# C# Calculate LRC (Longitudinal Redundancy Check)

I've been researching this everywhere and all the LRC implementation seems to not giving me the right answer. After spending few days on it, I decided to put my code here to see if anyone else can spot the problem.

Here's the code (C#)

``````        //Input Data = "31303030315E315E31303030325E315E31303030375E39395E31303032325E36353631335E"
private static string LRC(string Data)
{
int checksum = 0;
foreach (char c in GetStringFromHex(Data))
{
checksum ^= Convert.ToByte(c);
}

string hex = checksum.ToString("X2");

Console.WriteLine("Calculated LRC = " + hex);

return hex;
}

//Supporting Function used in LRC function
private static string GetStringFromHex(string s)
{
string result = "";
string s2 = s.Replace(" ", "");
for (int i = 0; i < s2.Length; i += 2)
{
result += Convert.ToChar(int.Parse(s2.Substring(i, 2), System.Globalization.NumberStyles.HexNumber));
}
return result;
}
``````

The current output shows "Calculated LRC = 33". However, the right answer is "30". Can anyone spot what's wrong with this?

Any help will be fantastic!

• It would be good to spell out "LRC"... I presume it's meant to be some sort of check code, like a CRC, or convolutional error correction code (for example Reed-Solomon)? Your implementation looks like simple parity. – Ben Voigt Mar 15 '15 at 4:12
• Ah... True, thanks for the reminder, it's Longitudinal Redundancy Check. – WorldWind Mar 15 '15 at 4:14
• The wikipedia article suggests that it's traditional to return the two's complement (`-` in C#) of the sum (not XOR) of the bytes. But says some protocols use XOR. – Ben Voigt Mar 15 '15 at 4:17
• I've implemented based on Wikipedia's pseudo code as well. It's also giving me wrong answer. – WorldWind Mar 15 '15 at 4:20
• Do you have any documentation for the device you're communicating with? And it doesn't define the checksum better? – Ben Voigt Mar 15 '15 at 4:24