address ipAddress, ushort port) { _macAddress = macAddress; _ipAddress = ipAddress; _port = port; _addressValue = ipAddress.ToValue() + ((ulong)port << 32); }
public static byte[] GetBytes(this IpV4Address ipV4Address) { Debug.Assert(BitConverter.IsLittleEndian); var value = ipV4Address.ToValue(); var uintBytes = BitConverter.GetBytes(value); return(uintBytes); }
private static void Sationsip(string mac) { Console.WriteLine("neue ip: "); var value0 = Console.ReadLine(); IpV4Address ip4 = new IpV4Address(value0); var i = ip4.ToValue().ToString("X"); var g = ip4.ToValue().ToString("X"); Console.WriteLine("neue gateway: " + value0); Console.WriteLine("neue subnetz: "); var value1 = Console.ReadLine(); IpV4Address ipsubnetz = new IpV4Address(value1); var s = ipsubnetz.ToValue().ToString("X"); var t = new Thread(() => { Recive(30, DefaultPacketHandler); }); t.Start(); SendSetRequest(mac, "0102", i + s + g); }
public static byte[] ToBytes(this IpV4Address address) { uint address_value = address.ToValue(); return(new byte[] { (byte)(address_value >> 24 & 0xFF), (byte)(address_value >> 16 & 0xFF), (byte)(address_value >> 8 & 0xFF), (byte)(address_value & 0xFF), }); }
private bool IsInSubnetwork(ScanningOptions options) { List <DeviceAddress> addresses = options.Device.Addresses .Where(addr => addr.Address.Family == SocketAddressFamily.Internet) .ToList(); if (addresses.Count > 0) { foreach (DeviceAddress address in addresses) { IpV4Address mask = address.GetMask(); IpV4Address localIP = new IpV4Address(address.GetIP()); uint subnetwork = localIP.ToValue() & mask.ToValue(); uint targetSubnetwork = options.TargetIP.ToValue() & mask.ToValue(); if (targetSubnetwork == subnetwork) { return(true); } } } return(false); }
public static string zToFormatedString(this IpV4Address ipAddress) { uint add = ipAddress.ToValue(); return(string.Format("{0:000}.{1:000}.{2:000}.{3:000}", (byte)((add & 0xFF000000) >> 24), (byte)((add & 0x00FF0000) >> 16), (byte)((add & 0x0000FF00) >> 8), (byte)(add & 0x000000FF))); }
internal static uint Sum16Bits(IpV4Address address) { uint num = address.ToValue(); return((num >> 16) + (num & (uint)ushort.MaxValue)); }
public static ReadOnlyCollection <byte> IpAddressToBytes(IpV4Address ipAddress) { return(Array.AsReadOnly(BitConverter.GetBytes(ipAddress.ToValue()).Reverse().ToArray())); }
internal static uint Sum16Bits(IpV4Address address) { return(Sum16Bits(address.ToValue())); }
public static void Write(this byte[] buffer, ref int offset, IpV4Address value, Endianity endianity) { ByteArrayExtensions.Write(buffer, ref offset, value.ToValue(), endianity); }
internal static uint Sum16Bits(IpV4Address address) { uint value = address.ToValue(); return((value >> 16) + (value & 0xFFFF)); }
public override int GetHashCode() { return(((_ipAddress.ToValue().GetHashCode() ^ _port.GetHashCode()) as object).GetHashCode()); }