c# 实现MD5,SHA1,SHA256,SHA512等常用加密算法
2024-05-29 01:21:49
using System;
using System.IO;
using System.Data;
using System.Text;
using System.Diagnostics;
using System.Security;
using System.Security.Cryptography;
/**//*
* .Net框架由于拥有CLR提供的丰富库支持,只需很少的代码即可实现先前使用C等旧式语言很难实现的加密算法。本类实现一些常用机密算法,供参考。其中MD5算法返回Int的ToString字串。返回数字字母型结果的算法参见之前Blog文章
*/
namespace 档案数字化加工
{
/**//// <summary>
/// 类名:HashEncrypt
/// 作用:对传入的字符串进行Hash运算,返回通过Hash算法加密过的字串。
/// 属性:[无]
/// 构造函数额参数:
/// IsReturnNum:是否返回为加密后字符的Byte代码
/// IsCaseSensitive:是否区分大小写。
/// 方法:此类提供MD5,SHA1,SHA256,SHA512等四种算法,加密字串的长度依次增大。
/// </summary>
public class HashEncrypt
{
//private string strIN;
private bool isReturnNum;
private bool isCaseSensitive;
/**//// <summary>
/// 类初始化,此类提供MD5,SHA1,SHA256,SHA512等四种算法,加密字串的长度依次增大。
/// </summary>
/// <param name="IsCaseSensitive">是否区分大小写</param>
/// <param name="IsReturnNum">是否返回为加密后字符的Byte代码</param>
public HashEncrypt(bool IsCaseSensitive, bool IsReturnNum)
{
this.isReturnNum = IsReturnNum;
this.isCaseSensitive = IsCaseSensitive;
}
private string getstrIN(string strIN)
{
//string strIN = strIN;
if (strIN.Length == 0)
{
strIN = "~NULL~";
}
if (isCaseSensitive == false)
{
strIN = strIN.ToUpper();
}
return strIN;
}
public string MD5Encrypt(string strIN)
{
//string strIN = getstrIN(strIN);
byte[] tmpByte;
MD5 md5 = new MD5CryptoServiceProvider();
tmpByte = md5.ComputeHash(GetKeyByteArray(getstrIN(strIN)));
md5.Clear();
return GetStringValue(tmpByte);
}
public string SHA1Encrypt(string strIN)
{
//string strIN = getstrIN(strIN);
byte[] tmpByte;
SHA1 sha1 = new SHA1CryptoServiceProvider();
tmpByte = sha1.ComputeHash(GetKeyByteArray(strIN));
sha1.Clear();
return GetStringValue(tmpByte);
}
public string SHA256Encrypt(string strIN)
{
//string strIN = getstrIN(strIN);
byte[] tmpByte;
SHA256 sha256 = new SHA256Managed();
tmpByte = sha256.ComputeHash(GetKeyByteArray(strIN));
sha256.Clear();
return GetStringValue(tmpByte);
}
public string SHA512Encrypt(string strIN)
{
//string strIN = getstrIN(strIN);
byte[] tmpByte;
SHA512 sha512 = new SHA512Managed();
tmpByte = sha512.ComputeHash(GetKeyByteArray(strIN));
sha512.Clear();
return GetStringValue(tmpByte);
}
/**//// <summary>
/// 使用DES加密(Added by niehl 2005-4-6)
/// </summary>
/// <param name="originalValue">待加密的字符串</param>
/// <param name="key">密钥(最大长度8)</param>
/// <param name="IV">初始化向量(最大长度8)</param>
/// <returns>加密后的字符串</returns>
public string DESEncrypt(string originalValue, string key, string IV)
{
//将key和IV处理成8个字符
key += "12345678";
IV += "12345678";
key = key.Substring(0, 8);
IV = IV.Substring(0, 8);
SymmetricAlgorithm sa;
ICryptoTransform ct;
MemoryStream ms;
CryptoStream cs;
byte[] byt;
sa = new DESCryptoServiceProvider();
sa.Key = Encoding.UTF8.GetBytes(key);
sa.IV = Encoding.UTF8.GetBytes(IV);
ct = sa.CreateEncryptor();
byt = Encoding.UTF8.GetBytes(originalValue);
ms = new MemoryStream();
cs = new CryptoStream(ms, ct, CryptoStreamMode.Write);
cs.Write(byt, 0, byt.Length);
cs.FlushFinalBlock();
cs.Close();
return Convert.ToBase64String(ms.ToArray());
}
public string DESEncrypt(string originalValue, string key)
{
return DESEncrypt(originalValue, key, key);
}
/**//// <summary>
/// 使用DES解密(Added by niehl 2005-4-6)
/// </summary>
/// <param name="encryptedValue">待解密的字符串</param>
/// <param name="key">密钥(最大长度8)</param>
/// <param name="IV">m初始化向量(最大长度8)</param>
/// <returns>解密后的字符串</returns>
public string DESDecrypt(string encryptedValue, string key, string IV)
{
//将key和IV处理成8个字符
key += "12345678";
IV += "12345678";
key = key.Substring(0, 8);
IV = IV.Substring(0, 8);
SymmetricAlgorithm sa;
ICryptoTransform ct;
MemoryStream ms;
CryptoStream cs;
byte[] byt;
sa = new DESCryptoServiceProvider();
sa.Key = Encoding.UTF8.GetBytes(key);
sa.IV = Encoding.UTF8.GetBytes(IV);
ct = sa.CreateDecryptor();
byt = Convert.FromBase64String(encryptedValue);
ms = new MemoryStream();
cs = new CryptoStream(ms, ct, CryptoStreamMode.Write);
cs.Write(byt, 0, byt.Length);
cs.FlushFinalBlock();
cs.Close();
return Encoding.UTF8.GetString(ms.ToArray());
}
public string DESDecrypt(string encryptedValue, string key)
{
return DESDecrypt(encryptedValue, key, key);
}
private string GetStringValue(byte[] Byte)
{
string tmpString = "";
if (this.isReturnNum == false)
{
ASCIIEncoding Asc = new ASCIIEncoding();
tmpString = Asc.GetString(Byte);
}
else
{
int iCounter;
for (iCounter = 0; iCounter < Byte.Length; iCounter++)
{
tmpString = tmpString + Byte[iCounter].ToString();
}
}
return tmpString;
}
private byte[] GetKeyByteArray(string strKey)
{
ASCIIEncoding Asc = new ASCIIEncoding();
int tmpStrLen = strKey.Length;
byte[] tmpByte = new byte[tmpStrLen - 1];
tmpByte = Asc.GetBytes(strKey);
return tmpByte;
}
}
}
using System.IO;using System.Data;using System.Text;using System.Diagnostics;using System.Security;using System.Security.Cryptography;/**//* * .Net框架由于拥有CLR提供的丰富库支持,只需很少的代码即可实现先前使用C等旧式语言很难实现的加密算法。本类实现一些常用机密算法,供参考。其中MD5算法返回Int的ToString字串。返回数字字母型结果的算法参见之前Blog文章 */namespace 档案数字化加工{ /**//// <summary> /// 类名:HashEncrypt /// 作用:对传入的字符串进行Hash运算,返回通过Hash算法加密过的字串。 /// 属性:[无] /// 构造函数额参数: /// IsReturnNum:是否返回为加密后字符的Byte代码 /// IsCaseSensitive:是否区分大小写。 /// 方法:此类提供MD5,SHA1,SHA256,SHA512等四种算法,加密字串的长度依次增大。 /// </summary> public class HashEncrypt { //private string strIN; private bool isReturnNum; private bool isCaseSensitive; /**//// <summary> /// 类初始化,此类提供MD5,SHA1,SHA256,SHA512等四种算法,加密字串的长度依次增大。 /// </summary> /// <param name="IsCaseSensitive">是否区分大小写</param> /// <param name="IsReturnNum">是否返回为加密后字符的Byte代码</param> public HashEncrypt(bool IsCaseSensitive, bool IsReturnNum) { this.isReturnNum = IsReturnNum; this.isCaseSensitive = IsCaseSensitive; } private string getstrIN(string strIN) { //string strIN = strIN; if (strIN.Length == 0) { strIN = "~NULL~"; } if (isCaseSensitive == false) { strIN = strIN.ToUpper(); } return strIN; } public string MD5Encrypt(string strIN) { //string strIN = getstrIN(strIN); byte[] tmpByte; MD5 md5 = new MD5CryptoServiceProvider(); tmpByte = md5.ComputeHash(GetKeyByteArray(getstrIN(strIN))); md5.Clear(); return GetStringValue(tmpByte); } public string SHA1Encrypt(string strIN) { //string strIN = getstrIN(strIN); byte[] tmpByte; SHA1 sha1 = new SHA1CryptoServiceProvider(); tmpByte = sha1.ComputeHash(GetKeyByteArray(strIN)); sha1.Clear(); return GetStringValue(tmpByte); } public string SHA256Encrypt(string strIN) { //string strIN = getstrIN(strIN); byte[] tmpByte; SHA256 sha256 = new SHA256Managed(); tmpByte = sha256.ComputeHash(GetKeyByteArray(strIN)); sha256.Clear(); return GetStringValue(tmpByte); } public string SHA512Encrypt(string strIN) { //string strIN = getstrIN(strIN); byte[] tmpByte; SHA512 sha512 = new SHA512Managed(); tmpByte = sha512.ComputeHash(GetKeyByteArray(strIN)); sha512.Clear(); return GetStringValue(tmpByte); } /**//// <summary> /// 使用DES加密(Added by niehl 2005-4-6) /// </summary> /// <param name="originalValue">待加密的字符串</param> /// <param name="key">密钥(最大长度8)</param> /// <param name="IV">初始化向量(最大长度8)</param> /// <returns>加密后的字符串</returns> public string DESEncrypt(string originalValue, string key, string IV) { //将key和IV处理成8个字符 key += "12345678"; IV += "12345678"; key = key.Substring(0, 8); IV = IV.Substring(0, 8); SymmetricAlgorithm sa; ICryptoTransform ct; MemoryStream ms; CryptoStream cs; byte[] byt; sa = new DESCryptoServiceProvider(); sa.Key = Encoding.UTF8.GetBytes(key); sa.IV = Encoding.UTF8.GetBytes(IV); ct = sa.CreateEncryptor(); byt = Encoding.UTF8.GetBytes(originalValue); ms = new MemoryStream(); cs = new CryptoStream(ms, ct, CryptoStreamMode.Write); cs.Write(byt, 0, byt.Length); cs.FlushFinalBlock(); cs.Close(); return Convert.ToBase64String(ms.ToArray()); } public string DESEncrypt(string originalValue, string key) { return DESEncrypt(originalValue, key, key); } /**//// <summary> /// 使用DES解密(Added by niehl 2005-4-6) /// </summary> /// <param name="encryptedValue">待解密的字符串</param> /// <param name="key">密钥(最大长度8)</param> /// <param name="IV">m初始化向量(最大长度8)</param> /// <returns>解密后的字符串</returns> public string DESDecrypt(string encryptedValue, string key, string IV) { //将key和IV处理成8个字符 key += "12345678"; IV += "12345678"; key = key.Substring(0, 8); IV = IV.Substring(0, 8); SymmetricAlgorithm sa; ICryptoTransform ct; MemoryStream ms; CryptoStream cs; byte[] byt; sa = new DESCryptoServiceProvider(); sa.Key = Encoding.UTF8.GetBytes(key); sa.IV = Encoding.UTF8.GetBytes(IV); ct = sa.CreateDecryptor(); byt = Convert.FromBase64String(encryptedValue); ms = new MemoryStream(); cs = new CryptoStream(ms, ct, CryptoStreamMode.Write); cs.Write(byt, 0, byt.Length); cs.FlushFinalBlock(); cs.Close(); return Encoding.UTF8.GetString(ms.ToArray()); } public string DESDecrypt(string encryptedValue, string key) { return DESDecrypt(encryptedValue, key, key); } private string GetStringValue(byte[] Byte) { string tmpString = ""; if (this.isReturnNum == false) { ASCIIEncoding Asc = new ASCIIEncoding(); tmpString = Asc.GetString(Byte); } else { int iCounter; for (iCounter = 0; iCounter < Byte.Length; iCounter++) { tmpString = tmpString + Byte[iCounter].ToString(); } } return tmpString; } private byte[] GetKeyByteArray(string strKey) { ASCIIEncoding Asc = new ASCIIEncoding(); int tmpStrLen = strKey.Length; byte[] tmpByte = new byte[tmpStrLen - 1]; tmpByte = Asc.GetBytes(strKey); return tmpByte; } }}
转载于:https://www.cnblogs.com/hzuIT/articles/758974.html
c# 实现MD5,SHA1,SHA256,SHA512等常用加密算法相关推荐
- MD5 SHA1 SHA256 SHA512 SHA1WithRSA RSA 的区别
转自:http://www.cnblogs.com/cxygg/p/9468653.html https://blog.csdn.net/hengshujiyi/article/details/459 ...
- 摘要/哈希/散列算法MD5 SHA1 SHA256 SHA512的区别和MAC算法
目录 一.摘要算法大致都要经过以下步骤 1. 明文数据预处理 1.1 填充比特 1.2 附加消息长度 2. 摘要计算 2.1 常量初始化 2.2 分组及分组拓展和分组分段 2.3 轮函数(每段一轮,此 ...
- python hashlib库(MD5,sha1,sha256,sha512,pbkdf2_hmac)用法及pbkdf2原理
文章目录 1 python hashlib 库 1.1 md5 1.2 sha1 1.3 sha256 1.4 sha512 1.5 pbkdf2_hmac 2 PBKDF2 函数原理 2.1 PBK ...
- [JAVA]数字摘要算法工具类——(Hamc)MD5/SHA1/SHA256/SHA512/PBKDF2
文章目录 API调取 精简版的JAVA代码 完整代码 API调取 方法 补充说明 getMD5 获得MD5摘要 getSHA1 获得SHA1摘要 getSHA256 获得SHA256摘要 getSHA ...
- 如何利用openssl来计算md4, md5, sha1, sha256, sha384, sha512等常用哈希值?
转载:http://blog.csdn.net/stpeace/article/details/41922115 openssl的库的用法, 前面已经介绍了, 所以不再啰嗦, 直接给出代码: [cpp ...
- 使用Windows自带的工具计算文件的 MD5 SHA1 SHA256
使用Windows自带的工具计算文件的 MD5 SHA1 SHA256 很多网站会提供下载文件的校验码信息,在下载文件之后,如何方便地计算MD5 SHA1 SHA256等校验和呢?之前我常用的工具是H ...
- 快速计算文件的MD5/SHA1/SHA256等校验值(Windows/Linux)
从网络上下载文件,尤其是非常大的文件怎么确保文件准确无误呢? 通常网站提供文件时会同时提供该文件的校验值,如MD5,SHA1,SHA256等, 当文件下载完成后,计算它的校验值,如果和网站提供的一致, ...
- Windows系统中通过命令查看文件的MD5,SHA1,SHA256校验值
Windows系统中通过命令查看文件的MD5,SHA1,SHA256校验值 命令格式如下: certutil -hashfile yourfilename MD5 certutil -hashfile ...
- MD5,SHA-1,SHA-256摘要加解密
2019独角兽企业重金招聘Python工程师标准>>> /*** 对字符串加密,加密算法使用MD5,SHA-1,SHA-256,默认使用SHA-256** @param strSrc ...
- Hash校验工具、MD5 SHA1 SHA256命令行工具
MyHash 检验工具http://www.zdfans.com/html/4346.html HashMyFiles Hash校验工具http://www.nirsoft.net/utils/has ...
最新文章
- 解决dubbo问题:forbid consumer(2)
- oracle13c迁移,Oracle数据库迁移
- Linux关机命令总结
- java虚拟机起不来的原因,JVM理解其实并不难!
- 官宣!多所高校,整体搬迁!
- HashMap的小知识点
- python函数调用的例子_Python案例|混用C函数
- 基于Docker的开发模式驱动持续集成落地实施
- 使用Jsoup完成网页爬虫
- 集合框架-ArrayList,Vector,Linkedlist
- matlab解决线性规划问题
- liscov替换原则
- 中国银行实习笔试面试经验
- 电气工程及其自动化走Java_电气工程及其自动化专业项目经验范文
- mysql 1033_mysql报错1033 Incorrect information in file: ‘xxx.frm’问题的解决方法
- AutoCAD C# 自动加载自定义RibbonUI界面
- 微信JSAPI支付调不起收银台问题
- PHPExcel中文开发手册翻译版(2)
- SR(Segment Routing)不是MPLS的优化和升级
- 车床零件加工调度问题