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When calculating sha256 in Java and in Swift, it does not match.

Java:

MessageDigest digest = MessageDigest.getInstance("SHA-256");
digest.update(secretKey.getBytes("UTF-8"));

byte[] secretKeyBytes = secretKey.getBytes("UTF-8");

byte[] keyBytes = new byte[16];
System.arraycopy(digest.digest(), 0, keyBytes, 0, keyBytes.length);

Result: [44, 112, -31, 43, 122, 6, 70, -7, 34, 121, -12, 39, -57, -77, -114, 115]

Swift:

let secretKeyBytes = [UInt8](secretKey.utf8)

var digest = SHA2(variant: SHA2.Variant.sha256)
try digest.update(withBytes: secretKeyBytes)
let keyDigest = try digest.finish()

let keyBytes = Array(keyDigest[0...15])

Result: [44, 112, 225, 43, 122, 6, 70, 249, 34, 121, 244, 39, 199, 179, 142, 115]

It starts with same values but then it starts to differ

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1 Answer 1

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Bytes in Java are signed, so they can only represent the values of -128 to 127, as such when it tries to represent 225 (the third byte) it overflows to -31. The actual binary representation of both bytes will be the same 1110 0001.

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  • Any idea how to solve that without modifying Java code? I cannot change that now. Tried to convert UInt8 in Swift to Int8, but it is not accepted by CryptoSwift library. Oct 9, 2017 at 11:13
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    @JakubGruber, you can map resulting keyBytes into [Int8] using Int8(bitPattern:) Oct 9, 2017 at 11:20
  • 1
    Well, then keep it in UInt8 then, binary those two hashes are same. Oct 9, 2017 at 11:27
  • 4
    So the textual representation of the arrays differ, but the contents of the array (the binary values, represented by the byte values) are identical. As long as you make sure that you compare the binary values directly or as long as you compare identical representation of the bytes then you should be good. Oct 9, 2017 at 12:38

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