SymmetricKeyAlgorithmProvider Clase
Definición
Importante
Parte de la información hace referencia a la versión preliminar del producto, que puede haberse modificado sustancialmente antes de lanzar la versión definitiva. Microsoft no otorga ninguna garantía, explícita o implícita, con respecto a la información proporcionada aquí.
Representa un proveedor de algoritmos de clave simétrica. Para más información, consulte Claves criptográficas.
public ref class SymmetricKeyAlgorithmProvider sealed/// [Windows.Foundation.Metadata.ContractVersion(Windows.Foundation.UniversalApiContract, 65536)]
/// [Windows.Foundation.Metadata.MarshalingBehavior(Windows.Foundation.Metadata.MarshalingType.Agile)]
/// [Windows.Foundation.Metadata.Threading(Windows.Foundation.Metadata.ThreadingModel.Both)]
class SymmetricKeyAlgorithmProvider final[Windows.Foundation.Metadata.ContractVersion(typeof(Windows.Foundation.UniversalApiContract), 65536)]
[Windows.Foundation.Metadata.MarshalingBehavior(Windows.Foundation.Metadata.MarshalingType.Agile)]
[Windows.Foundation.Metadata.Threading(Windows.Foundation.Metadata.ThreadingModel.Both)]
public sealed class SymmetricKeyAlgorithmProviderPublic NotInheritable Class SymmetricKeyAlgorithmProvider- Herencia
- Atributos
Requisitos de Windows
| Familia de dispositivos |
Windows 10 (se introdujo en la versión 10.0.10240.0)
|
| API contract |
Windows.Foundation.UniversalApiContract (se introdujo en la versión v1.0)
|
Ejemplos
using Windows.Security.Cryptography;
using Windows.Security.Cryptography.Core;
using Windows.Storage.Streams;
namespace SampleSymmetricKeyAlgorithmProvider
{
sealed partial class SymmKeyAlgProviderApp : Application
{
public SymmKeyAlgProviderApp()
{
// Initialize the application.
this.InitializeComponent();
// Initialize the encryption process.
String strMsg = "1234567812345678"; // Data to encrypt.
String strAlgName = SymmetricAlgorithmNames.AesCbc;
UInt32 keyLength = 32; // Length of the key, in bytes
BinaryStringEncoding encoding; // Binary encoding value
IBuffer iv; // Initialization vector
CryptographicKey key; // Symmetric key
// Encrypt a message.
IBuffer buffEncrypted = this.SampleCipherEncryption(
strMsg,
strAlgName,
keyLength,
out encoding,
out iv,
out key);
// Decrypt a message.
this.SampleCipherDecryption(
strAlgName,
buffEncrypted,
iv,
encoding,
key);
}
public IBuffer SampleCipherEncryption(
String strMsg,
String strAlgName,
UInt32 keyLength,
out BinaryStringEncoding encoding,
out IBuffer iv,
out CryptographicKey key)
{
// Initialize the initialization vector.
iv = null;
// Initialize the binary encoding value.
encoding = BinaryStringEncoding.Utf8;
// Create a buffer that contains the encoded message to be encrypted.
IBuffer buffMsg = CryptographicBuffer.ConvertStringToBinary(strMsg, encoding);
// Open a symmetric algorithm provider for the specified algorithm.
SymmetricKeyAlgorithmProvider objAlg = SymmetricKeyAlgorithmProvider.OpenAlgorithm(strAlgName);
// Demonstrate how to retrieve the name of the algorithm used.
String strAlgNameUsed = objAlg.AlgorithmName;
// Determine whether the message length is a multiple of the block length.
// This is not necessary for PKCS #7 algorithms which automatically pad the
// message to an appropriate length.
if (!strAlgName.Contains("PKCS7"))
{
if ((buffMsg.Length % objAlg.BlockLength) != 0)
{
throw new Exception("Message buffer length must be multiple of block length.");
}
}
// Create a symmetric key.
IBuffer keyMaterial = CryptographicBuffer.GenerateRandom(keyLength);
key = objAlg.CreateSymmetricKey(keyMaterial);
// CBC algorithms require an initialization vector. Here, a random
// number is used for the vector.
if (strAlgName.Contains("CBC"))
{
iv = CryptographicBuffer.GenerateRandom(objAlg.BlockLength);
}
// Encrypt the data and return.
IBuffer buffEncrypt = CryptographicEngine.Encrypt(key, buffMsg, iv);
return buffEncrypt;
}
public void SampleCipherDecryption(
String strAlgName,
IBuffer buffEncrypt,
IBuffer iv,
BinaryStringEncoding encoding,
CryptographicKey key)
{
// Declare a buffer to contain the decrypted data.
IBuffer buffDecrypted;
// Open an symmetric algorithm provider for the specified algorithm.
SymmetricKeyAlgorithmProvider objAlg = SymmetricKeyAlgorithmProvider.OpenAlgorithm(strAlgName);
// The input key must be securely shared between the sender of the encrypted message
// and the recipient. The initialization vector must also be shared but does not
// need to be shared in a secure manner. If the sender encodes a message string
// to a buffer, the binary encoding method must also be shared with the recipient.
buffDecrypted = CryptographicEngine.Decrypt(key, buffEncrypt, iv);
// Convert the decrypted buffer to a string (for display). If the sender created the
// original message buffer from a string, the sender must tell the recipient what
// BinaryStringEncoding value was used. Here, BinaryStringEncoding.Utf8 is used to
// convert the message to a buffer before encryption and to convert the decrypted
// buffer back to the original plaintext.
String strDecrypted = CryptographicBuffer.ConvertBinaryToString(encoding, buffDecrypted);
}
}
}
Comentarios
Puede crear un objeto SymmetricKeyAlgorithmProvider llamando al método OpenAlgorithm estático y especificando uno de los siguientes nombres de algoritmo.
Sin relleno:+ DES_CBC
DES_ECB
3DES_CBC
3DES_ECB
RC2_CBC
RC2_ECB
AES_CBC
AES_ECB
Modos de relleno de bloques PKCS#7:+ AES_CBC_PKCS7
AES_ECB_PKCS7
DES_CBC_PKCS7
DES_ECB_PKCS7
3DES_CBC_PKCS7
3DES_ECB_PKCS7
RC2_CBC_PKCS7
RC2_ECB_PKCS7
Modos autenticados (consulte la clase EncryptedAndAuthenticatedData ):+ AES_GCM
AES_CCM
Cifrado de secuencia:+ RC4
Propiedades
| AlgorithmName |
Obtiene el nombre del algoritmo simétrico abierto. |
| BlockLength |
Obtiene el tamaño, en bytes, del bloque de cifrado para el algoritmo abierto. |
Métodos
| CreateSymmetricKey(IBuffer) |
Crea una clave simétrica. |
| OpenAlgorithm(String) |
Crea una instancia de la clase SymmetricKeyAlgorithmProvider y abre el algoritmo especificado para su uso. |