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/*
 * =============================================================================
 * 
 *   Copyright (c) 2007-2010, The JASYPT team (http://www.jasypt.org)
 * 
 *   Licensed under the Apache License, Version 2.0 (the "License");
 *   you may not use this file except in compliance with the License.
 *   You may obtain a copy of the License at
 * 
 *       http://www.apache.org/licenses/LICENSE-2.0
 * 
 *   Unless required by applicable law or agreed to in writing, software
 *   distributed under the License is distributed on an "AS IS" BASIS,
 *   WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 *   See the License for the specific language governing permissions and
 *   limitations under the License.
 * 
 * =============================================================================
 */
package org.jasypt.properties;

import java.io.IOException;
import java.io.ObjectInputStream;
import java.io.ObjectOutputStream;
import java.util.Properties;

import org.jasypt.commons.CommonUtils;
import org.jasypt.encryption.StringEncryptor;
import org.jasypt.exceptions.EncryptionOperationNotPossibleException;
import org.jasypt.util.text.TextEncryptor;



/**
 * 

* Subclass of java.util.Properties which can make use of a * {@link org.jasypt.encryption.StringEncryptor} or * {@link org.jasypt.util.text.TextEncryptor} object to decrypt property values * if they are encrypted in the .properties file. *

*

* A value is considered "encrypted" when it appears surrounded by * ENC(...), like: *

*

*

* my.value=ENC(!"DGAS24FaIO$) *
*

*

* Decryption is performed on-the-fly when the {@link #getProperty(String)} or * {@link #getProperty(String, String)} methods are called, and only these two * methods perform decryption (note that neither {@link #get(Object)} nor * {@link #toString()} do). Load and store operations are not affected * by decryption in any manner. *

*

* Encrypted and unencrypted objects can be combined in the same * properties file. *

*

* Please note that, altough objects of this class are Serializable, they * cannot be serialized and then de-serialized in different classloaders or * virtual machines. This is so because encryptors are not serializable themselves * (they cannot, as they contain sensitive information) and so they remain * in memory, and live for as long as the classloader lives. *

* * @since 1.4 * * @author Daniel Fernández * */ public final class EncryptableProperties extends Properties { private static final long serialVersionUID = 6479795856725500639L; /* * Used as an identifier for the encryptor registry */ private final Integer ident = new Integer(CommonUtils.nextRandomInt()); /* * The string encryptor to be used for properties. Either this or the * 'textEncryptor' property have to be non-null. */ private transient StringEncryptor stringEncryptor = null; /* * The text encryptor to be used for properties. Either this or the * 'stringEncryptor' property have to be non-null. */ private transient TextEncryptor textEncryptor = null; /** *

* Creates an EncryptableProperties instance which will use * the passed {@link StringEncryptor} object to decrypt encrypted values. *

* * @param stringEncryptor the {@link StringEncryptor} to be used do decrypt * values. It can not be null. */ public EncryptableProperties(final StringEncryptor stringEncryptor) { this(null, stringEncryptor); } /** *

* Creates an EncryptableProperties instance which will use * the passed {@link TextEncryptor} object to decrypt encrypted values. *

* * @param textEncryptor the {@link TextEncryptor} to be used do decrypt * values. It can not be null. */ public EncryptableProperties(final TextEncryptor textEncryptor) { this(null, textEncryptor); } /** *

* Creates an EncryptableProperties instance which will use * the passed {@link StringEncryptor} object to decrypt encrypted values, * and the passed defaults as default values (may contain encrypted values). *

* * @param defaults default values for properties (may be encrypted). * @param stringEncryptor the {@link StringEncryptor} to be used do decrypt * values. It can not be null. */ public EncryptableProperties(final Properties defaults, final StringEncryptor stringEncryptor) { super(defaults); CommonUtils.validateNotNull(stringEncryptor, "Encryptor cannot be null"); this.stringEncryptor = stringEncryptor; this.textEncryptor = null; } /** *

* Creates an EncryptableProperties instance which will use * the passed {@link TextEncryptor} object to decrypt encrypted values, * and the passed defaults as default values (may contain encrypted values). *

* * @param defaults default values for properties (may be encrypted). * @param textEncryptor the {@link TextEncryptor} to be used do decrypt * values. It can not be null. */ public EncryptableProperties(final Properties defaults, final TextEncryptor textEncryptor) { super(defaults); CommonUtils.validateNotNull(textEncryptor, "Encryptor cannot be null"); this.stringEncryptor = null; this.textEncryptor = textEncryptor; } /** *

* Obtains the property value for the specified key (see * {@link Properties#getProperty(String)}), decrypting it if needed. *

* * @param key the property key * @return the (decrypted) value */ public String getProperty(final String key) { return decode(super.getProperty(key)); } /** *

* Obtains the property value for the specified key (see * {@link Properties#getProperty(String)}), decrypting it if needed. *

*

* If no value is found for the specified key, the default value will * be returned (decrypted if needed). *

* * @param key the property key * @param defaultValue the default value to return * @return the (decrypted) value */ public String getProperty(final String key, final String defaultValue) { return decode(super.getProperty(key, defaultValue)); } /** *

* Obtains the property value for the specified key (see * {@link Hashtable#get(Object)}), decrypting it if needed. *

* * @param key the property key * @return the (decrypted) value * @since 1.9.0 */ public synchronized Object get(final Object key) { final Object value = super.get(key); final String valueStr = (value instanceof String) ? (String)value : null; return decode(valueStr); } /* * Returns the identifier, just to be used by the registry */ Integer getIdent() { return this.ident; } /* * Internal method for decoding (decrypting) a value if needed. */ private synchronized String decode(final String encodedValue) { if (!PropertyValueEncryptionUtils.isEncryptedValue(encodedValue)) { return encodedValue; } if (this.stringEncryptor != null) { return PropertyValueEncryptionUtils.decrypt(encodedValue, this.stringEncryptor); } if (this.textEncryptor != null) { return PropertyValueEncryptionUtils.decrypt(encodedValue, this.textEncryptor); } /* * If neither a StringEncryptor nor a TextEncryptor can be retrieved * from the registry, this means that this EncryptableProperties * object has been serialized and then deserialized in a different * classloader and virtual machine, which is an unsupported behaviour. */ throw new EncryptionOperationNotPossibleException( "Neither a string encryptor nor a text encryptor exist " + "for this instance of EncryptableProperties. This is usually " + "caused by the instance having been serialized and then " + "de-serialized in a different classloader or virtual machine, " + "which is an unsupported behaviour (as encryptors cannot be " + "serialized themselves)"); } private void readObject(final ObjectInputStream in) throws IOException, ClassNotFoundException { in.defaultReadObject(); final EncryptablePropertiesEncryptorRegistry registry = EncryptablePropertiesEncryptorRegistry.getInstance(); final StringEncryptor registeredStringEncryptor = registry.getStringEncryptor(this); if (registeredStringEncryptor != null) { this.stringEncryptor = registeredStringEncryptor; return; } final TextEncryptor registeredTextEncryptor = registry.getTextEncryptor(this); if (registeredTextEncryptor != null) { this.textEncryptor = registeredTextEncryptor; } } private void writeObject(final ObjectOutputStream outputStream) throws IOException { final EncryptablePropertiesEncryptorRegistry registry = EncryptablePropertiesEncryptorRegistry.getInstance(); if (this.textEncryptor != null) { registry.setTextEncryptor(this, this.textEncryptor); } else if (this.stringEncryptor != null) { registry.setStringEncryptor(this, this.stringEncryptor); } outputStream.defaultWriteObject(); } }




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