Windows中使用C#为文件夹和文件编写密码锁的示例分享_C#

c#文件夹加锁小工具
用c#语言实现一个文件夹锁的程序，网上类似的“xxx文件夹xxx”软件很多，但是基本上都是c/c++语言实现的，且都没有提供源码（这个可以理解，毕竟是加密程序，不应该泄露源码）。

程序的基本原理是：用c#语言重命名文件夹，通过重命名使之成为windows安全文件的类标识符。具体的方法是为文件夹添加拓展名“.{2559a1f2-21d7-11d4-bdaf-00c04f60b9f0}”

（.{2559a1f2-21d7-11d4-bdaf-00c04f60b9f0}是windows安全文件的类标识符），这时文件夹的图标就会变成一把锁，这样文件夹就被加锁了。

程序的主界面非常简洁，截图如下：

Windows中使用C#为文件夹和文件编写密码锁的示例分享

程序中加密解密文件夹的核心代码如下：

				?

									private void btnbrowsefolder_click(object sender, eventargs e)

									{

									  status = locktype;//

									  if (folderbrowserdialog1.showdialog() == dialogresult.ok)

									  {

									    directoryinfo d = new directoryinfo(folderbrowserdialog1.selectedpath);

									    string selectedpath = d.parent.fullname + d.name;

									    if (folderbrowserdialog1.selectedpath.lastindexof(".{") == -1)//通过文件夹名称，判断加密

									    {          

									      setpwd(folderbrowserdialog1.selectedpath);

									      if (!d.root.equals(d.parent.fullname))

									      {            

									          d.moveto(d.parent.fullname + "\\" + d.name + status);//文件夹重命名

									      }

									      else d.moveto(d.parent.fullname + d.name + status);

									      txtfolderpath.text = folderbrowserdialog1.selectedpath;

									    }

									    else//解密文件夹

									    {

									      status = getstatus(status);

									      bool s = checkpwd();

									      if (s)

									      {

									        file.delete(folderbrowserdialog1.selectedpath + "\\key.xml");

									        string path = folderbrowserdialog1.selectedpath.substring(0, folderbrowserdialog1.selectedpath.lastindexof("."));

									        d.moveto(path);

									        txtfolderpath.text = path;

									      }

									    }

									  }

									}

程序的运行效果如下：

以加密d盘下面的test文件夹为例，结果如下:

首先通过folderbrowserdialog选择相应的文件夹

Windows中使用C#为文件夹和文件编写密码锁的示例分享

输入密码，加锁

Windows中使用C#为文件夹和文件编写密码锁的示例分享

效果如下：

Windows中使用C#为文件夹和文件编写密码锁的示例分享

此时双击文件夹已经无法打开。

选择加密后的test文件夹，输入加密时输入的密码，可解锁。

Windows中使用C#为文件夹和文件编写密码锁的示例分享

test文件夹已经解密

Windows中使用C#为文件夹和文件编写密码锁的示例分享

加密解密文件小工具

上面分享了一个文件夹加密小工具，该工具是操作文件夹名称的方法实现文件夹的一般加密，文件夹中的文件（视频、图片等）都原封不动的保存在那里。

在网上搜索相关文件加密的程序，发现给出的基本都是针对“字符创”、“文本”的加密与解密。对视频文件、图片等一般文件的加密解密程序少之又少，所以我们下面再来实现一个对一般文件进行加密的小工具。

程序的主要功能是：用户通过文件选择框选择要加密的文件-》输入密码进行加密；选择加密后的文件，输入密码进行解密。

程序的主界面如下：

Windows中使用C#为文件夹和文件编写密码锁的示例分享

三个按钮的click事件处理程序如下：

				?

									    private void btnselectfile_click(object sender, eventargs e)

									    {

									      if (openfiledialog1.showdialog() == system.windows.forms.dialogresult.ok)

									      {

									        txtfilename.text = openfiledialog1.filename ;

									      }

									    }

									    private void btnencryptfile_click(object sender, eventargs e)

									    {

									      string infile=txtfilename.text;

									      string outfile = infile + ".dat";

									      string password=txtpassword.text ;

									      desfile.desfileclass.encryptfile(infile, outfile, password);//加密文件

									      //删除加密前的文件

									      file.delete(infile);

									      txtfilename.text = string.empty;

									      messagebox.show("加密成功");

									    }

									    private void btndecryptfile_click(object sender, eventargs e)

									    {

									      string infile = txtfilename.text;

									      string outfile = infile.substring(0,infile.length - 4);

									      string password = txtpassword.text;

									      desfile.desfileclass.decryptfile (infile, outfile, password);//解密文件

									      //删除解密前的文件

									      file.delete(infile);

									      txtfilename.text = string.empty;

									      messagebox.show("解密成功");

									    }

									加密解密的help文件源码如下：

									using system;

									using system.collections.generic;

									using system.text;

									using system.security.cryptography;

									using system.io;

									namespace desfile

									{

									  /// <summary>

									  /// 异常处理类

									  /// </summary>

									  public class cryptohelpexception : applicationexception

									  {

									    public cryptohelpexception(string msg) : base(msg) { }

									  }

									  /// <summary>

									  /// crypthelp

									  /// </summary>

									  public class desfileclass

									  {

									    private const ulong fc_tag = 0xfc010203040506cf;

									    private const int buffer_size = 128 * 1024;

									    /// <summary>

									    /// 检验两个byte数组是否相同

									    /// </summary>

									    /// <param name="b1">byte数组</param>

									    /// <param name="b2">byte数组</param>

									    /// <returns>true－相等</returns>

									    private static bool checkbytearrays(byte[] b1, byte[] b2)

									    {

									      if (b1.length == b2.length)

									      {

									        for (int i = 0; i < b1.length; ++i)

									        {

									          if (b1[i] != b2[i])

									            return false;

									        }

									        return true;

									      }

									      return false;

									    }

									    /// <summary>

									    /// 创建debuglzq ,http://www.cnblogs.com/debuglzq

									    /// </summary>

									    /// <param name="password">密码</param>

									    /// <param name="salt"></param>

									    /// <returns>加密对象</returns>

									    private static symmetricalgorithm createrijndael(string password, byte[] salt)

									    {

									      passwordderivebytes pdb = new passwordderivebytes(password, salt, "sha256", 1000);

									      symmetricalgorithm sma = rijndael.create();

									      sma.keysize = 256;

									      sma.key = pdb.getbytes(32);

									      sma.padding = paddingmode.pkcs7;

									      return sma;

									    }

									    /// <summary>

									    /// 加密文件随机数生成

									    /// </summary>

									    private static randomnumbergenerator rand = new rngcryptoserviceprovider();

									    /// <summary>

									    /// 生成指定长度的随机byte数组

									    /// </summary>

									    /// <param name="count">byte数组长度</param>

									    /// <returns>随机byte数组</returns>

									    private static byte[] generaterandombytes(int count)

									    {

									      byte[] bytes = new byte[count];

									      rand.getbytes(bytes);

									      return bytes;

									    }

									    /// <summary>

									    /// 加密文件

									    /// </summary>

									    /// <param name="infile">待加密文件</param>

									    /// <param name="outfile">加密后输入文件</param>

									    /// <param name="password">加密密码</param>

									    public static void encryptfile(string infile, string outfile, string password)

									    {

									      using (filestream fin = file.openread(infile),

									        fout = file.openwrite(outfile))

									      {

									        long lsize = fin.length; // 输入文件长度

									        int size = (int)lsize;

									        byte[] bytes = new byte[buffer_size]; // 缓存

									        int read = -1; // 输入文件读取数量

									        int value = 0;

									        // 获取iv和salt

									        byte[] iv = generaterandombytes(16);

									        byte[] salt = generaterandombytes(16);

									        // 创建加密对象

									        symmetricalgorithm sma = desfileclass.createrijndael(password, salt);

									        sma.iv = iv;

									        // 在输出文件开始部分写入iv和salt

									        fout.write(iv, 0, iv.length);

									        fout.write(salt, 0, salt.length);

									        // 创建散列加密

									        hashalgorithm hasher = sha256.create();

									        using (cryptostream cout = new cryptostream(fout, sma.createencryptor(), cryptostreammode.write),

									          chash = new cryptostream(stream.null, hasher, cryptostreammode.write))

									        {

									          binarywriter bw = new binarywriter(cout);

									          bw.write(lsize);

									          bw.write(fc_tag);

									          // 读写字节块到加密流缓冲区

									          while ((read = fin.read(bytes, 0, bytes.length)) != 0)

									          {

									            cout.write(bytes, 0, read);

									            chash.write(bytes, 0, read);

									            value += read;

									          }

									          // 关闭加密流

									          chash.flush();

									          chash.close();

									          // 读取散列

									          byte[] hash = hasher.hash;

									          // 输入文件写入散列

									          cout.write(hash, 0, hash.length);

									          // 关闭文件流

									          cout.flush();

									          cout.close();

									        }

									      }

									    }

									    /// <summary>

									    /// 解密文件

									    /// </summary>

									    /// <param name="infile">待解密文件</param>

									    /// <param name="outfile">解密后输出文件</param>

									    /// <param name="password">解密密码</param>

									    public static void decryptfile(string infile, string outfile, string password)

									    {

									      // 创建打开文件流

									      using (filestream fin = file.openread(infile),

									        fout = file.openwrite(outfile))

									      {

									        int size = (int)fin.length;

									        byte[] bytes = new byte[buffer_size];

									        int read = -1;

									        int value = 0;

									        int outvalue = 0;

									        byte[] iv = new byte[16];

									        fin.read(iv, 0, 16);

									        byte[] salt = new byte[16];

									        fin.read(salt, 0, 16);

									        symmetricalgorithm sma = desfileclass.createrijndael(password, salt);

									        sma.iv = iv;

									        value = 32;

									        long lsize = -1;

									        // 创建散列对象, 校验文件

									        hashalgorithm hasher = sha256.create();

									        using (cryptostream cin = new cryptostream(fin, sma.createdecryptor(), cryptostreammode.read),

									          chash = new cryptostream(stream.null, hasher, cryptostreammode.write))

									        {

									          // 读取文件长度

									          binaryreader br = new binaryreader(cin);

									          lsize = br.readint64();

									          ulong tag = br.readuint64();

									          if (fc_tag != tag)

									            throw new cryptohelpexception("文件被破坏");

									          long numreads = lsize / buffer_size;

									          long slack = (long)lsize % buffer_size;

									          for (int i = 0; i < numreads; ++i)

									          {

									            read = cin.read(bytes, 0, bytes.length);

									            fout.write(bytes, 0, read);

									            chash.write(bytes, 0, read);

									            value += read;

									            outvalue += read;

									          }

									          if (slack > 0)

									          {

									            read = cin.read(bytes, 0, (int)slack);

									            fout.write(bytes, 0, read);

									            chash.write(bytes, 0, read);

									            value += read;

									            outvalue += read;

									          }

									          chash.flush();

									          chash.close();

									          fout.flush();

									          fout.close();

									          byte[] curhash = hasher.hash;

									          // 获取比较和旧的散列对象

									          byte[] oldhash = new byte[hasher.hashsize / 8];

									          read = cin.read(oldhash, 0, oldhash.length);

									          if ((oldhash.length != read) || (!checkbytearrays(oldhash, curhash)))

									            throw new cryptohelpexception("文件被破坏");

									        }

									        if (outvalue != lsize)

									          throw new cryptohelpexception("文件大小不匹配");

									      }

									    }

									  }

									}