des加密解密代码
java加密字符串可以使用des加密算法,实例如下:
package test;
import java.io.FileInputStream;
import java.io.FileOutputStream;
import java.io.IOException;
import java.io.ObjectInputStream;
import java.io.ObjectOutputStream;
import java.security.*;
import javax.crypto.Cipher;
import javax.crypto.KeyGenerator;
import javax.crypto.SecretKey;
/**
* 加密解密
*
* @author shy.qiu
* @since http://blog.csdn.net/qiushyfm
*/
public class CryptTest {
/**
* 进行MD5加密
*
* @param info
* 要加密的信息
* @return String 加密后的字符串
*/
public String encryptToMD5(String info) {
byte[] digesta = null;
try {
// 得到一个md5的消息摘要
MessageDigest alga = MessageDigest.getInstance("MD5");
// 添加要进行计算摘要的信息
alga.update(info.getBytes());
// 得到该摘要
digesta = alga.digest();
} catch (NoSuchAlgorithmException e) {
e.printStackTrace();
}
// 将摘要转为字符串
String rs = byte2hex(digesta);
return rs;
}
/**
* 进行SHA加密
*
* @param info
* 要加密的信息
* @return String 加密后的字符串
*/
public String encryptToSHA(String info) {
byte[] digesta = null;
try {
// 得到一个SHA-1的消息摘要
MessageDigest alga = MessageDigest.getInstance("SHA-1");
// 添加要进行计算摘要的信息
alga.update(info.getBytes());
// 得到该摘要
digesta = alga.digest();
} catch (NoSuchAlgorithmException e) {
e.printStackTrace();
}
// 将摘要转为字符串
String rs = byte2hex(digesta);
return rs;
}
// //////////////////////////////////////////////////////////////////////////
/**
* 创建密匙
*
* @param algorithm
* 加密算法,可用 DES,DESede,Blowfish
* @return SecretKey 秘密(对称)密钥
*/
public SecretKey createSecretKey(String algorithm) {
// 声明KeyGenerator对象
KeyGenerator keygen;
// 声明 密钥对象
SecretKey deskey = null;
try {
// 返回生成指定算法的秘密密钥的 KeyGenerator 对象
keygen = KeyGenerator.getInstance(algorithm);
// 生成一个密钥
deskey = keygen.generateKey();
} catch (NoSuchAlgorithmException e) {
e.printStackTrace();
}
// 返回密匙
return deskey;
}
/**
* 根据密匙进行DES加密
*
* @param key
* 密匙
* @param info
* 要加密的信息
* @return String 加密后的信息
*/
public String encryptToDES(SecretKey key, String info) {
// 定义 加密算法,可用 DES,DESede,Blowfish
String Algorithm = "DES";
// 加密随机数生成器 (RNG),(可以不写)
SecureRandom sr = new SecureRandom();
// 定义要生成的密文
byte[] cipherByte = null;
try {
// 得到加密/解密器
Cipher c1 = Cipher.getInstance(Algorithm);
// 用指定的密钥和模式初始化Cipher对象
// 参数:(ENCRYPT_MODE, DECRYPT_MODE, WRAP_MODE,UNWRAP_MODE)
c1.init(Cipher.ENCRYPT_MODE, key, sr);
// 对要加密的内容进行编码处理,
cipherByte = c1.doFinal(info.getBytes());
} catch (Exception e) {
e.printStackTrace();
}
// 返回密文的十六进制形式
return byte2hex(cipherByte);
}
/**
* 根据密匙进行DES解密
*
* @param key
* 密匙
* @param sInfo
* 要解密的密文
* @return String 返回解密后信息
*/
public String decryptByDES(SecretKey key, String sInfo) {
// 定义 加密算法,
String Algorithm = "DES";
// 加密随机数生成器 (RNG)
SecureRandom sr = new SecureRandom();
byte[] cipherByte = null;
try {
// 得到加密/解密器
Cipher c1 = Cipher.getInstance(Algorithm);
// 用指定的密钥和模式初始化Cipher对象
c1.init(Cipher.DECRYPT_MODE, key, sr);
// 对要解密的内容进行编码处理
cipherByte = c1.doFinal(hex2byte(sInfo));
} catch (Exception e) {
e.printStackTrace();
}
// return byte2hex(cipherByte);
return new String(cipherByte);
}
// /////////////////////////////////////////////////////////////////////////////
/**
* 创建密匙组,并将公匙,私匙放入到指定文件中
*
* 默认放入mykeys.bat文件中
*/
public void createPairKey() {
try {
// 根据特定的算法一个密钥对生成器
KeyPairGenerator keygen = KeyPairGenerator.getInstance("DSA");
// 加密随机数生成器 (RNG)
SecureRandom random = new SecureRandom();
// 重新设置此随机对象的种子
random.setSeed(1000);
// 使用给定的随机源(和默认的参数集合)初始化确定密钥大小的密钥对生成器
keygen.initialize(512, random);// keygen.initialize(512);
// 生成密钥组
KeyPair keys = keygen.generateKeyPair();
// 得到公匙
PublicKey pubkey = keys.getPublic();
// 得到私匙
PrivateKey prikey = keys.getPrivate();
// 将公匙私匙写入到文件当中
doObjToFile("mykeys.bat", new Object[] { prikey, pubkey });
} catch (NoSuchAlgorithmException e) {
e.printStackTrace();
}
}
/**
* 利用私匙对信息进行签名 把签名后的信息放入到指定的文件中
*
* @param info
* 要签名的信息
* @param signfile
* 存入的文件
*/
public void signToInfo(String info, String signfile) {
// 从文件当中读取私匙
PrivateKey myprikey = (PrivateKey) getObjFromFile("mykeys.bat", 1);
// 从文件中读取公匙
PublicKey mypubkey = (PublicKey) getObjFromFile("mykeys.bat", 2);
try {
// Signature 对象可用来生成和验证数字签名
Signature signet = Signature.getInstance("DSA");
// 初始化签署签名的私钥
signet.initSign(myprikey);
// 更新要由字节签名或验证的数据
signet.update(info.getBytes());
// 签署或验证所有更新字节的签名,返回签名
byte[] signed = signet.sign();
// 将数字签名,公匙,信息放入文件中
doObjToFile(signfile, new Object[] { signed, mypubkey, info });
} catch (Exception e) {
e.printStackTrace();
}
}
/**
* 读取数字签名文件 根据公匙,签名,信息验证信息的合法性
*
* @return true 验证成功 false 验证失败
*/
public boolean validateSign(String signfile) {
// 读取公匙
PublicKey mypubkey = (PublicKey) getObjFromFile(signfile, 2);
// 读取签名
byte[] signed = (byte[]) getObjFromFile(signfile, 1);
// 读取信息
String info = (String) getObjFromFile(signfile, 3);
try {
// 初始一个Signature对象,并用公钥和签名进行验证
Signature signetcheck = Signature.getInstance("DSA");
// 初始化验证签名的公钥
signetcheck.initVerify(mypubkey);
// 使用指定的 byte 数组更新要签名或验证的数据
signetcheck.update(info.getBytes());
System.out.println(info);
// 验证传入的签名
return signetcheck.verify(signed);
} catch (Exception e) {
e.printStackTrace();
return false;
}
}
/**
* 将二进制转化为16进制字符串
*
* @param b
* 二进制字节数组
* @return String
*/
public String byte2hex(byte[] b) {
String hs = "";
String stmp = "";
for (int n = 0; n < b.length; n++) {
stmp = (java.lang.Integer.toHexString(b[n] & 0XFF));
if (stmp.length() == 1) {
hs = hs + "0" + stmp;
} else {
hs = hs + stmp;
}
}
return hs.toUpperCase();
}
/**
* 十六进制字符串转化为2进制
*
* @param hex
* @return
*/
public byte[] hex2byte(String hex) {
byte[] ret = new byte[8];
byte[] tmp = hex.getBytes();
for (int i = 0; i < 8; i++) {
ret[i] = uniteBytes(tmp[i * 2], tmp[i * 2 + 1]);
}
return ret;
}
/**
* 将两个ASCII字符合成一个字节; 如:"EF"--> 0xEF
*
* @param src0
* byte
* @param src1
* byte
* @return byte
*/
public static byte uniteBytes(byte src0, byte src1) {
byte _b0 = Byte.decode("0x" + new String(new byte[] { src0 }))
.byteValue();
_b0 = (byte) (_b0 << 4);
byte _b1 = Byte.decode("0x" + new String(new byte[] { src1 }))
.byteValue();
byte ret = (byte) (_b0 ^ _b1);
return ret;
}
/**
* 将指定的对象写入指定的文件
*
* @param file
* 指定写入的文件
* @param objs
* 要写入的对象
*/
public void doObjToFile(String file, Object[] objs) {
ObjectOutputStream oos = null;
try {
FileOutputStream fos = new FileOutputStream(file);
oos = new ObjectOutputStream(fos);
for (int i = 0; i < objs.length; i++) {
oos.writeObject(objs[i]);
}
} catch (Exception e) {
e.printStackTrace();
} finally {
try {
oos.close();
} catch (IOException e) {
e.printStackTrace();
}
}
}
/**
* 返回在文件中指定位置的对象
*
* @param file
* 指定的文件
* @param i
* 从1开始
* @return
*/
public Object getObjFromFile(String file, int i) {
ObjectInputStream ois = null;
Object obj = null;
try {
FileInputStream fis = new FileInputStream(file);
ois = new ObjectInputStream(fis);
for (int j = 0; j < i; j++) {
obj = ois.readObject();
}
} catch (Exception e) {
e.printStackTrace();
} finally {
try {
ois.close();
} catch (IOException e) {
e.printStackTrace();
}
}
return obj;
}
/**
* 测试
*
* @param args
*/
public static void main(String[] args) {
CryptTest jiami = new CryptTest();
// 执行MD5加密"Hello world!"
System.out.println("Hello经过MD5:" + jiami.encryptToMD5("Hello"));
// 生成一个DES算法的密匙
SecretKey key = jiami.createSecretKey("DES");
// 用密匙加密信息"Hello world!"
String str1 = jiami.encryptToDES(key, "Hello");
System.out.println("使用des加密信息Hello为:" + str1);
// 使用这个密匙解密
String str2 = jiami.decryptByDES(key, str1);
System.out.println("解密后为:" + str2);
// 创建公匙和私匙
jiami.createPairKey();
// 对Hello world!使用私匙进行签名
jiami.signToInfo("Hello", "mysign.bat");
// 利用公匙对签名进行验证。
if (jiami.validateSign("mysign.bat")) {
System.out.println("Success!");
} else {
System.out.println("Fail!");
}
}
}
⑵ 用c++实现DES的加密解密的源代码
#include<iostream>
#include<fstream>
#include<bitset>
#include<string>
usingnamespacestd;
bitset<64>key;
bitset<48>subKey[16];
intIP[]={58,50,42,34,26,18,10,2,
60,52,44,36,28,20,12,4,
62,54,46,38,30,22,14,6,
64,56,48,40,32,24,16,8,
57,49,41,33,25,17,9,1,
59,51,43,35,27,19,11,3,
61,53,45,37,29,21,13,5,
63,55,47,39,31,23,15,7};
intIP_1[]={40,8,48,16,56,24,64,32,
39,7,47,15,55,23,63,31,
38,6,46,14,54,22,62,30,
37,5,45,13,53,21,61,29,
36,4,44,12,52,20,60,28,
35,3,43,11,51,19,59,27,
34,2,42,10,50,18,58,26,
33,1,41,9,49,17,57,25};
intPC_1[]={57,49,41,33,25,17,9,
1,58,50,42,34,26,18,
10,2,59,51,43,35,27,
19,11,3,60,52,44,36,
63,55,47,39,31,23,15,
7,62,54,46,38,30,22,
14,6,61,53,45,37,29,
21,13,5,28,20,12,4};
intPC_2[]={14,17,11,24,1,5,
3,28,15,6,21,10,
23,19,12,4,26,8,
16,7,27,20,13,2,
41,52,31,37,47,55,
30,40,51,45,33,48,
44,49,39,56,34,53,
46,42,50,36,29,32};
intshiftBits[]={1,1,2,2,2,2,2,2,1,2,2,2,2,2,2,1};
intE[]={32,1,2,3,4,5,
4,5,6,7,8,9,
8,9,10,11,12,13,
12,13,14,15,16,17,
16,17,18,19,20,21,
20,21,22,23,24,25,
24,25,26,27,28,29,
28,29,30,31,32,1};
intS_BOX[8][4][16]={
{
{14,4,13,1,2,15,11,8,3,10,6,12,5,9,0,7},
{0,15,7,4,14,2,13,1,10,6,12,11,9,5,3,8},
{4,1,14,8,13,6,2,11,15,12,9,7,3,10,5,0},
{15,12,8,2,4,9,1,7,5,11,3,14,10,0,6,13}
},
{
{15,1,8,14,6,11,3,4,9,7,2,13,12,0,5,10},
{3,13,4,7,15,2,8,14,12,0,1,10,6,9,11,5},
{0,14,7,11,10,4,13,1,5,8,12,6,9,3,2,15},
{13,8,10,1,3,15,4,2,11,6,7,12,0,5,14,9}
},
{
{10,0,9,14,6,3,15,5,1,13,12,7,11,4,2,8},
{13,7,0,9,3,4,6,10,2,8,5,14,12,11,15,1},
{13,6,4,9,8,15,3,0,11,1,2,12,5,10,14,7},
{1,10,13,0,6,9,8,7,4,15,14,3,11,5,2,12}
},
{
{7,13,14,3,0,6,9,10,1,2,8,5,11,12,4,15},
{13,8,11,5,6,15,0,3,4,7,2,12,1,10,14,9},
{10,6,9,0,12,11,7,13,15,1,3,14,5,2,8,4},
{3,15,0,6,10,1,13,8,9,4,5,11,12,7,2,14}
},
{
{2,12,4,1,7,10,11,6,8,5,3,15,13,0,14,9},
{14,11,2,12,4,7,13,1,5,0,15,10,3,9,8,6},
{4,2,1,11,10,13,7,8,15,9,12,5,6,3,0,14},
{11,8,12,7,1,14,2,13,6,15,0,9,10,4,5,3}
},
{
{12,1,10,15,9,2,6,8,0,13,3,4,14,7,5,11},
{10,15,4,2,7,12,9,5,6,1,13,14,0,11,3,8},
{9,14,15,5,2,8,12,3,7,0,4,10,1,13,11,6},
{4,3,2,12,9,5,15,10,11,14,1,7,6,0,8,13}
},
{
{4,11,2,14,15,0,8,13,3,12,9,7,5,10,6,1},
{13,0,11,7,4,9,1,10,14,3,5,12,2,15,8,6},
{1,4,11,13,12,3,7,14,10,15,6,8,0,5,9,2},
{6,11,13,8,1,4,10,7,9,5,0,15,14,2,3,12}
},
{
{13,2,8,4,6,15,11,1,10,9,3,14,5,0,12,7},
{1,15,13,8,10,3,7,4,12,5,6,11,0,14,9,2},
{7,11,4,1,9,12,14,2,0,6,10,13,15,3,5,8},
{2,1,14,7,4,10,8,13,15,12,9,0,3,5,6,11}
}
};
intP[]={16,7,20,21,
29,12,28,17,
1,15,23,26,
5,18,31,10,
2,8,24,14,
32,27,3,9,
19,13,30,6,
22,11,4,25};
bitset<32>f(bitset<32>R,bitset<48>k)
{
bitset<48>expandR;
//第一步:扩展置换,32->48
for(inti=0;i<48;++i)
expandR[47-i]=R[32-E[i]];
//第二步:异或
expandR=expandR^k;
//第三步:查找S_BOX置换表
bitset<32>output;
intx=0;
for(inti=0;i<48;i=i+6)
{
introw=expandR[47-i]*2+expandR[47-i-5];
intcol=expandR[47-i-1]*8+expandR[47-i-2]*4+expandR[47-i-3]*2+expandR[47-i-4];
intnum=S_BOX[i/6][row][col];
bitset<4>binary(num);
output[31-x]=binary[3];
output[31-x-1]=binary[2];
output[31-x-2]=binary[1];
output[31-x-3]=binary[0];
x+=4;
}
//第四步:P-置换,32->32
bitset<32>tmp=output;
for(inti=0;i<32;++i)
output[31-i]=tmp[32-P[i]];
returnoutput;
}
bitset<28>leftShift(bitset<28>k,intshift)
{
bitset<28>tmp=k;
for(inti=27;i>=0;--i)
{
if(i-shift<0)
k[i]=tmp[i-shift+28];
else
k[i]=tmp[i-shift];
}
returnk;
}
voidgenerateKeys()
{
bitset<56>realKey;
bitset<28>left;
bitset<28>right;
bitset<48>compressKey;
//去掉奇偶标记位,将64位密钥变成56位
for(inti=0;i<56;++i)
realKey[55-i]=key[64-PC_1[i]];
//生成子密钥,保存在subKeys[16]中
for(intround=0;round<16;++round)
{
//前28位与后28位
for(inti=28;i<56;++i)
left[i-28]=realKey[i];
for(inti=0;i<28;++i)
right[i]=realKey[i];
//左移
left=leftShift(left,shiftBits[round]);
right=leftShift(right,shiftBits[round]);
//压缩置换,由56位得到48位子密钥
for(inti=28;i<56;++i)
realKey[i]=left[i-28];
for(inti=0;i<28;++i)
realKey[i]=right[i];
for(inti=0;i<48;++i)
compressKey[47-i]=realKey[56-PC_2[i]];
subKey[round]=compressKey;
}
}
bitset<64>charToBitset(constchars[8])
{
bitset<64>bits;
for(inti=0;i<8;++i)
for(intj=0;j<8;++j)
bits[i*8+j]=((s[i]>>j)&1);
returnbits;
}
bitset<64>encrypt(bitset<64>&plain)
{
bitset<64>cipher;
bitset<64>currentBits;
bitset<32>left;
bitset<32>right;
bitset<32>newLeft;
//第一步:初始置换IP
for(inti=0;i<64;++i)
currentBits[63-i]=plain[64-IP[i]];
//第二步:获取Li和Ri
for(inti=32;i<64;++i)
left[i-32]=currentBits[i];
for(inti=0;i<32;++i)
right[i]=currentBits[i];
//第三步:共16轮迭代
for(intround=0;round<16;++round)
{
newLeft=right;
right=left^f(right,subKey[round]);
left=newLeft;
}
//第四步:合并L16和R16,注意合并为R16L16
for(inti=0;i<32;++i)
cipher[i]=left[i];
for(inti=32;i<64;++i)
cipher[i]=right[i-32];
//第五步:结尾置换IP-1
currentBits=cipher;
for(inti=0;i<64;++i)
cipher[63-i]=currentBits[64-IP_1[i]];
//返回密文
returncipher;
}
bitset<64>decrypt(bitset<64>&cipher)
{
bitset<64>plain;
bitset<64>currentBits;
bitset<32>left;
bitset<32>right;
bitset<32>newLeft;
//第一步:初始置换IP
for(inti=0;i<64;++i)
currentBits[63-i]=cipher[64-IP[i]];
//第二步:获取Li和Ri
for(inti=32;i<64;++i)
left[i-32]=currentBits[i];
for(inti=0;i<32;++i)
right[i]=currentBits[i];
//第三步:共16轮迭代(子密钥逆序应用)
for(intround=0;round<16;++round)
{
newLeft=right;
right=left^f(right,subKey[15-round]);
left=newLeft;
}
//第四步:合并L16和R16,注意合并为R16L16
for(inti=0;i<32;++i)
plain[i]=left[i];
for(inti=32;i<64;++i)
plain[i]=right[i-32];
//第五步:结尾置换IP-1
currentBits=plain;
for(inti=0;i<64;++i)
plain[63-i]=currentBits[64-IP_1[i]];
//返回明文
returnplain;
}
intmain(){
strings="romantic";
stringk="12345678";
bitset<64>plain=charToBitset(s.c_str());
key=charToBitset(k.c_str());
//生成16个子密钥
generateKeys();
bitset<64>cipher=encrypt(plain);
fstreamfile1;
file1.open("D://a.txt",ios::binary|ios::out);
file1.write((char*)&cipher,sizeof(cipher));
file1.close();
bitset<64>temp;
file1.open("D://a.txt",ios::binary|ios::in);
file1.read((char*)&temp,sizeof(temp));
file1.close();
bitset<64>temp_plain=decrypt(temp);
file1.open("D://b.txt",ios::binary|ios::out);
file1.write((char*)&temp_plain,sizeof(temp_plain));
file1.close();
return0;
}
⑶ 如何用php实现和c#一致的DES加密解密
PHP实现和c#一致的DES加密解密,可以从网上搜到一大堆,但是测试后发现都没法用。以下正确代码是我经过苦苦才找到的。希望大家在系统整合时能用的上。
注意:key的长度为8位以内。
[csharp]viewplainprint?
//C#版DES加解密算法
usingSystem;
usingSystem.Data;
usingSystem.Configuration;
usingSystem.Web;
usingSystem.Web.Security;
usingSystem.Web.UI;
usingSystem.Web.UI.WebControls;
usingSystem.Web.UI.WebControls.WebParts;
usingSystem.Web.UI.HtmlControls;
usingSystem.Data.SqlClient;
usingSystem.Security.Cryptography;
usingSystem.IO;
usingSystem.Text;
publicclassDes{
//加解密密钥
privatestaticstringskey="12345678";
//初始化向量
privatestaticbyte[]DESIV={0x12,0x34,0x56,0x78,0x90,0xAB,0xCD,0xEF};
#regionDESEnCodeDES加密
publicstaticstringDESEnCode(stringpToEncrypt,stringsKey)
{
pToEncrypt=HttpContext.Current.Server.UrlEncode(pToEncrypt);
DESCryptoServiceProviderdes=newDESCryptoServiceProvider();
byte[]inputByteArray=Encoding.GetEncoding("UTF-8").GetBytes(pToEncrypt);
//建立加密对象的密钥和偏移量
//原文使用ASCIIEncoding.ASCII方法的GetBytes方法
//使得输入密码必须输入英文文本
des.Key=ASCIIEncoding.ASCII.GetBytes(sKey);
des.IV=ASCIIEncoding.ASCII.GetBytes(sKey);
MemoryStreamms=newMemoryStream();
CryptoStreamcs=newCryptoStream(ms,des.CreateEncryptor(),CryptoStreamMode.Write);
cs.Write(inputByteArray,0,inputByteArray.Length);
cs.FlushFinalBlock();
StringBuilderret=newStringBuilder();
foreach(bytebinms.ToArray())
{
ret.AppendFormat("{0:X2}",b);
}
ret.ToString();
returnret.ToString();
}
#endregion
///<summary>
///
///</summary>
///<paramname="pToDecrypt">待解密的字符串</param>
///<paramname="sKey">解密密钥,要求为8字节,和加密密钥相同</param>
///<returns>解密成功返回解密后的字符串,失败返源串</returns>
#regionDESDeCodeDES解密
publicstaticstringDESDeCode(stringpToDecrypt,stringsKey)
{
//HttpContext.Current.Response.Write(pToDecrypt+"<br>"+sKey);
//HttpContext.Current.Response.End();
DESCryptoServiceProviderdes=newDESCryptoServiceProvider();
byte[]inputByteArray=newbyte[pToDecrypt.Length/2];
for(intx=0;x<pToDecrypt.Length/2;x++)
{
inti=(Convert.ToInt32(pToDecrypt.Substring(x*2,2),16));
inputByteArray[x]=(byte)i;
}
des.Key=ASCIIEncoding.ASCII.GetBytes(sKey);
des.IV=ASCIIEncoding.ASCII.GetBytes(sKey);
MemoryStreamms=newMemoryStream();
CryptoStreamcs=newCryptoStream(ms,des.CreateDecryptor(),CryptoStreamMode.Write);
cs.Write(inputByteArray,0,inputByteArray.Length);
cs.FlushFinalBlock();
StringBuilderret=newStringBuilder();
returnHttpContext.Current.Server.UrlDecode(System.Text.Encoding.Default.GetString(ms.ToArray()));
}
#endregion
}
[php]viewplainprint?
<?php
classDES
{
var$key;
var$iv;//偏移量
functionDES($key,$iv=0){
//key长度8例如:1234abcd
$this->key=$key;
if($iv==0){
$this->iv=$key;//默认以$key作为iv
}else{
$this->iv=$iv;//mcrypt_create_iv(mcrypt_get_block_size(MCRYPT_DES,MCRYPT_MODE_CBC),MCRYPT_DEV_RANDOM);
}
}
functionencrypt($str){
//加密,返回大写十六进制字符串
$size=mcrypt_get_block_size(MCRYPT_DES,MCRYPT_MODE_CBC);
$str=$this->pkcs5Pad($str,$size);
returnstrtoupper(bin2hex(mcrypt_cbc(MCRYPT_DES,$this->key,$str,MCRYPT_ENCRYPT,$this->iv)));
}
functiondecrypt($str){
//解密
$strBin=$this->hex2bin(strtolower($str));
$str=mcrypt_cbc(MCRYPT_DES,$this->key,$strBin,MCRYPT_DECRYPT,$this->iv);
$str=$this->pkcs5Unpad($str);
return$str;
}
functionhex2bin($hexData){
$binData="";
for($i=0;$i<strlen($hexData);$i+=2){
$binData.=chr(hexdec(substr($hexData,$i,2)));
}
return$binData;
}
functionpkcs5Pad($text,$blocksize){
$pad=$blocksize-(strlen($text)%$blocksize);
return$text.str_repeat(chr($pad),$pad);
}
functionpkcs5Unpad($text){
$pad=ord($text{strlen($text)-1});
if($pad>strlen($text))
returnfalse;
if(strspn($text,chr($pad),strlen($text)-$pad)!=$pad)
returnfalse;
returnsubstr($text,0,-1*$pad);
}
}
?>
⑷ 求C语言编写的DES加密解密源代码
从别的地方抄来的
http://hi..com/493168771/blog/item/5816b034ca19fc44251f144c.html
#include "stdio.h"
#include "time.h"
#include "stdlib.h"
#define PLAIN_FILE_OPEN_ERROR -1
#define KEY_FILE_OPEN_ERROR -2
#define CIPHER_FILE_OPEN_ERROR -3
#define OK 1;
typedef char ElemType;
/* 初始置换表IP */
int IP_Table[64] = { 57,49,41,33,25,17,9,1,
59,51,43,35,27,19,11,3,
61,53,45,37,29,21,13,5,
63,55,47,39,31,23,15,7,
56,48,40,32,24,16,8,0,
58,50,42,34,26,18,10,2,
60,52,44,36,28,20,12,4,
62,54,46,38,30,22,14,6};
/* 逆初始置换表IP^-1 */
int IP_1_Table[64] = {39,7,47,15,55,23,63,31,
38,6,46,14,54,22,62,30,
37,5,45,13,53,21,61,29,
36,4,44,12,52,20,60,28,
35,3,43,11,51,19,59,27,
34,2,42,10,50,18,58,26,
33,1,41,9,49,17,57,25,
32,0,40,8,48,16,56,24};
/* 扩充置换表E */
int E_Table[48] = {31, 0, 1, 2, 3, 4,
3, 4, 5, 6, 7, 8,
7, 8,9,10,11,12,
11,12,13,14,15,16,
15,16,17,18,19,20,
19,20,21,22,23,24,
23,24,25,26,27,28,
27,28,29,30,31, 0};
/* 置换函数P */
int P_Table[32] = {15,6,19,20,28,11,27,16,
0,14,22,25,4,17,30,9,
1,7,23,13,31,26,2,8,
18,12,29,5,21,10,3,24};
/* S盒 */
int S[8][4][16] =/* S1 */
{{{14,4,13,1,2,15,11,8,3,10,6,12,5,9,0,7},
{0,15,7,4,14,2,13,1,10,6,12,11,9,5,3,8},
{4,1,14,8,13,6,2,11,15,12,9,7,3,10,5,0},
{15,12,8,2,4,9,1,7,5,11,3,14,10,0,6,13}},
/* S2 */
{{15,1,8,14,6,11,3,4,9,7,2,13,12,0,5,10},
{3,13,4,7,15,2,8,14,12,0,1,10,6,9,11,5},
{0,14,7,11,10,4,13,1,5,8,12,6,9,3,2,15},
{13,8,10,1,3,15,4,2,11,6,7,12,0,5,14,9}},
/* S3 */
{{10,0,9,14,6,3,15,5,1,13,12,7,11,4,2,8},
{13,7,0,9,3,4,6,10,2,8,5,14,12,11,15,1},
{13,6,4,9,8,15,3,0,11,1,2,12,5,10,14,7},
{1,10,13,0,6,9,8,7,4,15,14,3,11,5,2,12}},
/* S4 */
{{7,13,14,3,0,6,9,10,1,2,8,5,11,12,4,15},
{13,8,11,5,6,15,0,3,4,7,2,12,1,10,14,9},
{10,6,9,0,12,11,7,13,15,1,3,14,5,2,8,4},
{3,15,0,6,10,1,13,8,9,4,5,11,12,7,2,14}},
/* S5 */
{{2,12,4,1,7,10,11,6,8,5,3,15,13,0,14,9},
{14,11,2,12,4,7,13,1,5,0,15,10,3,9,8,6},
{4,2,1,11,10,13,7,8,15,9,12,5,6,3,0,14},
{11,8,12,7,1,14,2,13,6,15,0,9,10,4,5,3}},
/* S6 */
{{12,1,10,15,9,2,6,8,0,13,3,4,14,7,5,11},
{10,15,4,2,7,12,9,5,6,1,13,14,0,11,3,8},
{9,14,15,5,2,8,12,3,7,0,4,10,1,13,11,6},
{4,3,2,12,9,5,15,10,11,14,1,7,6,0,8,13}},
/* S7 */
{{4,11,2,14,15,0,8,13,3,12,9,7,5,10,6,1},
{13,0,11,7,4,9,1,10,14,3,5,12,2,15,8,6},
{1,4,11,13,12,3,7,14,10,15,6,8,0,5,9,2},
{6,11,13,8,1,4,10,7,9,5,0,15,14,2,3,12}},
/* S8 */
{{13,2,8,4,6,15,11,1,10,9,3,14,5,0,12,7},
{1,15,13,8,10,3,7,4,12,5,6,11,0,14,9,2},
{7,11,4,1,9,12,14,2,0,6,10,13,15,3,5,8},
{2,1,14,7,4,10,8,13,15,12,9,0,3,5,6,11}}};
/* 置换选择1 */
int PC_1[56] = {56,48,40,32,24,16,8,
0,57,49,41,33,25,17,
9,1,58,50,42,34,26,
18,10,2,59,51,43,35,
62,54,46,38,30,22,14,
6,61,53,45,37,29,21,
13,5,60,52,44,36,28,
20,12,4,27,19,11,3};
/* 置换选择2 */
int PC_2[48] = {13,16,10,23,0,4,2,27,
14,5,20,9,22,18,11,3,
25,7,15,6,26,19,12,1,
40,51,30,36,46,54,29,39,
50,44,32,46,43,48,38,55,
33,52,45,41,49,35,28,31};
/* 对左移次数的规定 */
int MOVE_TIMES[16] = {1,1,2,2,2,2,2,2,1,2,2,2,2,2,2,1};
int ByteToBit(ElemType ch,ElemType bit[8]);
int BitToByte(ElemType bit[8],ElemType *ch);
int Char8ToBit64(ElemType ch[8],ElemType bit[64]);
int Bit64ToChar8(ElemType bit[64],ElemType ch[8]);
int DES_MakeSubKeys(ElemType key[64],ElemType subKeys[16][48]);
int DES_PC1_Transform(ElemType key[64], ElemType tempbts[56]);
int DES_PC2_Transform(ElemType key[56], ElemType tempbts[48]);
int DES_ROL(ElemType data[56], int time);
int DES_IP_Transform(ElemType data[64]);
int DES_IP_1_Transform(ElemType data[64]);
int DES_E_Transform(ElemType data[48]);
int DES_P_Transform(ElemType data[32]);
int DES_SBOX(ElemType data[48]);
int DES_XOR(ElemType R[48], ElemType L[48],int count);
int DES_Swap(ElemType left[32],ElemType right[32]);
int DES_EncryptBlock(ElemType plainBlock[8], ElemType subKeys[16][48], ElemType cipherBlock[8]);
int DES_DecryptBlock(ElemType cipherBlock[8], ElemType subKeys[16][48], ElemType plainBlock[8]);
int DES_Encrypt(char *plainFile, char *keyStr,char *cipherFile);
int DES_Decrypt(char *cipherFile, char *keyStr,char *plainFile);
/* 字节转换成二进制 */
int ByteToBit(ElemType ch, ElemType bit[8]){
int cnt;
for(cnt = 0;cnt < 8; cnt++){
*(bit+cnt) = (ch>>cnt)&1;
}
return 0;
}
/* 二进制转换成字节 */
int BitToByte(ElemType bit[8],ElemType *ch){
int cnt;
for(cnt = 0;cnt < 8; cnt++){
*ch |= *(bit + cnt)<<cnt;
}
return 0;
}
/* 将长度为8的字符串转为二进制位串 */
int Char8ToBit64(ElemType ch[8],ElemType bit[64]){
int cnt;
for(cnt = 0; cnt < 8; cnt++){
ByteToBit(*(ch+cnt),bit+(cnt<<3));
}
return 0;
}
/* 将二进制位串转为长度为8的字符串 */
int Bit64ToChar8(ElemType bit[64],ElemType ch[8]){
int cnt;
memset(ch,0,8);
for(cnt = 0; cnt < 8; cnt++){
BitToByte(bit+(cnt<<3),ch+cnt);
}
return 0;
}
/* 生成子密钥 */
int DES_MakeSubKeys(ElemType key[64],ElemType subKeys[16][48]){
ElemType temp[56];
int cnt;
DES_PC1_Transform(key,temp);/* PC1置换 */
for(cnt = 0; cnt < 16; cnt++){/* 16轮跌代,产生16个子密钥 */
DES_ROL(temp,MOVE_TIMES[cnt]);/* 循环左移 */
DES_PC2_Transform(temp,subKeys[cnt]);/* PC2置换,产生子密钥 */
}
return 0;
}
/* 密钥置换1 */
int DES_PC1_Transform(ElemType key[64], ElemType tempbts[56]){
int cnt;
for(cnt = 0; cnt < 56; cnt++){
tempbts[cnt] = key[PC_1[cnt]];
}
return 0;
}
/* 密钥置换2 */
int DES_PC2_Transform(ElemType key[56], ElemType tempbts[48]){
int cnt;
for(cnt = 0; cnt < 48; cnt++){
tempbts[cnt] = key[PC_2[cnt]];
}
return 0;
}
/* 循环左移 */
int DES_ROL(ElemType data[56], int time){
ElemType temp[56];
/* 保存将要循环移动到右边的位 */
memcpy(temp,data,time);
memcpy(temp+time,data+28,time);
/* 前28位移动 */
memcpy(data,data+time,28-time);
memcpy(data+28-time,temp,time);
/* 后28位移动 */
memcpy(data+28,data+28+time,28-time);
memcpy(data+56-time,temp+time,time);
return 0;
}
/* IP置换 */
int DES_IP_Transform(ElemType data[64]){
int cnt;
ElemType temp[64];
for(cnt = 0; cnt < 64; cnt++){
temp[cnt] = data[IP_Table[cnt]];
}
memcpy(data,temp,64);
return 0;
}
/* IP逆置换 */
int DES_IP_1_Transform(ElemType data[64]){
int cnt;
ElemType temp[64];
for(cnt = 0; cnt < 64; cnt++){
temp[cnt] = data[IP_1_Table[cnt]];
}
memcpy(data,temp,64);
return 0;
}
/* 扩展置换 */
int DES_E_Transform(ElemType data[48]){
int cnt;
ElemType temp[48];
for(cnt = 0; cnt < 48; cnt++){
temp[cnt] = data[E_Table[cnt]];
}
memcpy(data,temp,48);
return 0;
}
/* P置换 */
int DES_P_Transform(ElemType data[32]){
int cnt;
ElemType temp[32];
for(cnt = 0; cnt < 32; cnt++){
temp[cnt] = data[P_Table[cnt]];
}
memcpy(data,temp,32);
return 0;
}
/* 异或 */
int DES_XOR(ElemType R[48], ElemType L[48] ,int count){
int cnt;
for(cnt = 0; cnt < count; cnt++){
R[cnt] ^= L[cnt];
}
return 0;
}
/* S盒置换 */
int DES_SBOX(ElemType data[48]){
int cnt;
int line,row,output;
int cur1,cur2;
for(cnt = 0; cnt < 8; cnt++){
cur1 = cnt*6;
cur2 = cnt<<2;
/* 计算在S盒中的行与列 */
line = (data[cur1]<<1) + data[cur1+5];
row = (data[cur1+1]<<3) + (data[cur1+2]<<2)
+ (data[cur1+3]<<1) + data[cur1+4];
output = S[cnt][line][row];
/* 化为2进制 */
data[cur2] = (output&0X08)>>3;
data[cur2+1] = (output&0X04)>>2;
data[cur2+2] = (output&0X02)>>1;
data[cur2+3] = output&0x01;
}
return 0;
}
/* 交换 */
int DES_Swap(ElemType left[32], ElemType right[32]){
ElemType temp[32];
memcpy(temp,left,32);
memcpy(left,right,32);
memcpy(right,temp,32);
return 0;
}
/* 加密单个分组 */
int DES_EncryptBlock(ElemType plainBlock[8], ElemType subKeys[16][48], ElemType cipherBlock[8]){
ElemType plainBits[64];
ElemType Right[48];
int cnt;
Char8ToBit64(plainBlock,plainBits);
/* 初始置换(IP置换) */
DES_IP_Transform(plainBits);
/* 16轮迭代 */
for(cnt = 0; cnt < 16; cnt++){
memcpy(Right,plainBits+32,32);
/* 将右半部分进行扩展置换,从32位扩展到48位 */
DES_E_Transform(Right);
/* 将右半部分与子密钥进行异或操作 */
DES_XOR(Right,subKeys[cnt],48);
/* 异或结果进入S盒,输出32位结果 */
DES_SBOX(Right);
/* P置换 */
DES_P_Transform(Right);
/* 将明文左半部分与右半部分进行异或 */
DES_XOR(plainBits,Right,32);
if(cnt != 15){
/* 最终完成左右部的交换 */
DES_Swap(plainBits,plainBits+32);
}
}
/* 逆初始置换(IP^1置换) */
DES_IP_1_Transform(plainBits);
Bit64ToChar8(plainBits,cipherBlock);
return 0;
}
/* 解密单个分组 */
int DES_DecryptBlock(ElemType cipherBlock[8], ElemType subKeys[16][48],ElemType plainBlock[8]){
ElemType cipherBits[64];
ElemType Right[48];
int cnt;
Char8ToBit64(cipherBlock,cipherBits);
/* 初始置换(IP置换) */
DES_IP_Transform(cipherBits);
/* 16轮迭代 */
for(cnt = 15; cnt >= 0; cnt--){
memcpy(Right,cipherBits+32,32);
/* 将右半部分进行扩展置换,从32位扩展到48位 */
DES_E_Transform(Right);
/* 将右半部分与子密钥进行异或操作 */
DES_XOR(Right,subKeys[cnt],48);
/* 异或结果进入S盒,输出32位结果 */
DES_SBOX(Right);
/* P置换 */
DES_P_Transform(Right);
/* 将明文左半部分与右半部分进行异或 */
DES_XOR(cipherBits,Right,32);
if(cnt != 0){
/* 最终完成左右部的交换 */
DES_Swap(cipherBits,cipherBits+32);
}
}
/* 逆初始置换(IP^1置换) */
DES_IP_1_Transform(cipherBits);
Bit64ToChar8(cipherBits,plainBlock);
return 0;
}
/* 加密文件 */
int DES_Encrypt(char *plainFile, char *keyStr,char *cipherFile){
FILE *plain,*cipher;
int count;
ElemType plainBlock[8],cipherBlock[8],keyBlock[8];
ElemType bKey[64];
ElemType subKeys[16][48];
if((plain = fopen(plainFile,"rb")) == NULL){
return PLAIN_FILE_OPEN_ERROR;
}
if((cipher = fopen(cipherFile,"wb")) == NULL){
return CIPHER_FILE_OPEN_ERROR;
}
/* 设置密钥 */
memcpy(keyBlock,keyStr,8);
/* 将密钥转换为二进制流 */
Char8ToBit64(keyBlock,bKey);
/* 生成子密钥 */
DES_MakeSubKeys(bKey,subKeys);
while(!feof(plain)){
/* 每次读8个字节,并返回成功读取的字节数 */
if((count = fread(plainBlock,sizeof(char),8,plain)) == 8){
DES_EncryptBlock(plainBlock,subKeys,cipherBlock);
fwrite(cipherBlock,sizeof(char),8,cipher);
}
}
if(count){
/* 填充 */
memset(plainBlock + count,'\0',7 - count);
/* 最后一个字符保存包括最后一个字符在内的所填充的字符数量 */
plainBlock[7] = 8 - count;
DES_EncryptBlock(plainBlock,subKeys,cipherBlock);
fwrite(cipherBlock,sizeof(char),8,cipher);
}
fclose(plain);
fclose(cipher);
return OK;
}
/* 解密文件 */
int DES_Decrypt(char *cipherFile, char *keyStr,char *plainFile){
FILE *plain, *cipher;
int count,times = 0;
long fileLen;
ElemType plainBlock[8],cipherBlock[8],keyBlock[8];
ElemType bKey[64];
ElemType subKeys[16][48];
if((cipher = fopen(cipherFile,"rb")) == NULL){
return CIPHER_FILE_OPEN_ERROR;
}
if((plain = fopen(plainFile,"wb")) == NULL){
return PLAIN_FILE_OPEN_ERROR;
}
/* 设置密钥 */
memcpy(keyBlock,keyStr,8);
/* 将密钥转换为二进制流 */
Char8ToBit64(keyBlock,bKey);
/* 生成子密钥 */
DES_MakeSubKeys(bKey,subKeys);
/* 取文件长度 */
fseek(cipher,0,SEEK_END); /* 将文件指针置尾 */
fileLen = ftell(cipher); /* 取文件指针当前位置 */
rewind(cipher); /* 将文件指针重指向文件头 */
while(1){
/* 密文的字节数一定是8的整数倍 */
fread(cipherBlock,sizeof(char),8,cipher);
DES_DecryptBlock(cipherBlock,subKeys,plainBlock);
times += 8;
if(times < fileLen){
fwrite(plainBlock,sizeof(char),8,plain);
}
else{
break;
}
}
/* 判断末尾是否被填充 */
if(plainBlock[7] < 8){
for(count = 8 - plainBlock[7]; count < 7; count++){
if(plainBlock[count] != '\0'){
break;
}
}
}
if(count == 7){/* 有填充 */
fwrite(plainBlock,sizeof(char),8 - plainBlock[7],plain);
}
else{/* 无填充 */
fwrite(plainBlock,sizeof(char),8,plain);
}
fclose(plain);
fclose(cipher);
return OK;
}
int main()
{ DES_Encrypt("1.txt","key.txt","2.txt");
system("pause");
DES_Decrypt("2.txt","key.txt","3.txt");
getchar();
return 0;
}
⑸ 如题,求Java的DES算法代码,可以用于解密用C语言写的DES加密算法!其中C语言代码见问题补充
俺就是来帮助你这样可爱的人。俺可是花了几年的时间费了多大的力气才能把这个东西弄出来!
DES加密还没有AES严密:
packagecom.palic.pss.afcs.worldthrough.common.util;
importjavax.crypto.Cipher;
importjavax.crypto.spec.SecretKeySpec;
importrepack.com.thoughtworks.xstream.core.util.Base64Encoder;
/**
*AES加密解密
*@author
*
*/
publicclassAesUtils{
publicstaticfinalStringcKey="assistant7654321";
/**
*加密--把加密后的byte数组先进行二进制转16进制在进行base64编码
*@paramsSrc
*@paramsKey
*@return
*@throwsException
*/
publicstaticStringencrypt(StringsSrc,StringsKey)throwsException{
if(sKey==null){
("ArgumentsKeyisnull.");
}
if(sKey.length()!=16){
(
"ArgumentsKey'lengthisnot16.");
}
byte[]raw=sKey.getBytes("ASCII");
SecretKeySpecskeySpec=newSecretKeySpec(raw,"AES");
Ciphercipher=Cipher.getInstance("AES");
cipher.init(Cipher.ENCRYPT_MODE,skeySpec);
byte[]encrypted=cipher.doFinal(sSrc.getBytes("UTF-8"));
StringtempStr=parseByte2HexStr(encrypted);
Base64Encoderencoder=newBase64Encoder();
returnencoder.encode(tempStr.getBytes("UTF-8"));
}
/**
*解密--先进行base64解码,在进行16进制转为2进制然后再解码
*@paramsSrc
*@paramsKey
*@return
*@throwsException
*/
publicstaticStringdecrypt(StringsSrc,StringsKey)throwsException{
if(sKey==null){
("499");
}
if(sKey.length()!=16){
("498");
}
byte[]raw=sKey.getBytes("ASCII");
SecretKeySpecskeySpec=newSecretKeySpec(raw,"AES");
Ciphercipher=Cipher.getInstance("AES");
cipher.init(Cipher.DECRYPT_MODE,skeySpec);
Base64Encoderencoder=newBase64Encoder();
byte[]encrypted1=encoder.decode(sSrc);
StringtempStr=newString(encrypted1,"utf-8");
encrypted1=parseHexStr2Byte(tempStr);
byte[]original=cipher.doFinal(encrypted1);
StringoriginalString=newString(original,"utf-8");
returnoriginalString;
}
/**
*将二进制转换成16进制
*
*@parambuf
*@return
*/
(bytebuf[]){
StringBuffersb=newStringBuffer();
for(inti=0;i<buf.length;i++){
Stringhex=Integer.toHexString(buf[i]&0xFF);
if(hex.length()==1){
hex='0'+hex;
}
sb.append(hex.toUpperCase());
}
returnsb.toString();
}
/**
*将16进制转换为二进制
*
*@paramhexStr
*@return
*/
publicstaticbyte[]parseHexStr2Byte(StringhexStr){
if(hexStr.length()<1)
returnnull;
byte[]result=newbyte[hexStr.length()/2];
for(inti=0;i<hexStr.length()/2;i++){
inthigh=Integer.parseInt(hexStr.substring(i*2,i*2+1),16);
intlow=Integer.parseInt(hexStr.substring(i*2+1,i*2+2),
16);
result[i]=(byte)(high*16+low);
}
returnresult;
}
publicstaticvoidmain(String[]args)throwsException{
/*
*加密用的Key可以用26个字母和数字组成,最好不要用保留字符,虽然不会错,至于怎么裁决,个人看情况而定
*/
StringcKey="assistant7654321";
//需要加密的字串
StringcSrc="123456";
//加密
longlStart=System.currentTimeMillis();
StringenString=encrypt(cSrc,cKey);
System.out.println("加密后的字串是:"+enString);
longlUseTime=System.currentTimeMillis()-lStart;
System.out.println("加密耗时:"+lUseTime+"毫秒");
//解密
lStart=System.currentTimeMillis();
StringDeString=decrypt(enString,cKey);
System.out.println("解密后的字串是:"+DeString);
lUseTime=System.currentTimeMillis()-lStart;
System.out.println("解密耗时:"+lUseTime+"毫秒");
}
}
⑹ Des加密解密方法 用java C#和C++三种方式实现
Solaris下的系统,有一个用C做的加密工具,调用Sunwcry的des(1)对文件进行加密,然后在java中对文件进行解密。java中用的是标准的DES/CBC/NoPadding算法,可是解密后发现开头有8byte的数据出错了,请高人指点一下。
cbc_encrypt.c : 加密用的C程序
cbc_decrypt.c:解密用的C程序
TestDescbc.java:解密用的java程序
Test01.dat原始文件
Test03.dat cbc_encrypt加密后的文件
Test05.dat cbc_decrypt解密后的文件
Test06.dat TestDescbc解密后的文件
⑺ java des 加密 解密 密钥随机取得方法
java DES 加密 解密 生成随机密钥
举例说明:
//保存生成的key
public static void saveDesKey() {
try {
SecureRandom sr = new SecureRandom();
// 选择的DES算法生成一个KeyGenerator对象
KeyGenerator kg = KeyGenerator.getInstance("DES");
kg.init(sr);
// 相对路径 需要新建 conf 文件夹
// String fileName = "conf/DesKey.xml";
// 绝对路径
String fileName = "d:/DesKey.xml";
FileOutputStream fos = new FileOutputStream(fileName);
ObjectOutputStream oos = new ObjectOutputStream(fos);
// 生成密钥
Key key = kg.generateKey();
oos.writeObject(key);
oos.close();
} catch (Exception e) {
e.printStackTrace();
}
}
//获取生成的key
public static Key getKey() {
Key kp = null;
try {
// 相对路径 需要新建 conf 文件夹
// String fileName = "conf/DesKey.xml";
// InputStream is = Encrypt.class.getClassLoader().getResourceAsStream(fileName);
// 绝对路径
String fileName = "d:/DesKey.xml";
FileInputStream is = new FileInputStream(fileName);
ObjectInputStream oos = new ObjectInputStream(is);
kp = (Key) oos.readObject();
oos.close();
} catch (Exception e) {
e.printStackTrace();
}
return kp;
}
//加密开始
public static void encrypt(String file, String dest) throws Exception {
Cipher cipher = Cipher.getInstance("DES");
cipher.init(Cipher.ENCRYPT_MODE, getKey());
InputStream is = new FileInputStream(file);
OutputStream out = new FileOutputStream(dest);
CipherInputStream cis = new CipherInputStream(is, cipher);
byte[] buffer = new byte[1024];
int r;
while ((r = cis.read(buffer)) > 0) {
out.write(buffer, 0, r);
}
cis.close();
is.close();
out.close();
}
//解密开始
public static void decrypt(String file, String dest) throws Exception {
Cipher cipher = Cipher.getInstance("DES");
cipher.init(Cipher.DECRYPT_MODE, getKey());
InputStream is = new FileInputStream(file);
OutputStream out = new FileOutputStream(dest);
CipherOutputStream cos = new CipherOutputStream(out, cipher);
byte[] buffer = new byte[1024];
int r;
while ((r = is.read(buffer)) >= 0) {
cos.write(buffer, 0, r);
}
cos.close();
out.close();
is.close();
}
}
//des加密主方法
public class DES {
public static void main(String[] args) throws Exception {
Encrypt.saveDesKey();
System.out.println("生成key");
Encrypt.getKey();
System.out.println("获取key");
Encrypt.encrypt("d:\\hello.txt", "d:\\encrypt.txt");
System.out.println("加密");
Encrypt.decrypt("d:\\encrypt.txt", "d:\\decrypt.txt");
System.out.println("解密");
}
以上方法亲测可用。
⑻ 急急急急急 关于C#DES 加密和解密
public class TripleDES_
{
public static string EncodeByDES(string origin, byte[] key, byte[] iv)
{
byte[] input = UnicodeEncoding.UTF8.GetBytes(origin);
byte[] md5Hash = new MD5CryptoServiceProvider().ComputeHash(input);
byte[] totalBuf = new byte[input.Length + md5Hash.Length];
Array.Copy(md5Hash, 0, totalBuf, 0, md5Hash.Length);
Array.Copy(input, 0, totalBuf, md5Hash.Length, input.Length);
return Convert.ToBase64String(EncryptTextToMemory(totalBuf, key, iv));
}
public static byte[] EncryptTextToMemory(byte[] data, byte[] Key, byte[] IV)
{
try
{
// Create a MemoryStream.
MemoryStream mStream = new MemoryStream();
// Create a CryptoStream using the MemoryStream
// and the passed key and initialization vector (IV).
CryptoStream cStream = new CryptoStream(mStream,
new DESCryptoServiceProvider().CreateEncryptor(Key, IV),
CryptoStreamMode.Write);
// Convert the passed string to a byte array.
byte[] toEncrypt = data;
//new ASCIIEncoding().GetBytes(Data);
// Write the byte array to the crypto stream and flush it.
cStream.Write(toEncrypt, 0, toEncrypt.Length);
cStream.FlushFinalBlock();
// Get an array of bytes from the
// MemoryStream that holds the
// encrypted data.
byte[] ret = mStream.ToArray();
// Close the streams.
cStream.Close();
mStream.Close();
// Return the encrypted buffer.
return ret;
}
catch (CryptographicException e)
{
Console.WriteLine("A Cryptographic error occurred: {0}", e.Message);
return null;
}
}
public static string DecodeByDES(string origin, byte[] key, byte[] iv)
{
byte[] totalBuf = Convert.FromBase64String(origin);
totalBuf = DecryptTextFromMemory(totalBuf, key, iv);
int offset = 0;
for (int i = totalBuf.Length - 1; i > 0; i--)
{
if (totalBuf[i] != 0) break;
offset++;
}
byte[] md5Hash = new byte[16];
byte[] input = new byte[totalBuf.Length - md5Hash.Length - offset];
Array.Copy(totalBuf, 0, md5Hash, 0, md5Hash.Length);
Array.Copy(totalBuf, md5Hash.Length, input, 0, input.Length);
byte[] newMD5 = new MD5CryptoServiceProvider().ComputeHash(input);
if (newMD5.Length != md5Hash.Length) return null;
for (int i = 0; i < md5Hash.Length; i++)
{
// if (md5Hash[i] != newMD5[i]) return null;
}
return Encoding.UTF8.GetString(input);
}
public static byte[] DecryptTextFromMemory(byte[] Data, byte[] Key, byte[] IV)
{
try
{
// Create a new MemoryStream using the passed
// array of encrypted data.
MemoryStream msDecrypt = new MemoryStream(Data);
// Create a CryptoStream using the MemoryStream
// and the passed key and initialization vector (IV).
CryptoStream csDecrypt = new CryptoStream(msDecrypt,
new DESCryptoServiceProvider().CreateDecryptor(Key, IV),
CryptoStreamMode.Read);
// Create buffer to hold the decrypted data.
byte[] fromEncrypt = new byte[Data.Length];
// Read the decrypted data out of the crypto stream
// and place it into the temporary buffer.
csDecrypt.Read(fromEncrypt, 0, fromEncrypt.Length);
//Convert the buffer into a string and return it.
//把base64编码的byte[]转为Unicode的string
// return Encoding .Unicode.GetString ( Convert .FromBase64String ( Encoding.Default.GetString(fromEncrypt)));
return fromEncrypt;
}
catch (CryptographicException e)
{
Console.WriteLine("A Cryptographic error occurred: {0}", e.Message);
return null;
}
}
}
验证通过的
⑼ 求高手给出以下JAVA代码的DES加密解密方法的对应的C#的DES加密解密方法
Java密码学结构设计遵循两个原则:
1) 算法的独立性和可靠性。
2) 实现的独立性和相互作用性。
算法的独立性是通过定义密码服务类来获得。用户只需了解密码算法的概念,而不用去关心如何实现这些概念。实现的独立性和相互作用性通过密码服务提供器来实现。密码服务提供器是实现一个或多个密码服务的一个或多个程序包。软件开发商根据一定接口,将各种算法实现后,打包成一个提供器,用户可以安装不同的提供器。安装和配置提供器,可将包含提供器的ZIP和JAR文件放在CLASSPATH下,再编辑Java安全属性文件来设置定义一个提供器。
DES算法及如何利用DES算法加密和解密类文件的步骤:
DES算法简介
DES(Data Encryption Standard)是发明最早的最广泛使用的分组对称加密算法。DES算法的入口参数有三个:Key、Data、Mode。其中Key为8个字节共64位,是DES算法的工作密钥;Data也为8个字节64位,是要被加密或被解密的数据;Mode为DES的工作方式,有两种:加密或解密。