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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 1.4.

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package org.bouncycastle.crypto.generators;

import org.bouncycastle.crypto.CipherKeyGenerator;
import org.bouncycastle.crypto.KeyGenerationParameters;
import org.bouncycastle.crypto.macs.Poly1305;

/**
 * Generates keys for the Poly1305 MAC.
 * 

* Poly1305 keys are 256 bit keys consisting of a 128 bit secret key used for the underlying block * cipher followed by a 128 bit {@code r} value used for the polynomial portion of the Mac. * The {@code r} value has a specific format with some bits required to be cleared, resulting in an * effective 106 bit key. * A separately generated 256 bit key can be modified to fit the Poly1305 key format by using the * {@link #clamp(byte[])} method to clear the required bits. * * @see Poly1305 */ public class Poly1305KeyGenerator extends CipherKeyGenerator { private static final byte R_MASK_LOW_2 = (byte)0xFC; private static final byte R_MASK_HIGH_4 = (byte)0x0F; /** * Initialises the key generator. * Poly1305 keys are always 256 bits, so the key length in the provided parameters is ignored. */ public void init(KeyGenerationParameters param) { // Poly1305 keys are always 256 bits super.init(new KeyGenerationParameters(param.getRandom(), 256)); } /** * Generates a 256 bit key in the format required for Poly1305 - e.g. * k[0] [] k[15], r[0] [] r[15] with the required bits in r cleared * as per {@link #clamp(byte[])}. */ public byte[] generateKey() { final byte[] key = super.generateKey(); clamp(key); return key; } /** * Modifies an existing 32 byte key value to comply with the requirements of the Poly1305 key by * clearing required bits in the r (second 16 bytes) portion of the key. * Specifically: * * r[3], r[7], r[11], r[15] have top four bits clear (i.e., are {0, 1, . . . , 15}) * r[4], r[8], r[12] have bottom two bits clear (i.e., are in {0, 4, 8, . . . , 252}) * * * @param key a 32 byte key value k[0] [] k[15], r[0] [] r[15] */ public static void clamp(byte[] key) { /* * Key is k[0] [] k[15], r[0] [] r[15] as per poly1305_aes_clamp in ref impl. */ if (key.length != 32) { throw new IllegalArgumentException("Poly1305 key must be 256 bits."); } /* * r[3], r[7], r[11], r[15] have top four bits clear (i.e., are {0, 1, . . . , 15}) */ key[3] &= R_MASK_HIGH_4; key[7] &= R_MASK_HIGH_4; key[11] &= R_MASK_HIGH_4; key[15] &= R_MASK_HIGH_4; /* * r[4], r[8], r[12] have bottom two bits clear (i.e., are in {0, 4, 8, . . . , 252}). */ key[4] &= R_MASK_LOW_2; key[8] &= R_MASK_LOW_2; key[12] &= R_MASK_LOW_2; } /** * Checks a 32 byte key for compliance with the Poly1305 key requirements, e.g. * k[0] [] k[15], r[0] [] r[15] with the required bits in r cleared * as per {@link #clamp(byte[])}. * * @throws IllegalArgumentException if the key is of the wrong length, or has invalid bits set * in the r portion of the key. */ public static void checkKey(byte[] key) { if (key.length != 32) { throw new IllegalArgumentException("Poly1305 key must be 256 bits."); } checkMask(key[3], R_MASK_HIGH_4); checkMask(key[7], R_MASK_HIGH_4); checkMask(key[11], R_MASK_HIGH_4); checkMask(key[15], R_MASK_HIGH_4); checkMask(key[4], R_MASK_LOW_2); checkMask(key[8], R_MASK_LOW_2); checkMask(key[12], R_MASK_LOW_2); } private static void checkMask(byte b, byte mask) { if ((b & (~mask)) != 0) { throw new IllegalArgumentException("Invalid format for r portion of Poly1305 key."); } } }





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