Unit m_Crypt; {$I M_OPS.PAS} Interface // merge in m_Crc, rewrite googled and shitty hextobyte function Function HMAC_MD5 (Text, Key: String) : String; Function MD5 (Const Value: String) : String; Function Digest2String (Digest: String) : String; Function String2Digest (Str: String) : String; Implementation Uses m_Strings; {$Q-}{$R-} Type TMDTransform = Procedure (Var Buf: Array of LongInt; Const Data: Array of LongInt); TMDCtx = Record State : array[0..3] of Integer; Count : array[0..1] of Integer; BufAnsiChar : array[0..63] of Byte; BufLong : array[0..15] of Integer; End; // rewrite the terribad functions now that this stuff is working function HexToByte (Hex: String) : byte; var n, n2, sayi: Integer; Begin n := 0; n2 := 0; Case Hex[1] Of 'A','a': n:= 10; 'B','b': n:= 11; 'C','c': n:= 12; 'D','d': n:= 13; 'E','e': n:= 14; 'F','f': n:= 15; End; If Hex[1] in ['0','1','2','3','4','5','6','7','8','9'] Then n := strS2I(Hex[1]); Case Hex[2] Of 'A','a': n2:= 10; 'B','b': n2:= 11; 'C','c': n2:= 12; 'D','d': n2:= 13; 'E','e': n2:= 14; 'F','f': n2:= 15; End; If Hex[2] in ['0','1','2','3','4','5','6','7','8','9'] Then n2 := strS2I(Hex[2]); sayi := n * 16 + n2; Result := sayi; End; Function Byte2Hex (numb: Byte) : String; Const HexChars : Array[0..15] of Char = '0123456789abcdef'; begin // setlength(result, 2); Byte2Hex[0] := #2; Byte2Hex[1] := HexChars[numb shr 4]; Byte2Hex[2] := HexChars[numb and 15]; end; Function Digest2String (Digest: String) : String; var count : byte; Begin result := ''; for count := 1 to 16 do result := result + byte2hex(byte(digest[count])); result[0] := #32; End; Function String2Digest (Str: string) : string; var count : byte; begin result := ''; count := 1; while count < length(str) do begin result := result + char(hextobyte(copy(str, count, 2))); inc (count, 2); end; end; procedure MDInit(var MDContext: TMDCtx); var n: integer; begin MDContext.Count[0] := 0; MDContext.Count[1] := 0; for n := 0 to high(MDContext.BufAnsiChar) do MDContext.BufAnsiChar[n] := 0; for n := 0 to high(MDContext.BufLong) do MDContext.BufLong[n] := 0; MDContext.State[0] := Integer($67452301); MDContext.State[1] := Integer($EFCDAB89); MDContext.State[2] := Integer($98BADCFE); MDContext.State[3] := Integer($10325476); end; procedure ArrLongToByte(var ArLong: Array of Integer; var ArByte: Array of byte); begin if (High(ArByte) + 1) < ((High(ArLong) + 1) * 4) then Exit; Move(ArLong[0], ArByte[0], High(ArByte) + 1); end; procedure ArrByteToLong(var ArByte: Array of byte; var ArLong: Array of Integer); begin if (High(ArByte) + 1) > ((High(ArLong) + 1) * 4) then Exit; Move(ArByte[0], ArLong[0], High(ArByte) + 1); end; procedure MDUpdate(var MDContext: TMDCtx; const Data: string; transform: TMDTransform); var Index, partLen, InputLen, I: integer; begin InputLen := Length(Data); with MDContext do begin Index := (Count[0] shr 3) and $3F; Inc(Count[0], InputLen shl 3); if Count[0] < (InputLen shl 3) then Inc(Count[1]); Inc(Count[1], InputLen shr 29); partLen := 64 - Index; if InputLen >= partLen then begin ArrLongToByte(BufLong, BufAnsiChar); Move(Data[1], BufAnsiChar[Index], partLen); ArrByteToLong(BufAnsiChar, BufLong); Transform(State, Buflong); I := partLen; while I + 63 < InputLen do begin ArrLongToByte(BufLong, BufAnsiChar); Move(Data[I+1], BufAnsiChar, 64); ArrByteToLong(BufAnsiChar, BufLong); Transform(State, Buflong); inc(I, 64); end; Index := 0; end else I := 0; ArrLongToByte(BufLong, BufAnsiChar); Move(Data[I+1], BufAnsiChar[Index], InputLen-I); ArrByteToLong(BufAnsiChar, BufLong); end end; procedure MD5Transform(var Buf: array of LongInt; const Data: array of LongInt); var A, B, C, D: LongInt; procedure Round1(var W: LongInt; X, Y, Z, Data: LongInt; S: Byte); begin Inc(W, (Z xor (X and (Y xor Z))) + Data); W := (W shl S) or (W shr (32 - S)); Inc(W, X); end; procedure Round2(var W: LongInt; X, Y, Z, Data: LongInt; S: Byte); begin Inc(W, (Y xor (Z and (X xor Y))) + Data); W := (W shl S) or (W shr (32 - S)); Inc(W, X); end; procedure Round3(var W: LongInt; X, Y, Z, Data: LongInt; S: Byte); begin Inc(W, (X xor Y xor Z) + Data); W := (W shl S) or (W shr (32 - S)); Inc(W, X); end; procedure Round4(var W: LongInt; X, Y, Z, Data: LongInt; S: Byte); begin Inc(W, (Y xor (X or not Z)) + Data); W := (W shl S) or (W shr (32 - S)); Inc(W, X); end; begin A := Buf[0]; B := Buf[1]; C := Buf[2]; D := Buf[3]; Round1(A, B, C, D, Data[0] + Longint($D76AA478), 7); Round1(D, A, B, C, Data[1] + Longint($E8C7B756), 12); Round1(C, D, A, B, Data[2] + Longint($242070DB), 17); Round1(B, C, D, A, Data[3] + Longint($C1BDCEEE), 22); Round1(A, B, C, D, Data[4] + Longint($F57C0FAF), 7); Round1(D, A, B, C, Data[5] + Longint($4787C62A), 12); Round1(C, D, A, B, Data[6] + Longint($A8304613), 17); Round1(B, C, D, A, Data[7] + Longint($FD469501), 22); Round1(A, B, C, D, Data[8] + Longint($698098D8), 7); Round1(D, A, B, C, Data[9] + Longint($8B44F7AF), 12); Round1(C, D, A, B, Data[10] + Longint($FFFF5BB1), 17); Round1(B, C, D, A, Data[11] + Longint($895CD7BE), 22); Round1(A, B, C, D, Data[12] + Longint($6B901122), 7); Round1(D, A, B, C, Data[13] + Longint($FD987193), 12); Round1(C, D, A, B, Data[14] + Longint($A679438E), 17); Round1(B, C, D, A, Data[15] + Longint($49B40821), 22); Round2(A, B, C, D, Data[1] + Longint($F61E2562), 5); Round2(D, A, B, C, Data[6] + Longint($C040B340), 9); Round2(C, D, A, B, Data[11] + Longint($265E5A51), 14); Round2(B, C, D, A, Data[0] + Longint($E9B6C7AA), 20); Round2(A, B, C, D, Data[5] + Longint($D62F105D), 5); Round2(D, A, B, C, Data[10] + Longint($02441453), 9); Round2(C, D, A, B, Data[15] + Longint($D8A1E681), 14); Round2(B, C, D, A, Data[4] + Longint($E7D3FBC8), 20); Round2(A, B, C, D, Data[9] + Longint($21E1CDE6), 5); Round2(D, A, B, C, Data[14] + Longint($C33707D6), 9); Round2(C, D, A, B, Data[3] + Longint($F4D50D87), 14); Round2(B, C, D, A, Data[8] + Longint($455A14ED), 20); Round2(A, B, C, D, Data[13] + Longint($A9E3E905), 5); Round2(D, A, B, C, Data[2] + Longint($FCEFA3F8), 9); Round2(C, D, A, B, Data[7] + Longint($676F02D9), 14); Round2(B, C, D, A, Data[12] + Longint($8D2A4C8A), 20); Round3(A, B, C, D, Data[5] + Longint($FFFA3942), 4); Round3(D, A, B, C, Data[8] + Longint($8771F681), 11); Round3(C, D, A, B, Data[11] + Longint($6D9D6122), 16); Round3(B, C, D, A, Data[14] + Longint($FDE5380C), 23); Round3(A, B, C, D, Data[1] + Longint($A4BEEA44), 4); Round3(D, A, B, C, Data[4] + Longint($4BDECFA9), 11); Round3(C, D, A, B, Data[7] + Longint($F6BB4B60), 16); Round3(B, C, D, A, Data[10] + Longint($BEBFBC70), 23); Round3(A, B, C, D, Data[13] + Longint($289B7EC6), 4); Round3(D, A, B, C, Data[0] + Longint($EAA127FA), 11); Round3(C, D, A, B, Data[3] + Longint($D4EF3085), 16); Round3(B, C, D, A, Data[6] + Longint($04881D05), 23); Round3(A, B, C, D, Data[9] + Longint($D9D4D039), 4); Round3(D, A, B, C, Data[12] + Longint($E6DB99E5), 11); Round3(C, D, A, B, Data[15] + Longint($1FA27CF8), 16); Round3(B, C, D, A, Data[2] + Longint($C4AC5665), 23); Round4(A, B, C, D, Data[0] + Longint($F4292244), 6); Round4(D, A, B, C, Data[7] + Longint($432AFF97), 10); Round4(C, D, A, B, Data[14] + Longint($AB9423A7), 15); Round4(B, C, D, A, Data[5] + Longint($FC93A039), 21); Round4(A, B, C, D, Data[12] + Longint($655B59C3), 6); Round4(D, A, B, C, Data[3] + Longint($8F0CCC92), 10); Round4(C, D, A, B, Data[10] + Longint($FFEFF47D), 15); Round4(B, C, D, A, Data[1] + Longint($85845DD1), 21); Round4(A, B, C, D, Data[8] + Longint($6FA87E4F), 6); Round4(D, A, B, C, Data[15] + Longint($FE2CE6E0), 10); Round4(C, D, A, B, Data[6] + Longint($A3014314), 15); Round4(B, C, D, A, Data[13] + Longint($4E0811A1), 21); Round4(A, B, C, D, Data[4] + Longint($F7537E82), 6); Round4(D, A, B, C, Data[11] + Longint($BD3AF235), 10); Round4(C, D, A, B, Data[2] + Longint($2AD7D2BB), 15); Round4(B, C, D, A, Data[9] + Longint($EB86D391), 21); Inc(Buf[0], A); Inc(Buf[1], B); Inc(Buf[2], C); Inc(Buf[3], D); end; function MDFinal(var MDContext: TMDCtx; transform: TMDTransform): string; var Cnt: Word; P: Byte; digest: array[0..15] of Byte; i: Integer; n: integer; begin for I := 0 to 15 do Digest[I] := I + 1; with MDContext do begin Cnt := (Count[0] shr 3) and $3F; P := Cnt; BufAnsiChar[P] := $80; Inc(P); Cnt := 64 - 1 - Cnt; if Cnt < 8 then begin for n := 0 to cnt - 1 do BufAnsiChar[P + n] := 0; ArrByteToLong(BufAnsiChar, BufLong); Transform(State, BufLong); ArrLongToByte(BufLong, BufAnsiChar); for n := 0 to 55 do BufAnsiChar[n] := 0; ArrByteToLong(BufAnsiChar, BufLong); end else begin for n := 0 to Cnt - 8 - 1 do BufAnsiChar[p + n] := 0; ArrByteToLong(BufAnsiChar, BufLong); end; BufLong[14] := Count[0]; BufLong[15] := Count[1]; Transform(State, BufLong); ArrLongToByte(State, Digest); Result := ''; for i := 0 to 15 do Result := Result + char(digest[i]); end; end; function MD5(const Value: string): string; var MDContext: TMDCtx; begin MDInit(MDContext); MDUpdate(MDContext, Value, @MD5Transform); Result := MDFinal(MDContext, @MD5Transform); end; function HMAC_MD5(Text, Key: string): string; var ipad, opad, s: string; n: Integer; MDContext: TMDCtx; begin if Length(Key) > 64 then Key := md5(Key); ipad := StringOfChar(#$36, 64); opad := StringOfChar(#$5C, 64); for n := 1 to Length(Key) do begin ipad[n] := char(Byte(ipad[n]) xor Byte(Key[n])); opad[n] := char(Byte(opad[n]) xor Byte(Key[n])); end; MDInit(MDContext); MDUpdate(MDContext, ipad, @MD5Transform); MDUpdate(MDContext, Text, @MD5Transform); s := MDFinal(MDContext, @MD5Transform); MDInit(MDContext); MDUpdate(MDContext, opad, @MD5Transform); MDUpdate(MDContext, s, @MD5Transform); Result := MDFinal(MDContext, @MD5Transform); end; end.