org.bouncycastle.pqc.crypto.xmss.BDSTreeHash Maven / Gradle / Ivy
Go to download
Show more of this group Show more artifacts with this name
Show all versions of bcprov-debug-jdk15to18 Show documentation
Show all versions of bcprov-debug-jdk15to18 Show documentation
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.
package org.bouncycastle.pqc.crypto.xmss;
import java.io.Serializable;
import java.util.Stack;
class BDSTreeHash
implements Serializable, Cloneable
{
private static final long serialVersionUID = 1L;
private XMSSNode tailNode;
private final int initialHeight;
private int height;
private int nextIndex;
private boolean initialized;
private boolean finished;
BDSTreeHash(int initialHeight)
{
super();
this.initialHeight = initialHeight;
initialized = false;
finished = false;
}
void initialize(int nextIndex)
{
tailNode = null;
height = initialHeight;
this.nextIndex = nextIndex;
initialized = true;
finished = false;
}
void update(Stack stack, WOTSPlus wotsPlus, byte[] publicSeed, byte[] secretSeed, OTSHashAddress otsHashAddress)
{
if (otsHashAddress == null)
{
throw new NullPointerException("otsHashAddress == null");
}
if (finished || !initialized)
{
throw new IllegalStateException("finished or not initialized");
}
/* prepare addresses */
otsHashAddress = (OTSHashAddress)new OTSHashAddress.Builder()
.withLayerAddress(otsHashAddress.getLayerAddress()).withTreeAddress(otsHashAddress.getTreeAddress())
.withOTSAddress(nextIndex).withChainAddress(otsHashAddress.getChainAddress())
.withHashAddress(otsHashAddress.getHashAddress()).withKeyAndMask(otsHashAddress.getKeyAndMask())
.build();
LTreeAddress lTreeAddress = (LTreeAddress)new LTreeAddress.Builder()
.withLayerAddress(otsHashAddress.getLayerAddress()).withTreeAddress(otsHashAddress.getTreeAddress())
.withLTreeAddress(nextIndex).build();
HashTreeAddress hashTreeAddress = (HashTreeAddress)new HashTreeAddress.Builder()
.withLayerAddress(otsHashAddress.getLayerAddress()).withTreeAddress(otsHashAddress.getTreeAddress())
.withTreeIndex(nextIndex).build();
/* calculate leaf node */
wotsPlus.importKeys(wotsPlus.getWOTSPlusSecretKey(secretSeed, otsHashAddress), publicSeed);
WOTSPlusPublicKeyParameters wotsPlusPublicKey = wotsPlus.getPublicKey(otsHashAddress);
XMSSNode node = XMSSNodeUtil.lTree(wotsPlus, wotsPlusPublicKey, lTreeAddress);
while (!stack.isEmpty() && stack.peek().getHeight() == node.getHeight()
&& stack.peek().getHeight() != initialHeight)
{
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();
}
if (tailNode == null)
{
tailNode = node;
}
else
{
if (tailNode.getHeight() == node.getHeight())
{
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, tailNode, node, hashTreeAddress);
node = new XMSSNode(tailNode.getHeight() + 1, node.getValue());
tailNode = node;
hashTreeAddress = (HashTreeAddress)new HashTreeAddress.Builder()
.withLayerAddress(hashTreeAddress.getLayerAddress())
.withTreeAddress(hashTreeAddress.getTreeAddress())
.withTreeHeight(hashTreeAddress.getTreeHeight() + 1)
.withTreeIndex(hashTreeAddress.getTreeIndex())
.withKeyAndMask(hashTreeAddress.getKeyAndMask()).build();
}
else
{
stack.push(node);
}
}
if (tailNode.getHeight() == initialHeight)
{
finished = true;
}
else
{
height = node.getHeight();
nextIndex++;
}
}
int getHeight()
{
if (!initialized || finished)
{
return Integer.MAX_VALUE;
}
return height;
}
int getIndexLeaf()
{
return nextIndex;
}
void setNode(XMSSNode node)
{
tailNode = node;
height = node.getHeight();
if (height == initialHeight)
{
finished = true;
}
}
boolean isFinished()
{
return finished;
}
boolean isInitialized()
{
return initialized;
}
public XMSSNode getTailNode()
{
return tailNode;
}
protected BDSTreeHash clone()
{
BDSTreeHash th = new BDSTreeHash(this.initialHeight);
th.tailNode = this.tailNode;
th.height = this.height;
th.nextIndex = this.nextIndex;
th.initialized = this.initialized;
th.finished = this.finished;
return th;
}
}
© 2015 - 2024 Weber Informatics LLC | Privacy Policy