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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 org.bouncycastle.util.Arrays;
import org.bouncycastle.util.Encodable;
import org.bouncycastle.util.Pack;
/**
* XMSS Private Key.
*/
public final class XMSSPrivateKeyParameters
extends XMSSKeyParameters
implements XMSSStoreableObjectInterface, Encodable
{
/**
* XMSS parameters object.
*/
private final XMSSParameters params;
/**
* Secret for the derivation of WOTS+ secret keys.
*/
private final byte[] secretKeySeed;
/**
* Secret for the randomization of message digests during signature
* creation.
*/
private final byte[] secretKeyPRF;
/**
* Public seed for the randomization of hashes.
*/
private final byte[] publicSeed;
/**
* Public root of binary tree.
*/
private final byte[] root;
/**
* BDS state.
*/
private volatile BDS bdsState;
private XMSSPrivateKeyParameters(Builder builder)
{
super(true, builder.params.getTreeDigest());
params = builder.params;
if (params == null)
{
throw new NullPointerException("params == null");
}
int n = params.getTreeDigestSize();
byte[] privateKey = builder.privateKey;
if (privateKey != null)
{
/* import */
int height = params.getHeight();
int indexSize = 4;
int secretKeySize = n;
int secretKeyPRFSize = n;
int publicSeedSize = n;
int rootSize = n;
/*
int totalSize = indexSize + secretKeySize + secretKeyPRFSize + publicSeedSize + rootSize;
if (privateKey.length != totalSize) {
throw new ParseException("private key has wrong size", 0);
}
*/
int position = 0;
int index = Pack.bigEndianToInt(privateKey, position);
if (!XMSSUtil.isIndexValid(height, index))
{
throw new IllegalArgumentException("index out of bounds");
}
position += indexSize;
secretKeySeed = XMSSUtil.extractBytesAtOffset(privateKey, position, secretKeySize);
position += secretKeySize;
secretKeyPRF = XMSSUtil.extractBytesAtOffset(privateKey, position, secretKeyPRFSize);
position += secretKeyPRFSize;
publicSeed = XMSSUtil.extractBytesAtOffset(privateKey, position, publicSeedSize);
position += publicSeedSize;
root = XMSSUtil.extractBytesAtOffset(privateKey, position, rootSize);
position += rootSize;
/* import BDS state */
byte[] bdsStateBinary = XMSSUtil.extractBytesAtOffset(privateKey, position, privateKey.length - position);
try
{
BDS bdsImport = (BDS)XMSSUtil.deserialize(bdsStateBinary, BDS.class);
if (bdsImport.getIndex() != index)
{
throw new IllegalStateException("serialized BDS has wrong index");
}
bdsState = bdsImport.withWOTSDigest(builder.params.getTreeDigestOID());
}
catch (IOException e)
{
throw new IllegalArgumentException(e.getMessage(), e);
}
catch (ClassNotFoundException e)
{
throw new IllegalArgumentException(e.getMessage(), e);
}
}
else
{
/* set */
byte[] tmpSecretKeySeed = builder.secretKeySeed;
if (tmpSecretKeySeed != null)
{
if (tmpSecretKeySeed.length != n)
{
throw new IllegalArgumentException("size of secretKeySeed needs to be equal size of digest");
}
secretKeySeed = tmpSecretKeySeed;
}
else
{
secretKeySeed = new byte[n];
}
byte[] tmpSecretKeyPRF = builder.secretKeyPRF;
if (tmpSecretKeyPRF != null)
{
if (tmpSecretKeyPRF.length != n)
{
throw new IllegalArgumentException("size of secretKeyPRF needs to be equal size of digest");
}
secretKeyPRF = tmpSecretKeyPRF;
}
else
{
secretKeyPRF = new byte[n];
}
byte[] tmpPublicSeed = builder.publicSeed;
if (tmpPublicSeed != null)
{
if (tmpPublicSeed.length != n)
{
throw new IllegalArgumentException("size of publicSeed needs to be equal size of digest");
}
publicSeed = tmpPublicSeed;
}
else
{
publicSeed = new byte[n];
}
byte[] tmpRoot = builder.root;
if (tmpRoot != null)
{
if (tmpRoot.length != n)
{
throw new IllegalArgumentException("size of root needs to be equal size of digest");
}
root = tmpRoot;
}
else
{
root = new byte[n];
}
BDS tmpBDSState = builder.bdsState;
if (tmpBDSState != null)
{
bdsState = tmpBDSState;
}
else
{
if (builder.index < ((1 << params.getHeight()) - 2) && tmpPublicSeed != null && tmpSecretKeySeed != null)
{
bdsState = new BDS(params, tmpPublicSeed, tmpSecretKeySeed, (OTSHashAddress)new OTSHashAddress.Builder().build(), builder.index);
}
else
{
bdsState = new BDS(params, (1 << params.getHeight()) - 1, builder.index);
}
}
if (builder.maxIndex >= 0 && builder.maxIndex != bdsState.getMaxIndex())
{
throw new IllegalArgumentException("maxIndex set but not reflected in state");
}
}
}
public long getUsagesRemaining()
{
synchronized (this)
{
return this.bdsState.getMaxIndex() - this.getIndex() + 1;
}
}
public byte[] getEncoded()
throws IOException
{
synchronized (this)
{
return toByteArray();
}
}
XMSSPrivateKeyParameters rollKey()
{
synchronized (this)
{
/* prepare authentication path for next leaf */
if (bdsState.getIndex() < bdsState.getMaxIndex())
{
bdsState = bdsState.getNextState(publicSeed, secretKeySeed, (OTSHashAddress)new OTSHashAddress.Builder().build());
}
else
{
bdsState = new BDS(params, bdsState.getMaxIndex(), bdsState.getMaxIndex() + 1); // no more nodes left.
}
return this;
}
}
public XMSSPrivateKeyParameters getNextKey()
{
synchronized (this)
{
XMSSPrivateKeyParameters keyParameters = this.extractKeyShard(1);
return keyParameters;
}
}
/**
* Return a key that can be used usageCount times.
*
* Note: this will use the range [index...index + usageCount) for the current key.
*
* @param usageCount the number of usages the key should have.
* @return a key based on the current key that can be used usageCount times.
*/
public XMSSPrivateKeyParameters extractKeyShard(int usageCount)
{
if (usageCount < 1)
{
throw new IllegalArgumentException("cannot ask for a shard with 0 keys");
}
synchronized (this)
{
/* prepare authentication path for next leaf */
if (usageCount <= this.getUsagesRemaining())
{
XMSSPrivateKeyParameters keyParams = new XMSSPrivateKeyParameters.Builder(params)
.withSecretKeySeed(secretKeySeed).withSecretKeyPRF(secretKeyPRF)
.withPublicSeed(publicSeed).withRoot(root)
.withIndex(getIndex())
.withBDSState(bdsState.withMaxIndex(bdsState.getIndex() + usageCount - 1,
params.getTreeDigestOID())).build();
if (usageCount == this.getUsagesRemaining())
{
this.bdsState = new BDS(params, bdsState.getMaxIndex(), getIndex() + usageCount); // we're finished.
}
else
{
// update the tree to the new index.
OTSHashAddress hashAddress = (OTSHashAddress)new OTSHashAddress.Builder().build();
for (int i = 0; i != usageCount; i++)
{
this.bdsState = bdsState.getNextState(publicSeed, secretKeySeed, hashAddress);
}
}
return keyParams;
}
else
{
throw new IllegalArgumentException("usageCount exceeds usages remaining");
}
}
}
public static class Builder
{
/* mandatory */
private final XMSSParameters params;
/* optional */
private int index = 0;
private int maxIndex = -1;
private byte[] secretKeySeed = null;
private byte[] secretKeyPRF = null;
private byte[] publicSeed = null;
private byte[] root = null;
private BDS bdsState = null;
private byte[] privateKey = null;
public Builder(XMSSParameters params)
{
super();
this.params = params;
}
public Builder withIndex(int val)
{
index = val;
return this;
}
public Builder withMaxIndex(int val)
{
maxIndex = val;
return this;
}
public Builder withSecretKeySeed(byte[] val)
{
secretKeySeed = XMSSUtil.cloneArray(val);
return this;
}
public Builder withSecretKeyPRF(byte[] val)
{
secretKeyPRF = XMSSUtil.cloneArray(val);
return this;
}
public Builder withPublicSeed(byte[] val)
{
publicSeed = XMSSUtil.cloneArray(val);
return this;
}
public Builder withRoot(byte[] val)
{
root = XMSSUtil.cloneArray(val);
return this;
}
public Builder withBDSState(BDS valBDS)
{
bdsState = valBDS;
return this;
}
public Builder withPrivateKey(byte[] privateKeyVal)
{
privateKey = XMSSUtil.cloneArray(privateKeyVal);
return this;
}
public XMSSPrivateKeyParameters build()
{
return new XMSSPrivateKeyParameters(this);
}
}
/**
* @deprecated use getEncoded() - this method will become private.
*/
public byte[] toByteArray()
{
synchronized (this)
{
/* index || secretKeySeed || secretKeyPRF || publicSeed || root */
int n = params.getTreeDigestSize();
int indexSize = 4;
int secretKeySize = n;
int secretKeyPRFSize = n;
int publicSeedSize = n;
int rootSize = n;
int totalSize = indexSize + secretKeySize + secretKeyPRFSize + publicSeedSize + rootSize;
byte[] out = new byte[totalSize];
int position = 0;
/* copy index */
Pack.intToBigEndian(bdsState.getIndex(), out, position);
position += indexSize;
/* copy secretKeySeed */
XMSSUtil.copyBytesAtOffset(out, secretKeySeed, position);
position += secretKeySize;
/* copy secretKeyPRF */
XMSSUtil.copyBytesAtOffset(out, secretKeyPRF, position);
position += secretKeyPRFSize;
/* copy publicSeed */
XMSSUtil.copyBytesAtOffset(out, publicSeed, position);
position += publicSeedSize;
/* copy root */
XMSSUtil.copyBytesAtOffset(out, root, position);
/* concatenate bdsState */
byte[] bdsStateOut = null;
try
{
bdsStateOut = XMSSUtil.serialize(bdsState);
}
catch (IOException e)
{
throw new RuntimeException("error serializing bds state: " + e.getMessage());
}
return Arrays.concatenate(out, bdsStateOut);
}
}
public int getIndex()
{
return bdsState.getIndex();
}
public byte[] getSecretKeySeed()
{
return XMSSUtil.cloneArray(secretKeySeed);
}
public byte[] getSecretKeyPRF()
{
return XMSSUtil.cloneArray(secretKeyPRF);
}
public byte[] getPublicSeed()
{
return XMSSUtil.cloneArray(publicSeed);
}
public byte[] getRoot()
{
return XMSSUtil.cloneArray(root);
}
BDS getBDSState()
{
return bdsState;
}
public XMSSParameters getParameters()
{
return params;
}
}