ASP Serv-U implementing FTP code
<% '****************************** ******************* '* author: awaysrain (absolute zero) *' * completion time: 2003-10-10 * '* test environment: WIN2000SERVER, SERV-U 4.2-beta version * '************************************************************ ****** DIM INIPATH, INIFILENAME, INISTR, TMPSTR, N DIM Username, Password, TMP
Username = "myfso222" 'User name Password = "Awaysrain"' password TMP = "AI" randomly generates two lowercase letters, (should be randomly generated, but I omitted here) Password = TMP & UCase (MD5 (Password) )) 'Password, is MD5 encrypted, the MD5 encryption program of the Up Network, the specific algorithm is randomly generated two lowercase letters, then connects MD5 encryption with your password, and encrypts the randomly generated password and MD5 encrypted The result is stored as a password, and an example, for example, the AWAYSRAIN user, my password is first randomly generate two lowercase letters Ai, and I get AIAWAYSRAIN to get AIAWAYSRAIN MD5 encrypted 9118BFD94A9CE9CF37AE5BAA947ED596 put random build two Small write letters AI and MD5 encrypted results 9118BFD94A9CE9CF37AE5BAA947ED596 connection Get password Ai9118BFD94A9CE9CF37AE5BAA947ED596
Inipath = "D: / Program Files / Serv-U" 'INI file path inIfilename = "servudaemon.ini"' INI file name
Set fso = server.createObject ("scripting.filesystemObject") Set servuini = fso.opentextfile (Inipath & "& INIFILENAME, 1, FALSE)
Inistr = "" n = 0 AddedUserList = false
Set tf = fso.createtextfile (Inipath & "/" & Inifilename & "._Awaysrain.tmp", true) "Generates a new temporary INI file
Do while not servuini.atendofstream Tmpstr = Servuini.Readline
If INSTR ("AwaySrain ||" & Tmpstr, "Awaysrain || User")> 0 THEN 'Record the number of users from N = N 1 END IF
IF INSTR ("AWAYSRAIN ||" & Tmpstr, "AwaySrain || [User =")> 0 and not addeduserlist the 'Add the current user n = n 1 tf.writeLine ("User" & n & "=" & username & "| 1 | 0") AddedUserList = true end if tf.writeLine (tmpstr) loop servuini.close 'Add new user information, specific content can create a new user in Serv-U and confront the INI file
Tf.Writeline ("[user =" & username & "| 1]") 'User name tf.writeline ("password =" & password)' password tf.writeline ("Homedir = E: / TEMP") 'home directory Tf.writeline ("Relpaths = 1") 'Does the user locked the user in the primary directory Tf.Writeline ("MAXUSERSLOGINPERIP = 1")' The same IP simultaneously logs in Tf.WriteLine ("SpeedLimitdown = 102400") 'Maximum download speed Tf.Writeline ("Timeout = 600") 'Idle Time Time (Second) Tf.WriteLine ("Access1 = E: / TEMP | RLP")' Access Directory, can be not one, such as 'Access2 = E: / TEMP1 | RLP'
Tf.Close '-------------------- Backup original INI file ------------------- ----- set f1 = fso.getfile (Inipath & "/" & Inifilename) f1.copy (Inipath & "/" & INIFILENAME & "._Awaysrain.bak") f1.delete '------- ------------ Change the generated temporary INI file to formal ini -------------------------- Set f1 = fso.getfile (Inipath & "/" & INIFILENAME & "._AWAYSRAIN.TMP") f1.copy (Inipath & "/" & INIFILENAME) f1.delete
SET FSO = NOTHING%>
Note: The above code assumes that there is only one field in the format in Servudaemon.ini and has at least one user.
The SERVUDAEMON.INI file structure of the test is as follows: ==================================================== = 222 | 1 | 0 User2 = myfso111 | 1 | 0 [USER = 222 | 1] Password = hwB1ECF70CDAF5DAE2B981AE394EEFCDC0 HomeDir = E: / Temp RelPaths = 1 TimeOut = 600 access1 = E: / Temp | RLP [USER = myfso111 | 1] Password = ai9118BFD94A9CE9CF37AE5BAA947ED596 Homedir = E: / Temp Relpaths = 1 Timeout = 600 Access1 = E: / TEMP | RLP generated file structure after the file structure is as follows ======================== ========== [domain1] user1 = 222 | 1 | 0 USER2 = myfso111 | 1 | 0 user3 = myfso222 | 1 | 0 [user = 222 | 1] password = hWB1ECF70CDAF5DAE2B981AE394EEFCDC0 homeDir = E: / TEMP RelPaths = 1 TimeOut = 600 access1 = E: / Temp | RLP [USER = myfso111 | 1] Password = ai9118BFD94A9CE9CF37AE5BAA947ED596 HomeDir = e: / temp RelPaths = 1 TimeOut = 600 access1 = E: / Temp | RLP [USER = myfso222 | 1 ] Password = ai9118bfd94a9ce9cf37ae5baa947ed596 homedir = E: / Temp Relpaths = 1 timeout = 600 access1 = E: / Temp | RLP
With md5.asp =================================================== <% 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> 31 Then Err.raise 6 End IF (Lvalue and M_L2Power (31 - IshiftBits)) THEN LSHIFT = ((Lvalue and M_Lonbits) * 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 Pr ivate 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 LRESULT = LRESULT XOR LX8 XOR LY8 END IF ADUNSIGNED = LRESULT End Function Private Function MD5_F (X, Y) 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, 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, 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 (24) = CLNG (24) 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 DD 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 (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, & HD 8A1E681 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, & HFFA3942 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, & HF429244 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 (12), S41, & H655B59C3 MD5_II D, A, B, C, X (K 3), S42, & H8F0CC92 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 =
