android-platform-libcore/luni/src/main/java/org/apache/harmony/security/asn1/ASN1Choice.java - nest-cam/4320010/android-platform-libcore - Git at Google

 /*
  *  Licensed to the Apache Software Foundation (ASF) under one or more
  *  contributor license agreements.  See the NOTICE file distributed with
  *  this work for additional information regarding copyright ownership.
  *  The ASF licenses this file to You 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.
  */
 /**
 * @author Vladimir N. Molotkov, Stepan M. Mishura
 * @version $Revision$
 */

 package org.apache.harmony.security.asn1;

 import java.io.IOException;
 import java.math.BigInteger;
 import java.util.Arrays;
 import java.util.Iterator;
 import java.util.Map;
 import java.util.TreeMap;


 /**
  * This abstract class represents ASN.1 Choice type.
  *
  * To implement custom ASN.1 choice type an application class
  * must provide implementation for the following methods:
  *     getIndex()
  *     getObjectToEncode()
  *
  * There are two ways to implement custom ASN.1 choice type:
  * with application class that represents ASN.1 custom choice type or without.
  * The key point is how a value of choice type is stored by application classes.
  *
  * For example, let's consider the following ASN.1 notations
  * (see http://www.ietf.org/rfc/rfc3280.txt)
  *
  * Time ::= CHOICE {
  *       utcTime        UTCTime,
  *       generalTime    GeneralizedTime
  * }
  *
  * Validity ::= SEQUENCE {
  *       notBefore      Time,
  *       notAfter       Time
  *  }
  *
  * 1)First approach:
  * No application class to represent ASN.1 Time notation
  *
  * The Time notation is a choice of different time formats: UTC and Generalized.
  * Both of them are mapped to java.util.Date object, so an application
  * class that represents ASN.1 Validity notation may keep values
  * as Date objects.
  *
  * So a custom ASN.1 Time choice type should map its notation to Date object.
  *
  * class Time {
  *
  *     // custom ASN.1 choice class: maps Time to is notation
  *     public static final ASN1Choice asn1 = new ASN1Choice(new ASN1Type[] {
  *         ASN1GeneralizedTime.asn1, ASN1UTCTime.asn1 }) {
  *
  *         public int getIndex(java.lang.Object object) {
  *             return 0; // always encode as ASN1GeneralizedTime
  *         }
  *
  *         public Object getObjectToEncode(Object object) {
  *
  *             // A value to be encoded value is a Date object
  *             // pass it to custom time class
  *             return object;
  *         }
  *     };
  * }
  *
  * class Validity {
  *
  *     private Date notBefore;    // choice as Date
  *     private Date notAfter;     // choice as Date
  *
  *     ... // constructors and other methods go here
  *
  *     // custom ASN.1 sequence class: maps Validity class to is notation
  *     public static final ASN1Sequence ASN1
  *         = new ASN1Sequence(new ASN1Type[] {Time.asn1, Time.asn1 }) {
  *
  *         protected Object getObject(Object[] values) {
  *
  *             // ASN.1 Time choice passed Data object - use it
  *             return new Validity((Date) values[0], (Date) values[1]);
  *         }
  *
  *         protected void getValues(Object object, Object[] values) {
  *
  *             Validity validity = (Validity) object;
  *
  *             // pass Date objects to ASN.1 Time choice
  *             values[0] = validity.notBefore;
  *             values[1] = validity.notAfter;
  *         }
  *     }
  * }
  *
  * 2)Second approach:
  * There is an application class to represent ASN.1 Time notation
  *
  * If it is a matter what time format should be used to decode/encode
  * Date objects a class to represent ASN.1 Time notation must be created.
  *
  * For example,
  *
  * class Time {
  *
  *     private Date utcTime;
  *     private Date gTime;
  *
  *     ... // constructors and other methods go here
  *
  *     // custom ASN.1 choice class: maps Time to is notation
  *     public static final ASN1Choice asn1 = new ASN1Choice(new ASN1Type[] {
  *         ASN1GeneralizedTime.asn1, ASN1UTCTime.asn1 }) {
  *
  *         public Object getDecodedObject(BerInputStream in) {
  *
  *             // create Time object to pass as decoded value
  *             Time time = new Time();
  *
  *             if (in.choiceIndex==0) {
  *                 // we decoded GeneralizedTime
  *                 // store decoded Date value in corresponding field
  *                 time.gTime = in.content;
  *                 // return it
  *                 return time;
  *             } else {
  *                 // we decoded UTCTime
  *                 // store decoded Date value in corresponding field
  *                 time.utcTime = in.content;
  *                 // return it
  *                 return time;
  *             }
  *         }
  *
  *         public int getIndex(java.lang.Object object) {
  *             Time time = (Time)object;
  *             if(time.utcTime!=null){
  *                 // encode Date as UTCTime
  *                 return 1;
  *             } else {
  *                 // otherwise encode Date as GeneralizedTime
  *                 return 0;
  *             }
  *         }
  *
  *         public Object getObjectToEncode(Object object) {
  *             Time time = (Time)object;
  *             if(time.utcTime!=null){
  *                 // encode Date as UTCTime
  *                 return 1;
  *             } else {
  *                 // otherwise encode Date as GeneralizedTime
  *                 return 0;
  *             }
  *         }
  *     };
  * }
  *
  * So now Validity class must keep all values in Time object
  * and its custom ASN.1 sequence class must handle this class of objects
  *
  * class Validity {
  *
  *     private Time notBefore;    // now it is a Time!!!
  *     private Time notAfter;     // now it is a Time!!!
  *
  *     ... // constructors and other methods go here
  *
  *     // custom ASN.1 sequence class: maps Validity class to is notation
  *     public static final ASN1Sequence ASN1
  *         = new ASN1Sequence(new ASN1Type[] {Time.asn1, Time.asn1 }) {
  *
  *         protected Object getObject(Object[] values) {
  *
  *             // We've gotten Time objects here !!!
  *             return new Validity((Time) values[0], (Time) values[1]);
  *         }
  *
  *         protected void getValues(Object object, Object[] values) {
  *
  *             Validity validity = (Validity) object;
  *
  *             // pass Time objects to ASN.1 Time choice
  *             values[0] = validity.notBefore;
  *             values[1] = validity.notAfter;
  *         }
  *     }
  * }
  *
  * @see <a href="http://asn1.elibel.tm.fr/en/standards/index.htm">ASN.1</a>
  */

 public abstract class ASN1Choice extends ASN1Type {

     public final ASN1Type[] type;

     // identifiers table: [2][number of distinct identifiers]
     // identifiers[0]: stores identifiers (includes nested choices)
     // identifiers[1]: stores identifiers' indexes in array of types
     private final int[][] identifiers;

     /**
      * Constructs ASN.1 choice type.
      *
      * @param type -
      *            an array of one or more ASN.1 type alternatives.
      * @throws IllegalArgumentException -
      *             type parameter is invalid
      */
     public ASN1Choice(ASN1Type[] type) {
         super(TAG_CHOICE); // has not tag number

         if (type.length == 0) {
             throw new IllegalArgumentException("ASN.1 choice type MUST have at least one alternative: " + getClass().getName());
         }

         // create map of all identifiers
         TreeMap map = new TreeMap();
         for (int index = 0; index < type.length; index++) {

             ASN1Type t = type[index];

             if (t instanceof ASN1Any) {
                 // ASN.1 ANY is not allowed,
                 // even it is a single component (not good for nested choices)
                 throw new IllegalArgumentException("ASN.1 choice type MUST have alternatives with distinct tags: " + getClass().getName()); // FIXME name
             } else if (t instanceof ASN1Choice) {

                 // add all choice's identifiers
                 int[][] choiceToAdd = ((ASN1Choice) t).identifiers;
                 for (int j = 0; j < choiceToAdd[0].length; j++) {
                     addIdentifier(map, choiceToAdd[0][j], index);
                 }
                 continue;
             }

             // add primitive identifier
             if (t.checkTag(t.id)) {
                 addIdentifier(map, t.id, index);
             }

             // add constructed identifier
             if (t.checkTag(t.constrId)) {
                 addIdentifier(map, t.constrId, index);
             }
         }

         // fill identifiers array
         int size = map.size();
         identifiers = new int[2][size];
         Iterator it = map.entrySet().iterator();

         for (int i = 0; i < size; i++) {
         	Map.Entry entry = (Map.Entry) it.next();
             BigInteger identifier = (BigInteger) entry.getKey();

             identifiers[0][i] = identifier.intValue();
             identifiers[1][i] = ((BigInteger) entry.getValue()).intValue();
         }

         this.type = type;
     }

     private void addIdentifier(TreeMap map, int identifier, int index){
         if (map.put(BigInteger.valueOf(identifier), BigInteger.valueOf(index)) != null) {
             throw new IllegalArgumentException("ASN.1 choice type MUST have alternatives with distinct tags: " + getClass().getName()); // FIXME name
         }
     }

     //
     //
     // DECODE
     //
     //

     /**
      * Tests whether one of choice alternatives has the same identifier or not.
      *
      * @param identifier -
      *            ASN.1 identifier to be verified
      * @return - true if one of choice alternatives has the same identifier,
      *         otherwise false;
      */
     public final boolean checkTag(int identifier) {
         return Arrays.binarySearch(identifiers[0], identifier) >= 0;
     }

     public Object decode(BerInputStream in) throws IOException {

         int index = Arrays.binarySearch(identifiers[0], in.tag);
         if (index < 0) {
             throw new ASN1Exception("Failed to decode ASN.1 choice type.  No alternatives were found for " + getClass().getName());// FIXME message
         }

         index = identifiers[1][index];

         in.content = type[index].decode(in);

         // set index for getDecodedObject method
         in.choiceIndex = index;

         if (in.isVerify) {
             return null;
         }
         return getDecodedObject(in);
     }

     //
     //
     // ENCODE
     //
     //

     public void encodeASN(BerOutputStream out) {
         encodeContent(out);
     }

     public final void encodeContent(BerOutputStream out) {
         out.encodeChoice(this);
     }

     /**
      * TODO Put method description here
      *
      * @param object - an object to be encoded
      * @return
      */
     public abstract int getIndex(Object object);

     public abstract Object getObjectToEncode(Object object);

     public final void setEncodingContent(BerOutputStream out) {
         out.getChoiceLength(this);
     }
 }
	/*
	* Licensed to the Apache Software Foundation (ASF) under one or more
	* contributor license agreements. See the NOTICE file distributed with
	* this work for additional information regarding copyright ownership.
	* The ASF licenses this file to You 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.
	*/
	/**
	* @author Vladimir N. Molotkov, Stepan M. Mishura
	* @version $Revision$
	*/

	package org.apache.harmony.security.asn1;

	import java.io.IOException;
	import java.math.BigInteger;
	import java.util.Arrays;
	import java.util.Iterator;
	import java.util.Map;
	import java.util.TreeMap;


	/**
	* This abstract class represents ASN.1 Choice type.
	*
	* To implement custom ASN.1 choice type an application class
	* must provide implementation for the following methods:
	* getIndex()
	* getObjectToEncode()
	*
	* There are two ways to implement custom ASN.1 choice type:
	* with application class that represents ASN.1 custom choice type or without.
	* The key point is how a value of choice type is stored by application classes.
	*
	* For example, let's consider the following ASN.1 notations
	* (see http://www.ietf.org/rfc/rfc3280.txt)
	*
	* Time ::= CHOICE {
	* utcTime UTCTime,
	* generalTime GeneralizedTime
	* }
	*
	* Validity ::= SEQUENCE {
	* notBefore Time,
	* notAfter Time
	* }
	*
	* 1)First approach:
	* No application class to represent ASN.1 Time notation
	*
	* The Time notation is a choice of different time formats: UTC and Generalized.
	* Both of them are mapped to java.util.Date object, so an application
	* class that represents ASN.1 Validity notation may keep values
	* as Date objects.
	*
	* So a custom ASN.1 Time choice type should map its notation to Date object.
	*
	* class Time {
	*
	* // custom ASN.1 choice class: maps Time to is notation
	* public static final ASN1Choice asn1 = new ASN1Choice(new ASN1Type[] {
	* ASN1GeneralizedTime.asn1, ASN1UTCTime.asn1 }) {
	*
	* public int getIndex(java.lang.Object object) {
	* return 0; // always encode as ASN1GeneralizedTime
	* }
	*
	* public Object getObjectToEncode(Object object) {
	*
	* // A value to be encoded value is a Date object
	* // pass it to custom time class
	* return object;
	* }
	* };
	* }
	*
	* class Validity {
	*
	* private Date notBefore; // choice as Date
	* private Date notAfter; // choice as Date
	*
	* ... // constructors and other methods go here
	*
	* // custom ASN.1 sequence class: maps Validity class to is notation
	* public static final ASN1Sequence ASN1
	* = new ASN1Sequence(new ASN1Type[] {Time.asn1, Time.asn1 }) {
	*
	* protected Object getObject(Object[] values) {
	*
	* // ASN.1 Time choice passed Data object - use it
	* return new Validity((Date) values[0], (Date) values[1]);
	* }
	*
	* protected void getValues(Object object, Object[] values) {
	*
	* Validity validity = (Validity) object;
	*
	* // pass Date objects to ASN.1 Time choice
	* values[0] = validity.notBefore;
	* values[1] = validity.notAfter;
	* }
	* }
	* }
	*
	* 2)Second approach:
	* There is an application class to represent ASN.1 Time notation
	*
	* If it is a matter what time format should be used to decode/encode
	* Date objects a class to represent ASN.1 Time notation must be created.
	*
	* For example,
	*
	* class Time {
	*
	* private Date utcTime;
	* private Date gTime;
	*
	* ... // constructors and other methods go here
	*
	* // custom ASN.1 choice class: maps Time to is notation
	* public static final ASN1Choice asn1 = new ASN1Choice(new ASN1Type[] {
	* ASN1GeneralizedTime.asn1, ASN1UTCTime.asn1 }) {
	*
	* public Object getDecodedObject(BerInputStream in) {
	*
	* // create Time object to pass as decoded value
	* Time time = new Time();
	*
	* if (in.choiceIndex==0) {
	* // we decoded GeneralizedTime
	* // store decoded Date value in corresponding field
	* time.gTime = in.content;
	* // return it
	* return time;
	* } else {
	* // we decoded UTCTime
	* // store decoded Date value in corresponding field
	* time.utcTime = in.content;
	* // return it
	* return time;
	* }
	* }
	*
	* public int getIndex(java.lang.Object object) {
	* Time time = (Time)object;
	* if(time.utcTime!=null){
	* // encode Date as UTCTime
	* return 1;
	* } else {
	* // otherwise encode Date as GeneralizedTime
	* return 0;
	* }
	* }
	*
	* public Object getObjectToEncode(Object object) {
	* Time time = (Time)object;
	* if(time.utcTime!=null){
	* // encode Date as UTCTime
	* return 1;
	* } else {
	* // otherwise encode Date as GeneralizedTime
	* return 0;
	* }
	* }
	* };
	* }
	*
	* So now Validity class must keep all values in Time object
	* and its custom ASN.1 sequence class must handle this class of objects
	*
	* class Validity {
	*
	* private Time notBefore; // now it is a Time!!!
	* private Time notAfter; // now it is a Time!!!
	*
	* ... // constructors and other methods go here
	*
	* // custom ASN.1 sequence class: maps Validity class to is notation
	* public static final ASN1Sequence ASN1
	* = new ASN1Sequence(new ASN1Type[] {Time.asn1, Time.asn1 }) {
	*
	* protected Object getObject(Object[] values) {
	*
	* // We've gotten Time objects here !!!
	* return new Validity((Time) values[0], (Time) values[1]);
	* }
	*
	* protected void getValues(Object object, Object[] values) {
	*
	* Validity validity = (Validity) object;
	*
	* // pass Time objects to ASN.1 Time choice
	* values[0] = validity.notBefore;
	* values[1] = validity.notAfter;
	* }
	* }
	* }
	*
	* @see <a href="http://asn1.elibel.tm.fr/en/standards/index.htm">ASN.1</a>
	*/

	public abstract class ASN1Choice extends ASN1Type {

	public final ASN1Type[] type;

	// identifiers table: [2][number of distinct identifiers]
	// identifiers[0]: stores identifiers (includes nested choices)
	// identifiers[1]: stores identifiers' indexes in array of types
	private final int[][] identifiers;

	/**
	* Constructs ASN.1 choice type.
	*
	* @param type -
	* an array of one or more ASN.1 type alternatives.
	* @throws IllegalArgumentException -
	* type parameter is invalid
	*/
	public ASN1Choice(ASN1Type[] type) {
	super(TAG_CHOICE); // has not tag number

	if (type.length == 0) {
	throw new IllegalArgumentException("ASN.1 choice type MUST have at least one alternative: " + getClass().getName());
	}

	// create map of all identifiers
	TreeMap map = new TreeMap();
	for (int index = 0; index < type.length; index++) {

	ASN1Type t = type[index];

	if (t instanceof ASN1Any) {
	// ASN.1 ANY is not allowed,
	// even it is a single component (not good for nested choices)
	throw new IllegalArgumentException("ASN.1 choice type MUST have alternatives with distinct tags: " + getClass().getName()); // FIXME name
	} else if (t instanceof ASN1Choice) {

	// add all choice's identifiers
	int[][] choiceToAdd = ((ASN1Choice) t).identifiers;
	for (int j = 0; j < choiceToAdd[0].length; j++) {
	addIdentifier(map, choiceToAdd[0][j], index);
	}
	continue;
	}

	// add primitive identifier
	if (t.checkTag(t.id)) {
	addIdentifier(map, t.id, index);
	}

	// add constructed identifier
	if (t.checkTag(t.constrId)) {
	addIdentifier(map, t.constrId, index);
	}
	}

	// fill identifiers array
	int size = map.size();
	identifiers = new int[2][size];
	Iterator it = map.entrySet().iterator();

	for (int i = 0; i < size; i++) {
	Map.Entry entry = (Map.Entry) it.next();
	BigInteger identifier = (BigInteger) entry.getKey();

	identifiers[0][i] = identifier.intValue();
	identifiers[1][i] = ((BigInteger) entry.getValue()).intValue();
	}

	this.type = type;
	}

	private void addIdentifier(TreeMap map, int identifier, int index){
	if (map.put(BigInteger.valueOf(identifier), BigInteger.valueOf(index)) != null) {
	throw new IllegalArgumentException("ASN.1 choice type MUST have alternatives with distinct tags: " + getClass().getName()); // FIXME name
	}
	}

	//
	//
	// DECODE
	//
	//

	/**
	* Tests whether one of choice alternatives has the same identifier or not.
	*
	* @param identifier -
	* ASN.1 identifier to be verified
	* @return - true if one of choice alternatives has the same identifier,
	* otherwise false;
	*/
	public final boolean checkTag(int identifier) {
	return Arrays.binarySearch(identifiers[0], identifier) >= 0;
	}

	public Object decode(BerInputStream in) throws IOException {

	int index = Arrays.binarySearch(identifiers[0], in.tag);
	if (index < 0) {
	throw new ASN1Exception("Failed to decode ASN.1 choice type. No alternatives were found for " + getClass().getName());// FIXME message
	}

	index = identifiers[1][index];

	in.content = type[index].decode(in);

	// set index for getDecodedObject method
	in.choiceIndex = index;

	if (in.isVerify) {
	return null;
	}
	return getDecodedObject(in);
	}

	//
	//
	// ENCODE
	//
	//

	public void encodeASN(BerOutputStream out) {
	encodeContent(out);
	}

	public final void encodeContent(BerOutputStream out) {
	out.encodeChoice(this);
	}

	/**
	* TODO Put method description here
	*
	* @param object - an object to be encoded
	* @return
	*/
	public abstract int getIndex(Object object);

	public abstract Object getObjectToEncode(Object object);

	public final void setEncodingContent(BerOutputStream out) {
	out.getChoiceLength(this);
	}
	}