数据的加密重要性大家皆知,很多情况下需要对数据进行加密处理,但各种重要数据的加密要求不一样,有些需要时可逆的,有些是不要求可逆的,可逆的一般称之为对称加密算法,不可逆的一般可以成为非对称加密算法。如登录密码,一般较好的方式是采用不可逆的加密算法,如MD5、SHA256、哈希数值等,当然也有的采用可逆的强度好一些的加密方式,在选择加密键值的时候,变化一下也算是比较不错的选择。另外一些为了掩人耳目或者不让别人直接可以查看到,就采用其他的加密算法,如DES加密算法、AES的RijndaelManaged加密算法,或者也可以采用Base64加密,甚至我看到一个很变态的方式,就是用MD5加密的头,内容则采用Base64的方式加密,一般不知道内情的还真的不好处理。

在吉日《
[走火入魔失眠夜]浅谈管理软件信息安全,用户名、密码的加密解密【附C#配套加密解密源码】
》 的文章中也对加密做了一些介绍和分析,并贴出了MD5、DES的加密方式代码,吉日的文章图文并茂、哲理及诙谐例子并存,本文有感而发,做一些补充,希望园子同行共通过切磋,交流心得。

加密字符串的方式有很多,也都可以通过这样的加密文件内容,不过较好的方式可能是采用DES及AES两种方式来加密文件了,下面贴出的代码中包含了加解密文件的算法。下面具体贴出本人收藏的各种加密算法代码。

1、DES加密字符串及文件等

如果想可逆的算法,这种方式一般不错,只要结合动态密钥,就可以做出强度比较高的加密应用了。


#region
DES对称加密解密


public

const

string
DEFAULT_ENCRYPT_KEY
=

"
12345678
"
;


///

<summary>


///
使用默认加密

///

</summary>


///

<param name="strText"></param>


///

<returns></returns>



public

static

string
DesEncrypt(
string
strText)
{

try

{

return
DesEncrypt(strText, DEFAULT_ENCRYPT_KEY);
}

catch

{

return

""
;
}
}


///

<summary>


///
使用默认解密

///

</summary>


///

<param name="strText"></param>


///

<returns></returns>



public

static

string
DesDecrypt(
string
strText)
{

try

{

return
DesDecrypt(strText, DEFAULT_ENCRYPT_KEY);
}

catch

{

return

""
;
}
}


///

<summary>


///
Encrypt the string

///
Attention:key must be 8 bits

///

</summary>


///

<param name="strText">
string
</param>


///

<param name="strEncrKey">
key
</param>


///

<returns></returns>




public

static

string
DesEncrypt(
string
strText,
string
strEncrKey)
{

byte
[] byKey
=

null
;

byte
[] IV
=
{
0x12
,
0x34
,
0x56
,
0x78
,
0x90
,
0xAB
,
0xCD
,
0xEF
};

byKey

=
Encoding.UTF8.GetBytes(strEncrKey.Substring(
0
,
8
));
DESCryptoServiceProvider des

=

new
DESCryptoServiceProvider();

byte
[] inputByteArray
=
Encoding.UTF8.GetBytes(strText);
MemoryStream ms

=

new
MemoryStream();
CryptoStream cs

=

new
CryptoStream(ms, des.CreateEncryptor(byKey, IV), CryptoStreamMode.Write);
cs.Write(inputByteArray,

0
, inputByteArray.Length);
cs.FlushFinalBlock();

return
Convert.ToBase64String(ms.ToArray());
}


///

<summary>


///
Decrypt string

///
Attention:key must be 8 bits

///

</summary>


///

<param name="strText">
Decrypt string
</param>


///

<param name="sDecrKey">
key
</param>


///

<returns>
output string
</returns>




public

static

string
DesDecrypt(
string
strText,
string
sDecrKey)
{

byte
[] byKey
=

null
;

byte
[] IV
=
{
0x12
,
0x34
,
0x56
,
0x78
,
0x90
,
0xAB
,
0xCD
,
0xEF
};

byte
[] inputByteArray
=

new
Byte[strText.Length];

byKey

=
Encoding.UTF8.GetBytes(sDecrKey.Substring(
0
,
8
));
DESCryptoServiceProvider des

=

new
DESCryptoServiceProvider();
inputByteArray

=
Convert.FromBase64String(strText);
MemoryStream ms

=

new
MemoryStream();
CryptoStream cs

=

new
CryptoStream(ms, des.CreateDecryptor(byKey, IV), CryptoStreamMode.Write);
cs.Write(inputByteArray,

0
, inputByteArray.Length);
cs.FlushFinalBlock();
Encoding encoding

=

new
UTF8Encoding();

return
encoding.GetString(ms.ToArray());
}


///

<summary>


///
Encrypt files

///
Attention:key must be 8 bits

///

</summary>


///

<param name="m_InFilePath">
Encrypt file path
</param>


///

<param name="m_OutFilePath">
output file
</param>


///

<param name="strEncrKey">
key
</param>




public

static

void
DesEncrypt(
string
m_InFilePath,
string
m_OutFilePath,
string
strEncrKey)
{

byte
[] byKey
=

null
;

byte
[] IV
=
{
0x12
,
0x34
,
0x56
,
0x78
,
0x90
,
0xAB
,
0xCD
,
0xEF
};

byKey

=
Encoding.UTF8.GetBytes(strEncrKey.Substring(
0
,
8
));
FileStream fin

=

new
FileStream(m_InFilePath, FileMode.Open, FileAccess.Read);
FileStream fout

=

new
FileStream(m_OutFilePath, FileMode.OpenOrCreate, FileAccess.Write);
fout.SetLength(

0
);

//
Create variables to help with read and write.



byte
[] bin
=

new

byte
[
100
];
//
This is intermediate storage for the encryption.



long
rdlen
=

0
;
//
This is the total number of bytes written.



long
totlen
=
fin.Length;
//
This is the total length of the input file.



int
len;
//
This is the number of bytes to be written at a time.



DES des

=

new
DESCryptoServiceProvider();
CryptoStream encStream

=

new
CryptoStream(fout, des.CreateEncryptor(byKey, IV), CryptoStreamMode.Write);


//
Read from the input file, then encrypt and write to the output file.



while
(rdlen
<
totlen)
{
len

=
fin.Read(bin,
0
,
100
);
encStream.Write(bin,

0
, len);
rdlen

=
rdlen
+
len;
}
encStream.Close();
fout.Close();
fin.Close();
}


///

<summary>


///
Decrypt files

///
Attention:key must be 8 bits

///

</summary>


///

<param name="m_InFilePath">
Decrypt filepath
</param>


///

<param name="m_OutFilePath">
output filepath
</param>


///

<param name="sDecrKey">
key
</param>




public

static

void
DesDecrypt(
string
m_InFilePath,
string
m_OutFilePath,
string
sDecrKey)
{

byte
[] byKey
=

null
;

byte
[] IV
=
{
0x12
,
0x34
,
0x56
,
0x78
,
0x90
,
0xAB
,
0xCD
,
0xEF
};

byKey

=
Encoding.UTF8.GetBytes(sDecrKey.Substring(
0
,
8
));
FileStream fin

=

new
FileStream(m_InFilePath, FileMode.Open, FileAccess.Read);
FileStream fout

=

new
FileStream(m_OutFilePath, FileMode.OpenOrCreate, FileAccess.Write);
fout.SetLength(

0
);

//
Create variables to help with read and write.



byte
[] bin
=

new

byte
[
100
];
//
This is intermediate storage for the encryption.



long
rdlen
=

0
;
//
This is the total number of bytes written.



long
totlen
=
fin.Length;
//
This is the total length of the input file.



int
len;
//
This is the number of bytes to be written at a time.



DES des

=

new
DESCryptoServiceProvider();
CryptoStream encStream

=

new
CryptoStream(fout, des.CreateDecryptor(byKey, IV), CryptoStreamMode.Write);


//
Read from the input file, then encrypt and write to the output file.



while
(rdlen
<
totlen)
{
len

=
fin.Read(bin,
0
,
100
);
encStream.Write(bin,

0
, len);
rdlen

=
rdlen
+
len;
}
encStream.Close();
fout.Close();
fin.Close();
}

#endregion

2、 对称加密算法AES RijndaelManaged加密解密


#region
对称加密算法AES RijndaelManaged加密解密


private

static

readonly

string
Default_AES_Key
=

"
@#kim123
"
;

private

static

byte
[] Keys
=
{
0x41
,
0x72
,
0x65
,
0x79
,
0x6F
,
0x75
,
0x6D
,
0x79
,

0x53
,
0x6E
,
0x6F
,
0x77
,
0x6D
,
0x61
,
0x6E
,
0x3F
};


///

<summary>


///
对称加密算法AES RijndaelManaged加密(RijndaelManaged(AES)算法是块式加密算法)

///

</summary>


///

<param name="encryptString">
待加密字符串
</param>


///

<returns>
加密结果字符串
</returns>



public

static

string
AES_Encrypt(
string
encryptString)
{

return
AES_Encrypt(encryptString, Default_AES_Key);
}


///

<summary>


///
对称加密算法AES RijndaelManaged加密(RijndaelManaged(AES)算法是块式加密算法)

///

</summary>


///

<param name="encryptString">
待加密字符串
</param>


///

<param name="encryptKey">
加密密钥,须半角字符
</param>


///

<returns>
加密结果字符串
</returns>



public

static

string
AES_Encrypt(
string
encryptString,
string
encryptKey)
{
encryptKey

=
GetSubString(encryptKey,
32
,
""
);
encryptKey

=
encryptKey.PadRight(
32
,
'

'
);

RijndaelManaged rijndaelProvider

=

new
RijndaelManaged();
rijndaelProvider.Key

=
Encoding.UTF8.GetBytes(encryptKey.Substring(
0
,
32
));
rijndaelProvider.IV

=
Keys;
ICryptoTransform rijndaelEncrypt

=
rijndaelProvider.CreateEncryptor();


byte
[] inputData
=
Encoding.UTF8.GetBytes(encryptString);

byte
[] encryptedData
=
rijndaelEncrypt.TransformFinalBlock(inputData,
0
, inputData.Length);


return
Convert.ToBase64String(encryptedData);
}


///

<summary>


///
对称加密算法AES RijndaelManaged解密字符串

///

</summary>


///

<param name="decryptString">
待解密的字符串
</param>


///

<returns>
解密成功返回解密后的字符串,失败返源串
</returns>



public

static

string
AES_Decrypt(
string
decryptString)
{

return
AES_Decrypt(decryptString, Default_AES_Key);
}


///

<summary>


///
对称加密算法AES RijndaelManaged解密字符串

///

</summary>


///

<param name="decryptString">
待解密的字符串
</param>


///

<param name="decryptKey">
解密密钥,和加密密钥相同
</param>


///

<returns>
解密成功返回解密后的字符串,失败返回空
</returns>



public

static

string
AES_Decrypt(
string
decryptString,
string
decryptKey)
{

try

{
decryptKey

=
GetSubString(decryptKey,
32
,
""
);
decryptKey

=
decryptKey.PadRight(
32
,
'

'
);

RijndaelManaged rijndaelProvider

=

new
RijndaelManaged();
rijndaelProvider.Key

=
Encoding.UTF8.GetBytes(decryptKey);
rijndaelProvider.IV

=
Keys;
ICryptoTransform rijndaelDecrypt

=
rijndaelProvider.CreateDecryptor();


byte
[] inputData
=
Convert.FromBase64String(decryptString);

byte
[] decryptedData
=
rijndaelDecrypt.TransformFinalBlock(inputData,
0
, inputData.Length);


return
Encoding.UTF8.GetString(decryptedData);
}

catch

{

return

string
.Empty;
}
}


///

<summary>


///
按字节长度(按字节,一个汉字为2个字节)取得某字符串的一部分

///

</summary>


///

<param name="sourceString">
源字符串
</param>


///

<param name="length">
所取字符串字节长度
</param>


///

<param name="tailString">
附加字符串(当字符串不够长时,尾部所添加的字符串,一般为"...")
</param>


///

<returns>
某字符串的一部分
</returns>



private

static

string
GetSubString(
string
sourceString,
int
length,
string
tailString)
{

return
GetSubString(sourceString,
0
, length, tailString);
}


///

<summary>


///
按字节长度(按字节,一个汉字为2个字节)取得某字符串的一部分

///

</summary>


///

<param name="sourceString">
源字符串
</param>


///

<param name="startIndex">
索引位置,以0开始
</param>


///

<param name="length">
所取字符串字节长度
</param>


///

<param name="tailString">
附加字符串(当字符串不够长时,尾部所添加的字符串,一般为"...")
</param>


///

<returns>
某字符串的一部分
</returns>



private

static

string
GetSubString(
string
sourceString,
int
startIndex,
int
length,
string
tailString)
{

string
myResult
=
sourceString;


//
当是日文或韩文时(注:中文的范围:\u4e00 - \u9fa5, 日文在\u0800 - \u4e00, 韩文为\xAC00-\xD7A3)



if
(System.Text.RegularExpressions.Regex.IsMatch(sourceString,
"
[\u0800-\u4e00]+
"
)
||

System.Text.RegularExpressions.Regex.IsMatch(sourceString,

"
[\xAC00-\xD7A3]+
"
))
{

//
当截取的起始位置超出字段串长度时



if
(startIndex
>=
sourceString.Length)
{

return

string
.Empty;
}

else

{

return
sourceString.Substring(startIndex,
((length

+
startIndex)
>
sourceString.Length)
?
(sourceString.Length
-
startIndex) : length);
}
}


//
中文字符,如"中国人民abcd123"



if
(length
<=

0
)
{

return

string
.Empty;
}

byte
[] bytesSource
=
Encoding.Default.GetBytes(sourceString);


//
当字符串长度大于起始位置



if
(bytesSource.Length
>
startIndex)
{

int
endIndex
=
bytesSource.Length;


//
当要截取的长度在字符串的有效长度范围内



if
(bytesSource.Length
>
(startIndex
+
length))
{
endIndex

=
length
+
startIndex;
}

else

{

//
当不在有效范围内时,只取到字符串的结尾


length
=
bytesSource.Length
-
startIndex;
tailString

=

""
;
}


int
[] anResultFlag
=

new

int
[length];

int
nFlag
=

0
;

//
字节大于127为双字节字符



for
(
int
i
=
startIndex; i
<
endIndex; i
++
)
{

if
(bytesSource[i]
>

127
)
{
nFlag

++
;

if
(nFlag
==

3
)
{
nFlag

=

1
;
}
}

else

{
nFlag

=

0
;
}
anResultFlag[i]

=
nFlag;
}

//
最后一个字节为双字节字符的一半



if
((bytesSource[endIndex
-

1
]
>

127
)
&&
(anResultFlag[length
-

1
]
==

1
))
{
length

=
length
+

1
;
}


byte
[] bsResult
=

new

byte
[length];
Array.Copy(bytesSource, startIndex, bsResult,

0
, length);
myResult

=
Encoding.Default.GetString(bsResult);
myResult

=
myResult
+
tailString;


return
myResult;
}


return

string
.Empty;

}


///

<summary>


///
加密文件流

///

</summary>


///

<param name="fs"></param>


///

<returns></returns>



public

static
CryptoStream AES_EncryptStrream(FileStream fs,
string
decryptKey)
{
decryptKey

=
GetSubString(decryptKey,
32
,
""
);
decryptKey

=
decryptKey.PadRight(
32
,
'

'
);

RijndaelManaged rijndaelProvider

=

new
RijndaelManaged();
rijndaelProvider.Key

=
Encoding.UTF8.GetBytes(decryptKey);
rijndaelProvider.IV

=
Keys;

ICryptoTransform encrypto

=
rijndaelProvider.CreateEncryptor();
CryptoStream cytptostreamEncr

=

new
CryptoStream(fs, encrypto, CryptoStreamMode.Write);

return
cytptostreamEncr;
}


///

<summary>


///
解密文件流

///

</summary>


///

<param name="fs"></param>


///

<returns></returns>



public

static
CryptoStream AES_DecryptStream(FileStream fs,
string
decryptKey)
{
decryptKey

=
GetSubString(decryptKey,
32
,
""
);
decryptKey

=
decryptKey.PadRight(
32
,
'

'
);

RijndaelManaged rijndaelProvider

=

new
RijndaelManaged();
rijndaelProvider.Key

=
Encoding.UTF8.GetBytes(decryptKey);
rijndaelProvider.IV

=
Keys;
ICryptoTransform Decrypto

=
rijndaelProvider.CreateDecryptor();
CryptoStream cytptostreamDecr

=

new
CryptoStream(fs, Decrypto, CryptoStreamMode.Read);

return
cytptostreamDecr;
}


///

<summary>


///
对指定文件加密

///

</summary>


///

<param name="InputFile"></param>


///

<param name="OutputFile"></param>


///

<returns></returns>



public

static

bool
AES_EncryptFile(
string
InputFile,
string
OutputFile)
{

try

{

string
decryptKey
=

"
www.iqidi.com
"
;

FileStream fr

=

new
FileStream(InputFile, FileMode.Open);
FileStream fren

=

new
FileStream(OutputFile, FileMode.Create);
CryptoStream Enfr

=
AES_EncryptStrream(fren, decryptKey);

byte
[] bytearrayinput
=

new

byte
[fr.Length];
fr.Read(bytearrayinput,

0
, bytearrayinput.Length);
Enfr.Write(bytearrayinput,

0
, bytearrayinput.Length);
Enfr.Close();
fr.Close();
fren.Close();
}

catch

{

//
文件异常



return

false
;
}

return

true
;
}


///

<summary>


///
对指定的文件解压缩

///

</summary>


///

<param name="InputFile"></param>


///

<param name="OutputFile"></param>


///

<returns></returns>



public

static

bool
AES_DecryptFile(
string
InputFile,
string
OutputFile)
{

try

{

string
decryptKey
=

"
www.iqidi.com
"
;
FileStream fr

=

new
FileStream(InputFile, FileMode.Open);
FileStream frde

=

new
FileStream(OutputFile, FileMode.Create);
CryptoStream Defr

=
AES_DecryptStream(fr, decryptKey);

byte
[] bytearrayoutput
=

new

byte
[
1024
];

int
m_count
=

0
;


do

{
m_count

=
Defr.Read(bytearrayoutput,
0
, bytearrayoutput.Length);
frde.Write(bytearrayoutput,

0
, m_count);

if
(m_count
<
bytearrayoutput.Length)

break
;
}

while
(
true
);

Defr.Close();
fr.Close();
frde.Close();
}

catch

{

//
文件异常



return

false
;
}

return

true
;
}


#endregion

3、  Base64加密解密算法


#region
Base64加密解密


///

<summary>


///
Base64是一種使用64基的位置計數法。它使用2的最大次方來代表僅可列印的ASCII 字元。

///
這使它可用來作為電子郵件的傳輸編碼。在Base64中的變數使用字元A-Z、a-z和0-9 ,

///
這樣共有62個字元,用來作為開始的64個數字,最後兩個用來作為數字的符號在不同的

///
系統中而不同。

///
Base64加密

///

</summary>


///

<param name="str"></param>


///

<returns></returns>



public

static

string
Base64Encrypt(
string
str)
{

byte
[] encbuff
=
System.Text.Encoding.UTF8.GetBytes(str);

return
Convert.ToBase64String(encbuff);
}


///

<summary>


///
Base64解密

///

</summary>


///

<param name="str"></param>


///

<returns></returns>



public

static

string
Base64Decrypt(
string
str)
{

byte
[] decbuff
=
Convert.FromBase64String(str);

return
System.Text.Encoding.UTF8.GetString(decbuff);
}

#endregion

4、 MD5加密及验证

MD5的加密处理应用还是比较多,由于破解难度很大,基本上大型网站或者软件商,密码加密一般采用这种方式居多。

而MD5可以用来获得32、 16、8等全部部分内容加密内容,也可以获取其加密后的哈希值。


///

<summary>


///
获得32位的MD5加密

///

</summary>


///

<param name="input"></param>


///

<returns></returns>



public

static

string
GetMD5_32(
string
input)
{
System.Security.Cryptography.MD5 md5

=
System.Security.Cryptography.MD5.Create();

byte
[] data
=
md5.ComputeHash(System.Text.Encoding.Default.GetBytes(input));
StringBuilder sb

=

new
StringBuilder();

for
(
int
i
=

0
; i
<
data.Length; i
++
)
{
sb.Append(data[i].ToString(

"
x2
"
));
}

return
sb.ToString();
}


///

<summary>


///
获得16位的MD5加密

///

</summary>


///

<param name="input"></param>


///

<returns></returns>



public

static

string
GetMD5_16(
string
input)
{

return
GetMD5_32(input).Substring(
8
,
16
);
}

///

<summary>


///
获得8位的MD5加密

///

</summary>


///

<param name="input"></param>


///

<returns></returns>



public

static

string
GetMD5_8(
string
input)
{

return
GetMD5_32(input).Substring(
8
,
8
);
}

///

<summary>


///
获得4位的MD5加密

///

</summary>


///

<param name="input"></param>


///

<returns></returns>



public

static

string
GetMD5_4(
string
input)
{

return
GetMD5_32(input).Substring(
8
,
4
);
}


public

static

string
MD5EncryptHash(String input)
{
MD5 md5

=

new
MD5CryptoServiceProvider();

//
the GetBytes method returns byte array equavalent of a string



byte
[] res
=
md5.ComputeHash(Encoding.Default.GetBytes(input),
0
, input.Length);

char
[] temp
=

new

char
[res.Length];

//
copy to a char array which can be passed to a String constructor


Array.Copy(res, temp, res.Length);

//
return the result as a string



return

new
String(temp);
}

5、 对文件添加MD5标签及验证

这种方式比较有趣,我也是最近才发现其中的奥妙,其实我们为了防止文件被修改,可以采用这种方式预先添加MD5码,然后在程序代码中进行验证,这样至少可以减少部分篡改的行为吧,因为只要文件有些少的修改,Md5码将会发生变化的,呵呵。


#region
MD5签名验证


///

<summary>


///
对给定文件路径的文件加上标签

///

</summary>


///

<param name="path">
要加密的文件的路径
</param>


///

<returns>
标签的值
</returns>



public

static

bool
AddMD5(
string
path)
{

bool
IsNeed
=

true
;


if
(CheckMD5(path))
//
已进行MD5处理


IsNeed
=

false
;


try

{
FileStream fsread

=

new
FileStream(path, FileMode.Open, FileAccess.Read, FileShare.Read);

byte
[] md5File
=

new

byte
[fsread.Length];
fsread.Read(md5File,

0
, (
int
)fsread.Length);
//
将文件流读取到Buffer中


fsread.Close();


if
(IsNeed)
{

string
result
=
MD5Buffer(md5File,
0
, md5File.Length);
//
对Buffer中的字节内容算MD5



byte
[] md5
=
System.Text.Encoding.ASCII.GetBytes(result);
//
将字符串转换成字节数组以便写人到文件中


FileStream fsWrite
=

new
FileStream(path, FileMode.Open, FileAccess.ReadWrite);
fsWrite.Write(md5File,

0
, md5File.Length);
//
将文件,MD5值 重新写入到文件中。


fsWrite.Write(md5,
0
, md5.Length);
fsWrite.Close();
}

else

{
FileStream fsWrite

=

new
FileStream(path, FileMode.Open, FileAccess.ReadWrite);
fsWrite.Write(md5File,

0
, md5File.Length);
fsWrite.Close();
}
}

catch

{

return

false
;
}


return

true
;
}


///

<summary>


///
对给定路径的文件进行验证

///

</summary>


///

<param name="path"></param>


///

<returns>
是否加了标签或是否标签值与内容值一致
</returns>



public

static

bool
CheckMD5(
string
path)
{

try

{
FileStream get_file

=

new
FileStream(path, FileMode.Open, FileAccess.Read, FileShare.Read);

byte
[] md5File
=

new

byte
[get_file.Length];
//
读入文件


get_file.Read(md5File,
0
, (
int
)get_file.Length);
get_file.Close();


string
result
=
MD5Buffer(md5File,
0
, md5File.Length
-

32
);
//
对文件除最后32位以外的字节计算MD5,这个32是因为标签位为32位。



string
md5
=
System.Text.Encoding.ASCII.GetString(md5File, md5File.Length
-

32
,
32
);
//
读取文件最后32位,其中保存的就是MD5值



return
result
==
md5;
}

catch

{

return

false
;
}
}


///

<summary>


///
计算文件的MD5值

///

</summary>


///

<param name="MD5File">
MD5签名文件字符数组
</param>


///

<param name="index">
计算起始位置
</param>


///

<param name="count">
计算终止位置
</param>


///

<returns>
计算结果
</returns>



private

static

string
MD5Buffer(
byte
[] MD5File,
int
index,
int
count)
{
System.Security.Cryptography.MD5CryptoServiceProvider get_md5

=

new
System.Security.Cryptography.MD5CryptoServiceProvider();

byte
[] hash_byte
=
get_md5.ComputeHash(MD5File, index, count);

string
result
=
System.BitConverter.ToString(hash_byte);

result

=
result.Replace(
"
-
"
,
""
);

return
result;
}

#endregion

6、 SHA256加密算法


///

<summary>


///
SHA256函数

///

</summary>


///

<param name="str">
原始字符串
</param>


///

<returns>
SHA256结果(返回长度为44字节的字符串)
</returns>



public

static

string
SHA256(
string
str)
{

byte
[] SHA256Data
=
Encoding.UTF8.GetBytes(str);
SHA256Managed Sha256

=

new
SHA256Managed();

byte
[] Result
=
Sha256.ComputeHash(SHA256Data);

return
Convert.ToBase64String(Result);
//
返回长度为44字节的字符串


}

7、 MD5及Base64结合加密

这种结合方式也是比较不错的算法,至少是四不像,一般分析比较困难,比较有迷惑性,就是挂羊头,卖狗肉的行为,其实Base64加密方式,也可以做的比较复杂,不一定是上面的那种解决方式的,你可以添加一些较为复杂的算法在里面的。


///

<summary>


///
加密字符串

///

</summary>


///

<param name="input"></param>


///

<returns></returns>



public

static

string
EncryptString(
string
input)
{

return
MD5Util.AddMD5Profix(Base64Util.Encrypt(MD5Util.AddMD5Profix(input)));

//
return Base64.Encrypt(MD5.AddMD5Profix(Base64.Encrypt(input)));


}


///

<summary>


///
解密加过密的字符串

///

</summary>


///

<param name="input"></param>


///

<param name="throwException">
解密失败是否抛异常
</param>


///

<returns></returns>



public

static

string
DecryptString(
string
input,
bool
throwException)
{

string
res
=

""
;

try

{
res

=
input;
//
Base64.Decrypt(input);



if
(MD5Util.ValidateValue(res))
{

return
MD5Util.RemoveMD5Profix(Base64Util.Decrypt(MD5Util.RemoveMD5Profix(res)));
}

else

{

throw

new
Exception(
"
字符串无法转换成功!
"
);
}
}

catch

{

if
(throwException)
{

throw
;
}

else

{

return

""
;
}
}
}


//
-----------下面是MD5Util下面的函数




///

<summary>


///
添加MD5的前缀,便于检查有无篡改

///

</summary>


///

<param name="input"></param>


///

<returns></returns>



public

static

string
AddMD5Profix(
string
input)
{

return
GetMD5_4(input)
+
input;
}

///

<summary>


///
移除MD5的前缀

///

</summary>


///

<param name="input"></param>


///

<returns></returns>



public

static

string
RemoveMD5Profix(
string
input)
{

return
input.Substring(
4
);
}

///

<summary>


///
验证MD5前缀处理的字符串有无被篡改

///

</summary>


///

<param name="input"></param>


///

<returns></returns>



public

static

bool
ValidateValue(
string
input)
{

bool
res
=

false
;

if
(input.Length
>=

4
)
{

string
tmp
=
input.Substring(
4
);

if
(input.Substring(
0
,
4
)
==
GetMD5_4(tmp))
{
res

=

true
;
}
}

return
res;
}

如下面代码就是上面提到的Base64Util中的内容,好像算法处理还是比较麻烦,也贴出来大家研读一下吧。


///

<summary>


///
基于Base64的加密编码,

///
可以设置不同的密码表来获取不同的编码合解码

///

</summary>



public

class
Base64Util
{

public
Base64Util()
{

this
.InitDict();
}


protected

static
Base64Util s_b64
=

new
Base64Util();


///

<summary>


///
使用默认的密码表加密字符串

///

</summary>


///

<param name="input"></param>


///

<returns></returns>



public

static

string
Encrypt(
string
input)
{

return
s_b64.Encode(input);
}

///

<summary>


///
使用默认的密码表解密字符串

///

</summary>


///

<param name="input"></param>


///

<returns></returns>



public

static

string
Decrypt(
string
input)
{

return
s_b64.Decode(input);
}


///

<summary>


///
获取具有标准的Base64密码表的加密类

///

</summary>


///

<returns></returns>



public

static
Base64Util GetStandardBase64()
{
Base64Util b64

=

new
Base64Util();
b64.Pad

=

"
=
"
;
b64.CodeTable

=

"
ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/
"
;

return
b64;
}


protected

string
m_codeTable
=

@"
ABCDEFGHIJKLMNOPQRSTUVWXYZbacdefghijklmnopqrstu_wxyz0123456789*-
"
;

protected

string
m_pad
=

"
v
"
;

protected
Dictionary
<
int
,
char
>
m_t1
=

new
Dictionary
<
int
,
char
>
();

protected
Dictionary
<
char
,
int
>
m_t2
=

new
Dictionary
<
char
,
int
>
();


///

<summary>


///
密码表

///

</summary>



public

string
CodeTable
{

get
{
return
m_codeTable; }

set

{

if
(value
==

null
)
{

throw

new
Exception(
"
密码表不能为null
"
);
}

else

if
(value.Length
<

64
)
{

throw

new
Exception(
"
密码表长度必须至少为64
"
);
}

else

{

this
.ValidateRepeat(value);

this
.ValidateEqualPad(value, m_pad);
m_codeTable

=
value;

this
.InitDict();
}
}
}

///

<summary>


///
补码

///

</summary>



public

string
Pad
{

get
{
return
m_pad; }

set

{

if
(value
==

null
)
{

throw

new
Exception(
"
密码表的补码不能为null
"
);
}

else

if
(value.Length
!=

1
)
{

throw

new
Exception(
"
密码表的补码长度必须为1
"
);
}

else

{

this
.ValidateEqualPad(m_codeTable, value);
m_pad

=
value;

this
.InitDict();
}
}
}



///

<summary>


///
返回编码后的字符串

///

</summary>


///

<param name="source"></param>


///

<returns></returns>



public

string
Encode(
string
source)
{

if
(source
==

null

||
source
==

""
)
{

return

""
;
}

else

{
StringBuilder sb

=

new
StringBuilder();

byte
[] tmp
=
System.Text.UTF8Encoding.UTF8.GetBytes(source);

int
remain
=
tmp.Length
%

3
;

int
patch
=

3

-
remain;

if
(remain
!=

0
)
{
Array.Resize(

ref
tmp, tmp.Length
+
patch);
}

int
cnt
=
(
int
)Math.Ceiling(tmp.Length
*

1.0

/

3
);

for
(
int
i
=

0
; i
<
cnt; i
++
)
{
sb.Append(

this
.EncodeUnit(tmp[i
*

3
], tmp[i
*

3

+

1
], tmp[i
*

3

+

2
]));
}

if
(remain
!=

0
)
{
sb.Remove(sb.Length

-
patch, patch);

for
(
int
i
=

0
; i
<
patch; i
++
)
{
sb.Append(m_pad);
}
}

return
sb.ToString();
}

}

protected

string
EncodeUnit(
params

byte
[] unit)
{

int
[] obj
=

new

int
[
4
];
obj[

0
]
=
(unit[
0
]
&

0xfc
)
>>

2
;
obj[

1
]
=
((unit[
0
]
&

0x03
)
<<

4
)
+
((unit[
1
]
&

0xf0
)
>>

4
);
obj[

2
]
=
((unit[
1
]
&

0x0f
)
<<

2
)
+
((unit[
2
]
&

0xc0
)
>>

6
);
obj[

3
]
=
unit[
2
]
&

0x3f
;
StringBuilder sb

=

new
StringBuilder();

for
(
int
i
=

0
; i
<
obj.Length; i
++
)
{
sb.Append(

this
.GetEC((
int
)obj[i]));
}

return
sb.ToString();
}

protected

char
GetEC(
int
code)
{

return
m_t1[code];
//
m_codeTable[code];


}


///

<summary>


///
获得解码字符串

///

</summary>


///

<param name="source"></param>


///

<returns></returns>



public

string
Decode(
string
source)
{

if
(source
==

null

||
source
==

""
)
{

return

""
;
}

else

{
List

<
byte
>
list
=

new
List
<
byte
>
();

char
[] tmp
=
source.ToCharArray();

int
remain
=
tmp.Length
%

4
;

if
(remain
!=

0
)
{
Array.Resize(

ref
tmp, tmp.Length
-
remain);
}

int
patch
=
source.IndexOf(m_pad);

if
(patch
!=

-
1
)
{
patch

=
source.Length
-
patch;
}

int
cnt
=
tmp.Length
/

4
;

for
(
int
i
=

0
; i
<
cnt; i
++
)
{

this
.DecodeUnit(list, tmp[i
*

4
], tmp[i
*

4

+

1
], tmp[i
*

4

+

2
], tmp[i
*

4

+

3
]);
}

for
(
int
i
=

0
; i
<
patch; i
++
)
{
list.RemoveAt(list.Count

-

1
);
}

return
System.Text.Encoding.UTF8.GetString(list.ToArray());
}
}

protected

void
DecodeUnit(List
<
byte
>
byteArr,
params

char
[] chArray)
{

int
[] res
=

new

int
[
3
];

byte
[] unit
=

new

byte
[chArray.Length];

for
(
int
i
=

0
; i
<
chArray.Length; i
++
)
{
unit[i]

=

this
.FindChar(chArray[i]);
}
res[

0
]
=
(unit[
0
]
<<

2
)
+
((unit[
1
]
&

0x30
)
>>

4
);
res[

1
]
=
((unit[
1
]
&

0xf
)
<<

4
)
+
((unit[
2
]
&

0x3c
)
>>

2
);
res[

2
]
=
((unit[
2
]
&

0x3
)
<<

6
)
+
unit[
3
];

for
(
int
i
=

0
; i
<
res.Length; i
++
)
{
byteArr.Add((

byte
)res[i]);
}
}

protected

byte
FindChar(
char
ch)
{

int
pos
=
m_t2[ch];
//
m_codeTable.IndexOf(ch);



return
(
byte
)pos;
}


///

<summary>


///
初始化双向哈西字典

///

</summary>



protected

void
InitDict()
{
m_t1.Clear();
m_t2.Clear();
m_t2.Add(m_pad[

0
],
-
1
);

for
(
int
i
=

0
; i
<
m_codeTable.Length; i
++
)
{
m_t1.Add(i, m_codeTable[i]);
m_t2.Add(m_codeTable[i], i);
}
}

///

<summary>


///
检查字符串中的字符是否有重复

///

</summary>


///

<param name="input"></param>


///

<returns></returns>



protected

void
ValidateRepeat(
string
input)
{

for
(
int
i
=

0
; i
<
input.Length; i
++
)
{

if
(input.LastIndexOf(input[i])
>
i)
{

throw

new
Exception(
"
密码表中含有重复字符:
"

+
input[i]);
}
}
}

///

<summary>


///
检查字符串是否包含补码字符

///

</summary>


///

<param name="input"></param>


///

<param name="pad"></param>



protected

void
ValidateEqualPad(
string
input,
string
pad)
{

if
(input.IndexOf(pad)
>

-
1
)
{

throw

new
Exception(
"
密码表中包含了补码字符:
"

+
pad);
}
}


}

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