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package sun.security.rsa;
import java.io.IOException;
import java.math.BigInteger;
import java.security.*;
import java.security.interfaces.*;
import sun.security.util.*;
import sun.security.x509.AlgorithmId;
import sun.security.pkcs.PKCS8Key;
Key implementation for RSA private keys, CRT form. For non-CRT private
keys, see RSAPrivateKeyImpl. We need separate classes to ensure
correct behavior in instanceof checks, etc.
Note: RSA keys must be at least 512 bits long
Author: Andreas Sterbenz See Also: - RSAPrivateKeyImpl
- RSAKeyFactory
Since: 1.5
/**
* Key implementation for RSA private keys, CRT form. For non-CRT private
* keys, see RSAPrivateKeyImpl. We need separate classes to ensure
* correct behavior in instanceof checks, etc.
*
* Note: RSA keys must be at least 512 bits long
*
* @see RSAPrivateKeyImpl
* @see RSAKeyFactory
*
* @since 1.5
* @author Andreas Sterbenz
*/
public final class RSAPrivateCrtKeyImpl
extends PKCS8Key implements RSAPrivateCrtKey {
private static final long serialVersionUID = -1326088454257084918L;
private BigInteger n; // modulus
private BigInteger e; // public exponent
private BigInteger d; // private exponent
private BigInteger p; // prime p
private BigInteger q; // prime q
private BigInteger pe; // prime exponent p
private BigInteger qe; // prime exponent q
private BigInteger coeff; // CRT coeffcient
// algorithmId used to identify RSA keys
static final AlgorithmId rsaId =
new AlgorithmId(AlgorithmId.RSAEncryption_oid);
Generate a new key from its encoding. Returns a CRT key if possible
and a non-CRT key otherwise. Used by RSAKeyFactory.
/**
* Generate a new key from its encoding. Returns a CRT key if possible
* and a non-CRT key otherwise. Used by RSAKeyFactory.
*/
public static RSAPrivateKey newKey(byte[] encoded)
throws InvalidKeyException {
RSAPrivateCrtKeyImpl key = new RSAPrivateCrtKeyImpl(encoded);
if (key.getPublicExponent().signum() == 0) {
// public exponent is missing, return a non-CRT key
return new RSAPrivateKeyImpl(
key.getModulus(),
key.getPrivateExponent()
);
} else {
return key;
}
}
Construct a key from its encoding. Called from newKey above.
/**
* Construct a key from its encoding. Called from newKey above.
*/
RSAPrivateCrtKeyImpl(byte[] encoded) throws InvalidKeyException {
decode(encoded);
RSAKeyFactory.checkRSAProviderKeyLengths(n.bitLength(), e);
}
Construct a key from its components. Used by the
RSAKeyFactory and the RSAKeyPairGenerator.
/**
* Construct a key from its components. Used by the
* RSAKeyFactory and the RSAKeyPairGenerator.
*/
RSAPrivateCrtKeyImpl(BigInteger n, BigInteger e, BigInteger d,
BigInteger p, BigInteger q, BigInteger pe, BigInteger qe,
BigInteger coeff) throws InvalidKeyException {
this.n = n;
this.e = e;
this.d = d;
this.p = p;
this.q = q;
this.pe = pe;
this.qe = qe;
this.coeff = coeff;
RSAKeyFactory.checkRSAProviderKeyLengths(n.bitLength(), e);
// generate the encoding
algid = rsaId;
try {
DerOutputStream out = new DerOutputStream();
out.putInteger(0); // version must be 0
out.putInteger(n);
out.putInteger(e);
out.putInteger(d);
out.putInteger(p);
out.putInteger(q);
out.putInteger(pe);
out.putInteger(qe);
out.putInteger(coeff);
DerValue val =
new DerValue(DerValue.tag_Sequence, out.toByteArray());
key = val.toByteArray();
} catch (IOException exc) {
// should never occur
throw new InvalidKeyException(exc);
}
}
// see JCA doc
public String getAlgorithm() {
return "RSA";
}
// see JCA doc
public BigInteger getModulus() {
return n;
}
// see JCA doc
public BigInteger getPublicExponent() {
return e;
}
// see JCA doc
public BigInteger getPrivateExponent() {
return d;
}
// see JCA doc
public BigInteger getPrimeP() {
return p;
}
// see JCA doc
public BigInteger getPrimeQ() {
return q;
}
// see JCA doc
public BigInteger getPrimeExponentP() {
return pe;
}
// see JCA doc
public BigInteger getPrimeExponentQ() {
return qe;
}
// see JCA doc
public BigInteger getCrtCoefficient() {
return coeff;
}
Parse the key. Called by PKCS8Key.
/**
* Parse the key. Called by PKCS8Key.
*/
protected void parseKeyBits() throws InvalidKeyException {
try {
DerInputStream in = new DerInputStream(key);
DerValue derValue = in.getDerValue();
if (derValue.tag != DerValue.tag_Sequence) {
throw new IOException("Not a SEQUENCE");
}
DerInputStream data = derValue.data;
int version = data.getInteger();
if (version != 0) {
throw new IOException("Version must be 0");
}
/*
* Some implementations do not correctly encode ASN.1 INTEGER values
* in 2's complement format, resulting in a negative integer when
* decoded. Correct the error by converting it to a positive integer.
*
* See CR 6255949
*/
n = data.getPositiveBigInteger();
e = data.getPositiveBigInteger();
d = data.getPositiveBigInteger();
p = data.getPositiveBigInteger();
q = data.getPositiveBigInteger();
pe = data.getPositiveBigInteger();
qe = data.getPositiveBigInteger();
coeff = data.getPositiveBigInteger();
if (derValue.data.available() != 0) {
throw new IOException("Extra data available");
}
} catch (IOException e) {
throw new InvalidKeyException("Invalid RSA private key", e);
}
}
}