对于asp这种古董级的技术,这年头想找一些有用的资料已经不容易了,下面是一些常用的加密算法:
md5 (将以下代码另存为md5.inc)
<% 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) 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 md5_F(x, y, z) md5_F = (x And y) Or ((Not x) And z) End Function Private Function md5_G(x, y, z) md5_G = (x And z) Or (y And (Not z)) End Function Private Function md5_H(x, y, z) md5_H = (x Xor y Xor z) End Function Private Function md5_I(x, y, z) md5_I = (y Xor (x Or (Not z))) End Function Private Sub md5_FF(a, b, c, d, x, s, ac) a = AddUnsigned(a, AddUnsigned(AddUnsigned(md5_F(b, c, d), x), ac)) a = RotateLeft(a, s) a = AddUnsigned(a, b) End Sub Private Sub md5_GG(a, b, c, d, x, s, ac) a = AddUnsigned(a, AddUnsigned(AddUnsigned(md5_G(b, c, d), x), ac)) a = RotateLeft(a, s) a = AddUnsigned(a, b) End Sub Private Sub md5_HH(a, b, c, d, x, s, ac) a = AddUnsigned(a, AddUnsigned(AddUnsigned(md5_H(b, c, d), x), ac)) a = RotateLeft(a, s) a = AddUnsigned(a, b) End Sub Private Sub md5_II(a, b, c, d, x, s, ac) a = AddUnsigned(a, AddUnsigned(AddUnsigned(md5_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 MD5(sMessage) 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) 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 md5_FF a, b, c, d, x(k + 0), S11, &HD76AA478 md5_FF d, a, b, c, x(k + 1), S12, &HE8C7B756 md5_FF c, d, a, b, x(k + 2), S13, &H242070DB md5_FF b, c, d, a, x(k + 3), S14, &HC1BDCEEE md5_FF a, b, c, d, x(k + 4), S11, &HF57C0FAF md5_FF d, a, b, c, x(k + 5), S12, &H4787C62A md5_FF c, d, a, b, x(k + 6), S13, &HA8304613 md5_FF b, c, d, a, x(k + 7), S14, &HFD469501 md5_FF a, b, c, d, x(k + 8), S11, &H698098D8 md5_FF d, a, b, c, x(k + 9), S12, &H8B44F7AF md5_FF c, d, a, b, x(k + 10), S13, &HFFFF5BB1 md5_FF b, c, d, a, x(k + 11), S14, &H895CD7BE md5_FF a, b, c, d, x(k + 12), S11, &H6B901122 md5_FF d, a, b, c, x(k + 13), S12, &HFD987193 md5_FF c, d, a, b, x(k + 14), S13, &HA679438E md5_FF b, c, d, a, x(k + 15), S14, &H49B40821 md5_GG a, b, c, d, x(k + 1), S21, &HF61E2562 md5_GG d, a, b, c, x(k + 6), S22, &HC040B340 md5_GG c, d, a, b, x(k + 11), S23, &H265E5A51 md5_GG b, c, d, a, x(k + 0), S24, &HE9B6C7AA md5_GG a, b, c, d, x(k + 5), S21, &HD62F105D md5_GG d, a, b, c, x(k + 10), S22, &H2441453 md5_GG c, d, a, b, x(k + 15), S23, &HD8A1E681 md5_GG b, c, d, a, x(k + 4), S24, &HE7D3FBC8 md5_GG a, b, c, d, x(k + 9), S21, &H21E1CDE6 md5_GG d, a, b, c, x(k + 14), S22, &HC33707D6 md5_GG c, d, a, b, x(k + 3), S23, &HF4D50D87 md5_GG b, c, d, a, x(k + 8), S24, &H455A14ED md5_GG a, b, c, d, x(k + 13), S21, &HA9E3E905 md5_GG d, a, b, c, x(k + 2), S22, &HFCEFA3F8 md5_GG c, d, a, b, x(k + 7), S23, &H676F02D9 md5_GG b, c, d, a, x(k + 12), S24, &H8D2A4C8A md5_HH a, b, c, d, x(k + 5), S31, &HFFFA3942 md5_HH d, a, b, c, x(k + 8), S32, &H8771F681 md5_HH c, d, a, b, x(k + 11), S33, &H6D9D6122 md5_HH b, c, d, a, x(k + 14), S34, &HFDE5380C md5_HH a, b, c, d, x(k + 1), S31, &HA4BEEA44 md5_HH d, a, b, c, x(k + 4), S32, &H4BDECFA9 md5_HH c, d, a, b, x(k + 7), S33, &HF6BB4B60 md5_HH b, c, d, a, x(k + 10), S34, &HBEBFBC70 md5_HH a, b, c, d, x(k + 13), S31, &H289B7EC6 md5_HH d, a, b, c, x(k + 0), S32, &HEAA127FA md5_HH c, d, a, b, x(k + 3), S33, &HD4EF3085 md5_HH b, c, d, a, x(k + 6), S34, &H4881D05 md5_HH a, b, c, d, x(k + 9), S31, &HD9D4D039 md5_HH d, a, b, c, x(k + 12), S32, &HE6DB99E5 md5_HH c, d, a, b, x(k + 15), S33, &H1FA27CF8 md5_HH b, c, d, a, x(k + 2), S34, &HC4AC5665 md5_II a, b, c, d, x(k + 0), S41, &HF4292244 md5_II d, a, b, c, x(k + 7), S42, &H432AFF97 md5_II c, d, a, b, x(k + 14), S43, &HAB9423A7 md5_II b, c, d, a, x(k + 5), S44, &HFC93A039 md5_II a, b, c, d, x(k + 12), S41, &H655B59C3 md5_II d, a, b, c, x(k + 3), S42, &H8F0CCC92 md5_II c, d, a, b, x(k + 10), S43, &HFFEFF47D md5_II b, c, d, a, x(k + 1), S44, &H85845DD1 md5_II a, b, c, d, x(k + 8), S41, &H6FA87E4F md5_II d, a, b, c, x(k + 15), S42, &HFE2CE6E0 md5_II c, d, a, b, x(k + 6), S43, &HA3014314 md5_II b, c, d, a, x(k + 13), S44, &H4E0811A1 md5_II a, b, c, d, x(k + 4), S41, &HF7537E82 md5_II d, a, b, c, x(k + 11), S42, &HBD3AF235 md5_II c, d, a, b, x(k + 2), S43, &H2AD7D2BB md5_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 MD5 = LCase(WordToHex(a) & WordToHex(b) & WordToHex(c) & WordToHex(d)) 'MD5=LCase(WordToHex(b) & WordToHex(c)) End Function %>
sha1 (将以下代码另存为hex_sha1_js.inc)
<script language="javascript" type="text/javascript" runat="server"> /* * A JavaScript implementation of the Secure Hash Algorithm, SHA-1, as defined * in FIPS PUB 180-1 * Version 2.1a Copyright Paul Johnston 2000 - 2002. * Other contributors: Greg Holt, Andrew Kepert, Ydnar, Lostinet * Distributed under the BSD License * See http://pajhome.org.uk/crypt/md5 for details. */ /* * Configurable variables. You may need to tweak these to be compatible with * the server-side, but the defaults work in most cases. */ var hexcase = 0; /* hex output format. 0 - lowercase; 1 - uppercase */ var b64pad = "="; /* base-64 pad character. "=" for strict RFC compliance */ var chrsz = 8; /* bits per input character. 8 - ASCII; 16 - Unicode */ /* * These are the functions you'll usually want to call * They take string arguments and return either hex or base-64 encoded strings */ function hex_sha1(s){return binb2hex(core_sha1(str2binb(s),s.length * chrsz));} function b64_sha1(s){return binb2b64(core_sha1(str2binb(s),s.length * chrsz));} function str_sha1(s){return binb2str(core_sha1(str2binb(s),s.length * chrsz));} function hex_hmac_sha1(key, data){ return binb2hex(core_hmac_sha1(key, data));} function b64_hmac_sha1(key, data){ return binb2b64(core_hmac_sha1(key, data));} function str_hmac_sha1(key, data){ return binb2str(core_hmac_sha1(key, data));} /* * Perform a simple self-test to see if the VM is working */ function sha1_vm_test() { return hex_sha1("abc") == "a9993e364706816aba3e25717850c26c9cd0d89d"; } /* * Calculate the SHA-1 of an array of big-endian words, and a bit length */ function core_sha1(x, len) { /* append padding */ x[len >> 5] |= 0x80 << (24 - len % 32); x[((len + 64 >> 9) << 4) + 15] = len; var w = Array(80); var a = 1732584193; var b = -271733879; var c = -1732584194; var d = 271733878; var e = -1009589776; for(var i = 0; i < x.length; i += 16) { var olda = a; var oldb = b; var oldc = c; var oldd = d; var olde = e; for(var j = 0; j < 80; j++) { if(j < 16) w[j] = x[i + j]; else w[j] = rol(w[j-3] ^ w[j-8] ^ w[j-14] ^ w[j-16], 1); var t = safe_add(safe_add(rol(a, 5), sha1_ft(j, b, c, d)), safe_add(safe_add(e, w[j]), sha1_kt(j))); e = d; d = c; c = rol(b, 30); b = a; a = t; } a = safe_add(a, olda); b = safe_add(b, oldb); c = safe_add(c, oldc); d = safe_add(d, oldd); e = safe_add(e, olde); } return Array(a, b, c, d, e); } /* * Perform the appropriate triplet combination function for the current * iteration */ function sha1_ft(t, b, c, d) { if(t < 20) return (b & c) | ((~b) & d); if(t < 40) return b ^ c ^ d; if(t < 60) return (b & c) | (b & d) | (c & d); return b ^ c ^ d; } /* * Determine the appropriate additive constant for the current iteration */ function sha1_kt(t) { return (t < 20) ? 1518500249 : (t < 40) ? 1859775393 : (t < 60) ? -1894007588 : -899497514; } /* * Calculate the HMAC-SHA1 of a key and some data */ function core_hmac_sha1(key, data) { var bkey = str2binb(key); if(bkey.length > 16) bkey = core_sha1(bkey, key.length * chrsz); var ipad = Array(16), opad = Array(16); for(var i = 0; i < 16; i++) { ipad[i] = bkey[i] ^ 0x36363636; opad[i] = bkey[i] ^ 0x5C5C5C5C; } var hash = core_sha1(ipad.concat(str2binb(data)), 512 + data.length * chrsz); return core_sha1(opad.concat(hash), 512 + 160); } /* * Add integers, wrapping at 2^32. This uses 16-bit operations internally * to work around bugs in some JS interpreters. */ function safe_add(x, y) { var lsw = (x & 0xFFFF) + (y & 0xFFFF); var msw = (x >> 16) + (y >> 16) + (lsw >> 16); return (msw << 16) | (lsw & 0xFFFF); } /* * Bitwise rotate a 32-bit number to the left. */ function rol(num, cnt) { return (num << cnt) | (num >>> (32 - cnt)); } /* * Convert an 8-bit or 16-bit string to an array of big-endian words * In 8-bit function, characters >255 have their hi-byte silently ignored. */ function str2binb(str) { var bin = Array(); var mask = (1 << chrsz) - 1; for(var i = 0; i < str.length * chrsz; i += chrsz) bin[i>>5] |= (str.charCodeAt(i / chrsz) & mask) << (32 - chrsz - i%32); return bin; } /* * Convert an array of big-endian words to a string */ function binb2str(bin) { var str = ""; var mask = (1 << chrsz) - 1; for(var i = 0; i < bin.length * 32; i += chrsz) str += String.fromCharCode((bin[i>>5] >>> (32 - chrsz - i%32)) & mask); return str; } /* * Convert an array of big-endian words to a hex string. */ function binb2hex(binarray) { var hex_tab = hexcase ? "0123456789ABCDEF" : "0123456789abcdef"; var str = ""; for(var i = 0; i < binarray.length * 4; i++) { str += hex_tab.charAt((binarray[i>>2] >> ((3 - i%4)*8+4)) & 0xF) + hex_tab.charAt((binarray[i>>2] >> ((3 - i%4)*8 )) & 0xF); } return str; } /* * Convert an array of big-endian words to a base-64 string */ function binb2b64(binarray) { var tab = "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/"; var str = ""; for(var i = 0; i < binarray.length * 4; i += 3) { var triplet = (((binarray[i >> 2] >> 8 * (3 - i %4)) & 0xFF) << 16) | (((binarray[i+1 >> 2] >> 8 * (3 - (i+1)%4)) & 0xFF) << 8 ) | ((binarray[i+2 >> 2] >> 8 * (3 - (i+2)%4)) & 0xFF); for(var j = 0; j < 4; j++) { if(i * 8 + j * 6 > binarray.length * 32) str += b64pad; else str += tab.charAt((triplet >> 6*(3-j)) & 0x3F); } } return str; } </script>
sha256 (将以下代码另存为sha256.inc)
<% ' See the VB6 project that accompanies this sample for full code comments on how ' it works. ' ' ASP VBScript code for generating a SHA256 'digest' or 'signature' of a string. The ' MD5 algorithm is one of the industry standard methods for generating digital ' signatures. It is generically known as a digest, digital signature, one-way ' encryption, hash or checksum algorithm. A common use for SHA256 is for password ' encryption as it is one-way in nature, that does not mean that your passwords ' are not free from a dictionary attack. ' ' If you are using the routine for passwords, you can make it a little more secure ' by concatenating some known random characters to the password before you generate ' the signature and on subsequent tests, so even if a hacker knows you are using ' SHA-256 for your passwords, the random characters will make it harder to dictionary ' attack. ' ' NOTE: Due to the way in which the string is processed the routine assumes a ' single byte character set. VB passes unicode (2-byte) character strings, the ' ConvertToWordArray function uses on the first byte for each character. This ' has been done this way for ease of use, to make the routine truely portable ' you could accept a byte array instead, it would then be up to the calling ' routine to make sure that the byte array is generated from their string in ' a manner consistent with the string type. ' ' This is 'free' software with the following restrictions: ' ' You may not redistribute this code as a 'sample' or 'demo'. However, you are free ' to use the source code in your own code, but you may not claim that you created ' the sample code. It is expressly forbidden to sell or profit from this source code ' other than by the knowledge gained or the enhanced value added by your own code. ' ' Use of this software is also done so at your own risk. The code is supplied as ' is without warranty or guarantee of any kind. ' ' Should you wish to commission some derivative work based on this code provided ' here, or any consultancy work, please do not hesitate to contact us. ' ' Web Site: http://www.frez.co.uk ' E-mail: sales@frez.co.uk Private m_lOnBits2(30) Private m_l2Power2(30) Private K(63) Private Const BITS_TO_A_BYTE2 = 8 Private Const BYTES_TO_A_WORD2 = 4 Private Const BITS_TO_A_WORD2 = 32 m_lOnBits2(0) = CLng(1) m_lOnBits2(1) = CLng(3) m_lOnBits2(2) = CLng(7) m_lOnBits2(3) = CLng(15) m_lOnBits2(4) = CLng(31) m_lOnBits2(5) = CLng(63) m_lOnBits2(6) = CLng(127) m_lOnBits2(7) = CLng(255) m_lOnBits2(8) = CLng(511) m_lOnBits2(9) = CLng(1023) m_lOnBits2(10) = CLng(2047) m_lOnBits2(11) = CLng(4095) m_lOnBits2(12) = CLng(8191) m_lOnBits2(13) = CLng(16383) m_lOnBits2(14) = CLng(32767) m_lOnBits2(15) = CLng(65535) m_lOnBits2(16) = CLng(131071) m_lOnBits2(17) = CLng(262143) m_lOnBits2(18) = CLng(524287) m_lOnBits2(19) = CLng(1048575) m_lOnBits2(20) = CLng(2097151) m_lOnBits2(21) = CLng(4194303) m_lOnBits2(22) = CLng(8388607) m_lOnBits2(23) = CLng(16777215) m_lOnBits2(24) = CLng(33554431) m_lOnBits2(25) = CLng(67108863) m_lOnBits2(26) = CLng(134217727) m_lOnBits2(27) = CLng(268435455) m_lOnBits2(28) = CLng(536870911) m_lOnBits2(29) = CLng(1073741823) m_lOnBits2(30) = CLng(2147483647) m_l2Power2(0) = CLng(1) m_l2Power2(1) = CLng(2) m_l2Power2(2) = CLng(4) m_l2Power2(3) = CLng(8) m_l2Power2(4) = CLng(16) m_l2Power2(5) = CLng(32) m_l2Power2(6) = CLng(64) m_l2Power2(7) = CLng(128) m_l2Power2(8) = CLng(256) m_l2Power2(9) = CLng(512) m_l2Power2(10) = CLng(1024) m_l2Power2(11) = CLng(2048) m_l2Power2(12) = CLng(4096) m_l2Power2(13) = CLng(8192) m_l2Power2(14) = CLng(16384) m_l2Power2(15) = CLng(32768) m_l2Power2(16) = CLng(65536) m_l2Power2(17) = CLng(131072) m_l2Power2(18) = CLng(262144) m_l2Power2(19) = CLng(524288) m_l2Power2(20) = CLng(1048576) m_l2Power2(21) = CLng(2097152) m_l2Power2(22) = CLng(4194304) m_l2Power2(23) = CLng(8388608) m_l2Power2(24) = CLng(16777216) m_l2Power2(25) = CLng(33554432) m_l2Power2(26) = CLng(67108864) m_l2Power2(27) = CLng(134217728) m_l2Power2(28) = CLng(268435456) m_l2Power2(29) = CLng(536870912) m_l2Power2(30) = CLng(1073741824) K(0) = &H428A2F98 K(1) = &H71374491 K(2) = &HB5C0FBCF K(3) = &HE9B5DBA5 K(4) = &H3956C25B K(5) = &H59F111F1 K(6) = &H923F82A4 K(7) = &HAB1C5ED5 K(8) = &HD807AA98 K(9) = &H12835B01 K(10) = &H243185BE K(11) = &H550C7DC3 K(12) = &H72BE5D74 K(13) = &H80DEB1FE K(14) = &H9BDC06A7 K(15) = &HC19BF174 K(16) = &HE49B69C1 K(17) = &HEFBE4786 K(18) = &HFC19DC6 K(19) = &H240CA1CC K(20) = &H2DE92C6F K(21) = &H4A7484AA K(22) = &H5CB0A9DC K(23) = &H76F988DA K(24) = &H983E5152 K(25) = &HA831C66D K(26) = &HB00327C8 K(27) = &HBF597FC7 K(28) = &HC6E00BF3 K(29) = &HD5A79147 K(30) = &H6CA6351 K(31) = &H14292967 K(32) = &H27B70A85 K(33) = &H2E1B2138 K(34) = &H4D2C6DFC K(35) = &H53380D13 K(36) = &H650A7354 K(37) = &H766A0ABB K(38) = &H81C2C92E K(39) = &H92722C85 K(40) = &HA2BFE8A1 K(41) = &HA81A664B K(42) = &HC24B8B70 K(43) = &HC76C51A3 K(44) = &HD192E819 K(45) = &HD6990624 K(46) = &HF40E3585 K(47) = &H106AA070 K(48) = &H19A4C116 K(49) = &H1E376C08 K(50) = &H2748774C K(51) = &H34B0BCB5 K(52) = &H391C0CB3 K(53) = &H4ED8AA4A K(54) = &H5B9CCA4F K(55) = &H682E6FF3 K(56) = &H748F82EE K(57) = &H78A5636F K(58) = &H84C87814 K(59) = &H8CC70208 K(60) = &H90BEFFFA K(61) = &HA4506CEB K(62) = &HBEF9A3F7 K(63) = &HC67178F2 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_l2Power2(31 - iShiftBits)) Then LShift = ((lValue And m_lOnBits2(31 - (iShiftBits + 1))) * m_l2Power2(iShiftBits)) Or &H80000000 Else LShift = ((lValue And m_lOnBits2(31 - iShiftBits)) * m_l2Power2(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_l2Power2(iShiftBits) If (lValue And &H80000000) Then RShift = (RShift Or (&H40000000 m_l2Power2(iShiftBits - 1))) End If 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 Ch(x, y, z) Ch = ((x And y) Xor ((Not x) And z)) End Function Private Function Maj(x, y, z) Maj = ((x And y) Xor (x And z) Xor (y And z)) End Function Private Function S(x, n) S = (RShift(x, (n And m_lOnBits2(4))) Or LShift(x, (32 - (n And m_lOnBits2(4))))) End Function Private Function R(x, n) R = RShift(x, CInt(n And m_lOnBits2(4))) End Function Private Function Sigma0(x) Sigma0 = (S(x, 2) Xor S(x, 13) Xor S(x, 22)) End Function Private Function Sigma1(x) Sigma1 = (S(x, 6) Xor S(x, 11) Xor S(x, 25)) End Function Private Function Gamma0(x) Gamma0 = (S(x, 7) Xor S(x, 18) Xor R(x, 3)) End Function Private Function Gamma1(x) Gamma1 = (S(x, 17) Xor S(x, 19) Xor R(x, 10)) End Function Private Function ConvertToWordArray(sMessage) Dim lMessageLength Dim lNumberOfWords Dim lWordArray() Dim lBytePosition Dim lByteCount Dim lWordCount Dim lByte Const MODULUS_BITS = 512 Const CONGRUENT_BITS = 448 lMessageLength = Len(sMessage) lNumberOfWords = (((lMessageLength + ((MODULUS_BITS - CONGRUENT_BITS) BITS_TO_A_BYTE2)) (MODULUS_BITS BITS_TO_A_BYTE2)) + 1) * (MODULUS_BITS BITS_TO_A_WORD2) ReDim lWordArray(lNumberOfWords - 1) lBytePosition = 0 lByteCount = 0 Do Until lByteCount >= lMessageLength lWordCount = lByteCount BYTES_TO_A_WORD2 lBytePosition = (3 - (lByteCount Mod BYTES_TO_A_WORD2)) * BITS_TO_A_BYTE2 lByte = AscB(Mid(sMessage, lByteCount + 1, 1)) lWordArray(lWordCount) = lWordArray(lWordCount) Or LShift(lByte, lBytePosition) lByteCount = lByteCount + 1 Loop lWordCount = lByteCount BYTES_TO_A_WORD2 lBytePosition = (3 - (lByteCount Mod BYTES_TO_A_WORD2)) * BITS_TO_A_BYTE2 lWordArray(lWordCount) = lWordArray(lWordCount) Or LShift(&H80, lBytePosition) lWordArray(lNumberOfWords - 1) = LShift(lMessageLength, 3) lWordArray(lNumberOfWords - 2) = RShift(lMessageLength, 29) ConvertToWordArray = lWordArray End Function Public Function SHA256(sMessage) Dim HASH(7) Dim M Dim W(63) Dim a Dim b Dim c Dim d Dim e Dim f Dim g Dim h Dim i Dim j Dim T1 Dim T2 HASH(0) = &H6A09E667 HASH(1) = &HBB67AE85 HASH(2) = &H3C6EF372 HASH(3) = &HA54FF53A HASH(4) = &H510E527F HASH(5) = &H9B05688C HASH(6) = &H1F83D9AB HASH(7) = &H5BE0CD19 M = ConvertToWordArray(sMessage) For i = 0 To UBound(M) Step 16 a = HASH(0) b = HASH(1) c = HASH(2) d = HASH(3) e = HASH(4) f = HASH(5) g = HASH(6) h = HASH(7) For j = 0 To 63 If j < 16 Then W(j) = M(j + i) Else W(j) = AddUnsigned(AddUnsigned(AddUnsigned(Gamma1(W(j - 2)), W(j - 7)), Gamma0(W(j - 15))), W(j - 16)) End If T1 = AddUnsigned(AddUnsigned(AddUnsigned(AddUnsigned(h, Sigma1(e)), Ch(e, f, g)), K(j)), W(j)) T2 = AddUnsigned(Sigma0(a), Maj(a, b, c)) h = g g = f f = e e = AddUnsigned(d, T1) d = c c = b b = a a = AddUnsigned(T1, T2) Next HASH(0) = AddUnsigned(a, HASH(0)) HASH(1) = AddUnsigned(b, HASH(1)) HASH(2) = AddUnsigned(c, HASH(2)) HASH(3) = AddUnsigned(d, HASH(3)) HASH(4) = AddUnsigned(e, HASH(4)) HASH(5) = AddUnsigned(f, HASH(5)) HASH(6) = AddUnsigned(g, HASH(6)) HASH(7) = AddUnsigned(h, HASH(7)) Next SHA256 = LCase(Right("00000000" & Hex(HASH(0)), 8) & Right("00000000" & Hex(HASH(1)), 8) & Right("00000000" & Hex(HASH(2)), 8) & Right("00000000" & Hex(HASH(3)), 8) & Right("00000000" & Hex(HASH(4)), 8) & Right("00000000" & Hex(HASH(5)), 8) & Right("00000000" & Hex(HASH(6)), 8) & Right("00000000" & Hex(HASH(7)), 8)) End Function %>
使用示例:
<!-- #include file="md5.inc" --> <!-- #include file="hex_sha1_js.inc" --> <!-- #include file="sha256.inc" --> <title>encode</title> <% Dim salt salt = "infosky" Dim param param = "abc" Response.Write "salt=" & salt & "<br/>" Response.Write "encode(""" & param & """)=" & md5(hex_sha1(param)&"*"&salt) & "<br/>" Response.Write "md5(""" & param & """)=" & md5(param) & "<br/>" Response.Write "sha1(""" & param & """)=" & hex_sha1(param) & "<br/>" Response.Write "sha256(""" & param & """)=" & sha256(param) & "<br/>" %>
运行结果:
salt=infosky
encode("abc")=7ba2f8ba443a3fdd10e7fc8841686983
md5("abc")=044bb8c23806270a8b87b5105b182efa
sha1("abc")=a9993e364706816aba3e25717850c26c9cd0d89d
sha256("abc")=ba7816bf8f01cfea414140de5dae2223b00361a396177a9cb410ff61f20015ad