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/*
 * Copyright (c) 1997, 2018 Oracle and/or its affiliates. All rights reserved.
 *
 * This program and the accompanying materials are made available under the
 * terms of the Eclipse Distribution License v. 1.0, which is available at
 * http://www.eclipse.org/org/documents/edl-v10.php.
 *
 * SPDX-License-Identifier: BSD-3-Clause
 */

package com.sun.xml.ws.policy;

import java.util.Collection;
import java.util.Collections;
import java.util.Comparator;
import java.util.Iterator;
import java.util.Set;
import java.util.TreeSet;

import javax.xml.namespace.QName;

import com.sun.xml.ws.policy.privateutil.LocalizationMessages;
import com.sun.xml.ws.policy.privateutil.PolicyUtils;
import java.util.LinkedList;
import java.util.List;

/**
 * The AssertionSet is a set of assertions. It represents a single policy alternative.
 *
 * @author Fabian Ritzmann, Marek Potociar
 */
public final class AssertionSet implements Iterable, Comparable {
    private static final AssertionSet EMPTY_ASSERTION_SET = new AssertionSet(Collections.unmodifiableList(new LinkedList()));
    /**
     * The comparator comapres policy assertions according to their publicly accessible attributes, in the following
     * order of attributes:
     *
     * 1. namespace (not null String)
     * 2. local name (not null String)
     * 3. value (String): null < "" < "not empty"
     * 4. has nested assertions (boolean): false < true
     * 5. has nested policy (boolean): false < true
     * 6. hashCode comparison
     */
    private static final Comparator ASSERTION_COMPARATOR = new Comparator() {
        public int compare(final PolicyAssertion pa1, final PolicyAssertion pa2) {
            if (pa1.equals(pa2)) {
                return 0;
            }
            
            int result;
            
            result = PolicyUtils.Comparison.QNAME_COMPARATOR.compare(pa1.getName(), pa2.getName());
            if (result != 0) {
                return result;
            }
            
            result = PolicyUtils.Comparison.compareNullableStrings(pa1.getValue(), pa2.getValue());
            if (result != 0) {
                return result;
            }
            
            result = PolicyUtils.Comparison.compareBoolean(pa1.hasNestedAssertions(), pa2.hasNestedAssertions());
            if (result != 0) {
                return result;
            }
            
            result = PolicyUtils.Comparison.compareBoolean(pa1.hasNestedPolicy(), pa2.hasNestedPolicy());
            if (result != 0) {
                return result;
            }
            
            return Math.round(Math.signum(pa1.hashCode() - pa2.hashCode()));
        }
    };
    
    private final List assertions;
    private final Set vocabulary = new TreeSet(PolicyUtils.Comparison.QNAME_COMPARATOR);
    private final Collection immutableVocabulary = Collections.unmodifiableCollection(vocabulary);
    
    private AssertionSet(List list) {
        assert (list != null) : LocalizationMessages.WSP_0037_PRIVATE_CONSTRUCTOR_DOES_NOT_TAKE_NULL();
        this.assertions = list;
    }
    
    private AssertionSet(final Collection alternatives) {
        this.assertions = new LinkedList();
        for (AssertionSet alternative : alternatives) {
            addAll(alternative.assertions);
        }
    }
    
    private boolean add(final PolicyAssertion assertion) {
        if (assertion == null) {
            return false;
        }
        
        if (this.assertions.contains(assertion)) {
            return false;
        } else {
            this.assertions.add(assertion);
            this.vocabulary.add(assertion.getName());
            return true;
        }
    }
    
    private boolean addAll(final Collection assertions) {
        boolean result = true;
        
        if (assertions != null) {
            for (PolicyAssertion assertion : assertions) {
                result &= add(assertion); // this is here to ensure that vocabulary is built correctly as well
            }
        }
        
        return result;
    }
    
    /**
     * Return all assertions contained in this assertion set.
     *
     * @return All assertions contained in this assertion set
     */
    Collection getAssertions() {
        return assertions;
    }
    
    /**
     * Retrieves the vocabulary of this policy expression. The vocabulary is represented by an immutable collection of
     * unique QName objects. Each of those objects represents single assertion type contained in the assertion set.
     *
     * @return immutable collection of assertion types contained in the assertion set (a policy vocabulary).
     */
    Collection getVocabulary() {
        return immutableVocabulary;
    }
    
    /**
     * Checks whether this policy alternative is compatible with the provided policy alternative.
     *
     * @param alternative policy alternative used for compatibility test
     * @param mode compatibility mode to be used
     * @return {@code true} if the two policy alternatives are compatible, {@code false} otherwise
     */
    boolean isCompatibleWith(final AssertionSet alternative, PolicyIntersector.CompatibilityMode mode) {        
        boolean result = (mode == PolicyIntersector.CompatibilityMode.LAX) || this.vocabulary.equals(alternative.vocabulary);
      
        result = result && this.areAssertionsCompatible(alternative, mode);
        result = result && alternative.areAssertionsCompatible(this, mode);
                
        return result;
    }
    
    private boolean areAssertionsCompatible(final AssertionSet alternative, PolicyIntersector.CompatibilityMode mode) {
        nextAssertion: for (PolicyAssertion thisAssertion : this.assertions) {
            if ((mode == PolicyIntersector.CompatibilityMode.STRICT) || !thisAssertion.isIgnorable()) {
                for (PolicyAssertion thatAssertion : alternative.assertions) {
                    if (thisAssertion.isCompatibleWith(thatAssertion, mode)) {
                        continue nextAssertion;
                    }
                }
                return false;
            }
        }
        return true;
    }
    
    /**
     * Creates and returns new assertion set holding content of all provided policy assertion sets.
     * 

* This method should not be used to perform a merge of general Policy instances. A client should be aware of the * method's result meaning and the difference between merge of Policy instances and merge of AssertionSet instances. * * * @param alternatives collection of provided policy assertion sets which content is to be stored in the assertion set. * May be {@code null} - empty assertion set is returned in such case. * @return new instance of assertion set holding the content of all provided policy assertion sets. */ public static AssertionSet createMergedAssertionSet(final Collection alternatives) { if (alternatives == null || alternatives.isEmpty()) { return EMPTY_ASSERTION_SET; } final AssertionSet result = new AssertionSet(alternatives); Collections.sort(result.assertions, ASSERTION_COMPARATOR); return result; } /** * Creates and returns new assertion set holding a set of provided policy assertions. * * @param assertions collection of provided policy assertions to be stored in the assertion set. May be {@code null}. * @return new instance of assertion set holding the provided policy assertions */ public static AssertionSet createAssertionSet(final Collection assertions) { if (assertions == null || assertions.isEmpty()) { return EMPTY_ASSERTION_SET; } final AssertionSet result = new AssertionSet(new LinkedList()); result.addAll(assertions); Collections.sort(result.assertions, ASSERTION_COMPARATOR); return result; } public static AssertionSet emptyAssertionSet() { return EMPTY_ASSERTION_SET; } /** * Returns an iterator over a set of child policy assertion objects. * * @return policy assertion Iterator. */ public Iterator iterator() { return this.assertions.iterator(); } /** * Searches for assertions with given name. Only assertions that are contained as immediate children of the assertion set are * searched, i.e. nested policies are not searched. * * @param name The fully qualified name of searched assertion * @return List of all assertions matching the requested name. If no assertions are found, the returned list is empty * (i.e. {@code null} value is never returned). */ public Collection get(final QName name) { final List matched = new LinkedList(); if (vocabulary.contains(name)) { // we iterate the assertion set only if we are sure we contain such assertion name in our vocabulary for (PolicyAssertion assertion : assertions) { if (assertion.getName().equals(name)) { matched.add(assertion); } } } return matched; } /** * Returns {@code true} if this assertion set contains no assertions. * * @return {@code true} if this assertion set contains no assertions. */ public boolean isEmpty() { return assertions.isEmpty(); } /** * Returns true if the assertion set contains the assertion name specified in its vocabulary * * @param assertionName the fully qualified name of the assertion * @return {@code true}, if an assertion with the given name could be found in the assertion set vocabulary {@code false} otherwise. */ public boolean contains(final QName assertionName) { return vocabulary.contains(assertionName); } /** * An {@code Comparable.compareTo(T o)} interface method implementation. * @param that other alternative to compare with */ public int compareTo(final AssertionSet that) { if (this.equals(that)) { return 0; } // comparing vocabularies final Iterator vIterator1 = this.getVocabulary().iterator(); final Iterator vIterator2 = that.getVocabulary().iterator(); while (vIterator1.hasNext()) { final QName entry1 = vIterator1.next(); if (vIterator2.hasNext()) { final QName entry2 = vIterator2.next(); final int result = PolicyUtils.Comparison.QNAME_COMPARATOR.compare(entry1, entry2); if (result != 0) { return result; } } else { return 1; // we have more entries in this vocabulary } } if (vIterator2.hasNext()) { return -1; // we have more entries in that vocabulary } // vocabularies are equal => comparing assertions final Iterator pIterator1 = this.getAssertions().iterator(); final Iterator pIterator2 = that.getAssertions().iterator(); while (pIterator1.hasNext()) { final PolicyAssertion pa1 = pIterator1.next(); if (pIterator2.hasNext()) { final PolicyAssertion pa2 = pIterator2.next(); final int result = ASSERTION_COMPARATOR.compare(pa1, pa2); if (result != 0) { return result; } } else { return 1; // we have more entries in this assertion set } } if (pIterator2.hasNext()) { return -1; // we have more entries in that assertion set } // seems like objects are very simmilar although not equal => we must not return 0 otherwise the TreeSet // holding this element would discard the newly added element. Thus we return that the first argument is // greater than second (just because it is first...) return 1; } /** * An {@code Object.equals(Object obj)} method override. */ public boolean equals(final Object obj) { if (this == obj) { return true; } if (!(obj instanceof AssertionSet)) { return false; } final AssertionSet that = (AssertionSet) obj; boolean result = true; result = result && this.vocabulary.equals(that.vocabulary); result = result && this.assertions.size() == that.assertions.size() && this.assertions.containsAll(that.assertions); return result; } /** * An {@code Object.hashCode()} method override. */ public int hashCode() { int result = 17; result = 37 * result + vocabulary.hashCode(); result = 37 * result + assertions.hashCode(); return result; } /** * An {@code Object.toString()} method override. */ public String toString() { return toString(0, new StringBuffer()).toString(); } /** * A helper method that appends indented string representation of this instance to the input string buffer. * * @param indentLevel indentation level to be used. * @param buffer buffer to be used for appending string representation of this instance * @return modified buffer containing new string representation of the instance */ StringBuffer toString(final int indentLevel, final StringBuffer buffer) { final String indent = PolicyUtils.Text.createIndent(indentLevel); final String innerIndent = PolicyUtils.Text.createIndent(indentLevel + 1); buffer.append(indent).append("assertion set {").append(PolicyUtils.Text.NEW_LINE); if (assertions.isEmpty()) { buffer.append(innerIndent).append("no assertions").append(PolicyUtils.Text.NEW_LINE); } else { for (PolicyAssertion assertion : assertions) { assertion.toString(indentLevel + 1, buffer).append(PolicyUtils.Text.NEW_LINE); } } buffer.append(indent).append('}'); return buffer; } }





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