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I try to compare 2 byte arrays.

Byte array 1 is an array with the last 3 bytes of a sha1 hash:

  private static byte[] sha1SsidGetBytes(byte[] sha1)
    return new byte[] {sha1[17], sha1[18], sha1[19]};

Byte array 2 is an array that I fill with 3 bytes coming from an hexadecimal string:

  private static byte[] ssidGetBytes(String ssid)
    BigInteger ssidBigInt = new BigInteger(ssid, 16);

    return ssidBigInt.toByteArray();

How is it possible that this comparison:

  if (Arrays.equals(ssidBytes, sha1SsidGetBytes(snSha1)))

works most of the times but sometimes not. Byte Order?

e.g. for "6451E6" (hex string) it works fine, for "ABED74" it does not...

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Have you looked at what your byte arrays contain in the debugger? Are you hitting issues with signed bytes possibly? –  Tim Reynolds Dec 8 '10 at 19:36
How can I see if they're signed? –  tersmitten Dec 8 '10 at 19:38

3 Answers 3

up vote 1 down vote accepted

Your approach of parsing a hex string via BigInteger is flawed, basically. For example, new BigInteger("ABED74").toByteArray() returns an array of 4 bytes, not three. While you could hack around this, you're fundamentally not trying to do anything involving BigInteger values... you're just trying to parse hex.

I suggest you use the Apache Codec library to do the parsing:

byte[] array = (byte[]) new Hex().decode(text);

(The API for Apache Codec leaves something to be desired, but it does work.)

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Then that would be the problem I guess? Is there any other way to parse an hex string (length 6) into an array of 3 bytes? –  tersmitten Dec 8 '10 at 19:42
@tersmitten: Yes, as I said: use something designed to parse a hex string into bytes, instead of something that happens to do that in order to accomplish a bigger task. You don't have to use a third-party library, of course: it's easy to write a method to parse hex if you want. –  Jon Skeet Dec 8 '10 at 19:47
You are probably right but I thought this was a foolproof way... –  tersmitten Dec 8 '10 at 19:57
@tersmitten: Apparently not :) –  Jon Skeet Dec 8 '10 at 19:58

The problem is pretty obvious if you try this:

BigInteger b1 = new BigInteger("6451E6", 16);
BigInteger b2 = new BigInteger("ABED74", 16);


Specifically, ABED74 creates a BigInteger whose byte array is 4 bytes long--so of course it's not going to be equal to any three byte array.

The straightforward fix is to change the return statement in ssidGetBytes from

return ssidBigInt.toByteArray();


byte[] ba = ssidBigInt.toByteArray();
return new byte[] { ba[ba.length - 3], ba[ba.length - 2], ba[ba.length - 1] };
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Bingo. One should add that the toByteArray() method is intended (mostly) to be produce input compatible with the BigInteger(byte[]) constructor. One could say that this byte encoding is one-way with respect to the constructor's String input: The byte[] representation of the input string is not guaranteed to be the same as the byte[] representation of the BigInteger created from the string (since the later might likely carry additional information like magnitude.) –  luis.espinal Dec 8 '10 at 19:56

From the javadoc's (emphasis mine):


Returns a byte array containing the two's-complement representation of this BigInteger. The byte array will be in big-endian byte-order: the most significant byte is in the zeroth element. The array will contain the minimum number of bytes required to represent this BigInteger, including at least one sign bit, which is (ceil((this.bitLength() + 1)/8)). (This representation is compatible with the (byte[]) constructor.)

There is a lot of computations going on inside the ByteInteger(String,radix) constructor that you are using, which does not guarantee the constructed BigInteger will produce a byte array (via its toByteArray() method) comparable to the result of a String's getBytes() encoding.

The output of toByteArray() is intended to be used (mostly) as input to the (byte[]) constructor of BigInteger. It makes no guarantee for uses other than those.

Look at it like this: the output of toByteArray() is the byte representation of the BigInteger object and everything in it including internal attributes like magnitude. Those attributes do not exist in the input String, but are computed during construction of the BitInteger object.

That will be incompatible to the byte representation of the input String which only carries the initial numeric value with which to create a BigInteger.

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