Example #1
0
        private void AsymmetricImportExport(CryptographicKey keyPair)
        {
            String algName = AlgorithmNames.SelectionBoxItem.ToString();
            AsymmetricKeyAlgorithmProvider Algorithm = AsymmetricKeyAlgorithmProvider.OpenAlgorithm(algName);

            // Export the public key.
            IBuffer blobOfPublicKey = keyPair.ExportPublicKey();
            IBuffer blobOfKeyPair   = keyPair.Export();

            SignVerifyText.Text += "    Key pair was successfully exported.\n";

            // Import the public key.
            CryptographicKey keyPublic = Algorithm.ImportPublicKey(blobOfPublicKey);

            // Check the key size.
            if (keyPublic.KeySize != keyPair.KeySize)
            {
                SignVerifyText.Text += "ImportPublicKey failed!  The imported key's size did not match the original's!";
                return;
            }
            SignVerifyText.Text += "    Public key was successfully imported.\n";

            // Import the key pair.
            keyPair = Algorithm.ImportKeyPair(blobOfKeyPair);

            // Check the key size.
            if (keyPublic.KeySize != keyPair.KeySize)
            {
                SignVerifyText.Text += "ImportKeyPair failed!  The imported key's size did not match the original's!";
                return;
            }
            SignVerifyText.Text += "    Key pair was successfully imported.\n";
        }
        public void createAsymmetricKeyPair(
            String strAsymmetricAlgName,
            UInt32 keyLength,
            out IBuffer buffPublicKey)
        {
            // Open the algorithm provider for the specified asymmetric algorithm.
            AsymmetricKeyAlgorithmProvider objAlgProv = AsymmetricKeyAlgorithmProvider.OpenAlgorithm(strAsymmetricAlgName);

            // Demonstrate use of the AlgorithmName property (not necessary to create a key pair).
            String strAlgName = objAlgProv.AlgorithmName;

            // Create an asymmetric key pair.
            CryptographicKey keyPair = objAlgProv.CreateKeyPair(keyLength);

            // Export the public key to a buffer for use by others.
            buffPublicKey = keyPair.ExportPublicKey();

            //public key to internal buffer
            DataContainer.senderPublicKey = buffPublicKey;

            // You should keep your private key (embedded in the key pair) secure. For
            // the purposes of this example, however, we're just copying it into a
            // static class variable for later use during decryption.
            DataContainer.senderKeyPair = keyPair.Export();
        }
Example #3
0
        /// <summary>
        /// Вызывается при обычном запуске приложения пользователем.  Будут использоваться другие точки входа,
        /// например, если приложение запускается для открытия конкретного файла.
        /// </summary>
        /// <param name="e">Сведения о запросе и обработке запуска.</param>
        protected override void OnLaunched(LaunchActivatedEventArgs e)
        {
            Frame rootFrame = Window.Current.Content as Frame;

            // Не повторяйте инициализацию приложения, если в окне уже имеется содержимое,
            // только обеспечьте активность окна
            if (rootFrame == null)
            {
                // Создание фрейма, который станет контекстом навигации, и переход к первой странице
                rootFrame = new Frame();

                rootFrame.NavigationFailed += OnNavigationFailed;

                if (e.PreviousExecutionState == ApplicationExecutionState.Terminated)
                {
                    //TODO: Загрузить состояние из ранее приостановленного приложения
                }

                // Размещение фрейма в текущем окне
                Window.Current.Content = rootFrame;
            }

            if (e.PrelaunchActivated == false)
            {
                if (rootFrame.Content == null)
                {
                    // Если стек навигации не восстанавливается для перехода к первой странице,
                    // настройка новой страницы путем передачи необходимой информации в качестве параметра
                    // параметр
                    string keypairfilename = ApplicationData.Current.LocalFolder.Path + "\\" + GlobalVars.HardWareID + ".001";
                    if (!File.Exists(keypairfilename))
                    {
                        string RSAProvName = AsymmetricAlgorithmNames.RsaPkcs1;
                        AsymmetricKeyAlgorithmProvider RSAProv = AsymmetricKeyAlgorithmProvider.OpenAlgorithm(RSAProvName);
                        CryptographicKey ClientKeyPair         = RSAProv.CreateKeyPair(2048);
                        byte[]           ClientKeyPairBytes    = ClientKeyPair.Export().ToArray();
                        File.WriteAllBytes(keypairfilename, ClientKeyPairBytes);
                    }
                    if (IsLicenseValid())
                    {
                        rootFrame.Navigate(typeof(StartPage), e.Arguments);
                    }
                    else
                    {
                        rootFrame.Navigate(typeof(Registration), e.Arguments);
                    }
                }
                // Обеспечение активности текущего окна
                Window.Current.Activate();
            }
        }
Example #4
0
        public void CreateKey(KeySize keySize = KeySize.KS2048)
        {
            AsymmetricKeyAlgorithmProvider asym = AsymmetricKeyAlgorithmProvider.OpenAlgorithm(AsymmetricAlgorithmNames.RsaPkcs1);
            CryptographicKey key = asym.CreateKeyPair((uint)keySize);

            var privateKey = key.Export(CryptographicPrivateKeyBlobType.Pkcs1RsaPrivateKey);
            var publicKey  = key.ExportPublicKey(CryptographicPublicKeyBlobType.Pkcs1RsaPublicKey);

            //System.Diagnostics.Debug.WriteLine($"private : {BitConverter.ToString(privateKey.ToArray())}");
            //System.Diagnostics.Debug.WriteLine($"public : {BitConverter.ToString(publicKey.ToArray())}");

            PublicKey  = new PublicKey(publicKey);
            PrivateKey = new PrivateKey(privateKey);
        }
Example #5
0
        public static RSAKey GenerateKeys()
        {
            CryptographicKey key = AsymmetricKeyAlgorithmProvider.OpenAlgorithm(AsymmetricAlgorithmNames.RsaPkcs1).CreateKeyPair(2048);

            byte[] privateKey;
            byte[] publicKey;

            CryptographicBuffer.CopyToByteArray(key.Export(CryptographicPrivateKeyBlobType.Capi1PrivateKey), out privateKey);
            CryptographicBuffer.CopyToByteArray(key.ExportPublicKey(CryptographicPublicKeyBlobType.Capi1PublicKey), out publicKey);

            RSAKey RSAKey = new RSAKey();

            RSAKey.PrivateKey = privateKey;
            RSAKey.PublicKey  = publicKey;

            return(RSAKey);
        }
Example #6
0
        public static AsymmetricCipherKeyPair GetRsaKeyPair(CryptographicKey key)
        {
            var privateKeyBuffer = key.Export(CryptographicPrivateKeyBlobType.Pkcs1RsaPrivateKey);

            byte[] privateKeyBytes;
            CryptographicBuffer.CopyToByteArray(privateKeyBuffer, out privateKeyBytes);

            var asn1 = (Asn1Sequence)Asn1Object.FromByteArray(privateKeyBytes);
            var rsa  = new RsaPrivateKeyStructure(asn1);

            var pubKey  = new RsaKeyParameters(false, rsa.Modulus, rsa.PublicExponent);
            var privKey = new RsaPrivateCrtKeyParameters(
                rsa.Modulus, rsa.PublicExponent, rsa.PrivateExponent,
                rsa.Prime1, rsa.Prime2, rsa.Exponent1, rsa.Exponent2,
                rsa.Coefficient);

            return(new AsymmetricCipherKeyPair(pubKey, privKey));
        }
        public RawRsa(CryptographicKey key)
        {
            IBuffer buf = key.Export(CryptographicPrivateKeyBlobType.BCryptPrivateKey);

            byte[] blob;
            CryptographicBuffer.CopyToByteArray(buf, out blob);

            var m      = new Marshaller(blob, DataRepresentation.LittleEndian);
            var header = m.Get <BCryptRsaKeyBlob>();

            E        = FromBigEndian(m.GetArray <byte>((int)header.cbPublicExp));
            N        = FromBigEndian(m.GetArray <byte>((int)header.cbModulus));
            P        = FromBigEndian(m.GetArray <byte>((int)header.cbPrime1));
            Q        = FromBigEndian(m.GetArray <byte>((int)header.cbPrime2));
            DP       = FromBigEndian(m.GetArray <byte>((int)header.cbPrime1));
            DQ       = FromBigEndian(m.GetArray <byte>((int)header.cbPrime2));
            InverseQ = FromBigEndian(m.GetArray <byte>((int)header.cbPrime1));
            D        = FromBigEndian(m.GetArray <byte>((int)header.cbModulus));
        }
Example #8
0
        public static Tuple <string, string> WinRTCreateKeyPair()
        {
            AsymmetricKeyAlgorithmProvider asym = AsymmetricKeyAlgorithmProvider.OpenAlgorithm(AsymmetricAlgorithmNames.RsaPkcs1);
            CryptographicKey key = asym.CreateKeyPair(1024);

            IBuffer privateKeyBuffer = key.Export(CryptographicPrivateKeyBlobType.Capi1PrivateKey);
            IBuffer publicKeyBuffer  = key.ExportPublicKey(CryptographicPublicKeyBlobType.Capi1PublicKey);

            byte[] privateKeyBytes;
            byte[] publicKeyBytes;

            CryptographicBuffer.CopyToByteArray(privateKeyBuffer, out privateKeyBytes);
            CryptographicBuffer.CopyToByteArray(publicKeyBuffer, out publicKeyBytes);

            string privateKey = Convert.ToBase64String(privateKeyBytes);
            string publicKey  = Convert.ToBase64String(publicKeyBytes);

            return(new Tuple <string, string>(privateKey, publicKey));
        }
        public void createAsymmetricKeyPair(
            String strAsymmetricAlgName,
            UInt32 keyLength,
            out IBuffer buffPublicKey)
        {
            // Open the algorithm provider for the specified asymmetric algorithm.
            AsymmetricKeyAlgorithmProvider objAlgProv = AsymmetricKeyAlgorithmProvider.OpenAlgorithm(strAsymmetricAlgName);

            // Demonstrate use of the AlgorithmName property (not necessary to create a key pair).
            String strAlgName = objAlgProv.AlgorithmName;

            // Create an asymmetric key pair.
            keyPair = objAlgProv.CreateKeyPair(keyLength);

            // Export the public key to a buffer for use by others.
            buffPublicKey = keyPair.ExportPublicKey();

            keys = keyPair.Export();
        }
        /// <summary>
        ///  Generates new key pair using OS CSP
        /// </summary>
        /// <param name="numBits"></param>
        /// <param name="publicExponent"></param>
        public RawRsa(int numBits, int publicExponent = 65537)
        {
            AsymmetricKeyAlgorithmProvider prov = AsymmetricKeyAlgorithmProvider.OpenAlgorithm(AsymmetricAlgorithmNames.RsaOaepSha256);
            CryptographicKey key = prov.CreateKeyPair((uint)numBits);
            IBuffer          buf = key.Export(CryptographicPrivateKeyBlobType.BCryptPrivateKey);

            byte[] blob;
            CryptographicBuffer.CopyToByteArray(buf, out blob);

            var m      = new Marshaller(blob, DataRepresentation.LittleEndian);
            var header = m.Get <BCryptRsaKeyBlob>();

            E        = FromBigEndian(m.GetArray <byte>((int)header.cbPublicExp));
            N        = FromBigEndian(m.GetArray <byte>((int)header.cbModulus));
            P        = FromBigEndian(m.GetArray <byte>((int)header.cbPrime1));
            Q        = FromBigEndian(m.GetArray <byte>((int)header.cbPrime2));
            DP       = FromBigEndian(m.GetArray <byte>((int)header.cbPrime1));
            DQ       = FromBigEndian(m.GetArray <byte>((int)header.cbPrime2));
            InverseQ = FromBigEndian(m.GetArray <byte>((int)header.cbPrime1));
            D        = FromBigEndian(m.GetArray <byte>((int)header.cbModulus));
        }
        async public Task CreateAsymmetricKey()
        {
            AsymmetricKeyAlgorithmProvider provider    = AsymmetricKeyAlgorithmProvider.OpenAlgorithm(AsymmetricAlgorithmNames.RsaPkcs1);
            CryptographicKey cryptographicKeyASymetric = provider.CreateKeyPair(512);

            buffPublicKey = cryptographicKeyASymetric.ExportPublicKey();

            IBuffer buffKeyPair = cryptographicKeyASymetric.Export();

            await KnownFolders.PicturesLibrary.CreateFileAsync("PrivateKey.txt", CreationCollisionOption.ReplaceExisting);

            StorageFile storageFile = await KnownFolders.PicturesLibrary.GetFileAsync("PrivateKey.txt");

            await FileIO.WriteBufferAsync(storageFile, buffKeyPair);


            T2.Text = "buffPublicKey64: " + CryptographicBuffer.EncodeToBase64String(buffPublicKey);
            T3.Text = "buffPublicKeyHex: " + CryptographicBuffer.EncodeToHexString(buffPublicKey);

            T4.Text = "(Private Key) buffKeyPair64: " + CryptographicBuffer.EncodeToBase64String(buffKeyPair);
            T5.Text = "(Private Key) buffKeyPairHex: " + CryptographicBuffer.EncodeToHexString(buffKeyPair);
        }
Example #12
0
        public RSAParameters ExportParameters(bool includePrivateParameters)
        {
#if WINDOWS_STORE
            IBuffer export = keyPair.Export(CryptographicPrivateKeyBlobType.BCryptPrivateKey);

            byte[] result;
            CryptographicBuffer.CopyToByteArray(export, out result);

            BCryptRsaKeyBlob header = BCryptRsaKeyBlob.Load(result);
            int offset = Marshal.SizeOf <BCryptRsaKeyBlob>();

            byte[] exponent = result.Skip(offset).Take((int)header.cbPublicExp).ToArray();

            offset += (int)header.cbPublicExp;
            byte[] modulus = result.Skip(offset).Take((int)header.cbModulus).ToArray();

            return(new RSAParameters(exponent, modulus));
#else
            System.Security.Cryptography.RSAParameters parameters =
                provider.ExportParameters(includePrivateParameters);

            return(new RSAParameters(parameters.Exponent, parameters.Modulus));
#endif
        }
Example #13
0
        /// <summary>
        /// This is the click handler for the 'RunSample' button.  It is responsible for executing the sample code.
        /// </summary>
        /// <param name="sender"></param>
        /// <param name="e"></param>
        private void RunSample_Click(object sender, RoutedEventArgs e)
        {
            String algName = AlgorithmNames.SelectionBoxItem.ToString();
            UInt32 KeySize = UInt32.Parse(KeySizes.SelectionBoxItem.ToString());

            Scenario7Text.Text = "";

            IBuffer Data;
            String  cookie = "Some cookie to encrypt";

            switch (AlgorithmNames.SelectedIndex)
            {
            case 0:
                Data = CryptographicBuffer.ConvertStringToBinary(cookie, BinaryStringEncoding.Utf16LE);
                break;

            // OAEP Padding depends on key size, message length and hash block length
            //
            // The maximum plaintext length is KeyLength - 2*HashBlock - 2
            //
            // OEAP padding supports an optional label with the length is restricted by plaintext/key/hash sizes.
            // Here we just use a small label.
            case 1:
                Data = CryptographicBuffer.GenerateRandom(1024 / 8 - 2 * 20 - 2);
                break;

            case 2:
                Data = CryptographicBuffer.GenerateRandom(1024 / 8 - 2 * (256 / 8) - 2);
                break;

            case 3:
                Data = CryptographicBuffer.GenerateRandom(2048 / 8 - 2 * (384 / 8) - 2);
                break;

            case 4:
                Data = CryptographicBuffer.GenerateRandom(2048 / 8 - 2 * (512 / 8) - 2);
                break;

            default:
                Scenario7Text.Text += "An invalid algorithm was selected";
                return;
            }

            IBuffer Encrypted;
            IBuffer Decrypted;
            IBuffer blobOfPublicKey;
            IBuffer blobOfKeyPair;

            // Crate an AsymmetricKeyAlgorithmProvider object for the algorithm specified on input.
            AsymmetricKeyAlgorithmProvider Algorithm = AsymmetricKeyAlgorithmProvider.OpenAlgorithm(algName);

            Scenario7Text.Text += "*** Sample Encryption Algorithm\n";
            Scenario7Text.Text += "    Algorithm Name: " + Algorithm.AlgorithmName + "\n";
            Scenario7Text.Text += "    Key Size: " + KeySize + "\n";

            // Generate a random key.
            CryptographicKey keyPair = Algorithm.CreateKeyPair(KeySize);

            // Encrypt the data.
            try
            {
                Encrypted = CryptographicEngine.Encrypt(keyPair, Data, null);
            }
            catch (ArgumentException ex)
            {
                Scenario7Text.Text += ex.Message + "\n";
                Scenario7Text.Text += "An invalid key size was selected for the given algorithm.\n";
                return;
            }

            Scenario7Text.Text += "    Plain text: " + Data.Length + " bytes\n";
            Scenario7Text.Text += "    Encrypted: " + Encrypted.Length + " bytes\n";

            // Export the public key.
            blobOfPublicKey = keyPair.ExportPublicKey();
            blobOfKeyPair   = keyPair.Export();

            // Import the public key.
            CryptographicKey keyPublic = Algorithm.ImportPublicKey(blobOfPublicKey);

            if (keyPublic.KeySize != keyPair.KeySize)
            {
                Scenario7Text.Text += "ImportPublicKey failed!  The imported key's size did not match the original's!";
                return;
            }

            // Import the key pair.
            keyPair = Algorithm.ImportKeyPair(blobOfKeyPair);

            // Check the key size of the imported key.
            if (keyPublic.KeySize != keyPair.KeySize)
            {
                Scenario7Text.Text += "ImportKeyPair failed!  The imported key's size did not match the original's!";
                return;
            }

            // Decrypt the data.
            Decrypted = CryptographicEngine.Decrypt(keyPair, Encrypted, null);

            if (!CryptographicBuffer.Compare(Decrypted, Data))
            {
                Scenario7Text.Text += "Decrypted data does not match original!";
                return;
            }
        }
 private static async void StoreRsaKey(CryptographicKey key, CryptographicKey aesKey)
 {
     await StorageInterface.WriteBufferToRoamingFolder("PWM/RsaKey", EncryptAes(aesKey, key.Export()));
 }