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I'm porting a Windows app to Android and I'm running into an issue with endianness. The app takes a series of text fields from the user and generates a password based on MD5. The problem is when I create the byte array to pass into the MD5 digest method, the bytes on the Android app are in big endian format. Thus, the MD5 output does not match between the two platforms.

I've tried using a ByteBuffer to convert to little endian and then copy that value back into the byte array using ByteBuffer.get(). Sadly, that doesn't work as it doesn't maintain the order setting.. This seems to be a known "gotcha" when dealing with ByteBuffers. If I compare the ByteBuffer.getLong() value and the equivalent in the windows version the values match but I don't know how to get the array back out of the ByteBuffer in the correct order.

Edit: I've attached both the java and C# functions below.

Below is the java version that doesn't try to fix the order/endianness:

public static final long md5(final String input) {
    try {
        // Create MD5
        MessageDigest md5 = MessageDigest.getInstance("MD5");

        // Read in string as an array of bytes.
        byte[] originalBytes = input.getBytes("US-ASCII");
        byte[] encodedBytes = md5.digest(originalBytes);

        long output = 0;
        long multiplier = 1;

        // Create 64 bit integer from the MD5 hash of the input
        for (int i = 0; i < encodedBytes.length; i++) {
            output = output + encodedBytes[i] * multiplier;
            multiplier = multiplier * 255;
        return output;

    catch (NoSuchAlgorithmException e) {
     catch (UnsupportedEncodingException e) {
    return 0;

And here is the C# version

private Int64 MD5(string input)
  MD5CryptoServiceProvider md5 = new MD5CryptoServiceProvider();

  byte[] originalBytes = ASCIIEncoding.ASCII.GetBytes(input);
  byte[] encodedBytes = md5.ComputeHash(originalBytes);
  Int64 output = 0;
  Int64 Multiplyer = 1;
  for (int i = 0; i < encodedBytes.Length; i++)
    output = output + encodedBytes[i] * Multiplyer;
    Multiplyer = Multiplyer * 255;
  return output;
share|improve this question
I think you're confused about the problem - there's no sense of "endianness" here - both the conversion from text to binary and the MD5 algorithm will produce simple byte arrays. –  Jon Skeet Mar 4 '12 at 17:56
But doesn't it matter which order the bytes go into the digest method? –  quesauce Mar 4 '12 at 18:01
I'm confused. An MD5 digest is 16 bytes, whereas a long is only 8 bytes. So why does your md5 method return a long? Wouldn't it make more sense to return a String, either Base-64-encoded (22 characters long) or hex-encoded (32 characters long)? –  ruakh Mar 4 '12 at 18:59
Wow, there is just so much wrong with that C# code. I feel your pain. ;-) –  ruakh Mar 4 '12 at 19:39
@ruakh: Agreed. That C# method shouldn't even be called MD5 because it bears no resemblance to it. –  Squonk Mar 4 '12 at 20:00

2 Answers 2

up vote 2 down vote accepted

The problem is that this line of Java:

            output = output + encodedBytes[i] * multiplier;

is subtly different from this line of C# code:

    output = output + encodedBytes[i] * Multiplyer;

Specifically, the implicit conversion of encodedBytes[i] from byte to long (Java) or Int64 (C#) is a bit different.

You see, in Java, a byte is a signed value between -128 and 127, whereas in C#, it's an unsigned value between 0 and 255. So, for example, if encodedBytes[i] is B2 (1011 0010), then Java interprets that as -78, while C# interprets that as 178.

To emulate the C# interpretation in Java, you can write something like this:

            output = output + ((encodedBytes[i] + 256) % 256) * multiplier;

(Fortunately, Java has the same handling for integer overflow as C#'s "unchecked" mode, which is apparently what you're using; that would have been much trickier to emulate, if you had to.)

share|improve this answer
You are a rock star. The android app works as expected now. I never even thought to compare the implementation differences of bytes! Thank you very much. –  quesauce Mar 4 '12 at 22:04
@quesauce: You are very welcome! –  ruakh Mar 4 '12 at 22:06
@quesauce: By the way, it didn't occur to me, either, until you said that b2 was showing up as ffffffb2 -- that is, that 1011 0010 was showing up as 1111 1111 1111 1111 1111 1111 1011 0010 -- clear evidence of sign extension. –  ruakh Mar 4 '12 at 22:08

The MD5 standard calls for 128-bit values, not 64-bit. So first of all, the signature private Int64 MD5(string input) makes no sense. You should not be converting these to integers and trying to compare them. Just pass around the byte[] references and compare those.

share|improve this answer
Unfortunately, I don't have a choice. The original windows version has already been deployed and is in use. I just have to emulate what it does (even if it's incorrect). –  quesauce Mar 4 '12 at 19:36

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