//须添加对System.Web的引用
using System.Web.Security;
/// <summary>
/// SHA1加密字符串
/// </summary>
/// <param name="source">源字符串</param>
/// <returns>加密后的字符串</returns>
public string SHA1(string source)
{
return FormsAuthentication.HashPasswordForStoringInConfigFile(source, "SHA1");
}
/// <summary>
/// MD5加密字符串
/// </summary>
/// <param name="source">源字符串</param>
/// <returns>加密后的字符串</returns>
public string MD5(string source)
{
return FormsAuthentication.HashPasswordForStoringInConfigFile(source, "MD5");;
}
//须添加对System.Web的引用
using System.Web.Security;
/// <summary>
/// SHA1加密字符串
/// </summary>
/// <param name="source">源字符串</param>
/// <returns>加密后的字符串</returns>
public string SHA1(string source)
{
return FormsAuthentication.HashPasswordForStoringInConfigFile(source, "SHA1");
}
/// <summary>
/// MD5加密字符串
/// </summary>
/// <param name="source">源字符串</param>
/// <returns>加密后的字符串</returns>
public string MD5(string source)
{
return FormsAuthentication.HashPasswordForStoringInConfigFile(source, "MD5");;
}
//方法二(可逆加密解密):
using
System.Security.Cryptography;
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.ASCIIEncoding.ASCII.GetBytes(KEY_64);
byte
[] byIV
=
System.Text.ASCIIEncoding.ASCII.GetBytes(IV_64);
byte
[] byEnc;
try
{
byEnc
=
Convert.FromBase64String(data);
}
catch
{
return
null
;
}
DESCryptoServiceProvider cryptoProvider
=
new
DESCryptoServiceProvider();
MemoryStream ms
=
new
MemoryStream(byEnc);
CryptoStream cst
=
new
CryptoStream(ms, cryptoProvider.CreateDecryptor(byKey, byIV), CryptoStreamMode.Read);
StreamReader sr
=
new
StreamReader(cst);
return
sr.ReadToEnd();
}
using
System.Security.Cryptography;
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.ASCIIEncoding.ASCII.GetBytes(KEY_64);
byte
[] byIV
=
System.Text.ASCIIEncoding.ASCII.GetBytes(IV_64);
byte
[] byEnc;
try
{
byEnc
=
Convert.FromBase64String(data);
}
catch
{
return
null
;
}
DESCryptoServiceProvider cryptoProvider
=
new
DESCryptoServiceProvider();
MemoryStream ms
=
new
MemoryStream(byEnc);
CryptoStream cst
=
new
CryptoStream(ms, cryptoProvider.CreateDecryptor(byKey, byIV), CryptoStreamMode.Read);
StreamReader sr
=
new
StreamReader(cst);
return
sr.ReadToEnd();
}
//方法三(MD5不可逆):
using
System.Security.Cryptography;
//
MD5不可逆加密
//
32位加密
public
string
GetMD5_32(
string
s,
string
_input_charset)
{
MD5 md5
=
new
MD5CryptoServiceProvider();
byte
[] t
=
md5.ComputeHash(Encoding.GetEncoding(_input_charset).GetBytes(s));
StringBuilder sb
=
new
StringBuilder(
32
);
for
(
int
i
=
0
; i
<
t.Length; i
++
)
{
sb.Append(t[i].ToString(
"
x
"
).PadLeft(
2
,
'
0
'
));
}
return
sb.ToString();
}
//
16位加密
public
static
string
GetMd5_16(
string
ConvertString)
{
MD5CryptoServiceProvider md5
=
new
MD5CryptoServiceProvider();
string
t2
=
BitConverter.ToString(md5.ComputeHash(UTF8Encoding.Default.GetBytes(ConvertString)),
4
,
8
);
t2
=
t2.Replace(
"
-
"
,
""
);
return
t2;
}
using
System.Security.Cryptography;
//
MD5不可逆加密
//
32位加密
public
string
GetMD5_32(
string
s,
string
_input_charset)
{
MD5 md5
=
new
MD5CryptoServiceProvider();
byte
[] t
=
md5.ComputeHash(Encoding.GetEncoding(_input_charset).GetBytes(s));
StringBuilder sb
=
new
StringBuilder(
32
);
for
(
int
i
=
0
; i
<
t.Length; i
++
)
{
sb.Append(t[i].ToString(
"
x
"
).PadLeft(
2
,
'
0
'
));
}
return
sb.ToString();
}
//
16位加密
public
static
string
GetMd5_16(
string
ConvertString)
{
MD5CryptoServiceProvider md5
=
new
MD5CryptoServiceProvider();
string
t2
=
BitConverter.ToString(md5.ComputeHash(UTF8Encoding.Default.GetBytes(ConvertString)),
4
,
8
);
t2
=
t2.Replace(
"
-
"
,
""
);
return
t2;
}
//方法四(对称加密):
using
System.IO;
using
System.Security.Cryptography;
private
SymmetricAlgorithm mobjCryptoService;
private
string
Key;
///
<summary>
///
对称加密类的构造函数
///
</summary>
public
SymmetricMethod()
{
mobjCryptoService
=
new
RijndaelManaged();
Key
=
"
Guz(%&hj7x89H$yuBI0456FtmaT5&fvHUFCy76*h%(HilJ$lhj!y6&(*jkP87jH7
"
;
}
///
<summary>
///
获得密钥
///
</summary>
///
<returns>
密钥
</returns>
private
byte
[] GetLegalKey()
{
string
sTemp
=
Key;
mobjCryptoService.GenerateKey();
byte
[] bytTemp
=
mobjCryptoService.Key;
int
KeyLength
=
bytTemp.Length;
if
(sTemp.Length
>
KeyLength)
sTemp
=
sTemp.Substring(
0
, KeyLength);
else
if
(sTemp.Length
<
KeyLength)
sTemp
=
sTemp.PadRight(KeyLength,
'
'
);
return
ASCIIEncoding.ASCII.GetBytes(sTemp);
}
///
<summary>
///
获得初始向量IV
///
</summary>
///
<returns>
初试向量IV
</returns>
private
byte
[] GetLegalIV()
{
string
sTemp
=
"
E4ghj*Ghg7!rNIfb&95GUY86GfghUb#er57HBh(u%g6HJ($jhWk7&!hg4ui%$hjk
"
;
mobjCryptoService.GenerateIV();
byte
[] bytTemp
=
mobjCryptoService.IV;
int
IVLength
=
bytTemp.Length;
if
(sTemp.Length
>
IVLength)
sTemp
=
sTemp.Substring(
0
, IVLength);
else
if
(sTemp.Length
<
IVLength)
sTemp
=
sTemp.PadRight(IVLength,
'
'
);
return
ASCIIEncoding.ASCII.GetBytes(sTemp);
}
///
<summary>
///
加密方法
///
</summary>
///
<param name="Source">
待加密的串
</param>
///
<returns>
经过加密的串
</returns>
public
string
Encrypto(
string
Source)
{
byte
[] bytIn
=
UTF8Encoding.UTF8.GetBytes(Source);
MemoryStream ms
=
new
MemoryStream();
mobjCryptoService.Key
=
GetLegalKey();
mobjCryptoService.IV
=
GetLegalIV();
ICryptoTransform encrypto
=
mobjCryptoService.CreateEncryptor();
CryptoStream cs
=
new
CryptoStream(ms, encrypto, CryptoStreamMode.Write);
cs.Write(bytIn,
0
, bytIn.Length);
cs.FlushFinalBlock();
ms.Close();
byte
[] bytOut
=
ms.ToArray();
return
Convert.ToBase64String(bytOut);
}
///
<summary>
///
解密方法
///
</summary>
///
<param name="Source">
待解密的串
</param>
///
<returns>
经过解密的串
</returns>
public
string
Decrypto(
string
Source)
{
byte
[] bytIn
=
Convert.FromBase64String(Source);
MemoryStream ms
=
new
MemoryStream(bytIn,
0
, bytIn.Length);
mobjCryptoService.Key
=
GetLegalKey();
mobjCryptoService.IV
=
GetLegalIV();
ICryptoTransform encrypto
=
mobjCryptoService.CreateDecryptor();
CryptoStream cs
=
new
CryptoStream(ms, encrypto, CryptoStreamMode.Read);
StreamReader sr
=
new
StreamReader(cs);
return
sr.ReadToEnd();
}
using
System.IO;
using
System.Security.Cryptography;
private
SymmetricAlgorithm mobjCryptoService;
private
string
Key;
///
<summary>
///
对称加密类的构造函数
///
</summary>
public
SymmetricMethod()
{
mobjCryptoService
=
new
RijndaelManaged();
Key
=
"
Guz(%&hj7x89H$yuBI0456FtmaT5&fvHUFCy76*h%(HilJ$lhj!y6&(*jkP87jH7
"
;
}
///
<summary>
///
获得密钥
///
</summary>
///
<returns>
密钥
</returns>
private
byte
[] GetLegalKey()
{
string
sTemp
=
Key;
mobjCryptoService.GenerateKey();
byte
[] bytTemp
=
mobjCryptoService.Key;
int
KeyLength
=
bytTemp.Length;
if
(sTemp.Length
>
KeyLength)
sTemp
=
sTemp.Substring(
0
, KeyLength);
else
if
(sTemp.Length
<
KeyLength)
sTemp
=
sTemp.PadRight(KeyLength,
'
'
);
return
ASCIIEncoding.ASCII.GetBytes(sTemp);
}
///
<summary>
///
获得初始向量IV
///
</summary>
///
<returns>
初试向量IV
</returns>
private
byte
[] GetLegalIV()
{
string
sTemp
=
"
E4ghj*Ghg7!rNIfb&95GUY86GfghUb#er57HBh(u%g6HJ($jhWk7&!hg4ui%$hjk
"
;
mobjCryptoService.GenerateIV();
byte
[] bytTemp
=
mobjCryptoService.IV;
int
IVLength
=
bytTemp.Length;
if
(sTemp.Length
>
IVLength)
sTemp
=
sTemp.Substring(
0
, IVLength);
else
if
(sTemp.Length
<
IVLength)
sTemp
=
sTemp.PadRight(IVLength,
'
'
);
return
ASCIIEncoding.ASCII.GetBytes(sTemp);
}
///
<summary>
///
加密方法
///
</summary>
///
<param name="Source">
待加密的串
</param>
///
<returns>
经过加密的串
</returns>
public
string
Encrypto(
string
Source)
{
byte
[] bytIn
=
UTF8Encoding.UTF8.GetBytes(Source);
MemoryStream ms
=
new
MemoryStream();
mobjCryptoService.Key
=
GetLegalKey();
mobjCryptoService.IV
=
GetLegalIV();
ICryptoTransform encrypto
=
mobjCryptoService.CreateEncryptor();
CryptoStream cs
=
new
CryptoStream(ms, encrypto, CryptoStreamMode.Write);
cs.Write(bytIn,
0
, bytIn.Length);
cs.FlushFinalBlock();
ms.Close();
byte
[] bytOut
=
ms.ToArray();
return
Convert.ToBase64String(bytOut);
}
///
<summary>
///
解密方法
///
</summary>
///
<param name="Source">
待解密的串
</param>
///
<returns>
经过解密的串
</returns>
public
string
Decrypto(
string
Source)
{
byte
[] bytIn
=
Convert.FromBase64String(Source);
MemoryStream ms
=
new
MemoryStream(bytIn,
0
, bytIn.Length);
mobjCryptoService.Key
=
GetLegalKey();
mobjCryptoService.IV
=
GetLegalIV();
ICryptoTransform encrypto
=
mobjCryptoService.CreateDecryptor();
CryptoStream cs
=
new
CryptoStream(ms, encrypto, CryptoStreamMode.Read);
StreamReader sr
=
new
StreamReader(cs);
return
sr.ReadToEnd();
}
//方法五:
using
System.IO;
using
System.Security.Cryptography;
using
System.Text;
//
默认密钥向量
private
static
byte
[] Keys
=
{
0x12
,
0x34
,
0x56
,
0x78
,
0x90
,
0xAB
,
0xCD
,
0xEF
};
/**//**//**/
///
<summary>
///
DES加密字符串
///
</summary>
///
<param name="encryptString">
待加密的字符串
</param>
///
<param name="encryptKey">
加密密钥,要求为8位
</param>
///
<returns>
加密成功返回加密后的字符串,失败返回源串
</returns>
public
static
string
EncryptDES(
string
encryptString,
string
encryptKey)
{
try
{
byte
[] rgbKey
=
Encoding.UTF8.GetBytes(encryptKey.Substring(
0
,
8
));
byte
[] rgbIV
=
Keys;
byte
[] inputByteArray
=
Encoding.UTF8.GetBytes(encryptString);
DESCryptoServiceProvider dCSP
=
new
DESCryptoServiceProvider();
MemoryStream mStream
=
new
MemoryStream();
CryptoStream cStream
=
new
CryptoStream(mStream, dCSP.CreateEncryptor(rgbKey, rgbIV), CryptoStreamMode.Write);
cStream.Write(inputByteArray,
0
, inputByteArray.Length);
cStream.FlushFinalBlock();
return
Convert.ToBase64String(mStream.ToArray());
}
catch
{
return
encryptString;
}
}
/**//**//**/
///
<summary>
///
DES解密字符串
///
</summary>
///
<param name="decryptString">
待解密的字符串
</param>
///
<param name="decryptKey">
解密密钥,要求为8位,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>
public
static
string
DecryptDES(
string
decryptString,
string
decryptKey)
{
try
{
byte
[] rgbKey
=
Encoding.UTF8.GetBytes(decryptKey);
byte
[] rgbIV
=
Keys;
byte
[] inputByteArray
=
Convert.FromBase64String(decryptString);
DESCryptoServiceProvider DCSP
=
new
DESCryptoServiceProvider();
MemoryStream mStream
=
new
MemoryStream();
CryptoStream cStream
=
new
CryptoStream(mStream, DCSP.CreateDecryptor(rgbKey, rgbIV), CryptoStreamMode.Write);
cStream.Write(inputByteArray,
0
, inputByteArray.Length);
cStream.FlushFinalBlock();
return
Encoding.UTF8.GetString(mStream.ToArray());
}
catch
{
return
decryptString;
}
}
using
System.IO;
using
System.Security.Cryptography;
using
System.Text;
//
默认密钥向量
private
static
byte
[] Keys
=
{
0x12
,
0x34
,
0x56
,
0x78
,
0x90
,
0xAB
,
0xCD
,
0xEF
};
/**//**//**/
///
<summary>
///
DES加密字符串
///
</summary>
///
<param name="encryptString">
待加密的字符串
</param>
///
<param name="encryptKey">
加密密钥,要求为8位
</param>
///
<returns>
加密成功返回加密后的字符串,失败返回源串
</returns>
public
static
string
EncryptDES(
string
encryptString,
string
encryptKey)
{
try
{
byte
[] rgbKey
=
Encoding.UTF8.GetBytes(encryptKey.Substring(
0
,
8
));
byte
[] rgbIV
=
Keys;
byte
[] inputByteArray
=
Encoding.UTF8.GetBytes(encryptString);
DESCryptoServiceProvider dCSP
=
new
DESCryptoServiceProvider();
MemoryStream mStream
=
new
MemoryStream();
CryptoStream cStream
=
new
CryptoStream(mStream, dCSP.CreateEncryptor(rgbKey, rgbIV), CryptoStreamMode.Write);
cStream.Write(inputByteArray,
0
, inputByteArray.Length);
cStream.FlushFinalBlock();
return
Convert.ToBase64String(mStream.ToArray());
}
catch
{
return
encryptString;
}
}
/**//**//**/
///
<summary>
///
DES解密字符串
///
</summary>
///
<param name="decryptString">
待解密的字符串
</param>
///
<param name="decryptKey">
解密密钥,要求为8位,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>
public
static
string
DecryptDES(
string
decryptString,
string
decryptKey)
{
try
{
byte
[] rgbKey
=
Encoding.UTF8.GetBytes(decryptKey);
byte
[] rgbIV
=
Keys;
byte
[] inputByteArray
=
Convert.FromBase64String(decryptString);
DESCryptoServiceProvider DCSP
=
new
DESCryptoServiceProvider();
MemoryStream mStream
=
new
MemoryStream();
CryptoStream cStream
=
new
CryptoStream(mStream, DCSP.CreateDecryptor(rgbKey, rgbIV), CryptoStreamMode.Write);
cStream.Write(inputByteArray,
0
, inputByteArray.Length);
cStream.FlushFinalBlock();
return
Encoding.UTF8.GetString(mStream.ToArray());
}
catch
{
return
decryptString;
}
}
//方法六(文件加密):
using
System.IO;
using
System.Security.Cryptography;
using
System.Text;
//
加密文件
private
static
void
EncryptData(String inName, String outName,
byte
[] desKey,
byte
[] desIV)
{
//
Create the file streams to handle the input and output files.
FileStream fin
=
new
FileStream(inName, FileMode.Open, FileAccess.Read);
FileStream fout
=
new
FileStream(outName, 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(desKey, desIV), 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();
}
//
解密文件
private
static
void
DecryptData(String inName, String outName,
byte
[] desKey,
byte
[] desIV)
{
//
Create the file streams to handle the input and output files.
FileStream fin
=
new
FileStream(inName, FileMode.Open, FileAccess.Read);
FileStream fout
=
new
FileStream(outName, 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(desKey, desIV), 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();
}
using
System.IO;
using
System.Security.Cryptography;
using
System.Text;
//
加密文件
private
static
void
EncryptData(String inName, String outName,
byte
[] desKey,
byte
[] desIV)
{
//
Create the file streams to handle the input and output files.
FileStream fin
=
new
FileStream(inName, FileMode.Open, FileAccess.Read);
FileStream fout
=
new
FileStream(outName, 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(desKey, desIV), 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();
}
//
解密文件
private
static
void
DecryptData(String inName, String outName,
byte
[] desKey,
byte
[] desIV)
{
//
Create the file streams to handle the input and output files.
FileStream fin
=
new
FileStream(inName, FileMode.Open, FileAccess.Read);
FileStream fout
=
new
FileStream(outName, 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(desKey, desIV), 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();
}