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

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 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
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 * This code is free software; you can redistribute it and/or modify it
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 * 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).
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 * 2 along with this work; if not, write to the Free Software Foundation,
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package com.tencent.kona.sun.security.x509;

import java.io.*;
import java.util.*;

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

/**
 * Represent the GeneralSubtrees ASN.1 object.
 * 

* The ASN.1 for this is *

 * GeneralSubtrees ::= SEQUENCE SIZE (1..MAX) OF GeneralSubtree
 * 
* * * @author Amit Kapoor * @author Hemma Prafullchandra * @author Andreas Sterbenz */ public class GeneralSubtrees implements Cloneable, DerEncoder { private final List trees; // Private variables private static final int NAME_DIFF_TYPE = GeneralNameInterface.NAME_DIFF_TYPE; private static final int NAME_MATCH = GeneralNameInterface.NAME_MATCH; private static final int NAME_NARROWS = GeneralNameInterface.NAME_NARROWS; private static final int NAME_WIDENS = GeneralNameInterface.NAME_WIDENS; private static final int NAME_SAME_TYPE = GeneralNameInterface.NAME_SAME_TYPE; /** * The default constructor for the class. */ public GeneralSubtrees() { trees = new ArrayList<>(); } private GeneralSubtrees(GeneralSubtrees source) { trees = new ArrayList<>(source.trees); } /** * Create the object from the passed DER encoded form. * * @param val the DER encoded form of the same. */ public GeneralSubtrees(DerValue val) throws IOException { this(); if (val.tag != DerValue.tag_Sequence) { throw new IOException("Invalid encoding of GeneralSubtrees."); } while (val.data.available() != 0) { DerValue opt = val.data.getDerValue(); GeneralSubtree tree = new GeneralSubtree(opt); add(tree); } } public GeneralSubtree get(int index) { return trees.get(index); } public void remove(int index) { trees.remove(index); } public void add(GeneralSubtree tree) { if (tree == null) { throw new NullPointerException(); } trees.add(tree); } public boolean contains(GeneralSubtree tree) { if (tree == null) { throw new NullPointerException(); } return trees.contains(tree); } public int size() { return trees.size(); } public Iterator iterator() { return trees.iterator(); } public List trees() { return trees; } public Object clone() { return new GeneralSubtrees(this); } /** * Return a printable string of the GeneralSubtree. */ public String toString() { return " GeneralSubtrees:\n" + trees + '\n'; } /** * Encode the GeneralSubtrees. * * @param out the DerOutputStream to encode this object to. */ public void encode(DerOutputStream out) { DerOutputStream seq = new DerOutputStream(); for (int i = 0, n = size(); i < n; i++) { get(i).encode(seq); } out.write(DerValue.tag_Sequence, seq); } /** * Compare two general subtrees by comparing the subtrees * of each. * * @param obj GeneralSubtrees to compare to this * @return true if match */ public boolean equals(Object obj) { if (this == obj) { return true; } if (!(obj instanceof GeneralSubtrees)) { return false; } GeneralSubtrees other = (GeneralSubtrees)obj; return this.trees.equals(other.trees); } public int hashCode() { return trees.hashCode(); } /** * Return the GeneralNameInterface form of the GeneralName in one of * the GeneralSubtrees. * * @param ndx index of the GeneralSubtree from which to obtain the name */ private GeneralNameInterface getGeneralNameInterface(int ndx) { return getGeneralNameInterface(get(ndx)); } private static GeneralNameInterface getGeneralNameInterface(GeneralSubtree gs) { GeneralName gn = gs.getName(); return gn.getName(); } /** * minimize this GeneralSubtrees by removing all redundant entries. * Internal method used by intersect and reduce. */ private void minimize() { // Algorithm: compare each entry n to all subsequent entries in // the list: if any subsequent entry matches or widens entry n, // remove entry n. If any subsequent entries narrow entry n, remove // the subsequent entries. for (int i = 0; i < (size() - 1); i++) { GeneralNameInterface current = getGeneralNameInterface(i); boolean remove1 = false; /* compare current to subsequent elements */ for (int j = i + 1; j < size(); j++) { GeneralNameInterface subsequent = getGeneralNameInterface(j); switch (current.constrains(subsequent)) { case GeneralNameInterface.NAME_DIFF_TYPE: /* not comparable; different name types; keep checking */ continue; case GeneralNameInterface.NAME_MATCH: /* delete one of the duplicates */ remove1 = true; break; case GeneralNameInterface.NAME_NARROWS: /* subsequent narrows current */ /* remove narrower name (subsequent) */ remove(j); j--; /* continue check with new subsequent */ continue; case GeneralNameInterface.NAME_WIDENS: /* subsequent widens current */ /* remove narrower name current */ remove1 = true; break; case GeneralNameInterface.NAME_SAME_TYPE: /* keep both for now; keep checking */ continue; } break; } /* end of this pass of subsequent elements */ if (remove1) { remove(i); i--; /* check the new i value */ } } } /** * create a subtree containing an instance of the input * name type that widens all other names of that type. * * @param name GeneralNameInterface name * @return GeneralSubtree containing widest name of that type * @throws RuntimeException on error (should not occur) */ private GeneralSubtree createWidestSubtree(GeneralNameInterface name) { try { GeneralName newName; switch (name.getType()) { case GeneralNameInterface.NAME_ANY: // Create new OtherName with same OID as baseName, but // empty value ObjectIdentifier otherOID = ((OtherName)name).getOID(); newName = new GeneralName(new OtherName(otherOID, null)); break; case GeneralNameInterface.NAME_RFC822: newName = new GeneralName(new RFC822Name("")); break; case GeneralNameInterface.NAME_DNS: newName = new GeneralName(new DNSName("")); break; case GeneralNameInterface.NAME_X400: newName = new GeneralName(new X400Address(null)); break; case GeneralNameInterface.NAME_DIRECTORY: newName = new GeneralName(new X500Name("")); break; case GeneralNameInterface.NAME_EDI: newName = new GeneralName(new EDIPartyName("")); break; case GeneralNameInterface.NAME_URI: newName = new GeneralName(new URIName("")); break; case GeneralNameInterface.NAME_IP: newName = new GeneralName(new IPAddressName((byte[])null)); break; case GeneralNameInterface.NAME_OID: newName = new GeneralName(new OIDName("")); break; default: throw new IOException ("Unsupported GeneralNameInterface type: " + name.getType()); } return new GeneralSubtree(newName, 0, -1); } catch (IOException e) { throw new RuntimeException("Unexpected error: " + e, e); } } /** * intersect this GeneralSubtrees with other. This function * is used in merging permitted NameConstraints. The operation * is performed as follows: *
    *
  • If a name in other narrows all names of the same type in this, * the result will contain the narrower name and none of the * names it narrows. *
  • If a name in other widens all names of the same type in this, * the result will not contain the wider name. *
  • If a name in other does not share the same subtree with any name * of the same type in this, then the name is added to the list * of GeneralSubtrees returned. These names should be added to * the list of names that are specifically excluded. The reason * is that, if the intersection is empty, then no names of that * type are permitted, and the only way to express this in * NameConstraints is to include the name in excludedNames. *
  • If a name in this has no name of the same type in other, then * the result contains the name in this. No name of a given type * means the name type is completely permitted. *
  • If a name in other has no name of the same type in this, then * the result contains the name in other. This means that * the name is now constrained in some way, whereas before it was * completely permitted. *
* * @param other GeneralSubtrees to be intersected with this * @return GeneralSubtrees to be merged with excluded; these are * empty-valued name types corresponding to entries that were * of the same type but did not share the same subtree between * this and other. Returns null if no such. */ public GeneralSubtrees intersect(GeneralSubtrees other) { if (other == null) { throw new NullPointerException("other GeneralSubtrees must not be null"); } GeneralSubtrees newThis = new GeneralSubtrees(); GeneralSubtrees newExcluded = null; // Step 1: If this is empty, just add everything in other to this and // return no new excluded entries if (size() == 0) { union(other); return null; } // Step 2: For ease of checking the subtrees, minimize them by // constructing versions that contain only the widest instance of // each type this.minimize(); other.minimize(); // Step 3: Check each entry in this to see whether we keep it or // remove it, and whether we add anything to newExcluded or newThis. // We keep an entry in this unless it is narrowed by all entries in // other. We add an entry to newExcluded if there is at least one // entry of the same nameType in other, but this entry does // not share the same subtree with any of the entries in other. // We add an entry from other to newThis if there is no name of the // same type in this. for (int i = 0; i < size(); i++) { GeneralNameInterface thisEntry = getGeneralNameInterface(i); // Step 3a: If the widest name of this type in other narrows // thisEntry, remove thisEntry and add widest other to newThis. // Simultaneously, check for situation where there is a name of // this type in other, but no name in other matches, narrows, // or widens thisEntry. boolean sameType = false; for (int j = 0; j < other.size(); j++) { GeneralSubtree otherEntryGS = other.get(j); GeneralNameInterface otherEntry = getGeneralNameInterface(otherEntryGS); switch (thisEntry.constrains(otherEntry)) { case NAME_NARROWS: remove(i); i--; newThis.add(otherEntryGS); sameType = false; break; case NAME_SAME_TYPE: sameType = true; continue; case NAME_MATCH: case NAME_WIDENS: sameType = false; break; case NAME_DIFF_TYPE: default: continue; } break; } // Step 3b: If sameType is still true, we have the situation // where there was a name of the same type as thisEntry in // other, but no name in other widened, matched, or narrowed // thisEntry. if (sameType) { // Step 3b.1: See if there are any entries in this and other // with this type that match, widen, or narrow each other. // If not, then we need to add a "widest subtree" of this // type to excluded. boolean intersection = false; for (int j = 0; j < size(); j++) { GeneralNameInterface thisAltEntry = getGeneralNameInterface(j); if (thisAltEntry.getType() == thisEntry.getType()) { for (int k = 0; k < other.size(); k++) { GeneralNameInterface othAltEntry = other.getGeneralNameInterface(k); int constraintType = thisAltEntry.constrains(othAltEntry); if (constraintType == NAME_MATCH || constraintType == NAME_WIDENS || constraintType == NAME_NARROWS) { intersection = true; break; } } } } if (!intersection) { if (newExcluded == null) { newExcluded = new GeneralSubtrees(); } GeneralSubtree widestSubtree = createWidestSubtree(thisEntry); if (!newExcluded.contains(widestSubtree)) { newExcluded.add(widestSubtree); } } // Step 3b.2: Remove thisEntry from this remove(i); i--; } } // Step 4: Add all entries in newThis to this if (newThis.size() > 0) { union(newThis); } // Step 5: Add all entries in other that do not have any entry of the // same type in this to this for (int i = 0; i < other.size(); i++) { GeneralSubtree otherEntryGS = other.get(i); GeneralNameInterface otherEntry = getGeneralNameInterface(otherEntryGS); boolean diffType = false; for (int j = 0; j < size(); j++) { GeneralNameInterface thisEntry = getGeneralNameInterface(j); switch (thisEntry.constrains(otherEntry)) { case NAME_DIFF_TYPE: diffType = true; // continue to see if we find something later of the // same type continue; case NAME_NARROWS: case NAME_SAME_TYPE: case NAME_MATCH: case NAME_WIDENS: diffType = false; // we found an entry of the same type // break because we know we won't be adding it to // this now break; default: continue; } break; } if (diffType) { add(otherEntryGS); } } // Step 6: Return the newExcluded GeneralSubtrees return newExcluded; } /** * construct union of this GeneralSubtrees with other. * * @param other GeneralSubtrees to be united with this */ public void union(GeneralSubtrees other) { if (other != null) { for (int i = 0, n = other.size(); i < n; i++) { add(other.get(i)); } // Minimize this minimize(); } } /** * reduce this GeneralSubtrees by contents of another. This function * is used in merging excluded NameConstraints with permitted NameConstraints * to obtain a minimal form of permitted NameConstraints. It is an * optimization, and does not affect correctness of the results. * * @param excluded GeneralSubtrees */ public void reduce(GeneralSubtrees excluded) { if (excluded == null) { return; } for (int i = 0, n = excluded.size(); i < n; i++) { GeneralNameInterface excludedName = excluded.getGeneralNameInterface(i); for (int j = 0; j < size(); j++) { GeneralNameInterface permitted = getGeneralNameInterface(j); switch (excludedName.constrains(permitted)) { case GeneralNameInterface.NAME_DIFF_TYPE: break; case GeneralNameInterface.NAME_MATCH: remove(j); j--; break; case GeneralNameInterface.NAME_NARROWS: /* permitted narrows excluded */ remove(j); j--; break; case GeneralNameInterface.NAME_WIDENS: /* permitted widens excluded */ break; case GeneralNameInterface.NAME_SAME_TYPE: break; } } /* end of this pass of permitted */ } /* end of pass of excluded */ } }




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