Exemple #1
0
        internal byte[] PrivateToASN1()
        {
            ASN1Builder builder = new ASN1Builder();

            PrivateToASN1(builder);
            return(builder.ToByteArray());
        }
Exemple #2
0
        internal byte[] PublicToASN1(bool x509)
        {
            ASN1Builder builder = new ASN1Builder();

            PublicToASN1(builder, x509);
            return(builder.ToByteArray());
        }
Exemple #3
0
        // Add a container to this builder.
        public ASN1Builder AddContainer(ASN1Type type)
        {
            ASN1Builder container = new ASN1Builder(type);

            list.Add(container);
            return(container);
        }
Exemple #4
0
 // Convert DSA private parameters into an ASN.1 buffer.
 internal void PrivateToASN1(ASN1Builder builder)
 {
     builder.AddBigInt(P);
     builder.AddBigInt(Q);
     builder.AddBigInt(G);
     builder.AddBigInt(Y);
     builder.AddBigInt(J);
     builder.AddBigInt(X);
     builder.AddBigInt(Seed);
     builder.AddInt32(Counter);
 }
Exemple #5
0
 // Convert RSA private parameters into an ASN.1 buffer.
 internal void PrivateToASN1(ASN1Builder builder)
 {
     builder.AddInt32(0);
     builder.AddBigInt(Modulus);
     builder.AddBigInt(Exponent);
     builder.AddBigInt(D);
     builder.AddBigInt(P);
     builder.AddBigInt(Q);
     builder.AddBigInt(DP);
     builder.AddBigInt(DQ);
     builder.AddBigInt(InverseQ);
 }
Exemple #6
0
 // Convert RSA public parameters into an ASN.1 buffer.
 internal void PublicToASN1(ASN1Builder builder, bool x509)
 {
     if (x509)
     {
         // Output an X.509 "SubjectPublicKeyInfo" block.
         ASN1Builder alg = builder.AddSequence();
         alg.AddObjectIdentifier(rsaID);
         alg.AddNull();
         ASN1Builder bitString = builder.AddBitStringContents();
         ASN1Builder inner     = bitString.AddSequence();
         inner.AddBigInt(Modulus);
         inner.AddBigInt(Exponent);
     }
     else
     {
         // Output a bare list of RSA parameters.
         builder.AddBigInt(Modulus);
         builder.AddBigInt(Exponent);
     }
 }
Exemple #7
0
 // Convert DSA public parameters into an ASN.1 buffer.
 internal void PublicToASN1(ASN1Builder builder, bool x509)
 {
     if (x509)
     {
         // Output an X.509 "SubjectPublicKeyInfo" block.
         ASN1Builder alg = builder.AddSequence();
         alg.AddObjectIdentifier(dsaID);
         ASN1Builder inner = alg.AddSequence();
         inner.AddBigInt(P);
         inner.AddBigInt(Q);
         inner.AddBigInt(G);
         ASN1Builder bitString = builder.AddBitStringContents();
         bitString.AddBigInt(Y);
     }
     else
     {
         // Output the raw public parameters.
         builder.AddBigInt(P);
         builder.AddBigInt(Q);
         builder.AddBigInt(G);
         builder.AddBigInt(Y);
     }
 }
	internal byte[] PrivateToASN1()
			{
				ASN1Builder builder = new ASN1Builder();
				PrivateToASN1(builder);
				return builder.ToByteArray();
			}
	// Convert RSA private parameters into an ASN.1 buffer.
	internal void PrivateToASN1(ASN1Builder builder)
			{
				builder.AddInt32(0);
				builder.AddBigInt(Modulus);
				builder.AddBigInt(Exponent);
				builder.AddBigInt(D);
				builder.AddBigInt(P);
				builder.AddBigInt(Q);
				builder.AddBigInt(DP);
				builder.AddBigInt(DQ);
				builder.AddBigInt(InverseQ);
			}
	internal byte[] PublicToASN1(bool x509)
			{
				ASN1Builder builder = new ASN1Builder();
				PublicToASN1(builder, x509);
				return builder.ToByteArray();
			}
	// Convert RSA public parameters into an ASN.1 buffer.
	internal void PublicToASN1(ASN1Builder builder, bool x509)
			{
				if(x509)
				{
					// Output an X.509 "SubjectPublicKeyInfo" block.
					ASN1Builder alg = builder.AddSequence();
					alg.AddObjectIdentifier(rsaID);
					alg.AddNull();
					ASN1Builder bitString = builder.AddBitStringContents();
					ASN1Builder inner = bitString.AddSequence();
					inner.AddBigInt(Modulus);
					inner.AddBigInt(Exponent);
				}
				else
				{
					// Output a bare list of RSA parameters.
					builder.AddBigInt(Modulus);
					builder.AddBigInt(Exponent);
				}
			}
Exemple #12
0
        // Create a DSA signature for the specified data.
        public override byte[] CreateSignature(byte[] rgbHash)
        {
            // Validate the parameter.
            if (rgbHash == null)
            {
                throw new ArgumentNullException("rgbHash");
            }

            // Check that we have sufficient DSA parameters to sign.
            if (dsaParams.G == null)
            {
                throw new CryptographicException
                          (_("Crypto_DSAParamsNotSet"));
            }
            else if (dsaParams.X == null)
            {
                throw new CryptographicException
                          (_("Crypto_CannotSignWithPublic"));
            }

            // Generate a random K less than Q to use in
            // signature generation.  We guarantee less than
            // by setting the high byte of K to at least one
            // less than the high byte of Q.
            int len = dsaParams.Q.Length;

            byte[] K = new byte [len];
            CryptoMethods.GenerateRandom(K, 1, K.Length - 1);
            int index = 0;

            while (index < len && K[index] >= dsaParams.Q[index])
            {
                if (dsaParams.Q[index] == 0)
                {
                    K[index] = (byte)0;
                    ++index;
                }
                else
                {
                    K[index] = (byte)(dsaParams.Q[index] - 1);
                    break;
                }
            }

            // Compute R = ((G^K mod P) mod Q)
            byte[] temp1 = CryptoMethods.NumPow
                               (dsaParams.G, K, dsaParams.P);
            byte[] R = CryptoMethods.NumMod(temp1, dsaParams.Q);
            Array.Clear(temp1, 0, temp1.Length);

            // Compute S = ((K^-1 * (hash + X * R)) mod Q)
            temp1 = CryptoMethods.NumInv(K, dsaParams.Q);
            byte[] temp2 = CryptoMethods.NumMul
                               (dsaParams.X, R, dsaParams.Q);
            byte[] temp3 = CryptoMethods.NumAdd
                               (rgbHash, temp2, dsaParams.Q);
            byte[] S = CryptoMethods.NumMul(temp1, temp3, dsaParams.Q);
            Array.Clear(temp1, 0, temp1.Length);
            Array.Clear(temp2, 0, temp2.Length);
            Array.Clear(temp3, 0, temp3.Length);
            Array.Clear(K, 0, K.Length);

            // Pack R and S into a signature blob and return it.
            ASN1Builder builder = new ASN1Builder();

            builder.AddBigInt(R);
            builder.AddBigInt(S);
            byte[] sig = builder.ToByteArray();
            Array.Clear(R, 0, R.Length);
            Array.Clear(S, 0, S.Length);
            return(sig);
        }
	// Add a container to this builder.
	public ASN1Builder AddContainer(ASN1Type type)
			{
				ASN1Builder container = new ASN1Builder(type);
				list.Add(container);
				return container;
			}
	// Convert DSA private parameters into an ASN.1 buffer.
	internal void PrivateToASN1(ASN1Builder builder)
			{
				builder.AddBigInt(P);
				builder.AddBigInt(Q);
				builder.AddBigInt(G);
				builder.AddBigInt(Y);
				builder.AddBigInt(J);
				builder.AddBigInt(X);
				builder.AddBigInt(Seed);
				builder.AddInt32(Counter);
			}
	// Convert DSA public parameters into an ASN.1 buffer.
	internal void PublicToASN1(ASN1Builder builder, bool x509)
			{
				if(x509)
				{
					// Output an X.509 "SubjectPublicKeyInfo" block.
					ASN1Builder alg = builder.AddSequence();
					alg.AddObjectIdentifier(dsaID);
					ASN1Builder inner = alg.AddSequence();
					inner.AddBigInt(P);
					inner.AddBigInt(Q);
					inner.AddBigInt(G);
					ASN1Builder bitString = builder.AddBitStringContents();
					bitString.AddBigInt(Y);
				}
				else
				{
					// Output the raw public parameters.
					builder.AddBigInt(P);
					builder.AddBigInt(Q);
					builder.AddBigInt(G);
					builder.AddBigInt(Y);
				}
			}
	// Create a DSA signature for the specified data.
	public override byte[] CreateSignature(byte[] rgbHash)
			{
				// Validate the parameter.
				if(rgbHash == null)
				{
					throw new ArgumentNullException("rgbHash");
				}

				// Check that we have sufficient DSA parameters to sign.
				if(dsaParams.G == null)
				{
					throw new CryptographicException
						(_("Crypto_DSAParamsNotSet"));
				}
				else if(dsaParams.X == null)
				{
					throw new CryptographicException
						(_("Crypto_CannotSignWithPublic"));
				}

				// Generate a random K less than Q to use in
				// signature generation.  We guarantee less than
				// by setting the high byte of K to at least one
				// less than the high byte of Q.
				int len = dsaParams.Q.Length;
				byte[] K = new byte [len];
				CryptoMethods.GenerateRandom(K, 1, K.Length - 1);
				int index = 0;
				while(index < len && K[index] >= dsaParams.Q[index])
				{
					if(dsaParams.Q[index] == 0)
					{
						K[index] = (byte)0;
						++index;
					}
					else
					{
						K[index] = (byte)(dsaParams.Q[index] - 1);
						break;
					}
				}

				// Compute R = ((G^K mod P) mod Q)
				byte[] temp1 = CryptoMethods.NumPow
					(dsaParams.G, K, dsaParams.P);
				byte[] R = CryptoMethods.NumMod(temp1, dsaParams.Q);
				Array.Clear(temp1, 0, temp1.Length);

				// Compute S = ((K^-1 * (hash + X * R)) mod Q)
				temp1 = CryptoMethods.NumInv(K, dsaParams.Q);
				byte[] temp2 = CryptoMethods.NumMul
					(dsaParams.X, R, dsaParams.Q);
				byte[] temp3 = CryptoMethods.NumAdd
					(rgbHash, temp2, dsaParams.Q);
				byte[] S = CryptoMethods.NumMul(temp1, temp3, dsaParams.Q);
				Array.Clear(temp1, 0, temp1.Length);
				Array.Clear(temp2, 0, temp2.Length);
				Array.Clear(temp3, 0, temp3.Length);
				Array.Clear(K, 0, K.Length);

				// Pack R and S into a signature blob and return it.
				ASN1Builder builder = new ASN1Builder();
				builder.AddBigInt(R);
				builder.AddBigInt(S);
				byte[] sig = builder.ToByteArray();
				Array.Clear(R, 0, R.Length);
				Array.Clear(S, 0, S.Length);
				return sig;
			}