示例#1
0
        /**
         * Produces a WBB signature for a give message
         *
         * @param sk Secret key
         * @param m  Message
         * @return Signature
         */
        public static ECP WeakBBSign(BIG sk, BIG m)
        {
            BIG exp = sk.ModAdd(m, IdemixUtils.GROUP_ORDER);

            exp.InvModp(IdemixUtils.GROUP_ORDER);

            return(IdemixUtils.GenG1.Mul(exp));
        }
        /**
         * Create a new IdemixSignature by proving knowledge of a credential
         *
         * @param c          the credential used to create an idemix signature
         * @param sk         the signer's secret key
         * @param pseudonym  a pseudonym of the signer
         * @param ipk        the issuer public key
         * @param disclosure a bool-array that steers the disclosure of attributes
         * @param msg        the message to be signed
         * @param rhIndex    the index of the attribute that represents the revocation handle
         * @param cri        the credential revocation information that allows the signer to prove non-revocation
         */
        public IdemixSignature(IdemixCredential c, BIG sk, IdemixPseudonym pseudonym, IdemixIssuerPublicKey ipk, bool[] disclosure, byte[] msg, int rhIndex, CredentialRevocationInformation cri)
        {
            if (c == null || sk == null || pseudonym == null || pseudonym.Nym == null || pseudonym.RandNym == null || ipk == null || disclosure == null || msg == null || cri == null)
            {
                throw new ArgumentException("Cannot construct idemix signature from null input");
            }

            if (disclosure.Length != c.Attrs.Length)
            {
                throw new ArgumentException("Disclosure length must be the same as the number of attributes");
            }

            if (cri.RevocationAlg >= Enum.GetValues(typeof(RevocationAlgorithm)).Length)
            {
                throw new ArgumentException("CRI specifies unknown revocation algorithm");
            }

            if (cri.RevocationAlg != (int)RevocationAlgorithm.ALG_NO_REVOCATION && disclosure[rhIndex])
            {
                throw new ArgumentException("Attribute " + rhIndex + " is disclosed but also used a revocation handle attribute, which should remain hidden");
            }

            RevocationAlgorithm revocationAlgorithm = (RevocationAlgorithm)cri.RevocationAlg;

            int[] hiddenIndices = HiddenIndices(disclosure);
            RAND  rng           = IdemixUtils.GetRand();
            // Start signature
            BIG r1 = rng.RandModOrder();
            BIG r2 = rng.RandModOrder();
            BIG r3 = new BIG(r1);

            r3.InvModp(IdemixUtils.GROUP_ORDER);

            nonce = rng.RandModOrder();

            aPrime = PAIR.G1Mul(c.A, r1);
            aBar   = PAIR.G1Mul(c.B, r1);
            aBar.Sub(PAIR.G1Mul(aPrime, c.E));

            bPrime = PAIR.G1Mul(c.B, r1);
            bPrime.Sub(PAIR.G1Mul(ipk.HRand, r2));
            BIG sPrime = new BIG(c.S);

            sPrime.Add(BIG.ModNeg(BIG.ModMul(r2, r3, IdemixUtils.GROUP_ORDER), IdemixUtils.GROUP_ORDER));
            sPrime.Mod(IdemixUtils.GROUP_ORDER);

            //Construct Zero Knowledge Proof
            BIG rsk     = rng.RandModOrder();
            BIG re      = rng.RandModOrder();
            BIG rR2     = rng.RandModOrder();
            BIG rR3     = rng.RandModOrder();
            BIG rSPrime = rng.RandModOrder();
            BIG rRNym   = rng.RandModOrder();

            BIG[] rAttrs = new BIG[hiddenIndices.Length];
            for (int i = 0; i < hiddenIndices.Length; i++)
            {
                rAttrs[i] = rng.RandModOrder();
            }

            // Compute non-revoked proof
            INonRevocationProver prover = NonRevocationProver.GetNonRevocationProver(revocationAlgorithm);
            int hiddenRHIndex           = Array.IndexOf(hiddenIndices, rhIndex);

            if (hiddenRHIndex < 0)
            {
                // rhIndex is not present, set to last index position
                hiddenRHIndex = hiddenIndices.Length;
            }

            byte[] nonRevokedProofHashData = prover.GetFSContribution(BIG.FromBytes(c.Attrs[rhIndex]), rAttrs[hiddenRHIndex], cri);
            if (nonRevokedProofHashData == null)
            {
                throw new Exception("Failed to compute non-revoked proof");
            }

            ECP t1 = aPrime.Mul2(re, ipk.HRand, rR2);
            ECP t2 = PAIR.G1Mul(ipk.HRand, rSPrime);

            t2.Add(bPrime.Mul2(rR3, ipk.Hsk, rsk));

            for (int i = 0; i < hiddenIndices.Length / 2; i++)
            {
                t2.Add(ipk.HAttrs[hiddenIndices[2 * i]].Mul2(rAttrs[2 * i], ipk.HAttrs[hiddenIndices[2 * i + 1]], rAttrs[2 * i + 1]));
            }

            if (hiddenIndices.Length % 2 != 0)
            {
                t2.Add(PAIR.G1Mul(ipk.HAttrs[hiddenIndices[hiddenIndices.Length - 1]], rAttrs[hiddenIndices.Length - 1]));
            }

            ECP t3 = ipk.Hsk.Mul2(rsk, ipk.HRand, rRNym);

            // create proofData such that it can contain the sign label, 7 elements in G1 (each of size 2*FIELD_BYTES+1),
            // the ipk hash, the disclosure array, and the message
            byte[] proofData = new byte[0];
            proofData = proofData.Append(SIGN_LABEL.ToBytes());
            proofData = proofData.Append(t1.ToBytes());
            proofData = proofData.Append(t2.ToBytes());
            proofData = proofData.Append(t3.ToBytes());
            proofData = proofData.Append(aPrime.ToBytes());
            proofData = proofData.Append(aBar.ToBytes());
            proofData = proofData.Append(bPrime.ToBytes());
            proofData = proofData.Append(pseudonym.Nym.ToBytes());
            proofData = proofData.Append(ipk.Hash);
            proofData = proofData.Append(disclosure);
            proofData = proofData.Append(msg);

            BIG cvalue = proofData.HashModOrder();

            byte[] finalProofData = new byte[0];
            finalProofData = finalProofData.Append(cvalue.ToBytes());
            finalProofData = finalProofData.Append(nonce.ToBytes());

            proofC = finalProofData.HashModOrder();

            proofSSk     = rsk.ModAdd(BIG.ModMul(proofC, sk, IdemixUtils.GROUP_ORDER), IdemixUtils.GROUP_ORDER);
            proofSE      = re.ModSub(BIG.ModMul(proofC, c.E, IdemixUtils.GROUP_ORDER), IdemixUtils.GROUP_ORDER);
            proofSR2     = rR2.ModAdd(BIG.ModMul(proofC, r2, IdemixUtils.GROUP_ORDER), IdemixUtils.GROUP_ORDER);
            proofSR3     = rR3.ModSub(BIG.ModMul(proofC, r3, IdemixUtils.GROUP_ORDER), IdemixUtils.GROUP_ORDER);
            proofSSPrime = rSPrime.ModAdd(BIG.ModMul(proofC, sPrime, IdemixUtils.GROUP_ORDER), IdemixUtils.GROUP_ORDER);
            proofSRNym   = rRNym.ModAdd(BIG.ModMul(proofC, pseudonym.RandNym, IdemixUtils.GROUP_ORDER), IdemixUtils.GROUP_ORDER);

            nym = new ECP();
            nym.Copy(pseudonym.Nym);

            proofSAttrs = new BIG[hiddenIndices.Length];
            for (int i = 0; i < hiddenIndices.Length; i++)
            {
                proofSAttrs[i] = new BIG(rAttrs[i]);
                proofSAttrs[i].Add(BIG.ModMul(proofC, BIG.FromBytes(c.Attrs[hiddenIndices[i]]), IdemixUtils.GROUP_ORDER));
                proofSAttrs[i].Mod(IdemixUtils.GROUP_ORDER);
            }

            // include non-revocation proof in signature
            revocationPk       = cri.EpochPk;
            revocationPKSig    = cri.EpochPkSig.ToByteArray();
            epoch              = cri.Epoch;
            nonRevocationProof = prover.GetNonRevocationProof(proofC);
        }
示例#3
0
 /**
  * Modsub takes input BIGs a, b, m and returns a-b modulo m
  *
  * @param a the minuend of the modular subtraction
  * @param b the subtrahend of the modular subtraction
  * @param m the modulus
  * @return returns a-b (mod m)
  */
 public static BIG ModSub(this BIG a, BIG b, BIG m)
 {
     return(a.ModAdd(BIG.ModNeg(b, m), m));
 }