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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 1.7. Note: this package includes the IDEA and NTRU encryption algorithms.

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package org.bouncycastle.crypto.params;

import java.io.ByteArrayInputStream;
import java.io.IOException;
import java.io.InputStream;
import java.io.OutputStream;

import org.bouncycastle.math.ntru.polynomial.DenseTernaryPolynomial;
import org.bouncycastle.math.ntru.polynomial.IntegerPolynomial;
import org.bouncycastle.math.ntru.polynomial.Polynomial;
import org.bouncycastle.math.ntru.polynomial.ProductFormPolynomial;
import org.bouncycastle.math.ntru.polynomial.SparseTernaryPolynomial;

/**
 * A NtruEncrypt private key is essentially a polynomial named f
 * which takes different forms depending on whether product-form polynomials are used,
 * and on fastP
* The inverse of f modulo p is precomputed on initialization. */ public class NTRUEncryptionPrivateKeyParameters extends NTRUEncryptionKeyParameters { public Polynomial t; public IntegerPolynomial fp; public IntegerPolynomial h; /** * Constructs a new private key from a polynomial * * @param h the public polynomial for the key. * @param t the polynomial which determines the key: if fastFp=true, f=1+3t; otherwise, f=t * @param fp the inverse of f * @param params the NtruEncrypt parameters to use */ public NTRUEncryptionPrivateKeyParameters(IntegerPolynomial h, Polynomial t, IntegerPolynomial fp, NTRUEncryptionParameters params) { super(true, params); this.h = h; this.t = t; this.fp = fp; } /** * Converts a byte array to a polynomial f and constructs a new private key * * @param b an encoded polynomial * @param params the NtruEncrypt parameters to use * @see #getEncoded() */ public NTRUEncryptionPrivateKeyParameters(byte[] b, NTRUEncryptionParameters params) throws IOException { this(new ByteArrayInputStream(b), params); } /** * Reads a polynomial f from an input stream and constructs a new private key * * @param is an input stream * @param params the NtruEncrypt parameters to use * @see #writeTo(OutputStream) */ public NTRUEncryptionPrivateKeyParameters(InputStream is, NTRUEncryptionParameters params) throws IOException { super(true, params); if (params.polyType == NTRUParameters.TERNARY_POLYNOMIAL_TYPE_PRODUCT) { int N = params.N; int df1 = params.df1; int df2 = params.df2; int df3Ones = params.df3; int df3NegOnes = params.fastFp ? params.df3 : params.df3 - 1; h = IntegerPolynomial.fromBinary(is, params.N, params.q); t = ProductFormPolynomial.fromBinary(is, N, df1, df2, df3Ones, df3NegOnes); } else { h = IntegerPolynomial.fromBinary(is, params.N, params.q); IntegerPolynomial fInt = IntegerPolynomial.fromBinary3Tight(is, params.N); t = params.sparse ? new SparseTernaryPolynomial(fInt) : new DenseTernaryPolynomial(fInt); } init(); } /** * Initializes fp from t. */ private void init() { if (params.fastFp) { fp = new IntegerPolynomial(params.N); fp.coeffs[0] = 1; } else { fp = t.toIntegerPolynomial().invertF3(); } } /** * Converts the key to a byte array * * @return the encoded key * @see #NTRUEncryptionPrivateKeyParameters(byte[], NTRUEncryptionParameters) */ public byte[] getEncoded() { byte[] hBytes = h.toBinary(params.q); byte[] tBytes; if (t instanceof ProductFormPolynomial) { tBytes = ((ProductFormPolynomial)t).toBinary(); } else { tBytes = t.toIntegerPolynomial().toBinary3Tight(); } byte[] res = new byte[hBytes.length + tBytes.length]; System.arraycopy(hBytes, 0, res, 0, hBytes.length); System.arraycopy(tBytes, 0, res, hBytes.length, tBytes.length); return res; } /** * Writes the key to an output stream * * @param os an output stream * @throws IOException * @see #NTRUEncryptionPrivateKeyParameters(InputStream, NTRUEncryptionParameters) */ public void writeTo(OutputStream os) throws IOException { os.write(getEncoded()); } public int hashCode() { final int prime = 31; int result = 1; result = prime * result + ((params == null) ? 0 : params.hashCode()); result = prime * result + ((t == null) ? 0 : t.hashCode()); result = prime * result + ((h == null) ? 0 : h.hashCode()); return result; } public boolean equals(Object obj) { if (this == obj) { return true; } if (obj == null) { return false; } if (!(obj instanceof NTRUEncryptionPrivateKeyParameters)) { return false; } NTRUEncryptionPrivateKeyParameters other = (NTRUEncryptionPrivateKeyParameters)obj; if (params == null) { if (other.params != null) { return false; } } else if (!params.equals(other.params)) { return false; } if (t == null) { if (other.t != null) { return false; } } else if (!t.equals(other.t)) { return false; } if (!h.equals(other.h)) { return false; } return true; } }




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