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package sun.security.x509;

import java.io.*;

import sun.security.util.*;

Represent the GeneralSubtree ASN.1 object, whose syntax is:
GeneralSubtree ::= SEQUENCE {
   base             GeneralName,
   minimum  [0]     BaseDistance DEFAULT 0,
   maximum  [1]     BaseDistance OPTIONAL
}
BaseDistance ::= INTEGER (0..MAX)
Author:Amit Kapoor, Hemma Prafullchandra
/** * Represent the GeneralSubtree ASN.1 object, whose syntax is: * <pre> * GeneralSubtree ::= SEQUENCE { * base GeneralName, * minimum [0] BaseDistance DEFAULT 0, * maximum [1] BaseDistance OPTIONAL * } * BaseDistance ::= INTEGER (0..MAX) * </pre> * @author Amit Kapoor * @author Hemma Prafullchandra */
public class GeneralSubtree { private static final byte TAG_MIN = 0; private static final byte TAG_MAX = 1; private static final int MIN_DEFAULT = 0; private GeneralName name; private int minimum = MIN_DEFAULT; private int maximum = -1; private int myhash = -1;
The default constructor for the class.
Params:
  • name – the GeneralName
  • min – the minimum BaseDistance
  • max – the maximum BaseDistance
/** * The default constructor for the class. * * @param name the GeneralName * @param min the minimum BaseDistance * @param max the maximum BaseDistance */
public GeneralSubtree(GeneralName name, int min, int max) { this.name = name; this.minimum = min; this.maximum = max; }
Create the object from its DER encoded form.
Params:
  • val – the DER encoded from of the same.
/** * Create the object from its DER encoded form. * * @param val the DER encoded from of the same. */
public GeneralSubtree(DerValue val) throws IOException { if (val.tag != DerValue.tag_Sequence) { throw new IOException("Invalid encoding for GeneralSubtree."); } name = new GeneralName(val.data.getDerValue(), true); // NB. this is always encoded with the IMPLICIT tag // The checks only make sense if we assume implicit tagging, // with explicit tagging the form is always constructed. while (val.data.available() != 0) { DerValue opt = val.data.getDerValue(); if (opt.isContextSpecific(TAG_MIN) && !opt.isConstructed()) { opt.resetTag(DerValue.tag_Integer); minimum = opt.getInteger(); } else if (opt.isContextSpecific(TAG_MAX) && !opt.isConstructed()) { opt.resetTag(DerValue.tag_Integer); maximum = opt.getInteger(); } else throw new IOException("Invalid encoding of GeneralSubtree."); } }
Return the GeneralName.
Returns:the GeneralName
/** * Return the GeneralName. * * @return the GeneralName */
public GeneralName getName() { //XXXX May want to consider cloning this return name; }
Return the minimum BaseDistance.
Returns:the minimum BaseDistance. Default is 0 if not set.
/** * Return the minimum BaseDistance. * * @return the minimum BaseDistance. Default is 0 if not set. */
public int getMinimum() { return minimum; }
Return the maximum BaseDistance.
Returns:the maximum BaseDistance, or -1 if not set.
/** * Return the maximum BaseDistance. * * @return the maximum BaseDistance, or -1 if not set. */
public int getMaximum() { return maximum; }
Return a printable string of the GeneralSubtree.
/** * Return a printable string of the GeneralSubtree. */
public String toString() { StringBuilder sb = new StringBuilder(); sb.append("\n GeneralSubtree: [") .append("\n GeneralName: "); if (name != null) { sb.append(name); } sb.append("\n Minimum: ") .append(minimum) .append("\n Maximum: "); if (maximum == -1) { sb.append("undefined"); } else { sb.append(maximum); } sb.append(" ]\n"); return sb.toString(); }
Compare this GeneralSubtree with another
Params:
  • other – GeneralSubtree to compare to this
Returns:true if match
/** * Compare this GeneralSubtree with another * * @param other GeneralSubtree to compare to this * @return true if match */
public boolean equals(Object other) { if (!(other instanceof GeneralSubtree)) return false; GeneralSubtree otherGS = (GeneralSubtree)other; if (this.name == null) { if (otherGS.name != null) { return false; } } else { if (!((this.name).equals(otherGS.name))) return false; } if (this.minimum != otherGS.minimum) return false; if (this.maximum != otherGS.maximum) return false; return true; }
Returns the hash code for this GeneralSubtree.
Returns:a hash code value.
/** * Returns the hash code for this GeneralSubtree. * * @return a hash code value. */
public int hashCode() { if (myhash == -1) { myhash = 17; if (name != null) { myhash = 37 * myhash + name.hashCode(); } if (minimum != MIN_DEFAULT) { myhash = 37 * myhash + minimum; } if (maximum != -1) { myhash = 37 * myhash + maximum; } } return myhash; }
Encode the GeneralSubtree.
Params:
  • out – the DerOutputStream to encode this object to.
/** * Encode the GeneralSubtree. * * @param out the DerOutputStream to encode this object to. */
public void encode(DerOutputStream out) throws IOException { DerOutputStream seq = new DerOutputStream(); name.encode(seq); if (minimum != MIN_DEFAULT) { DerOutputStream tmp = new DerOutputStream(); tmp.putInteger(minimum); seq.writeImplicit(DerValue.createTag(DerValue.TAG_CONTEXT, false, TAG_MIN), tmp); } if (maximum != -1) { DerOutputStream tmp = new DerOutputStream(); tmp.putInteger(maximum); seq.writeImplicit(DerValue.createTag(DerValue.TAG_CONTEXT, false, TAG_MAX), tmp); } out.write(DerValue.tag_Sequence, seq); } }