source: fedd/abac-src/rbtm/engine/IntersectionProofNode.java @ fd556d1

axis_examplecompt_changesinfo-opsversion-2.00version-3.01version-3.02
Last change on this file since fd556d1 was 8780cbec, checked in by Jay Jacobs <Jay.Jacobs@…>, 15 years ago

ABAC sources from Cobham

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1package edu.stanford.peer.rbtm.engine;
2
3import java.util.*;
4
5import edu.stanford.peer.rbtm.credential.*;
6import edu.stanford.peer.rbtm.util.*;
7
8/**
9 * A credential graph node to represent an intersection.
10 */
11public class IntersectionProofNode extends AbstractProofNode
12{
13    /** Initial capacity for a new intersection proof node */
14    private int CAPACITY = 10;
15
16    /**
17     * Backward solution monitor for this node.
18     * @see IntersectionMonitor
19     */
20    private IntersectionMonitor iMonitor;
21
22    /** The number sub-part expressions which belong to this intersection */
23    private int k = 0;
24
25    /**
26     * Generic constructor for creating a new intersection proof node in a
27     * credential graph.
28     * @param g The credential graph to which the node should belong
29     * @param i The intersection role expression the node represents
30     * @param type The track type used for result evidence maps
31     */
32    protected IntersectionProofNode(ProofGraph g, Intersection i, int type) {
33                  super(g, i, type);
34    }
35
36
37    public HashSet getChain(int size, EntityExpression target) {
38        Iterator parts = ((Intersection)getRoleExp()).getParts();
39        ProofGraph graph = getGraph();
40        HashSet results = new HashSet();
41
42        if(getRoleExp().equals(target)) {
43            return(new HashSet(size++));
44        }
45        while(parts.hasNext()) {
46            EntityExpression part = (EntityExpression)parts.next();
47            //System.out.println("&&&&& Getting chain from " +
48            //part + " to " + target);
49            results.addAll(graph.getChain(part, target));
50        }
51        return results;
52    }
53
54    public void additionalBackwardProcess() {
55                  if (iMonitor != null)return;
56                  Intersection i = (Intersection)getRoleExp();
57        iMonitor = new IntersectionMonitor();
58                  Iterator parts = i.getParts();
59                  k = i.getPartsCount();
60                  while(parts.hasNext()) {
61                                EntityExpression expr = (EntityExpression)parts.next();
62                                ProofNode node = getGraph().addBackwardNode(expr);
63                                node.addBackwardListener(iMonitor);
64                                Debug.debugInfo(iMonitor.toString() + ": adding expr = " + expr );
65                  }
66    }
67
68    /**
69     * This method derives from RoleProofNode.
70     */ 
71    public void additionalForwardProcess() {
72
73    }
74
75    /**
76     * A listener for monitoring possible backward solutions.
77     */
78    class IntersectionMonitor implements BackwardSolutionListener {
79        /**
80         * a partial solutions map
81         */
82        HashMap results = new HashMap(CAPACITY);
83
84        /**
85         * Solutions are stored internally until all child nodes return a
86         * specific solution at which time the solution is propagted to the
87         * parent.
88         * @param source child node which propagates the answer to its parent
89         * @param soln an entity expression instance which is a partial sol'n
90         */
91        public void backwardSolutionAdded(ProofNode source, BackwardSolution soln) {
92            // list of sources for this soln
93            SolutionCounter counter = (SolutionCounter)results.get(soln);
94            // if this is a new solution then create a new list
95            if(counter == null) {
96                counter = new SolutionCounter(); // use k even if k grows
97                results.put(soln, counter);      // add  new counter to table
98            }
99            counter.increment();
100            if(counter.isDone()) {
101                // AbstractProofNode
102                IntersectionProofNode.super.backwardSolutionAdded(source,soln);
103            }
104            else
105                Debug.debugInfo(toString() + ": part soln " + soln + " = " + 
106                                counter);
107        }
108
109        /**
110         * Creates a human readable version of ther current intersection
111         * instance. Expression parts are separated with the '^' operator.
112         */
113        public String toString() {
114            return "Monitor for (" + getRoleExp() + " w/k = " + k + ")";
115        }
116
117        /**
118         * A class to monitor the number of solution matches received
119         * by an intersection's proof node.
120         */
121        class SolutionCounter { 
122            /**
123             * The counter integer
124             */
125            private int count = 0;
126           
127            /**
128             * Increment the counter by one.
129             */
130            public void increment() { count += 1; }
131
132            /**
133             * A test method to see if the counter has max'ed out.
134             *
135             * @return true if count reaches k otherwise false.
136             */
137            public boolean isDone() { return (count >= k && k != 0); }
138           
139            /**
140             * To see what value the counter has set.
141             */
142            public String toString() { return Integer.toString(count); }
143
144        }
145
146    }
147
148   
149}
150
151
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