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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.pqc.crypto.gmss;

import java.security.SecureRandom;

import org.bouncycastle.crypto.CipherParameters;
import org.bouncycastle.crypto.Digest;
import org.bouncycastle.crypto.params.ParametersWithRandom;
import org.bouncycastle.pqc.crypto.MessageSigner;
import org.bouncycastle.pqc.crypto.gmss.util.GMSSRandom;
import org.bouncycastle.pqc.crypto.gmss.util.GMSSUtil;
import org.bouncycastle.pqc.crypto.gmss.util.WinternitzOTSVerify;
import org.bouncycastle.pqc.crypto.gmss.util.WinternitzOTSignature;
import org.bouncycastle.util.Arrays;

/**
 * This class implements the GMSS signature scheme.
 */
public class GMSSSigner
    implements MessageSigner
{

    /**
     * Instance of GMSSParameterSpec
     */
    //private GMSSParameterSpec gmssParameterSpec;

    /**
     * Instance of GMSSUtilities
     */
    private GMSSUtil gmssUtil = new GMSSUtil();


    /**
     * The raw GMSS public key
     */
    private byte[] pubKeyBytes;

    /**
     * Hash function for the construction of the authentication trees
     */
    private Digest messDigestTrees;

    /**
     * The length of the hash function output
     */
    private int mdLength;

    /**
     * The number of tree layers
     */
    private int numLayer;

    /**
     * The hash function used by the OTS
     */
    private Digest messDigestOTS;

    /**
     * An instance of the Winternitz one-time signature
     */
    private WinternitzOTSignature ots;

    /**
     * Array of strings containing the name of the hash function used by the OTS
     * and the corresponding provider name
     */
    private GMSSDigestProvider digestProvider;

    /**
     * The current main tree and subtree indices
     */
    private int[] index;

    /**
     * Array of the authentication paths for the current trees of all layers
     */
    private byte[][][] currentAuthPaths;

    /**
     * The one-time signature of the roots of the current subtrees
     */
    private byte[][] subtreeRootSig;


    /**
     * The GMSSParameterset
     */
    private GMSSParameters gmssPS;

    /**
     * The PRNG
     */
    private GMSSRandom gmssRandom;

    GMSSKeyParameters key;

    // XXX needed? Source of randomness
    private SecureRandom random;


    /**
     * The standard constructor tries to generate the MerkleTree Algorithm
     * identifier with the corresponding OID.
     *
     * @param digest     the digest to use
     */
    // TODO
    public GMSSSigner(GMSSDigestProvider digest)
    {
        digestProvider = digest;
        messDigestTrees = digest.get();
        messDigestOTS = messDigestTrees;
        mdLength = messDigestTrees.getDigestSize();
        gmssRandom = new GMSSRandom(messDigestTrees);
    }

    public void init(boolean forSigning,
                     CipherParameters param)
    {

        if (forSigning)
        {
            if (param instanceof ParametersWithRandom)
            {
                ParametersWithRandom rParam = (ParametersWithRandom)param;

                // XXX random needed?
                this.random = rParam.getRandom();
                this.key = (GMSSPrivateKeyParameters)rParam.getParameters();
                initSign();

            }
            else
            {

                this.random = new SecureRandom();
                this.key = (GMSSPrivateKeyParameters)param;
                initSign();
            }
        }
        else
        {
            this.key = (GMSSPublicKeyParameters)param;
            initVerify();

        }

    }


    /**
     * Initializes the signature algorithm for signing a message.
     */
    private void initSign()
    {
        messDigestTrees.reset();
        // set private key and take from it ots key, auth, tree and key
        // counter, rootSign
        GMSSPrivateKeyParameters gmssPrivateKey = (GMSSPrivateKeyParameters)key;

        if (gmssPrivateKey.isUsed())
        {
            throw new IllegalStateException("Private key already used");
        }

        // check if last signature has been generated
        if (gmssPrivateKey.getIndex(0) >= gmssPrivateKey.getNumLeafs(0))
        {
            throw new IllegalStateException("No more signatures can be generated");
        }

        // get Parameterset
        this.gmssPS = gmssPrivateKey.getParameters();
        // get numLayer
        this.numLayer = gmssPS.getNumOfLayers();

        // get OTS Instance of lowest layer
        byte[] seed = gmssPrivateKey.getCurrentSeeds()[numLayer - 1];
        byte[] OTSSeed = new byte[mdLength];
        byte[] dummy = new byte[mdLength];
        System.arraycopy(seed, 0, dummy, 0, mdLength);
        OTSSeed = gmssRandom.nextSeed(dummy); // secureRandom.nextBytes(currentSeeds[currentSeeds.length-1]);secureRandom.nextBytes(OTSseed);
        this.ots = new WinternitzOTSignature(OTSSeed, digestProvider.get(), gmssPS.getWinternitzParameter()[numLayer - 1]);

        byte[][][] helpCurrentAuthPaths = gmssPrivateKey.getCurrentAuthPaths();
        currentAuthPaths = new byte[numLayer][][];

        // copy the main tree authentication path
        for (int j = 0; j < numLayer; j++)
        {
            currentAuthPaths[j] = new byte[helpCurrentAuthPaths[j].length][mdLength];
            for (int i = 0; i < helpCurrentAuthPaths[j].length; i++)
            {
                System.arraycopy(helpCurrentAuthPaths[j][i], 0, currentAuthPaths[j][i], 0, mdLength);
            }
        }

        // copy index
        index = new int[numLayer];
        System.arraycopy(gmssPrivateKey.getIndex(), 0, index, 0, numLayer);

        // copy subtreeRootSig
        byte[] helpSubtreeRootSig;
        subtreeRootSig = new byte[numLayer - 1][];
        for (int i = 0; i < numLayer - 1; i++)
        {
            helpSubtreeRootSig = gmssPrivateKey.getSubtreeRootSig(i);
            subtreeRootSig[i] = new byte[helpSubtreeRootSig.length];
            System.arraycopy(helpSubtreeRootSig, 0, subtreeRootSig[i], 0, helpSubtreeRootSig.length);
        }

        gmssPrivateKey.markUsed();
    }

    /**
     * Signs a message.
     * 

* * @return the signature. */ public byte[] generateSignature(byte[] message) { byte[] otsSig = new byte[mdLength]; byte[] authPathBytes; byte[] indexBytes; otsSig = ots.getSignature(message); // get concatenated lowest layer tree authentication path authPathBytes = gmssUtil.concatenateArray(currentAuthPaths[numLayer - 1]); // put lowest layer index into a byte array indexBytes = gmssUtil.intToBytesLittleEndian(index[numLayer - 1]); // create first part of GMSS signature byte[] gmssSigFirstPart = new byte[indexBytes.length + otsSig.length + authPathBytes.length]; System.arraycopy(indexBytes, 0, gmssSigFirstPart, 0, indexBytes.length); System.arraycopy(otsSig, 0, gmssSigFirstPart, indexBytes.length, otsSig.length); System.arraycopy(authPathBytes, 0, gmssSigFirstPart, (indexBytes.length + otsSig.length), authPathBytes.length); // --- end first part // --- next parts of the signature // create initial array with length 0 for iteration byte[] gmssSigNextPart = new byte[0]; for (int i = numLayer - 1 - 1; i >= 0; i--) { // get concatenated next tree authentication path authPathBytes = gmssUtil.concatenateArray(currentAuthPaths[i]); // put next tree index into a byte array indexBytes = gmssUtil.intToBytesLittleEndian(index[i]); // create next part of GMSS signature // create help array and copy actual gmssSig into it byte[] helpGmssSig = new byte[gmssSigNextPart.length]; System.arraycopy(gmssSigNextPart, 0, helpGmssSig, 0, gmssSigNextPart.length); // adjust length of gmssSigNextPart for adding next part gmssSigNextPart = new byte[helpGmssSig.length + indexBytes.length + subtreeRootSig[i].length + authPathBytes.length]; // copy old data (help array) and new data in gmssSigNextPart System.arraycopy(helpGmssSig, 0, gmssSigNextPart, 0, helpGmssSig.length); System.arraycopy(indexBytes, 0, gmssSigNextPart, helpGmssSig.length, indexBytes.length); System.arraycopy(subtreeRootSig[i], 0, gmssSigNextPart, (helpGmssSig.length + indexBytes.length), subtreeRootSig[i].length); System.arraycopy(authPathBytes, 0, gmssSigNextPart, (helpGmssSig.length + indexBytes.length + subtreeRootSig[i].length), authPathBytes.length); } // --- end next parts // concatenate the two parts of the GMSS signature byte[] gmssSig = new byte[gmssSigFirstPart.length + gmssSigNextPart.length]; System.arraycopy(gmssSigFirstPart, 0, gmssSig, 0, gmssSigFirstPart.length); System.arraycopy(gmssSigNextPart, 0, gmssSig, gmssSigFirstPart.length, gmssSigNextPart.length); // return the GMSS signature return gmssSig; } /** * Initializes the signature algorithm for verifying a signature. */ private void initVerify() { messDigestTrees.reset(); GMSSPublicKeyParameters gmssPublicKey = (GMSSPublicKeyParameters)key; pubKeyBytes = gmssPublicKey.getPublicKey(); gmssPS = gmssPublicKey.getParameters(); // get numLayer this.numLayer = gmssPS.getNumOfLayers(); } /** * This function verifies the signature of the message that has been * updated, with the aid of the public key. * * @param message the message * @param signature the signature associated with the message * @return true if the signature has been verified, false otherwise. */ public boolean verifySignature(byte[] message, byte[] signature) { boolean success = false; // int halfSigLength = signature.length >>> 1; messDigestOTS.reset(); WinternitzOTSVerify otsVerify; int otsSigLength; byte[] help = message; byte[] otsSig; byte[] otsPublicKey; byte[][] authPath; byte[] dest; int nextEntry = 0; int index; // Verify signature // --- begin with message = 'message that was signed' // and then in each step message = subtree root for (int j = numLayer - 1; j >= 0; j--) { otsVerify = new WinternitzOTSVerify(digestProvider.get(), gmssPS.getWinternitzParameter()[j]); otsSigLength = otsVerify.getSignatureLength(); message = help; // get the subtree index index = gmssUtil.bytesToIntLittleEndian(signature, nextEntry); // 4 is the number of bytes in integer nextEntry += 4; // get one-time signature otsSig = new byte[otsSigLength]; System.arraycopy(signature, nextEntry, otsSig, 0, otsSigLength); nextEntry += otsSigLength; // compute public OTS key from the one-time signature otsPublicKey = otsVerify.Verify(message, otsSig); // test if OTSsignature is correct if (otsPublicKey == null) { System.err.println("OTS Public Key is null in GMSSSignature.verify"); return false; } // get authentication path from the signature authPath = new byte[gmssPS.getHeightOfTrees()[j]][mdLength]; for (int i = 0; i < authPath.length; i++) { System.arraycopy(signature, nextEntry, authPath[i], 0, mdLength); nextEntry = nextEntry + mdLength; } // compute the root of the subtree from the authentication path help = new byte[mdLength]; help = otsPublicKey; int count = 1 << authPath.length; count = count + index; for (int i = 0; i < authPath.length; i++) { dest = new byte[mdLength << 1]; if ((count % 2) == 0) { System.arraycopy(help, 0, dest, 0, mdLength); System.arraycopy(authPath[i], 0, dest, mdLength, mdLength); count = count / 2; } else { System.arraycopy(authPath[i], 0, dest, 0, mdLength); System.arraycopy(help, 0, dest, mdLength, help.length); count = (count - 1) / 2; } messDigestTrees.update(dest, 0, dest.length); help = new byte[messDigestTrees.getDigestSize()]; messDigestTrees.doFinal(help, 0); } } // now help contains the root of the maintree // test if help is equal to the GMSS public key if (Arrays.areEqual(pubKeyBytes, help)) { success = true; } return success; } }





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