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If I have a subnet mask e.g. and an ip address, is there an easy way to determine all the possible ip addresses within this subnet?

In this case:

All I found until now are heavy overloaded .net libraries. Isn't there any native way to solve this with the default namespaces?

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There's no built in way. You either do the math/bitshifting yourself or use 3rd party I'm afraid. –  Lloyd Jan 14 '13 at 21:31
Sure. For that you need to know what is a subnet mask and basic binary operators of C#. Have you made any research on that? –  zerkms Jan 14 '13 at 21:31
AND and bitshift, enough said. –  drum Jan 14 '13 at 21:32
You want to actually list them all, or just determine if a specific address is in the subnet? For instance, a subnet mask would contain 16,777,216 addresses. –  mellamokb Jan 14 '13 at 21:33
@zerkms I hoped for a built in way first, but it looks like I have to do it by myself. :/ –  Neurodefekt Jan 14 '13 at 21:33

3 Answers 3

up vote 5 down vote accepted

To determine the adress range follow these steps :

1) Take your subnet mask (here and convert it in binary :


 (  8    +    8   +   8    +    0    = 24 ->  So you can write your ip adresse like this : 192.168.1.x/24 because you are in a /24 network)

2) You have in a /24 network 256-2=254 usable ip adresses for host (one is for the network adress (the first in your range) and the other one is for the broadcast adress (the last in your range)).

3) To get your range simply get your network adress (the first ip adress according to your subnet mask) and get the next 255 ip addresses and you'll have your range.

Your network adress:

In binary the last octet has to be null :


Your broadcast adress:

In binary the last octet has to be equal to 1:


Here your ip adress is In binary we get:

  1. Your network address: 11000000.10101000.00000000.00000000 <->
  2. Your broadcast address: 11000000.10101000.000000000.11111111 <->
  3. First usable ip address:

  4. Last usable ip address :

Hope you enjoyed reading bad english. Tell me if you have any question, Loris

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In case anyone wants the code for step 1: var bytes = subnetMask.GetAddressBytes(); var binarySubnetMask = String.Join(".", bytes.Select(b => Convert.ToString(b, 2).PadLeft(8, '0'))); int mask = binarySubnetMask.Count(b => b == '1'); –  Brett Apr 22 at 17:24

10 minutes of coding, and NOT fully tested:

class IPSegment {

    private UInt32 _ip;
    private UInt32 _mask;

    public IPSegment(string ip, string mask) {
        _ip = ip.ParseIp();
        _mask = mask.ParseIp();

    public UInt32 NumberOfHosts {
        get { return ~_mask+1; }

    public UInt32 NetworkAddress {
        get { return _ip & _mask; }

    public UInt32 BroadcastAddress {
        get { return NetworkAddress + ~_mask; }

    public IEnumerable<UInt32> Hosts(){
        for (var host = NetworkAddress+1; host < BroadcastAddress; host++) {
            yield return  host;


public static class IpHelpers {
    public static string ToIpString(this UInt32 value) {
        var bitmask = 0xff000000;
        var parts = new string[4];
        for (var i = 0; i < 4; i++) {
            var masked = (value & bitmask) >> ((3-i)*8);
            bitmask >>= 8;
            parts[i] = masked.ToString(CultureInfo.InvariantCulture);
        return String.Join(".", parts);

    public static UInt32 ParseIp(this string ipAddress) {
        var splitted = ipAddress.Split('.');
        UInt32 ip = 0;
        for (var i = 0; i < 4; i++) {
            ip = (ip << 8) + UInt32.Parse(splitted[i]);
        return ip;


    static void Main(string[] args) {

        IPSegment ip = new IPSegment("","");


        foreach (var host in ip.Hosts()) {

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yup, convert everything to 32-bit representation (assuming IPv4). if your mask is M and ip is IP, then your ip range is (M&IP)+1,(M&IP)+2,...,(M&IP)+(~M)-1. where & is bitwise AND and ~ is bitwise not.

to convert things to 32-bit representation, each spot in the ip a.b.c.d is an 8-bit number.

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