bcprov/src/main/java/org/bouncycastle/asn1/ASN1UTCTime.java - platform/external/bouncycastle - Git at Google

 package org.bouncycastle.asn1;

 import java.io.IOException;
 import java.text.ParseException;
 import java.text.SimpleDateFormat;
 import java.util.Calendar;
 import java.util.Date;
 import java.util.Locale;
 import java.util.SimpleTimeZone;

 import org.bouncycastle.util.Arrays;
 import org.bouncycastle.util.Strings;

 /**
 - * UTC time object.
  * Internal facade of {@link ASN1UTCTime}.
  * <p>
  * This datatype is valid only from 1950-01-01 00:00:00 UTC until 2049-12-31 23:59:59 UTC.
  * <p>
  * <hr>
  * <p><b>X.690</b></p>
  * <p><b>11: Restrictions on BER employed by both CER and DER</b></p>
  * <p><b>11.8 UTCTime </b></p>
  * <b>11.8.1</b> The encoding shall terminate with "Z",
  * as described in the ITU-T X.680 | ISO/IEC 8824-1 clause on UTCTime.
  * <p>
  * <b>11.8.2</b> The seconds element shall always be present.
  * <p>
  * <b>11.8.3</b> Midnight (GMT) shall be represented in the form:
  * <blockquote>
  * "YYMMDD000000Z"
  * </blockquote>
  * where "YYMMDD" represents the day following the midnight in question.
  */
 public class ASN1UTCTime
     extends ASN1Primitive
 {
     private byte[]      time;

     /**
      * return an UTC Time from the passed in object.
      *
      * @param obj an ASN1UTCTime or an object that can be converted into one.
      * @exception IllegalArgumentException if the object cannot be converted.
      * @return an ASN1UTCTime instance, or null.
      */
     public static ASN1UTCTime getInstance(
         Object  obj)
     {
         if (obj == null || obj instanceof ASN1UTCTime)
         {
             return (ASN1UTCTime)obj;
         }

         if (obj instanceof byte[])
         {
             try
             {
                 return (ASN1UTCTime)fromByteArray((byte[])obj);
             }
             catch (Exception e)
             {
                 throw new IllegalArgumentException("encoding error in getInstance: " + e.toString());
             }
         }

         throw new IllegalArgumentException("illegal object in getInstance: " + obj.getClass().getName());
     }

     /**
      * return an UTC Time from a tagged object.
      *
      * @param obj the tagged object holding the object we want
      * @param explicit true if the object is meant to be explicitly
      *              tagged false otherwise.
      * @exception IllegalArgumentException if the tagged object cannot
      *               be converted.
      * @return an ASN1UTCTime instance, or null.
      */
     public static ASN1UTCTime getInstance(
         ASN1TaggedObject obj,
         boolean          explicit)
     {
         ASN1Object o = obj.getObject();

         if (explicit || o instanceof ASN1UTCTime)
         {
             return getInstance(o);
         }
         else
         {
             return new ASN1UTCTime(((ASN1OctetString)o).getOctets());
         }
     }

     /**
      * The correct format for this is YYMMDDHHMMSSZ (it used to be that seconds were
      * never encoded. When you're creating one of these objects from scratch, that's
      * what you want to use, otherwise we'll try to deal with whatever gets read from
      * the input stream... (this is why the input format is different from the getTime()
      * method output).
      * <p>
      *
      * @param time the time string.
      */
     public ASN1UTCTime(
         String time)
     {
         this.time = Strings.toByteArray(time);
         try
         {
             this.getDate();
         }
         catch (ParseException e)
         {
             throw new IllegalArgumentException("invalid date string: " + e.getMessage());
         }
     }

     /**
      * base constructor from a java.util.date object
      * @param time the Date to build the time from.
      */
     public ASN1UTCTime(
         Date time)
     {
         // BEGIN android-changed
         // Was: SimpleDateFormat dateF = new SimpleDateFormat("yyMMddHHmmss'Z'");
         SimpleDateFormat dateF = new SimpleDateFormat("yyMMddHHmmss'Z'", Locale.US);
         // END android-changed

         dateF.setTimeZone(new SimpleTimeZone(0,"Z"));

         this.time = Strings.toByteArray(dateF.format(time));
     }

     /**
      * Base constructor from a java.util.date and Locale - you may need to use this if the default locale
      * doesn't use a Gregorian calender so that the GeneralizedTime produced is compatible with other ASN.1 implementations.
      *
      * @param time a date object representing the time of interest.
      * @param locale an appropriate Locale for producing an ASN.1 UTCTime value.
      */
     public ASN1UTCTime(
         Date time,
         Locale locale)
     {
         // BEGIN android-changed
         // Was: SimpleDateFormat dateF = new SimpleDateFormat("yyMMddHHmmss'Z'", locale);
         SimpleDateFormat dateF = new SimpleDateFormat("yyMMddHHmmss'Z'", Locale.US);
         dateF.setCalendar(Calendar.getInstance(locale));
         // END android-changed

         dateF.setTimeZone(new SimpleTimeZone(0,"Z"));

         this.time = Strings.toByteArray(dateF.format(time));
     }

     ASN1UTCTime(
         byte[] time)
     {
         this.time = time;
     }

     /**
      * return the time as a date based on whatever a 2 digit year will return. For
      * standardised processing use getAdjustedDate().
      *
      * @return the resulting date
      * @exception ParseException if the date string cannot be parsed.
      */
     public Date getDate()
         throws ParseException
     {
         // BEGIN android-changed
         // Was: SimpleDateFormat dateF = new SimpleDateFormat("yyMMddHHmmssz");
         SimpleDateFormat dateF = new SimpleDateFormat("yyMMddHHmmssz", Locale.US);
         // END android-changed

         return dateF.parse(getTime());
     }

     /**
      * return the time as an adjusted date
      * in the range of 1950 - 2049.
      *
      * @return a date in the range of 1950 to 2049.
      * @exception ParseException if the date string cannot be parsed.
      */
     public Date getAdjustedDate()
         throws ParseException
     {
         // BEGIN android-changed
         // Was: SimpleDateFormat dateF = new SimpleDateFormat("yyyyMMddHHmmssz");
         SimpleDateFormat dateF = new SimpleDateFormat("yyyyMMddHHmmssz", Locale.US);
         // END android-changed

         dateF.setTimeZone(new SimpleTimeZone(0, "Z"));

         return dateF.parse(getAdjustedTime());
     }

     /**
      * return the time - always in the form of
      *  YYMMDDhhmmssGMT(+hh:mm|-hh:mm).
      * <p>
      * Normally in a certificate we would expect "Z" rather than "GMT",
      * however adding the "GMT" means we can just use:
      * <pre>
      *     dateF = new SimpleDateFormat("yyMMddHHmmssz");
      * </pre>
      * To read in the time and get a date which is compatible with our local
      * time zone.
      * <p>
      * <b>Note:</b> In some cases, due to the local date processing, this
      * may lead to unexpected results. If you want to stick the normal
      * convention of 1950 to 2049 use the getAdjustedTime() method.
      */
     public String getTime()
     {
         String stime = Strings.fromByteArray(time);

         //
         // standardise the format.
         //
         if (stime.indexOf('-') < 0 && stime.indexOf('+') < 0)
         {
             if (stime.length() == 11)
             {
                 return stime.substring(0, 10) + "00GMT+00:00";
             }
             else
             {
                 return stime.substring(0, 12) + "GMT+00:00";
             }
         }
         else
         {
             int index = stime.indexOf('-');
             if (index < 0)
             {
                 index = stime.indexOf('+');
             }
             String d = stime;

             if (index == stime.length() - 3)
             {
                 d += "00";
             }

             if (index == 10)
             {
                 return d.substring(0, 10) + "00GMT" + d.substring(10, 13) + ":" + d.substring(13, 15);
             }
             else
             {
                 return d.substring(0, 12) + "GMT" + d.substring(12, 15) + ":" +  d.substring(15, 17);
             }
         }
     }

     /**
      * return a time string as an adjusted date with a 4 digit year. This goes
      * in the range of 1950 - 2049.
      */
     public String getAdjustedTime()
     {
         String   d = this.getTime();

         if (d.charAt(0) < '5')
         {
             return "20" + d;
         }
         else
         {
             return "19" + d;
         }
     }

     boolean isConstructed()
     {
         return false;
     }

     int encodedLength()
     {
         int length = time.length;

         return 1 + StreamUtil.calculateBodyLength(length) + length;
     }

     void encode(
         ASN1OutputStream  out)
         throws IOException
     {
         out.write(BERTags.UTC_TIME);

         int length = time.length;

         out.writeLength(length);

         for (int i = 0; i != length; i++)
         {
             out.write((byte)time[i]);
         }
     }

     boolean asn1Equals(
         ASN1Primitive o)
     {
         if (!(o instanceof ASN1UTCTime))
         {
             return false;
         }

         return Arrays.areEqual(time, ((ASN1UTCTime)o).time);
     }

     public int hashCode()
     {
         return Arrays.hashCode(time);
     }

     public String toString()
     {
       return Strings.fromByteArray(time);
     }
 }
	package org.bouncycastle.asn1;

	import java.io.IOException;
	import java.text.ParseException;
	import java.text.SimpleDateFormat;
	import java.util.Calendar;
	import java.util.Date;
	import java.util.Locale;
	import java.util.SimpleTimeZone;

	import org.bouncycastle.util.Arrays;
	import org.bouncycastle.util.Strings;

	/**
	- * UTC time object.
	* Internal facade of {@link ASN1UTCTime}.
	* <p>
	* This datatype is valid only from 1950-01-01 00:00:00 UTC until 2049-12-31 23:59:59 UTC.
	* <p>
	* <hr>
	* <p><b>X.690</b></p>
	* <p><b>11: Restrictions on BER employed by both CER and DER</b></p>
	* <p><b>11.8 UTCTime </b></p>
	* <b>11.8.1</b> The encoding shall terminate with "Z",
	* as described in the ITU-T X.680 \| ISO/IEC 8824-1 clause on UTCTime.
	* <p>
	* <b>11.8.2</b> The seconds element shall always be present.
	* <p>
	* <b>11.8.3</b> Midnight (GMT) shall be represented in the form:
	* <blockquote>
	* "YYMMDD000000Z"
	* </blockquote>
	* where "YYMMDD" represents the day following the midnight in question.
	*/
	public class ASN1UTCTime
	extends ASN1Primitive
	{
	private byte[] time;

	/**
	* return an UTC Time from the passed in object.
	*
	* @param obj an ASN1UTCTime or an object that can be converted into one.
	* @exception IllegalArgumentException if the object cannot be converted.
	* @return an ASN1UTCTime instance, or null.
	*/
	public static ASN1UTCTime getInstance(
	Object obj)
	{
	if (obj == null \|\| obj instanceof ASN1UTCTime)
	{
	return (ASN1UTCTime)obj;
	}

	if (obj instanceof byte[])
	{
	try
	{
	return (ASN1UTCTime)fromByteArray((byte[])obj);
	}
	catch (Exception e)
	{
	throw new IllegalArgumentException("encoding error in getInstance: " + e.toString());
	}
	}

	throw new IllegalArgumentException("illegal object in getInstance: " + obj.getClass().getName());
	}

	/**
	* return an UTC Time from a tagged object.
	*
	* @param obj the tagged object holding the object we want
	* @param explicit true if the object is meant to be explicitly
	* tagged false otherwise.
	* @exception IllegalArgumentException if the tagged object cannot
	* be converted.
	* @return an ASN1UTCTime instance, or null.
	*/
	public static ASN1UTCTime getInstance(
	ASN1TaggedObject obj,
	boolean explicit)
	{
	ASN1Object o = obj.getObject();

	if (explicit \|\| o instanceof ASN1UTCTime)
	{
	return getInstance(o);
	}
	else
	{
	return new ASN1UTCTime(((ASN1OctetString)o).getOctets());
	}
	}

	/**
	* The correct format for this is YYMMDDHHMMSSZ (it used to be that seconds were
	* never encoded. When you're creating one of these objects from scratch, that's
	* what you want to use, otherwise we'll try to deal with whatever gets read from
	* the input stream... (this is why the input format is different from the getTime()
	* method output).
	* <p>
	*
	* @param time the time string.
	*/
	public ASN1UTCTime(
	String time)
	{
	this.time = Strings.toByteArray(time);
	try
	{
	this.getDate();
	}
	catch (ParseException e)
	{
	throw new IllegalArgumentException("invalid date string: " + e.getMessage());
	}
	}

	/**
	* base constructor from a java.util.date object
	* @param time the Date to build the time from.
	*/
	public ASN1UTCTime(
	Date time)
	{
	// BEGIN android-changed
	// Was: SimpleDateFormat dateF = new SimpleDateFormat("yyMMddHHmmss'Z'");
	SimpleDateFormat dateF = new SimpleDateFormat("yyMMddHHmmss'Z'", Locale.US);
	// END android-changed

	dateF.setTimeZone(new SimpleTimeZone(0,"Z"));

	this.time = Strings.toByteArray(dateF.format(time));
	}

	/**
	* Base constructor from a java.util.date and Locale - you may need to use this if the default locale
	* doesn't use a Gregorian calender so that the GeneralizedTime produced is compatible with other ASN.1 implementations.
	*
	* @param time a date object representing the time of interest.
	* @param locale an appropriate Locale for producing an ASN.1 UTCTime value.
	*/
	public ASN1UTCTime(
	Date time,
	Locale locale)
	{
	// BEGIN android-changed
	// Was: SimpleDateFormat dateF = new SimpleDateFormat("yyMMddHHmmss'Z'", locale);
	SimpleDateFormat dateF = new SimpleDateFormat("yyMMddHHmmss'Z'", Locale.US);
	dateF.setCalendar(Calendar.getInstance(locale));
	// END android-changed

	dateF.setTimeZone(new SimpleTimeZone(0,"Z"));

	this.time = Strings.toByteArray(dateF.format(time));
	}

	ASN1UTCTime(
	byte[] time)
	{
	this.time = time;
	}

	/**
	* return the time as a date based on whatever a 2 digit year will return. For
	* standardised processing use getAdjustedDate().
	*
	* @return the resulting date
	* @exception ParseException if the date string cannot be parsed.
	*/
	public Date getDate()
	throws ParseException
	{
	// BEGIN android-changed
	// Was: SimpleDateFormat dateF = new SimpleDateFormat("yyMMddHHmmssz");
	SimpleDateFormat dateF = new SimpleDateFormat("yyMMddHHmmssz", Locale.US);
	// END android-changed

	return dateF.parse(getTime());
	}

	/**
	* return the time as an adjusted date
	* in the range of 1950 - 2049.
	*
	* @return a date in the range of 1950 to 2049.
	* @exception ParseException if the date string cannot be parsed.
	*/
	public Date getAdjustedDate()
	throws ParseException
	{
	// BEGIN android-changed
	// Was: SimpleDateFormat dateF = new SimpleDateFormat("yyyyMMddHHmmssz");
	SimpleDateFormat dateF = new SimpleDateFormat("yyyyMMddHHmmssz", Locale.US);
	// END android-changed

	dateF.setTimeZone(new SimpleTimeZone(0, "Z"));

	return dateF.parse(getAdjustedTime());
	}

	/**
	* return the time - always in the form of
	* YYMMDDhhmmssGMT(+hh:mm\|-hh:mm).
	* <p>
	* Normally in a certificate we would expect "Z" rather than "GMT",
	* however adding the "GMT" means we can just use:
	* <pre>
	* dateF = new SimpleDateFormat("yyMMddHHmmssz");
	* </pre>
	* To read in the time and get a date which is compatible with our local
	* time zone.
	* <p>
	* <b>Note:</b> In some cases, due to the local date processing, this
	* may lead to unexpected results. If you want to stick the normal
	* convention of 1950 to 2049 use the getAdjustedTime() method.
	*/
	public String getTime()
	{
	String stime = Strings.fromByteArray(time);

	//
	// standardise the format.
	//
	if (stime.indexOf('-') < 0 && stime.indexOf('+') < 0)
	{
	if (stime.length() == 11)
	{
	return stime.substring(0, 10) + "00GMT+00:00";
	}
	else
	{
	return stime.substring(0, 12) + "GMT+00:00";
	}
	}
	else
	{
	int index = stime.indexOf('-');
	if (index < 0)
	{
	index = stime.indexOf('+');
	}
	String d = stime;

	if (index == stime.length() - 3)
	{
	d += "00";
	}

	if (index == 10)
	{
	return d.substring(0, 10) + "00GMT" + d.substring(10, 13) + ":" + d.substring(13, 15);
	}
	else
	{
	return d.substring(0, 12) + "GMT" + d.substring(12, 15) + ":" + d.substring(15, 17);
	}
	}
	}

	/**
	* return a time string as an adjusted date with a 4 digit year. This goes
	* in the range of 1950 - 2049.
	*/
	public String getAdjustedTime()
	{
	String d = this.getTime();

	if (d.charAt(0) < '5')
	{
	return "20" + d;
	}
	else
	{
	return "19" + d;
	}
	}

	boolean isConstructed()
	{
	return false;
	}

	int encodedLength()
	{
	int length = time.length;

	return 1 + StreamUtil.calculateBodyLength(length) + length;
	}

	void encode(
	ASN1OutputStream out)
	throws IOException
	{
	out.write(BERTags.UTC_TIME);

	int length = time.length;

	out.writeLength(length);

	for (int i = 0; i != length; i++)
	{
	out.write((byte)time[i]);
	}
	}

	boolean asn1Equals(
	ASN1Primitive o)
	{
	if (!(o instanceof ASN1UTCTime))
	{
	return false;
	}

	return Arrays.areEqual(time, ((ASN1UTCTime)o).time);
	}

	public int hashCode()
	{
	return Arrays.hashCode(time);
	}

	public String toString()
	{
	return Strings.fromByteArray(time);
	}
	}