public static void SetupBitwiseAndProtocol(Quorum quorum) { int n = quorum.Size; var polyDeg = (int)Math.Ceiling(n / 3.0) - 1; var sharesA = BigShamirSharing.Share(new BigZp(prime, 0), n, polyDeg); var sharesB = BigShamirSharing.Share(new BigZp(prime, 1), n, polyDeg); var sharesC = BigShamirSharing.Share(new BigZp(prime, 0), n, polyDeg); var sharesD = BigShamirSharing.Share(new BigZp(prime, 0), n, polyDeg); var sharesE = BigShamirSharing.Share(new BigZp(prime, 1), n, polyDeg); var sharesF = BigShamirSharing.Share(new BigZp(prime, 1), n, polyDeg); for (int i = 0; i < n; i++) { Quorum q = quorum.Clone() as Quorum; TestParty <List <Share <BigZp> > > party = new TestParty <List <Share <BigZp> > >(); party.UnderTest = new BitwiseOperationProtocol(party, q, MakeList(sharesA[i], sharesB[i], sharesC[i]), MakeList(sharesD[i], sharesE[i], sharesF[i]), new SharedBitAnd.ProtocolFactory(party, q)); NetSimulator.RegisterParty(party); } }
/* * public static void SetupSimpleCircuitEvaluation(Quorum quorum) * { * int n = quorum.Size; * var polyDeg = (int)Math.Ceiling(n / 3.0) - 1; * * Debug.Assert((n & (n - 1)) == 0); // is power of 2 * * network = new LPSortingNetwork(n); * * IList<BigZp>[] shares = new IList<BigZp>[n]; * * for (int i = 0; i < n; i++) * shares[i] = BigShamirSharing.Share(new BigZp(prime, 500 - 2*i), n, polyDeg); * * foreach (var id in quorum.Members) * { * Dictionary<InputGateAddress, Share<BigZp>> inShares = new Dictionary<InputGateAddress, Share<BigZp>>(); * * int i = 0; * foreach (var inAddr in network.Circuit.InputAddrs) * { * inShares[inAddr] = new Share<BigZp>(shares[i][id]); * i++; * } * * TestParty<IDictionary<OutputGateAddress, Share<BigZp>>> party = new TestParty<IDictionary<OutputGateAddress, Share<BigZp>>>(); * party.UnderTest = new SecureGroupCircuitEvaluation(party, quorum.Clone() as Quorum, network.Circuit, inShares); * NetSimulator.RegisterParty(party); * } * } */ public static void SetupMultiQuorumCircuitEvaluation(Quorum bigQuorum) { int n = bigQuorum.Size; int qSize = n / 2; var polyDeg = (int)Math.Ceiling(qSize / 3.0) - 1; var quorums = new List <Quorum>(); quorums.Add(new Quorum(0, 0, qSize)); quorums.Add(new Quorum(1, qSize, 2 * qSize)); Debug.Assert((n & (n - 1)) == 0); // is power of 2 network = new LPSortingNetwork(n); //network = SortingNetworkFactory.CreateButterflyTournamentRound(n); network.CollapsePermutationGates(); IList <BigZp>[] shares = new IList <BigZp> [n]; for (int i = 0; i < n; i++) { shares[i] = BigShamirSharing.Share(new BigZp(prime, 500 - 2 * i), qSize, polyDeg); } Dictionary <Gate, Quorum> gqmapping = new Dictionary <Gate, Quorum>(); for (int i = 0; i < network.Circuit.TopologicalOrder.Count; i++) { gqmapping[network.Circuit.TopologicalOrder[i]] = quorums[i]; } foreach (var id in bigQuorum.Members) { Dictionary <InputGateAddress, Share <BigZp> > inShares = new Dictionary <InputGateAddress, Share <BigZp> >(); int i = 0; foreach (var inAddr in network.Circuit.InputAddrs) { inShares[inAddr] = new Share <BigZp>(shares[i][id % 4]); i++; } TestParty <IDictionary <OutputGateAddress, Share <BigZp> > > party = new TestParty <IDictionary <OutputGateAddress, Share <BigZp> > >(); Quorum[] quorumsClone = quorums.Select(a => a.Clone() as Quorum).ToArray(); party.UnderTest = new SecureMultiQuorumCircuitEvaluation <Share <BigZp> >(party, quorumsClone[id / qSize], quorumsClone, ProtocolIdGenerator.GenericIdentifier(0), network.Circuit, inShares, new BigZpShareGateEvaluationFactory(prime), gqmapping, prime); NetSimulator.RegisterParty(party); } }
public static void SetupBitwiseRandomGeneration(Quorum quorum) { int n = quorum.Size; for (int i = 0; i < n; i++) { TestParty <List <Share <BigZp> > > party = new TestParty <List <Share <BigZp> > >(); party.UnderTest = new RandomBitwiseGenProtocol(party, quorum, prime, 15); NetSimulator.RegisterParty(party); } }
public static void SetupRandomBitGenProtocol(Quorum quorum) { int n = quorum.Size; for (int i = 0; i < n; i++) { TestParty <Share <BigZp> > party = new TestParty <Share <BigZp> >(); party.UnderTest = new RandomBitGenProtocol(party, quorum.Clone() as Quorum, prime); NetSimulator.RegisterParty(party); } }
public static void SetupCompareAndSwap(Quorum quorum) { int n = quorum.Size; var polyDeg = (int)Math.Ceiling(n / 3.0) - 1; var sharesA = BigShamirSharing.Share(new BigZp(prime, 440), n, polyDeg); var sharesB = BigShamirSharing.Share(new BigZp(prime, 450), n, polyDeg); for (int i = 0; i < n; i++) { TestParty <Share <BigZp>[]> party = new TestParty <Share <BigZp>[]>(); party.UnderTest = new CompareAndSwapProtocol(party, quorum.Clone() as Quorum, new Share <BigZp>(sharesA[i]), new Share <BigZp>(sharesB[i])); NetSimulator.RegisterParty(party); } }
public static void SetupLessThan(Quorum quorum) { int n = quorum.Size; var polyDeg = (int)Math.Ceiling(n / 3.0) - 1; var sharesA = BigShamirSharing.Share(new BigZp(prime, 700), n, polyDeg); var sharesB = BigShamirSharing.Share(new BigZp(prime, 549), n, polyDeg); for (int i = 0; i < n; i++) { TestParty <Share <BigZp> > party = new TestParty <Share <BigZp> >(); party.UnderTest = new ShareLessThanProtocol(party, quorum, new Share <BigZp>(sharesA[i]), new Share <BigZp>(sharesB[i])); NetSimulator.RegisterParty(party); } }
public static void SetupLeastSignificantBit(Quorum quorum) { int n = quorum.Size; var input = new BigZp(prime, 2); var polyDeg = (int)Math.Ceiling(n / 3.0) - 1; var shares = BigShamirSharing.Share(input, n, polyDeg); for (int i = 0; i < n; i++) { TestParty <Share <BigZp> > party = new TestParty <Share <BigZp> >(); party.UnderTest = new LeastSignificantBitProtocol(party, quorum, new Share <BigZp>(shares[i])); NetSimulator.RegisterParty(party); } }
public static void SetupReconstructionProtocol(Quorum quorum) { int n = quorum.Size; var input = new BigZp(prime, 20); var polyDeg = (int)Math.Ceiling(n / 3.0) - 1; var shares = BigShamirSharing.Share(input, n, polyDeg); for (int i = 0; i < n; i++) { TestParty <BigZp> party = new TestParty <BigZp>(); ReconstructionProtocol rp = new ReconstructionProtocol(party, quorum, new Share <BigZp>(shares[i])); party.UnderTest = rp; NetSimulator.RegisterParty(party); } }
public static void SetupBitCompositionProtocol(Quorum quorum) { int n = quorum.Size; var polyDeg = (int)Math.Ceiling(n / 3.0) - 1; var sharesA = BigShamirSharing.Share(new BigZp(prime, 0), n, polyDeg); var sharesB = BigShamirSharing.Share(new BigZp(prime, 1), n, polyDeg); var sharesC = BigShamirSharing.Share(new BigZp(prime, 1), n, polyDeg); for (int i = 0; i < n; i++) { TestParty <Share <BigZp> > party = new TestParty <Share <BigZp> >(); party.UnderTest = new BitCompositionProtocol(party, quorum, MakeList(sharesA[i], sharesB[i], sharesC[i]), prime); NetSimulator.RegisterParty(party); } }
public static void SetupPrefixOrProtocol(Quorum quorum) { int n = quorum.Size; var polyDeg = (int)Math.Ceiling(n / 3.0) - 1; var sharesA = BigShamirSharing.Share(new BigZp(prime, 0), n, polyDeg); var sharesB = BigShamirSharing.Share(new BigZp(prime, 0), n, polyDeg); var sharesC = BigShamirSharing.Share(new BigZp(prime, 0), n, polyDeg); var sharesD = BigShamirSharing.Share(new BigZp(prime, 0), n, polyDeg); for (int i = 0; i < n; i++) { TestParty <List <Share <BigZp> > > party = new TestParty <List <Share <BigZp> > >(); party.UnderTest = new PrefixOperationProtocol(party, quorum, MakeList(sharesA[i], sharesB[i], sharesC[i], sharesD[i]), new SharedBitOr.ProtocolFactory(party, quorum)); NetSimulator.RegisterParty(party); } }