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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 and up.

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package org.bouncycastle.crypto.digests;

/*
  The BLAKE2 cryptographic hash function was designed by Jean-
  Philippe Aumasson, Samuel Neves, Zooko Wilcox-O'Hearn, and Christian
  Winnerlein.

  Reference Implementation and Description can be found at: https://blake2.net/blake2x.pdf
 */

import org.bouncycastle.crypto.Xof;
import org.bouncycastle.util.Arrays;

/**
 * Implementation of the eXtendable Output Function (XOF) BLAKE2xs.
 * 

* BLAKE2xs offers a built-in keying mechanism to be used directly * for authentication ("Prefix-MAC") rather than a HMAC construction. *

* BLAKE2xs offers a built-in support for a salt for randomized hashing * and a personal string for defining a unique hash function for each application. *

* BLAKE2xs is optimized for 32-bit platforms and produces digests of any size * between 1 and 2^16-2 bytes. The length can also be unknown and then the maximum * length will be 2^32 blocks of 32 bytes. */ public class Blake2xsDigest implements Xof { /** * Magic number to indicate an unknown length of digest */ public static final int UNKNOWN_DIGEST_LENGTH = 65535; private static final int DIGEST_LENGTH = 32; private static final long MAX_NUMBER_BLOCKS = 1L << 32; /** * Expected digest length for the xof. It can be unknown. */ private int digestLength; /** * Root hash that will take the updates */ private Blake2sDigest hash; /** * Digest of the root hash */ private byte[] h0 = null; /** * Digest of each round of the XOF */ private byte[] buf = new byte[32]; /** * Current position for a round */ private int bufPos = 32; /** * Overall position of the digest. It is useful when the length is known * in advance to get last block length. */ private int digestPos = 0; /** * Keep track of the round number to detect the end of the digest after * 2^32 blocks of 32 bytes. */ private long blockPos = 0; /** * Current node offset incremented by 1 every round. */ private long nodeOffset; /** * BLAKE2xs for hashing with unknown digest length */ public Blake2xsDigest() { this(Blake2xsDigest.UNKNOWN_DIGEST_LENGTH); } /** * BLAKE2xs for hashing * * @param digestBytes The desired digest length in bytes. Must be above 1 and less than 2^16-1 */ public Blake2xsDigest(int digestBytes) { this(digestBytes, null, null, null); } /** * BLAKE2xs with key * * @param digestBytes The desired digest length in bytes. Must be above 1 and less than 2^16-1 * @param key A key up to 32 bytes or null */ public Blake2xsDigest(int digestBytes, byte[] key) { this(digestBytes, key, null, null); } /** * BLAKE2xs with key, salt and personalization * * @param digestBytes The desired digest length in bytes. Must be above 1 and less than 2^16-1 * @param key A key up to 32 bytes or null * @param salt 8 bytes or null * @param personalization 8 bytes or null */ public Blake2xsDigest(int digestBytes, byte[] key, byte[] salt, byte[] personalization) { if (digestBytes < 1 || digestBytes > Blake2xsDigest.UNKNOWN_DIGEST_LENGTH) { throw new IllegalArgumentException( "BLAKE2xs digest length must be between 1 and 2^16-1"); } digestLength = digestBytes; nodeOffset = computeNodeOffset(); hash = new Blake2sDigest(Blake2xsDigest.DIGEST_LENGTH, key, salt, personalization, nodeOffset); } public Blake2xsDigest(Blake2xsDigest digest) { digestLength = digest.digestLength; hash = new Blake2sDigest(digest.hash); h0 = Arrays.clone(digest.h0); buf = Arrays.clone(digest.buf); bufPos = digest.bufPos; digestPos = digest.digestPos; blockPos = digest.blockPos; nodeOffset = digest.nodeOffset; } /** * Return the algorithm name. * * @return the algorithm name */ public String getAlgorithmName() { return "BLAKE2xs"; } /** * Return the size in bytes of the digest produced by this message digest. * * @return the size in bytes of the digest produced by this message digest. */ public int getDigestSize() { return digestLength; } /** * Return the size in bytes of the internal buffer the digest applies its * compression function to. * * @return byte length of the digest's internal buffer. */ public int getByteLength() { return hash.getByteLength(); } /** * Return the maximum size in bytes the digest can produce when the length * is unknown * * @return byte length of the largest digest with unknown length */ public long getUnknownMaxLength() { return Blake2xsDigest.MAX_NUMBER_BLOCKS * Blake2xsDigest.DIGEST_LENGTH; } /** * Update the message digest with a single byte. * * @param in the input byte to be entered. */ public void update(byte in) { hash.update(in); } /** * Update the message digest with a block of bytes. * * @param in the byte array containing the data. * @param inOff the offset into the byte array where the data starts. * @param len the length of the data. */ public void update(byte[] in, int inOff, int len) { hash.update(in, inOff, len); } /** * Reset the digest back to its initial state. The key, the salt and the * personal string will remain for further computations. */ public void reset() { hash.reset(); h0 = null; bufPos = Blake2xsDigest.DIGEST_LENGTH; digestPos = 0; blockPos = 0; nodeOffset = computeNodeOffset(); } /** * Close the digest, producing the final digest value. The doFinal() call * leaves the digest reset. Key, salt and personal string remain. * * @param out the array the digest is to be copied into. * @param outOffset the offset into the out array the digest is to start at. */ public int doFinal(byte[] out, int outOffset) { return doFinal(out, outOffset, out.length); } /** * Close the digest, producing the final digest value. The doFinal() call * leaves the digest reset. Key, salt, personal string remain. * * @param out output array to write the output bytes to. * @param outOff offset to start writing the bytes at. * @param outLen the number of output bytes requested. */ public int doFinal(byte[] out, int outOff, int outLen) { int ret = doOutput(out, outOff, outLen); reset(); return ret; } /** * Start outputting the results of the final calculation for this digest. Unlike doFinal, this method * will continue producing output until the Xof is explicitly reset, or signals otherwise. * * @param out output array to write the output bytes to. * @param outOff offset to start writing the bytes at. * @param outLen the number of output bytes requested. * @return the number of bytes written */ public int doOutput(byte[] out, int outOff, int outLen) { if (h0 == null) { h0 = new byte[hash.getDigestSize()]; hash.doFinal(h0, 0); } if (digestLength != Blake2xsDigest.UNKNOWN_DIGEST_LENGTH) { if (digestPos + outLen > digestLength) { throw new IllegalArgumentException( "Output length is above the digest length"); } } else if (blockPos << 5 >= getUnknownMaxLength()) { throw new IllegalArgumentException( "Maximum length is 2^32 blocks of 32 bytes"); } for (int i = 0; i < outLen; i++) { if (bufPos >= Blake2xsDigest.DIGEST_LENGTH) { Blake2sDigest h = new Blake2sDigest(computeStepLength(), Blake2xsDigest.DIGEST_LENGTH, nodeOffset); h.update(h0, 0, h0.length); Arrays.fill(buf, (byte)0); h.doFinal(buf, 0); bufPos = 0; nodeOffset++; blockPos++; } out[i] = buf[bufPos]; bufPos++; digestPos++; } return outLen; } // get the next round length. If the length is unknown, the digest length is // always the maximum. private int computeStepLength() { if (digestLength == Blake2xsDigest.UNKNOWN_DIGEST_LENGTH) { return Blake2xsDigest.DIGEST_LENGTH; } return Math.min(Blake2xsDigest.DIGEST_LENGTH, digestLength - digestPos); } private long computeNodeOffset() { return digestLength * 0x100000000L; } }





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