安全问题：C#做的一个加密/解密的类

代码如下：

using System;

using System.Security.Cryptography ;

using System.Text;

using System.IO;

namespace SEDO

{

/// <summary

/// SEDO 的摘要说明。

/// SEDO 实现的是用一个封装了4种对称加密方法(Des,Rc2,Rijndael,TripleDes)的组件

///

/// 注意事项：

/// 1:TripleDes和Rijndael加密/解密对象使用16或者24位byte的Key

/// 2:Rijndael只能使用16位的初始化向量IV

/// 3:Des和Rc2均使用8位Byte的Key和IV

/// 4:对需要加密/解密的数据流采用何种方法进行编码/解码，由调用组件的用户自己决定

/// 5:密钥和初始化向量IV由使用者自己定义

/// 程序员： 王海波 2003-05-19 hwnanghb@21cn.com

/// </summary

//定义加密类型的枚举

public enum EncryptionAlgorithm {Des = 1, Rc2, Rijndael, TripleDes};

//定义加密类

internal class EncryptTransformer

{

private EncryptionAlgorithm algorithmID;

private byte[] initVec;

private byte[] encKey;

internal EncryptTransformer(EncryptionAlgorithm algId)

{

//Save the algorithm being used.

algorithmID = algId;

}

internal ICryptoTransform GetCryptoServiceProvider(byte[] bytesKey)

{

//当数据密钥Key或者初始化向量IV为空的时候，将使用加密对象自动产生的密钥Key或者初始化向量IV

switch (algorithmID)

{

case EncryptionAlgorithm.Des:

{

DES des = new DESCryptoServiceProvider();

des.Mode = CipherMode.CBC;

// See if a key was provided

if (null == bytesKey)

{

encKey = des.Key;

}

else

{

des.Key = bytesKey;

encKey = des.Key;

}

// See if the client provided an initialization vector

if (null == initVec)

{ // Have the algorithm create one

initVec = des.IV;

}

else

{ //No, give it to the algorithm

des.IV = initVec;

}

return des.CreateEncryptor();

}

case EncryptionAlgorithm.TripleDes:

{

TripleDES des3 = new TripleDESCryptoServiceProvider();

des3.Mode = CipherMode.CBC;

// See if a key was provided

if (null == bytesKey)

{

encKey = des3.Key;

}

else

{

des3.Key = bytesKey;

encKey = des3.Key;

}

// See if the client provided an IV

if (null == initVec)

{ //Yes, have the alg create one

initVec = des3.IV;

}

else

{ //No, give it to the alg.

des3.IV = initVec;

}

return des3.CreateEncryptor();

}

case EncryptionAlgorithm.Rc2:

{

RC2 rc2 = new RC2CryptoServiceProvider();

rc2.Mode = CipherMode.CBC;

// Test to see if a key was provided

if (null == bytesKey)

{

encKey = rc2.Key;

}

else

{

rc2.Key = bytesKey;

encKey = rc2.Key;

}

// See if the client provided an IV

if (null == initVec)

{ //Yes, have the alg create one

initVec = rc2.IV;

}

else

{ //No, give it to the alg.

rc2.IV = initVec;

}

return rc2.CreateEncryptor();

}

case EncryptionAlgorithm.Rijndael:

{

Rijndael rijndael = new RijndaelManaged();

rijndael.Mode = CipherMode.CBC;

// Test to see if a key was provided

if(null == bytesKey)

{

encKey = rijndael.Key;

}

else

{

rijndael.Key = bytesKey;

encKey = rijndael.Key;

}

// See if the client provided an IV

if(null == initVec)

{ //Yes, have the alg create one

initVec = rijndael.IV;

}

else

{ //No, give it to the alg.

rijndael.IV = initVec;

}

return rijndael.CreateEncryptor();

}

default:

{

throw new CryptographicException("Algorithm ID '" +

algorithmID +

"' not supported.");

}

}

}

//加密的偏移向量

internal byte[] IV

{

get{return initVec;}

set{initVec = value;}

}

//加密的密钥

internal byte[] Key

{

get{return encKey;}

set{encKey = value;}

}

}

//定义解密类

internal class DecryptTransformer

{

private EncryptionAlgorithm algorithmID;

private byte[] initVec;

private byte[] encKey;

internal DecryptTransformer(EncryptionAlgorithm deCryptId)

{

algorithmID = deCryptId;

}

//加密的偏移向量

internal byte[] IV

{

get{return initVec;}

set{initVec = value;}

}

//加密的密钥

internal byte[] Key

{

get{return encKey;}

set{encKey = value;}

}

internal ICryptoTransform GetCryptoServiceProvider(byte[] bytesKey)

{

//当数据密钥Key或者初始化向量IV为空的时候，将使用加密对象自动产生的密钥Key或者初始化向量IV

switch (algorithmID)

{

case EncryptionAlgorithm.Des:

{

DES des = new DESCryptoServiceProvider();

des.Mode = CipherMode.CBC;

des.Key = bytesKey;

des.IV = initVec;

return des.CreateDecryptor();

}

case EncryptionAlgorithm.TripleDes:

{

TripleDES des3 = new TripleDESCryptoServiceProvider();

des3.Mode = CipherMode.CBC;

return des3.CreateDecryptor(bytesKey, initVec);

}

case EncryptionAlgorithm.Rc2:

{

RC2 rc2 = new RC2CryptoServiceProvider();

rc2.Mode = CipherMode.CBC;

return rc2.CreateDecryptor(bytesKey, initVec);

}

case EncryptionAlgorithm.Rijndael:

{

Rijndael rijndael = new RijndaelManaged();

rijndael.Mode = CipherMode.CBC;

return rijndael.CreateDecryptor(bytesKey, initVec);

}

default:

{

throw new CryptographicException("Algorithm ID '" +

algorithmID +

"' not supported.");

}

}

} //end GetCryptoServiceProvider

}

//定义加密者类

public class Encryptor

{

private EncryptTransformer transformer;

private byte[] initVec;

private byte[] encKey;

public Encryptor(EncryptionAlgorithm algId)

{

transformer = new EncryptTransformer(algId);

}

public byte[] Encrypt(byte[] bytesData, byte[] bytesKey,byte[] bytesIV)

{

//设置流对象用来保存加密数据字节流.

MemoryStream memStreamEncryptedData = new MemoryStream();

transformer.IV=bytesIV;

transformer.Key=bytesKey;

ICryptoTransform transform = transformer.GetCryptoServiceProvider(bytesKey);

CryptoStream encStream = new CryptoStream(memStreamEncryptedData,transform,CryptoStreamMode.Write);

try

{

//将加密数据写进流对象

encStream.Write(bytesData, 0, bytesData.Length);

}

catch(Exception ex)

{

throw new Exception("在数据加密的时候出现错误！错误提示： \n"

+ ex.Message);

}

//设置加密的Key和初始向量IV属性

encKey = transformer.Key;

initVec = transformer.IV;

encStream.FlushFinalBlock();

encStream.Close();

//Send the data back.

return memStreamEncryptedData.ToArray();

}

public byte[] IV

{

get{return initVec;}

set{initVec = value;}

}

public byte[] Key

{

get{return encKey;}

set{encKey = value;}

}

}

//定义解密者类

public class Decryptor

{

private DecryptTransformer transformer;

private byte[] initVec;

private byte[] encKey;

public Decryptor(EncryptionAlgorithm algId)

{

transformer =

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