273 lines
7.7 KiB
C#
273 lines
7.7 KiB
C#
using System;
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using System.Collections.Generic;
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using System.Linq;
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using System.Text;
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using System.Threading.Tasks;
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using System.Globalization;
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using System.Xml;
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using System.Windows.Forms;
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namespace EduNetworkBuilder
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{
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[Serializable]
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public class IPAddress
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{
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private UInt32 _ip;
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private UInt32 _mask;
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private UInt32 _gw;
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private IPAddressType myType;
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public IPAddress(string ip, string mask, IPAddressType WhatType)
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{
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myType = WhatType;
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_ip = ip.ParseIp();
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_mask = mask.ParseIp();
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}
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public IPAddress(string ip, string mask, string gw)
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{
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myType = IPAddressType.route;
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_ip = ip.ParseIp();
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_mask = mask.ParseIp();
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_gw = gw.ParseIp();
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}
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public IPAddress(XmlNode theNode)
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{
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foreach (XmlNode Individual in theNode.ChildNodes)
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{
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XmlNodeType myNodetype = Individual.NodeType;
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if (myNodetype == XmlNodeType.Element)
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{
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switch (Individual.Name.ToLower())
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{
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case "ip":
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_ip = Individual.InnerText.ParseIp();
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break;
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case "mask":
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_mask = Individual.InnerText.ParseIp();
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break;
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case "gateway":
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_gw = Individual.InnerText.ParseIp();
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break;
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case "type":
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myType = NB.ParseEnum<IPAddressType>(Individual.InnerText);
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break;
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}
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}
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}
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}
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public void Save(XmlWriter writer, string tag)
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{
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writer.WriteStartElement(tag);
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writer.WriteElementString("ip", _ip.ToIpString());
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writer.WriteElementString("mask", _mask.ToIpString());
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writer.WriteElementString("gateway", _gw.ToIpString());
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writer.WriteElementString("type", myType.ToString());
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writer.WriteEndElement();
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}
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public void Reparse(string ip, string mask, string gw)
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{
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_ip = ip.ParseIp();
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_mask = mask.ParseIp();
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_gw = gw.ParseIp();
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}
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public void Reparse(string ip, string mask)
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{
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_ip = ip.ParseIp();
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_mask = mask.ParseIp();
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}
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public IPAddressType GetAddressType
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{
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get { return myType; }
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}
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public bool IsLocal(IPAddress dest)
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{
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if (dest == null) return false;
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UInt32 answer = dest.GetIP & _mask;
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if ((dest.GetIP & _mask) == NetworkAddress)
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return true;
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return false;
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}
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public bool Edit(NetworkDevice FromWhat, string message="")
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{
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IPAddressEntry IPe = new IPAddressEntry(this, FromWhat);
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if (message != "")
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IPe.Text = message;
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return IPe.Edit();
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}
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public bool Edit(NetworkDevice FromWhat, IPAddress DHCPif)
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{
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IPAddressEntry IPe = new IPAddressEntry(this, FromWhat);
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return IPe.Edit(FromWhat, DHCPif);
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}
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public IPAddress(string ip)
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{
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myType = IPAddressType.ip;
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_ip = ip.ParseIp();
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var mySplitVal = ip.Split('/');
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if (mySplitVal.Count() < 2)
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{
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//We do not have a cidr. We need to guess
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//For now, use 255.255.255.0
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_mask = "255.255.255.0".ParseIp();
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mySplitVal = ip.Split('.');
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if(mySplitVal.Count() > 0)
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{
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//If it is not one of these three, we already use 255.255.255.0
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if(mySplitVal[0] == "10")
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{
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_mask = "255.0.0.0".ParseIp();
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}
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if (mySplitVal[0] == "172")
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{
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_mask = "255.255.0.0".ParseIp();
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}
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if (mySplitVal[0] == "192")
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{
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_mask = "255.255.255.0".ParseIp();
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}
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}
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}
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else
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{
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UInt32 tInt = 0;
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int cdr;
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int.TryParse(mySplitVal[1], out cdr);
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for (int loop = 0; loop < 32; loop++)
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{
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tInt = (tInt << 1);
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if (loop < cdr) tInt++;
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}
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_mask = tInt;
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}
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}
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public bool Equals(UInt32 IP)
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{
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return IP == _ip;
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}
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public bool Equals(UInt32 IP, UInt32 mask)
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{
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return (IP == _ip && mask == _mask);
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}
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public UInt32 NumberOfHosts
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{
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get { return ~_mask + 1; }
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}
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public UInt32 GetIP
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{
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get { return _ip; }
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}
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public string GetIPString
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{
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get { return _ip.ToIpString(); }
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}
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public string GetBroadcastString
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{
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get { return BroadcastAddress.ToIpString(); }
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}
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public string GetMaskString
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{
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get { return _mask.ToIpString(); }
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}
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public UInt32 GetMask
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{
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get { return _mask; }
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}
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public UInt32 GetGateway
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{
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get { return _gw; }
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}
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public UInt32 NetworkAddress
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{
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get { return _ip & _mask; }
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}
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public UInt32 BroadcastAddress
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{
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get { return NetworkAddress + ~_mask; }
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}
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public IEnumerable<UInt32> Hosts()
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{
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for (var host = NetworkAddress + 1; host < BroadcastAddress; host++)
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{
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yield return host;
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}
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}
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public string IPFormat()
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{
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return IPFormat(_gw.ToIpString());
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}
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public string PadIt(string Addr)
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{
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string myaddr = Addr.PadRight(12);
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return myaddr;
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}
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public string IPFormat(string gw)
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{
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string tstring = string.Format(NB.Translate("IPA_IPFormatStr"),
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PadIt(_ip.ToIpString()), PadIt(_mask.ToIpString()), PadIt(gw));
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return tstring;
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}
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}
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public static class IpHelpers
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{
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public static string ToIpString(this UInt32 value)
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{
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var bitmask = 0xff000000;
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var parts = new string[4];
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for (var i = 0; i < 4; i++)
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{
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var masked = (value & bitmask) >> ((3 - i) * 8);
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bitmask >>= 8;
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parts[i] = masked.ToString(CultureInfo.InvariantCulture);
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}
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return String.Join(".", parts);
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}
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public static string ToBitString(this UInt32 value)
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{
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var item = System.Convert.ToString(value, 2);
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return (string)item;
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}
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public static UInt32 ParseIp(this string ipAddress)
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{
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var gw = ipAddress.Split('/'); //Pull off any cdr
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var mySplitVal = gw[0].Split('.');
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if (mySplitVal.Count() != 4)
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return 0;
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UInt32 ip = 0;
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uint part;
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if (mySplitVal.Count() == 4)
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{
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for (var i = 0; i < 4; i++)
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{
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part = 0;
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UInt32.TryParse(mySplitVal[i], out part);
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ip = (ip << 8) + part;
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}
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}
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return ip;
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}
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}
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} |