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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.
package org.bouncycastle.pqc.math.ntru.parameters;
import org.bouncycastle.pqc.math.ntru.Polynomial;
/**
* Abstract class for all NTRU parameter sets.
*
* @see NTRUHPSParameterSet
* @see NTRUHRSSParameterSet
* @see NTRU specification document
*/
public abstract class NTRUParameterSet
{
private final int n;
private final int logQ;
private final int seedBytes;
private final int prfKeyBytes;
private final int sharedKeyBytes;
public NTRUParameterSet(int n, int logQ, int seedBytes, int prfKeyBytes, int sharedKeyBytes)
{
this.n = n;
this.logQ = logQ;
this.seedBytes = seedBytes;
this.prfKeyBytes = prfKeyBytes;
this.sharedKeyBytes = sharedKeyBytes;
}
/**
* Creates a polynomial based on this parameter set.
*
* @return an instance of {@link Polynomial}
*/
public abstract Polynomial createPolynomial();
/**
* n
*
* @return n is a prime and both 2 and 3 are of order n − 1 in (Z/n)×
*/
public int n()
{
return n;
}
/**
* logq
*
* @return log2(q)
*/
public int logQ()
{
return logQ;
}
/**
* q
*
* @return q is a power of two
*/
public int q()
{
return 1 << logQ;
}
/**
* The number of random bytes consumed by keygen.
*
* @return {@code key_seed_bits/8}
*/
public int seedBytes()
{
return seedBytes;
}
/**
* The number of bytes used to key the implicit rejection mechanism.
*
* @return {@code prf_key_bits/8}
*/
public int prfKeyBytes()
{
return prfKeyBytes;
}
/**
* @return {@code kem_shared_key_bits/8}
*/
public int sharedKeyBytes()
{
return sharedKeyBytes;
}
/**
* @return {@code sample_iid_bits/8}
*/
public int sampleIidBytes()
{
return n - 1;
}
/**
* @return {@code sample_xed_type_bits}
*/
public int sampleFixedTypeBytes()
{
return (30 * (n - 1) + 7) / 8;
}
/**
* @return {@code sample_key_bits/8}
*/
public abstract int sampleFgBytes();
/**
* @return {@code sample_plaintext_bits/8}
*/
public abstract int sampleRmBytes();
public int packDegree()
{
return n - 1;
}
/**
* @return {@code packed_s3_bytes}
*/
public int packTrinaryBytes()
{
return (packDegree() + 4) / 5;
}
/**
* The number of bytes in a plaintext for the DPKE.
*
* @return {@code dpke_plaintext_bytes}
*/
public int owcpaMsgBytes()
{
return 2 * packTrinaryBytes();
}
/**
* The number of bytes in a public key for the DPKE.
*
* @return {@code dpke_public_key_bytes}
*/
public int owcpaPublicKeyBytes()
{
return (logQ * packDegree() + 7) / 8;
}
/**
* The number of bytes in a private key for the DPKE.
*
* @return {@code dpke_private_key_bytes}
*/
public int owcpaSecretKeyBytes()
{
return 2 * packTrinaryBytes() + owcpaPublicKeyBytes();
}
/**
* The number of bytes in a ciphertext for the DPKE.
*
* @return {@code dpke_ciphertext_bytes}
*/
public int owcpaBytes()
{
return (logQ * packDegree() + 7) / 8;
}
/**
* The number of bytes in a public key for the KEM.
*
* @return {@code kem_public_key_bytes}
*/
public int ntruPublicKeyBytes()
{
return owcpaPublicKeyBytes();
}
/**
* The number of bytes in a private key for the KEM.
*
* @return {@code kem_private_key_bytes}
*/
public int ntruSecretKeyBytes()
{
return owcpaSecretKeyBytes() + prfKeyBytes;
}
/**
* The number of bytes in a ciphertext for the KEM.
*
* @return {@code kem_ciphertext_bytes}
*/
public int ntruCiphertextBytes()
{
return owcpaBytes();
}
}
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