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I'm trying to convert 2 bytes into an unsigned short so I can retrieve the actual server port value. I'm basing it off from this protocol specification under Reply Format. I tried using BitConverter.ToUint16() for this, but the problem is, it doesn't seem to throw the expected value. See below for a sample implementation:

        int bytesRead = 0;

        while(bytesRead < ms.Length)
            int first = ms.ReadByte() & 0xFF;
            int second = ms.ReadByte() & 0xFF;
            int third = ms.ReadByte() & 0xFF;
            int fourth = ms.ReadByte() & 0xFF;
            int port1 = ms.ReadByte();
            int port2 = ms.ReadByte();
            int actualPort = BitConverter.ToUInt16(new byte[2] {(byte)port1 , (byte)port2 }, 0);
            string ip = String.Format("{0}.{1}.{2}.{3}:{4}-{5} = {6}", first, second, third, fourth, port1, port2, actualPort);
            bytesRead += 6;

Given one sample data, lets say for the two byte values, I have 105 & 135, the expected port value after conversion should be 27015, but instead I get a value of 34665 using BitConverter.

Am I doing it the wrong way? Any help would be much appreciated. Thanks!

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3 Answers 3

up vote 10 down vote accepted

If you reverse the values in the BitConverter call, you should get the expected result:

int actualPort = BitConverter.ToUInt16(new byte[2] {(byte)port2 , (byte)port1 }, 0);

On a little-endian architecture, the low order byte needs to be second in the array. And as lasseespeholt points out in the comments, you would need to reverse the order on a big-endian architecture. That could be checked with the BitConverter.IsLittleEndian property. Or it might be a better solution overall to use IPAddress.HostToNetworkOrder (convert the value first and then call that method to put the bytes in the correct order regardless of the endianness).

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Are you sure this will work if the application is run on a different architecture? –  Lasse Espeholt Apr 21 '11 at 21:16
@lasseespeholt: That's a good point. It probably does need a check using IsLittleEndian. For a big-endian architecture, the order would need to be as given in the OP. –  Mark Wilkins Apr 21 '11 at 21:23
Thanks! This actually solves my problem. –  Raffy Ibasco Apr 21 '11 at 21:32

To work on both little and big endian architecture, you must do something like:

if (BitConverter.IsLittleEndian)
    actualPort = BitConverter.ToUInt16(new byte[2] {(byte)port2 , (byte)port1 }, 0);
    actualPort = BitConverter.ToUInt16(new byte[2] {(byte)port1 , (byte)port2 }, 0);
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BitConverter is doing the right thing, you just have low-byte and high-byte mixed up - you can verify using a bitshift manually:

byte port1 = 105;
byte port2 = 135;

ushort value = BitConverter.ToUInt16(new byte[2] { (byte)port1, (byte)port2 }, 0);
ushort value2 = (ushort)(port1 + (port2 << 8)); //same output
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+1 for the "manual" approach. In my opinion BitConverter does way to many checks and an endian check which can break the code. –  Lasse Espeholt Apr 21 '11 at 21:26

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