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The Bouncy Castle Crypto package is a Java implementation of cryptographic algorithms. This jar contains JCE provider and lightweight API for the Bouncy Castle Cryptography APIs for JDK 1.5 to JDK 1.7. Note: this package includes the IDEA and NTRU encryption algorithms.

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package org.bouncycastle.crypto.macs;

import org.bouncycastle.crypto.CipherParameters;
import org.bouncycastle.crypto.DataLengthException;
import org.bouncycastle.crypto.Mac;
import org.bouncycastle.crypto.params.KeyParameter;
import org.bouncycastle.util.Pack;

/**
 * Implementation of SipHash as specified in "SipHash: a fast short-input PRF", by Jean-Philippe
 * Aumasson and Daniel J. Bernstein (https://131002.net/siphash/siphash.pdf).
 * 

* "SipHash is a family of PRFs SipHash-c-d where the integer parameters c and d are the number of * compression rounds and the number of finalization rounds. A compression round is identical to a * finalization round and this round function is called SipRound. Given a 128-bit key k and a * (possibly empty) byte string m, SipHash-c-d returns a 64-bit value..." */ public class SipHash implements Mac { protected final int c, d; protected long k0, k1; protected long v0, v1, v2, v3; protected long m = 0; protected int wordPos = 0; protected int wordCount = 0; /** * SipHash-2-4 */ public SipHash() { // use of 'this' confuses the flow analyser on earlier JDKs. this.c = 2; this.d = 4; } /** * SipHash-c-d * * @param c the number of compression rounds * @param d the number of finalization rounds */ public SipHash(int c, int d) { this.c = c; this.d = d; } public String getAlgorithmName() { return "SipHash-" + c + "-" + d; } public int getMacSize() { return 8; } public void init(CipherParameters params) throws IllegalArgumentException { if (!(params instanceof KeyParameter)) { throw new IllegalArgumentException("'params' must be an instance of KeyParameter"); } KeyParameter keyParameter = (KeyParameter)params; byte[] key = keyParameter.getKey(); if (key.length != 16) { throw new IllegalArgumentException("'params' must be a 128-bit key"); } this.k0 = Pack.littleEndianToLong(key, 0); this.k1 = Pack.littleEndianToLong(key, 8); reset(); } public void update(byte input) throws IllegalStateException { m >>>= 8; m |= (input & 0xffL) << 56; if (++wordPos == 8) { processMessageWord(); wordPos = 0; } } public void update(byte[] input, int offset, int length) throws DataLengthException, IllegalStateException { int i = 0, fullWords = length & ~7; if (wordPos == 0) { for (; i < fullWords; i += 8) { m = Pack.littleEndianToLong(input, offset + i); processMessageWord(); } for (; i < length; ++i) { m >>>= 8; m |= (input[offset + i] & 0xffL) << 56; } wordPos = length - fullWords; } else { int bits = wordPos << 3; for (; i < fullWords; i += 8) { long n = Pack.littleEndianToLong(input, offset + i); m = (n << bits) | (m >>> -bits); processMessageWord(); m = n; } for (; i < length; ++i) { m >>>= 8; m |= (input[offset + i] & 0xffL) << 56; if (++wordPos == 8) { processMessageWord(); wordPos = 0; } } } } public long doFinal() throws DataLengthException, IllegalStateException { // NOTE: 2 distinct shifts to avoid "64-bit shift" when wordPos == 0 m >>>= ((7 - wordPos) << 3); m >>>= 8; m |= (((wordCount << 3) + wordPos) & 0xffL) << 56; processMessageWord(); v2 ^= 0xffL; applySipRounds(d); long result = v0 ^ v1 ^ v2 ^ v3; reset(); return result; } public int doFinal(byte[] out, int outOff) throws DataLengthException, IllegalStateException { long result = doFinal(); Pack.longToLittleEndian(result, out, outOff); return 8; } public void reset() { v0 = k0 ^ 0x736f6d6570736575L; v1 = k1 ^ 0x646f72616e646f6dL; v2 = k0 ^ 0x6c7967656e657261L; v3 = k1 ^ 0x7465646279746573L; m = 0; wordPos = 0; wordCount = 0; } protected void processMessageWord() { ++wordCount; v3 ^= m; applySipRounds(c); v0 ^= m; } protected void applySipRounds(int n) { long r0 = v0, r1 = v1, r2 = v2, r3 = v3; for (int r = 0; r < n; ++r) { r0 += r1; r2 += r3; r1 = rotateLeft(r1, 13); r3 = rotateLeft(r3, 16); r1 ^= r0; r3 ^= r2; r0 = rotateLeft(r0, 32); r2 += r1; r0 += r3; r1 = rotateLeft(r1, 17); r3 = rotateLeft(r3, 21); r1 ^= r2; r3 ^= r0; r2 = rotateLeft(r2, 32); } v0 = r0; v1 = r1; v2 = r2; v3 = r3; } protected static long rotateLeft(long x, int n) { return (x << n) | (x >>> -n); } }





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