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在.net中实现与ASP完全兼容的MD5算法(包括中文字符)

2024-07-10 12:58:51
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  • 在.net中,由于.net framework 封装了常见的加密算法,因此实现标准的md5算法只需要短短几行代码即可实现:

     public string md5(string strpassword)
      {
       
         md5cryptoserviceprovider hashmd5;
      hashmd5 = new md5cryptoserviceprovider();
        return bitconverter.tostring(hashmd5.computehash(encoding.default.getbytes(strpassword))).replace("-","").tolower();
       }

    ,但是当加密字符串含有中文或者其它双字节字符时,这种算法的结果与目前网上流行的asp写的md5算法的结果却不一致,这主要是由于目前网上流行的asp写的md5加密算法,存在一个缺陷,它使用了mid函数,取出的是“字符”,而正确的做法应该是取出字节,因此当加密字符串有双字节字符时,结果会与标准的md5算法不一致.。但是由于在asp向asp.net的系统进行升级的过程中,已经向数据库内写入了大量以前asp算法加密的密码,为了使新系统能够与原来的系统完全兼容,因此只有在.net 环境下实现与原来asp算法完全一致的md5算法。我的实现思路如下:

    1、先用正则表达式对要加密的字符串进行判断,是否含有双字节字符。

    2、如果含有双字节字符,调用实现与asp算法一致的非托管com组件进行处理。(这个组件只需要将原asp加密算法代码进行适当修改,然后加入vb6中进行编译即可得到)。

    3、否则直接调用.net的标准md5加密算法。

    可能有的朋友会问到,为什么不都直接调用com组件来加密呢?这主要是从性能角度考虑的,由于调用非托管com组件,.net需要生成一个代理类与之交互,所以在性能方面要远远低于.net内置的函数。

    下面给出所有代码:

    原asp加密代码:

    <%


    private const bits_to_a_byte = 8
    private const bytes_to_a_word = 4
    private const bits_to_a_word = 32

    private m_lonbits(30)
    private m_l2power(30)
     
        m_lonbits(0) = clng(1)
        m_lonbits(1) = clng(3)
        m_lonbits(2) = clng(7)
        m_lonbits(3) = clng(15)
        m_lonbits(4) = clng(31)
        m_lonbits(5) = clng(63)
        m_lonbits(6) = clng(127)
        m_lonbits(7) = clng(255)
        m_lonbits(8) = clng(511)
        m_lonbits(9) = clng(1023)
        m_lonbits(10) = clng(2047)
        m_lonbits(11) = clng(4095)
        m_lonbits(12) = clng(8191)
        m_lonbits(13) = clng(16383)
        m_lonbits(14) = clng(32767)
        m_lonbits(15) = clng(65535)
        m_lonbits(16) = clng(131071)
        m_lonbits(17) = clng(262143)
        m_lonbits(18) = clng(524287)
        m_lonbits(19) = clng(1048575)
        m_lonbits(20) = clng(2097151)
        m_lonbits(21) = clng(4194303)
        m_lonbits(22) = clng(8388607)
        m_lonbits(23) = clng(16777215)
        m_lonbits(24) = clng(33554431)
        m_lonbits(25) = clng(67108863)
        m_lonbits(26) = clng(134217727)
        m_lonbits(27) = clng(268435455)
        m_lonbits(28) = clng(536870911)
        m_lonbits(29) = clng(1073741823)
        m_lonbits(30) = clng(2147483647)
       
        m_l2power(0) = clng(1)
        m_l2power(1) = clng(2)
        m_l2power(2) = clng(4)
        m_l2power(3) = clng(8)
        m_l2power(4) = clng(16)
        m_l2power(5) = clng(32)
        m_l2power(6) = clng(64)
        m_l2power(7) = clng(128)
        m_l2power(8) = clng(256)
        m_l2power(9) = clng(512)
        m_l2power(10) = clng(1024)
        m_l2power(11) = clng(2048)
        m_l2power(12) = clng(4096)
        m_l2power(13) = clng(8192)
        m_l2power(14) = clng(16384)
        m_l2power(15) = clng(32768)
        m_l2power(16) = clng(65536)
        m_l2power(17) = clng(131072)
        m_l2power(18) = clng(262144)
        m_l2power(19) = clng(524288)
        m_l2power(20) = clng(1048576)
        m_l2power(21) = clng(2097152)
        m_l2power(22) = clng(4194304)
        m_l2power(23) = clng(8388608)
        m_l2power(24) = clng(16777216)
        m_l2power(25) = clng(33554432)
        m_l2power(26) = clng(67108864)
        m_l2power(27) = clng(134217728)
        m_l2power(28) = clng(268435456)
        m_l2power(29) = clng(536870912)
        m_l2power(30) = clng(1073741824)

    private function lshift(lvalue, ishiftbits)
        if ishiftbits = 0 then
            lshift = lvalue
            exit function
        elseif ishiftbits = 31 then
            if lvalue and 1 then
                lshift = &h80000000
            else
                lshift = 0
            end if
            exit function
        elseif ishiftbits < 0 or ishiftbits > 31 then
            err.raise 6
        end if

        if (lvalue and m_l2power(31 - ishiftbits)) then
            lshift = ((lvalue and m_lonbits(31 - (ishiftbits + 1))) * m_l2power(ishiftbits)) or &h80000000
        else
            lshift = ((lvalue and m_lonbits(31 - ishiftbits)) * m_l2power(ishiftbits))
        end if
    end function

    private function rshift(lvalue, ishiftbits)
        if ishiftbits = 0 then
            rshift = lvalue
            exit function
        elseif ishiftbits = 31 then
            if lvalue and &h80000000 then
                rshift = 1
            else
                rshift = 0
            end if
            exit function
        elseif ishiftbits < 0 or ishiftbits > 31 then
            err.raise 6
        end if
       
        rshift = (lvalue and &h7ffffffe) / m_l2power(ishiftbits)

        if (lvalue and &h80000000) then
            rshift = (rshift or (&h40000000 / m_l2power(ishiftbits - 1)))
        end if
    end function

    private function rotateleft(lvalue, ishiftbits)
        rotateleft = lshift(lvalue, ishiftbits) or rshift(lvalue, (32 - ishiftbits))
    end function

    private function addunsigned(lx, ly)
        dim lx4
        dim ly4
        dim lx8
        dim ly8
        dim lresult
     
        lx8 = lx and &h80000000
        ly8 = ly and &h80000000
        lx4 = lx and &h40000000
        ly4 = ly and &h40000000
     
        lresult = (lx and &h3fffffff) + (ly and &h3fffffff)
     
        if lx4 and ly4 then
            lresult = lresult xor &h80000000 xor lx8 xor ly8
        elseif lx4 or ly4 then
            if lresult and &h40000000 then
                lresult = lresult xor &hc0000000 xor lx8 xor ly8
            else
                lresult = lresult xor &h40000000 xor lx8 xor ly8
            end if
        else
            lresult = lresult xor lx8 xor ly8
        end if
     
        addunsigned = lresult
    end function

    private function f(x, y, z)
        f = (x and y) or ((not x) and z)
    end function

    private function g(x, y, z)
        g = (x and z) or (y and (not z))
    end function

    private function h(x, y, z)
        h = (x xor y xor z)
    end function

    private function i(x, y, z)
        i = (y xor (x or (not z)))
    end function

    private sub ff(a, b, c, d, x, s, ac)
        a = addunsigned(a, addunsigned(addunsigned(f(b, c, d), x), ac))
        a = rotateleft(a, s)
        a = addunsigned(a, b)
    end sub

    private sub gg(a, b, c, d, x, s, ac)
        a = addunsigned(a, addunsigned(addunsigned(g(b, c, d), x), ac))
        a = rotateleft(a, s)
        a = addunsigned(a, b)
    end sub

    private sub hh(a, b, c, d, x, s, ac)
        a = addunsigned(a, addunsigned(addunsigned(h(b, c, d), x), ac))
        a = rotateleft(a, s)
        a = addunsigned(a, b)
    end sub

    private sub ii(a, b, c, d, x, s, ac)
        a = addunsigned(a, addunsigned(addunsigned(i(b, c, d), x), ac))
        a = rotateleft(a, s)
        a = addunsigned(a, b)
    end sub

    private function converttowordarray(smessage)
        dim lmessagelength
        dim lnumberofwords
        dim lwordarray()
        dim lbyteposition
        dim lbytecount
        dim lwordcount
       
        const modulus_bits = 512
        const congruent_bits = 448
       
        lmessagelength = len(smessage)
       
        lnumberofwords = (((lmessagelength + ((modulus_bits - congruent_bits) / bits_to_a_byte)) / (modulus_bits / bits_to_a_byte)) + 1) * (modulus_bits / bits_to_a_word)
        redim lwordarray(lnumberofwords - 1)
       
        lbyteposition = 0
        lbytecount = 0
        do until lbytecount >= lmessagelength
            lwordcount = lbytecount / bytes_to_a_word
            lbyteposition = (lbytecount mod bytes_to_a_word) * bits_to_a_byte
            lwordarray(lwordcount) = lwordarray(lwordcount) or lshift(asc(mid(smessage, lbytecount + 1, 1)), lbyteposition)
            lbytecount = lbytecount + 1
        loop

        lwordcount = lbytecount / bytes_to_a_word
        lbyteposition = (lbytecount mod bytes_to_a_word) * bits_to_a_byte

        lwordarray(lwordcount) = lwordarray(lwordcount) or lshift(&h80, lbyteposition)

        lwordarray(lnumberofwords - 2) = lshift(lmessagelength, 3)
        lwordarray(lnumberofwords - 1) = rshift(lmessagelength, 29)
       
        converttowordarray = lwordarray
    end function

    private function wordtohex(lvalue)
        dim lbyte
        dim lcount
       
        for lcount = 0 to 3
            lbyte = rshift(lvalue, lcount * bits_to_a_byte) and m_lonbits(bits_to_a_byte - 1)
            wordtohex = wordtohex & right("0" & hex(lbyte), 2)
        next
    end function

    public function calcmd5(smessage)
        dim x
        dim k
        dim aa
        dim bb
        dim cc
        dim dd
        dim a
        dim b
        dim c
        dim d
       
        const s11 = 7
        const s12 = 12
        const s13 = 17
        const s14 = 22
        const s21 = 5
        const s22 = 9
        const s23 = 14
        const s24 = 20
        const s31 = 4
        const s32 = 11
        const s33 = 16
        const s34 = 23
        const s41 = 6
        const s42 = 10
        const s43 = 15
        const s44 = 21

        x = converttowordarray(smessage)
       
        a = &h67452301
        b = &hefcdab89
        c = &h98badcfe
        d = &h10325476

        for k = 0 to ubound(x) step 16
            aa = a
            bb = b
            cc = c
            dd = d
       
            ff a, b, c, d, x(k + 0), s11, &hd76aa478
            ff d, a, b, c, x(k + 1), s12, &he8c7b756
            ff c, d, a, b, x(k + 2), s13, &h242070db
            ff b, c, d, a, x(k + 3), s14, &hc1bdceee
            ff a, b, c, d, x(k + 4), s11, &hf57c0faf
            ff d, a, b, c, x(k + 5), s12, &h4787c62a
            ff c, d, a, b, x(k + 6), s13, &ha8304613
            ff b, c, d, a, x(k + 7), s14, &hfd469501
            ff a, b, c, d, x(k + 8), s11, &h698098d8
            ff d, a, b, c, x(k + 9), s12, &h8b44f7af
            ff c, d, a, b, x(k + 10), s13, &hffff5bb1
            ff b, c, d, a, x(k + 11), s14, &h895cd7be
            ff a, b, c, d, x(k + 12), s11, &h6b901122
            ff d, a, b, c, x(k + 13), s12, &hfd987193
            ff c, d, a, b, x(k + 14), s13, &ha679438e
            ff b, c, d, a, x(k + 15), s14, &h49b40821
       
            gg a, b, c, d, x(k + 1), s21, &hf61e2562
            gg d, a, b, c, x(k + 6), s22, &hc040b340
            gg c, d, a, b, x(k + 11), s23, &h265e5a51
            gg b, c, d, a, x(k + 0), s24, &he9b6c7aa
            gg a, b, c, d, x(k + 5), s21, &hd62f105d
            gg d, a, b, c, x(k + 10), s22, &h2441453
            gg c, d, a, b, x(k + 15), s23, &hd8a1e681
            gg b, c, d, a, x(k + 4), s24, &he7d3fbc8
            gg a, b, c, d, x(k + 9), s21, &h21e1cde6
            gg d, a, b, c, x(k + 14), s22, &hc33707d6
            gg c, d, a, b, x(k + 3), s23, &hf4d50d87
            gg b, c, d, a, x(k + 8), s24, &h455a14ed
            gg a, b, c, d, x(k + 13), s21, &ha9e3e905
            gg d, a, b, c, x(k + 2), s22, &hfcefa3f8
            gg c, d, a, b, x(k + 7), s23, &h676f02d9
            gg b, c, d, a, x(k + 12), s24, &h8d2a4c8a
               
            hh a, b, c, d, x(k + 5), s31, &hfffa3942
            hh d, a, b, c, x(k + 8), s32, &h8771f681
            hh c, d, a, b, x(k + 11), s33, &h6d9d6122
            hh b, c, d, a, x(k + 14), s34, &hfde5380c
            hh a, b, c, d, x(k + 1), s31, &ha4beea44
            hh d, a, b, c, x(k + 4), s32, &h4bdecfa9
            hh c, d, a, b, x(k + 7), s33, &hf6bb4b60
            hh b, c, d, a, x(k + 10), s34, &hbebfbc70
            hh a, b, c, d, x(k + 13), s31, &h289b7ec6
            hh d, a, b, c, x(k + 0), s32, &heaa127fa
            hh c, d, a, b, x(k + 3), s33, &hd4ef3085
            hh b, c, d, a, x(k + 6), s34, &h4881d05
            hh a, b, c, d, x(k + 9), s31, &hd9d4d039
            hh d, a, b, c, x(k + 12), s32, &he6db99e5
            hh c, d, a, b, x(k + 15), s33, &h1fa27cf8
            hh b, c, d, a, x(k + 2), s34, &hc4ac5665
       
            ii a, b, c, d, x(k + 0), s41, &hf4292244
            ii d, a, b, c, x(k + 7), s42, &h432aff97
            ii c, d, a, b, x(k + 14), s43, &hab9423a7
            ii b, c, d, a, x(k + 5), s44, &hfc93a039
            ii a, b, c, d, x(k + 12), s41, &h655b59c3
            ii d, a, b, c, x(k + 3), s42, &h8f0ccc92
            ii c, d, a, b, x(k + 10), s43, &hffeff47d
            ii b, c, d, a, x(k + 1), s44, &h85845dd1
            ii a, b, c, d, x(k + 8), s41, &h6fa87e4f
            ii d, a, b, c, x(k + 15), s42, &hfe2ce6e0
            ii c, d, a, b, x(k + 6), s43, &ha3014314
            ii b, c, d, a, x(k + 13), s44, &h4e0811a1
            ii a, b, c, d, x(k + 4), s41, &hf7537e82
            ii d, a, b, c, x(k + 11), s42, &hbd3af235
            ii c, d, a, b, x(k + 2), s43, &h2ad7d2bb
            ii b, c, d, a, x(k + 9), s44, &heb86d391
       
            a = addunsigned(a, aa)
            b = addunsigned(b, bb)
            c = addunsigned(c, cc)
            d = addunsigned(d, dd)
        next
       
        calcmd5 = lcase(wordtohex(a) & wordtohex(b) & wordtohex(c) & wordtohex(d))
    end function
    %>

    这段代码,只需要复制到vb activex dll项目中,将变量初始化的代码移到类初始化的位置编译即可生成同样算法的非托管com组件。

    在.net中,引用com组件,并使用如下方法进行调用:

    using system;
    using system.text;
    using system.text.regularexpressions;
    using system.security.cryptography;
    using md5;
    namespace yournamespace

    {

    public class aspmd5

      {

     /// <summary>
      /// 与asp兼容的md5加密算法
      /// </summary>
      /// <param name="strpassword"></param>
      /// <returns></returns>
      public string md5(string strpassword)
      {
       
       
       system.text.regularexpressions.regex regexp = new regex(@"[^x00-xff]"); //匹配汉字

       if(regexp.ismatch(strpassword))
       {
        //引用com组件,实现与asp兼容的md5算法
        md5.securitymd5class obj = new securitymd5class(); //注意:在vb类模块里,这里的类名为securitymd5class
        return obj. calcmd5(strpassword).tolower();
       }
       else
       {
        //标准md5算法
       md5cryptoserviceprovider hashmd5;
        hashmd5 = new md5cryptoserviceprovider();
        return bitconverter.tostring(hashmd5.computehash(encoding.default.getbytes(strpassword))).replace("-","").tolower();
       }
       
      }

      }

    }

    由于时间仓促,可能文章中有写得不够准确的地方,欢迎批评指正,同时如果其它朋友有更好的实现方法,欢迎来信交流。

    由于时间仓促,可能文章中有写得不够准确的地方,欢迎批评指正,同时如果其它朋友有更好的实现方法,欢迎来信交流。


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