Exemple #1
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 /// <summary>
 /// Creates a Cryptoki signature object with the specified session context, algorithm and key.
 /// </summary>
 /// <param name="session">The Cryptoki session context.</param>
 /// <param name="mechanism">The signature algorithm and parameters.</param>
 /// <param name="key">The key used to sign the input data.</param>
 public CryptokiSign(Session session, Mechanism mechanism, CryptoKey key) : 
     base(session, false)
 {
     m_signatureLength = (key.Size + 7) / 8;
     m_mech = mechanism;
     m_key  = key;
 }
 protected override void Dispose(bool disposing) 
 {
     try
     {
         if (disposing)
         {
             // Note: we always want to zeroize the sensitive key material
             if (KeyValue != null)
             {
                 if (OwnsKey)
                 {
                     //Array.Clear(KeyValue, 0, KeyValue.Length);
                     KeyValue.Dispose();
                 }
                 KeyValue = null;
             }
             if (IVValue != null)
             {
                 Array.Clear(IVValue, 0, IVValue.Length);
                 IVValue = null;
             }
         }
     }
     finally
     {
         base.Dispose(disposing);
     }
 }
Exemple #3
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        /// <summary>
        /// Digests the value of a secret key.
        /// </summary>
        /// <param name="hKey"></param>
        public void DigestKey(CryptoKey hKey)
        {
            if (!m_isInit) Init(m_mechanism);

            m_isInit = true;

            DigestKeyInternal(hKey);
        }
Exemple #4
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        /// <summary>
        /// Creates the encryptor object with the specified session context, decryption algorithm, key, and input/output block sizes
        /// </summary>
        /// <param name="session">The Cryptoki session context.</param>
        /// <param name="mechanism">The encryption algorithm and paramters.</param>
        /// <param name="key">The key that will be used to perform the encryption.</param>
        /// <param name="inputBlockSize">The input block size, in bits.</param>
        /// <param name="outputBlockSize">The output block size, in bits.</param>
        public Encryptor(Session session, Mechanism mechanism, CryptoKey key, int inputBlockSize, int outputBlockSize) :
            base(session, false)
        {
            m_inputBlockSize  = (inputBlockSize + 7) / 8;
            m_outputBlockSize = (outputBlockSize+ 7) / 8;

            m_mech = mechanism;
            m_key  = key;
        }
        /// <summary>
        /// Generates a random symmetric key for use in the signing process.
        /// </summary>
        /// <param name="keySize">Size of the symmetric key in bits</param>
        private void GenerateKey(int keySize)
        {
            CryptokiAttribute[] attribs = new CryptokiAttribute[]
            { 
                new CryptokiAttribute(CryptokiAttribute.CryptokiType.ValueLen, Utility.ConvertToBytes( keySize ))
            };

            KeyValue = CryptoKey.GenerateKey(m_session, new Mechanism(MechanismType.GENERIC_SECRET_KEY_GEN), attribs);
            OwnsKey = true;

            m_mechanism.Parameter = KeyValue.Handle;
            Initialize();
        }
        private void Init(CryptoKey key, int keySize)
        {
            LegalBlockSizesValue = s_legalBlockSizes;
            LegalKeySizesValue   = s_legalKeySizes;
            BlockSizeValue       = 64;

            if (key == null)
            {
                KeySizeValue = keySize;
                GenerateKey();
            }
            else
            {
                if (key.Type != CryptoKey.KeyType.DES3 && key.Type != CryptoKey.KeyType.GENERIC_SECRET) throw new ArgumentException();

                Key = key;
            }
        }
        private void Init(CryptoKey key, int keySize) 
        {
            LegalKeySizesValue = s_legalKeySizes;

            m_signMech    = new Mechanism(MechanismType.ECDSA);
            HashAlgorithm = MechanismType.SHA256;

            if (key == null)
            {
                KeySize = keySize;
            }
            else
            {
                if (key.Type != CryptoKey.KeyType.EC)
                {
                    throw new ArgumentException();
                }

                KeyPair = key;
            }
        }
Exemple #8
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 private static extern CryptoKey UnwrapKeyInternal(Session session, Mechanism mechanism, CryptoKey unwrappingKey, byte[] wrappedKey, CryptokiAttribute[] keyTemplate);
Exemple #9
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 public static extern byte[] WrapKey(Session session, Mechanism mechanism, CryptoKey wrappingKey, CryptoKey key);
Exemple #10
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        /// <summary>
        /// Unwraps the specified key data with the given wrapping key and mechanism.
        /// </summary>
        /// <param name="session">The Cryptoki session context.</param>
        /// <param name="mechanism">The key wrapping mechanism or algorithm.</param>
        /// <param name="wrappingKey">The key that will be used to unwrap the specifed keyData.</param>
        /// <param name="keyData">The encrypted key data.</param>
        /// <param name="keyTemplate">The key attribute template.</param>
        /// <returns>The unwrapped key object.</returns>
        public static CryptoKey UnwrapKey(Session session, Mechanism mechanism, CryptoKey wrappingKey, byte[] keyData, CryptokiAttribute[] keyTemplate)
        {
            CryptoKey ret = UnwrapKeyInternal(session, mechanism, wrappingKey, keyData, keyTemplate);

            if (ret != null)
            {
                session.AddSessionObject(ret);
            }

            return ret;
        }
Exemple #11
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 /// <summary>
 /// Creates the signature verification object with specified the session context, signature algorithm and key.
 /// </summary>
 /// <param name="session">The Cryptoki session context.</param>
 /// <param name="mechanism">The signature algorithm.</param>
 /// <param name="key">The key used to verify the signature value.</param>
 public CryptokiVerify(Session session, Mechanism mechanism, CryptoKey key) :
     base(session, false)
 {
     m_mech = mechanism;
     m_key = key;
 }
Exemple #12
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 private extern void EncryptInit(Session session, Mechanism mechanism, CryptoKey key);
        private void Init(CryptoKey key, int keySize)
        {
            LegalKeySizesValue = s_KeySizes;

            m_keyGenMech = new Mechanism(MechanismType.DSA_KEY_PAIR_GEN);
            m_signatureMech = new Mechanism(MechanismType.DSA);
            m_hashAlgorithm   = MechanismType.SHA_1;

            if (key == null)
            {
                KeySize = keySize;
            }
            else
            {
                if (key.Type != CryptoKey.KeyType.DSA) throw new ArgumentException();

                KeyPair = key;
            }
        }
 /// <summary>
 /// Initializes a new instance of the DSACryptoServiceProvider class with the specified CryptoKey object.
 /// </summary>
 /// <param name="dsaKey">The key object which the Aes algorithm will use for cryptographic operations.</param>
 public DSACryptoServiceProvider(CryptoKey dsaKey)
     : base(dsaKey.Session, false)
 {
     Init(dsaKey, -1);
 }
 /// <summary>
 /// Initializes a new instance of the TripleDESCryptoServiceProvider class.
 /// </summary>
 /// <param name="key">The key to be used for TripleDES operations.</param>
 public TripleDESCryptoServiceProvider(CryptoKey key)
     : base(key.Session, false)
 {
     Init(key, key.Size);
 }
 /// <summary>
 /// When overridden in a derived class, creates a symmetric decryptor object with the specified Key property and initialization vector (IV).
 /// </summary>
 /// <param name="hKey">The secret key to use for the symmetric algorithm.</param>
 /// <param name="rgbIV">The initialization vector to use for the symmetric algorithm.</param>
 /// <returns>A symmetric decryptor object.</returns>
 public abstract ICryptoTransform CreateDecryptor(CryptoKey hKey, byte[] rgbIV);
 /// <summary>
 /// Initializes a new instance of the KeyedHashAlgorithm class with the specified algorithm and key object.
 /// </summary>
 /// <param name="algorithm">The keyed hash algorithm to be used (HMACSHA1, HMACRIPEMD160, etc.)</param>
 /// <param name="key">The Cryptoki key object that will be used to sign the hashed value.</param>
 public KeyedHashAlgorithm(KeyedHashAlgorithmType algorithm, CryptoKey key)
     : base((HashAlgorithmType)algorithm, key.Session)
 {
     Key = key;
     OwnsKey = false;
 }
 /// <summary>
 /// Initializes a new instance of the AesCryptoServiceProvider class for the specified CryptoKey object.
 /// </summary>
 /// <param name="key">The key object which the Aes algorithm will for cryptographic operations.</param>
 public AesCryptoServiceProvider(CryptoKey key) :
     base(key.Session, false)
 {
     Init(key, -1);
 }
        private void Init(CryptoKey key, int keySize)
        {
            LegalKeySizesValue = s_legalKeySizes;

            if (key == null)
            {
                KeySize = DefaultKeySize;
            }
            else
            {
                if (key.Type != CryptoKey.KeyType.EC)
                {
                    throw new ArgumentException();
                }

                KeyPair = key;
            }
        }
 /// <summary>
 /// Initializes a new instance of the ECDiffieHellmanCng class with a random key pair, using the specified Key object.
 /// </summary>
 /// <param name="key">The key object which the ECDH algorithm will use for cryptographic operations.</param>
 public ECDiffieHellmanCryptoServiceProvider(CryptoKey key) 
     : base(key.Session, false)
 {
     Init(key, -1);
 }
Exemple #21
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 private extern void DigestKeyInternal(CryptoKey hKey);
        /// <summary>
        /// Creates a symmetric TripleDES encryptor object with the specified key (Key) and initialization vector (IV).
        /// </summary>
        /// <param name="key">The secret key to use for the symmetric algorithm.</param>
        /// <param name="iv">The initialization vector to use for the symmetric algorithm.</param>
        /// <returns>A symmetric TripleDES encryptor object.</returns>
        public override ICryptoTransform CreateEncryptor(CryptoKey key, byte[] iv)
        {
            Mechanism mech = new Mechanism(MechanismType);

            mech.Parameter = null;
            if (iv != null)
            {
                mech.Parameter = (byte[])iv.Clone();
            }

            return new Encryptor(m_session, mech, key, BlockSize, BlockSize);
        }
Exemple #23
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 private extern void VerifyInit(Session session, Mechanism mechanism, CryptoKey key);