All Downloads are FREE. Search and download functionalities are using the official Maven repository.

org.bouncycastle.pqc.crypto.gmss.util.WinternitzOTSVerify Maven / Gradle / Ivy

Go to download

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.

There is a newer version: 1.79
Show newest version
package org.bouncycastle.pqc.crypto.gmss.util;

import org.bouncycastle.crypto.Digest;

/**
 * This class implements signature verification of the Winternitz one-time
 * signature scheme (OTSS), described in C.Dods, N.P. Smart, and M. Stam, "Hash
 * Based Digital Signature Schemes", LNCS 3796, pages 96–115, 2005. The
 * class is used by the GMSS classes.
 */
public class WinternitzOTSVerify
{

    private Digest messDigestOTS;

    /**
     * The Winternitz parameter
     */
    private int w;

    /**
     * The constructor
     * 

* * @param digest the name of the hash function used by the OTS and the provider * name of the hash function * @param w the Winternitz parameter */ public WinternitzOTSVerify(Digest digest, int w) { this.w = w; messDigestOTS = digest; } /** * @return The length of the one-time signature */ public int getSignatureLength() { int mdsize = messDigestOTS.getDigestSize(); int size = ((mdsize << 3) + (w - 1)) / w; int logs = getLog((size << w) + 1); size += (logs + w - 1) / w; return mdsize * size; } /** * This method computes the public OTS key from the one-time signature of a * message. This is *NOT* a complete OTS signature verification, but it * suffices for usage with CMSS. * * @param message the message * @param signature the one-time signature * @return The public OTS key */ public byte[] Verify(byte[] message, byte[] signature) { int mdsize = messDigestOTS.getDigestSize(); byte[] hash = new byte[mdsize]; // hash of message m // create hash of message m messDigestOTS.update(message, 0, message.length); hash = new byte[messDigestOTS.getDigestSize()]; messDigestOTS.doFinal(hash, 0); int size = ((mdsize << 3) + (w - 1)) / w; int logs = getLog((size << w) + 1); int keysize = size + (logs + w - 1) / w; int testKeySize = mdsize * keysize; if (testKeySize != signature.length) { return null; } byte[] testKey = new byte[testKeySize]; int c = 0; int counter = 0; int test; if (8 % w == 0) { int d = 8 / w; int k = (1 << w) - 1; byte[] hlp = new byte[mdsize]; // verify signature for (int i = 0; i < hash.length; i++) { for (int j = 0; j < d; j++) { test = hash[i] & k; c += test; System.arraycopy(signature, counter * mdsize, hlp, 0, mdsize); while (test < k) { messDigestOTS.update(hlp, 0, hlp.length); hlp = new byte[messDigestOTS.getDigestSize()]; messDigestOTS.doFinal(hlp, 0); test++; } System.arraycopy(hlp, 0, testKey, counter * mdsize, mdsize); hash[i] = (byte)(hash[i] >>> w); counter++; } } c = (size << w) - c; for (int i = 0; i < logs; i += w) { test = c & k; System.arraycopy(signature, counter * mdsize, hlp, 0, mdsize); while (test < k) { messDigestOTS.update(hlp, 0, hlp.length); hlp = new byte[messDigestOTS.getDigestSize()]; messDigestOTS.doFinal(hlp, 0); test++; } System.arraycopy(hlp, 0, testKey, counter * mdsize, mdsize); c >>>= w; counter++; } } else if (w < 8) { int d = mdsize / w; int k = (1 << w) - 1; byte[] hlp = new byte[mdsize]; long big8; int ii = 0; // create signature // first d*w bytes of hash for (int i = 0; i < d; i++) { big8 = 0; for (int j = 0; j < w; j++) { big8 ^= (hash[ii] & 0xff) << (j << 3); ii++; } for (int j = 0; j < 8; j++) { test = (int)(big8 & k); c += test; System.arraycopy(signature, counter * mdsize, hlp, 0, mdsize); while (test < k) { messDigestOTS.update(hlp, 0, hlp.length); hlp = new byte[messDigestOTS.getDigestSize()]; messDigestOTS.doFinal(hlp, 0); test++; } System.arraycopy(hlp, 0, testKey, counter * mdsize, mdsize); big8 >>>= w; counter++; } } // rest of hash d = mdsize % w; big8 = 0; for (int j = 0; j < d; j++) { big8 ^= (hash[ii] & 0xff) << (j << 3); ii++; } d <<= 3; for (int j = 0; j < d; j += w) { test = (int)(big8 & k); c += test; System.arraycopy(signature, counter * mdsize, hlp, 0, mdsize); while (test < k) { messDigestOTS.update(hlp, 0, hlp.length); hlp = new byte[messDigestOTS.getDigestSize()]; messDigestOTS.doFinal(hlp, 0); test++; } System.arraycopy(hlp, 0, testKey, counter * mdsize, mdsize); big8 >>>= w; counter++; } // check bytes c = (size << w) - c; for (int i = 0; i < logs; i += w) { test = c & k; System.arraycopy(signature, counter * mdsize, hlp, 0, mdsize); while (test < k) { messDigestOTS.update(hlp, 0, hlp.length); hlp = new byte[messDigestOTS.getDigestSize()]; messDigestOTS.doFinal(hlp, 0); test++; } System.arraycopy(hlp, 0, testKey, counter * mdsize, mdsize); c >>>= w; counter++; } }// end if(w<8) else if (w < 57) { int d = (mdsize << 3) - w; int k = (1 << w) - 1; byte[] hlp = new byte[mdsize]; long big8, test8; int r = 0; int s, f, rest, ii; // create signature // first a*w bits of hash where a*w <= 8*mdsize < (a+1)*w while (r <= d) { s = r >>> 3; rest = r % 8; r += w; f = (r + 7) >>> 3; big8 = 0; ii = 0; for (int j = s; j < f; j++) { big8 ^= (hash[j] & 0xff) << (ii << 3); ii++; } big8 >>>= rest; test8 = (big8 & k); c += test8; System.arraycopy(signature, counter * mdsize, hlp, 0, mdsize); while (test8 < k) { messDigestOTS.update(hlp, 0, hlp.length); hlp = new byte[messDigestOTS.getDigestSize()]; messDigestOTS.doFinal(hlp, 0); test8++; } System.arraycopy(hlp, 0, testKey, counter * mdsize, mdsize); counter++; } // rest of hash s = r >>> 3; if (s < mdsize) { rest = r % 8; big8 = 0; ii = 0; for (int j = s; j < mdsize; j++) { big8 ^= (hash[j] & 0xff) << (ii << 3); ii++; } big8 >>>= rest; test8 = (big8 & k); c += test8; System.arraycopy(signature, counter * mdsize, hlp, 0, mdsize); while (test8 < k) { messDigestOTS.update(hlp, 0, hlp.length); hlp = new byte[messDigestOTS.getDigestSize()]; messDigestOTS.doFinal(hlp, 0); test8++; } System.arraycopy(hlp, 0, testKey, counter * mdsize, mdsize); counter++; } // check bytes c = (size << w) - c; for (int i = 0; i < logs; i += w) { test8 = (c & k); System.arraycopy(signature, counter * mdsize, hlp, 0, mdsize); while (test8 < k) { messDigestOTS.update(hlp, 0, hlp.length); hlp = new byte[messDigestOTS.getDigestSize()]; messDigestOTS.doFinal(hlp, 0); test8++; } System.arraycopy(hlp, 0, testKey, counter * mdsize, mdsize); c >>>= w; counter++; } }// end if(w<57) byte[] TKey = new byte[mdsize]; messDigestOTS.update(testKey, 0, testKey.length); TKey = new byte[messDigestOTS.getDigestSize()]; messDigestOTS.doFinal(TKey, 0); return TKey; } /** * This method returns the least integer that is greater or equal to the * logarithm to the base 2 of an integer intValue. * * @param intValue an integer * @return The least integer greater or equal to the logarithm to the base * 256 of intValue */ public int getLog(int intValue) { int log = 1; int i = 2; while (i < intValue) { i <<= 1; log++; } return log; } }





© 2015 - 2024 Weber Informatics LLC | Privacy Policy