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A Java security provider for supporting ShangMi algorithms in public key infrastructure

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/*
 * Copyright (c) 2002, 2015, 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.
 *
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package com.tencent.kona.sun.security.x509;

import java.io.IOException;
import java.io.StringReader;
import java.util.Arrays;
import java.util.StringJoiner;
import java.util.*;

import com.tencent.kona.sun.security.util.DerInputStream;
import com.tencent.kona.sun.security.util.DerOutputStream;
import com.tencent.kona.sun.security.util.DerValue;
import com.tencent.kona.sun.security.util.ObjectIdentifier;

/**
 * RDNs are a set of {attribute = value} assertions.  Some of those
 * attributes are "distinguished" (unique w/in context).  Order is
 * never relevant.
 *
 * Some X.500 names include only a single distinguished attribute
 * per RDN.  This style is currently common.
 *
 * Note that DER-encoded RDNs sort AVAs by assertion OID ... so that
 * when we parse this data we don't have to worry about canonicalizing
 * it, but we'll need to sort them when we expose the RDN class more.
 * 

* The ASN.1 for RDNs is: *

 * RelativeDistinguishedName ::=
 *   SET OF AttributeTypeAndValue
 *
 * AttributeTypeAndValue ::= SEQUENCE {
 *   type     AttributeType,
 *   value    AttributeValue }
 *
 * AttributeType ::= OBJECT IDENTIFIER
 *
 * AttributeValue ::= ANY DEFINED BY AttributeType
 * 
* * Note that instances of this class are immutable. * */ public class RDN { // currently not private, accessed directly from X500Name final AVA[] assertion; // cached immutable List of the AVAs private volatile List avaList; // cache canonical String form private volatile String canonicalString; /** * Constructs an RDN from its printable representation. * * An RDN may consist of one or multiple Attribute Value Assertions (AVAs), * using '+' as a separator. * If the '+' should be considered part of an AVA value, it must be * preceded by '\'. * * @param name String form of RDN * @throws IOException on parsing error */ public RDN(String name) throws IOException { this(name, Collections.emptyMap()); } /** * Constructs an RDN from its printable representation. * * An RDN may consist of one or multiple Attribute Value Assertions (AVAs), * using '+' as a separator. * If the '+' should be considered part of an AVA value, it must be * preceded by '\'. * * @param name String form of RDN * @param keywordMap an additional mapping of keywords to OIDs * @throws IOException on parsing error */ public RDN(String name, Map keywordMap) throws IOException { int quoteCount = 0; int searchOffset = 0; int avaOffset = 0; List avaVec = new ArrayList<>(3); int nextPlus = name.indexOf('+'); while (nextPlus >= 0) { quoteCount += X500Name.countQuotes(name, searchOffset, nextPlus); /* * We have encountered an AVA delimiter (plus sign). * If the plus sign in the RDN under consideration is * preceded by a backslash (escape), or by a double quote, it * is part of the AVA. Otherwise, it is used as a separator, to * delimit the AVA under consideration from any subsequent AVAs. */ if (nextPlus > 0 && name.charAt(nextPlus - 1) != '\\' && quoteCount != 1) { /* * Plus sign is a separator */ String avaString = name.substring(avaOffset, nextPlus); if (avaString.isEmpty()) { throw new IOException("empty AVA in RDN \"" + name + "\""); } // Parse AVA, and store it in vector AVA ava = new AVA(new StringReader(avaString), keywordMap); avaVec.add(ava); // Increase the offset avaOffset = nextPlus + 1; // Set quote counter back to zero quoteCount = 0; } searchOffset = nextPlus + 1; nextPlus = name.indexOf('+', searchOffset); } // parse last or only AVA String avaString = name.substring(avaOffset); if (avaString.isEmpty()) { throw new IOException("empty AVA in RDN \"" + name + "\""); } AVA ava = new AVA(new StringReader(avaString), keywordMap); avaVec.add(ava); assertion = avaVec.toArray(new AVA[avaVec.size()]); } /* * Constructs an RDN from its printable representation. * * An RDN may consist of one or multiple Attribute Value Assertions (AVAs), * using '+' as a separator. * If the '+' should be considered part of an AVA value, it must be * preceded by '\'. * * @param name String form of RDN * @throws IOException on parsing error */ RDN(String name, String format) throws IOException { this(name, format, Collections.emptyMap()); } /* * Constructs an RDN from its printable representation. * * An RDN may consist of one or multiple Attribute Value Assertions (AVAs), * using '+' as a separator. * If the '+' should be considered part of an AVA value, it must be * preceded by '\'. * * @param name String form of RDN * @param keyword an additional mapping of keywords to OIDs * @throws IOException on parsing error */ RDN(String name, String format, Map keywordMap) throws IOException { if (format.equalsIgnoreCase("RFC2253") == false) { throw new IOException("Unsupported format " + format); } int searchOffset = 0; int avaOffset = 0; List avaVec = new ArrayList<>(3); int nextPlus = name.indexOf('+'); while (nextPlus >= 0) { /* * We have encountered an AVA delimiter (plus sign). * If the plus sign in the RDN under consideration is * preceded by a backslash (escape), or by a double quote, it * is part of the AVA. Otherwise, it is used as a separator, to * delimit the AVA under consideration from any subsequent AVAs. */ if (nextPlus > 0 && name.charAt(nextPlus - 1) != '\\' ) { /* * Plus sign is a separator */ String avaString = name.substring(avaOffset, nextPlus); if (avaString.isEmpty()) { throw new IOException("empty AVA in RDN \"" + name + "\""); } // Parse AVA, and store it in vector AVA ava = new AVA (new StringReader(avaString), AVA.RFC2253, keywordMap); avaVec.add(ava); // Increase the offset avaOffset = nextPlus + 1; } searchOffset = nextPlus + 1; nextPlus = name.indexOf('+', searchOffset); } // parse last or only AVA String avaString = name.substring(avaOffset); if (avaString.isEmpty()) { throw new IOException("empty AVA in RDN \"" + name + "\""); } AVA ava = new AVA(new StringReader(avaString), AVA.RFC2253, keywordMap); avaVec.add(ava); assertion = avaVec.toArray(new AVA[avaVec.size()]); } /* * Constructs an RDN from an ASN.1 encoded value. The encoding * of the name in the stream uses DER (a BER/1 subset). * * @param value a DER-encoded value holding an RDN. * @throws IOException on parsing error. */ RDN(DerValue rdn) throws IOException { if (rdn.tag != DerValue.tag_Set) { throw new IOException("X500 RDN"); } DerInputStream dis = new DerInputStream(rdn.toByteArray()); DerValue[] avaset = dis.getSet(5); assertion = new AVA[avaset.length]; for (int i = 0; i < avaset.length; i++) { assertion[i] = new AVA(avaset[i]); } } /* * Creates an empty RDN with slots for specified * number of AVAs. * * @param i number of AVAs to be in RDN */ RDN(int i) { assertion = new AVA[i]; } public RDN(AVA ava) { if (ava == null) { throw new NullPointerException(); } assertion = new AVA[] { ava }; } public RDN(AVA[] avas) { assertion = avas.clone(); for (int i = 0; i < assertion.length; i++) { if (assertion[i] == null) { throw new NullPointerException(); } } } /** * Return an immutable List of the AVAs in this RDN. */ public List avas() { List list = avaList; if (list == null) { list = Collections.unmodifiableList(Arrays.asList(assertion)); avaList = list; } return list; } /** * Return the number of AVAs in this RDN. */ public int size() { return assertion.length; } public boolean equals(Object obj) { if (this == obj) { return true; } if (obj instanceof RDN == false) { return false; } RDN other = (RDN)obj; if (this.assertion.length != other.assertion.length) { return false; } String thisCanon = this.toRFC2253String(true); String otherCanon = other.toRFC2253String(true); return thisCanon.equals(otherCanon); } /* * Calculates a hash code value for the object. Objects * which are equal will also have the same hashcode. * * @return int hashCode value */ public int hashCode() { return toRFC2253String(true).hashCode(); } /* * return specified attribute value from RDN * * @param oid ObjectIdentifier of attribute to be found * @return DerValue of attribute value; null if attribute does not exist */ DerValue findAttribute(ObjectIdentifier oid) { for (int i = 0; i < assertion.length; i++) { if (assertion[i].oid.equals((Object) oid)) { return assertion[i].value; } } return null; } /* * Encode the RDN in DER-encoded form. * * @param out DerOutputStream to which RDN is to be written * @throws IOException on error */ void encode(DerOutputStream out) throws IOException { out.putOrderedSetOf(DerValue.tag_Set, assertion); } /* * Returns a printable form of this RDN, using RFC 1779 style catenation * of attribute/value assertions, and emitting attribute type keywords * from RFCs 1779, 2253, and 5280. */ public String toString() { if (assertion.length == 1) { return assertion[0].toString(); } StringJoiner sj = new StringJoiner(" + "); for (int i = 0; i < assertion.length; i++) { sj.add(assertion[i].toString()); } return sj.toString(); } /* * Returns a printable form of this RDN using the algorithm defined in * RFC 1779. Only RFC 1779 attribute type keywords are emitted. */ public String toRFC1779String() { return toRFC1779String(Collections.emptyMap()); } /* * Returns a printable form of this RDN using the algorithm defined in * RFC 1779. RFC 1779 attribute type keywords are emitted, as well * as keywords contained in the OID/keyword map. */ public String toRFC1779String(Map oidMap) { if (assertion.length == 1) { return assertion[0].toRFC1779String(oidMap); } StringJoiner sj = new StringJoiner(" + "); for (int i = 0; i < assertion.length; i++) { sj.add(assertion[i].toRFC1779String(oidMap)); } return sj.toString(); } /* * Returns a printable form of this RDN using the algorithm defined in * RFC 2253. Only RFC 2253 attribute type keywords are emitted. */ public String toRFC2253String() { return toRFC2253StringInternal (false, Collections.emptyMap()); } /* * Returns a printable form of this RDN using the algorithm defined in * RFC 2253. RFC 2253 attribute type keywords are emitted, as well as * keywords contained in the OID/keyword map. */ public String toRFC2253String(Map oidMap) { return toRFC2253StringInternal(false, oidMap); } /* * Returns a printable form of this RDN using the algorithm defined in * RFC 2253. Only RFC 2253 attribute type keywords are emitted. * If canonical is true, then additional canonicalizations * documented in X500Principal.getName are performed. */ public String toRFC2253String(boolean canonical) { if (canonical == false) { return toRFC2253StringInternal (false, Collections.emptyMap()); } String c = canonicalString; if (c == null) { c = toRFC2253StringInternal (true, Collections.emptyMap()); canonicalString = c; } return c; } private String toRFC2253StringInternal (boolean canonical, Map oidMap) { /* * Section 2.2: When converting from an ASN.1 RelativeDistinguishedName * to a string, the output consists of the string encodings of each * AttributeTypeAndValue (according to 2.3), in any order. * * Where there is a multi-valued RDN, the outputs from adjoining * AttributeTypeAndValues are separated by a plus ('+' ASCII 43) * character. */ // normally, an RDN only contains one AVA if (assertion.length == 1) { return canonical ? assertion[0].toRFC2253CanonicalString() : assertion[0].toRFC2253String(oidMap); } AVA[] toOutput = assertion; if (canonical) { // order the string type AVA's alphabetically, // followed by the oid type AVA's numerically toOutput = assertion.clone(); Arrays.sort(toOutput, AVAComparator.getInstance()); } StringJoiner sj = new StringJoiner("+"); for (AVA ava : toOutput) { sj.add(canonical ? ava.toRFC2253CanonicalString() : ava.toRFC2253String(oidMap)); } return sj.toString(); } } class AVAComparator implements Comparator { private static final Comparator INSTANCE = new AVAComparator(); private AVAComparator() { // empty } static Comparator getInstance() { return INSTANCE; } /** * AVA's containing a standard keyword are ordered alphabetically, * followed by AVA's containing an OID keyword, ordered numerically */ public int compare(AVA a1, AVA a2) { boolean a1Has2253 = a1.hasRFC2253Keyword(); boolean a2Has2253 = a2.hasRFC2253Keyword(); if (a1Has2253 == a2Has2253) { return a1.toRFC2253CanonicalString().compareTo (a2.toRFC2253CanonicalString()); } else { if (a1Has2253) { return -1; } else { return 1; } } } }




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