Exemplo n.º 1
0
        public static List <QualifiedSubset> ExpandPersonPaths(QualifiedSubset qualifiedPersons, List <Trustee> allpersons)
        {
            //TODO: do not expand more than longest subset in the access structure
            if (qualifiedPersons == null)
            {
                qualifiedPersons = new QualifiedSubset();
            }
            List <QualifiedSubset> result = new List <QualifiedSubset>();

            foreach (Trustee item in allpersons)
            {
                //don't add same party twice
                if (qualifiedPersons.Parties.Contains(item))
                {
                    continue;
                }
                QualifiedSubset qs = new QualifiedSubset();
                //List<Trustee> ls = new List<Trustee>();
                qs.Parties.AddRange(qualifiedPersons.Parties);
                qs.Parties.Add(item);
                result.Add(qs);
                //expand the list except current item
                var nextExpansion = allpersons.Where(po => po.partyId != item.partyId).ToList();
                //if(!result.Contains(qs))
                result.AddRange(ExpandPersonPaths(qs, nextExpansion));
            }
            return(result);
        }
        public static bool IsQualifiedSubset(QualifiedSubset subsetToTest, AccessStructure miniamlAccess)
        {
            foreach (var qualifiedSet in miniamlAccess.Accesses)
               {
               if (!(qualifiedSet is QualifiedSubset)) continue;
               HashSet<int> a = new HashSet<int>(subsetToTest.Parties.Select(x => x.GetPartyId()));
               var qs = (QualifiedSubset)qualifiedSet;
               HashSet<int> b = new HashSet<int>(qs.Parties.Select(x => x.GetPartyId()));

               if (b.IsProperSubsetOf(a) || b.IsSubsetOf(a)) return true;
               }
               return false;
        }
Exemplo n.º 3
0
        public static List <ThresholdSubset> findFixedConcatThreshold(IEnumerable <QualifiedSubset> candidateSets, int k, int allparties, int NRSFT)
        {
            int allsentences = candidateSets.Count();

            if (allsentences < 2)
            {
                return(null);
            }

            //fixed element normal case : just a fixed element in front of threshold candidates
            var fixedIntersection = candidateSets.Select(po => po.Parties).Aggregate((first, second) => first.Intersect(second).ToList());

            //add trace
            fixedAttemptTrace.Add(string.Format("Set:{0}, Attempted fixed item:{1} + threshold:({2},{3})", QualifiedSubset.DumpElementsIntoSingleString(candidateSets)
                                                , new QualifiedSubset(fixedIntersection).ToString(), k, allparties));



            if (fixedIntersection.Count > 0)
            {
                var smallerQS = new List <QualifiedSubset>();
                //remove fixed part from parties and try to find normal threshold
                foreach (var qs in candidateSets)
                {
                    var withoutFixedParties = qs.Parties.Except(fixedIntersection);
                    if (withoutFixedParties.Count() > 0)
                    {
                        var tempqs = new QualifiedSubset(withoutFixedParties);
                        smallerQS.Add(tempqs);
                    }
                }
                var smallerQSinvolvedParties = QualifiedSubset.GetAllInvolvedParties(smallerQS).Parties.Count;
                var smallerK = k - fixedIntersection.Count;
                if (nCr(smallerQSinvolvedParties, smallerK) == allsentences)
                {
                    var threshold = findThreshold(smallerQS, smallerK, smallerQSinvolvedParties, NRSFT, false);
                    if (threshold != null)
                    //now add the fixed part to the threshold
                    {
                        foreach (var th in threshold)
                        {
                            th.fixedParties = fixedIntersection;
                        }

                        return(threshold);
                    }
                }
            }
            return(new List <ThresholdSubset>());
        }
Exemplo n.º 4
0
        public static IEnumerable <QualifiedSubset> ExploreAllSubsets(ThresholdSubset threshold)
        {
            var comb = threshold.thresholdParties.Combinations(threshold.K).Select(po => new QualifiedSubset(po));

            if (threshold.fixedParties != null && threshold.fixedParties.Count() > 0)
            {
                List <QualifiedSubset> largerQS = new List <QualifiedSubset>();
                foreach (var qs in comb)
                {
                    QualifiedSubset lqs = new QualifiedSubset(threshold.fixedParties.Union(qs.Parties));
                    largerQS.Add(lqs);
                }
                return(largerQS);
            }
            return(comb);
        }
        public static QualifiedSubset GetAllInvolvedParties(IEnumerable<QualifiedSubset> elements)
        {
            var sum = new QualifiedSubset();
            foreach (var qs in elements)
            {
                foreach (var party in qs.Parties)
                {
                    if (!sum.Parties.Contains(party))
                    {
                        sum.Parties.Add(party);
                    }
                }
            }

            return sum;
        }
 public AccessStructure(String minimalPath)
 {
     this.Accesses = new List<ISubset>();
     try
     {
         string[] qualifiedsubsets = minimalPath.Split(',');
         foreach (var qs in qualifiedsubsets)
         {
             QualifiedSubset qualifiedssObj = new QualifiedSubset(qs);
             this.Accesses.Add(qualifiedssObj);
         }
     }
     catch
     {
         throw new Exception("Invalid access structure example of valid access: 1^2,3^2,2^3^4,2^5^6");
     }
 }
Exemplo n.º 7
0
        public static QualifiedSubset GetAllInvolvedParties(IEnumerable <QualifiedSubset> elements)
        {
            var sum = new QualifiedSubset();

            foreach (var qs in elements)
            {
                foreach (var party in qs.Parties)
                {
                    if (!sum.Parties.Contains(party))
                    {
                        sum.Parties.Add(party);
                    }
                }
            }

            return(sum);
        }
        public override String ToString()
        {
            //todo: fix hack tostring from QS
            QualifiedSubset qs = new QualifiedSubset();
            qs.Parties.AddRange(this.thresholdParties);

            QualifiedSubset qss = new QualifiedSubset();
            qss.Parties.AddRange(this.fixedParties);
            if (!String.IsNullOrEmpty(qss.ToString()))
            {
                return String.Format("{0}  Threshold({1},{2})[{3}]", qss.ToString(), K, N, qs.ToString());
            }
            else
            {
                return String.Format("Threshold({0},{1})[{2}]", K, N, qs.ToString());
            }
        }
Exemplo n.º 9
0
 public AccessStructure(String minimalPath)
 {
     this.Accesses = new List <ISubset>();
     try
     {
         string[] qualifiedsubsets = minimalPath.Split(',');
         foreach (var qs in qualifiedsubsets)
         {
             QualifiedSubset qualifiedssObj = new QualifiedSubset(qs);
             this.Accesses.Add(qualifiedssObj);
         }
     }
     catch
     {
         throw new Exception("Invalid access structure example of valid access: 1^2,3^2,2^3^4,2^5^6");
     }
 }
Exemplo n.º 10
0
        public override String ToString()
        {
            //todo: fix hack tostring from QS
            QualifiedSubset qs = new QualifiedSubset();

            qs.Parties.AddRange(this.thresholdParties);

            QualifiedSubset qss = new QualifiedSubset();

            qss.Parties.AddRange(this.fixedParties);
            if (!String.IsNullOrEmpty(qss.ToString()))
            {
                return(String.Format("{0}  Threshold({1},{2})[{3}]", qss.ToString(), K, N, qs.ToString()));
            }
            else
            {
                return(String.Format("Threshold({0},{1})[{2}]", K, N, qs.ToString()));
            }
        }
Exemplo n.º 11
0
        public static bool IsQualifiedSubset(QualifiedSubset subsetToTest, AccessStructure miniamlAccess)
        {
            foreach (var qualifiedSet in miniamlAccess.Accesses)
            {
                if (!(qualifiedSet is QualifiedSubset))
                {
                    continue;
                }
                HashSet <int> a  = new HashSet <int>(subsetToTest.Parties.Select(x => x.GetPartyId()));
                var           qs = (QualifiedSubset)qualifiedSet;
                HashSet <int> b  = new HashSet <int>(qs.Parties.Select(x => x.GetPartyId()));

                if (b.IsProperSubsetOf(a) || b.IsSubsetOf(a))
                {
                    return(true);
                }
            }
            return(false);
        }
 public static List<QualifiedSubset> ExpandPersonPaths(QualifiedSubset qualifiedPersons, List<Trustee> allpersons)
 {
     //TODO: do not expand more than longest subset in the access structure
        if (qualifiedPersons == null) qualifiedPersons = new QualifiedSubset();
        List<QualifiedSubset> result = new List<QualifiedSubset>();
        foreach (Trustee item in allpersons)
        {
        //don't add same party twice
        if (qualifiedPersons.Parties.Contains(item)) continue;
        QualifiedSubset qs = new QualifiedSubset();
        //List<Trustee> ls = new List<Trustee>();
        qs.Parties.AddRange(qualifiedPersons.Parties);
        qs.Parties.Add(item);
        result.Add(qs);
        //expand the list except current item
        var nextExpansion = allpersons.Where(po => po.partyId != item.partyId).ToList();
        //if(!result.Contains(qs))
        result.AddRange(ExpandPersonPaths(qs, nextExpansion));
        }
        return result;
 }
Exemplo n.º 13
0
        public override bool Equals(Object obj)
        { // no "override" here
            if (obj == null || GetType() != obj.GetType())
            {
                return(false);
            }

            QualifiedSubset p = (QualifiedSubset)(obj);

            if (this.Parties.Count == p.Parties.Count)
            {
                foreach (Trustee var in p.Parties)
                {
                    if (!this.Parties.Contains(var))
                    {
                        return(false);
                    }
                }
                return(true);
            }
            return(false);
        }
Exemplo n.º 14
0
        public static List <ThresholdSubset> findThreshold(IEnumerable <QualifiedSubset> candidateSets, int k, int allparties, int NRSFT, bool findIntersection = true)
        {
            int allsentences = candidateSets.Count();

            //add trace
            attemptTrace.Add(string.Format("Set:{0}, Attempted threshold:({1},{2})", QualifiedSubset.DumpElementsIntoSingleString(candidateSets), k, allparties));

            // normal case
            List <ThresholdSubset> thresholds = new List <ThresholdSubset>();
            var ncr = nCr(allparties, k);

            if (ncr == allsentences)
            {
                ThresholdSubset th = new ThresholdSubset(allparties, k, new List <Trustee>(), QualifiedSubset.GetAllInvolvedParties(candidateSets).Parties);
                thresholds.Add(th);
            }
            /// if the candidate set is larger than nCr then probably some sets don't belong to the threshold
            /// Here we recusrively rotate parties and select all possible combinations to see which ones are
            /// building threshold for e.g. p1p2p3 p2p3p4 p1p3p4 p1p2p4 p2p4p5
            else if (allsentences < ncr)
            {
                if (NRSFT > allsentences)
                {
                    NRSFT = GetNumberOfRequiredSetsForThreshold(allparties, k, allsentences);
                }
                if (NRSFT == 1)
                {
                    return(thresholds);
                }

                //all possible candidate sets must be generated and recursively called
                var smallersetcombinations      = candidateSets.Combinations(NRSFT);
                var subsetsAlreadyHaveThreshold = new List <QualifiedSubset>();
                foreach (var smallerset in smallersetcombinations)
                {
                    var newallparties = QualifiedSubset.GetAllInvolvedParties(smallerset).Parties.Count;
                    List <ThresholdSubset> foundthresholds = new List <ThresholdSubset>();
                    //add trace
                    attemptTrace.Add(string.Format("Set:{0}, Attempted threshold:({1},{2})",
                                                   QualifiedSubset.DumpElementsIntoSingleString(smallerset), k, newallparties));

                    if (nCr(newallparties, k) == smallerset.Count() && k < newallparties)//not interested in k=n thresholds
                    {
                        foundthresholds = findThreshold(smallerset, k, newallparties, NRSFT, findIntersection);
                        if (foundthresholds.Count > 0)
                        {
                            subsetsAlreadyHaveThreshold.AddRange(smallerset);
                        }
                    }
                    ///try filtering the fixed sets maybe find a threshold
                    if (foundthresholds.Count == 0 && findIntersection)
                    {
                        foundthresholds = findFixedConcatThreshold(smallerset, k, newallparties, NRSFT);
                    }
                    if (foundthresholds != null)
                    {
                        thresholds.AddRange(foundthresholds);
                    }
                }
                if (--NRSFT > 1)
                {
#if filterThresholds
                    var minusAlreadyFoundSets = candidateSets.Except(subsetsAlreadyHaveThreshold);
                    var minusSentences        = minusAlreadyFoundSets.Count();
                    if (minusSentences < allsentences)
                    {
                        var minusInvolvedParties = QualifiedSubset.GetAllInvolvedParties(minusAlreadyFoundSets).Parties.Count;
                        //calculate new NRSFT
                        //NRSFT = GetNumberOfRequiredSetsForThreshold(minusInvolvedParties, k, minusAlreadyFoundSets.Count());
                        //if (NRSFT == 1) return thresholds;
                    }
                    thresholds.AddRange(findThreshold(minusAlreadyFoundSets, k, allparties, NRSFT, findIntersection));
#else
                    thresholds.AddRange(findThreshold(candidateSets, k, allparties, NRSFT, findIntersection));
#endif
                }
            }

            return(thresholds);
        }
 public static IEnumerable<QualifiedSubset> ExploreAllSubsets(ThresholdSubset threshold)
 {
     var comb = threshold.thresholdParties.Combinations(threshold.K).Select(po => new QualifiedSubset(po));
     if (threshold.fixedParties != null && threshold.fixedParties.Count() > 0)
     {
         List<QualifiedSubset> largerQS = new List<QualifiedSubset>();
         foreach (var qs in comb)
         {
             QualifiedSubset lqs = new QualifiedSubset(threshold.fixedParties.Union(qs.Parties));
             largerQS.Add(lqs);
         }
         return largerQS;
     }
     return comb;
 }
        public static List<ThresholdSubset> findFixedConcatThreshold(IEnumerable<QualifiedSubset> candidateSets, int k, int allparties,int NRSFT)
        {
            int allsentences = candidateSets.Count();

            if (allsentences < 2) return null;

            //fixed element normal case : just a fixed element in front of threshold candidates
            var fixedIntersection = candidateSets.Select(po => po.Parties).Aggregate((first, second) => first.Intersect(second).ToList());

               //add trace 
            fixedAttemptTrace.Add(string.Format("Set:{0}, Attempted fixed item:{1} + threshold:({2},{3})", QualifiedSubset. DumpElementsIntoSingleString(candidateSets)
             , new QualifiedSubset(fixedIntersection).ToString(), k, allparties));
           
               

            if (fixedIntersection.Count > 0)
            {
                var smallerQS = new List<QualifiedSubset>();
                //remove fixed part from parties and try to find normal threshold
                foreach (var qs in candidateSets)
                {
                    var withoutFixedParties = qs.Parties.Except(fixedIntersection);
                    if (withoutFixedParties.Count() > 0)
                    {
                        var tempqs = new QualifiedSubset(withoutFixedParties);
                        smallerQS.Add(tempqs);
                    }
                }
                var smallerQSinvolvedParties = QualifiedSubset.GetAllInvolvedParties(smallerQS).Parties.Count;
                var smallerK = k - fixedIntersection.Count;
                if (nCr(smallerQSinvolvedParties, smallerK) == allsentences)
                {
                    var threshold = findThreshold(smallerQS, smallerK,smallerQSinvolvedParties, NRSFT, false);
                    if (threshold != null)
                    //now add the fixed part to the threshold
                    {
                        foreach (var th in threshold)
                        {
                            th.fixedParties = fixedIntersection;
                        }

                        return threshold;
                    }
                }
            }
            return new List<ThresholdSubset>();
        }