| 1. | Algorithm provided by the cryptographic service provider
算法的实现执行不对称加密和解密。 |
| 2. | Public - key encryption asymmetric cryptography
公钥加密(不对称加密) |
| 3. | Creates optimal asymmetric encryption padding oaep key exchange data using
创建最优不对称加密填充( oaep )密钥交换数据。 |
| 4. | Decrypts optimal asymmetric encryption padding oaep key exchange data
对最优不对称加密填充( oaep )密钥交换数据进行解密。 |
| 5. | Is using optimal asymmetric encryption padding oaep key exchange data ; otherwise ,
使用最优不对称加密填充( oaep )密钥交换数据,则为 |
| 6. | Gets the parameters for the optimal asymmetric encryption padding oaep key exchange
获取最优不对称加密填充( oaep )密钥交换的参数。 |
| 7. | Gets a value indicating whether the provider is using optimal asymmetric encryption padding oaep key exchange data
获取指示提供程序是否正在使用最优不对称加密填充( oaep )密钥交换数据的值。 |
| 8. | To communicate a symmetric key and iv to a remote party , you would usually encrypt the symmetric key and iv using asymmetric encryption
为了将对称密钥和iv传送给远程方,通常使用不对称加密来加密对称密钥和iv 。 |
| 9. | Provides an introduction to key concepts in cryptography , such as asymmetric cryptography , symmetric cryptography , digital signatures , and cryptographic hashes
介绍加密的主要概念,例如不对称加密、对称加密、数字签名和加密哈希。 |
| 10. | Namespace contains classes that allow you to perform both symmetric and asymmetric cryptography , create hashes , and provide random number generation
命名空间包含一些类,通过这些类您可以执行对称和不对称加密,创建哈希值和提供随机数生成。 |
