/* * Copyright (c) 1997, 2011, Oracle and/or its affiliates. All rights reserved. * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. * * This code is free software; you can redistribute it and/or modify it * under the terms of the GNU General Public License version 2 only, as * published by the Free Software Foundation. Oracle designates this * particular file as subject to the "Classpath" exception as provided * by Oracle in the LICENSE file that accompanied this code. * * This code is distributed in the hope that it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License * version 2 for more details (a copy is included in the LICENSE file that * accompanied this code). * * You should have received a copy of the GNU General Public License version * 2 along with this work; if not, write to the Free Software Foundation, * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. * * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA * or visit www.oracle.com if you need additional information or have any * questions. */ package java.security; import java.io.*; import java.security.cert.Certificate; import java.security.cert.X509Certificate; import java.security.cert.CertificateException; import java.util.*; import javax.crypto.SecretKey; import javax.security.auth.callback.*; /** * This class represents a storage facility for cryptographic * keys and certificates. * *

A KeyStore manages different types of entries. * Each type of entry implements the KeyStore.Entry interface. * Three basic KeyStore.Entry implementations are provided: * *

* *

Each entry in a keystore is identified by an "alias" string. In the * case of private keys and their associated certificate chains, these strings * distinguish among the different ways in which the entity may authenticate * itself. For example, the entity may authenticate itself using different * certificate authorities, or using different public key algorithms. * *

Whether aliases are case sensitive is implementation dependent. In order * to avoid problems, it is recommended not to use aliases in a KeyStore that * only differ in case. * *

Whether keystores are persistent, and the mechanisms used by the * keystore if it is persistent, are not specified here. This allows * use of a variety of techniques for protecting sensitive (e.g., private or * secret) keys. Smart cards or other integrated cryptographic engines * (SafeKeyper) are one option, and simpler mechanisms such as files may also * be used (in a variety of formats). * *

Typical ways to request a KeyStore object include * relying on the default type and providing a specific keystore type. * *

* *

Before a keystore can be accessed, it must be * {@link #load(java.io.InputStream, char[]) loaded}. *

 *    KeyStore ks = KeyStore.getInstance(KeyStore.getDefaultType());
 *
 *    // get user password and file input stream
 *    char[] password = getPassword();
 *
 *    java.io.FileInputStream fis = null;
 *    try {
 *        fis = new java.io.FileInputStream("keyStoreName");
 *        ks.load(fis, password);
 *    } finally {
 *        if (fis != null) {
 *            fis.close();
 *        }
 *    }
 * 
* * To create an empty keystore using the above load method, * pass null as the InputStream argument. * *

Once the keystore has been loaded, it is possible * to read existing entries from the keystore, or to write new entries * into the keystore: *

 *    KeyStore.ProtectionParameter protParam =
 *        new KeyStore.PasswordProtection(password);
 *
 *    // get my private key
 *    KeyStore.PrivateKeyEntry pkEntry = (KeyStore.PrivateKeyEntry)
 *        ks.getEntry("privateKeyAlias", protParam);
 *    PrivateKey myPrivateKey = pkEntry.getPrivateKey();
 *
 *    // save my secret key
 *    javax.crypto.SecretKey mySecretKey;
 *    KeyStore.SecretKeyEntry skEntry =
 *        new KeyStore.SecretKeyEntry(mySecretKey);
 *    ks.setEntry("secretKeyAlias", skEntry, protParam);
 *
 *    // store away the keystore
 *    java.io.FileOutputStream fos = null;
 *    try {
 *        fos = new java.io.FileOutputStream("newKeyStoreName");
 *        ks.store(fos, password);
 *    } finally {
 *        if (fos != null) {
 *            fos.close();
 *        }
 *    }
 * 
* * Note that although the same password may be used to * load the keystore, to protect the private key entry, * to protect the secret key entry, and to store the keystore * (as is shown in the sample code above), * different passwords or other protection parameters * may also be used. * *

Android provides the following KeyStore types: * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *
NameSupported (API Levels)
AndroidCAStore14+
AndroidKeyStore18+
BCPKCS121–8
BKS1+
BouncyCastle1+
PKCS121+
PKCS12-DEF1–8
* * These types are described in the * KeyStore section of the * Java Cryptography Architecture Standard Algorithm Name Documentation. * * @author Jan Luehe * * @see java.security.PrivateKey * @see javax.crypto.SecretKey * @see java.security.cert.Certificate * * @since 1.2 */ public class KeyStore { /* * Constant to lookup in the Security properties file to determine * the default keystore type. * In the Security properties file, the default keystore type is given as: *

     * keystore.type=jks
     * 
*/ private static final String KEYSTORE_TYPE = "keystore.type"; // The keystore type private String type; // The provider private Provider provider; // The provider implementation private KeyStoreSpi keyStoreSpi; // Has this keystore been initialized (loaded)? private boolean initialized = false; /** * A marker interface for KeyStore * {@link #load(KeyStore.LoadStoreParameter) load} * and * {@link #store(KeyStore.LoadStoreParameter) store} * parameters. * * @since 1.5 */ public static interface LoadStoreParameter { /** * Gets the parameter used to protect keystore data. * * @return the parameter used to protect keystore data, or null */ public ProtectionParameter getProtectionParameter(); } /** * A marker interface for keystore protection parameters. * *

The information stored in a ProtectionParameter * object protects the contents of a keystore. * For example, protection parameters may be used to check * the integrity of keystore data, or to protect the * confidentiality of sensitive keystore data * (such as a PrivateKey). * * @since 1.5 */ public static interface ProtectionParameter { } /** * A password-based implementation of ProtectionParameter. * * @since 1.5 */ public static class PasswordProtection implements ProtectionParameter, javax.security.auth.Destroyable { private final char[] password; private volatile boolean destroyed = false; /** * Creates a password parameter. * *

The specified password is cloned before it is stored * in the new PasswordProtection object. * * @param password the password, which may be null */ public PasswordProtection(char[] password) { this.password = (password == null) ? null : password.clone(); } /** * Gets the password. * *

Note that this method returns a reference to the password. * If a clone of the array is created it is the caller's * responsibility to zero out the password information * after it is no longer needed. * * @see #destroy() * @return the password, which may be null * @exception IllegalStateException if the password has * been cleared (destroyed) */ public synchronized char[] getPassword() { if (destroyed) { throw new IllegalStateException("password has been cleared"); } return password; } /** * Clears the password. * * @exception DestroyFailedException if this method was unable * to clear the password */ public synchronized void destroy() throws javax.security.auth.DestroyFailedException { destroyed = true; if (password != null) { Arrays.fill(password, ' '); } } /** * Determines if password has been cleared. * * @return true if the password has been cleared, false otherwise */ public synchronized boolean isDestroyed() { return destroyed; } } /** * A ProtectionParameter encapsulating a CallbackHandler. * * @since 1.5 */ public static class CallbackHandlerProtection implements ProtectionParameter { private final CallbackHandler handler; /** * Constructs a new CallbackHandlerProtection from a * CallbackHandler. * * @param handler the CallbackHandler * @exception NullPointerException if handler is null */ public CallbackHandlerProtection(CallbackHandler handler) { if (handler == null) { throw new NullPointerException("handler must not be null"); } this.handler = handler; } /** * Returns the CallbackHandler. * * @return the CallbackHandler. */ public CallbackHandler getCallbackHandler() { return handler; } } /** * A marker interface for KeyStore entry types. * * @since 1.5 */ public static interface Entry { } /** * A KeyStore entry that holds a PrivateKey * and corresponding certificate chain. * * @since 1.5 */ public static final class PrivateKeyEntry implements Entry { private final PrivateKey privKey; private final Certificate[] chain; /** * Constructs a PrivateKeyEntry with a * PrivateKey and corresponding certificate chain. * *

The specified chain is cloned before it is stored * in the new PrivateKeyEntry object. * * @param privateKey the PrivateKey * @param chain an array of Certificates * representing the certificate chain. * The chain must be ordered and contain a * Certificate at index 0 * corresponding to the private key. * * @exception NullPointerException if * privateKey or chain * is null * @exception IllegalArgumentException if the specified chain has a * length of 0, if the specified chain does not contain * Certificates of the same type, * or if the PrivateKey algorithm * does not match the algorithm of the PublicKey * in the end entity Certificate (at index 0) */ public PrivateKeyEntry(PrivateKey privateKey, Certificate[] chain) { if (privateKey == null || chain == null) { throw new NullPointerException("invalid null input"); } if (chain.length == 0) { throw new IllegalArgumentException ("invalid zero-length input chain"); } Certificate[] clonedChain = chain.clone(); String certType = clonedChain[0].getType(); for (int i = 1; i < clonedChain.length; i++) { if (!certType.equals(clonedChain[i].getType())) { throw new IllegalArgumentException ("chain does not contain certificates " + "of the same type"); } } if (!privateKey.getAlgorithm().equals (clonedChain[0].getPublicKey().getAlgorithm())) { throw new IllegalArgumentException ("private key algorithm does not match " + "algorithm of public key in end entity " + "certificate (at index 0)"); } this.privKey = privateKey; if (clonedChain[0] instanceof X509Certificate && !(clonedChain instanceof X509Certificate[])) { this.chain = new X509Certificate[clonedChain.length]; System.arraycopy(clonedChain, 0, this.chain, 0, clonedChain.length); } else { this.chain = clonedChain; } } /** * Gets the PrivateKey from this entry. * * @return the PrivateKey from this entry */ public PrivateKey getPrivateKey() { return privKey; } /** * Gets the Certificate chain from this entry. * *

The stored chain is cloned before being returned. * * @return an array of Certificates corresponding * to the certificate chain for the public key. * If the certificates are of type X.509, * the runtime type of the returned array is * X509Certificate[]. */ public Certificate[] getCertificateChain() { return chain.clone(); } /** * Gets the end entity Certificate * from the certificate chain in this entry. * * @return the end entity Certificate (at index 0) * from the certificate chain in this entry. * If the certificate is of type X.509, * the runtime type of the returned certificate is * X509Certificate. */ public Certificate getCertificate() { return chain[0]; } /** * Returns a string representation of this PrivateKeyEntry. * @return a string representation of this PrivateKeyEntry. */ public String toString() { StringBuilder sb = new StringBuilder(); sb.append("Private key entry and certificate chain with " + chain.length + " elements:\r\n"); for (Certificate cert : chain) { sb.append(cert); sb.append("\r\n"); } return sb.toString(); } } /** * A KeyStore entry that holds a SecretKey. * * @since 1.5 */ public static final class SecretKeyEntry implements Entry { private final SecretKey sKey; /** * Constructs a SecretKeyEntry with a * SecretKey. * * @param secretKey the SecretKey * * @exception NullPointerException if secretKey * is null */ public SecretKeyEntry(SecretKey secretKey) { if (secretKey == null) { throw new NullPointerException("invalid null input"); } this.sKey = secretKey; } /** * Gets the SecretKey from this entry. * * @return the SecretKey from this entry */ public SecretKey getSecretKey() { return sKey; } /** * Returns a string representation of this SecretKeyEntry. * @return a string representation of this SecretKeyEntry. */ public String toString() { return "Secret key entry with algorithm " + sKey.getAlgorithm(); } } /** * A KeyStore entry that holds a trusted * Certificate. * * @since 1.5 */ public static final class TrustedCertificateEntry implements Entry { private final Certificate cert; /** * Constructs a TrustedCertificateEntry with a * trusted Certificate. * * @param trustedCert the trusted Certificate * * @exception NullPointerException if * trustedCert is null */ public TrustedCertificateEntry(Certificate trustedCert) { if (trustedCert == null) { throw new NullPointerException("invalid null input"); } this.cert = trustedCert; } /** * Gets the trusted Certficate from this entry. * * @return the trusted Certificate from this entry */ public Certificate getTrustedCertificate() { return cert; } /** * Returns a string representation of this TrustedCertificateEntry. * @return a string representation of this TrustedCertificateEntry. */ public String toString() { return "Trusted certificate entry:\r\n" + cert.toString(); } } /** * Creates a KeyStore object of the given type, and encapsulates the given * provider implementation (SPI object) in it. * * @param keyStoreSpi the provider implementation. * @param provider the provider. * @param type the keystore type. */ protected KeyStore(KeyStoreSpi keyStoreSpi, Provider provider, String type) { this.keyStoreSpi = keyStoreSpi; this.provider = provider; this.type = type; } /** * Returns a keystore object of the specified type. * *

This method traverses the list of registered security Providers, * starting with the most preferred Provider. * A new KeyStore object encapsulating the * KeyStoreSpi implementation from the first * Provider that supports the specified type is returned. * *

Note that the list of registered providers may be retrieved via * the {@link Security#getProviders() Security.getProviders()} method. * * @param type the type of keystore. * See the KeyStore section in the * Java Cryptography Architecture Standard Algorithm Name Documentation * for information about standard keystore types. * * @return a keystore object of the specified type. * * @exception KeyStoreException if no Provider supports a * KeyStoreSpi implementation for the * specified type. * * @see Provider */ public static KeyStore getInstance(String type) throws KeyStoreException { try { Object[] objs = Security.getImpl(type, "KeyStore", (String)null); return new KeyStore((KeyStoreSpi)objs[0], (Provider)objs[1], type); } catch (NoSuchAlgorithmException nsae) { throw new KeyStoreException(type + " not found", nsae); } catch (NoSuchProviderException nspe) { throw new KeyStoreException(type + " not found", nspe); } } /** * Returns a keystore object of the specified type. * *

A new KeyStore object encapsulating the * KeyStoreSpi implementation from the specified provider * is returned. The specified provider must be registered * in the security provider list. * *

Note that the list of registered providers may be retrieved via * the {@link Security#getProviders() Security.getProviders()} method. * * @param type the type of keystore. * See the KeyStore section in the * Java Cryptography Architecture Standard Algorithm Name Documentation * for information about standard keystore types. * * @param provider the name of the provider. * * @return a keystore object of the specified type. * * @exception KeyStoreException if a KeyStoreSpi * implementation for the specified type is not * available from the specified provider. * * @exception NoSuchProviderException if the specified provider is not * registered in the security provider list. * * @exception IllegalArgumentException if the provider name is null * or empty. * * @see Provider */ public static KeyStore getInstance(String type, String provider) throws KeyStoreException, NoSuchProviderException { if (provider == null || provider.length() == 0) throw new IllegalArgumentException("missing provider"); try { Object[] objs = Security.getImpl(type, "KeyStore", provider); return new KeyStore((KeyStoreSpi)objs[0], (Provider)objs[1], type); } catch (NoSuchAlgorithmException nsae) { throw new KeyStoreException(type + " not found", nsae); } } /** * Returns a keystore object of the specified type. * *

A new KeyStore object encapsulating the * KeyStoreSpi 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 type the type of keystore. * See the KeyStore section in the * Java Cryptography Architecture Standard Algorithm Name Documentation * for information about standard keystore types. * * @param provider the provider. * * @return a keystore object of the specified type. * * @exception KeyStoreException if KeyStoreSpi * implementation for the specified type is not available * from the specified Provider object. * * @exception IllegalArgumentException if the specified provider is null. * * @see Provider * * @since 1.4 */ public static KeyStore getInstance(String type, Provider provider) throws KeyStoreException { if (provider == null) throw new IllegalArgumentException("missing provider"); try { Object[] objs = Security.getImpl(type, "KeyStore", provider); return new KeyStore((KeyStoreSpi)objs[0], (Provider)objs[1], type); } catch (NoSuchAlgorithmException nsae) { throw new KeyStoreException(type + " not found", nsae); } } /** * Returns the default keystore type as specified in the Java security * properties file, or the string * "jks" (acronym for "Java keystore") * if no such property exists. * The Java security properties file is located in the file named * <JAVA_HOME>/lib/security/java.security. * <JAVA_HOME> refers to the value of the java.home system property, * and specifies the directory where the JRE is installed. * *

The default keystore type can be used by applications that do not * want to use a hard-coded keystore type when calling one of the * getInstance methods, and want to provide a default keystore * type in case a user does not specify its own. * *

The default keystore type can be changed by setting the value of the * "keystore.type" security property (in the Java security properties * file) to the desired keystore type. * * @return the default keystore type as specified in the * Java security properties file, or the string "jks" * if no such property exists. */ public final static String getDefaultType() { String kstype; kstype = AccessController.doPrivileged(new PrivilegedAction() { public String run() { return Security.getProperty(KEYSTORE_TYPE); } }); if (kstype == null) { kstype = "jks"; } return kstype; } /** * Returns the provider of this keystore. * * @return the provider of this keystore. */ public final Provider getProvider() { return this.provider; } /** * Returns the type of this keystore. * * @return the type of this keystore. */ public final String getType() { return this.type; } /** * Returns the key associated with the given alias, using the given * password to recover it. The key must have been associated with * the alias by a call to setKeyEntry, * or by a call to setEntry with a * PrivateKeyEntry or SecretKeyEntry. * * @param alias the alias name * @param password the password for recovering the key * * @return the requested key, or null if the given alias does not exist * or does not identify a key-related entry. * * @exception KeyStoreException if the keystore has not been initialized * (loaded). * @exception NoSuchAlgorithmException if the algorithm for recovering the * key cannot be found * @exception UnrecoverableKeyException if the key cannot be recovered * (e.g., the given password is wrong). */ public final Key getKey(String alias, char[] password) throws KeyStoreException, NoSuchAlgorithmException, UnrecoverableKeyException { if (!initialized) { throw new KeyStoreException("Uninitialized keystore"); } return keyStoreSpi.engineGetKey(alias, password); } /** * Returns the certificate chain associated with the given alias. * The certificate chain must have been associated with the alias * by a call to setKeyEntry, * or by a call to setEntry with a * PrivateKeyEntry. * * @param alias the alias name * * @return the certificate chain (ordered with the user's certificate first * followed by zero or more certificate authorities), or null if the given alias * does not exist or does not contain a certificate chain * * @exception KeyStoreException if the keystore has not been initialized * (loaded). */ public final Certificate[] getCertificateChain(String alias) throws KeyStoreException { if (!initialized) { throw new KeyStoreException("Uninitialized keystore"); } return keyStoreSpi.engineGetCertificateChain(alias); } /** * Returns the certificate associated with the given alias. * *

If the given alias name identifies an entry * created by a call to setCertificateEntry, * or created by a call to setEntry with a * TrustedCertificateEntry, * then the trusted certificate contained in that entry is returned. * *

If the given alias name identifies an entry * created by a call to setKeyEntry, * or created by a call to setEntry with a * PrivateKeyEntry, * then the first element of the certificate chain in that entry * is returned. * * @param alias the alias name * * @return the certificate, or null if the given alias does not exist or * does not contain a certificate. * * @exception KeyStoreException if the keystore has not been initialized * (loaded). */ public final Certificate getCertificate(String alias) throws KeyStoreException { if (!initialized) { throw new KeyStoreException("Uninitialized keystore"); } return keyStoreSpi.engineGetCertificate(alias); } /** * Returns the creation date of the entry identified by the given alias. * * @param alias the alias name * * @return the creation date of this entry, or null if the given alias does * not exist * * @exception KeyStoreException if the keystore has not been initialized * (loaded). */ public final Date getCreationDate(String alias) throws KeyStoreException { if (!initialized) { throw new KeyStoreException("Uninitialized keystore"); } return keyStoreSpi.engineGetCreationDate(alias); } /** * Assigns the given key to the given alias, protecting it with the given * password. * *

If the given key is of type java.security.PrivateKey, * it must be accompanied by a certificate chain certifying the * corresponding public key. * *

If the given alias already exists, the keystore information * associated with it is overridden by the given key (and possibly * certificate chain). * * @param alias the alias name * @param key the key to be associated with the alias * @param password the password to protect the key * @param chain the certificate chain for the corresponding public * key (only required if the given key is of type * java.security.PrivateKey). * * @exception KeyStoreException if the keystore has not been initialized * (loaded), the given key cannot be protected, or this operation fails * for some other reason */ public final void setKeyEntry(String alias, Key key, char[] password, Certificate[] chain) throws KeyStoreException { if (!initialized) { throw new KeyStoreException("Uninitialized keystore"); } if ((key instanceof PrivateKey) && (chain == null || chain.length == 0)) { throw new IllegalArgumentException("Private key must be " + "accompanied by certificate " + "chain"); } keyStoreSpi.engineSetKeyEntry(alias, key, password, chain); } /** * Assigns the given key (that has already been protected) to the given * alias. * *

If the protected key is of type * java.security.PrivateKey, it must be accompanied by a * certificate chain certifying the corresponding public key. If the * underlying keystore implementation is of type jks, * key must be encoded as an * EncryptedPrivateKeyInfo as defined in the PKCS #8 standard. * *

If the given alias already exists, the keystore information * associated with it is overridden by the given key (and possibly * certificate chain). * * @param alias the alias name * @param key the key (in protected format) to be associated with the alias * @param chain the certificate chain for the corresponding public * key (only useful if the protected key is of type * java.security.PrivateKey). * * @exception KeyStoreException if the keystore has not been initialized * (loaded), or if this operation fails for some other reason. */ public final void setKeyEntry(String alias, byte[] key, Certificate[] chain) throws KeyStoreException { if (!initialized) { throw new KeyStoreException("Uninitialized keystore"); } keyStoreSpi.engineSetKeyEntry(alias, key, chain); } /** * Assigns the given trusted certificate to the given alias. * *

If the given alias identifies an existing entry * created by a call to setCertificateEntry, * or created by a call to setEntry with a * TrustedCertificateEntry, * the trusted certificate in the existing entry * is overridden by the given certificate. * * @param alias the alias name * @param cert the certificate * * @exception KeyStoreException if the keystore has not been initialized, * or the given alias already exists and does not identify an * entry containing a trusted certificate, * or this operation fails for some other reason. */ public final void setCertificateEntry(String alias, Certificate cert) throws KeyStoreException { if (!initialized) { throw new KeyStoreException("Uninitialized keystore"); } keyStoreSpi.engineSetCertificateEntry(alias, cert); } /** * Deletes the entry identified by the given alias from this keystore. * * @param alias the alias name * * @exception KeyStoreException if the keystore has not been initialized, * or if the entry cannot be removed. */ public final void deleteEntry(String alias) throws KeyStoreException { if (!initialized) { throw new KeyStoreException("Uninitialized keystore"); } keyStoreSpi.engineDeleteEntry(alias); } /** * Lists all the alias names of this keystore. * * @return enumeration of the alias names * * @exception KeyStoreException if the keystore has not been initialized * (loaded). */ public final Enumeration aliases() throws KeyStoreException { if (!initialized) { throw new KeyStoreException("Uninitialized keystore"); } return keyStoreSpi.engineAliases(); } /** * Checks if the given alias exists in this keystore. * * @param alias the alias name * * @return true if the alias exists, false otherwise * * @exception KeyStoreException if the keystore has not been initialized * (loaded). */ public final boolean containsAlias(String alias) throws KeyStoreException { if (!initialized) { throw new KeyStoreException("Uninitialized keystore"); } return keyStoreSpi.engineContainsAlias(alias); } /** * Retrieves the number of entries in this keystore. * * @return the number of entries in this keystore * * @exception KeyStoreException if the keystore has not been initialized * (loaded). */ public final int size() throws KeyStoreException { if (!initialized) { throw new KeyStoreException("Uninitialized keystore"); } return keyStoreSpi.engineSize(); } /** * Returns true if the entry identified by the given alias * was created by a call to setKeyEntry, * or created by a call to setEntry with a * PrivateKeyEntry or a SecretKeyEntry. * * @param alias the alias for the keystore entry to be checked * * @return true if the entry identified by the given alias is a * key-related entry, false otherwise. * * @exception KeyStoreException if the keystore has not been initialized * (loaded). */ public final boolean isKeyEntry(String alias) throws KeyStoreException { if (!initialized) { throw new KeyStoreException("Uninitialized keystore"); } return keyStoreSpi.engineIsKeyEntry(alias); } /** * Returns true if the entry identified by the given alias * was created by a call to setCertificateEntry, * or created by a call to setEntry with a * TrustedCertificateEntry. * * @param alias the alias for the keystore entry to be checked * * @return true if the entry identified by the given alias contains a * trusted certificate, false otherwise. * * @exception KeyStoreException if the keystore has not been initialized * (loaded). */ public final boolean isCertificateEntry(String alias) throws KeyStoreException { if (!initialized) { throw new KeyStoreException("Uninitialized keystore"); } return keyStoreSpi.engineIsCertificateEntry(alias); } /** * Returns the (alias) name of the first keystore entry whose certificate * matches the given certificate. * *

This method attempts to match the given certificate with each * keystore entry. If the entry being considered was * created by a call to setCertificateEntry, * or created by a call to setEntry with a * TrustedCertificateEntry, * then the given certificate is compared to that entry's certificate. * *

If the entry being considered was * created by a call to setKeyEntry, * or created by a call to setEntry with a * PrivateKeyEntry, * then the given certificate is compared to the first * element of that entry's certificate chain. * * @param cert the certificate to match with. * * @return the alias name of the first entry with a matching certificate, * or null if no such entry exists in this keystore. * * @exception KeyStoreException if the keystore has not been initialized * (loaded). */ public final String getCertificateAlias(Certificate cert) throws KeyStoreException { if (!initialized) { throw new KeyStoreException("Uninitialized keystore"); } return keyStoreSpi.engineGetCertificateAlias(cert); } /** * Stores this keystore to the given output stream, and protects its * integrity with the given password. * * @param stream the output stream to which this keystore is written. * @param password the password to generate the keystore integrity check * * @exception KeyStoreException if the keystore has not been initialized * (loaded). * @exception IOException if there was an I/O problem with data * @exception NoSuchAlgorithmException if the appropriate data integrity * algorithm could not be found * @exception CertificateException if any of the certificates included in * the keystore data could not be stored */ public final void store(OutputStream stream, char[] password) throws KeyStoreException, IOException, NoSuchAlgorithmException, CertificateException { if (!initialized) { throw new KeyStoreException("Uninitialized keystore"); } keyStoreSpi.engineStore(stream, password); } /** * Stores this keystore using the given LoadStoreParameter. * * @param param the LoadStoreParameter * that specifies how to store the keystore, * which may be null * * @exception IllegalArgumentException if the given * LoadStoreParameter * input is not recognized * @exception KeyStoreException if the keystore has not been initialized * (loaded) * @exception IOException if there was an I/O problem with data * @exception NoSuchAlgorithmException if the appropriate data integrity * algorithm could not be found * @exception CertificateException if any of the certificates included in * the keystore data could not be stored * * @since 1.5 */ public final void store(LoadStoreParameter param) throws KeyStoreException, IOException, NoSuchAlgorithmException, CertificateException { if (!initialized) { throw new KeyStoreException("Uninitialized keystore"); } keyStoreSpi.engineStore(param); } /** * Loads this KeyStore from the given input stream. * *

A password may be given to unlock the keystore * (e.g. the keystore resides on a hardware token device), * or to check the integrity of the keystore data. * If a password is not given for integrity checking, * then integrity checking is not performed. * *

In order to create an empty keystore, or if the keystore cannot * be initialized from a stream, pass null * as the stream argument. * *

Note that if this keystore has already been loaded, it is * reinitialized and loaded again from the given input stream. * * @param stream the input stream from which the keystore is loaded, * or null * @param password the password used to check the integrity of * the keystore, the password used to unlock the keystore, * or null * * @exception IOException if there is an I/O or format problem with the * keystore data, if a password is required but not given, * or if the given password was incorrect. If the error is due to a * wrong password, the {@link Throwable#getCause cause} of the * IOException should be an * UnrecoverableKeyException * @exception NoSuchAlgorithmException if the algorithm used to check * the integrity of the keystore cannot be found * @exception CertificateException if any of the certificates in the * keystore could not be loaded */ public final void load(InputStream stream, char[] password) throws IOException, NoSuchAlgorithmException, CertificateException { keyStoreSpi.engineLoad(stream, password); initialized = true; } /** * Loads this keystore using the given LoadStoreParameter. * *

Note that if this KeyStore has already been loaded, it is * reinitialized and loaded again from the given parameter. * * @param param the LoadStoreParameter * that specifies how to load the keystore, * which may be null * * @exception IllegalArgumentException if the given * LoadStoreParameter * input is not recognized * @exception IOException if there is an I/O or format problem with the * keystore data. If the error is due to an incorrect * ProtectionParameter (e.g. wrong password) * the {@link Throwable#getCause cause} of the * IOException should be an * UnrecoverableKeyException * @exception NoSuchAlgorithmException if the algorithm used to check * the integrity of the keystore cannot be found * @exception CertificateException if any of the certificates in the * keystore could not be loaded * * @since 1.5 */ public final void load(LoadStoreParameter param) throws IOException, NoSuchAlgorithmException, CertificateException { keyStoreSpi.engineLoad(param); initialized = true; } /** * Gets a keystore Entry for the specified alias * with the specified protection parameter. * * @param alias get the keystore Entry for this alias * @param protParam the ProtectionParameter * used to protect the Entry, * which may be null * * @return the keystore Entry for the specified alias, * or null if there is no such entry * * @exception NullPointerException if * alias is null * @exception NoSuchAlgorithmException if the algorithm for recovering the * entry cannot be found * @exception UnrecoverableEntryException if the specified * protParam were insufficient or invalid * @exception UnrecoverableKeyException if the entry is a * PrivateKeyEntry or SecretKeyEntry * and the specified protParam does not contain * the information needed to recover the key (e.g. wrong password) * @exception KeyStoreException if the keystore has not been initialized * (loaded). * @see #setEntry(String, KeyStore.Entry, KeyStore.ProtectionParameter) * * @since 1.5 */ public final Entry getEntry(String alias, ProtectionParameter protParam) throws NoSuchAlgorithmException, UnrecoverableEntryException, KeyStoreException { if (alias == null) { throw new NullPointerException("invalid null input"); } if (!initialized) { throw new KeyStoreException("Uninitialized keystore"); } return keyStoreSpi.engineGetEntry(alias, protParam); } /** * Saves a keystore Entry under the specified alias. * The protection parameter is used to protect the * Entry. * *

If an entry already exists for the specified alias, * it is overridden. * * @param alias save the keystore Entry under this alias * @param entry the Entry to save * @param protParam the ProtectionParameter * used to protect the Entry, * which may be null * * @exception NullPointerException if * alias or entry * is null * @exception KeyStoreException if the keystore has not been initialized * (loaded), or if this operation fails for some other reason * * @see #getEntry(String, KeyStore.ProtectionParameter) * * @since 1.5 */ public final void setEntry(String alias, Entry entry, ProtectionParameter protParam) throws KeyStoreException { if (alias == null || entry == null) { throw new NullPointerException("invalid null input"); } if (!initialized) { throw new KeyStoreException("Uninitialized keystore"); } keyStoreSpi.engineSetEntry(alias, entry, protParam); } /** * Determines if the keystore Entry for the specified * alias is an instance or subclass of the specified * entryClass. * * @param alias the alias name * @param entryClass the entry class * * @return true if the keystore Entry for the specified * alias is an instance or subclass of the * specified entryClass, false otherwise * * @exception NullPointerException if * alias or entryClass * is null * @exception KeyStoreException if the keystore has not been * initialized (loaded) * * @since 1.5 */ public final boolean entryInstanceOf(String alias, Class entryClass) throws KeyStoreException { if (alias == null || entryClass == null) { throw new NullPointerException("invalid null input"); } if (!initialized) { throw new KeyStoreException("Uninitialized keystore"); } return keyStoreSpi.engineEntryInstanceOf(alias, entryClass); } /** * A description of a to-be-instantiated KeyStore object. * *

An instance of this class encapsulates the information needed to * instantiate and initialize a KeyStore object. That process is * triggered when the {@linkplain #getKeyStore} method is called. * *

This makes it possible to decouple configuration from KeyStore * object creation and e.g. delay a password prompt until it is * needed. * * @see KeyStore * @see javax.net.ssl.KeyStoreBuilderParameters * @since 1.5 */ public static abstract class Builder { // maximum times to try the callbackhandler if the password is wrong static final int MAX_CALLBACK_TRIES = 3; /** * Construct a new Builder. */ protected Builder() { // empty } /** * Returns the KeyStore described by this object. * * @exception KeyStoreException if an error occured during the * operation, for example if the KeyStore could not be * instantiated or loaded */ public abstract KeyStore getKeyStore() throws KeyStoreException; /** * Returns the ProtectionParameters that should be used to obtain * the {@link KeyStore.Entry Entry} with the given alias. * The getKeyStore method must be invoked before this * method may be called. * * @return the ProtectionParameters that should be used to obtain * the {@link KeyStore.Entry Entry} with the given alias. * @param alias the alias of the KeyStore entry * @throws NullPointerException if alias is null * @throws KeyStoreException if an error occured during the * operation * @throws IllegalStateException if the getKeyStore method has * not been invoked prior to calling this method */ public abstract ProtectionParameter getProtectionParameter(String alias) throws KeyStoreException; /** * Returns a new Builder that encapsulates the given KeyStore. * The {@linkplain #getKeyStore} method of the returned object * will return keyStore, the {@linkplain * #getProtectionParameter getProtectionParameter()} method will * return protectionParameters. * *

This is useful if an existing KeyStore object needs to be * used with Builder-based APIs. * * @return a new Builder object * @param keyStore the KeyStore to be encapsulated * @param protectionParameter the ProtectionParameter used to * protect the KeyStore entries * @throws NullPointerException if keyStore or * protectionParameters is null * @throws IllegalArgumentException if the keyStore has not been * initialized */ public static Builder newInstance(final KeyStore keyStore, final ProtectionParameter protectionParameter) { if ((keyStore == null) || (protectionParameter == null)) { throw new NullPointerException(); } if (keyStore.initialized == false) { throw new IllegalArgumentException("KeyStore not initialized"); } return new Builder() { private volatile boolean getCalled; public KeyStore getKeyStore() { getCalled = true; return keyStore; } public ProtectionParameter getProtectionParameter(String alias) { if (alias == null) { throw new NullPointerException(); } if (getCalled == false) { throw new IllegalStateException ("getKeyStore() must be called first"); } return protectionParameter; } }; } /** * Returns a new Builder object. * *

The first call to the {@link #getKeyStore} method on the returned * builder will create a KeyStore of type type and call * its {@link KeyStore#load load()} method. * The inputStream argument is constructed from * file. * If protection is a * PasswordProtection, the password is obtained by * calling the getPassword method. * Otherwise, if protection is a * CallbackHandlerProtection, the password is obtained * by invoking the CallbackHandler. * *

Subsequent calls to {@link #getKeyStore} return the same object * as the initial call. If the initial call to failed with a * KeyStoreException, subsequent calls also throw a * KeyStoreException. * *

The KeyStore is instantiated from provider if * non-null. Otherwise, all installed providers are searched. * *

Calls to {@link #getProtectionParameter getProtectionParameter()} * will return a {@link KeyStore.PasswordProtection PasswordProtection} * object encapsulating the password that was used to invoke the * load method. * *

Note that the {@link #getKeyStore} method is executed * within the {@link AccessControlContext} of the code invoking this * method. * * @return a new Builder object * @param type the type of KeyStore to be constructed * @param provider the provider from which the KeyStore is to * be instantiated (or null) * @param file the File that contains the KeyStore data * @param protection the ProtectionParameter securing the KeyStore data * @throws NullPointerException if type, file or protection is null * @throws IllegalArgumentException if protection is not an instance * of either PasswordProtection or CallbackHandlerProtection; or * if file does not exist or does not refer to a normal file */ public static Builder newInstance(String type, Provider provider, File file, ProtectionParameter protection) { if ((type == null) || (file == null) || (protection == null)) { throw new NullPointerException(); } if ((protection instanceof PasswordProtection == false) && (protection instanceof CallbackHandlerProtection == false)) { throw new IllegalArgumentException ("Protection must be PasswordProtection or " + "CallbackHandlerProtection"); } if (file.isFile() == false) { throw new IllegalArgumentException ("File does not exist or it does not refer " + "to a normal file: " + file); } return new FileBuilder(type, provider, file, protection, AccessController.getContext()); } private static final class FileBuilder extends Builder { private final String type; private final Provider provider; private final File file; private ProtectionParameter protection; private ProtectionParameter keyProtection; private final AccessControlContext context; private KeyStore keyStore; private Throwable oldException; FileBuilder(String type, Provider provider, File file, ProtectionParameter protection, AccessControlContext context) { this.type = type; this.provider = provider; this.file = file; this.protection = protection; this.context = context; } public synchronized KeyStore getKeyStore() throws KeyStoreException { if (keyStore != null) { return keyStore; } if (oldException != null) { throw new KeyStoreException ("Previous KeyStore instantiation failed", oldException); } PrivilegedExceptionAction action = new PrivilegedExceptionAction() { public KeyStore run() throws Exception { if (protection instanceof CallbackHandlerProtection == false) { return run0(); } // when using a CallbackHandler, // reprompt if the password is wrong int tries = 0; while (true) { tries++; try { return run0(); } catch (IOException e) { if ((tries < MAX_CALLBACK_TRIES) && (e.getCause() instanceof UnrecoverableKeyException)) { continue; } throw e; } } } public KeyStore run0() throws Exception { KeyStore ks; if (provider == null) { ks = KeyStore.getInstance(type); } else { ks = KeyStore.getInstance(type, provider); } InputStream in = null; char[] password = null; try { in = new FileInputStream(file); if (protection instanceof PasswordProtection) { password = ((PasswordProtection)protection).getPassword(); keyProtection = protection; } else { CallbackHandler handler = ((CallbackHandlerProtection)protection) .getCallbackHandler(); PasswordCallback callback = new PasswordCallback ("Password for keystore " + file.getName(), false); handler.handle(new Callback[] {callback}); password = callback.getPassword(); if (password == null) { throw new KeyStoreException("No password" + " provided"); } callback.clearPassword(); keyProtection = new PasswordProtection(password); } ks.load(in, password); return ks; } finally { if (in != null) { in.close(); } } } }; try { keyStore = AccessController.doPrivileged(action, context); return keyStore; } catch (PrivilegedActionException e) { oldException = e.getCause(); throw new KeyStoreException ("KeyStore instantiation failed", oldException); } } public synchronized ProtectionParameter getProtectionParameter(String alias) { if (alias == null) { throw new NullPointerException(); } if (keyStore == null) { throw new IllegalStateException ("getKeyStore() must be called first"); } return keyProtection; } } /** * Returns a new Builder object. * *

Each call to the {@link #getKeyStore} method on the returned * builder will return a new KeyStore object of type type. * Its {@link KeyStore#load(KeyStore.LoadStoreParameter) load()} * method is invoked using a * LoadStoreParameter that encapsulates * protection. * *

The KeyStore is instantiated from provider if * non-null. Otherwise, all installed providers are searched. * *

Calls to {@link #getProtectionParameter getProtectionParameter()} * will return protection. * *

Note that the {@link #getKeyStore} method is executed * within the {@link AccessControlContext} of the code invoking this * method. * * @return a new Builder object * @param type the type of KeyStore to be constructed * @param provider the provider from which the KeyStore is to * be instantiated (or null) * @param protection the ProtectionParameter securing the Keystore * @throws NullPointerException if type or protection is null */ public static Builder newInstance(final String type, final Provider provider, final ProtectionParameter protection) { if ((type == null) || (protection == null)) { throw new NullPointerException(); } final AccessControlContext context = AccessController.getContext(); return new Builder() { private volatile boolean getCalled; private IOException oldException; private final PrivilegedExceptionAction action = new PrivilegedExceptionAction() { public KeyStore run() throws Exception { KeyStore ks; if (provider == null) { ks = KeyStore.getInstance(type); } else { ks = KeyStore.getInstance(type, provider); } LoadStoreParameter param = new SimpleLoadStoreParameter(protection); if (protection instanceof CallbackHandlerProtection == false) { ks.load(param); } else { // when using a CallbackHandler, // reprompt if the password is wrong int tries = 0; while (true) { tries++; try { ks.load(param); break; } catch (IOException e) { if (e.getCause() instanceof UnrecoverableKeyException) { if (tries < MAX_CALLBACK_TRIES) { continue; } else { oldException = e; } } throw e; } } } getCalled = true; return ks; } }; public synchronized KeyStore getKeyStore() throws KeyStoreException { if (oldException != null) { throw new KeyStoreException ("Previous KeyStore instantiation failed", oldException); } try { return AccessController.doPrivileged(action, context); } catch (PrivilegedActionException e) { Throwable cause = e.getCause(); throw new KeyStoreException ("KeyStore instantiation failed", cause); } } public ProtectionParameter getProtectionParameter(String alias) { if (alias == null) { throw new NullPointerException(); } if (getCalled == false) { throw new IllegalStateException ("getKeyStore() must be called first"); } return protection; } }; } } static class SimpleLoadStoreParameter implements LoadStoreParameter { private final ProtectionParameter protection; SimpleLoadStoreParameter(ProtectionParameter protection) { this.protection = protection; } public ProtectionParameter getProtectionParameter() { return protection; } } }