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package com.bouncycastle.asn1.x509;

import java.io.IOException;
import java.util.Enumeration;
import java.util.Hashtable;
import java.util.Vector;

import com.bouncycastle.asn1.ASN1Encodable;
import com.bouncycastle.asn1.ASN1EncodableVector;
import com.bouncycastle.asn1.ASN1Object;
import com.bouncycastle.asn1.ASN1Sequence;
import com.bouncycastle.asn1.ASN1Set;
import com.bouncycastle.asn1.ASN1TaggedObject;
import com.bouncycastle.asn1.DEREncodable;
import com.bouncycastle.asn1.DERObject;
import com.bouncycastle.asn1.DERObjectIdentifier;
import com.bouncycastle.asn1.DERSequence;
import com.bouncycastle.asn1.DERSet;
import com.bouncycastle.asn1.DERString;
import com.bouncycastle.asn1.DERUniversalString;
import com.bouncycastle.asn1.pkcs.PKCSObjectIdentifiers;
import com.bouncycastle.asn1.x500.X500Name;
import com.bouncycastle.util.Strings;
import com.bouncycastle.util.encoders.Hex;

/**
 * 
 *     RDNSequence ::= SEQUENCE OF RelativeDistinguishedName
 *
 *     RelativeDistinguishedName ::= SET SIZE (1..MAX) OF AttributeTypeAndValue
 *
 *     AttributeTypeAndValue ::= SEQUENCE {
 *                                   type  OBJECT IDENTIFIER,
 *                                   value ANY }
 * 
* @deprecated use org.bouncycastle.asn1.x500.X500Name. */ public class X509Name extends ASN1Encodable { /** * country code - StringType(SIZE(2)) */ public static final DERObjectIdentifier C = new DERObjectIdentifier("2.5.4.6"); /** * organization - StringType(SIZE(1..64)) */ public static final DERObjectIdentifier O = new DERObjectIdentifier("2.5.4.10"); /** * organizational unit name - StringType(SIZE(1..64)) */ public static final DERObjectIdentifier OU = new DERObjectIdentifier("2.5.4.11"); /** * Title */ public static final DERObjectIdentifier T = new DERObjectIdentifier("2.5.4.12"); /** * common name - StringType(SIZE(1..64)) */ public static final DERObjectIdentifier CN = new DERObjectIdentifier("2.5.4.3"); /** * device serial number name - StringType(SIZE(1..64)) */ public static final DERObjectIdentifier SN = new DERObjectIdentifier("2.5.4.5"); /** * street - StringType(SIZE(1..64)) */ public static final DERObjectIdentifier STREET = new DERObjectIdentifier("2.5.4.9"); /** * device serial number name - StringType(SIZE(1..64)) */ public static final DERObjectIdentifier SERIALNUMBER = SN; /** * locality name - StringType(SIZE(1..64)) */ public static final DERObjectIdentifier L = new DERObjectIdentifier("2.5.4.7"); /** * state, or province name - StringType(SIZE(1..64)) */ public static final DERObjectIdentifier ST = new DERObjectIdentifier("2.5.4.8"); /** * Naming attributes of type X520name */ public static final DERObjectIdentifier SURNAME = new DERObjectIdentifier("2.5.4.4"); public static final DERObjectIdentifier GIVENNAME = new DERObjectIdentifier("2.5.4.42"); public static final DERObjectIdentifier INITIALS = new DERObjectIdentifier("2.5.4.43"); public static final DERObjectIdentifier GENERATION = new DERObjectIdentifier("2.5.4.44"); public static final DERObjectIdentifier UNIQUE_IDENTIFIER = new DERObjectIdentifier("2.5.4.45"); /** * businessCategory - DirectoryString(SIZE(1..128) */ public static final DERObjectIdentifier BUSINESS_CATEGORY = new DERObjectIdentifier( "2.5.4.15"); /** * postalCode - DirectoryString(SIZE(1..40) */ public static final DERObjectIdentifier POSTAL_CODE = new DERObjectIdentifier( "2.5.4.17"); /** * dnQualifier - DirectoryString(SIZE(1..64) */ public static final DERObjectIdentifier DN_QUALIFIER = new DERObjectIdentifier( "2.5.4.46"); /** * RFC 3039 Pseudonym - DirectoryString(SIZE(1..64) */ public static final DERObjectIdentifier PSEUDONYM = new DERObjectIdentifier( "2.5.4.65"); /** * RFC 3039 DateOfBirth - GeneralizedTime - YYYYMMDD000000Z */ public static final DERObjectIdentifier DATE_OF_BIRTH = new DERObjectIdentifier( "1.3.6.1.5.5.7.9.1"); /** * RFC 3039 PlaceOfBirth - DirectoryString(SIZE(1..128) */ public static final DERObjectIdentifier PLACE_OF_BIRTH = new DERObjectIdentifier( "1.3.6.1.5.5.7.9.2"); /** * RFC 3039 Gender - PrintableString (SIZE(1)) -- "M", "F", "m" or "f" */ public static final DERObjectIdentifier GENDER = new DERObjectIdentifier( "1.3.6.1.5.5.7.9.3"); /** * RFC 3039 CountryOfCitizenship - PrintableString (SIZE (2)) -- ISO 3166 * codes only */ public static final DERObjectIdentifier COUNTRY_OF_CITIZENSHIP = new DERObjectIdentifier( "1.3.6.1.5.5.7.9.4"); /** * RFC 3039 CountryOfResidence - PrintableString (SIZE (2)) -- ISO 3166 * codes only */ public static final DERObjectIdentifier COUNTRY_OF_RESIDENCE = new DERObjectIdentifier( "1.3.6.1.5.5.7.9.5"); /** * ISIS-MTT NameAtBirth - DirectoryString(SIZE(1..64) */ public static final DERObjectIdentifier NAME_AT_BIRTH = new DERObjectIdentifier("1.3.36.8.3.14"); /** * RFC 3039 PostalAddress - SEQUENCE SIZE (1..6) OF * DirectoryString(SIZE(1..30)) */ public static final DERObjectIdentifier POSTAL_ADDRESS = new DERObjectIdentifier("2.5.4.16"); /** * RFC 2256 dmdName */ public static final DERObjectIdentifier DMD_NAME = new DERObjectIdentifier("2.5.4.54"); /** * id-at-telephoneNumber */ public static final DERObjectIdentifier TELEPHONE_NUMBER = X509ObjectIdentifiers.id_at_telephoneNumber; /** * id-at-name */ public static final DERObjectIdentifier NAME = X509ObjectIdentifiers.id_at_name; /** * Email address (RSA PKCS#9 extension) - IA5String. *

Note: if you're trying to be ultra orthodox, don't use this! It shouldn't be in here. */ public static final DERObjectIdentifier EmailAddress = PKCSObjectIdentifiers.pkcs_9_at_emailAddress; /** * more from PKCS#9 */ public static final DERObjectIdentifier UnstructuredName = PKCSObjectIdentifiers.pkcs_9_at_unstructuredName; public static final DERObjectIdentifier UnstructuredAddress = PKCSObjectIdentifiers.pkcs_9_at_unstructuredAddress; /** * email address in Verisign certificates */ public static final DERObjectIdentifier E = EmailAddress; /* * others... */ public static final DERObjectIdentifier DC = new DERObjectIdentifier("0.9.2342.19200300.100.1.25"); /** * LDAP User id. */ public static final DERObjectIdentifier UID = new DERObjectIdentifier("0.9.2342.19200300.100.1.1"); /** * determines whether or not strings should be processed and printed * from back to front. */ public static boolean DefaultReverse = false; /** * default look up table translating OID values into their common symbols following * the convention in RFC 2253 with a few extras */ public static final Hashtable DefaultSymbols = new Hashtable(); /** * look up table translating OID values into their common symbols following the convention in RFC 2253 * */ public static final Hashtable RFC2253Symbols = new Hashtable(); /** * look up table translating OID values into their common symbols following the convention in RFC 1779 * */ public static final Hashtable RFC1779Symbols = new Hashtable(); /** * look up table translating common symbols into their OIDS. */ public static final Hashtable DefaultLookUp = new Hashtable(); /** * look up table translating OID values into their common symbols * @deprecated use DefaultSymbols */ public static final Hashtable OIDLookUp = DefaultSymbols; /** * look up table translating string values into their OIDS - * @deprecated use DefaultLookUp */ public static final Hashtable SymbolLookUp = DefaultLookUp; private static final Boolean TRUE = new Boolean(true); // for J2ME compatibility private static final Boolean FALSE = new Boolean(false); static { DefaultSymbols.put(C, "C"); DefaultSymbols.put(O, "O"); DefaultSymbols.put(T, "T"); DefaultSymbols.put(OU, "OU"); DefaultSymbols.put(CN, "CN"); DefaultSymbols.put(L, "L"); DefaultSymbols.put(ST, "ST"); DefaultSymbols.put(SN, "SERIALNUMBER"); DefaultSymbols.put(EmailAddress, "E"); DefaultSymbols.put(DC, "DC"); DefaultSymbols.put(UID, "UID"); DefaultSymbols.put(STREET, "STREET"); DefaultSymbols.put(SURNAME, "SURNAME"); DefaultSymbols.put(GIVENNAME, "GIVENNAME"); DefaultSymbols.put(INITIALS, "INITIALS"); DefaultSymbols.put(GENERATION, "GENERATION"); DefaultSymbols.put(UnstructuredAddress, "unstructuredAddress"); DefaultSymbols.put(UnstructuredName, "unstructuredName"); DefaultSymbols.put(UNIQUE_IDENTIFIER, "UniqueIdentifier"); DefaultSymbols.put(DN_QUALIFIER, "DN"); DefaultSymbols.put(PSEUDONYM, "Pseudonym"); DefaultSymbols.put(POSTAL_ADDRESS, "PostalAddress"); DefaultSymbols.put(NAME_AT_BIRTH, "NameAtBirth"); DefaultSymbols.put(COUNTRY_OF_CITIZENSHIP, "CountryOfCitizenship"); DefaultSymbols.put(COUNTRY_OF_RESIDENCE, "CountryOfResidence"); DefaultSymbols.put(GENDER, "Gender"); DefaultSymbols.put(PLACE_OF_BIRTH, "PlaceOfBirth"); DefaultSymbols.put(DATE_OF_BIRTH, "DateOfBirth"); DefaultSymbols.put(POSTAL_CODE, "PostalCode"); DefaultSymbols.put(BUSINESS_CATEGORY, "BusinessCategory"); DefaultSymbols.put(TELEPHONE_NUMBER, "TelephoneNumber"); DefaultSymbols.put(NAME, "Name"); RFC2253Symbols.put(C, "C"); RFC2253Symbols.put(O, "O"); RFC2253Symbols.put(OU, "OU"); RFC2253Symbols.put(CN, "CN"); RFC2253Symbols.put(L, "L"); RFC2253Symbols.put(ST, "ST"); RFC2253Symbols.put(STREET, "STREET"); RFC2253Symbols.put(DC, "DC"); RFC2253Symbols.put(UID, "UID"); RFC1779Symbols.put(C, "C"); RFC1779Symbols.put(O, "O"); RFC1779Symbols.put(OU, "OU"); RFC1779Symbols.put(CN, "CN"); RFC1779Symbols.put(L, "L"); RFC1779Symbols.put(ST, "ST"); RFC1779Symbols.put(STREET, "STREET"); DefaultLookUp.put("c", C); DefaultLookUp.put("o", O); DefaultLookUp.put("t", T); DefaultLookUp.put("ou", OU); DefaultLookUp.put("cn", CN); DefaultLookUp.put("l", L); DefaultLookUp.put("st", ST); DefaultLookUp.put("sn", SN); DefaultLookUp.put("serialnumber", SN); DefaultLookUp.put("street", STREET); DefaultLookUp.put("emailaddress", E); DefaultLookUp.put("dc", DC); DefaultLookUp.put("e", E); DefaultLookUp.put("uid", UID); DefaultLookUp.put("surname", SURNAME); DefaultLookUp.put("givenname", GIVENNAME); DefaultLookUp.put("initials", INITIALS); DefaultLookUp.put("generation", GENERATION); DefaultLookUp.put("unstructuredaddress", UnstructuredAddress); DefaultLookUp.put("unstructuredname", UnstructuredName); DefaultLookUp.put("uniqueidentifier", UNIQUE_IDENTIFIER); DefaultLookUp.put("dn", DN_QUALIFIER); DefaultLookUp.put("pseudonym", PSEUDONYM); DefaultLookUp.put("postaladdress", POSTAL_ADDRESS); DefaultLookUp.put("nameofbirth", NAME_AT_BIRTH); DefaultLookUp.put("countryofcitizenship", COUNTRY_OF_CITIZENSHIP); DefaultLookUp.put("countryofresidence", COUNTRY_OF_RESIDENCE); DefaultLookUp.put("gender", GENDER); DefaultLookUp.put("placeofbirth", PLACE_OF_BIRTH); DefaultLookUp.put("dateofbirth", DATE_OF_BIRTH); DefaultLookUp.put("postalcode", POSTAL_CODE); DefaultLookUp.put("businesscategory", BUSINESS_CATEGORY); DefaultLookUp.put("telephonenumber", TELEPHONE_NUMBER); DefaultLookUp.put("name", NAME); } private X509NameEntryConverter converter = null; private Vector ordering = new Vector(); private Vector values = new Vector(); private Vector added = new Vector(); private ASN1Sequence seq; private boolean isHashCodeCalculated; private int hashCodeValue; /** * Return a X509Name based on the passed in tagged object. * * @param obj tag object holding name. * @param explicit true if explicitly tagged false otherwise. * @return the X509Name */ public static X509Name getInstance( ASN1TaggedObject obj, boolean explicit) { return getInstance(ASN1Sequence.getInstance(obj, explicit)); } public static X509Name getInstance( Object obj) { if (obj == null || obj instanceof X509Name) { return (X509Name)obj; } else if (obj instanceof X500Name) { return new X509Name(ASN1Sequence.getInstance(((X500Name)obj).getDERObject())); } else if (obj != null) { return new X509Name(ASN1Sequence.getInstance(obj)); } return null; } protected X509Name() { // constructure use by new X500 Name class } /** * Constructor from ASN1Sequence * * the principal will be a list of constructed sets, each containing an (OID, String) pair. */ public X509Name( ASN1Sequence seq) { this.seq = seq; Enumeration e = seq.getObjects(); while (e.hasMoreElements()) { ASN1Set set = ASN1Set.getInstance(((DEREncodable)e.nextElement()).getDERObject()); for (int i = 0; i < set.size(); i++) { ASN1Sequence s = ASN1Sequence.getInstance(set.getObjectAt(i)); if (s.size() != 2) { throw new IllegalArgumentException("badly sized pair"); } ordering.addElement(DERObjectIdentifier.getInstance(s.getObjectAt(0))); DEREncodable value = s.getObjectAt(1); if (value instanceof DERString && !(value instanceof DERUniversalString)) { String v = ((DERString)value).getString(); if (v.length() > 0 && v.charAt(0) == '#') { values.addElement("\\" + v); } else { values.addElement(v); } } else { values.addElement("#" + bytesToString(Hex.encode(value.getDERObject().getDEREncoded()))); } added.addElement((i != 0) ? TRUE : FALSE); // to allow earlier JDK compatibility } } } /** * constructor from a table of attributes. *

* it's is assumed the table contains OID/String pairs, and the contents * of the table are copied into an internal table as part of the * construction process. *

* Note: if the name you are trying to generate should be * following a specific ordering, you should use the constructor * with the ordering specified below. * @deprecated use an ordered constructor! The hashtable ordering is rarely correct */ public X509Name( Hashtable attributes) { this(null, attributes); } /** * Constructor from a table of attributes with ordering. *

* it's is assumed the table contains OID/String pairs, and the contents * of the table are copied into an internal table as part of the * construction process. The ordering vector should contain the OIDs * in the order they are meant to be encoded or printed in toString. */ public X509Name( Vector ordering, Hashtable attributes) { this(ordering, attributes, new X509DefaultEntryConverter()); } /** * Constructor from a table of attributes with ordering. *

* it's is assumed the table contains OID/String pairs, and the contents * of the table are copied into an internal table as part of the * construction process. The ordering vector should contain the OIDs * in the order they are meant to be encoded or printed in toString. *

* The passed in converter will be used to convert the strings into their * ASN.1 counterparts. */ public X509Name( Vector ordering, Hashtable attributes, X509NameEntryConverter converter) { this.converter = converter; if (ordering != null) { for (int i = 0; i != ordering.size(); i++) { this.ordering.addElement(ordering.elementAt(i)); this.added.addElement(FALSE); } } else { Enumeration e = attributes.keys(); while (e.hasMoreElements()) { this.ordering.addElement(e.nextElement()); this.added.addElement(FALSE); } } for (int i = 0; i != this.ordering.size(); i++) { DERObjectIdentifier oid = (DERObjectIdentifier)this.ordering.elementAt(i); if (attributes.get(oid) == null) { throw new IllegalArgumentException("No attribute for object id - " + oid.getId() + " - passed to distinguished name"); } this.values.addElement(attributes.get(oid)); // copy the hash table } } /** * Takes two vectors one of the oids and the other of the values. */ public X509Name( Vector oids, Vector values) { this(oids, values, new X509DefaultEntryConverter()); } /** * Takes two vectors one of the oids and the other of the values. *

* The passed in converter will be used to convert the strings into their * ASN.1 counterparts. */ public X509Name( Vector oids, Vector values, X509NameEntryConverter converter) { this.converter = converter; if (oids.size() != values.size()) { throw new IllegalArgumentException("oids vector must be same length as values."); } for (int i = 0; i < oids.size(); i++) { this.ordering.addElement(oids.elementAt(i)); this.values.addElement(values.elementAt(i)); this.added.addElement(FALSE); } } // private Boolean isEncoded(String s) // { // if (s.charAt(0) == '#') // { // return TRUE; // } // // return FALSE; // } /** * Takes an X509 dir name as a string of the format "C=AU, ST=Victoria", or * some such, converting it into an ordered set of name attributes. */ public X509Name( String dirName) { this(DefaultReverse, DefaultLookUp, dirName); } /** * Takes an X509 dir name as a string of the format "C=AU, ST=Victoria", or * some such, converting it into an ordered set of name attributes with each * string value being converted to its associated ASN.1 type using the passed * in converter. */ public X509Name( String dirName, X509NameEntryConverter converter) { this(DefaultReverse, DefaultLookUp, dirName, converter); } /** * Takes an X509 dir name as a string of the format "C=AU, ST=Victoria", or * some such, converting it into an ordered set of name attributes. If reverse * is true, create the encoded version of the sequence starting from the * last element in the string. */ public X509Name( boolean reverse, String dirName) { this(reverse, DefaultLookUp, dirName); } /** * Takes an X509 dir name as a string of the format "C=AU, ST=Victoria", or * some such, converting it into an ordered set of name attributes with each * string value being converted to its associated ASN.1 type using the passed * in converter. If reverse is true the ASN.1 sequence representing the DN will * be built by starting at the end of the string, rather than the start. */ public X509Name( boolean reverse, String dirName, X509NameEntryConverter converter) { this(reverse, DefaultLookUp, dirName, converter); } /** * Takes an X509 dir name as a string of the format "C=AU, ST=Victoria", or * some such, converting it into an ordered set of name attributes. lookUp * should provide a table of lookups, indexed by lowercase only strings and * yielding a DERObjectIdentifier, other than that OID. and numeric oids * will be processed automatically. *
* If reverse is true, create the encoded version of the sequence * starting from the last element in the string. * @param reverse true if we should start scanning from the end (RFC 2553). * @param lookUp table of names and their oids. * @param dirName the X.500 string to be parsed. */ public X509Name( boolean reverse, Hashtable lookUp, String dirName) { this(reverse, lookUp, dirName, new X509DefaultEntryConverter()); } private DERObjectIdentifier decodeOID( String name, Hashtable lookUp) { if (Strings.toUpperCase(name).startsWith("OID.")) { return new DERObjectIdentifier(name.substring(4)); } else if (name.charAt(0) >= '0' && name.charAt(0) <= '9') { return new DERObjectIdentifier(name); } DERObjectIdentifier oid = (DERObjectIdentifier)lookUp.get(Strings.toLowerCase(name)); if (oid == null) { throw new IllegalArgumentException("Unknown object id - " + name + " - passed to distinguished name"); } return oid; } /** * Takes an X509 dir name as a string of the format "C=AU, ST=Victoria", or * some such, converting it into an ordered set of name attributes. lookUp * should provide a table of lookups, indexed by lowercase only strings and * yielding a DERObjectIdentifier, other than that OID. and numeric oids * will be processed automatically. The passed in converter is used to convert the * string values to the right of each equals sign to their ASN.1 counterparts. *
* @param reverse true if we should start scanning from the end, false otherwise. * @param lookUp table of names and oids. * @param dirName the string dirName * @param converter the converter to convert string values into their ASN.1 equivalents */ public X509Name( boolean reverse, Hashtable lookUp, String dirName, X509NameEntryConverter converter) { this.converter = converter; X509NameTokenizer nTok = new X509NameTokenizer(dirName); while (nTok.hasMoreTokens()) { String token = nTok.nextToken(); int index = token.indexOf('='); if (index == -1) { throw new IllegalArgumentException("badly formated directory string"); } String name = token.substring(0, index); String value = token.substring(index + 1); DERObjectIdentifier oid = decodeOID(name, lookUp); if (value.indexOf('+') > 0) { X509NameTokenizer vTok = new X509NameTokenizer(value, '+'); String v = vTok.nextToken(); this.ordering.addElement(oid); this.values.addElement(v); this.added.addElement(FALSE); while (vTok.hasMoreTokens()) { String sv = vTok.nextToken(); int ndx = sv.indexOf('='); String nm = sv.substring(0, ndx); String vl = sv.substring(ndx + 1); this.ordering.addElement(decodeOID(nm, lookUp)); this.values.addElement(vl); this.added.addElement(TRUE); } } else { this.ordering.addElement(oid); this.values.addElement(value); this.added.addElement(FALSE); } } if (reverse) { Vector o = new Vector(); Vector v = new Vector(); Vector a = new Vector(); int count = 1; for (int i = 0; i < this.ordering.size(); i++) { if (((Boolean)this.added.elementAt(i)).booleanValue()) { o.insertElementAt(this.ordering.elementAt(i), count); v.insertElementAt(this.values.elementAt(i), count); a.insertElementAt(this.added.elementAt(i), count); count++; } else { o.insertElementAt(this.ordering.elementAt(i), 0); v.insertElementAt(this.values.elementAt(i), 0); a.insertElementAt(this.added.elementAt(i), 0); count = 1; } } this.ordering = o; this.values = v; this.added = a; } } /** * return a vector of the oids in the name, in the order they were found. */ public Vector getOIDs() { Vector v = new Vector(); for (int i = 0; i != ordering.size(); i++) { v.addElement(ordering.elementAt(i)); } return v; } /** * return a vector of the values found in the name, in the order they * were found. */ public Vector getValues() { Vector v = new Vector(); for (int i = 0; i != values.size(); i++) { v.addElement(values.elementAt(i)); } return v; } /** * return a vector of the values found in the name, in the order they * were found, with the DN label corresponding to passed in oid. */ public Vector getValues( DERObjectIdentifier oid) { Vector v = new Vector(); for (int i = 0; i != values.size(); i++) { if (ordering.elementAt(i).equals(oid)) { String val = (String)values.elementAt(i); if (val.length() > 2 && val.charAt(0) == '\\' && val.charAt(1) == '#') { v.addElement(val.substring(1)); } else { v.addElement(val); } } } return v; } public DERObject toASN1Object() { if (seq == null) { ASN1EncodableVector vec = new ASN1EncodableVector(); ASN1EncodableVector sVec = new ASN1EncodableVector(); DERObjectIdentifier lstOid = null; for (int i = 0; i != ordering.size(); i++) { ASN1EncodableVector v = new ASN1EncodableVector(); DERObjectIdentifier oid = (DERObjectIdentifier)ordering.elementAt(i); v.add(oid); String str = (String)values.elementAt(i); v.add(converter.getConvertedValue(oid, str)); if (lstOid == null || ((Boolean)this.added.elementAt(i)).booleanValue()) { sVec.add(new DERSequence(v)); } else { vec.add(new DERSet(sVec)); sVec = new ASN1EncodableVector(); sVec.add(new DERSequence(v)); } lstOid = oid; } vec.add(new DERSet(sVec)); seq = new DERSequence(vec); } return seq; } /** * @param inOrder if true the order of both X509 names must be the same, * as well as the values associated with each element. */ public boolean equals(Object obj, boolean inOrder) { if (!inOrder) { return this.equals(obj); } if (obj == this) { return true; } if (!(obj instanceof X509Name || obj instanceof ASN1Sequence)) { return false; } DERObject derO = ((DEREncodable)obj).getDERObject(); if (this.getDERObject().equals(derO)) { return true; } X509Name other; try { other = X509Name.getInstance(obj); } catch (IllegalArgumentException e) { return false; } int orderingSize = ordering.size(); if (orderingSize != other.ordering.size()) { return false; } for (int i = 0; i < orderingSize; i++) { DERObjectIdentifier oid = (DERObjectIdentifier)ordering.elementAt(i); DERObjectIdentifier oOid = (DERObjectIdentifier)other.ordering.elementAt(i); if (oid.equals(oOid)) { String value = (String)values.elementAt(i); String oValue = (String)other.values.elementAt(i); if (!equivalentStrings(value, oValue)) { return false; } } else { return false; } } return true; } public int hashCode() { if (isHashCodeCalculated) { return hashCodeValue; } isHashCodeCalculated = true; // this needs to be order independent, like equals for (int i = 0; i != ordering.size(); i += 1) { String value = (String)values.elementAt(i); value = canonicalize(value); value = stripInternalSpaces(value); hashCodeValue ^= ordering.elementAt(i).hashCode(); hashCodeValue ^= value.hashCode(); } return hashCodeValue; } /** * test for equality - note: case is ignored. */ public boolean equals(Object obj) { if (obj == this) { return true; } if (!(obj instanceof X509Name || obj instanceof ASN1Sequence)) { return false; } DERObject derO = ((DEREncodable)obj).getDERObject(); if (this.getDERObject().equals(derO)) { return true; } X509Name other; try { other = X509Name.getInstance(obj); } catch (IllegalArgumentException e) { return false; } int orderingSize = ordering.size(); if (orderingSize != other.ordering.size()) { return false; } boolean[] indexes = new boolean[orderingSize]; int start, end, delta; if (ordering.elementAt(0).equals(other.ordering.elementAt(0))) // guess forward { start = 0; end = orderingSize; delta = 1; } else // guess reversed - most common problem { start = orderingSize - 1; end = -1; delta = -1; } for (int i = start; i != end; i += delta) { boolean found = false; DERObjectIdentifier oid = (DERObjectIdentifier)ordering.elementAt(i); String value = (String)values.elementAt(i); for (int j = 0; j < orderingSize; j++) { if (indexes[j]) { continue; } DERObjectIdentifier oOid = (DERObjectIdentifier)other.ordering.elementAt(j); if (oid.equals(oOid)) { String oValue = (String)other.values.elementAt(j); if (equivalentStrings(value, oValue)) { indexes[j] = true; found = true; break; } } } if (!found) { return false; } } return true; } private boolean equivalentStrings(String s1, String s2) { String value = canonicalize(s1); String oValue = canonicalize(s2); if (!value.equals(oValue)) { value = stripInternalSpaces(value); oValue = stripInternalSpaces(oValue); if (!value.equals(oValue)) { return false; } } return true; } private String canonicalize(String s) { String value = Strings.toLowerCase(s.trim()); if (value.length() > 0 && value.charAt(0) == '#') { DERObject obj = decodeObject(value); if (obj instanceof DERString) { value = Strings.toLowerCase(((DERString)obj).getString().trim()); } } return value; } private ASN1Object decodeObject(String oValue) { try { return ASN1Object.fromByteArray(Hex.decode(oValue.substring(1))); } catch (IOException e) { throw new IllegalStateException("unknown encoding in name: " + e); } } private String stripInternalSpaces( String str) { StringBuffer res = new StringBuffer(); if (str.length() != 0) { char c1 = str.charAt(0); res.append(c1); for (int k = 1; k < str.length(); k++) { char c2 = str.charAt(k); if (!(c1 == ' ' && c2 == ' ')) { res.append(c2); } c1 = c2; } } return res.toString(); } private void appendValue( StringBuffer buf, Hashtable oidSymbols, DERObjectIdentifier oid, String value) { String sym = (String)oidSymbols.get(oid); if (sym != null) { buf.append(sym); } else { buf.append(oid.getId()); } buf.append('='); int index = buf.length(); buf.append(value); int end = buf.length(); if (value.length() >= 2 && value.charAt(0) == '\\' && value.charAt(1) == '#') { index += 2; } while (index != end) { if ((buf.charAt(index) == ',') || (buf.charAt(index) == '"') || (buf.charAt(index) == '\\') || (buf.charAt(index) == '+') || (buf.charAt(index) == '=') || (buf.charAt(index) == '<') || (buf.charAt(index) == '>') || (buf.charAt(index) == ';')) { buf.insert(index, "\\"); index++; end++; } index++; } } /** * convert the structure to a string - if reverse is true the * oids and values are listed out starting with the last element * in the sequence (ala RFC 2253), otherwise the string will begin * with the first element of the structure. If no string definition * for the oid is found in oidSymbols the string value of the oid is * added. Two standard symbol tables are provided DefaultSymbols, and * RFC2253Symbols as part of this class. * * @param reverse if true start at the end of the sequence and work back. * @param oidSymbols look up table strings for oids. */ public String toString( boolean reverse, Hashtable oidSymbols) { StringBuffer buf = new StringBuffer(); Vector components = new Vector(); boolean first = true; StringBuffer ava = null; for (int i = 0; i < ordering.size(); i++) { if (((Boolean)added.elementAt(i)).booleanValue()) { ava.append('+'); appendValue(ava, oidSymbols, (DERObjectIdentifier)ordering.elementAt(i), (String)values.elementAt(i)); } else { ava = new StringBuffer(); appendValue(ava, oidSymbols, (DERObjectIdentifier)ordering.elementAt(i), (String)values.elementAt(i)); components.addElement(ava); } } if (reverse) { for (int i = components.size() - 1; i >= 0; i--) { if (first) { first = false; } else { buf.append(','); } buf.append(components.elementAt(i).toString()); } } else { for (int i = 0; i < components.size(); i++) { if (first) { first = false; } else { buf.append(','); } buf.append(components.elementAt(i).toString()); } } return buf.toString(); } private String bytesToString( byte[] data) { char[] cs = new char[data.length]; for (int i = 0; i != cs.length; i++) { cs[i] = (char)(data[i] & 0xff); } return new String(cs); } public String toString() { return toString(DefaultReverse, DefaultSymbols); } }





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