C#加密解密方法.doc

《C#加密解密方法.doc》由会员分享，可在线阅读，更多相关《C#加密解密方法.doc（26页珍藏版）》请在咨信网上搜索。

.NET 与 Java DES 加密\解密 互通 方式 2009-1-9 17:44:54 由于.net DES 对称算法的运算模式。默认值为CipherMode.CBC（密码块链模式） 而java默认运算模式是ECB（电子密码本模式 ）,具体模式介绍请参考MSDN 所以 只需要指定DES 对称算法的运算模式为ECB 就可以实现与Java DES加密、解密的互通 附上.net DES加密、解密代码 using System; using System.Text; using System.Security.Cryptography; /// <summary> /// DESEncrypt 的摘要说明。 /// </summary> public class DESEncrypt { public DESEncrypt() { } #region ========加密======== /// <summary> /// 加密 /// </summary> /// <param name="Text"></param> /// <returns></returns> public static string Encrypt(string Text) { return Encrypt(Text,"xxxxxxx"); } /// <summary> /// 加密数据 /// </summary> /// <param name="Text"></param> /// <param name="sKey"></param> /// <returns></returns> public static string Encrypt(string Text,string sKey) { DESCryptoServiceProvider des = new DESCryptoServiceProvider(); des.Mode = System.Security.Cryptography.CipherMode.ECB; byte[] inputByteArray; inputByteArray=Encoding.Default.GetBytes(Text); des.Key = ASCIIEncoding.ASCII.GetBytes(sKey); des.IV =ASCIIEncoding.ASCII.GetBytes(sKey); System.IO.MemoryStream ms=new System.IO.MemoryStream(); CryptoStream cs=new CryptoStream(ms,des.CreateEncryptor(),CryptoStreamMode.Write); cs.Write(inputByteArray,0,inputByteArray.Length); cs.FlushFinalBlock(); StringBuilder ret=new StringBuilder(); foreach( byte b in ms.ToArray()) { ret.AppendFormat("{0:X2}",b); } return ret.ToString(); } #endregion #region ========解密======== /// <summary> /// 解密 /// </summary> /// <param name="Text"></param> /// <returns></returns> public static string Decrypt(string Text) { return Decrypt(Text,"xxxxxxx"); } /// <summary> /// 解密数据 /// </summary> /// <param name="Text"></param> /// <param name="sKey"></param> /// <returns></returns> public static string Decrypt(string Text,string sKey) { DESCryptoServiceProvider des = new DESCryptoServiceProvider(); des.Mode = System.Security.Cryptography.CipherMode.ECB; int len; len=Text.Length/2; byte[] inputByteArray = new byte[len]; int x,i; for(x=0;x<len;x++) { i = Convert.ToInt32(Text.Substring(x * 2, 2), 16); inputByteArray[x]=(byte)i; } des.Key = ASCIIEncoding.ASCII.GetBytes(sKey); des.IV = ASCIIEncoding.ASCII.GetBytes(sKey); System.IO.MemoryStream ms=new System.IO.MemoryStream(); CryptoStream cs=new CryptoStream(ms,des.CreateDecryptor(),CryptoStreamMode.Write); cs.Write(inputByteArray,0,inputByteArray.Length); cs.FlushFinalBlock(); return Encoding.Default.GetString(ms.ToArray()); } #endregion }[原文地址： 今天碰上一件令我头大的事情。我们的系统要和一个外部系统进行通讯，传输方式是采用 DES 算法对消息进行加密，再用 BASE64 编码。不过对方系统是用 C# 写的。平台不一样，于是我和对面的老兄先测试一下加密解密。这一测试问题就来了。两边采用同样的密钥，对同一个字符串加密出来的结果不一样。怎么办呢？我先把他那边的代码要过来了，他是这样写的(C#)： public static string Encrypt(string message, string key) { DES des = new DESCryptoServiceProvider(); des.Key = Encoding.UTF8.GetBytes(key); des.IV = Encoding.UTF8.GetBytes(key); byte[] bytes = Encoding.UTF8.GetBytes(message); byte[] resultBytes = des.CreateEncryptor().TransformFinalBlock(bytes, 0, bytes.Length); return Convert.ToBase64String(resultBytes); } 而我这边呢，是用 Java 这样写的（仅仅加密到字节串，BASE64 编码是在另一个类里）： public static byte[] desEncrypt(String message, String key) throws Exception { Cipher cipher = Cipher.getInstance("DES"); DESKeySpec desKeySpec = new DESKeySpec(key.getBytes("UTF-8")); SecretKeyFactory keyFactory = SecretKeyFactory.getInstance("DES"); SecretKey secretKey = keyFactory.generateSecret(desKeySpec); cipher.init(Cipher.ENCRYPT_MODE, secretKey); return cipher.doFinal(message.getBytes("UTF-8")); } 两边一对比我就奇怪了，他那边怎么有个 IV (initialization vector)？我打开JDK文档一看Cipher类，竟然也有一个getIV()方法。看来这 IV 大有来头。于是在JDK文档里面到处找IV，找到了一个叫“IvParameterSpec“的类，莫非就是它？它实现的是 AlgorithmParameterSpec 接口，而Cipher.init()中就有一个 AlgorithmParameterSpec 类型的参数。那么看来就是它了。于是参考了IvParameterSpec的构造函数后，我这样把它加进去： public static byte[] desEncrypt(String message, String key) throws Exception { Cipher cipher = Cipher.getInstance("DES"); DESKeySpec desKeySpec = new DESKeySpec(key.getBytes("UTF-8")); SecretKeyFactory keyFactory = SecretKeyFactory.getInstance("DES"); SecretKey secretKey = keyFactory.generateSecret(desKeySpec); IvParameterSpec iv = new IvParameterSpec(key.getBytes("UTF-8")); cipher.init(Cipher.ENCRYPT_MODE, secretKey, iv); return cipher.doFinal(message.getBytes("UTF-8")); } 这下行了吧，结果一运行报异常： java.security.InvalidAlgorithmParameterException: ECB mode cannot use IV 这又是什么？ “ECB”？ 还是找吧，在JDK文档中找到了这么几句鬼东西： the SunJCE provider uses ECB as the default mode, and PKCS5 Padding as the default padding scheme for DES, DES-EDE and Blowfish ciphers. This means that in the case of the SunJCE provider, Cipher c1 = Cipher.getInstance("DES/ECB/PKCS5Padding"); and Cipher c1 = Cipher.getInstance("DES"); are equivalent statements. 哦，问题就出在方法里的第一行。那么不准用 ECB，该用什么呢？在该文往下找，找到了这么几项： The following names can be specified as the mode component in a transformation when requesting an instance of Cipher: NONE: No mode. CBC: Cipher Block Chaining Mode, as defined in FIPS PUB 81. CFB: Cipher Feedback Mode, as defined in FIPS PUB 81. ECB: Electronic Codebook Mode, as defined in: The National Institute of Standards and Technology (NIST) Federal Information Processing Standard (FIPS) PUB 81, "DES Modes of Operation," U.S. Department of Commerce, Dec 1980. OFB: Output Feedback Mode, as defined in FIPS PUB 81. PCBC: Propagating Cipher Block Chaining, as defined by Kerberos V4. 我这样都换着试一下就行了。哎，运气不错，拿着第一个 CBC 试一下就成功了，加密后的字符串也“正确”了。 我那个方法就变成这样： public static byte[] desEncrypt(String message, String key) throws Exception { Cipher cipher = Cipher.getInstance("DES/CBC/PKCS5Padding"); DESKeySpec desKeySpec = new DESKeySpec(key.getBytes("UTF-8")); SecretKeyFactory keyFactory = SecretKeyFactory.getInstance("DES"); SecretKey secretKey = keyFactory.generateSecret(desKeySpec); IvParameterSpec iv = new IvParameterSpec(key.getBytes("UTF-8")); cipher.init(Cipher.ENCRYPT_MODE, secretKey, iv); return cipher.doFinal(message.getBytes("UTF-8")); } 这样，解决了这个 ECB 之后，Java 和 .net 平台的两个应用终于能够相互加密和解密数据了。 [原文地址： 2010-07-08 11:32 这里贴出来的是可通用的C#与java的DES加密类，希望对大家管用直接复制即可用 C#DES加密解密类 ///<summary><![CDATA[加密解密帮助类]]></summary> public class Help_Encrypt { ///<summary><![CDATA[字符串DES加密函数]]></summary> ///<param name="str"><![CDATA[被加密字符串 ]]></param> ///<param name="key"><![CDATA[密钥 ]]></param> ///<returns><![CDATA[加密后字符串]]></returns> public static string Encode(string str, string key) { try { DESCryptoServiceProvider provider = new DESCryptoServiceProvider(); provider.Key = Encoding.ASCII.GetBytes(key.Substring(0, 8)); provider.IV = Encoding.ASCII.GetBytes(key.Substring(0, 8)); byte[] bytes = Encoding.GetEncoding("GB2312").GetBytes(str); MemoryStream stream = new MemoryStream(); CryptoStream stream2 = new CryptoStream(stream, provider.CreateEncryptor(), CryptoStreamMode.Write); stream2.Write(bytes, 0, bytes.Length); stream2.FlushFinalBlock(); StringBuilder builder = new StringBuilder(); foreach (byte num in stream.ToArray()) { builder.AppendFormat("{0:X2}", num); } stream.Close(); return builder.ToString(); } catch (Exception) { return "xxxx"; } } ///<summary><![CDATA[字符串DES解密函数]]></summary> ///<param name="str"><![CDATA[被解密字符串 ]]></param> ///<param name="key"><![CDATA[密钥 ]]></param> ///<returns><![CDATA[解密后字符串]]></returns> public static string Decode(string str, string key) { try { DESCryptoServiceProvider provider = new DESCryptoServiceProvider(); provider.Key = Encoding.ASCII.GetBytes(key.Substring(0, 8)); provider.IV = Encoding.ASCII.GetBytes(key.Substring(0, 8)); byte[] buffer = new byte[str.Length / 2]; for (int i = 0; i < (str.Length / 2); i++) { int num2 = Convert.ToInt32(str.Substring(i * 2, 2), 0x10); buffer[i] = (byte)num2; } MemoryStream stream = new MemoryStream(); CryptoStream stream2 = new CryptoStream(stream, provider.CreateDecryptor(), CryptoStreamMode.Write); stream2.Write(buffer, 0, buffer.Length); stream2.FlushFinalBlock(); stream.Close(); return Encoding.GetEncoding("GB2312").GetString(stream.ToArray()); } catch (Exception) { return ""; } } } JAVADES加密解密类 package com.bgxt.messages; import java.io.UnsupportedEncodingException; import java.security.*; import javax.crypto.Cipher; import javax.crypto.SecretKey; import javax.crypto.SecretKeyFactory; import javax.crypto.spec.DESKeySpec; import javax.crypto.spec.IvParameterSpec; /** * 字符串工具集合 * @author Liudong */ public class StringUtils { private static final String PASSWORD_CRYPT_KEY = XmlUtil.getConfig().getPasswdKey().substring(0,8); //private final static String DES = "DES"; //private static final byte[] desKey; //解密数据 public static String decrypt(String message,String key) throws Exception { byte[] bytesrc =convertHexString(message); Cipher cipher = Cipher.getInstance("DES/CBC/PKCS5Padding"); DESKeySpec desKeySpec = new DESKeySpec(key.getBytes("UTF-8")); SecretKeyFactory keyFactory = SecretKeyFactory.getInstance("DES"); SecretKey secretKey = keyFactory.generateSecret(desKeySpec); IvParameterSpec iv = new IvParameterSpec(key.getBytes("UTF-8")); cipher.init(Cipher.DECRYPT_MODE, secretKey, iv); byte[] retByte = cipher.doFinal(bytesrc); return new String(retByte); } public static byte[] encrypt(String message, String key) throws Exception { Cipher cipher = Cipher.getInstance("DES/CBC/PKCS5Padding"); DESKeySpec desKeySpec = new DESKeySpec(key.getBytes("UTF-8")); SecretKeyFactory keyFactory = SecretKeyFactory.getInstance("DES"); SecretKey secretKey = keyFactory.generateSecret(desKeySpec); IvParameterSpec iv = new IvParameterSpec(key.getBytes("UTF-8")); cipher.init(Cipher.ENCRYPT_MODE, secretKey, iv); return cipher.doFinal(message.getBytes("UTF-8")); } public static String encrypt(String value){ String result=""; try{ value=.URLEncoder.encode(value, "utf-8"); result=toHexString(encrypt(value, PASSWORD_CRYPT_KEY)).toUpperCase(); }catch(Exception ex){ ex.printStackTrace(); return ""; } return result; } public static byte[] convertHexString(String ss) { byte digest[] = new byte[ss.length() / 2]; for(int i = 0; i < digest.length; i++) { String byteString = ss.substring(2 * i, 2 * i + 2); int byteValue = Integer.parseInt(byteString, 16); digest[i] = (byte)byteValue; } return digest; } public static String toHexString(byte b[]) { StringBuffer hexString = new StringBuffer(); for (int i = 0; i < b.length; i++) { String plainText = Integer.toHexString(0xff & b[i]); if (plainText.length() < 2) plainText = "0" + plainText; hexString.append(plainText); } return hexString.toString(); } public static void main(String[] args) throws Exception { String value="01"; System.out.println("加密数据:"+value); System.out.println("密码为:"+XmlUtil.getConfig().getPasswdKey()); String a=encrypt( value); System.out.println("加密后的数据为:"+a); } }C#加密解密方法 1、方法一 (不可逆加密) public string EncryptPassword(string PasswordString,string PasswordFormat ) { string encryptPassword = null; if (PasswordFormat="SHA1"){ encryptPassword=FormsAuthortication.HashPasswordForStoringInConfigFile(PasswordString ,"SHA1"); } elseif (PasswordFormat="MD5") { encryptPassword=FormsAuthortication.HashPasswordForStoringInConfigFile(PasswordString ,"MD5"); } return encryptPassword ; } 2、方法二 (可逆加密) public interface IBindesh { string encode(string str); string decode(string str); } public class EncryptionDecryption : IBindesh { public string encode(string str) { string htext = ""; for ( int i = 0; i < str.Length; i++) { htext = htext + (char) (str[i] + 10 - 1_*2); } return htext; } public string decode(string str) { string dtext = ""; for ( int i=0; i < str.Length; i++) { dtext = dtext + (char) (str[i] - 10 + 1*2); } return dtext; } 3、方法三 (可逆加密) const string KEY_64 = "VavicApp";//注意了，是8个字符，64位 const string IV_64 = "VavicApp"; public string Encode(string data) { byte[] byKey = System.Text.ASCIIEncoding.ASCII.GetBytes(KEY_64); byte[] byIV = System.Text.ASCIIEncoding.ASCII.GetBytes(IV_64); DESCryptoServiceProvider cryptoProvider = new DESCryptoServiceProvider(); int i = cryptoProvider.KeySize; MemoryStream ms = new MemoryStream(); CryptoStream cst = new CryptoStream(ms, cryptoProvider.CreateEncryptor(byKey, byIV), CryptoStreamMode.Write); StreamWriter sw = new StreamWriter(cst); sw.Write(data); sw.Flush(); cst.FlushFinalBlock(); sw.Flush(); return Convert.ToBase64String(ms.GetBuffer(), 0, (int)ms.Length); } public string Decode(string data) { byte[] byKey = System.Text.