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⏎ java/security/KeyFactory.java
/*
* Copyright (c) 1997, 2017, Oracle and/or its affiliates. All rights reserved.
* ORACLE PROPRIETARY/CONFIDENTIAL. Use is subject to license terms.
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package java.security;
import java.util.*;
import java.security.Provider.Service;
import java.security.spec.KeySpec;
import java.security.spec.InvalidKeySpecException;
import sun.security.util.Debug;
import sun.security.jca.*;
import sun.security.jca.GetInstance.Instance;
/**
* Key factories are used to convert <I>keys</I> (opaque
* cryptographic keys of type {@code Key}) into <I>key specifications</I>
* (transparent representations of the underlying key material), and vice
* versa.
*
* <P> Key factories are bi-directional. That is, they allow you to build an
* opaque key object from a given key specification (key material), or to
* retrieve the underlying key material of a key object in a suitable format.
*
* <P> Multiple compatible key specifications may exist for the same key.
* For example, a DSA public key may be specified using
* {@code DSAPublicKeySpec} or
* {@code X509EncodedKeySpec}. A key factory can be used to translate
* between compatible key specifications.
*
* <P> The following is an example of how to use a key factory in order to
* instantiate a DSA public key from its encoding.
* Assume Alice has received a digital signature from Bob.
* Bob also sent her his public key (in encoded format) to verify
* his signature. Alice then performs the following actions:
*
* <pre>
* X509EncodedKeySpec bobPubKeySpec = new X509EncodedKeySpec(bobEncodedPubKey);
* KeyFactory keyFactory = KeyFactory.getInstance("DSA");
* PublicKey bobPubKey = keyFactory.generatePublic(bobPubKeySpec);
* Signature sig = Signature.getInstance("DSA");
* sig.initVerify(bobPubKey);
* sig.update(data);
* sig.verify(signature);
* </pre>
*
* <p> Every implementation of the Java platform is required to support the
* following standard {@code KeyFactory} algorithms:
* <ul>
* <li>{@code DiffieHellman}</li>
* <li>{@code DSA}</li>
* <li>{@code RSA}</li>
* </ul>
* These algorithms are described in the <a href=
* "{@docRoot}/../specs/security/standard-names.html#keyfactory-algorithms">
* KeyFactory section</a> of the
* Java Security Standard Algorithm Names Specification.
* Consult the release documentation for your implementation to see if any
* other algorithms are supported.
*
* @author Jan Luehe
*
* @see Key
* @see PublicKey
* @see PrivateKey
* @see java.security.spec.KeySpec
* @see java.security.spec.DSAPublicKeySpec
* @see java.security.spec.X509EncodedKeySpec
*
* @since 1.2
*/
public class KeyFactory {
private static final Debug debug =
Debug.getInstance("jca", "KeyFactory");
// The algorithm associated with this key factory
private final String algorithm;
// The provider
private Provider provider;
// The provider implementation (delegate)
private volatile KeyFactorySpi spi;
// lock for mutex during provider selection
private final Object lock = new Object();
// remaining services to try in provider selection
// null once provider is selected
private Iterator<Service> serviceIterator;
/**
* Creates a KeyFactory object.
*
* @param keyFacSpi the delegate
* @param provider the provider
* @param algorithm the name of the algorithm
* to associate with this {@code KeyFactory}
*/
protected KeyFactory(KeyFactorySpi keyFacSpi, Provider provider,
String algorithm) {
this.spi = keyFacSpi;
this.provider = provider;
this.algorithm = algorithm;
}
private KeyFactory(String algorithm) throws NoSuchAlgorithmException {
this.algorithm = algorithm;
List<Service> list = GetInstance.getServices("KeyFactory", algorithm);
serviceIterator = list.iterator();
// fetch and instantiate initial spi
if (nextSpi(null) == null) {
throw new NoSuchAlgorithmException
(algorithm + " KeyFactory not available");
}
}
/**
* Returns a KeyFactory object that converts
* public/private keys of the specified algorithm.
*
* <p> This method traverses the list of registered security Providers,
* starting with the most preferred Provider.
* A new KeyFactory object encapsulating the
* KeyFactorySpi implementation from the first
* Provider that supports the specified algorithm is returned.
*
* <p> Note that the list of registered providers may be retrieved via
* the {@link Security#getProviders() Security.getProviders()} method.
*
* @implNote
* The JDK Reference Implementation additionally uses the
* {@code jdk.security.provider.preferred}
* {@link Security#getProperty(String) Security} property to determine
* the preferred provider order for the specified algorithm. This
* may be different than the order of providers returned by
* {@link Security#getProviders() Security.getProviders()}.
*
* @param algorithm the name of the requested key algorithm.
* See the KeyFactory section in the <a href=
* "{@docRoot}/../specs/security/standard-names.html#keyfactory-algorithms">
* Java Security Standard Algorithm Names Specification</a>
* for information about standard algorithm names.
*
* @return the new {@code KeyFactory} object
*
* @throws NoSuchAlgorithmException if no {@code Provider} supports a
* {@code KeyFactorySpi} implementation for the
* specified algorithm
*
* @throws NullPointerException if {@code algorithm} is {@code null}
*
* @see Provider
*/
public static KeyFactory getInstance(String algorithm)
throws NoSuchAlgorithmException {
Objects.requireNonNull(algorithm, "null algorithm name");
return new KeyFactory(algorithm);
}
/**
* Returns a KeyFactory object that converts
* public/private keys of the specified algorithm.
*
* <p> A new KeyFactory object encapsulating the
* KeyFactorySpi implementation from the specified provider
* is returned. The specified provider must be registered
* in the security provider list.
*
* <p> Note that the list of registered providers may be retrieved via
* the {@link Security#getProviders() Security.getProviders()} method.
*
* @param algorithm the name of the requested key algorithm.
* See the KeyFactory section in the <a href=
* "{@docRoot}/../specs/security/standard-names.html#keyfactory-algorithms">
* Java Security Standard Algorithm Names Specification</a>
* for information about standard algorithm names.
*
* @param provider the name of the provider.
*
* @return the new {@code KeyFactory} object
*
* @throws IllegalArgumentException if the provider name is {@code null}
* or empty
*
* @throws NoSuchAlgorithmException if a {@code KeyFactorySpi}
* implementation for the specified algorithm is not
* available from the specified provider
*
* @throws NoSuchProviderException if the specified provider is not
* registered in the security provider list
*
* @throws NullPointerException if {@code algorithm} is {@code null}
*
* @see Provider
*/
public static KeyFactory getInstance(String algorithm, String provider)
throws NoSuchAlgorithmException, NoSuchProviderException {
Objects.requireNonNull(algorithm, "null algorithm name");
Instance instance = GetInstance.getInstance("KeyFactory",
KeyFactorySpi.class, algorithm, provider);
return new KeyFactory((KeyFactorySpi)instance.impl,
instance.provider, algorithm);
}
/**
* Returns a KeyFactory object that converts
* public/private keys of the specified algorithm.
*
* <p> A new KeyFactory object encapsulating the
* KeyFactorySpi implementation from the specified Provider
* object is returned. Note that the specified Provider object
* does not have to be registered in the provider list.
*
* @param algorithm the name of the requested key algorithm.
* See the KeyFactory section in the <a href=
* "{@docRoot}/../specs/security/standard-names.html#keyfactory-algorithms">
* Java Security Standard Algorithm Names Specification</a>
* for information about standard algorithm names.
*
* @param provider the provider.
*
* @return the new {@code KeyFactory} object
*
* @throws IllegalArgumentException if the specified provider is
* {@code null}
*
* @throws NoSuchAlgorithmException if a {@code KeyFactorySpi}
* implementation for the specified algorithm is not available
* from the specified {@code Provider} object
*
* @throws NullPointerException if {@code algorithm} is {@code null}
*
* @see Provider
*
* @since 1.4
*/
public static KeyFactory getInstance(String algorithm, Provider provider)
throws NoSuchAlgorithmException {
Objects.requireNonNull(algorithm, "null algorithm name");
Instance instance = GetInstance.getInstance("KeyFactory",
KeyFactorySpi.class, algorithm, provider);
return new KeyFactory((KeyFactorySpi)instance.impl,
instance.provider, algorithm);
}
/**
* Returns the provider of this key factory object.
*
* @return the provider of this key factory object
*/
public final Provider getProvider() {
synchronized (lock) {
// disable further failover after this call
serviceIterator = null;
return provider;
}
}
/**
* Gets the name of the algorithm
* associated with this {@code KeyFactory}.
*
* @return the name of the algorithm associated with this
* {@code KeyFactory}
*/
public final String getAlgorithm() {
return this.algorithm;
}
/**
* Update the active KeyFactorySpi of this class and return the next
* implementation for failover. If no more implemenations are
* available, this method returns null. However, the active spi of
* this class is never set to null.
*/
private KeyFactorySpi nextSpi(KeyFactorySpi oldSpi) {
synchronized (lock) {
// somebody else did a failover concurrently
// try that spi now
if ((oldSpi != null) && (oldSpi != spi)) {
return spi;
}
if (serviceIterator == null) {
return null;
}
while (serviceIterator.hasNext()) {
Service s = serviceIterator.next();
try {
Object obj = s.newInstance(null);
if (obj instanceof KeyFactorySpi == false) {
continue;
}
KeyFactorySpi spi = (KeyFactorySpi)obj;
provider = s.getProvider();
this.spi = spi;
return spi;
} catch (NoSuchAlgorithmException e) {
// ignore
}
}
serviceIterator = null;
return null;
}
}
/**
* Generates a public key object from the provided key specification
* (key material).
*
* @param keySpec the specification (key material) of the public key.
*
* @return the public key.
*
* @exception InvalidKeySpecException if the given key specification
* is inappropriate for this key factory to produce a public key.
*/
public final PublicKey generatePublic(KeySpec keySpec)
throws InvalidKeySpecException {
if (serviceIterator == null) {
return spi.engineGeneratePublic(keySpec);
}
Exception failure = null;
KeyFactorySpi mySpi = spi;
do {
try {
return mySpi.engineGeneratePublic(keySpec);
} catch (Exception e) {
if (failure == null) {
failure = e;
}
mySpi = nextSpi(mySpi);
}
} while (mySpi != null);
if (failure instanceof RuntimeException) {
throw (RuntimeException)failure;
}
if (failure instanceof InvalidKeySpecException) {
throw (InvalidKeySpecException)failure;
}
throw new InvalidKeySpecException
("Could not generate public key", failure);
}
/**
* Generates a private key object from the provided key specification
* (key material).
*
* @param keySpec the specification (key material) of the private key.
*
* @return the private key.
*
* @exception InvalidKeySpecException if the given key specification
* is inappropriate for this key factory to produce a private key.
*/
public final PrivateKey generatePrivate(KeySpec keySpec)
throws InvalidKeySpecException {
if (serviceIterator == null) {
return spi.engineGeneratePrivate(keySpec);
}
Exception failure = null;
KeyFactorySpi mySpi = spi;
do {
try {
return mySpi.engineGeneratePrivate(keySpec);
} catch (Exception e) {
if (failure == null) {
failure = e;
}
mySpi = nextSpi(mySpi);
}
} while (mySpi != null);
if (failure instanceof RuntimeException) {
throw (RuntimeException)failure;
}
if (failure instanceof InvalidKeySpecException) {
throw (InvalidKeySpecException)failure;
}
throw new InvalidKeySpecException
("Could not generate private key", failure);
}
/**
* Returns a specification (key material) of the given key object.
* {@code keySpec} identifies the specification class in which
* the key material should be returned. It could, for example, be
* {@code DSAPublicKeySpec.class}, to indicate that the
* key material should be returned in an instance of the
* {@code DSAPublicKeySpec} class.
*
* @param <T> the type of the key specification to be returned
*
* @param key the key.
*
* @param keySpec the specification class in which
* the key material should be returned.
*
* @return the underlying key specification (key material) in an instance
* of the requested specification class.
*
* @exception InvalidKeySpecException if the requested key specification is
* inappropriate for the given key, or the given key cannot be processed
* (e.g., the given key has an unrecognized algorithm or format).
*/
public final <T extends KeySpec> T getKeySpec(Key key, Class<T> keySpec)
throws InvalidKeySpecException {
if (serviceIterator == null) {
return spi.engineGetKeySpec(key, keySpec);
}
Exception failure = null;
KeyFactorySpi mySpi = spi;
do {
try {
return mySpi.engineGetKeySpec(key, keySpec);
} catch (Exception e) {
if (failure == null) {
failure = e;
}
mySpi = nextSpi(mySpi);
}
} while (mySpi != null);
if (failure instanceof RuntimeException) {
throw (RuntimeException)failure;
}
if (failure instanceof InvalidKeySpecException) {
throw (InvalidKeySpecException)failure;
}
throw new InvalidKeySpecException
("Could not get key spec", failure);
}
/**
* Translates a key object, whose provider may be unknown or potentially
* untrusted, into a corresponding key object of this key factory.
*
* @param key the key whose provider is unknown or untrusted.
*
* @return the translated key.
*
* @exception InvalidKeyException if the given key cannot be processed
* by this key factory.
*/
public final Key translateKey(Key key) throws InvalidKeyException {
if (serviceIterator == null) {
return spi.engineTranslateKey(key);
}
Exception failure = null;
KeyFactorySpi mySpi = spi;
do {
try {
return mySpi.engineTranslateKey(key);
} catch (Exception e) {
if (failure == null) {
failure = e;
}
mySpi = nextSpi(mySpi);
}
} while (mySpi != null);
if (failure instanceof RuntimeException) {
throw (RuntimeException)failure;
}
if (failure instanceof InvalidKeyException) {
throw (InvalidKeyException)failure;
}
throw new InvalidKeyException
("Could not translate key", failure);
}
}
⏎ java/security/KeyFactory.java
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File name: java.base-11.0.1-src.zip File size: 8740354 bytes Release date: 2018-11-04 Download
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