I use the following method for converting an IP address to two
UInt64s (C# 3.0).
/// Converts an IP address to its UInt64 equivalent.
/// For an IPv4 address, the first element will be 0,
/// and the second will be a UInt32 representation of the four bytes.
/// For an IPv6 address, the first element will be a UInt64
/// representation of the first eight bytes, and the second will be the
/// last eight bytes.
/// <param name="ipAddress">The IP address to convert.</param>
private static ulong ConvertIPAddressToUInt64Array(string ipAddress)
byte addrBytes = System.Net.IPAddress.Parse(ipAddress).GetAddressBytes();
//little-endian machines store multi-byte integers with the
//least significant byte first. this is a problem, as integer
//values are sent over the network in big-endian mode. reversing
//the order of the bytes is a quick way to get the BitConverter
//methods to convert the byte arrays in big-endian mode.
System.Collections.Generic.List<byte> byteList = new System.Collections.Generic.List<byte>(addrBytes);
addrBytes = byteList.ToArray();
ulong addrWords = new ulong;
if (addrBytes.Length > 8)
addrWords = System.BitConverter.ToUInt64(addrBytes, 8);
addrWords = System.BitConverter.ToUInt64(addrBytes, 0);
addrWords = 0;
addrWords = System.BitConverter.ToUInt32(addrBytes, 0);
Make sure you cast your
Int64s before you put them into the database, or you'll get an
ArgumentException. When you get your values back out, you can cast them back to
UInt64 to get the unsigned value.
I don't have a need to do the reverse (i.e. convert a
UInt64 to an IP string) so I never built a method for it.