本文整理汇总了C#中System.Security.Cryptography.AsymmetricAlgorithm类的典型用法代码示例。如果您正苦于以下问题:C# AsymmetricAlgorithm类的具体用法?C# AsymmetricAlgorithm怎么用?C# AsymmetricAlgorithm使用的例子?那么恭喜您, 这里精选的类代码示例或许可以为您提供帮助。
AsymmetricAlgorithm类属于System.Security.Cryptography命名空间,在下文中一共展示了AsymmetricAlgorithm类的2个代码示例,这些例子默认根据受欢迎程度排序。您可以为喜欢或者感觉有用的代码点赞,您的评价将有助于我们的系统推荐出更棒的C#代码示例。
示例1: AssemblyKeyFile
//引入命名空间
using System;
using System.Xml;
using System.Text;
using System.Security.Cryptography;
using System.Reflection;
[assembly: AssemblyKeyFile("CustomCrypto.snk")]
[assembly: AssemblyVersion("1.0.0.0")]
[assembly: CLSCompliant(true)]
namespace Contoso
{
// Define a CustomCrypto class that inherits from the AsymmetricAlgorithm
// class.
public class CustomCrypto :
System.Security.Cryptography.AsymmetricAlgorithm
{
// Declare local member variables.
private CspParameters cspParameters;
private readonly KeySizes[] keySizes = {new KeySizes(8, 64, 8)};
// Initialize a CustomCrypto with the default key size of 8.
public CustomCrypto()
{
this.KeySize = 8;
}
// Initialize a CustomCrypto with the specified key size.
public CustomCrypto(int keySize)
{
this.KeySize = keySize;
}
// Accessor function for keySizes member variable.
public override KeySizes[] LegalKeySizes
{
get { return (KeySizes[])keySizes.Clone(); }
}
// Modify the KeySizeValue property inherited from the Asymmetric
// class. Prior to setting the value, ensure it falls within the
// range identified in the local keySizes member variable.
public override int KeySize
{
get { return KeySizeValue; }
set
{
for (int i=0; i < keySizes.Length; i++)
{
if (keySizes[i].SkipSize == 0)
{
if (keySizes[i].MinSize == value)
{
KeySizeValue = value;
return;
}
}
else
{
for (int j = keySizes[i].MinSize;
j <= keySizes[i].MaxSize;
j += keySizes[i].SkipSize)
{
if (j == value)
{
KeySizeValue = value;
return;
}
}
}
}
// If the key does not fall within the range identified
// in the keySizes member variable, throw an exception.
throw new CryptographicException("Invalid key size.");
}
}
// Initialize the parameters with default values.
public void InitializeParameters()
{
cspParameters = new CspParameters();
cspParameters.ProviderName = "Contoso";
cspParameters.KeyContainerName = "SecurityBin1";
cspParameters.KeyNumber = 1;
cspParameters.ProviderType = 2;
}
// Parse specified xmlString for values to populate the CspParams
// Expected XML schema:
// <ProviderName></ProviderName>
// <KeyContainerName></KeyContainerName>
// <KeyNumber></KeyNumber>
// <ProviderType></ProviderType>
public override void FromXmlString(string xmlString)
{
if (xmlString != null)
{
XmlDocument doc = new XmlDocument();
doc.LoadXml(xmlString);
XmlNode firstNode = doc.FirstChild;
XmlNodeList nodeList;
// Assemble parameters from values in each XML element.
cspParameters = new CspParameters();
// KeyContainerName is optional.
nodeList = doc.GetElementsByTagName("KeyContainerName");
string keyName = nodeList.Item(0).InnerText;
if (keyName != null)
{
cspParameters.KeyContainerName = keyName;
}
// KeyNumber is optional.
nodeList = doc.GetElementsByTagName("KeyNumber");
string keyNumber = nodeList.Item(0).InnerText;
if (keyNumber != null)
{
cspParameters.KeyNumber = Int32.Parse(keyNumber);
}
// ProviderName is optional.
nodeList = doc.GetElementsByTagName("ProviderName");
string providerName = nodeList.Item(0).InnerText;
if (providerName != null)
{
cspParameters.ProviderName = providerName;
}
// ProviderType is optional.
nodeList = doc.GetElementsByTagName("ProviderType");
string providerType = nodeList.Item(0).InnerText;
if (providerType != null)
{
cspParameters.ProviderType = Int32.Parse(providerType);
}
}
else
{
throw new ArgumentNullException("xmlString");
}
}
// Create an XML string representation of the parameters in the
// current customCrypto object.
public override string ToXmlString(bool includePrivateParameters)
{
string keyContainerName = "";
string keyNumber = "";
string providerName = "";
string providerType = "";
if (cspParameters != null)
{
keyContainerName = cspParameters.KeyContainerName;
keyNumber = cspParameters.KeyNumber.ToString();
providerName = cspParameters.ProviderName;
providerType = cspParameters.ProviderType.ToString();
}
StringBuilder sb = new StringBuilder();
sb.Append("<CustomCryptoKeyValue>");
sb.Append("<KeyContainerName>");
sb.Append(keyContainerName);
sb.Append("</KeyContainerName>");
sb.Append("<KeyNumber>");
sb.Append(keyNumber);
sb.Append("</KeyNumber>");
sb.Append("<ProviderName>");
sb.Append(providerName);
sb.Append("</ProviderName>");
sb.Append("<ProviderType>");
sb.Append(providerType);
sb.Append("</ProviderType>");
sb.Append("</CustomCryptoKeyValue>");
return(sb.ToString());
}
// Return the name for the key exchange algorithm.
public override string KeyExchangeAlgorithm
{
get {return "RSA-PKCS1-KeyEx";}
}
// Retrieves the name of the signature alogrithm.
public override string SignatureAlgorithm
{
get {return "http://www.w3.org/2000/09/xmldsig#rsa-sha1";}
}
// Required member for implementing the AsymmetricAlgorithm class.
protected override void Dispose(bool disposing) {}
// Call the Create method using the CustomCrypto assembly name.
// The create function attempts to create a CustomCrypto object using
// the assembly name. This functionality requires modification of the
// machine.config file. Add the following section to the configuration
// element and modify the values of the cryptoClass to reflect what is
// installed in your machines GAC.
// <cryptoClass CustomCrypto="Contoso.CustomCrypto,
// CustomCrypto,
// Culture=neutral,
// PublicKeyToken=fdb9f9c4851028bf,
// Version=1.0.1448.27640" />
// <nameEntry name="Contoso.CustomCrypto" class="CustomCrypto" />
// <nameEntry name="CustomCrypto" class="CustomCrypto" />
new static public CustomCrypto Create()
{
return Create("CustomCrypto");
}
// Create a CustomCrypto object by calling CrytoConfig's
// CreateFromName method and casting the type to CustomCrypto.
// The create function attempts to create a CustomCrypto object using
// the assembly name. This functionality requires modification of the
// machine.config file. Add the following section to the configuration
// element and modify the values of the cryptoClass to reflect what is
// installed in your machines GAC.
// <cryptoClass CustomCrypto="Contoso.CustomCrypto,
// CustomCrypto,
// Culture=neutral,
// PublicKeyToken=fdb9f9c4851028bf,
// Version=1.0.1448.27640" />
// <nameEntry name="Contoso.CustomCrypto" class="CustomCrypto" />
// <nameEntry name="CustomCrypto" class="CustomCrypto" />
new static public CustomCrypto Create(String algorithmName)
{
return (CustomCrypto) CryptoConfig.CreateFromName(algorithmName);
}
}
class CustomCryptoImpl
{
[STAThread]
static void Main(string[] args)
{
// Construct a CustomCrypto object and initialize its
// CspParameters.
CustomCrypto customCrypto = new CustomCrypto();
customCrypto.InitializeParameters();
// Display properties of the current customCrypto object.
Console.WriteLine("*** CustomCrypto created with default " +
"parameters:");
DisplayProperties(customCrypto);
// Release all the resources used by this instance of
// CustomCrytpo.
customCrypto.Clear();
customCrypto = new CustomCrypto(64);
// Create new parameters and set them by using the FromXmlString
// method.
string parameterXml = "<CustomCryptoKeyValue>";
parameterXml += "<ProviderName>Contoso</ProviderName>";
parameterXml += "<KeyContainerName>SecurityBin2";
parameterXml += "</KeyContainerName>";
parameterXml += "<KeyNumber>1</KeyNumber>";
parameterXml += "<ProviderType>2</ProviderType>";
parameterXml += "</CustomCryptoKeyValue>";
customCrypto.FromXmlString(parameterXml);
// Display the properties of a customCrypto object created with
// custom parameters.
Console.WriteLine("\n*** " +
"CustomCrypto created with custom parameters:");
DisplayProperties(customCrypto);
// Create an object by using the assembly name.
try
{
CustomCrypto myCryptoA = CustomCrypto.Create("CustomCrypto");
if (myCryptoA != null)
{
Console.Write("\n*** " +
"Successfully created CustomCrytpo from");
Console.WriteLine(" the Create method.");
DisplayProperties(myCryptoA);
}
else
{
Console.Write("Unable to create CustomCrytpo from ");
Console.WriteLine(" the Create method.");
}
}
catch (Exception ex)
{
Console.WriteLine(ex.ToString());
}
Console.WriteLine("This sample completed successfully; " +
"press Enter to exit.");
Console.ReadLine();
}
// Display the properties of the specified CustomCrypto object to the
// console.
public static void DisplayProperties(CustomCrypto customCrypto)
{
try
{
// Retrieve the class description for the customCrypto object.
string classDescription = customCrypto.ToString();
Console.WriteLine(classDescription);
Console.Write("KeyExchangeAlgorithm: ");
Console.WriteLine(customCrypto.KeyExchangeAlgorithm);
Console.Write("SignatureAlgorithm: ");
Console.WriteLine(customCrypto.SignatureAlgorithm);
Console.WriteLine("KeySize: " + customCrypto.KeySize);
Console.WriteLine("Parameters described in Xml format:");
Console.WriteLine(customCrypto.ToXmlString(true));
// Display the MinSize, MaxSize, and SkipSize properties of
// each KeySize item in the local keySizes member variable.
KeySizes[] legalKeySizes = customCrypto.LegalKeySizes;
if (legalKeySizes.Length > 0)
{
for (int i=0; i < legalKeySizes.Length; i++)
{
Console.Write("Keysize" + i + " min, max, step: ");
Console.Write(legalKeySizes[i].MinSize + ", ");
Console.Write(legalKeySizes[i].MaxSize + ", ");
Console.WriteLine(legalKeySizes[i].SkipSize + ", ");
}
}
}
catch (Exception ex)
{
Console.WriteLine("Caught unexpected exception: " +
ex.ToString());
}
}
}
}
//
开发者ID:.NET开发者,项目名称:System.Security.Cryptography,代码行数:341,代码来源:AsymmetricAlgorithm 输出:
*** CustomCrypto created with default parameters:
Contoso.vbCustomCrypto
KeyExchangeAlgorithm: RSA-PKCS1-KeyEx
SignatureAlgorithm: http://www.w3.org/2000/09/xmldsig#rsa-sha1
KeySize: 8
Parameters described in Xml format:
SecurityBin1
1Contoso
2
Keysize0 min, max, step: 8, 64, 8,
*** CustomCrypto created with custom parameters:
Contoso.vbCustomCrypto
KeyExchangeAlgorithm: RSA-PKCS1-KeyEx
SignatureAlgorithm: http://www.w3.org/2000/09/xmldsig#rsa-sha1
KeySize: 64
Parameters described in Xml format:
SecurityBin2
1Contoso
2
Keysize0 min, max, step: 8, 64, 8,
Unable to create CustomCrytpo from the Create method
This sample completed successfully; press Exit to continue.
示例2: DisplayProperties
class CustomCryptoImpl
{
[STAThread]
static void Main(string[] args)
{
// Construct a CustomCrypto object and initialize its
// CspParameters.
CustomCrypto customCrypto = new CustomCrypto();
customCrypto.InitializeParameters();
// Display properties of the current customCrypto object.
Console.WriteLine("*** CustomCrypto created with default " +
"parameters:");
DisplayProperties(customCrypto);
// Release all the resources used by this instance of
// CustomCrytpo.
customCrypto.Clear();
customCrypto = new CustomCrypto(64);
// Create new parameters and set them by using the FromXmlString
// method.
string parameterXml = "<CustomCryptoKeyValue>";
parameterXml += "<ProviderName>Contoso</ProviderName>";
parameterXml += "<KeyContainerName>SecurityBin2";
parameterXml += "</KeyContainerName>";
parameterXml += "<KeyNumber>1</KeyNumber>";
parameterXml += "<ProviderType>2</ProviderType>";
parameterXml += "</CustomCryptoKeyValue>";
customCrypto.FromXmlString(parameterXml);
// Display the properties of a customCrypto object created with
// custom parameters.
Console.WriteLine("\n*** " +
"CustomCrypto created with custom parameters:");
DisplayProperties(customCrypto);
// Create an object by using the assembly name.
try
{
CustomCrypto myCryptoA = CustomCrypto.Create("CustomCrypto");
if (myCryptoA != null)
{
Console.Write("\n*** " +
"Successfully created CustomCrytpo from");
Console.WriteLine(" the Create method.");
DisplayProperties(myCryptoA);
}
else
{
Console.Write("Unable to create CustomCrytpo from ");
Console.WriteLine(" the Create method.");
}
}
catch (Exception ex)
{
Console.WriteLine(ex.ToString());
}
Console.WriteLine("This sample completed successfully; " +
"press Enter to exit.");
Console.ReadLine();
}
// Display the properties of the specified CustomCrypto object to the
// console.
public static void DisplayProperties(CustomCrypto customCrypto)
{
try
{
// Retrieve the class description for the customCrypto object.
string classDescription = customCrypto.ToString();
Console.WriteLine(classDescription);
Console.Write("KeyExchangeAlgorithm: ");
Console.WriteLine(customCrypto.KeyExchangeAlgorithm);
Console.Write("SignatureAlgorithm: ");
Console.WriteLine(customCrypto.SignatureAlgorithm);
Console.WriteLine("KeySize: " + customCrypto.KeySize);
Console.WriteLine("Parameters described in Xml format:");
Console.WriteLine(customCrypto.ToXmlString(true));
// Display the MinSize, MaxSize, and SkipSize properties of
// each KeySize item in the local keySizes member variable.
KeySizes[] legalKeySizes = customCrypto.LegalKeySizes;
if (legalKeySizes.Length > 0)
{
for (int i=0; i < legalKeySizes.Length; i++)
{
Console.Write("Keysize" + i + " min, max, step: ");
Console.Write(legalKeySizes[i].MinSize + ", ");
Console.Write(legalKeySizes[i].MaxSize + ", ");
Console.WriteLine(legalKeySizes[i].SkipSize + ", ");
}
}
}
catch (Exception ex)
{
Console.WriteLine("Caught unexpected exception: " +
ex.ToString());
}
}
}
}
//
开发者ID:.NET开发者,项目名称:System.Security.Cryptography,代码行数:105,代码来源:AsymmetricAlgorithm 输出:
*** CustomCrypto created with default parameters:
Contoso.vbCustomCrypto
KeyExchangeAlgorithm: RSA-PKCS1-KeyEx
SignatureAlgorithm: http://www.w3.org/2000/09/xmldsig#rsa-sha1
KeySize: 8
Parameters described in Xml format:
SecurityBin1
1Contoso
2
Keysize0 min, max, step: 8, 64, 8,
*** CustomCrypto created with custom parameters:
Contoso.vbCustomCrypto
KeyExchangeAlgorithm: RSA-PKCS1-KeyEx
SignatureAlgorithm: http://www.w3.org/2000/09/xmldsig#rsa-sha1
KeySize: 64
Parameters described in Xml format:
SecurityBin2
1Contoso
2
Keysize0 min, max, step: 8, 64, 8,
Unable to create CustomCrytpo from the Create method
This sample completed successfully; press Exit to continue.
注:本文中的System.Security.Cryptography.AsymmetricAlgorithm类示例整理自Github/MSDocs等源码及文档管理平台,相关代码片段筛选自各路编程大神贡献的开源项目,源码版权归原作者所有,传播和使用请参考对应项目的License;未经允许,请勿转载。 |
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