Ipnetwork Save
IPNetwork command line and C# library take care of complex network, IP, IPv4, IPv6, netmask, CIDR, subnet, subnetting, supernet, and supernetting calculation for .NET developers. It works with IPv4 as well as IPv6, is written in C#, has a light and clean API, and is fully unit-tested
Project README
IPNetwork
IPNetwork command line and C# library take care of complex network, IP, IPv4, IPv6, netmask, CIDR, subnet, subnetting, supernet, and supernetting calculation for .NET developers. It works with IPv4 as well as IPv6, is written in C#, has a light and clean API, and is fully unit-tested.
IPNetwork utility classes for .Net
IPNetwork utility classes take care of complex network, IP, IPv4, IPv6, netmask, CIDR, subnet, subnetting, supernet, and supernetting calculation for .NET developers. It works with IPv4 as well as IPv6, is written in C#, has a light and clean API, and is fully unit-tested with 100% code coverage.
Installation
PM> nuget install IPNetwork2
Example 1 (IPv6)
IPNetwork2 ipnetwork = IPNetwork2.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);
Output
Network : 2001:db8::
Netmask : ffff:ffff:ffff:ffff::
Broadcast :
FirstUsable : 2001:db8::
LastUsable : 2001:db8::ffff:ffff:ffff:ffff
Usable : 18446744073709551616
Cidr : 64
Example 2 (IPv6)
IPNetwork2 ipnetwork = IPNetwork2.Parse("2001:0db8::/64");
IPAddress ipaddress = IPAddress.Parse("2001:0db8::1");
IPAddress ipaddress2 = IPAddress.Parse("2001:0db9::1");
IPNetwork2 ipnetwork2 = IPNetwork2.Parse("2001:0db8::1/128");
IPNetwork2 ipnetwork3 = IPNetwork2.Parse("2001:0db9::1/64");
bool contains1 = ipnetwork.Contains(ipaddress);
bool contains2 = ipnetwork.Contains(ipaddress2);
bool contains3 = ipnetwork.Contains(ipnetwork2);
bool contains4 = ipnetwork.Contains(ipnetwork3);
bool overlap1 = ipnetwork.Overlap(ipnetwork2);
bool overlap2 = ipnetwork.Overlap(ipnetwork3);
Console.WriteLine("{0} contains {1} : {2}", ipnetwork, ipaddress, contains1);
Console.WriteLine("{0} contains {1} : {2}", ipnetwork, ipaddress2, contains2);
Console.WriteLine("{0} contains {1} : {2}", ipnetwork, ipnetwork2, contains3);
Console.WriteLine("{0} contains {1} : {2}", ipnetwork, ipnetwork3, contains4);
Console.WriteLine("{0} overlap {1} : {2}", ipnetwork, ipnetwork2, overlap1);
Console.WriteLine("{0} overlap {1} : {2}", ipnetwork, ipnetwork3, overlap2);
Output
2001:db8::/64 contains 2001:db8::1 : True
2001:db8::/64 contains 2001:db9::1 : False
2001:db8::/64 contains 2001:db8::1/128 : True
2001:db8::/64 contains 2001:db9::/64 : False
2001:db8::/64 overlap 2001:db8::1/128 : True
2001:db8::/64 overlap 2001:db9::/64 : False
Example 3 (IPv6)
IPNetwork2 wholeInternet = IPNetwork2.Parse("::/0");
byte newCidr = 2;
IPNetworkCollection subneted = wholeInternet.Subnet(newCidr);
Console.WriteLine("{0} was subnetted into {1} subnets", wholeInternet, subneted.Count);
Console.WriteLine("First: {0}", subneted[0]);
Console.WriteLine("Last : {0}", subneted[subneted.Count - 1]);
Console.WriteLine("All :");
foreach (IPNetwork2 ipnetwork in subneted) {
Console.WriteLine("{0}", ipnetwork);
}
Output
::/0 was subnetted into 4 subnets
First: ::/2
Last : c000::/2
All :
::/2
4000::/2
8000::/2
c000::/2
Example 4 (IPv6)
IPNetwork2 ipnetwork1 = IPNetwork2.Parse("2001:0db8::/32");
IPNetwork2 ipnetwork2 = IPNetwork2.Parse("2001:0db9::/32");
IPNetwork2[] ipnetwork3 = IPNetwork2.Supernet(new[] { ipnetwork1, ipnetwork2 });
Console.WriteLine("{0} + {1} = {2}", ipnetwork1, ipnetwork2, ipnetwork3[0]);
Output
2001:db8::/32 + 2001:db9::/32 = 2001:db8::/31
Example 5
IPNetwork2 ipnetwork = IPNetwork2.Parse("192.168.168.100/24");
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);
Output
Network : 192.168.168.0
Netmask : 255.255.255.0
Broadcast : 192.168.168.255
FirstUsable : 192.168.168.1
LastUsable : 192.168.168.254
Usable : 254
Cidr : 24
Example 6
IPNetwork2 ipnetwork = IPNetwork2.Parse("192.168.0.0/24");
IPAddress ipaddress = IPAddress.Parse("192.168.0.100");
IPAddress ipaddress2 = IPAddress.Parse("192.168.1.100");
IPNetwork2 ipnetwork2 = IPNetwork2.Parse("192.168.0.128/25");
IPNetwork2 ipnetwork3 = IPNetwork2.Parse("192.168.1.1/24");
bool contains1 = ipnetwork.Contains(ipaddress);
bool contains2 = ipnetwork.Contains(ipaddress2);
bool contains3 = ipnetwork.Contains(ipnetwork2);
bool contains4 = ipnetwork.Contains(ipnetwork3);
bool overlap1 = ipnetwork.Overlap(ipnetwork2);
bool overlap2 = ipnetwork.Overlap(ipnetwork3);
Console.WriteLine("{0} contains {1} : {2}", ipnetwork, ipaddress, contains1);
Console.WriteLine("{0} contains {1} : {2}", ipnetwork, ipaddress2, contains2);
Console.WriteLine("{0} contains {1} : {2}", ipnetwork, ipnetwork2, contains3);
Console.WriteLine("{0} contains {1} : {2}", ipnetwork, ipnetwork3, contains4);
Console.WriteLine("{0} overlap {1} : {2}", ipnetwork, ipnetwork2, overlap1);
Console.WriteLine("{0} overlap {1} : {2}", ipnetwork, ipnetwork3, overlap2); A
Output
192.168.0.0/24 contains 192.168.0.100 : True
192.168.0.0/24 contains 192.168.1.100 : False
192.168.0.0/24 contains 192.168.0.128/25 : True
192.168.0.0/24 contains 192.168.1.0/24 : False
192.168.0.0/24 overlap 192.168.0.128/25 : True
192.168.0.0/24 overlap 192.168.1.0/24 : False
Example 7
IPNetwork2 iana_a_block = IPNetwork2.IANA_ABLK_RESERVED1;
IPNetwork2 iana_b_block = IPNetwork2.IANA_BBLK_RESERVED1;
IPNetwork2 iana_c_block = IPNetwork2.IANA_CBLK_RESERVED1;
Console.WriteLine("IANA_ABLK_RESERVED1 is {0}", iana_a_block);
Console.WriteLine("IANA_BBLK_RESERVED1 is {0}", iana_b_block);
Console.WriteLine("IANA_CBLK_RESERVED1 is {0}", iana_c_block);
Output
IANA_ABLK_RESERVED1 is 10.0.0.0/8
IANA_BBLK_RESERVED1 is 172.16.0.0/12
IANA_CBLK_RESERVED1 is 192.168.0.0/16
Example 8
IPNetwork2 wholeInternet = IPNetwork2.Parse("0.0.0.0/0");
byte newCidr = 2;
IPNetworkCollection subneted = wholeInternet.Subnet(newCidr);
Console.WriteLine("{0} was subnetted into {1} subnets", wholeInternet, subneted.Count);
Console.WriteLine("First: {0}", subneted[0]);
Console.WriteLine("Last : {0}", subneted[subneted.Count - 1]);
Console.WriteLine("All :");
foreach (IPNetwork2 ipnetwork in subneted)
{
Console.WriteLine("{0}", ipnetwork);
}
Output
0.0.0.0/0 was subnetted into 4 subnets
First: 0.0.0.0/2
Last : 192.0.0.0/2
All :
0.0.0.0/2
64.0.0.0/2
128.0.0.0/2
192.0.0.0/2
Example 9
IPNetwork2 ipnetwork1 = IPNetwork2.Parse("192.168.0.0/24");
IPNetwork2 ipnetwork2 = IPNetwork2.Parse("192.168.1.0/24");
IPNetwork2[] ipnetwork3 = IPNetwork2.Supernet(new[]{ipnetwork1, ipnetwork2});
Console.WriteLine("{0} + {1} = {2}", ipnetwork1, ipnetwork2, ipnetwork3[0]);
Output
192.168.0.0/24 + 192.168.1.0/24 = 192.168.0.0/23
Example 10 - ClassLess network parse
If you don't specify the network cidr, IPNetwork will try to guess the CIDR for you. There are two strategies to guess ClassFull (default) and ClassLess.
ClassFull (default strategy)
is based on the default Class A, B or C networks. IPV4 :
- Class A: 0 - 127 with a mask of 255.0.0.0 (/8)
- Class B: 128 - 191 with a mask of 255.255.0.0 (/16)
- Class C: 192 - 223 with a mask of 255.255.255.0 (/24)
IPV6 : /64
ClassLess
IPV4 : /32 IPV6 : /128
IPv4
IPNetwork2 defaultParse= IPNetwork2.Parse("192.168.0.0"); // default to ClassFull
IPNetwork2 classFullParse = IPNetwork2.Parse("192.168.0.0", CidrGuess.ClassFull);
IPNetwork2 classLessParse = IPNetwork2.Parse("192.168.0.0", CidrGuess.ClassLess);
Console.WriteLine("IPV4 Default Parse : {0}", defaultStrategy);
Console.WriteLine("IPV4 ClassFull Parse : {0}", classFullParse);
Console.WriteLine("IPV4 ClassLess Parse : {0}", classLessParse);
Output
IPV4 Default Parse : 192.168.0.0/24
IPV4 ClassFull Parse : 192.168.0.0/24
IPV4 ClassLess Parse : 192.168.0.0/32
IPv6
IPNetwork2 defaultParse = IPNetwork2.Parse("::1"); // default to ClassFull
IPNetwork2 classFullParse = IPNetwork2.Parse("::1", CidrGuess.ClassFull);
IPNetwork2 classLessParse = IPNetwork2.Parse("::1", CidrGuess.ClassLess);
Console.WriteLine("IPV6 Default Parse : {0}", defaultParse);
Console.WriteLine("IPV6 ClassFull Parse : {0}", classFullParse);
Console.WriteLine("IPV6 ClassLess Parse : {0}", classLessParse);
Output
IPV6 Default Parse : ::/64
IPV6 ClassFull Parse : ::/64
IPV6 ClassLess Parse : ::1/128
IPNetwork utility command line
IPNetwork utility command line take care of complex network, ip, netmask, subnet, cidr calculation for command line. It works with IPv4, it is written in C# and has a light and clean API and is fully unit tested.
Below some examples :
Provide at least one ipnetwork
Usage: ipnetwork [-inmcbflu] [-d cidr|-D] [-h|-s cidr|-S|-w|-W|-x|-C network|-o network] networks ...
Version: 3.0.0.0
Print options
-i : network
-n : network address
-m : netmask
-c : cidr
-b : broadcast
-f : first usable ip address
-l : last usable ip address
-u : number of usable ip addresses
-t : total number of ip addresses
Parse options
-d cidr : use cidr if not provided (default /32)
-D : IPv4 only - use default cidr (ClassA/8, ClassB/16, ClassC/24)
Actions
-h : help message
-s cidr : split network into cidr subnets
-w : supernet networks into smallest possible subnets
-W : supernet networks into one single subnet
-x : list all ipadresses in networks
-C network : network contain networks
-o network : network overlap networks
-S network : substract network from subnet
networks : one or more network addresses
(1.2.3.4 10.0.0.0/8 10.0.0.0/255.0.0.0 2001:db8::/32 2001:db8:1:2:3:4:5:6/128 )
Example 10
Display ipnetwork informations :
c:\> ipnetwork 10.0.0.0/8
IPNetwork : 10.0.0.0/8
Network : 10.0.0.0
Netmask : 255.0.0.0
Cidr : 8
Broadcast : 10.255.255.255
FirstUsable : 10.0.0.1
LastUsable : 10.255.255.254
Usable : 16777214
Example 11
Split network into cidr
c:\> ipnetwork -s 9 10.0.0.0/8
IPNetwork : 10.0.0.0/9
Network : 10.0.0.0
Netmask : 255.128.0.0
Cidr : 9
Broadcast : 10.127.255.255
FirstUsable : 10.0.0.1
LastUsable : 10.127.255.254
Usable : 8388606
--
IPNetwork : 10.128.0.0/9
Network : 10.128.0.0
Netmask : 255.128.0.0
Cidr : 9
Broadcast : 10.255.255.255
FirstUsable : 10.128.0.1
LastUsable : 10.255.255.254
Usable : 8388606
Example 12
supernet networks into smallest possible subnets
C:\>ipnetwork -w 192.168.0.0/24 192.168.1.0/24
IPNetwork : 192.168.0.0/23
Network : 192.168.0.0
Netmask : 255.255.254.0
Cidr : 23
Broadcast : 192.168.1.255
FirstUsable : 192.168.0.1
LastUsable : 192.168.1.254
Usable : 510
Example 13
supernet networks into smallest possible subnets
c:\> ipnetwork -w 192.168.0.0/24 192.168.2.0/24
IPNetwork : 192.168.0.0/24
Network : 192.168.0.0
Netmask : 255.255.255.0
Cidr : 24
Broadcast : 192.168.0.255
FirstUsable : 192.168.0.1
LastUsable : 192.168.0.254
Usable : 254
--
IPNetwork : 192.168.2.0/24
Network : 192.168.2.0
Netmask : 255.255.255.0
Cidr : 24
Broadcast : 192.168.2.255
FirstUsable : 192.168.2.1
LastUsable : 192.168.2.254
Usable : 254
Example 14
supernet networks into smallest possible subnets
C:\>ipnetwork -W 192.168.0.0/24 192.168.129.0/24
IPNetwork : 192.168.0.0/16
Network : 192.168.0.0
Netmask : 255.255.0.0
Cidr : 16
Broadcast : 192.168.255.255
FirstUsable : 192.168.0.1
LastUsable : 192.168.255.254
Usable : 65534
Example 15
Split network into cidr, display full network only
C:\>ipnetwork -i -s 12 10.0.0.0/8 | grep -v \-\-
IPNetwork : 10.0.0.0/12
IPNetwork : 10.16.0.0/12
IPNetwork : 10.32.0.0/12
IPNetwork : 10.48.0.0/12
IPNetwork : 10.64.0.0/12
IPNetwork : 10.80.0.0/12
IPNetwork : 10.96.0.0/12
IPNetwork : 10.112.0.0/12
IPNetwork : 10.128.0.0/12
IPNetwork : 10.144.0.0/12
IPNetwork : 10.160.0.0/12
IPNetwork : 10.176.0.0/12
IPNetwork : 10.192.0.0/12
IPNetwork : 10.208.0.0/12
IPNetwork : 10.224.0.0/12
IPNetwork : 10.240.0.0/12
Example 16
Test if an ip is contained in a network
C:\>ipnetwork -C 10.0.0.1 10.0.0.0/8 10.0.1.0/24
10.0.0.1/32 contains 10.0.0.0/8 : False
10.0.0.1/32 contains 10.0.1.0/24 : False
Example 17
Test if a network overlap another network
C:\>ipnetwork -o 10.0.0.1/24 10.0.0.0/8 10.0.1.0/24
10.0.0.0/24 overlaps 10.0.0.0/8 : True
10.0.0.0/24 overlaps 10.0.1.0/24 : False
Example 18
remove one ip from a class and regroup them into the smallest possible network
C:\> ipnetwork -i -s 32 192.168.0.0/24 \
| grep -v \-\- \
| awk "{print $3;}" \
| grep -v 192.168.0.213/32 \
| xargs ipnetwork -i -w \
| grep -v \-\-
IPNetwork : 192.168.0.224/27
IPNetwork : 192.168.0.216/29
IPNetwork : 192.168.0.214/31
IPNetwork : 192.168.0.212/32
IPNetwork : 192.168.0.208/30
IPNetwork : 192.168.0.192/28
IPNetwork : 192.168.0.128/26
IPNetwork : 192.168.0.0/25
Example 18 (IPv6)
IPv6 networks
C:\> ipnetwork.exe 2001:0db8::/128
IPNetwork : 2001:db8::/128
Network : 2001:db8::
Netmask : ffff:ffff:ffff:ffff:ffff:ffff:ffff:ffff
Cidr : 128
Broadcast : 2001:db8::
FirstUsable : 2001:db8::
LastUsable : 2001:db8::
Usable : 0
Total : 1
Have fun !
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Open Source Agenda is not affiliated with "Ipnetwork" Project. README Source: lduchosal/ipnetwork
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