/* * Copyright (c) 1998, 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 javax.crypto; import java.util.*; import java.security.*; import java.security.Provider.Service; import java.security.spec.AlgorithmParameterSpec; import java.nio.ByteBuffer; import sun.security.util.Debug; import sun.security.jca.*; import sun.security.jca.GetInstance.Instance; /** * This class provides the functionality of a "Message Authentication Code" * (MAC) algorithm. * *

A MAC provides a way to check * the integrity of information transmitted over or stored in an unreliable * medium, based on a secret key. Typically, message * authentication codes are used between two parties that share a secret * key in order to validate information transmitted between these * parties. * *

A MAC mechanism that is based on cryptographic hash functions is * referred to as HMAC. HMAC can be used with any cryptographic hash function, * e.g., MD5 or SHA-1, in combination with a secret shared key. HMAC is * specified in RFC 2104. * *

Every implementation of the Java platform is required to support * the following standard Mac algorithms: *

* These algorithms are described in the * * Mac section of the * Java Cryptography Architecture Standard Algorithm Name Documentation. * Consult the release documentation for your implementation to see if any * other algorithms are supported. * * @author Jan Luehe * * @since 1.4 */ public class Mac implements Cloneable { private static final Debug debug = Debug.getInstance("jca", "Mac"); // The provider private Provider provider; // The provider implementation (delegate) private MacSpi spi; // The name of the MAC algorithm. private final String algorithm; // Has this object been initialized? private boolean initialized = false; // next service to try in provider selection // null once provider is selected private Service firstService; // remaining services to try in provider selection // null once provider is selected private Iterator serviceIterator; private final Object lock; /** * Creates a MAC object. * * @param macSpi the delegate * @param provider the provider * @param algorithm the algorithm */ protected Mac(MacSpi macSpi, Provider provider, String algorithm) { this.spi = macSpi; this.provider = provider; this.algorithm = algorithm; serviceIterator = null; lock = null; } private Mac(Service s, Iterator t, String algorithm) { firstService = s; serviceIterator = t; this.algorithm = algorithm; lock = new Object(); } /** * Returns the algorithm name of this Mac object. * *

This is the same name that was specified in one of the * getInstance calls that created this * Mac object. * * @return the algorithm name of this Mac object. */ public final String getAlgorithm() { return this.algorithm; } /** * Returns a Mac object that implements the * specified MAC algorithm. * *

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

Note that the list of registered providers may be retrieved via * the {@link Security#getProviders() Security.getProviders()} method. * * @param algorithm the standard name of the requested MAC algorithm. * See the Mac section in the * Java Cryptography Architecture Standard Algorithm Name Documentation * for information about standard algorithm names. * * @return the new Mac object. * * @exception NoSuchAlgorithmException if no Provider supports a * MacSpi implementation for the * specified algorithm. * * @see java.security.Provider */ public static final Mac getInstance(String algorithm) throws NoSuchAlgorithmException { List services = GetInstance.getServices("Mac", algorithm); // make sure there is at least one service from a signed provider Iterator t = services.iterator(); while (t.hasNext()) { Service s = (Service)t.next(); if (JceSecurity.canUseProvider(s.getProvider()) == false) { continue; } return new Mac(s, t, algorithm); } throw new NoSuchAlgorithmException ("Algorithm " + algorithm + " not available"); } /** * Returns a Mac object that implements the * specified MAC algorithm. * *

A new Mac object encapsulating the * MacSpi 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 algorithm the standard name of the requested MAC algorithm. * See the Mac section in the * Java Cryptography Architecture Standard Algorithm Name Documentation * for information about standard algorithm names. * * @param provider the name of the provider. * * @return the new Mac object. * * @exception NoSuchAlgorithmException if a MacSpi * implementation for the specified algorithm 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 * is null or empty. * * @see java.security.Provider */ public static final Mac getInstance(String algorithm, String provider) throws NoSuchAlgorithmException, NoSuchProviderException { Instance instance = JceSecurity.getInstance ("Mac", MacSpi.class, algorithm, provider); return new Mac((MacSpi)instance.impl, instance.provider, algorithm); } /** * Returns a Mac object that implements the * specified MAC algorithm. * *

A new Mac object encapsulating the * MacSpi 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 standard name of the requested MAC algorithm. * See the Mac section in the * Java Cryptography Architecture Standard Algorithm Name Documentation * for information about standard algorithm names. * * @param provider the provider. * * @return the new Mac object. * * @exception NoSuchAlgorithmException if a MacSpi * implementation for the specified algorithm is not available * from the specified Provider object. * * @exception IllegalArgumentException if the provider * is null. * * @see java.security.Provider */ public static final Mac getInstance(String algorithm, Provider provider) throws NoSuchAlgorithmException { Instance instance = JceSecurity.getInstance ("Mac", MacSpi.class, algorithm, provider); return new Mac((MacSpi)instance.impl, instance.provider, algorithm); } // max number of debug warnings to print from chooseFirstProvider() private static int warnCount = 10; /** * Choose the Spi from the first provider available. Used if * delayed provider selection is not possible because init() * is not the first method called. */ void chooseFirstProvider() { if ((spi != null) || (serviceIterator == null)) { return; } synchronized (lock) { if (spi != null) { return; } if (debug != null) { int w = --warnCount; if (w >= 0) { debug.println("Mac.init() not first method " + "called, disabling delayed provider selection"); if (w == 0) { debug.println("Further warnings of this type will " + "be suppressed"); } new Exception("Call trace").printStackTrace(); } } Exception lastException = null; while ((firstService != null) || serviceIterator.hasNext()) { Service s; if (firstService != null) { s = firstService; firstService = null; } else { s = (Service)serviceIterator.next(); } if (JceSecurity.canUseProvider(s.getProvider()) == false) { continue; } try { Object obj = s.newInstance(null); if (obj instanceof MacSpi == false) { continue; } spi = (MacSpi)obj; provider = s.getProvider(); // not needed any more firstService = null; serviceIterator = null; return; } catch (NoSuchAlgorithmException e) { lastException = e; } } ProviderException e = new ProviderException ("Could not construct MacSpi instance"); if (lastException != null) { e.initCause(lastException); } throw e; } } private void chooseProvider(Key key, AlgorithmParameterSpec params) throws InvalidKeyException, InvalidAlgorithmParameterException { synchronized (lock) { if (spi != null) { spi.engineInit(key, params); return; } Exception lastException = null; while ((firstService != null) || serviceIterator.hasNext()) { Service s; if (firstService != null) { s = firstService; firstService = null; } else { s = (Service)serviceIterator.next(); } // if provider says it does not support this key, ignore it if (s.supportsParameter(key) == false) { continue; } if (JceSecurity.canUseProvider(s.getProvider()) == false) { continue; } try { MacSpi spi = (MacSpi)s.newInstance(null); spi.engineInit(key, params); provider = s.getProvider(); this.spi = spi; firstService = null; serviceIterator = null; return; } catch (Exception e) { // NoSuchAlgorithmException from newInstance() // InvalidKeyException from init() // RuntimeException (ProviderException) from init() if (lastException == null) { lastException = e; } } } // no working provider found, fail if (lastException instanceof InvalidKeyException) { throw (InvalidKeyException)lastException; } if (lastException instanceof InvalidAlgorithmParameterException) { throw (InvalidAlgorithmParameterException)lastException; } if (lastException instanceof RuntimeException) { throw (RuntimeException)lastException; } String kName = (key != null) ? key.getClass().getName() : "(null)"; throw new InvalidKeyException ("No installed provider supports this key: " + kName, lastException); } } /** * Returns the provider of this Mac object. * * @return the provider of this Mac object. */ public final Provider getProvider() { chooseFirstProvider(); return this.provider; } /** * Returns the length of the MAC in bytes. * * @return the MAC length in bytes. */ public final int getMacLength() { chooseFirstProvider(); return spi.engineGetMacLength(); } /** * Initializes this Mac object with the given key. * * @param key the key. * * @exception InvalidKeyException if the given key is inappropriate for * initializing this MAC. */ public final void init(Key key) throws InvalidKeyException { try { if (spi != null) { spi.engineInit(key, null); } else { chooseProvider(key, null); } } catch (InvalidAlgorithmParameterException e) { throw new InvalidKeyException("init() failed", e); } initialized = true; } /** * Initializes this Mac object with the given key and * algorithm parameters. * * @param key the key. * @param params the algorithm parameters. * * @exception InvalidKeyException if the given key is inappropriate for * initializing this MAC. * @exception InvalidAlgorithmParameterException if the given algorithm * parameters are inappropriate for this MAC. */ public final void init(Key key, AlgorithmParameterSpec params) throws InvalidKeyException, InvalidAlgorithmParameterException { if (spi != null) { spi.engineInit(key, params); } else { chooseProvider(key, params); } initialized = true; } /** * Processes the given byte. * * @param input the input byte to be processed. * * @exception IllegalStateException if this Mac has not been * initialized. */ public final void update(byte input) throws IllegalStateException { chooseFirstProvider(); if (initialized == false) { throw new IllegalStateException("MAC not initialized"); } spi.engineUpdate(input); } /** * Processes the given array of bytes. * * @param input the array of bytes to be processed. * * @exception IllegalStateException if this Mac has not been * initialized. */ public final void update(byte[] input) throws IllegalStateException { chooseFirstProvider(); if (initialized == false) { throw new IllegalStateException("MAC not initialized"); } if (input != null) { spi.engineUpdate(input, 0, input.length); } } /** * Processes the first len bytes in input, * starting at offset inclusive. * * @param input the input buffer. * @param offset the offset in input where the input starts. * @param len the number of bytes to process. * * @exception IllegalStateException if this Mac has not been * initialized. */ public final void update(byte[] input, int offset, int len) throws IllegalStateException { chooseFirstProvider(); if (initialized == false) { throw new IllegalStateException("MAC not initialized"); } if (input != null) { if ((offset < 0) || (len > (input.length - offset)) || (len < 0)) throw new IllegalArgumentException("Bad arguments"); spi.engineUpdate(input, offset, len); } } /** * Processes input.remaining() bytes in the ByteBuffer * input, starting at input.position(). * Upon return, the buffer's position will be equal to its limit; * its limit will not have changed. * * @param input the ByteBuffer * * @exception IllegalStateException if this Mac has not been * initialized. * @since 1.5 */ public final void update(ByteBuffer input) { chooseFirstProvider(); if (initialized == false) { throw new IllegalStateException("MAC not initialized"); } if (input == null) { throw new IllegalArgumentException("Buffer must not be null"); } spi.engineUpdate(input); } /** * Finishes the MAC operation. * *

A call to this method resets this Mac object to the * state it was in when previously initialized via a call to * init(Key) or * init(Key, AlgorithmParameterSpec). * That is, the object is reset and available to generate another MAC from * the same key, if desired, via new calls to update and * doFinal. * (In order to reuse this Mac object with a different key, * it must be reinitialized via a call to init(Key) or * init(Key, AlgorithmParameterSpec). * * @return the MAC result. * * @exception IllegalStateException if this Mac has not been * initialized. */ public final byte[] doFinal() throws IllegalStateException { chooseFirstProvider(); if (initialized == false) { throw new IllegalStateException("MAC not initialized"); } byte[] mac = spi.engineDoFinal(); spi.engineReset(); return mac; } /** * Finishes the MAC operation. * *

A call to this method resets this Mac object to the * state it was in when previously initialized via a call to * init(Key) or * init(Key, AlgorithmParameterSpec). * That is, the object is reset and available to generate another MAC from * the same key, if desired, via new calls to update and * doFinal. * (In order to reuse this Mac object with a different key, * it must be reinitialized via a call to init(Key) or * init(Key, AlgorithmParameterSpec). * *

The MAC result is stored in output, starting at * outOffset inclusive. * * @param output the buffer where the MAC result is stored * @param outOffset the offset in output where the MAC is * stored * * @exception ShortBufferException if the given output buffer is too small * to hold the result * @exception IllegalStateException if this Mac has not been * initialized. */ public final void doFinal(byte[] output, int outOffset) throws ShortBufferException, IllegalStateException { chooseFirstProvider(); if (initialized == false) { throw new IllegalStateException("MAC not initialized"); } int macLen = getMacLength(); if (output == null || output.length-outOffset < macLen) { throw new ShortBufferException ("Cannot store MAC in output buffer"); } byte[] mac = doFinal(); System.arraycopy(mac, 0, output, outOffset, macLen); return; } /** * Processes the given array of bytes and finishes the MAC operation. * *

A call to this method resets this Mac object to the * state it was in when previously initialized via a call to * init(Key) or * init(Key, AlgorithmParameterSpec). * That is, the object is reset and available to generate another MAC from * the same key, if desired, via new calls to update and * doFinal. * (In order to reuse this Mac object with a different key, * it must be reinitialized via a call to init(Key) or * init(Key, AlgorithmParameterSpec). * * @param input data in bytes * @return the MAC result. * * @exception IllegalStateException if this Mac has not been * initialized. */ public final byte[] doFinal(byte[] input) throws IllegalStateException { chooseFirstProvider(); if (initialized == false) { throw new IllegalStateException("MAC not initialized"); } update(input); return doFinal(); } /** * Resets this Mac object. * *

A call to this method resets this Mac object to the * state it was in when previously initialized via a call to * init(Key) or * init(Key, AlgorithmParameterSpec). * That is, the object is reset and available to generate another MAC from * the same key, if desired, via new calls to update and * doFinal. * (In order to reuse this Mac object with a different key, * it must be reinitialized via a call to init(Key) or * init(Key, AlgorithmParameterSpec). */ public final void reset() { chooseFirstProvider(); spi.engineReset(); } /** * Returns a clone if the provider implementation is cloneable. * * @return a clone if the provider implementation is cloneable. * * @exception CloneNotSupportedException if this is called on a * delegate that does not support Cloneable. */ public final Object clone() throws CloneNotSupportedException { chooseFirstProvider(); Mac that = (Mac)super.clone(); that.spi = (MacSpi)this.spi.clone(); return that; } }