/// <summary>
/// Occures when Appearance-Mode Notation was changed
/// </summary>
/// <param name="arg_Value">Value, Input IP-Address notation</param>
protected virtual void OnNotationChanged(IPNotation arg_Value)
{
if (this.NotationChanged != null)
this.NotationChanged(arg_Value);
}
/// <summary>
/// Checks if the given String is an valid ip-address
/// </summary>
/// <param name="arg_sIP">IP-String</param>
/// <param name="arg_ipNotation">IP-notation</param>
/// <param name="arg_arlDelimeter">Delimeter to parse IPString</param>
/// <returns>true/false validated/not</returns>
protected static bool ValidateIP(string arg_sIP, IPNotation arg_ipNotation, ArrayList arg_arlDelimeter)
{
bool bValidated = false;
ArrayList arlIP = new ArrayList(arg_sIP.Split((char[])arg_arlDelimeter.ToArray(typeof(char))));
try
{
switch (arg_ipNotation)
{
case IPNotation.IPv4Decimal:
case IPNotation.IPv4Binary:
bValidated = arlIP.Count == 4;
break;
case IPNotation.IPv4DecimalCIDR:
case IPNotation.IPv4BinaryCIDR:
bValidated = arlIP.Count == 5;
break;
case IPNotation.IPv6Hexadecimal:
case IPNotation.IPv6Binary:
bValidated = arlIP.Count == 8;
break;
case IPNotation.IPv6HexadecimalCIDR:
case IPNotation.IPv6BinaryCIDR:
bValidated = arlIP.Count == 9;
break;
case IPNotation.IPv6IPv4Decimal:
case IPNotation.IPv6IPv4Binary:
bValidated = arlIP.Count == 6;
break;
case IPNotation.IPv6IPv4DecimalCIDR:
case IPNotation.IPv6IPv4BinaryCIDR:
bValidated = arlIP.Count == 7;
break;
default:
break;
}
if (!bValidated)
{
throw new Exception("IP-Address has wrong element count");
}
//don't check the 1st 2 elemnt if its IPv4 in IPv6-notation
for (int i = (arg_ipNotation.ToString().IndexOf("IPv6IPv4") == 0 ? 2 : 0);
//don't check the subnet element
i < (arg_ipNotation.ToString().IndexOf("CIDR") > 0 ? arlIP.Count - 1 : arlIP.Count);
i++)
{
string sIPPart = arlIP[i].ToString().Replace(" ", "");
int iIPPart = 0;
switch (arg_ipNotation)
{
case IPNotation.IPv4Decimal:
case IPNotation.IPv4DecimalCIDR:
case IPNotation.IPv6IPv4Decimal:
case IPNotation.IPv6IPv4DecimalCIDR:
while (sIPPart.Length < 3)
sIPPart = "0" + sIPPart;
iIPPart = Convert.ToInt32(sIPPart, 10);
if (iIPPart < 256)
bValidated = true;
else
bValidated = false;
break;
case IPNotation.IPv4Binary:
case IPNotation.IPv4BinaryCIDR:
case IPNotation.IPv6IPv4Binary:
case IPNotation.IPv6IPv4BinaryCIDR:
while (sIPPart.Length < 8)
sIPPart = "0" + sIPPart;
iIPPart = Convert.ToInt32(sIPPart, 2);
if (iIPPart < 256)
bValidated = true;
else
bValidated = false;
break;
case IPNotation.IPv6Hexadecimal:
case IPNotation.IPv6HexadecimalCIDR:
while (sIPPart.Length < 4)
sIPPart = "0" + sIPPart;
iIPPart = Convert.ToInt32(sIPPart, 16);
if (iIPPart < 65536)
bValidated = true;
else
bValidated = false;
break;
case IPNotation.IPv6Binary:
case IPNotation.IPv6BinaryCIDR:
while (sIPPart.Length < 16)
sIPPart = "0" + sIPPart;
iIPPart = Convert.ToInt32(sIPPart, 2);
if (iIPPart < 65536)
bValidated = true;
else
bValidated = false;
break;
default:
break;
}
if (!bValidated)
{
throw new Exception(string.Format("IP-Address element {0}({1}) has wrong format", i, sIPPart));
}
}
}
catch (Exception LastError)
{
System.Diagnostics.Debug.WriteLine(LastError.Message);
bValidated = false;
throw LastError;
}
return bValidated;
}
/// <summary>
/// Creates IP-Addresstring from given StrignArray and Notation
/// </summary>
/// <param name="arg_sIP">String-Array with elements for IP-Address</param>
/// <param name="arg_ipNotation">Notation of IP-Address</param>
/// <returns>IPAddress-String</returns>
protected static string MakeIP(string[] arg_sIP, IPNotation arg_ipNotation)
{
string s = "";
for (int i = 0; i < arg_sIP.Length; i++)
{
switch (arg_ipNotation)
{
case IPNotation.IPv4Decimal:
case IPNotation.IPv4Binary:
s += (arg_sIP[i].Length > 0 ? arg_sIP[i] : "0") + (i < (arg_sIP.Length - 1) ? "." : "");
break;
case IPNotation.IPv4DecimalCIDR:
case IPNotation.IPv4BinaryCIDR:
s += (arg_sIP[i].Length > 0 ? arg_sIP[i] : "0") + (i < (arg_sIP.Length - 2) ? "." : (i < arg_sIP.Length - 1) ? "/" : "");
break;
case IPNotation.IPv6Hexadecimal:
case IPNotation.IPv6Binary:
s += arg_sIP[i] + (i < (arg_sIP.Length - 1) ? ":" : "");
break;
case IPNotation.IPv6HexadecimalCIDR:
case IPNotation.IPv6BinaryCIDR:
s += arg_sIP[i] + (i < (arg_sIP.Length - 2) ? ":" : (i < arg_sIP.Length - 1) ? "/" : "");
break;
case IPNotation.IPv6IPv4Decimal:
case IPNotation.IPv6IPv4Binary:
s += (i < 2 ? "" : (arg_sIP[i].Length > 0 ? arg_sIP[i] : "0")) + (i < (arg_sIP.Length - 1) ? (i < 2 ? ":" : ".") : "");
break;
case IPNotation.IPv6IPv4DecimalCIDR:
case IPNotation.IPv6IPv4BinaryCIDR:
s += (i < 2 ? "" : (arg_sIP[i].Length > 0 ? arg_sIP[i] : "0")) + (i < (arg_sIP.Length - 2) ? (i < 2 ? ":" : ".") : (i < arg_sIP.Length - 1) ? "/" : "");
break;
default:
break;
}
}
return s;
}
/// <summary>
/// Adds Zeroes to given IP-Address, so it fits in the textfield
/// </summary>
/// <param name="arg_sIP">IP-String</param>
/// <param name="arg_ipNotation">IP-notation</param>
/// <param name="arg_arlDelimeter">Delimeter to parse IPString</param>
/// <returns>IP-Address with Spaces</returns>
protected static string MakeValidZeroes(string arg_sIP, IPNotation arg_ipNotation, ArrayList arg_arlDelimeter)
{
ArrayList arlIP = new ArrayList(arg_sIP.Split((char[])arg_arlDelimeter.ToArray(typeof(char))));
//don't check the 1st 2 elemnt if its IPv4 in IPv6-notation
for (int i = (arg_ipNotation.ToString().IndexOf("IPv6IPv4") == 0 ? 2 : 0);
//don't check the subnet element
i < (arg_ipNotation.ToString().IndexOf("CIDR") > 0 ? arlIP.Count - 1 : arlIP.Count);
i++)
{
switch (arg_ipNotation)
{
case IPNotation.IPv4Decimal:
case IPNotation.IPv4DecimalCIDR:
case IPNotation.IPv6IPv4Decimal:
case IPNotation.IPv6IPv4DecimalCIDR:
while (arlIP[i].ToString().Length < 3)
arlIP[i] = "0" + arlIP[i].ToString();
break;
case IPNotation.IPv4Binary:
case IPNotation.IPv4BinaryCIDR:
case IPNotation.IPv6IPv4Binary:
case IPNotation.IPv6IPv4BinaryCIDR:
while (arlIP[i].ToString().Length < 8)
arlIP[i] = "0" + arlIP[i].ToString();
break;
case IPNotation.IPv6Hexadecimal:
case IPNotation.IPv6HexadecimalCIDR:
while (arlIP[i].ToString().Length < 4)
arlIP[i] = "0" + arlIP[i].ToString();
break;
case IPNotation.IPv6Binary:
case IPNotation.IPv6BinaryCIDR:
while (arlIP[i].ToString().Length < 16)
arlIP[i] = "0" + arlIP[i].ToString();
break;
default:
break;
}
}
return IPAddressTextBox.MakeIP((string[])arlIP.ToArray(typeof(string)), arg_ipNotation);
}
private void ChangeNotation(IPNotation arg_oldValue, IPNotation arg_newValue)
{
string sTo = "";
ArrayList arlFrom = new ArrayList(this.Text.Replace(" ", "").Split((char[])this.m_arlDelimeter.ToArray(typeof(char))));
switch (arg_newValue)
{
case IPNotation.IPv4Decimal:
this.m_regexValidNumbers = new Regex("[0-9]");
this.m_arlDelimeter = new ArrayList(new char[] { '.' });
break;
case IPNotation.IPv4DecimalCIDR:
this.m_regexValidNumbers = new Regex("[0-9]");
this.m_arlDelimeter = new ArrayList(new char[] { '.', '/' });
break;
case IPNotation.IPv4Binary:
this.m_regexValidNumbers = new Regex("[01]");
this.m_arlDelimeter = new ArrayList(new char[] { '.' });
break;
case IPNotation.IPv4BinaryCIDR:
this.m_regexValidNumbers = new Regex("[01]");
this.m_arlDelimeter = new ArrayList(new char[] { '.', '/' });
break;
case IPNotation.IPv6Hexadecimal:
this.m_regexValidNumbers = new Regex("[0-9a-fA-F]");
this.m_arlDelimeter = new ArrayList(new char[] { ':' });
break;
case IPNotation.IPv6HexadecimalCIDR:
this.m_regexValidNumbers = new Regex("[0-9a-fA-F]");
this.m_arlDelimeter = new ArrayList(new char[] { ':', '/' });
break;
case IPNotation.IPv6Binary:
this.m_regexValidNumbers = new Regex("[01]");
this.m_arlDelimeter = new ArrayList(new char[] { ':' });
break;
case IPNotation.IPv6BinaryCIDR:
this.m_regexValidNumbers = new Regex("[01]");
this.m_arlDelimeter = new ArrayList(new char[] { ':', '/' });
break;
case IPNotation.IPv6IPv4Decimal:
this.m_regexValidNumbers = new Regex("[0-9]");
this.m_arlDelimeter = new ArrayList(new char[] { ':', '.' });
break;
case IPNotation.IPv6IPv4DecimalCIDR:
this.m_regexValidNumbers = new Regex("[0-9]");
this.m_arlDelimeter = new ArrayList(new char[] { ':', '.', '/' });
break;
case IPNotation.IPv6IPv4Binary:
this.m_regexValidNumbers = new Regex("[01]");
this.m_arlDelimeter = new ArrayList(new char[] { ':', '.' });
break;
case IPNotation.IPv6IPv4BinaryCIDR:
this.m_regexValidNumbers = new Regex("[01]");
this.m_arlDelimeter = new ArrayList(new char[] { ':', '.', '/' });
break;
default:
break;
}
switch (arg_oldValue)
{
case IPNotation.IPv4Decimal:
switch (arg_newValue)
{
case IPNotation.IPv4Decimal:
break;
case IPNotation.IPv4DecimalCIDR:
for (int i = 0; i < arlFrom.Count; i++)
{
sTo += arlFrom[i].ToString() +
//Add Slash if its the last IPPart, els add a dot
(i == arlFrom.Count - 1 ? "/ " : ".");
}
break;
case IPNotation.IPv4Binary:
for (int i = 0; i < arlFrom.Count; i++)
{
//Convert Decimal to Binary
sTo += this.Dec2Bin(arlFrom[i].ToString()) +
//Add Dot if its not the last IPPart, else add nothing
(i == arlFrom.Count - 1 ? "" : ".");
}
break;
case IPNotation.IPv4BinaryCIDR:
for (int i = 0; i < arlFrom.Count; i++)
{
//Convert Decimal to Binary
sTo += this.Dec2Bin(arlFrom[i].ToString()) +
//Add Slash if its the last IPPart, else add a dot
(i == arlFrom.Count - 1 ? "/ " : ".");
}
break;
case IPNotation.IPv6Hexadecimal:
sTo = "0000:0000:0000:0000:";
for (int i = 0; i < arlFrom.Count; i++)
{
sTo += this.Dec2Hex(arlFrom[i].ToString()) + (i == arlFrom.Count - 1 ? "" : ":");
}
break;
case IPNotation.IPv6HexadecimalCIDR:
sTo = "0000:0000:0000:0000:";
for (int i = 0; i < arlFrom.Count; i++)
{
sTo += this.Dec2Hex(arlFrom[i].ToString()) + (i == arlFrom.Count - 1 ? "/ " : ":");
}
break;
case IPNotation.IPv6Binary:
sTo = "0000000000000000:0000000000000000:0000000000000000:0000000000000000:";
for (int i = 0; i < arlFrom.Count; i++)
{
sTo += this.Dec2Bin(arlFrom[i].ToString(), true) + (i == arlFrom.Count - 1 ? "" : ":");
}
break;
case IPNotation.IPv6BinaryCIDR:
sTo = "0000000000000000:0000000000000000:0000000000000000:0000000000000000:";
for (int i = 0; i < arlFrom.Count; i++)
{
sTo += this.Dec2Bin(arlFrom[i].ToString(), true) + (i == arlFrom.Count - 1 ? "/ " : ":");
}
break;
case IPNotation.IPv6IPv4Decimal:
sTo = "::";
for (int i = 0; i < arlFrom.Count; i++)
{
sTo += arlFrom[i].ToString() + (i == arlFrom.Count - 1 ? "" : ".");
}
break;
case IPNotation.IPv6IPv4DecimalCIDR:
sTo = "::";
for (int i = 0; i < arlFrom.Count; i++)
{
sTo += arlFrom[i].ToString() + (i == arlFrom.Count - 1 ? "/ " : ".");
}
break;
case IPNotation.IPv6IPv4Binary:
sTo = "::";
for (int i = 0; i < arlFrom.Count; i++)
{
sTo += this.Dec2Bin(arlFrom[i].ToString()) + (i == arlFrom.Count - 1 ? "" : ".");
}
break;
case IPNotation.IPv6IPv4BinaryCIDR:
sTo = "::";
for (int i = 0; i < arlFrom.Count; i++)
{
sTo += this.Dec2Bin(arlFrom[i].ToString()) + (i == arlFrom.Count - 1 ? "/ " : ".");
}
break;
default:
break;
}
break;
case IPNotation.IPv4DecimalCIDR:
switch (arg_newValue)
{
case IPNotation.IPv4Decimal:
//do not use the last Item, its the Subnetmask
for (int i = 0; i < arlFrom.Count - 1; i++)
{
sTo += arlFrom[i].ToString() +
//Add Dot if its not the last IPPart, else add nothing
(i == arlFrom.Count - 2 ? "" : ".");
}
break;
case IPNotation.IPv4DecimalCIDR:
break;
case IPNotation.IPv4Binary:
//do not use the last Item, its the Subnetmask
for (int i = 0; i < arlFrom.Count - 1; i++)
{
//Convert Decimal to Binary
sTo += this.Dec2Bin(arlFrom[i].ToString()) +
//Add Dot if its not the last IPPart, else add nothing
(i == arlFrom.Count - 2 ? "" : ".");
}
break;
case IPNotation.IPv4BinaryCIDR:
//do not use the last Item, its the Subnetmask
for (int i = 0; i < arlFrom.Count - 1; i++)
{
//Convert Decimal to Binary
sTo += this.Dec2Bin(arlFrom[i].ToString()) +
//Add Dot if its not the last IPPart, else add nothing
(i == arlFrom.Count - 2 ? "" : ".");
}
//Add Subnetmask
sTo += "/" + arlFrom[arlFrom.Count - 1];
break;
case IPNotation.IPv6Hexadecimal:
sTo = "0000:0000:0000:0000:";
for (int i = 0; i < arlFrom.Count - 1; i++)
{
sTo += this.Dec2Hex(arlFrom[i].ToString()) + (i == arlFrom.Count - 2 ? "" : ":");
}
break;
case IPNotation.IPv6HexadecimalCIDR:
sTo = "0000:0000:0000:0000:";
for (int i = 0; i < arlFrom.Count - 1; i++)
{
sTo += this.Dec2Hex(arlFrom[i].ToString()) + (i == arlFrom.Count - 2 ? "" : ":");
}
sTo += "/" + arlFrom[arlFrom.Count - 1];
break;
case IPNotation.IPv6Binary:
sTo = "0000000000000000:0000000000000000:0000000000000000:0000000000000000:";
for (int i = 0; i < arlFrom.Count - 1; i++)
{
sTo += this.Dec2Bin(arlFrom[i].ToString(), true) + (i == arlFrom.Count - 2 ? "" : ":");
}
break;
case IPNotation.IPv6BinaryCIDR:
sTo = "0000000000000000:0000000000000000:0000000000000000:0000000000000000:";
for (int i = 0; i < arlFrom.Count - 1; i++)
{
sTo += this.Dec2Bin(arlFrom[i].ToString(), true) + (i == arlFrom.Count - 2 ? "" : ":");
}
sTo += "/" + arlFrom[arlFrom.Count - 1];
break;
case IPNotation.IPv6IPv4Decimal:
sTo = "::";
for (int i = 0; i < arlFrom.Count - 1; i++)
{
sTo += arlFrom[i].ToString() + (i == arlFrom.Count - 2 ? "" : ".");
}
break;
case IPNotation.IPv6IPv4DecimalCIDR:
sTo = "::";
for (int i = 0; i < arlFrom.Count - 1; i++)
{
sTo += arlFrom[i].ToString() + (i == arlFrom.Count - 2 ? "" : ".");
}
sTo += "/" + arlFrom[arlFrom.Count - 1];
break;
case IPNotation.IPv6IPv4Binary:
sTo = "::";
for (int i = 0; i < arlFrom.Count - 1; i++)
{
sTo += this.Dec2Bin(arlFrom[i].ToString()) + (i == arlFrom.Count - 2 ? "" : ".");
}
break;
case IPNotation.IPv6IPv4BinaryCIDR:
sTo = "::";
for (int i = 0; i < arlFrom.Count - 1; i++)
{
sTo += this.Dec2Bin(arlFrom[i].ToString()) + (i == arlFrom.Count - 2 ? "" : ".");
}
sTo += "/" + arlFrom[arlFrom.Count - 1];
break;
default:
break;
}
break;
case IPNotation.IPv4Binary:
switch (arg_newValue)
{
case IPNotation.IPv4Decimal:
for (int i = 0; i < arlFrom.Count; i++)
{
//Convert Binary to Decimal
sTo += this.Bin2Dec(arlFrom[i].ToString()) +
//Add Dot if its not the last IPPart, else add nothing
(i == arlFrom.Count - 1 ? "" : ".");
}
break;
case IPNotation.IPv4DecimalCIDR:
for (int i = 0; i < arlFrom.Count; i++)
{
//Convert Binary to Decimal
sTo += this.Bin2Dec(arlFrom[i].ToString()) +
//Add Slash if its the last IPPart, els add a dot
(i == arlFrom.Count - 1 ? "/ " : ".");
}
break;
case IPNotation.IPv4Binary:
break;
case IPNotation.IPv4BinaryCIDR:
for (int i = 0; i < arlFrom.Count; i++)
{
sTo += arlFrom[i].ToString() +
//Add Slash if its the last IPPart, else add a dot
(i == arlFrom.Count - 1 ? "/ " : ".");
}
break;
case IPNotation.IPv6Hexadecimal:
sTo = "0000:0000:0000:0000:";
for (int i = 0; i < arlFrom.Count; i++)
{
sTo += this.Bin2Hex(arlFrom[i].ToString()) + (i == arlFrom.Count - 1 ? "" : ":");
}
break;
case IPNotation.IPv6HexadecimalCIDR:
sTo = "0000:0000:0000:0000:";
for (int i = 0; i < arlFrom.Count; i++)
{
sTo += this.Bin2Hex(arlFrom[i].ToString()) + (i == arlFrom.Count - 1 ? "/ " : ":");
}
break;
case IPNotation.IPv6Binary:
sTo = "0000000000000000:0000000000000000:0000000000000000:0000000000000000:";
for (int i = 0; i < arlFrom.Count; i++)
{
sTo += "00000000" + arlFrom[i].ToString() + (i == arlFrom.Count - 1 ? "" : ":");
}
break;
case IPNotation.IPv6BinaryCIDR:
sTo = "0000000000000000:0000000000000000:0000000000000000:0000000000000000:";
for (int i = 0; i < arlFrom.Count; i++)
{
sTo += "00000000" + arlFrom[i].ToString() + (i == arlFrom.Count - 1 ? "/ " : ":");
}
break;
case IPNotation.IPv6IPv4Decimal:
sTo = "::";
for (int i = 0; i < arlFrom.Count; i++)
{
sTo += this.Bin2Dec(arlFrom[i].ToString()) + (i == arlFrom.Count - 1 ? "" : ".");
}
break;
case IPNotation.IPv6IPv4DecimalCIDR:
sTo = "::";
for (int i = 0; i < arlFrom.Count; i++)
{
sTo += this.Bin2Dec(arlFrom[i].ToString()) + (i == arlFrom.Count - 1 ? "/ " : ".");
}
break;
case IPNotation.IPv6IPv4Binary:
sTo = "::";
for (int i = 0; i < arlFrom.Count; i++)
{
sTo += arlFrom[i].ToString() + (i == arlFrom.Count - 1 ? "" : ".");
}
break;
case IPNotation.IPv6IPv4BinaryCIDR:
sTo = "::";
for (int i = 0; i < arlFrom.Count; i++)
{
sTo += arlFrom[i].ToString() + (i == arlFrom.Count - 1 ? "/ " : ".");
}
break;
default:
break;
}
break;
case IPNotation.IPv4BinaryCIDR:
switch (arg_newValue)
{
case IPNotation.IPv4Decimal:
//do not use the last Item, its the Subnetmask
for (int i = 0; i < arlFrom.Count - 1; i++)
{
sTo += this.Bin2Dec(arlFrom[i].ToString()) +
//Add Dot if its not the last IPPart, else add nothing
(i == arlFrom.Count - 2 ? "" : ".");
}
break;
case IPNotation.IPv4DecimalCIDR:
//do not use the last Item, its the Subnetmask
for (int i = 0; i < arlFrom.Count - 1; i++)
{
sTo += this.Bin2Dec(arlFrom[i].ToString()) +
//Add Dot if its not the last IPPart, else add nothing
(i == arlFrom.Count - 2 ? "" : ".");
}
//Add Subnetmask
sTo += "/" + arlFrom[arlFrom.Count - 1];
break;
case IPNotation.IPv4Binary:
//do not use the last Item, its the Subnetmask
for (int i = 0; i < arlFrom.Count - 1; i++)
{
sTo += arlFrom[i].ToString() +
//Add Dot if its not the last IPPart, else add nothing
(i == arlFrom.Count - 2 ? "" : ".");
}
break;
case IPNotation.IPv4BinaryCIDR:
break;
case IPNotation.IPv6Hexadecimal:
sTo = "0000:0000:0000:0000:";
for (int i = 0; i < arlFrom.Count - 1; i++)
{
sTo += this.Bin2Hex(arlFrom[i].ToString()) + (i == arlFrom.Count - 2 ? "" : ":");
}
break;
case IPNotation.IPv6HexadecimalCIDR:
sTo = "0000:0000:0000:0000:";
for (int i = 0; i < arlFrom.Count - 1; i++)
{
sTo += this.Bin2Hex(arlFrom[i].ToString()) + (i == arlFrom.Count - 2 ? "" : ":");
}
sTo += "/" + arlFrom[arlFrom.Count - 1];
break;
case IPNotation.IPv6Binary:
sTo = "0000000000000000:0000000000000000:0000000000000000:0000000000000000:";
for (int i = 0; i < arlFrom.Count - 1; i++)
{
sTo += "00000000" + arlFrom[i].ToString() + (i == arlFrom.Count - 2 ? "" : ":");
}
break;
case IPNotation.IPv6BinaryCIDR:
sTo = "0000000000000000:0000000000000000:0000000000000000:0000000000000000:";
for (int i = 0; i < arlFrom.Count - 1; i++)
{
sTo += "00000000" + arlFrom[i].ToString() + (i == arlFrom.Count - 2 ? "" : ":");
}
sTo += "/" + arlFrom[arlFrom.Count - 1];
break;
case IPNotation.IPv6IPv4Decimal:
sTo = "::";
for (int i = 0; i < arlFrom.Count - 1; i++)
{
sTo += this.Bin2Dec(arlFrom[i].ToString()) + (i == arlFrom.Count - 2 ? "" : ".");
}
break;
case IPNotation.IPv6IPv4DecimalCIDR:
sTo = "::";
for (int i = 0; i < arlFrom.Count - 1; i++)
{
sTo += this.Bin2Dec(arlFrom[i].ToString()) + (i == arlFrom.Count - 2 ? "" : ".");
}
sTo += "/" + arlFrom[arlFrom.Count - 1];
break;
case IPNotation.IPv6IPv4Binary:
sTo = "::";
for (int i = 0; i < arlFrom.Count - 1; i++)
{
sTo += arlFrom[i].ToString() + (i == arlFrom.Count - 2 ? "" : ".");
}
break;
case IPNotation.IPv6IPv4BinaryCIDR:
sTo = "::";
for (int i = 0; i < arlFrom.Count - 1; i++)
{
sTo += arlFrom[i].ToString() + (i == arlFrom.Count - 2 ? "" : ".");
}
sTo += "/" + arlFrom[arlFrom.Count - 1];
break;
default:
break;
}
break;
case IPNotation.IPv6Hexadecimal:
switch (arg_newValue)
{
case IPNotation.IPv4Decimal:
//do not use the 1st 4 elements (IPv4 has only 4 elements)
for (int i = 4; i < arlFrom.Count; i++)
{
//Convert Hexadecimal to Decimal
sTo += this.Hex2Dec(arlFrom[i].ToString()) +
//Add Dot if its not the last IPPart, else add nothing
(i == arlFrom.Count - 1 ? "" : ".");
}
break;
case IPNotation.IPv4DecimalCIDR:
//do not use the 1st 4 elements
for (int i = 4; i < arlFrom.Count; i++)
{
sTo += this.Hex2Dec(arlFrom[i].ToString()) +
//Add Slash if its the last IPPart, els add a dot
(i == arlFrom.Count - 1 ? "/ " : ".");
}
break;
case IPNotation.IPv4Binary:
//do not use the 1st 4 elements
for (int i = 4; i < arlFrom.Count; i++)
{
//Convert Hexadecimal to Binary
sTo += this.Hex2Bin(arlFrom[i].ToString(), false) +
//Add Dot if its not the last IPPart, else add nothing
(i == arlFrom.Count - 1 ? "" : ".");
}
break;
case IPNotation.IPv4BinaryCIDR:
//do not use the 1st 4 elements
for (int i = 4; i < arlFrom.Count; i++)
{
sTo += this.Hex2Bin(arlFrom[i].ToString(), false) +
//Add Slash if its the last IPPart, else add a dot
(i == arlFrom.Count - 1 ? "/ " : ".");
}
break;
case IPNotation.IPv6Hexadecimal:
break;
case IPNotation.IPv6HexadecimalCIDR:
for (int i = 0; i < arlFrom.Count; i++)
{
sTo += arlFrom[i].ToString() + (i == arlFrom.Count - 1 ? "/ " : ":");
}
break;
case IPNotation.IPv6Binary:
for (int i = 0; i < arlFrom.Count; i++)
{
sTo += this.Hex2Bin(arlFrom[i].ToString()) + (i == arlFrom.Count - 1 ? "" : ":");
}
break;
case IPNotation.IPv6BinaryCIDR:
for (int i = 0; i < arlFrom.Count; i++)
{
sTo += this.Hex2Bin(arlFrom[i].ToString()) + (i == arlFrom.Count - 1 ? "/ " : ":");
}
break;
case IPNotation.IPv6IPv4Decimal:
sTo = "::";
for (int i = 4; i < arlFrom.Count; i++)
{
sTo += this.Hex2Dec(arlFrom[i].ToString()) + (i == arlFrom.Count - 1 ? "" : ".");
}
break;
case IPNotation.IPv6IPv4DecimalCIDR:
sTo = "::";
for (int i = 4; i < arlFrom.Count; i++)
{
sTo += this.Hex2Dec(arlFrom[i].ToString()) + (i == arlFrom.Count - 1 ? "/ " : ".");
}
break;
case IPNotation.IPv6IPv4Binary:
sTo = "::";
for (int i = 4; i < arlFrom.Count; i++)
{
sTo += this.Dec2Bin(arlFrom[i].ToString()) + (i == arlFrom.Count - 1 ? "" : ".");
}
break;
case IPNotation.IPv6IPv4BinaryCIDR:
sTo = "::";
for (int i = 4; i < arlFrom.Count; i++)
{
sTo += this.Dec2Bin(arlFrom[i].ToString()) + (i == arlFrom.Count - 1 ? "/ " : ".");
}
break;
default:
break;
}
break;
case IPNotation.IPv6HexadecimalCIDR:
switch (arg_newValue)
{
case IPNotation.IPv4Decimal:
//do not use the last Item, its the Subnetmask
//do not use the 1st 4 elements
for (int i = 4; i < arlFrom.Count - 1; i++)
{
sTo += this.Hex2Dec(arlFrom[i].ToString()) +
//Add Dot if its not the last IPPart, else add nothing
(i == arlFrom.Count - 2 ? "" : ".");
}
break;
case IPNotation.IPv4DecimalCIDR:
//do not use the last Item, its the Subnetmask
for (int i = 4; i < arlFrom.Count - 1; i++)
{
//Convert Hexadecimal to Decimal
sTo += this.Hex2Dec(arlFrom[i].ToString()) +
//Add Dot if its not the last IPPart, else add nothing
(i == arlFrom.Count - 2 ? "" : ".");
}
//Add Subnetmask
sTo += "/" + arlFrom[arlFrom.Count - 1];
break;
case IPNotation.IPv4Binary:
//do not use the last Item, its the Subnetmask
for (int i = 4; i < arlFrom.Count - 1; i++)
{
sTo += this.Hex2Bin(arlFrom[i].ToString(), false) +
//Add Dot if its not the last IPPart, else add nothing
(i == arlFrom.Count - 2 ? "" : ".");
}
break;
case IPNotation.IPv4BinaryCIDR:
//do not use the last Item, its the Subnetmask
for (int i = 4; i < arlFrom.Count - 1; i++)
{
sTo += this.Hex2Bin(arlFrom[i].ToString(), false) +
//Add Dot if its not the last IPPart, else add nothing
(i == arlFrom.Count - 2 ? "" : ".");
}
//Add Subnetmask
sTo += "/" + arlFrom[arlFrom.Count - 1];
break;
case IPNotation.IPv6Hexadecimal:
for (int i = 0; i < arlFrom.Count - 1; i++)
{
sTo += arlFrom[i].ToString() + (i == arlFrom.Count - 2 ? "" : ":");
}
break;
case IPNotation.IPv6HexadecimalCIDR:
break;
case IPNotation.IPv6Binary:
for (int i = 0; i < arlFrom.Count - 1; i++)
{
sTo += this.Hex2Bin(arlFrom[i].ToString()) + (i == arlFrom.Count - 2 ? "" : ":");
}
break;
case IPNotation.IPv6BinaryCIDR:
for (int i = 0; i < arlFrom.Count - 1; i++)
{
sTo += this.Hex2Bin(arlFrom[i].ToString()) + (i == arlFrom.Count - 2 ? "" : ":");
}
sTo += "/" + arlFrom[arlFrom.Count - 1];
break;
case IPNotation.IPv6IPv4Decimal:
sTo = "::";
for (int i = 4; i < arlFrom.Count - 1; i++)
{
sTo += this.Hex2Dec(arlFrom[i].ToString()) + (i == arlFrom.Count - 2 ? "" : ".");
}
break;
case IPNotation.IPv6IPv4DecimalCIDR:
sTo = "::";
for (int i = 4; i < arlFrom.Count - 1; i++)
{
sTo += this.Hex2Dec(arlFrom[i].ToString()) + (i == arlFrom.Count - 2 ? "" : ".");
}
sTo += "/" + arlFrom[arlFrom.Count - 1];
break;
case IPNotation.IPv6IPv4Binary:
sTo = "::";
for (int i = 4; i < arlFrom.Count - 1; i++)
{
sTo += this.Dec2Bin(arlFrom[i].ToString()) + (i == arlFrom.Count - 2 ? "" : ".");
}
break;
case IPNotation.IPv6IPv4BinaryCIDR:
sTo = "::";
for (int i = 4; i < arlFrom.Count - 1; i++)
{
sTo += this.Dec2Bin(arlFrom[i].ToString()) + (i == arlFrom.Count - 2 ? "" : ".");
}
sTo += "/" + arlFrom[arlFrom.Count - 1];
break;
default:
break;
}
break;
case IPNotation.IPv6Binary:
switch (arg_newValue)
{
case IPNotation.IPv4Decimal:
//do not use the 1st 4 elements
for (int i = 4; i < arlFrom.Count; i++)
{
//Convert Binary to Decimal
sTo += this.Bin2Dec(arlFrom[i].ToString()) +
//Add Dot if its not the last IPPart, else add nothing
(i == arlFrom.Count - 1 ? "" : ".");
}
break;
case IPNotation.IPv4DecimalCIDR:
//do not use the 1st 4 elements
for (int i = 4; i < arlFrom.Count; i++)
{
sTo += this.Bin2Dec(arlFrom[i].ToString()) +
//Add Slash if its the last IPPart, els add a dot
(i == arlFrom.Count - 1 ? "/ " : ".");
}
break;
case IPNotation.IPv4Binary:
//do not use the 1st 4 elements
for (int i = 4; i < arlFrom.Count; i++)
{
//convert from IPv6 Binary to IPv4 Binary
sTo += this.Dec2Bin(this.Bin2Dec(arlFrom[i].ToString())) +
//Add Dot if its not the last IPPart, else add nothing
(i == arlFrom.Count - 1 ? "" : ".");
}
break;
case IPNotation.IPv4BinaryCIDR:
//do not use the 1st 4 elements
for (int i = 4; i < arlFrom.Count; i++)
{
//convert from IPv6 Binary to IPv4 Binary
sTo += this.Dec2Bin(this.Bin2Dec(arlFrom[i].ToString())) +
//Add Slash if its the last IPPart, else add a dot
(i == arlFrom.Count - 1 ? "/ " : ".");
}
break;
case IPNotation.IPv6Hexadecimal:
for (int i = 0; i < arlFrom.Count; i++)
{
sTo += this.Bin2Hex(arlFrom[i].ToString()) + (i == arlFrom.Count - 1 ? "" : ":");
}
break;
case IPNotation.IPv6HexadecimalCIDR:
for (int i = 0; i < arlFrom.Count; i++)
{
sTo += this.Bin2Hex(arlFrom[i].ToString()) + (i == arlFrom.Count - 1 ? "/ " : ":");
}
break;
case IPNotation.IPv6Binary:
break;
case IPNotation.IPv6BinaryCIDR:
for (int i = 0; i < arlFrom.Count; i++)
{
sTo += arlFrom[i].ToString() + (i == arlFrom.Count - 1 ? "/ " : ":");
}
break;
case IPNotation.IPv6IPv4Decimal:
sTo = "::";
for (int i = 4; i < arlFrom.Count; i++)
{
sTo += this.Bin2Dec(arlFrom[i].ToString()) + (i == arlFrom.Count - 1 ? "" : ".");
}
break;
case IPNotation.IPv6IPv4DecimalCIDR:
sTo = "::";
for (int i = 4; i < arlFrom.Count; i++)
{
sTo += this.Bin2Dec(arlFrom[i].ToString()) + (i == arlFrom.Count - 1 ? "/ " : ".");
}
break;
case IPNotation.IPv6IPv4Binary:
sTo = "::";
for (int i = 4; i < arlFrom.Count; i++)
{
//convert from IPv6 Binary to IPv4 Binary
sTo += this.Dec2Bin(this.Bin2Dec(arlFrom[i].ToString())) +
(i == arlFrom.Count - 1 ? "" : ".");
}
break;
case IPNotation.IPv6IPv4BinaryCIDR:
sTo = "::";
for (int i = 4; i < arlFrom.Count; i++)
{
//convert from IPv6 Binary to IPv4 Binary
sTo += this.Dec2Bin(this.Bin2Dec(arlFrom[i].ToString())) +
(i == arlFrom.Count - 1 ? "/ " : ".");
}
break;
default:
break;
}
break;
case IPNotation.IPv6BinaryCIDR:
switch (arg_newValue)
{
case IPNotation.IPv4Decimal:
//do not use the last Item, its the Subnetmask
//do not use the 1st 4 elements
for (int i = 4; i < arlFrom.Count - 1; i++)
{
sTo += this.Bin2Dec(arlFrom[i].ToString()) +
//Add Dot if its not the last IPPart, else add nothing
(i == arlFrom.Count - 2 ? "" : ".");
}
break;
case IPNotation.IPv4DecimalCIDR:
//do not use the last Item, its the Subnetmask
for (int i = 4; i < arlFrom.Count - 1; i++)
{
//Convert Binary to Decimal
sTo += this.Bin2Dec(arlFrom[i].ToString()) +
//Add Dot if its not the last IPPart, else add nothing
(i == arlFrom.Count - 2 ? "" : ".");
}
//Add Subnetmask
sTo += "/" + arlFrom[arlFrom.Count - 1];
break;
case IPNotation.IPv4Binary:
//do not use the last Item, its the Subnetmask
for (int i = 4; i < arlFrom.Count - 1; i++)
{
//convert from IPv6 Binary to IPv4 Binary
sTo += this.Dec2Bin(this.Bin2Dec(arlFrom[i].ToString())) +
//Add Dot if its not the last IPPart, else add nothing
(i == arlFrom.Count - 2 ? "" : ".");
}
break;
case IPNotation.IPv4BinaryCIDR:
//do not use the last Item, its the Subnetmask
for (int i = 4; i < arlFrom.Count - 1; i++)
{
//convert from IPv6 Binary to IPv4 Binary
sTo += this.Dec2Bin(this.Bin2Dec(arlFrom[i].ToString())) +
//Add Dot if its not the last IPPart, else add nothing
(i == arlFrom.Count - 2 ? "" : ".");
}
//Add Subnetmask
sTo += "/" + arlFrom[arlFrom.Count - 1];
break;
case IPNotation.IPv6Hexadecimal:
for (int i = 0; i < arlFrom.Count - 1; i++)
{
sTo += this.Bin2Hex(arlFrom[i].ToString()) + (i == arlFrom.Count - 2 ? "" : ":");
}
break;
case IPNotation.IPv6HexadecimalCIDR:
for (int i = 0; i < arlFrom.Count - 1; i++)
{
sTo += this.Bin2Hex(arlFrom[i].ToString()) + (i == arlFrom.Count - 2 ? "" : ":");
}
sTo += "/" + arlFrom[arlFrom.Count - 1];
break;
case IPNotation.IPv6Binary:
for (int i = 0; i < arlFrom.Count - 1; i++)
{
sTo += arlFrom[i].ToString() + (i == arlFrom.Count - 2 ? "" : ":");
}
break;
case IPNotation.IPv6BinaryCIDR:
break;
case IPNotation.IPv6IPv4Decimal:
sTo = "::";
for (int i = 4; i < arlFrom.Count - 1; i++)
{
sTo += this.Bin2Dec(arlFrom[i].ToString()) + (i == arlFrom.Count - 2 ? "" : ".");
}
break;
case IPNotation.IPv6IPv4DecimalCIDR:
sTo = "::";
for (int i = 4; i < arlFrom.Count - 1; i++)
{
sTo += this.Bin2Dec(arlFrom[i].ToString()) + (i == arlFrom.Count - 2 ? "" : ".");
}
sTo += "/" + arlFrom[arlFrom.Count - 1];
break;
case IPNotation.IPv6IPv4Binary:
sTo = "::";
for (int i = 4; i < arlFrom.Count - 1; i++)
{
//convert from IPv6 Binary to IPv4 Binary
sTo += this.Dec2Bin(this.Bin2Dec(arlFrom[i].ToString())) +
(i == arlFrom.Count - 2 ? "" : ".");
}
break;
case IPNotation.IPv6IPv4BinaryCIDR:
sTo = "::";
for (int i = 4; i < arlFrom.Count - 1; i++)
{
//convert from IPv6 Binary to IPv4 Binary
sTo += this.Dec2Bin(this.Bin2Dec(arlFrom[i].ToString())) +
(i == arlFrom.Count - 2 ? "" : ".");
}
sTo += "/" + arlFrom[arlFrom.Count - 1];
break;
default:
break;
}
break;
case IPNotation.IPv6IPv4Decimal:
switch (arg_newValue)
{
case IPNotation.IPv4Decimal:
//do not use the 1st 2 elements (::)
for (int i = 2; i < arlFrom.Count; i++)
{
sTo += arlFrom[i].ToString() +
//Add Dot if its not the last IPPart, else add nothing
(i == arlFrom.Count - 1 ? "" : ".");
}
break;
case IPNotation.IPv4DecimalCIDR:
//do not use the 1st 2 elements (::)
for (int i = 2; i < arlFrom.Count; i++)
{
sTo += arlFrom[i].ToString() +
//Add Slash if its the last IPPart, els add a dot
(i == arlFrom.Count - 1 ? "/ " : ".");
}
break;
case IPNotation.IPv4Binary:
for (int i = 2; i < arlFrom.Count; i++)
{
//Convert Decimal to Binary
sTo += this.Dec2Bin(arlFrom[i].ToString()) +
//Add Dot if its not the last IPPart, else add nothing
(i == arlFrom.Count - 1 ? "" : ".");
}
break;
case IPNotation.IPv4BinaryCIDR:
for (int i = 2; i < arlFrom.Count; i++)
{
//Convert Decimal to Binary
sTo += this.Dec2Bin(arlFrom[i].ToString()) +
//Add Slash if its the last IPPart, else add a dot
(i == arlFrom.Count - 1 ? "/ " : ".");
}
break;
case IPNotation.IPv6Hexadecimal:
sTo = "0000:0000:0000:0000:";
for (int i = 2; i < arlFrom.Count; i++)
{
sTo += this.Dec2Hex(arlFrom[i].ToString()) + (i == arlFrom.Count - 1 ? "" : ":");
}
break;
case IPNotation.IPv6HexadecimalCIDR:
sTo = "0000:0000:0000:0000:";
for (int i = 2; i < arlFrom.Count; i++)
{
sTo += this.Dec2Hex(arlFrom[i].ToString()) + (i == arlFrom.Count - 1 ? "/ " : ":");
}
break;
case IPNotation.IPv6Binary:
sTo = "0000000000000000:0000000000000000:0000000000000000:0000000000000000:";
for (int i = 2; i < arlFrom.Count; i++)
{
sTo += this.Dec2Bin(arlFrom[i].ToString(), true) + (i == arlFrom.Count - 1 ? "" : ":");
}
break;
case IPNotation.IPv6BinaryCIDR:
sTo = "0000000000000000:0000000000000000:0000000000000000:0000000000000000:";
for (int i = 2; i < arlFrom.Count; i++)
{
sTo += this.Dec2Bin(arlFrom[i].ToString(), true) + (i == arlFrom.Count - 1 ? "/ " : ":");
}
break;
case IPNotation.IPv6IPv4Decimal:
break;
case IPNotation.IPv6IPv4DecimalCIDR:
sTo = "::";
for (int i = 2; i < arlFrom.Count; i++)
{
sTo += arlFrom[i].ToString() + (i == arlFrom.Count - 1 ? "/ " : ".");
}
break;
case IPNotation.IPv6IPv4Binary:
sTo = "::";
for (int i = 2; i < arlFrom.Count; i++)
{
sTo += this.Dec2Bin(arlFrom[i].ToString()) + (i == arlFrom.Count - 1 ? "" : ".");
}
break;
case IPNotation.IPv6IPv4BinaryCIDR:
sTo = "::";
for (int i = 2; i < arlFrom.Count; i++)
{
sTo += this.Dec2Bin(arlFrom[i].ToString()) + (i == arlFrom.Count - 1 ? "/ " : ".");
}
break;
default:
break;
}
break;
case IPNotation.IPv6IPv4DecimalCIDR:
switch (arg_newValue)
{
case IPNotation.IPv4Decimal:
//do not use the last Item, its the Subnetmask
//do not use th2 1st 2 elements
for (int i = 2; i < arlFrom.Count - 1; i++)
{
sTo += arlFrom[i].ToString() +
//Add Dot if its not the last IPPart, else add nothing
(i == arlFrom.Count - 2 ? "" : ".");
}
break;
case IPNotation.IPv4DecimalCIDR:
//do not use the last Item, its the Subnetmask
//do not use the 1st 2 Elements
for (int i = 2; i < arlFrom.Count - 1; i++)
{
//Convert Decimal to Binary
sTo += arlFrom[i].ToString() +
//Add Dot if its not the last IPPart, else add nothing
(i == arlFrom.Count - 2 ? "" : ".");
}
//Add Subnetmask
sTo += "/" + arlFrom[arlFrom.Count - 1];
break;
case IPNotation.IPv4Binary:
//do not use the last Item, its the Subnetmask
for (int i = 2; i < arlFrom.Count - 1; i++)
{
//Convert Decimal to Binary
sTo += this.Dec2Bin(arlFrom[i].ToString()) +
//Add Dot if its not the last IPPart, else add nothing
(i == arlFrom.Count - 2 ? "" : ".");
}
break;
case IPNotation.IPv4BinaryCIDR:
//do not use the last Item, its the Subnetmask
for (int i = 2; i < arlFrom.Count - 1; i++)
{
//Convert Decimal to Binary
sTo += this.Dec2Bin(arlFrom[i].ToString()) +
//Add Dot if its not the last IPPart, else add nothing
(i == arlFrom.Count - 2 ? "" : ".");
}
//Add Subnetmask
sTo += "/" + arlFrom[arlFrom.Count - 1];
break;
case IPNotation.IPv6Hexadecimal:
sTo = "0000:0000:0000:0000:";
for (int i = 2; i < arlFrom.Count - 1; i++)
{
sTo += this.Dec2Hex(arlFrom[i].ToString()) + (i == arlFrom.Count - 2 ? "" : ":");
}
break;
case IPNotation.IPv6HexadecimalCIDR:
sTo = "0000:0000:0000:0000:";
for (int i = 2; i < arlFrom.Count - 1; i++)
{
sTo += this.Dec2Hex(arlFrom[i].ToString()) + (i == arlFrom.Count - 2 ? "" : ":");
}
sTo += "/" + arlFrom[arlFrom.Count - 1];
break;
case IPNotation.IPv6Binary:
sTo = "0000000000000000:0000000000000000:0000000000000000:0000000000000000:";
for (int i = 2; i < arlFrom.Count - 1; i++)
{
sTo += this.Dec2Bin(arlFrom[i].ToString(), true) + (i == arlFrom.Count - 2 ? "" : ":");
}
break;
case IPNotation.IPv6BinaryCIDR:
sTo = "0000000000000000:0000000000000000:0000000000000000:0000000000000000:";
for (int i = 2; i < arlFrom.Count - 1; i++)
{
sTo += this.Dec2Bin(arlFrom[i].ToString(), true) + (i == arlFrom.Count - 2 ? "" : ":");
}
sTo += "/" + arlFrom[arlFrom.Count - 1];
break;
case IPNotation.IPv6IPv4Decimal:
sTo = "::";
for (int i = 2; i < arlFrom.Count - 1; i++)
{
sTo += arlFrom[i].ToString() + (i == arlFrom.Count - 2 ? "" : ".");
}
break;
case IPNotation.IPv6IPv4DecimalCIDR:
break;
case IPNotation.IPv6IPv4Binary:
sTo = "::";
for (int i = 2; i < arlFrom.Count - 1; i++)
{
sTo += this.Dec2Bin(arlFrom[i].ToString()) + (i == arlFrom.Count - 2 ? "" : ".");
}
break;
case IPNotation.IPv6IPv4BinaryCIDR:
sTo = "::";
for (int i = 2; i < arlFrom.Count - 1; i++)
{
sTo += this.Dec2Bin(arlFrom[i].ToString()) + (i == arlFrom.Count - 2 ? "" : ".");
}
sTo += "/" + arlFrom[arlFrom.Count - 1];
break;
default:
break;
}
break;
case IPNotation.IPv6IPv4Binary:
switch (arg_newValue)
{
case IPNotation.IPv4Decimal:
//do not use the 1st 2 elements (::)
for (int i = 2; i < arlFrom.Count; i++)
{
sTo += this.Bin2Dec(arlFrom[i].ToString()) +
//Add Dot if its not the last IPPart, else add nothing
(i == arlFrom.Count - 1 ? "" : ".");
}
break;
case IPNotation.IPv4DecimalCIDR:
//do not use the 1st 2 elements (::)
for (int i = 2; i < arlFrom.Count; i++)
{
sTo += this.Bin2Dec(arlFrom[i].ToString()) +
//Add Slash if its the last IPPart, els add a dot
(i == arlFrom.Count - 1 ? "/ " : ".");
}
break;
case IPNotation.IPv4Binary:
for (int i = 2; i < arlFrom.Count; i++)
{
//Convert Decimal to Binary
sTo += arlFrom[i].ToString() +
//Add Dot if its not the last IPPart, else add nothing
(i == arlFrom.Count - 1 ? "" : ".");
}
break;
case IPNotation.IPv4BinaryCIDR:
for (int i = 2; i < arlFrom.Count; i++)
{
//Convert Decimal to Binary
sTo += arlFrom[i].ToString() +
//Add Slash if its the last IPPart, else add a dot
(i == arlFrom.Count - 1 ? "/ " : ".");
}
break;
case IPNotation.IPv6Hexadecimal:
sTo = "0000:0000:0000:0000:";
for (int i = 2; i < arlFrom.Count; i++)
{
sTo += this.Bin2Hex(arlFrom[i].ToString()) + (i == arlFrom.Count - 1 ? "" : ":");
}
break;
case IPNotation.IPv6HexadecimalCIDR:
sTo = "0000:0000:0000:0000:";
for (int i = 2; i < arlFrom.Count; i++)
{
sTo += this.Bin2Hex(arlFrom[i].ToString()) + (i == arlFrom.Count - 1 ? "/ " : ":");
}
break;
case IPNotation.IPv6Binary:
sTo = "0000000000000000:0000000000000000:0000000000000000:0000000000000000:";
for (int i = 2; i < arlFrom.Count; i++)
{
sTo += "00000000" + arlFrom[i].ToString() + (i == arlFrom.Count - 1 ? "" : ":");
}
break;
case IPNotation.IPv6BinaryCIDR:
sTo = "0000000000000000:0000000000000000:0000000000000000:0000000000000000:";
for (int i = 2; i < arlFrom.Count; i++)
{
sTo += "00000000" + arlFrom[i].ToString() + (i == arlFrom.Count - 1 ? "/ " : ":");
}
break;
case IPNotation.IPv6IPv4Decimal:
sTo = "::";
for (int i = 2; i < arlFrom.Count; i++)
{
sTo += this.Bin2Dec(arlFrom[i].ToString()) + (i == arlFrom.Count - 1 ? "" : ".");
}
break;
case IPNotation.IPv6IPv4DecimalCIDR:
sTo = "::";
for (int i = 2; i < arlFrom.Count; i++)
{
sTo += this.Bin2Dec(arlFrom[i].ToString()) + (i == arlFrom.Count - 1 ? "/ " : ".");
}
break;
case IPNotation.IPv6IPv4Binary:
break;
case IPNotation.IPv6IPv4BinaryCIDR:
sTo = "::";
for (int i = 2; i < arlFrom.Count; i++)
{
sTo += arlFrom[i].ToString() + (i == arlFrom.Count - 1 ? "/ " : ".");
}
break;
default:
break;
}
break;
case IPNotation.IPv6IPv4BinaryCIDR:
switch (arg_newValue)
{
case IPNotation.IPv4Decimal:
//do not use the last Item, its the Subnetmask
//do not use th2 1st 2 elements
for (int i = 2; i < arlFrom.Count - 1; i++)
{
sTo += this.Bin2Dec(arlFrom[i].ToString()) +
//Add Dot if its not the last IPPart, else add nothing
(i == arlFrom.Count - 2 ? "" : ".");
}
break;
case IPNotation.IPv4DecimalCIDR:
//do not use the last Item, its the Subnetmask
//do not use the 1st 2 Elements
for (int i = 2; i < arlFrom.Count - 1; i++)
{
//Convert Decimal to Binary
sTo += this.Bin2Dec(arlFrom[i].ToString()) +
//Add Dot if its not the last IPPart, else add nothing
(i == arlFrom.Count - 2 ? "" : ".");
}
//Add Subnetmask
sTo += "/" + arlFrom[arlFrom.Count - 1];
break;
case IPNotation.IPv4Binary:
//do not use the last Item, its the Subnetmask
for (int i = 2; i < arlFrom.Count - 1; i++)
{
//Convert Decimal to Binary
sTo += arlFrom[i].ToString() +
//Add Dot if its not the last IPPart, else add nothing
(i == arlFrom.Count - 2 ? "" : ".");
}
break;
case IPNotation.IPv4BinaryCIDR:
//do not use the last Item, its the Subnetmask
for (int i = 2; i < arlFrom.Count - 1; i++)
{
//Convert Decimal to Binary
sTo += arlFrom[i].ToString() +
//Add Dot if its not the last IPPart, else add nothing
(i == arlFrom.Count - 2 ? "" : ".");
}
//Add Subnetmask
sTo += "/" + arlFrom[arlFrom.Count - 1];
break;
case IPNotation.IPv6Hexadecimal:
sTo = "0000:0000:0000:0000:";
for (int i = 2; i < arlFrom.Count - 1; i++)
{
sTo += this.Bin2Hex(arlFrom[i].ToString()) + (i == arlFrom.Count - 2 ? "" : ":");
}
break;
case IPNotation.IPv6HexadecimalCIDR:
sTo = "0000:0000:0000:0000:";
for (int i = 2; i < arlFrom.Count - 1; i++)
{
sTo += this.Bin2Hex(arlFrom[i].ToString()) + (i == arlFrom.Count - 2 ? "" : ":");
}
sTo += "/" + arlFrom[arlFrom.Count - 1];
break;
case IPNotation.IPv6Binary:
sTo = "0000000000000000:0000000000000000:0000000000000000:0000000000000000:";
for (int i = 2; i < arlFrom.Count - 1; i++)
{
sTo += "00000000" + arlFrom[i].ToString() + (i == arlFrom.Count - 2 ? "" : ":");
}
break;
case IPNotation.IPv6BinaryCIDR:
sTo = "0000000000000000:0000000000000000:0000000000000000:0000000000000000:";
for (int i = 2; i < arlFrom.Count - 1; i++)
{
sTo += "00000000" + arlFrom[i].ToString() + (i == arlFrom.Count - 2 ? "" : ":");
}
sTo += "/" + arlFrom[arlFrom.Count - 1];
break;
case IPNotation.IPv6IPv4Decimal:
sTo = "::";
for (int i = 2; i < arlFrom.Count - 1; i++)
{
sTo += this.Bin2Dec(arlFrom[i].ToString()) + (i == arlFrom.Count - 2 ? "" : ".");
}
break;
case IPNotation.IPv6IPv4DecimalCIDR:
sTo = "::";
for (int i = 2; i < arlFrom.Count - 1; i++)
{
sTo += this.Bin2Dec(arlFrom[i].ToString()) + (i == arlFrom.Count - 2 ? "" : ".");
}
sTo += "/" + arlFrom[arlFrom.Count - 1];
break;
case IPNotation.IPv6IPv4Binary:
sTo = "::";
for (int i = 2; i < arlFrom.Count - 1; i++)
{
sTo += arlFrom[i].ToString() + (i == arlFrom.Count - 2 ? "" : ".");
}
break;
case IPNotation.IPv6IPv4BinaryCIDR:
break;
default:
break;
}
break;
default:
break;
}
this.Text = sTo;
this.MaxLength = this.TextLength;
}
