# How can I convert IP range to Cidr in C#?

There has lots of example of convert CIDR to ip range. But I want to know how can I use start/end ip address to generate a/some cidr in C#?

for example: I have start ip address(192.168.0.1) and end ip address(192.168.0.254). So use these two address to generate cidr list {192.168.0.0/31, 192.168.0.2/32}. Is there any C# code example?

-
please show some source code... what have you tried ? what exactly is not working ? –  Yahia Nov 22 '12 at 8:29

It is difficult to determine the what exactly is being asked here (the CIDR list you give doesn't seem to correspond with the given input addresses), however the following code will allow you to find the smallest single CIDR that contains the specified start and end addresses.

You need to first convert the start and end IP addresses into 32 bit integers (e.g. 192.168.0.1 becomes 0xc0a80001), then apply the following algorithm:

``````var startAddr = 0xc0a80001; // 192.168.0.1
var endAddr = 0xc0a800fe;   // 192.168.0.254

// Determine all bits that are different between the two IPs

// Now count the number of consecutive zero bits starting at the most significant
var bits = 32;
while (diffs != 0)
{
// We keep shifting diffs right until it's zero (i.e. we've shifted all the non-zero bits off)
diffs >>= 1;
// Every time we shift, that's one fewer consecutive zero bits in the prefix
bits--;
// Accumulate a mask which will have zeros in the consecutive zeros of the prefix and ones elsewhere
}

// Construct the root of the range by inverting the mask and ANDing it with the start address
// Finally, output the range
Console.WriteLine("{0}.{1}.{2}.{3}/{4}", root >> 24, (root >> 16) & 0xff, (root >> 8) & 0xff, root & 0xff, bits);
``````

``````192.168.0.0/24
``````
-
This calculates the smallest CIDR block that includes two given IPv4 addresses, but I think the question was about a list of CIDRs that exactly covers the range. –  Stefan Mar 8 at 7:34
@Stefan it's rather difficult to determine what the OP wanted since the example output in the question doesn't appear to correspond to the start/end addresses given. As the OP's own answer with (supposedly) the desired output was posted a day later, after a number of people had considered mine sufficiently useful to up-vote it, I left it as-is. That wouldn't seem to warrant (I assume) your down-vote, but to each his own. –  Iridium Mar 8 at 10:01
Hm. How about editing your answer so it is clear how you interpreted the question? It is annoying to have to read the source to find out what it actually does. –  Stefan Mar 8 at 10:33
@Stefan I've edited the answer to clarify the intent of the code. Hopefully this is clearer now. –  Iridium Mar 8 at 13:02

`CIDR` class with static methods to split an IP range into a minimal set of disjoint `CIDR` ranges, which cover exactly the original IP range.

The split methods (the "real" one working on BigIntegers doing the actual work, and the wrapper for IP addresses and CIDR creation) are at the bottom.

Use with `foreach (IPRangeToCidr.CIDR c in IPRangeToCidr.CIDR.split(first, last)) ...`

Requires System.Numerics.dll in the references.

``````using System;
using System.Numerics;
using System.Net;
using System.Net.Sockets;
using System.Collections.Generic;

namespace IPRangeToCidr {
public struct CIDR {
private uint network_length, bits;

this.network_length = network_length;
if (network_length > bits) {
throw new ArgumentException("Invalid network length " + network_length + " for " + address.AddressFamily);
}
}

}
}
public uint NetworkLength {
get { return network_length; }
}
get { return bits; }
}
public uint HostLength {
get { return bits - network_length; }
}

override public String ToString() {
return address.ToString() + "/" + NetworkLength.ToString();
}

public String ToShortString() {
if (network_length == bits) return address.ToString();
return address.ToString() + "/" + NetworkLength.ToString();
}

/* static helpers */
}

switch (family) {
return 32;
return 128;
default:
throw new ArgumentException("Invalid address family " + family);
}
}

/* Need to reverse addr bytes for BigInteger; prefix with 0 byte to force unsigned BigInteger
* read BigInteger bytes as: bytes[n] bytes[n-1] ... bytes[0], address is bytes[0] bytes[1] .. bytes[n] */
byte[] unsigned = new byte[b.Length + 1];
for (int i = 0; i < b.Length; ++i) {
unsigned[i] = b[(b.Length - 1) - i];
}
unsigned[b.Length] = 0;
return new BigInteger(unsigned);
}

private static byte[] GetUnsignedBytes(BigInteger unsigned, uint bytes) {
/* reverse bytes again. check that now higher bytes are actually used */
if (unsigned.Sign < 0) throw new ArgumentException("argument must be >= 0");
byte[] data = unsigned.ToByteArray();
byte[] result = new byte[bytes];
for (int i = 0; i < bytes && i < data.Length; ++i) {
result[bytes - 1 - i] = data[i];
}
for (uint i = bytes; i < data.Length; ++i) {
if (data[i] != 0) throw new ArgumentException("argument doesn't fit in requested number of bytes");
}
return result;
}

/* IPAddress(byte[]) constructor picks family from array size */
switch (family) {
default:
throw new ArgumentException("AddressFamily " + family.ToString() + " not supported");
}
}

/* splits set [first..last] of unsigned integers into disjoint slices { x,..., x + 2^k - 1 | x mod 2^k == 0 }
*  covering exaclty the given set.
* yields the slices ordered by x as tuples (x, k)
* This code relies on the fact that BigInteger can't overflow; temporary results may need more bits than last is using.
*/
public static IEnumerable<Tuple<BigInteger, uint>> split(BigInteger first, BigInteger last) {
if (first > last) yield break;
if (first < 0) throw new ArgumentException();
last += 1;
/* mask == 1 << len */
uint len = 0;
while (first + mask <= last) {
if ((first & mask) != 0) {
yield return new Tuple<BigInteger, uint>(first, len);
}
++len;
}
while (first < last) {
--len;
if ((last & mask) != 0) {
yield return new Tuple<BigInteger, uint>(first, len);
}
}
}

}
uint bits = AddressFamilyBits(family); /* split on numbers returns host length, CIDR takes network length */
foreach (Tuple<BigInteger, uint> slice in split(IPToUnsigned(first), IPToUnsigned(last))) {
yield return new CIDR(IPFromUnsigned(slice.Item1, family), bits - slice.Item2);
}
}
}
}
``````
-