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I have seen plenty of great C# examples which demonstrate how to convert IPv4 addresses provided in CIDR notation (e.g. into their relevant ranges ( - My program needs to be able to do this (to compute all the addresses within my local subnet) but I want to also support IPv6.

If my C# program has all of my typical ipconfig information (IPv4 address, subnet mask, IPv6 address, link-local v6 address, default gateway) - how would I go about generating a list of all of the IPv6 addresses in my local subnet and outputting them to the console?

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You probably need to rethink your functionality. By design, almost any subnet you will see at IPv6 will be /64, or (2^64)-1 hosts large. – Joe Aug 16 '11 at 18:02
That's correct, I want all 18,446,744,073,709,551,616 IP addresses ;) – DaveUK Aug 16 '11 at 18:08
And what will you do with them? Even at 10 million a second, you'd need 58,000 years to go through them all. – Joe Aug 16 '11 at 18:33
At a previous job, where we did a lot of network scanning, we quickly realized that any kind of address-space scan for IPv6 is essentially Sisyphean and that we had to attack some of our problem space a different way. – Joe Aug 16 '11 at 18:35
@Joe - I think he just wants to take 2001:DB8::/48 and convert that to 2001:DB8:0:0:0:0:0:0 - 2001:DB8:0:FFFF:FFFF:FFFF:FFFF:FFFF, not get every possible address. – CodeNaked Aug 16 '11 at 19:13
up vote 9 down vote accepted

You can use the eExNetworkLibrary.IP.IPAddressAnalysis class from the eExNetworkLibrary.

The following code works with IPv4 and IPv6 (just tested).

        string strIn = "2001:DB8::/120";

        //Split the string in parts for address and prefix
        string strAddress = strIn.Substring(0, strIn.IndexOf('/'));
        string strPrefix = strIn.Substring(strIn.IndexOf('/') + 1);

        int iPrefix = Int32.Parse(strPrefix);
        IPAddress ipAddress = IPAddress.Parse(strAddress);

        //Convert the prefix length to a valid SubnetMask

        int iMaskLength = 32;

        if(ipAddress.AddressFamily == System.Net.Sockets.AddressFamily.InterNetworkV6)
            iMaskLength = 128;

        BitArray btArray = new BitArray(iMaskLength);
        for (int iC1 = 0; iC1 < iMaskLength; iC1++)
            //Index calculation is a bit strange, since you have to make your mind about byte order.
            int iIndex = (int)((iMaskLength - iC1 - 1) / 8) * 8 + (iC1 % 8);

            if (iC1 < (iMaskLength - iPrefix))
                btArray.Set(iIndex, false);
                btArray.Set(iIndex, true);

        byte[] bMaskData = new byte[iMaskLength / 8];

        btArray.CopyTo(bMaskData, 0);

        //Create subnetmask
        Subnetmask smMask = new Subnetmask(bMaskData);

        //Get the IP range
        IPAddress ipaStart = IPAddressAnalysis.GetClasslessNetworkAddress(ipAddress, smMask);
        IPAddress ipaEnd = IPAddressAnalysis.GetClasslessBroadcastAddress(ipAddress, smMask);

        //Omit the following lines if your network range is large
        IPAddress[] ipaRange = IPAddressAnalysis.GetIPRange(ipaStart, ipaEnd);

        //Debug output
        foreach (IPAddress ipa in ipaRange)


I'm not completely sure if I have done the conversion from the prefix length to a byte array containing the subnet mask right, but this code should give you a good starting point.

Edit: Updated the bit-bending part of the code. May be ugly, but works for this example. I think you will be capable of finding a better solution, if you need to. Those BitArrays are a pain in the neck.

Be aware that generating an IPv6 network range can be a very memory/cpu exhausting task if the network is large.

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This almost worked for me. Needed to change iIndex to equal (iMaskLength - iC1 - 1). This was the code before edit, so I'm not sure why it was changed. – Brian S Dec 23 '12 at 22:42

exNetworkLibrary is a great tool but if you can't use it in your project then you may just want to see this article:


It outlines how address masks are calculated for use in IPv4.

Your question is related to IPv6 I see and Since .Net 4.5 there is a IPAddress.MapToIPv6 method.


You can utilize that with the checks in the article to produce this code:

    private static IPAddress empty = IPAddress.Parse("");
    private static IPAddress intranetMask1 = IPAddress.Parse("");
    private static IPAddress intranetMask2 = IPAddress.Parse("");
    private static IPAddress intranetMask3 = IPAddress.Parse("");
    private static IPAddress intranetMask4 = IPAddress.Parse("");

    /// <summary>
    /// Retuns true if the ip address is one of the following
    /// IANA-reserved private IPv4 network ranges (from http://en.wikipedia.org/wiki/IP_address)
    ///  Start        End   
    /// </summary>
    /// <returns></returns>
    public static bool IsOnIntranet(this IPAddress ipAddress)
        if (empty.Equals(ipAddress))
            return false;

        bool onIntranet = IPAddress.IsLoopback(ipAddress);

        if (false == onIntranet)
            //Handle IPv6 by getting the IPv4 Mapped Address. 
            if (ipAddress.AddressFamily == AddressFamily.InterNetworkV6)
                onIntranet = ipAddress.Equals(ipAddress.And(intranetMask1.MapToIPv6())); //
                onIntranet = onIntranet || ipAddress.Equals(ipAddress.And(intranetMask4.MapToIPv6())); ////

                onIntranet = onIntranet || (intranetMask2.Equals(ipAddress.And(intranetMask2.MapToIPv6()))
                  && ipAddress.Equals(ipAddress.And(intranetMask3.MapToIPv6())));
                onIntranet = ipAddress.Equals(ipAddress.And(intranetMask1)); //
                onIntranet = onIntranet || ipAddress.Equals(ipAddress.And(intranetMask4)); ////

                onIntranet = onIntranet || (intranetMask2.Equals(ipAddress.And(intranetMask2))
                  && ipAddress.Equals(ipAddress.And(intranetMask3)));


        return onIntranet;

private static void CheckIPVersion(IPAddress ipAddress, IPAddress mask, out byte[] addressBytes, out byte[] maskBytes)
        if (mask == null)
            throw new ArgumentException();

        addressBytes = ipAddress.GetAddressBytes();
        maskBytes = mask.GetAddressBytes();

        if (addressBytes.Length != maskBytes.Length)
            throw new ArgumentException("The address and mask don't use the same IP standard");

    public static IPAddress And(this IPAddress ipAddress, IPAddress mask)
        byte[] addressBytes;
        byte[] maskBytes;
        CheckIPVersion(ipAddress, mask, out addressBytes, out maskBytes);

        byte[] resultBytes = new byte[addressBytes.Length];
        for (int i = 0, e = addressBytes.Length; i < e; ++i)
            resultBytes[i] = (byte)(addressBytes[i] & maskBytes[i]);

        return new IPAddress(resultBytes);
share|improve this answer

I would recommend the use of IPNetwork Library https://github.com/lduchosal/ipnetwork. As of version 2, it supports IPv4 and IPv6 as well.


  IPNetwork ipnetwork = IPNetwork.Parse("2001:0db8::/64");

  Console.WriteLine("Network : {0}", ipnetwork.Network);
  Console.WriteLine("Netmask : {0}", ipnetwork.Netmask);
  Console.WriteLine("Broadcast : {0}", ipnetwork.Broadcast);
  Console.WriteLine("FirstUsable : {0}", ipnetwork.FirstUsable);
  Console.WriteLine("LastUsable : {0}", ipnetwork.LastUsable);
  Console.WriteLine("Usable : {0}", ipnetwork.Usable);
  Console.WriteLine("Cidr : {0}", ipnetwork.Cidr);


Network : 2001:db8::
Netmask : ffff:ffff:ffff:ffff::
Broadcast : 
FirstUsable : 2001:db8::
LastUsable : 2001:db8::ffff:ffff:ffff:ffff
Usable : 18446744073709551616
Cidr : 64


  IPNetwork network = IPNetwork.Parse("::/124");
  IPNetworkCollection ips = IPNetwork.Subnet(network, 128);

  foreach (IPNetwork ip in ips) {
      Console.WriteLine("{0}", ip);



Have fun !

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The output for first and last usable addresses is incorrect. IPv6, unlike IPv4, can use all the addresses in a subnet. A standard IPv6 subnet is /64 (a few special cases use other mask lengths), and the usable addresses are from <subnet>:: to <subnet>:ffff:ffff:ffff:ffff. There is no reservation for the subnet (<subnet>::), and IPv6 doesn't have the concept of broadcast, so no broadcast address exists at <subnet>:ffff:ffff:ffff:ffff. – Ron Maupin Aug 11 '15 at 18:34
Thanks for pointing this out. Example corrected. – LukeSkywalker Aug 12 '15 at 14:19

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