src/share/classes/com/sun/jndi/dns/ResourceRecord.java - platform/external/jetbrains/jdk8u_jdk - Git at Google

 /*
  * Copyright (c) 2000, 2002, Oracle and/or its affiliates. All rights reserved.
  * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
  *
  * This code is free software; you can redistribute it and/or modify it
  * under the terms of the GNU General Public License version 2 only, as
  * published by the Free Software Foundation.  Oracle designates this
  * particular file as subject to the "Classpath" exception as provided
  * by Oracle in the LICENSE file that accompanied this code.
  *
  * This code is distributed in the hope that it will be useful, but WITHOUT
  * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
  * FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License
  * version 2 for more details (a copy is included in the LICENSE file that
  * accompanied this code).
  *
  * You should have received a copy of the GNU General Public License version
  * 2 along with this work; if not, write to the Free Software Foundation,
  * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
  *
  * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
  * or visit www.oracle.com if you need additional information or have any
  * questions.
  */

 package com.sun.jndi.dns;

 import javax.naming.InvalidNameException;


 /**
  * The ResourceRecord class represents a DNS resource record.
  * The string format is based on the master file representation in
  * RFC 1035.
  *
  * @author Scott Seligman
  */


 public class ResourceRecord {

     /*
      * Resource record type codes
      */
     static final int TYPE_A     =  1;
     static final int TYPE_NS    =  2;
     static final int TYPE_CNAME =  5;
     static final int TYPE_SOA   =  6;
     static final int TYPE_PTR   = 12;
     static final int TYPE_HINFO = 13;
     static final int TYPE_MX    = 15;
     static final int TYPE_TXT   = 16;
     static final int TYPE_AAAA  = 28;
     static final int TYPE_SRV   = 33;
     static final int TYPE_NAPTR = 35;
     static final int QTYPE_AXFR = 252;          // zone transfer
     static final int QTYPE_STAR = 255;          // query type "*"

     /*
      * Mapping from resource record type codes to type name strings.
      */
     static final String rrTypeNames[] = {
         null, "A", "NS", null, null,
         "CNAME", "SOA", null, null, null,
         null, null, "PTR", "HINFO", null,
         "MX", "TXT", null, null, null,
         null, null, null, null, null,
         null, null, null, "AAAA", null,
         null, null, null, "SRV", null,
         "NAPTR"
     };

     /*
      * Resource record class codes
      */
     static final int CLASS_INTERNET = 1;
     static final int CLASS_HESIOD   = 2;
     static final int QCLASS_STAR    = 255;      // query class "*"

     /*
      * Mapping from resource record type codes to class name strings.
      */
     static final String rrClassNames[] = {
         null, "IN", null, null, "HS"
     };


     byte[] msg;                 // DNS message
     int msgLen;                 // msg size (in octets)
     boolean qSection;           // true if this RR is part of question section
                                 // and therefore has no ttl or rdata
     int offset;                 // offset of RR w/in msg
     int rrlen;                  // number of octets in encoded RR
     DnsName name;               // name field of RR, including root label
     int rrtype;                 // type field of RR
     String rrtypeName;          // name of of rrtype
     int rrclass;                // class field of RR
     String rrclassName;         // name of rrclass
     int ttl = 0;                // ttl field of RR
     int rdlen = 0;              // number of octets of rdata
     Object rdata = null;        // rdata -- most are String, unknown are byte[]


     /*
      * Constructs a new ResourceRecord.  The encoded data of the DNS
      * message is contained in msg; data for this RR begins at msg[offset].
      * If qSection is true this RR is part of a question section.  It's
      * not a true resource record in that case, but is treated as if it
      * were a shortened one (with no ttl or rdata).  If decodeRdata is
      * false, the rdata is not decoded (and getRdata() will return null)
      * unless this is an SOA record.
      *
      * @throws InvalidNameException if a decoded domain name isn't valid.
      * @throws ArrayIndexOutOfBoundsException given certain other corrupt data.
      */
     ResourceRecord(byte[] msg, int msgLen, int offset,
                    boolean qSection, boolean decodeRdata)
             throws InvalidNameException {

         this.msg = msg;
         this.msgLen = msgLen;
         this.offset = offset;
         this.qSection = qSection;
         decode(decodeRdata);
     }

     public String toString() {
         String text = name + " " + rrclassName + " " + rrtypeName;
         if (!qSection) {
             text += " " + ttl + " " +
                 ((rdata != null) ? rdata : "[n/a]");
         }
         return text;
     }

     /*
      * Returns the name field of this RR, including the root label.
      */
     public DnsName getName() {
         return name;
     }

     /*
      * Returns the number of octets in the encoded RR.
      */
     public int size() {
         return rrlen;
     }

     public int getType() {
         return rrtype;
     }

     public int getRrclass() {
         return rrclass;
     }

     public Object getRdata() {
         return rdata;
     }


     public static String getTypeName(int rrtype) {
         return valueToName(rrtype, rrTypeNames);
     }

     public static int getType(String typeName) {
         return nameToValue(typeName, rrTypeNames);
     }

     public static String getRrclassName(int rrclass) {
         return valueToName(rrclass, rrClassNames);
     }

     public static int getRrclass(String className) {
         return nameToValue(className, rrClassNames);
     }

     private static String valueToName(int val, String[] names) {
         String name = null;
         if ((val > 0) && (val < names.length)) {
             name = names[val];
         } else if (val == QTYPE_STAR) {         // QTYPE_STAR == QCLASS_STAR
             name = "*";
         }
         if (name == null) {
             name = Integer.toString(val);
         }
         return name;
     }

     private static int nameToValue(String name, String[] names) {
         if (name.equals("")) {
             return -1;                          // invalid name
         } else if (name.equals("*")) {
             return QTYPE_STAR;                  // QTYPE_STAR == QCLASS_STAR
         }
         if (Character.isDigit(name.charAt(0))) {
             try {
                 return Integer.parseInt(name);
             } catch (NumberFormatException e) {
             }
         }
         for (int i = 1; i < names.length; i++) {
             if ((names[i] != null) &&
                     name.equalsIgnoreCase(names[i])) {
                 return i;
             }
         }
         return -1;                              // unknown name
     }

     /*
      * Compares two SOA record serial numbers using 32-bit serial number
      * arithmetic as defined in RFC 1982.  Serial numbers are unsigned
      * 32-bit quantities.  Returns a negative, zero, or positive value
      * as the first serial number is less than, equal to, or greater
      * than the second.  If the serial numbers are not comparable the
      * result is undefined.  Note that the relation is not transitive.
      */
     public static int compareSerialNumbers(long s1, long s2) {
         long diff = s2 - s1;
         if (diff == 0) {
             return 0;
         } else if ((diff > 0 &&  diff <= 0x7FFFFFFF) ||
                    (diff < 0 && -diff >  0x7FFFFFFF)) {
             return -1;
         } else {
             return 1;
         }
     }


     /*
      * Decodes the binary format of the RR.
      * May throw ArrayIndexOutOfBoundsException given corrupt data.
      */
     private void decode(boolean decodeRdata) throws InvalidNameException {
         int pos = offset;       // index of next unread octet

         name = new DnsName();                           // NAME
         pos = decodeName(pos, name);

         rrtype = getUShort(pos);                        // TYPE
         rrtypeName = (rrtype < rrTypeNames.length)
             ? rrTypeNames[rrtype]
             : null;
         if (rrtypeName == null) {
             rrtypeName = Integer.toString(rrtype);
         }
         pos += 2;

         rrclass = getUShort(pos);                       // CLASS
         rrclassName = (rrclass < rrClassNames.length)
             ? rrClassNames[rrclass]
             : null;
         if (rrclassName == null) {
             rrclassName = Integer.toString(rrclass);
         }
         pos += 2;

         if (!qSection) {
             ttl = getInt(pos);                          // TTL
             pos += 4;

             rdlen = getUShort(pos);                     // RDLENGTH
             pos += 2;

             rdata = (decodeRdata ||                     // RDATA
                      (rrtype == TYPE_SOA))
                 ? decodeRdata(pos)
                 : null;
             if (rdata instanceof DnsName) {
                 rdata = rdata.toString();
             }
             pos += rdlen;
         }

         rrlen = pos - offset;

         msg = null;     // free up for GC
     }

     /*
      * Returns the 1-byte unsigned value at msg[pos].
      */
     private int getUByte(int pos) {
         return (msg[pos] & 0xFF);
     }

     /*
      * Returns the 2-byte unsigned value at msg[pos].  The high
      * order byte comes first.
      */
     private int getUShort(int pos) {
         return (((msg[pos] & 0xFF) << 8) |
                 (msg[pos + 1] & 0xFF));
     }

     /*
      * Returns the 4-byte signed value at msg[pos].  The high
      * order byte comes first.
      */
     private int getInt(int pos) {
         return ((getUShort(pos) << 16) | getUShort(pos + 2));
     }

     /*
      * Returns the 4-byte unsigned value at msg[pos].  The high
      * order byte comes first.
      */
     private long getUInt(int pos) {
         return (getInt(pos) & 0xffffffffL);
     }

     /*
      * Returns the name encoded at msg[pos], including the root label.
      */
     private DnsName decodeName(int pos) throws InvalidNameException {
         DnsName n = new DnsName();
         decodeName(pos, n);
         return n;
     }

     /*
      * Prepends to "n" the domain name encoded at msg[pos], including the root
      * label.  Returns the index into "msg" following the name.
      */
     private int decodeName(int pos, DnsName n) throws InvalidNameException {
         if (msg[pos] == 0) {                            // end of name
             n.add(0, "");
             return (pos + 1);
         } else if ((msg[pos] & 0xC0) != 0) {            // name compression
             decodeName(getUShort(pos) & 0x3FFF, n);
             return (pos + 2);
         } else {                                        // append a label
             int len = msg[pos++];
             try {
                 n.add(0, new String(msg, pos, len, "ISO-8859-1"));
             } catch (java.io.UnsupportedEncodingException e) {
                 // assert false : "ISO-Latin-1 charset unavailable";
             }
             return decodeName(pos + len, n);
         }
     }

     /*
      * Returns the rdata encoded at msg[pos].  The format is dependent
      * on the rrtype and rrclass values, which have already been set.
      * The length of the encoded data is rdlen, which has already been
      * set.
      * The rdata of records with unknown type/class combinations is
      * returned in a newly-allocated byte array.
      */
     private Object decodeRdata(int pos) throws InvalidNameException {
         if (rrclass == CLASS_INTERNET) {
             switch (rrtype) {
             case TYPE_A:
                 return decodeA(pos);
             case TYPE_AAAA:
                 return decodeAAAA(pos);
             case TYPE_CNAME:
             case TYPE_NS:
             case TYPE_PTR:
                 return decodeName(pos);
             case TYPE_MX:
                 return decodeMx(pos);
             case TYPE_SOA:
                 return decodeSoa(pos);
             case TYPE_SRV:
                 return decodeSrv(pos);
             case TYPE_NAPTR:
                 return decodeNaptr(pos);
             case TYPE_TXT:
                 return decodeTxt(pos);
             case TYPE_HINFO:
                 return decodeHinfo(pos);
             }
         }
         // Unknown RR type/class
         byte[] rd = new byte[rdlen];
         System.arraycopy(msg, pos, rd, 0, rdlen);
         return rd;
     }

     /*
      * Returns the rdata of an MX record that is encoded at msg[pos].
      */
     private String decodeMx(int pos) throws InvalidNameException {
         int preference = getUShort(pos);
         pos += 2;
         DnsName name = decodeName(pos);
         return (preference + " " + name);
     }

     /*
      * Returns the rdata of an SOA record that is encoded at msg[pos].
      */
     private String decodeSoa(int pos) throws InvalidNameException {
         DnsName mname = new DnsName();
         pos = decodeName(pos, mname);
         DnsName rname = new DnsName();
         pos = decodeName(pos, rname);

         long serial = getUInt(pos);
         pos += 4;
         long refresh = getUInt(pos);
         pos += 4;
         long retry = getUInt(pos);
         pos += 4;
         long expire = getUInt(pos);
         pos += 4;
         long minimum = getUInt(pos);    // now used as negative TTL
         pos += 4;

         return (mname + " " + rname + " " + serial + " " +
                 refresh + " " + retry + " " + expire + " " + minimum);
     }

     /*
      * Returns the rdata of an SRV record that is encoded at msg[pos].
      * See RFC 2782.
      */
     private String decodeSrv(int pos) throws InvalidNameException {
         int priority = getUShort(pos);
         pos += 2;
         int weight =   getUShort(pos);
         pos += 2;
         int port =     getUShort(pos);
         pos += 2;
         DnsName target = decodeName(pos);
         return (priority + " " + weight + " " + port + " " + target);
     }

     /*
      * Returns the rdata of an NAPTR record that is encoded at msg[pos].
      * See RFC 2915.
      */
     private String decodeNaptr(int pos) throws InvalidNameException {
         int order = getUShort(pos);
         pos += 2;
         int preference = getUShort(pos);
         pos += 2;
         StringBuffer flags = new StringBuffer();
         pos += decodeCharString(pos, flags);
         StringBuffer services = new StringBuffer();
         pos += decodeCharString(pos, services);
         StringBuffer regexp = new StringBuffer(rdlen);
         pos += decodeCharString(pos, regexp);
         DnsName replacement = decodeName(pos);

         return (order + " " + preference + " " + flags + " " +
                 services + " " + regexp + " " + replacement);
     }

     /*
      * Returns the rdata of a TXT record that is encoded at msg[pos].
      * The rdata consists of one or more <character-string>s.
      */
     private String decodeTxt(int pos) {
         StringBuffer buf = new StringBuffer(rdlen);
         int end = pos + rdlen;
         while (pos < end) {
             pos += decodeCharString(pos, buf);
             if (pos < end) {
                 buf.append(' ');
             }
         }
         return buf.toString();
     }

     /*
      * Returns the rdata of an HINFO record that is encoded at msg[pos].
      * The rdata consists of two <character-string>s.
      */
     private String decodeHinfo(int pos) {
         StringBuffer buf = new StringBuffer(rdlen);
         pos += decodeCharString(pos, buf);
         buf.append(' ');
         pos += decodeCharString(pos, buf);
         return buf.toString();
     }

     /*
      * Decodes the <character-string> at msg[pos] and adds it to buf.
      * If the string contains one of the meta-characters ' ', '\\', or
      * '"', then the result is quoted and any embedded '\\' or '"'
      * chars are escaped with '\\'.  Empty strings are also quoted.
      * Returns the size of the encoded string, including the initial
      * length octet.
      */
     private int decodeCharString(int pos, StringBuffer buf) {
         int start = buf.length();       // starting index of this string
         int len = getUByte(pos++);      // encoded string length
         boolean quoted = (len == 0);    // quote string if empty
         for (int i = 0; i < len; i++) {
             int c = getUByte(pos++);
             quoted |= (c == ' ');
             if ((c == '\\') || (c == '"')) {
                 quoted = true;
                 buf.append('\\');
             }
             buf.append((char) c);
         }
         if (quoted) {
             buf.insert(start, '"');
             buf.append('"');
         }
         return (len + 1);       // size includes initial octet
     }

     /*
      * Returns the rdata of an A record, in dotted-decimal format,
      * that is encoded at msg[pos].
      */
     private String decodeA(int pos) {
         return ((msg[pos] & 0xff) + "." +
                 (msg[pos + 1] & 0xff) + "." +
                 (msg[pos + 2] & 0xff) + "." +
                 (msg[pos + 3] & 0xff));
     }

     /*
      * Returns the rdata of an AAAA record, in colon-separated format,
      * that is encoded at msg[pos].  For example:  4321:0:1:2:3:4:567:89ab.
      * See RFCs 1886 and 2373.
      */
     private String decodeAAAA(int pos) {
         int[] addr6 = new int[8];  // the unsigned 16-bit words of the address
         for (int i = 0; i < 8; i++) {
             addr6[i] = getUShort(pos);
             pos += 2;
         }

         // Find longest sequence of two or more zeros, to compress them.
         int curBase = -1;
         int curLen = 0;
         int bestBase = -1;
         int bestLen = 0;
         for (int i = 0; i < 8; i++) {
             if (addr6[i] == 0) {
                 if (curBase == -1) {    // new sequence
                     curBase = i;
                     curLen = 1;
                 } else {                // extend sequence
                     ++curLen;
                     if ((curLen >= 2) && (curLen > bestLen)) {
                         bestBase = curBase;
                         bestLen = curLen;
                     }
                 }
             } else {                    // not in sequence
                 curBase = -1;
             }
         }

         // If addr begins with at least 6 zeros and is not :: or ::1,
         // or with 5 zeros followed by 0xffff, use the text format for
         // IPv4-compatible or IPv4-mapped addresses.
         if (bestBase == 0) {
             if ((bestLen == 6) ||
                     ((bestLen == 7) && (addr6[7] > 1))) {
                 return ("::" + decodeA(pos - 4));
             } else if ((bestLen == 5) && (addr6[5] == 0xffff)) {
                 return ("::ffff:" + decodeA(pos - 4));
             }
         }

         // If bestBase != -1, compress zeros in [bestBase, bestBase+bestLen)
         boolean compress = (bestBase != -1);

         StringBuffer buf = new StringBuffer(40);
         if (bestBase == 0) {
             buf.append(':');
         }
         for (int i = 0; i < 8; i++) {
             if (!compress || (i < bestBase) || (i >= bestBase + bestLen)) {
                 buf.append(Integer.toHexString(addr6[i]));
                 if (i < 7) {
                     buf.append(':');
                 }
             } else if (compress && (i == bestBase)) {  // first compressed zero
                 buf.append(':');
             }
         }

         return buf.toString();
     }
 }
	/*
	* Copyright (c) 2000, 2002, Oracle and/or its affiliates. All rights reserved.
	* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
	*
	* This code is free software; you can redistribute it and/or modify it
	* under the terms of the GNU General Public License version 2 only, as
	* published by the Free Software Foundation. Oracle designates this
	* particular file as subject to the "Classpath" exception as provided
	* by Oracle in the LICENSE file that accompanied this code.
	*
	* This code is distributed in the hope that it will be useful, but WITHOUT
	* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
	* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
	* version 2 for more details (a copy is included in the LICENSE file that
	* accompanied this code).
	*
	* You should have received a copy of the GNU General Public License version
	* 2 along with this work; if not, write to the Free Software Foundation,
	* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
	*
	* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
	* or visit www.oracle.com if you need additional information or have any
	* questions.
	*/

	package com.sun.jndi.dns;

	import javax.naming.InvalidNameException;


	/**
	* The ResourceRecord class represents a DNS resource record.
	* The string format is based on the master file representation in
	* RFC 1035.
	*
	* @author Scott Seligman
	*/


	public class ResourceRecord {

	/*
	* Resource record type codes
	*/
	static final int TYPE_A = 1;
	static final int TYPE_NS = 2;
	static final int TYPE_CNAME = 5;
	static final int TYPE_SOA = 6;
	static final int TYPE_PTR = 12;
	static final int TYPE_HINFO = 13;
	static final int TYPE_MX = 15;
	static final int TYPE_TXT = 16;
	static final int TYPE_AAAA = 28;
	static final int TYPE_SRV = 33;
	static final int TYPE_NAPTR = 35;
	static final int QTYPE_AXFR = 252; // zone transfer
	static final int QTYPE_STAR = 255; // query type "*"

	/*
	* Mapping from resource record type codes to type name strings.
	*/
	static final String rrTypeNames[] = {
	null, "A", "NS", null, null,
	"CNAME", "SOA", null, null, null,
	null, null, "PTR", "HINFO", null,
	"MX", "TXT", null, null, null,
	null, null, null, null, null,
	null, null, null, "AAAA", null,
	null, null, null, "SRV", null,
	"NAPTR"
	};

	/*
	* Resource record class codes
	*/
	static final int CLASS_INTERNET = 1;
	static final int CLASS_HESIOD = 2;
	static final int QCLASS_STAR = 255; // query class "*"

	/*
	* Mapping from resource record type codes to class name strings.
	*/
	static final String rrClassNames[] = {
	null, "IN", null, null, "HS"
	};


	byte[] msg; // DNS message
	int msgLen; // msg size (in octets)
	boolean qSection; // true if this RR is part of question section
	// and therefore has no ttl or rdata
	int offset; // offset of RR w/in msg
	int rrlen; // number of octets in encoded RR
	DnsName name; // name field of RR, including root label
	int rrtype; // type field of RR
	String rrtypeName; // name of of rrtype
	int rrclass; // class field of RR
	String rrclassName; // name of rrclass
	int ttl = 0; // ttl field of RR
	int rdlen = 0; // number of octets of rdata
	Object rdata = null; // rdata -- most are String, unknown are byte[]


	/*
	* Constructs a new ResourceRecord. The encoded data of the DNS
	* message is contained in msg; data for this RR begins at msg[offset].
	* If qSection is true this RR is part of a question section. It's
	* not a true resource record in that case, but is treated as if it
	* were a shortened one (with no ttl or rdata). If decodeRdata is
	* false, the rdata is not decoded (and getRdata() will return null)
	* unless this is an SOA record.
	*
	* @throws InvalidNameException if a decoded domain name isn't valid.
	* @throws ArrayIndexOutOfBoundsException given certain other corrupt data.
	*/
	ResourceRecord(byte[] msg, int msgLen, int offset,
	boolean qSection, boolean decodeRdata)
	throws InvalidNameException {

	this.msg = msg;
	this.msgLen = msgLen;
	this.offset = offset;
	this.qSection = qSection;
	decode(decodeRdata);
	}

	public String toString() {
	String text = name + " " + rrclassName + " " + rrtypeName;
	if (!qSection) {
	text += " " + ttl + " " +
	((rdata != null) ? rdata : "[n/a]");
	}
	return text;
	}

	/*
	* Returns the name field of this RR, including the root label.
	*/
	public DnsName getName() {
	return name;
	}

	/*
	* Returns the number of octets in the encoded RR.
	*/
	public int size() {
	return rrlen;
	}

	public int getType() {
	return rrtype;
	}

	public int getRrclass() {
	return rrclass;
	}

	public Object getRdata() {
	return rdata;
	}


	public static String getTypeName(int rrtype) {
	return valueToName(rrtype, rrTypeNames);
	}

	public static int getType(String typeName) {
	return nameToValue(typeName, rrTypeNames);
	}

	public static String getRrclassName(int rrclass) {
	return valueToName(rrclass, rrClassNames);
	}

	public static int getRrclass(String className) {
	return nameToValue(className, rrClassNames);
	}

	private static String valueToName(int val, String[] names) {
	String name = null;
	if ((val > 0) && (val < names.length)) {
	name = names[val];
	} else if (val == QTYPE_STAR) { // QTYPE_STAR == QCLASS_STAR
	name = "*";
	}
	if (name == null) {
	name = Integer.toString(val);
	}
	return name;
	}

	private static int nameToValue(String name, String[] names) {
	if (name.equals("")) {
	return -1; // invalid name
	} else if (name.equals("*")) {
	return QTYPE_STAR; // QTYPE_STAR == QCLASS_STAR
	}
	if (Character.isDigit(name.charAt(0))) {
	try {
	return Integer.parseInt(name);
	} catch (NumberFormatException e) {
	}
	}
	for (int i = 1; i < names.length; i++) {
	if ((names[i] != null) &&
	name.equalsIgnoreCase(names[i])) {
	return i;
	}
	}
	return -1; // unknown name
	}

	/*
	* Compares two SOA record serial numbers using 32-bit serial number
	* arithmetic as defined in RFC 1982. Serial numbers are unsigned
	* 32-bit quantities. Returns a negative, zero, or positive value
	* as the first serial number is less than, equal to, or greater
	* than the second. If the serial numbers are not comparable the
	* result is undefined. Note that the relation is not transitive.
	*/
	public static int compareSerialNumbers(long s1, long s2) {
	long diff = s2 - s1;
	if (diff == 0) {
	return 0;
	} else if ((diff > 0 && diff <= 0x7FFFFFFF) \|\|
	(diff < 0 && -diff > 0x7FFFFFFF)) {
	return -1;
	} else {
	return 1;
	}
	}


	/*
	* Decodes the binary format of the RR.
	* May throw ArrayIndexOutOfBoundsException given corrupt data.
	*/
	private void decode(boolean decodeRdata) throws InvalidNameException {
	int pos = offset; // index of next unread octet

	name = new DnsName(); // NAME
	pos = decodeName(pos, name);

	rrtype = getUShort(pos); // TYPE
	rrtypeName = (rrtype < rrTypeNames.length)
	? rrTypeNames[rrtype]
	: null;
	if (rrtypeName == null) {
	rrtypeName = Integer.toString(rrtype);
	}
	pos += 2;

	rrclass = getUShort(pos); // CLASS
	rrclassName = (rrclass < rrClassNames.length)
	? rrClassNames[rrclass]
	: null;
	if (rrclassName == null) {
	rrclassName = Integer.toString(rrclass);
	}
	pos += 2;

	if (!qSection) {
	ttl = getInt(pos); // TTL
	pos += 4;

	rdlen = getUShort(pos); // RDLENGTH
	pos += 2;

	rdata = (decodeRdata \|\| // RDATA
	(rrtype == TYPE_SOA))
	? decodeRdata(pos)
	: null;
	if (rdata instanceof DnsName) {
	rdata = rdata.toString();
	}
	pos += rdlen;
	}

	rrlen = pos - offset;

	msg = null; // free up for GC
	}

	/*
	* Returns the 1-byte unsigned value at msg[pos].
	*/
	private int getUByte(int pos) {
	return (msg[pos] & 0xFF);
	}

	/*
	* Returns the 2-byte unsigned value at msg[pos]. The high
	* order byte comes first.
	*/
	private int getUShort(int pos) {
	return (((msg[pos] & 0xFF) << 8) \|
	(msg[pos + 1] & 0xFF));
	}

	/*
	* Returns the 4-byte signed value at msg[pos]. The high
	* order byte comes first.
	*/
	private int getInt(int pos) {
	return ((getUShort(pos) << 16) \| getUShort(pos + 2));
	}

	/*
	* Returns the 4-byte unsigned value at msg[pos]. The high
	* order byte comes first.
	*/
	private long getUInt(int pos) {
	return (getInt(pos) & 0xffffffffL);
	}

	/*
	* Returns the name encoded at msg[pos], including the root label.
	*/
	private DnsName decodeName(int pos) throws InvalidNameException {
	DnsName n = new DnsName();
	decodeName(pos, n);
	return n;
	}

	/*
	* Prepends to "n" the domain name encoded at msg[pos], including the root
	* label. Returns the index into "msg" following the name.
	*/
	private int decodeName(int pos, DnsName n) throws InvalidNameException {
	if (msg[pos] == 0) { // end of name
	n.add(0, "");
	return (pos + 1);
	} else if ((msg[pos] & 0xC0) != 0) { // name compression
	decodeName(getUShort(pos) & 0x3FFF, n);
	return (pos + 2);
	} else { // append a label
	int len = msg[pos++];
	try {
	n.add(0, new String(msg, pos, len, "ISO-8859-1"));
	} catch (java.io.UnsupportedEncodingException e) {
	// assert false : "ISO-Latin-1 charset unavailable";
	}
	return decodeName(pos + len, n);
	}
	}

	/*
	* Returns the rdata encoded at msg[pos]. The format is dependent
	* on the rrtype and rrclass values, which have already been set.
	* The length of the encoded data is rdlen, which has already been
	* set.
	* The rdata of records with unknown type/class combinations is
	* returned in a newly-allocated byte array.
	*/
	private Object decodeRdata(int pos) throws InvalidNameException {
	if (rrclass == CLASS_INTERNET) {
	switch (rrtype) {
	case TYPE_A:
	return decodeA(pos);
	case TYPE_AAAA:
	return decodeAAAA(pos);
	case TYPE_CNAME:
	case TYPE_NS:
	case TYPE_PTR:
	return decodeName(pos);
	case TYPE_MX:
	return decodeMx(pos);
	case TYPE_SOA:
	return decodeSoa(pos);
	case TYPE_SRV:
	return decodeSrv(pos);
	case TYPE_NAPTR:
	return decodeNaptr(pos);
	case TYPE_TXT:
	return decodeTxt(pos);
	case TYPE_HINFO:
	return decodeHinfo(pos);
	}
	}
	// Unknown RR type/class
	byte[] rd = new byte[rdlen];
	System.arraycopy(msg, pos, rd, 0, rdlen);
	return rd;
	}

	/*
	* Returns the rdata of an MX record that is encoded at msg[pos].
	*/
	private String decodeMx(int pos) throws InvalidNameException {
	int preference = getUShort(pos);
	pos += 2;
	DnsName name = decodeName(pos);
	return (preference + " " + name);
	}

	/*
	* Returns the rdata of an SOA record that is encoded at msg[pos].
	*/
	private String decodeSoa(int pos) throws InvalidNameException {
	DnsName mname = new DnsName();
	pos = decodeName(pos, mname);
	DnsName rname = new DnsName();
	pos = decodeName(pos, rname);

	long serial = getUInt(pos);
	pos += 4;
	long refresh = getUInt(pos);
	pos += 4;
	long retry = getUInt(pos);
	pos += 4;
	long expire = getUInt(pos);
	pos += 4;
	long minimum = getUInt(pos); // now used as negative TTL
	pos += 4;

	return (mname + " " + rname + " " + serial + " " +
	refresh + " " + retry + " " + expire + " " + minimum);
	}

	/*
	* Returns the rdata of an SRV record that is encoded at msg[pos].
	* See RFC 2782.
	*/
	private String decodeSrv(int pos) throws InvalidNameException {
	int priority = getUShort(pos);
	pos += 2;
	int weight = getUShort(pos);
	pos += 2;
	int port = getUShort(pos);
	pos += 2;
	DnsName target = decodeName(pos);
	return (priority + " " + weight + " " + port + " " + target);
	}

	/*
	* Returns the rdata of an NAPTR record that is encoded at msg[pos].
	* See RFC 2915.
	*/
	private String decodeNaptr(int pos) throws InvalidNameException {
	int order = getUShort(pos);
	pos += 2;
	int preference = getUShort(pos);
	pos += 2;
	StringBuffer flags = new StringBuffer();
	pos += decodeCharString(pos, flags);
	StringBuffer services = new StringBuffer();
	pos += decodeCharString(pos, services);
	StringBuffer regexp = new StringBuffer(rdlen);
	pos += decodeCharString(pos, regexp);
	DnsName replacement = decodeName(pos);

	return (order + " " + preference + " " + flags + " " +
	services + " " + regexp + " " + replacement);
	}

	/*
	* Returns the rdata of a TXT record that is encoded at msg[pos].
	* The rdata consists of one or more <character-string>s.
	*/
	private String decodeTxt(int pos) {
	StringBuffer buf = new StringBuffer(rdlen);
	int end = pos + rdlen;
	while (pos < end) {
	pos += decodeCharString(pos, buf);
	if (pos < end) {
	buf.append(' ');
	}
	}
	return buf.toString();
	}

	/*
	* Returns the rdata of an HINFO record that is encoded at msg[pos].
	* The rdata consists of two <character-string>s.
	*/
	private String decodeHinfo(int pos) {
	StringBuffer buf = new StringBuffer(rdlen);
	pos += decodeCharString(pos, buf);
	buf.append(' ');
	pos += decodeCharString(pos, buf);
	return buf.toString();
	}

	/*
	* Decodes the <character-string> at msg[pos] and adds it to buf.
	* If the string contains one of the meta-characters ' ', '\\', or
	* '"', then the result is quoted and any embedded '\\' or '"'
	* chars are escaped with '\\'. Empty strings are also quoted.
	* Returns the size of the encoded string, including the initial
	* length octet.
	*/
	private int decodeCharString(int pos, StringBuffer buf) {
	int start = buf.length(); // starting index of this string
	int len = getUByte(pos++); // encoded string length
	boolean quoted = (len == 0); // quote string if empty
	for (int i = 0; i < len; i++) {
	int c = getUByte(pos++);
	quoted \|= (c == ' ');
	if ((c == '\\') \|\| (c == '"')) {
	quoted = true;
	buf.append('\\');
	}
	buf.append((char) c);
	}
	if (quoted) {
	buf.insert(start, '"');
	buf.append('"');
	}
	return (len + 1); // size includes initial octet
	}

	/*
	* Returns the rdata of an A record, in dotted-decimal format,
	* that is encoded at msg[pos].
	*/
	private String decodeA(int pos) {
	return ((msg[pos] & 0xff) + "." +
	(msg[pos + 1] & 0xff) + "." +
	(msg[pos + 2] & 0xff) + "." +
	(msg[pos + 3] & 0xff));
	}

	/*
	* Returns the rdata of an AAAA record, in colon-separated format,
	* that is encoded at msg[pos]. For example: 4321:0:1:2:3:4:567:89ab.
	* See RFCs 1886 and 2373.
	*/
	private String decodeAAAA(int pos) {
	int[] addr6 = new int[8]; // the unsigned 16-bit words of the address
	for (int i = 0; i < 8; i++) {
	addr6[i] = getUShort(pos);
	pos += 2;
	}

	// Find longest sequence of two or more zeros, to compress them.
	int curBase = -1;
	int curLen = 0;
	int bestBase = -1;
	int bestLen = 0;
	for (int i = 0; i < 8; i++) {
	if (addr6[i] == 0) {
	if (curBase == -1) { // new sequence
	curBase = i;
	curLen = 1;
	} else { // extend sequence
	++curLen;
	if ((curLen >= 2) && (curLen > bestLen)) {
	bestBase = curBase;
	bestLen = curLen;
	}
	}
	} else { // not in sequence
	curBase = -1;
	}
	}

	// If addr begins with at least 6 zeros and is not :: or ::1,
	// or with 5 zeros followed by 0xffff, use the text format for
	// IPv4-compatible or IPv4-mapped addresses.
	if (bestBase == 0) {
	if ((bestLen == 6) \|\|
	((bestLen == 7) && (addr6[7] > 1))) {
	return ("::" + decodeA(pos - 4));
	} else if ((bestLen == 5) && (addr6[5] == 0xffff)) {
	return ("::ffff:" + decodeA(pos - 4));
	}
	}

	// If bestBase != -1, compress zeros in [bestBase, bestBase+bestLen)
	boolean compress = (bestBase != -1);

	StringBuffer buf = new StringBuffer(40);
	if (bestBase == 0) {
	buf.append(':');
	}
	for (int i = 0; i < 8; i++) {
	if (!compress \|\| (i < bestBase) \|\| (i >= bestBase + bestLen)) {
	buf.append(Integer.toHexString(addr6[i]));
	if (i < 7) {
	buf.append(':');
	}
	} else if (compress && (i == bestBase)) { // first compressed zero
	buf.append(':');
	}
	}

	return buf.toString();
	}
	}