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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 1.8. Note: this package includes the NTRU encryption algorithms.
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package org.bouncycastle.pqc.crypto.xmss;
import java.io.IOException;
import java.io.ObjectInputStream;
import java.io.ObjectOutputStream;
import java.io.Serializable;
import java.util.ArrayList;
import java.util.Iterator;
import java.util.LinkedList;
import java.util.List;
import java.util.Map;
import java.util.Stack;
import java.util.TreeMap;
import org.bouncycastle.asn1.ASN1ObjectIdentifier;
/**
* BDS.
*/
public final class BDS
implements Serializable
{
private static final long serialVersionUID = 1L;
private transient WOTSPlus wotsPlus;
private final int treeHeight;
private final List treeHashInstances;
private int k;
private XMSSNode root;
private List authenticationPath;
private Map> retain;
private Stack stack;
private Map keep;
private int index;
private boolean used;
private transient int maxIndex;
/**
* Place holder BDS for when state is exhausted.
*
* @param params tree parameters
* @param index the index that has been reached.
*/
BDS(XMSSParameters params, int maxIndex, int index)
{
this(params.getWOTSPlus(), params.getHeight(), params.getK(), index);
this.maxIndex = maxIndex;
this.index = index;
this.used = true;
}
/**
* Set up constructor.
*
* @param params tree parameters
* @param publicSeed public seed for tree
* @param secretKeySeed secret seed for tree
* @param otsHashAddress hash address
*/
BDS(XMSSParameters params, byte[] publicSeed, byte[] secretKeySeed, OTSHashAddress otsHashAddress)
{
this(params.getWOTSPlus(), params.getHeight(), params.getK(), ((1 << params.getHeight()) - 1));
this.initialize(publicSeed, secretKeySeed, otsHashAddress);
}
/**
* Set up constructor for a tree where the original BDS state was lost.
*
* @param params tree parameters
* @param publicSeed public seed for tree
* @param secretKeySeed secret seed for tree
* @param otsHashAddress hash address
* @param index index counter for the state to be at.
*/
BDS(XMSSParameters params, byte[] publicSeed, byte[] secretKeySeed, OTSHashAddress otsHashAddress, int index)
{
this(params.getWOTSPlus(), params.getHeight(), params.getK(), ((1 << params.getHeight()) - 1));
this.initialize(publicSeed, secretKeySeed, otsHashAddress);
while (this.index < index)
{
this.nextAuthenticationPath(publicSeed, secretKeySeed, otsHashAddress);
this.used = false;
}
}
private BDS(WOTSPlus wotsPlus, int treeHeight, int k, int maxIndex)
{
this.wotsPlus = wotsPlus;
this.treeHeight = treeHeight;
this.maxIndex = maxIndex;
this.k = k;
if (k > treeHeight || k < 2 || ((treeHeight - k) % 2) != 0)
{
throw new IllegalArgumentException("illegal value for BDS parameter k");
}
authenticationPath = new ArrayList();
retain = new TreeMap>();
stack = new Stack();
treeHashInstances = new ArrayList();
for (int height = 0; height < (treeHeight - k); height++)
{
treeHashInstances.add(new BDSTreeHash(height));
}
keep = new TreeMap();
index = 0;
this.used = false;
}
BDS(BDS last)
{
this.wotsPlus = new WOTSPlus(last.wotsPlus.getParams());
this.treeHeight = last.treeHeight;
this.k = last.k;
this.root = last.root;
this.authenticationPath = new ArrayList(); // note use of addAll to avoid serialization issues
this.authenticationPath.addAll(last.authenticationPath);
this.retain = new TreeMap>();
for (Iterator it = last.retain.keySet().iterator(); it.hasNext();)
{
Integer key = (Integer)it.next();
this.retain.put(key, (LinkedList)last.retain.get(key).clone());
}
this.stack = new Stack(); // note use of addAll to avoid serialization issues
this.stack.addAll(last.stack);
this.treeHashInstances = new ArrayList();
for (Iterator it = last.treeHashInstances.iterator(); it.hasNext();)
{
this.treeHashInstances.add(((BDSTreeHash)it.next()).clone());
}
this.keep = new TreeMap(last.keep);
this.index = last.index;
this.maxIndex = last.maxIndex;
this.used = last.used;
}
private BDS(BDS last, byte[] publicSeed, byte[] secretKeySeed, OTSHashAddress otsHashAddress)
{
this.wotsPlus = new WOTSPlus(last.wotsPlus.getParams());
this.treeHeight = last.treeHeight;
this.k = last.k;
this.root = last.root;
this.authenticationPath = new ArrayList(); // note use of addAll to avoid serialization issues
this.authenticationPath.addAll(last.authenticationPath);
this.retain = new TreeMap>();
for (Iterator it = last.retain.keySet().iterator(); it.hasNext();)
{
Integer key = (Integer)it.next();
this.retain.put(key, (LinkedList)last.retain.get(key).clone());
}
this.stack = new Stack(); // note use of addAll to avoid serialization issues
this.stack.addAll(last.stack);
this.treeHashInstances = new ArrayList();
for (Iterator it = last.treeHashInstances.iterator(); it.hasNext();)
{
this.treeHashInstances.add(((BDSTreeHash)it.next()).clone());
}
this.keep = new TreeMap(last.keep);
this.index = last.index;
this.maxIndex = last.maxIndex;
this.used = false;
this.nextAuthenticationPath(publicSeed, secretKeySeed, otsHashAddress);
}
private BDS(BDS last, ASN1ObjectIdentifier digest)
{
this.wotsPlus = new WOTSPlus(new WOTSPlusParameters(digest));
this.treeHeight = last.treeHeight;
this.k = last.k;
this.root = last.root;
this.authenticationPath = new ArrayList(); // note use of addAll to avoid serialization issues
this.authenticationPath.addAll(last.authenticationPath);
this.retain = new TreeMap>();
for (Iterator it = last.retain.keySet().iterator(); it.hasNext();)
{
Integer key = (Integer)it.next();
this.retain.put(key, (LinkedList)last.retain.get(key).clone());
}
this.stack = new Stack(); // note use of addAll to avoid serialization issues
this.stack.addAll(last.stack);
this.treeHashInstances = new ArrayList();
for (Iterator it = last.treeHashInstances.iterator(); it.hasNext();)
{
this.treeHashInstances.add(((BDSTreeHash)it.next()).clone());
}
this.keep = new TreeMap(last.keep);
this.index = last.index;
this.maxIndex = last.maxIndex;
this.used = last.used;
this.validate();
}
private BDS(BDS last, int maxIndex, ASN1ObjectIdentifier digest)
{
this.wotsPlus = new WOTSPlus(new WOTSPlusParameters(digest));
this.treeHeight = last.treeHeight;
this.k = last.k;
this.root = last.root;
this.authenticationPath = new ArrayList(); // note use of addAll to avoid serialization issues
this.authenticationPath.addAll(last.authenticationPath);
this.retain = new TreeMap>();
for (Iterator it = last.retain.keySet().iterator(); it.hasNext();)
{
Integer key = (Integer)it.next();
this.retain.put(key, (LinkedList)last.retain.get(key).clone());
}
this.stack = new Stack(); // note use of addAll to avoid serialization issues
this.stack.addAll(last.stack);
this.treeHashInstances = new ArrayList();
for (Iterator it = last.treeHashInstances.iterator(); it.hasNext();)
{
this.treeHashInstances.add(((BDSTreeHash)it.next()).clone());
}
this.keep = new TreeMap(last.keep);
this.index = last.index;
this.maxIndex = maxIndex;
this.used = last.used;
this.validate();
}
public BDS getNextState(byte[] publicSeed, byte[] secretKeySeed, OTSHashAddress otsHashAddress)
{
return new BDS(this, publicSeed, secretKeySeed, otsHashAddress);
}
private void initialize(byte[] publicSeed, byte[] secretSeed, OTSHashAddress otsHashAddress)
{
if (otsHashAddress == null)
{
throw new NullPointerException("otsHashAddress == null");
}
/* prepare addresses */
LTreeAddress lTreeAddress = (LTreeAddress)new LTreeAddress.Builder()
.withLayerAddress(otsHashAddress.getLayerAddress()).withTreeAddress(otsHashAddress.getTreeAddress())
.build();
HashTreeAddress hashTreeAddress = (HashTreeAddress)new HashTreeAddress.Builder()
.withLayerAddress(otsHashAddress.getLayerAddress()).withTreeAddress(otsHashAddress.getTreeAddress())
.build();
/* iterate indexes */
for (int indexLeaf = 0; indexLeaf < (1 << treeHeight); indexLeaf++)
{
/* generate leaf */
otsHashAddress = (OTSHashAddress)new OTSHashAddress.Builder()
.withLayerAddress(otsHashAddress.getLayerAddress()).withTreeAddress(otsHashAddress.getTreeAddress())
.withOTSAddress(indexLeaf).withChainAddress(otsHashAddress.getChainAddress())
.withHashAddress(otsHashAddress.getHashAddress()).withKeyAndMask(otsHashAddress.getKeyAndMask())
.build();
/*
* import WOTSPlusSecretKey as its needed to calculate the public
* key on the fly
*/
wotsPlus.importKeys(wotsPlus.getWOTSPlusSecretKey(secretSeed, otsHashAddress), publicSeed);
WOTSPlusPublicKeyParameters wotsPlusPublicKey = wotsPlus.getPublicKey(otsHashAddress);
lTreeAddress = (LTreeAddress)new LTreeAddress.Builder().withLayerAddress(lTreeAddress.getLayerAddress())
.withTreeAddress(lTreeAddress.getTreeAddress()).withLTreeAddress(indexLeaf)
.withTreeHeight(lTreeAddress.getTreeHeight()).withTreeIndex(lTreeAddress.getTreeIndex())
.withKeyAndMask(lTreeAddress.getKeyAndMask()).build();
XMSSNode node = XMSSNodeUtil.lTree(wotsPlus, wotsPlusPublicKey, lTreeAddress);
hashTreeAddress = (HashTreeAddress)new HashTreeAddress.Builder()
.withLayerAddress(hashTreeAddress.getLayerAddress())
.withTreeAddress(hashTreeAddress.getTreeAddress()).withTreeIndex(indexLeaf)
.withKeyAndMask(hashTreeAddress.getKeyAndMask()).build();
while (!stack.isEmpty() && stack.peek().getHeight() == node.getHeight())
{
/* add to authenticationPath if leafIndex == 1 */
int indexOnHeight = indexLeaf / (1 << node.getHeight());
if (indexOnHeight == 1)
{
authenticationPath.add(node);
}
/* store next right authentication node */
if (indexOnHeight == 3 && node.getHeight() < (treeHeight - k))
{
treeHashInstances.get(node.getHeight()).setNode(node);
}
if (indexOnHeight >= 3 && (indexOnHeight & 1) == 1 && node.getHeight() >= (treeHeight - k)
&& node.getHeight() <= (treeHeight - 2))
{
if (retain.get(node.getHeight()) == null)
{
LinkedList queue = new LinkedList();
queue.add(node);
retain.put(node.getHeight(), queue);
}
else
{
retain.get(node.getHeight()).add(node);
}
}
hashTreeAddress = (HashTreeAddress)new HashTreeAddress.Builder()
.withLayerAddress(hashTreeAddress.getLayerAddress())
.withTreeAddress(hashTreeAddress.getTreeAddress())
.withTreeHeight(hashTreeAddress.getTreeHeight())
.withTreeIndex((hashTreeAddress.getTreeIndex() - 1) / 2)
.withKeyAndMask(hashTreeAddress.getKeyAndMask()).build();
node = XMSSNodeUtil.randomizeHash(wotsPlus, stack.pop(), node, hashTreeAddress);
node = new XMSSNode(node.getHeight() + 1, node.getValue());
hashTreeAddress = (HashTreeAddress)new HashTreeAddress.Builder()
.withLayerAddress(hashTreeAddress.getLayerAddress())
.withTreeAddress(hashTreeAddress.getTreeAddress())
.withTreeHeight(hashTreeAddress.getTreeHeight() + 1)
.withTreeIndex(hashTreeAddress.getTreeIndex()).withKeyAndMask(hashTreeAddress.getKeyAndMask())
.build();
}
/* push to stack */
stack.push(node);
}
root = stack.pop();
}
private void nextAuthenticationPath(byte[] publicSeed, byte[] secretSeed, OTSHashAddress otsHashAddress)
{
if (otsHashAddress == null)
{
throw new NullPointerException("otsHashAddress == null");
}
if (used)
{
throw new IllegalStateException("index already used");
}
if (index > maxIndex - 1)
{
throw new IllegalStateException("index out of bounds");
}
/* determine tau */
int tau = XMSSUtil.calculateTau(index, treeHeight);
/* parent of leaf on height tau+1 is a left node */
if (((index >> (tau + 1)) & 1) == 0 && (tau < (treeHeight - 1)))
{
keep.put(tau, authenticationPath.get(tau));
}
/* prepare addresses */
LTreeAddress lTreeAddress = (LTreeAddress)new LTreeAddress.Builder()
.withLayerAddress(otsHashAddress.getLayerAddress()).withTreeAddress(otsHashAddress.getTreeAddress())
.build();
HashTreeAddress hashTreeAddress = (HashTreeAddress)new HashTreeAddress.Builder()
.withLayerAddress(otsHashAddress.getLayerAddress()).withTreeAddress(otsHashAddress.getTreeAddress())
.build();
/* leaf is a left node */
if (tau == 0)
{
otsHashAddress = (OTSHashAddress)new OTSHashAddress.Builder()
.withLayerAddress(otsHashAddress.getLayerAddress()).withTreeAddress(otsHashAddress.getTreeAddress())
.withOTSAddress(index).withChainAddress(otsHashAddress.getChainAddress())
.withHashAddress(otsHashAddress.getHashAddress()).withKeyAndMask(otsHashAddress.getKeyAndMask())
.build();
/*
* import WOTSPlusSecretKey as its needed to calculate the public
* key on the fly
*/
wotsPlus.importKeys(wotsPlus.getWOTSPlusSecretKey(secretSeed, otsHashAddress), publicSeed);
WOTSPlusPublicKeyParameters wotsPlusPublicKey = wotsPlus.getPublicKey(otsHashAddress);
lTreeAddress = (LTreeAddress)new LTreeAddress.Builder().withLayerAddress(lTreeAddress.getLayerAddress())
.withTreeAddress(lTreeAddress.getTreeAddress()).withLTreeAddress(index)
.withTreeHeight(lTreeAddress.getTreeHeight()).withTreeIndex(lTreeAddress.getTreeIndex())
.withKeyAndMask(lTreeAddress.getKeyAndMask()).build();
XMSSNode node = XMSSNodeUtil.lTree(wotsPlus, wotsPlusPublicKey, lTreeAddress);
authenticationPath.set(0, node);
}
else
{
/* add new left node on height tau to authentication path */
hashTreeAddress = (HashTreeAddress)new HashTreeAddress.Builder()
.withLayerAddress(hashTreeAddress.getLayerAddress())
.withTreeAddress(hashTreeAddress.getTreeAddress()).withTreeHeight(tau - 1)
.withTreeIndex(index >> tau).withKeyAndMask(hashTreeAddress.getKeyAndMask()).build();
/*
* import WOTSPlusSecretKey as its needed to calculate the public
* key on the fly
*/
wotsPlus.importKeys(wotsPlus.getWOTSPlusSecretKey(secretSeed, otsHashAddress), publicSeed);
XMSSNode node = XMSSNodeUtil.randomizeHash(wotsPlus, authenticationPath.get(tau - 1), keep.get(tau - 1), hashTreeAddress);
node = new XMSSNode(node.getHeight() + 1, node.getValue());
authenticationPath.set(tau, node);
keep.remove(tau - 1);
/* add new right nodes to authentication path */
for (int height = 0; height < tau; height++)
{
if (height < (treeHeight - k))
{
authenticationPath.set(height, treeHashInstances.get(height).getTailNode());
}
else
{
authenticationPath.set(height, retain.get(height).removeFirst());
}
}
/* reinitialize treehash instances */
int minHeight = Math.min(tau, treeHeight - k);
for (int height = 0; height < minHeight; height++)
{
int startIndex = index + 1 + (3 * (1 << height));
if (startIndex < (1 << treeHeight))
{
treeHashInstances.get(height).initialize(startIndex);
}
}
}
/* update treehash instances */
for (int i = 0; i < (treeHeight - k) >> 1; i++)
{
BDSTreeHash treeHash = getBDSTreeHashInstanceForUpdate();
if (treeHash != null)
{
treeHash.update(stack, wotsPlus, publicSeed, secretSeed, otsHashAddress);
}
}
index++;
}
boolean isUsed()
{
return used;
}
void markUsed()
{
this.used = true;
}
private BDSTreeHash getBDSTreeHashInstanceForUpdate()
{
BDSTreeHash ret = null;
for (BDSTreeHash treeHash : treeHashInstances)
{
if (treeHash.isFinished() || !treeHash.isInitialized())
{
continue;
}
if (ret == null)
{
ret = treeHash;
continue;
}
if (treeHash.getHeight() < ret.getHeight())
{
ret = treeHash;
continue;
}
if (treeHash.getHeight() == ret.getHeight())
{
if (treeHash.getIndexLeaf() < ret.getIndexLeaf())
{
ret = treeHash;
}
}
}
return ret;
}
private void validate()
{
if (authenticationPath == null)
{
throw new IllegalStateException("authenticationPath == null");
}
if (retain == null)
{
throw new IllegalStateException("retain == null");
}
if (stack == null)
{
throw new IllegalStateException("stack == null");
}
if (treeHashInstances == null)
{
throw new IllegalStateException("treeHashInstances == null");
}
if (keep == null)
{
throw new IllegalStateException("keep == null");
}
if (!XMSSUtil.isIndexValid(treeHeight, index))
{
throw new IllegalStateException("index in BDS state out of bounds");
}
}
protected int getTreeHeight()
{
return treeHeight;
}
protected XMSSNode getRoot()
{
return root;
}
protected List getAuthenticationPath()
{
List authenticationPath = new ArrayList();
for (XMSSNode node : this.authenticationPath)
{
authenticationPath.add(node);
}
return authenticationPath;
}
protected int getIndex()
{
return index;
}
public int getMaxIndex()
{
return maxIndex;
}
public BDS withWOTSDigest(ASN1ObjectIdentifier digestName)
{
return new BDS(this, digestName);
}
public BDS withMaxIndex(int maxIndex, ASN1ObjectIdentifier digestName)
{
return new BDS(this, maxIndex, digestName);
}
private void readObject(
ObjectInputStream in)
throws IOException, ClassNotFoundException
{
in.defaultReadObject();
if (in.available() != 0)
{
this.maxIndex = in.readInt();
}
else
{
this.maxIndex = (1 << treeHeight) - 1;
}
if (maxIndex > ((1 << treeHeight) - 1) || index > (maxIndex + 1) || in.available() != 0)
{
throw new IOException("inconsistent BDS data detected");
}
}
private void writeObject(
ObjectOutputStream out)
throws IOException
{
out.defaultWriteObject();
out.writeInt(this.maxIndex);
}
}