src/org/xbill/DNS/SIGBase.java - platform/external/smack - Git at Google

 // Copyright (c) 1999-2004 Brian Wellington (bwelling@xbill.org)

 package org.xbill.DNS;

 import java.io.*;
 import java.util.*;
 import org.xbill.DNS.utils.*;

 /**
  * The base class for SIG/RRSIG records, which have identical formats
  *
  * @author Brian Wellington
  */

 abstract class SIGBase extends Record {

 private static final long serialVersionUID = -3738444391533812369L;

 protected int covered;
 protected int alg, labels;
 protected long origttl;
 protected Date expire, timeSigned;
 protected int footprint;
 protected Name signer;
 protected byte [] signature;

 protected
 SIGBase() {}

 public
 SIGBase(Name name, int type, int dclass, long ttl, int covered, int alg,
 	long origttl, Date expire, Date timeSigned, int footprint, Name signer,
 	byte [] signature)
 {
 	super(name, type, dclass, ttl);
 	Type.check(covered);
 	TTL.check(origttl);
 	this.covered = covered;
 	this.alg = checkU8("alg", alg);
 	this.labels = name.labels() - 1;
 	if (name.isWild())
 		this.labels--;
 	this.origttl = origttl;
 	this.expire = expire;
 	this.timeSigned = timeSigned;
 	this.footprint = checkU16("footprint", footprint);
 	this.signer = checkName("signer", signer);
 	this.signature = signature;
 }

 void
 rrFromWire(DNSInput in) throws IOException {
 	covered = in.readU16();
 	alg = in.readU8();
 	labels = in.readU8();
 	origttl = in.readU32();
 	expire = new Date(1000 * in.readU32());
 	timeSigned = new Date(1000 * in.readU32());
 	footprint = in.readU16();
 	signer = new Name(in);
 	signature = in.readByteArray();
 }

 void
 rdataFromString(Tokenizer st, Name origin) throws IOException {
 	String typeString = st.getString();
 	covered = Type.value(typeString);
 	if (covered < 0)
 		throw st.exception("Invalid type: " + typeString);
 	String algString = st.getString();
 	alg = DNSSEC.Algorithm.value(algString);
 	if (alg < 0)
 		throw st.exception("Invalid algorithm: " + algString);
 	labels = st.getUInt8();
 	origttl = st.getTTL();
 	expire = FormattedTime.parse(st.getString());
 	timeSigned = FormattedTime.parse(st.getString());
 	footprint = st.getUInt16();
 	signer = st.getName(origin);
 	signature = st.getBase64();
 }

 /** Converts the RRSIG/SIG Record to a String */
 String
 rrToString() {
 	StringBuffer sb = new StringBuffer();
 	sb.append (Type.string(covered));
 	sb.append (" ");
 	sb.append (alg);
 	sb.append (" ");
 	sb.append (labels);
 	sb.append (" ");
 	sb.append (origttl);
 	sb.append (" ");
 	if (Options.check("multiline"))
 		sb.append ("(\n\t");
 	sb.append (FormattedTime.format(expire));
 	sb.append (" ");
 	sb.append (FormattedTime.format(timeSigned));
 	sb.append (" ");
 	sb.append (footprint);
 	sb.append (" ");
 	sb.append (signer);
 	if (Options.check("multiline")) {
 		sb.append("\n");
 		sb.append(base64.formatString(signature, 64, "\t",
 					      true));
 	} else {
 		sb.append (" ");
 		sb.append(base64.toString(signature));
 	}
 	return sb.toString();
 }

 /** Returns the RRset type covered by this signature */
 public int
 getTypeCovered() {
 	return covered;
 }

 /**
  * Returns the cryptographic algorithm of the key that generated the signature
  */
 public int
 getAlgorithm() {
 	return alg;
 }

 /**
  * Returns the number of labels in the signed domain name.  This may be
  * different than the record's domain name if the record is a wildcard
  * record.
  */
 public int
 getLabels() {
 	return labels;
 }

 /** Returns the original TTL of the RRset */
 public long
 getOrigTTL() {
 	return origttl;
 }

 /** Returns the time at which the signature expires */
 public Date
 getExpire() {
 	return expire;
 }

 /** Returns the time at which this signature was generated */
 public Date
 getTimeSigned() {
 	return timeSigned;
 }

 /** Returns The footprint/key id of the signing key.  */
 public int
 getFootprint() {
 	return footprint;
 }

 /** Returns the owner of the signing key */
 public Name
 getSigner() {
 	return signer;
 }

 /** Returns the binary data representing the signature */
 public byte []
 getSignature() {
 	return signature;
 }

 void
 setSignature(byte [] signature) {
 	this.signature = signature;
 }

 void
 rrToWire(DNSOutput out, Compression c, boolean canonical) {
 	out.writeU16(covered);
 	out.writeU8(alg);
 	out.writeU8(labels);
 	out.writeU32(origttl);
 	out.writeU32(expire.getTime() / 1000);
 	out.writeU32(timeSigned.getTime() / 1000);
 	out.writeU16(footprint);
 	signer.toWire(out, null, canonical);
 	out.writeByteArray(signature);
 }

 }
	// Copyright (c) 1999-2004 Brian Wellington (bwelling@xbill.org)

	package org.xbill.DNS;

	import java.io.*;
	import java.util.*;
	import org.xbill.DNS.utils.*;

	/**
	* The base class for SIG/RRSIG records, which have identical formats
	*
	* @author Brian Wellington
	*/

	abstract class SIGBase extends Record {

	private static final long serialVersionUID = -3738444391533812369L;

	protected int covered;
	protected int alg, labels;
	protected long origttl;
	protected Date expire, timeSigned;
	protected int footprint;
	protected Name signer;
	protected byte [] signature;

	protected
	SIGBase() {}

	public
	SIGBase(Name name, int type, int dclass, long ttl, int covered, int alg,
	long origttl, Date expire, Date timeSigned, int footprint, Name signer,
	byte [] signature)
	{
	super(name, type, dclass, ttl);
	Type.check(covered);
	TTL.check(origttl);
	this.covered = covered;
	this.alg = checkU8("alg", alg);
	this.labels = name.labels() - 1;
	if (name.isWild())
	this.labels--;
	this.origttl = origttl;
	this.expire = expire;
	this.timeSigned = timeSigned;
	this.footprint = checkU16("footprint", footprint);
	this.signer = checkName("signer", signer);
	this.signature = signature;
	}

	void
	rrFromWire(DNSInput in) throws IOException {
	covered = in.readU16();
	alg = in.readU8();
	labels = in.readU8();
	origttl = in.readU32();
	expire = new Date(1000 * in.readU32());
	timeSigned = new Date(1000 * in.readU32());
	footprint = in.readU16();
	signer = new Name(in);
	signature = in.readByteArray();
	}

	void
	rdataFromString(Tokenizer st, Name origin) throws IOException {
	String typeString = st.getString();
	covered = Type.value(typeString);
	if (covered < 0)
	throw st.exception("Invalid type: " + typeString);
	String algString = st.getString();
	alg = DNSSEC.Algorithm.value(algString);
	if (alg < 0)
	throw st.exception("Invalid algorithm: " + algString);
	labels = st.getUInt8();
	origttl = st.getTTL();
	expire = FormattedTime.parse(st.getString());
	timeSigned = FormattedTime.parse(st.getString());
	footprint = st.getUInt16();
	signer = st.getName(origin);
	signature = st.getBase64();
	}

	/** Converts the RRSIG/SIG Record to a String */
	String
	rrToString() {
	StringBuffer sb = new StringBuffer();
	sb.append (Type.string(covered));
	sb.append (" ");
	sb.append (alg);
	sb.append (" ");
	sb.append (labels);
	sb.append (" ");
	sb.append (origttl);
	sb.append (" ");
	if (Options.check("multiline"))
	sb.append ("(\n\t");
	sb.append (FormattedTime.format(expire));
	sb.append (" ");
	sb.append (FormattedTime.format(timeSigned));
	sb.append (" ");
	sb.append (footprint);
	sb.append (" ");
	sb.append (signer);
	if (Options.check("multiline")) {
	sb.append("\n");
	sb.append(base64.formatString(signature, 64, "\t",
	true));
	} else {
	sb.append (" ");
	sb.append(base64.toString(signature));
	}
	return sb.toString();
	}

	/** Returns the RRset type covered by this signature */
	public int
	getTypeCovered() {
	return covered;
	}

	/**
	* Returns the cryptographic algorithm of the key that generated the signature
	*/
	public int
	getAlgorithm() {
	return alg;
	}

	/**
	* Returns the number of labels in the signed domain name. This may be
	* different than the record's domain name if the record is a wildcard
	* record.
	*/
	public int
	getLabels() {
	return labels;
	}

	/** Returns the original TTL of the RRset */
	public long
	getOrigTTL() {
	return origttl;
	}

	/** Returns the time at which the signature expires */
	public Date
	getExpire() {
	return expire;
	}

	/** Returns the time at which this signature was generated */
	public Date
	getTimeSigned() {
	return timeSigned;
	}

	/** Returns The footprint/key id of the signing key. */
	public int
	getFootprint() {
	return footprint;
	}

	/** Returns the owner of the signing key */
	public Name
	getSigner() {
	return signer;
	}

	/** Returns the binary data representing the signature */
	public byte []
	getSignature() {
	return signature;
	}

	void
	setSignature(byte [] signature) {
	this.signature = signature;
	}

	void
	rrToWire(DNSOutput out, Compression c, boolean canonical) {
	out.writeU16(covered);
	out.writeU8(alg);
	out.writeU8(labels);
	out.writeU32(origttl);
	out.writeU32(expire.getTime() / 1000);
	out.writeU32(timeSigned.getTime() / 1000);
	out.writeU16(footprint);
	signer.toWire(out, null, canonical);
	out.writeByteArray(signature);
	}

	}