// Copyright (c) 2002 Graz University of Technology. All rights reserved.
// 
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// are permitted provided that the following conditions are met:
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//    include the following acknowledgment:
// 
//    "This product includes software developed by IAIK of Graz University of
//     Technology."
// 
//    Alternately, this acknowledgment may appear in the software itself, if and
//    wherever such third-party acknowledgments normally appear.
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// 4. The names "Graz University of Technology" and "IAIK of Graz University of
//    Technology" must not be used to endorse or promote products derived from this
//    software without prior written permission.
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package iaik.pkcs.pkcs11.parameters;

import iaik.pkcs.pkcs11.TokenRuntimeException;
import iaik.pkcs.pkcs11.wrapper.CK_KEA_DERIVE_PARAMS;
import iaik.pkcs.pkcs11.wrapper.Constants;
import iaik.pkcs.pkcs11.wrapper.Functions;

/**
 * This class encapsulates parameters for the Mechanism.KEA_KEY_DERIVE.
 *
 * @author Karl Scheibelhofer
 * @version 1.0
 * @invariants (randomA_ <> null)
 *             and (randomB_ <> null)
 *             and (publicData_ <> null)
 */
public class KEADeriveParameters implements Parameters {

	/**
	 * Option for generating the key (called a TEK). The value is TRUE if the
	 * sender (originator) generates the TEK, FALSE if the recipient is
	 * regenerating the TEK.
	 */
	protected boolean isSender_;

	/**
	 * The Ra data.
	 */
	protected byte[] randomA_;

	/**
	 * The Rb data.
	 */
	protected byte[] randomB_;

	/**
	 * The other party's KEA public key value.
	 */
	protected byte[] publicData_;

	/**
	 * Create a new KEADeriveParameters object with the given attributes.
	 *
	 * @param isSender Option for generating the key (called a TEK). The value is
	 *                 TRUE if the sender (originator) generates the TEK, FALSE
	 *                 if the recipient is regenerating the TEK.
	 * @param randomA The random data Ra.
	 * @param randomB The random data Rb.
	 * @param publicData The other party's KEA public key value.
	 * @preconditions (randomA <> null)
	 *                and (randomB <> null)
	 *                and (publicData <> null)
	 * @postconditions
	 */
	public KEADeriveParameters(boolean isSender,
	                           byte[] randomA,
	                           byte[] randomB,
	                           byte[] publicData)
	{
		if (randomA == null) {
			throw new NullPointerException("Argument \"randomA\" must not be null.");
		}
		if (randomB == null) {
			throw new NullPointerException("Argument \"randomB\" must not be null.");
		}
		if (publicData == null) {
			throw new NullPointerException("Argument \"publicData\" must not be null.");
		}
		isSender_ = isSender;
		randomA_ = randomA;
		randomB_ = randomB;
		publicData_ = publicData;
	}

	/**
	 * Create a (deep) clone of this object.
	 *
	 * @return A clone of this object.
	 * @preconditions
	 * @postconditions (result <> null)
	 *                 and (result instanceof KEADeriveParameters)
	 *                 and (result.equals(this))
	 */
	public java.lang.Object clone() {
		KEADeriveParameters clone;

		try {
			clone = (KEADeriveParameters) super.clone();

			clone.randomA_ = (byte[]) this.randomA_.clone();
			clone.randomB_ = (byte[]) this.randomB_.clone();
			clone.publicData_ = (byte[]) this.publicData_.clone();
		} catch (CloneNotSupportedException ex) {
			// this must not happen, because this class is cloneable
			throw new TokenRuntimeException("An unexpected clone exception occurred.", ex);
		}

		return clone;
	}

	/**
	 * Get this parameters object as an object of the CK_KEA_DERIVE_PARAMS
	 * class.
	 *
	 * @return This object as a CK_KEA_DERIVE_PARAMS object.
	 * @preconditions
	 * @postconditions (result <> null)
	 */
	public Object getPKCS11ParamsObject() {
		CK_KEA_DERIVE_PARAMS params = new CK_KEA_DERIVE_PARAMS();

		params.isSender = isSender_;
		params.pRandomA = randomA_;
		params.pRandomB = randomB_;
		params.pPublicData = publicData_;

		return params;
	}

	/**
	 * Get the other party's KEA public key value.
	 *
	 * @return The other party's KEA public key value.
	 * @preconditions
	 * @postconditions (result <> null)
	 */
	public byte[] getPublicData() {
		return publicData_;
	}

	/**
	 * Get the random data Ra.
	 *
	 * @return The random data Ra.
	 * @preconditions
	 * @postconditions (result <> null)
	 */
	public byte[] getRandomA() {
		return randomA_;
	}

	/**
	 * Get the random data Rb.
	 *
	 * @return The random data Rb.
	 * @preconditions
	 * @postconditions (result <> null)
	 */
	public byte[] getRandomB() {
		return randomB_;
	}

	/**
	 * Get the option for generating the key (called a TEK).
	 *
	 * @return True if the sender (originator) generates the TEK,
	 *         false if the recipient is regenerating the TEK.
	 * @preconditions
	 * @postconditions
	 */
	public boolean isSender() {
		return isSender_;
	}

	/**
	 * Set the other party's KEA public key value.
	 *
	 * @param publicData The other party's KEA public key value.
	 * @preconditions (publicData <> null)
	 * @postconditions
	 */
	public void setPublicData(byte[] publicData) {
		if (publicData == null) {
			throw new NullPointerException("Argument \"publicData\" must not be null.");
		}
		publicData_ = publicData;
	}

	/**
	 * Set the random data Ra.
	 *
	 * @param randomA The random data Ra.
	 * @preconditions (randomA <> null)
	 * @postconditions
	 */
	public void setRandomA(byte[] randomA) {
		if (randomA == null) {
			throw new NullPointerException("Argument \"randomA\" must not be null.");
		}
		randomA_ = randomA;
	}

	/**
	 * Set the random data Rb.
	 *
	 * @param randomB The random data Rb.
	 * @preconditions (randomB <> null)
	 * @postconditions
	 */
	public void setRandomB(byte[] randomB) {
		if (randomB == null) {
			throw new NullPointerException("Argument \"randomB\" must not be null.");
		}
		randomB_ = randomB;
	}

	/**
	 * Set the option for generating the key (called a TEK).
	 *
	 * @param isSender True if the sender (originator) generates the TEK,
	 *                 false if the recipient is regenerating the TEK.
	 * @preconditions
	 * @postconditions
	 */
	public void setSender(boolean isSender) {
		isSender_ = isSender;
	}

	/**
	 * Returns the string representation of this object. Do not parse data from
	 * this string, it is for debugging only.
	 *
	 * @return A string representation of this object.
	 */
	public String toString() {
		StringBuffer buffer = new StringBuffer();

		buffer.append(Constants.INDENT);
		buffer.append("Is Sender: ");
		buffer.append(isSender_);
		buffer.append(Constants.NEWLINE);

		buffer.append(Constants.INDENT);
		buffer.append("Random Data A (hex): ");
		buffer.append(Functions.toHexString(randomA_));
		buffer.append(Constants.NEWLINE);

		buffer.append(Constants.INDENT);
		buffer.append("Random Data B (hex): ");
		buffer.append(Functions.toHexString(randomB_));
		buffer.append(Constants.NEWLINE);

		buffer.append(Constants.INDENT);
		buffer.append("Public Data (hex): ");
		buffer.append(Functions.toHexString(publicData_));
		// buffer.append(Constants.NEWLINE);

		return buffer.toString();
	}

	/**
	 * Compares all member variables of this object with the other object.
	 * Returns only true, if all are equal in both objects.
	 *
	 * @param otherObject The other object to compare to.
	 * @return True, if other is an instance of this class and all member
	 *         variables of both objects are equal. False, otherwise.
	 * @preconditions
	 * @postconditions
	 */
	public boolean equals(java.lang.Object otherObject) {
		boolean equal = false;

		if (otherObject instanceof KEADeriveParameters) {
			KEADeriveParameters other = (KEADeriveParameters) otherObject;
			equal = (this == other)
			    || ((this.isSender_ == other.isSender_)
			        && Functions.equals(this.randomA_, other.randomA_)
			        && Functions.equals(this.randomB_, other.randomB_) && Functions.equals(
			        this.publicData_, other.publicData_));
		}

		return equal;
	}

	/**
	 * The overriding of this method should ensure that the objects of this class
	 * work correctly in a hashtable.
	 *
	 * @return The hash code of this object.
	 * @preconditions
	 * @postconditions
	 */
	public int hashCode() {
		return Functions.hashCode(randomA_) ^ Functions.hashCode(randomB_)
		    ^ Functions.hashCode(publicData_);
	}

}