I've been given the task of creating a Login API for our project and I'm supposed to use PBKDF2 with HMACSHA256 as the PRF. The plain text password is hashed using MD5 and then fed into the PBKDF2 to generate a derived key. The problem is, I'm not able to get the same output as what the project documentation is telling me.
Here's the PBKDF2 Implementation in Java:
public class PBKDF2
{
public static byte[] deriveKey( byte[] password, byte[] salt, int iterationCount, int dkLen )
throws java.security.NoSuchAlgorithmException, java.security.InvalidKeyException
{
SecretKeySpec keyspec = new SecretKeySpec( password, "HmacSHA256" );
Mac prf = Mac.getInstance( "HmacSHA256" );
prf.init( keyspec );
// Note: hLen, dkLen, l, r, T, F, etc. are horrible names for
// variables and functions in this day and age, but they
// reflect the terse symbols used in RFC 2898 to describe
// the PBKDF2 algorithm, which improves validation of the
// code vs. the RFC.
//
// dklen is expressed in bytes. (16 for a 128-bit key)
int hLen = prf.getMacLength(); // 20 for SHA1
int l = Math.max( dkLen, hLen); // 1 for 128bit (16-byte) keys
int r = dkLen - (l-1)*hLen; // 16 for 128bit (16-byte) keys
byte T[] = new byte[l * hLen];
int ti_offset = 0;
for (int i = 1; i <= l; i++) {
F( T, ti_offset, prf, salt, iterationCount, i );
ti_offset += hLen;
}
if (r < hLen) {
// Incomplete last block
byte DK[] = new byte[dkLen];
System.arraycopy(T, 0, DK, 0, dkLen);
return DK;
}
return T;
}
private static void F( byte[] dest, int offset, Mac prf, byte[] S, int c, int blockIndex ) {
final int hLen = prf.getMacLength();
byte U_r[] = new byte[ hLen ];
// U0 = S || INT (i);
byte U_i[] = new byte[S.length + 4];
System.arraycopy( S, 0, U_i, 0, S.length );
INT( U_i, S.length, blockIndex );
for( int i = 0; i < c; i++ ) {
U_i = prf.doFinal( U_i );
xor( U_r, U_i );
}
System.arraycopy( U_r, 0, dest, offset, hLen );
}
private static void xor( byte[] dest, byte[] src ) {
for( int i = 0; i < dest.length; i++ ) {
dest[i] ^= src[i];
}
}
private static void INT( byte[] dest, int offset, int i ) {
dest[offset + 0] = (byte) (i / (256 * 256 * 256));
dest[offset + 1] = (byte) (i / (256 * 256));
dest[offset + 2] = (byte) (i / (256));
dest[offset + 3] = (byte) (i);
}
// ctor
private PBKDF2 () {}
}
I used test vectors found here PBKDF2-HMAC-SHA2 test vectors to verify the correctness of the implementation and it all checked out. I'm not sure why I couldn't the same results with an MD5 hashed password.
Parameters:
Salt: 000102030405060708090A0B0C0D0E0F101112131415161718191A1B1C1D1E1F
Iterations Count: 1000
DKLen: 16 (128-bit derived key)
Using "foobar" as the plaintext password, the expected results are:
PWHash = MD5(PlaintextPassword) = 3858f62230ac3c915f300c664312c63f
PWKey = PBKDF2(PWHash, Salt, IterationsCount, DKLen) = 33C37758EFA6780C5E52FAB3B50F329C
What I get:
PWHash = 3858f62230ac3c915f300c664312c63f
PWKey = 0bd0c7d8339df2c66ce4b6e1e91ed3f1
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