1
0
mirror of https://github.com/moparisthebest/Simba synced 2024-11-25 10:42:20 -05:00
Simba/Units/Synapse/synacode.pas

1461 lines
49 KiB
ObjectPascal
Raw Normal View History

2010-03-13 10:33:04 -05:00
{==============================================================================|
| Project : Ararat Synapse | 002.002.001 |
|==============================================================================|
| Content: Coding and decoding support |
|==============================================================================|
| Copyright (c)1999-2010, Lukas Gebauer |
| All rights reserved. |
| |
| Redistribution and use in source and binary forms, with or without |
| modification, are permitted provided that the following conditions are met: |
| |
| Redistributions of source code must retain the above copyright notice, this |
| list of conditions and the following disclaimer. |
| |
| Redistributions in binary form must reproduce the above copyright notice, |
| this list of conditions and the following disclaimer in the documentation |
| and/or other materials provided with the distribution. |
| |
| Neither the name of Lukas Gebauer nor the names of its contributors may |
| be used to endorse or promote products derived from this software without |
| specific prior written permission. |
| |
| THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" |
| AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE |
| IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE |
| ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE FOR |
| ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL |
| DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR |
| SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER |
| CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT |
| LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY |
| OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH |
| DAMAGE. |
|==============================================================================|
| The Initial Developer of the Original Code is Lukas Gebauer (Czech Republic).|
| Portions created by Lukas Gebauer are Copyright (c)2000-2010. |
| All Rights Reserved. |
|==============================================================================|
| Contributor(s): |
|==============================================================================|
| History: see HISTORY.HTM from distribution package |
| (Found at URL: http://www.ararat.cz/synapse/) |
|==============================================================================}
{:@abstract(Various encoding and decoding support)}
{$IFDEF FPC}
{$MODE DELPHI}
{$ENDIF}
{$Q-}
{$R-}
{$H+}
{$IFDEF UNICODE}
{$WARN IMPLICIT_STRING_CAST OFF}
{$WARN IMPLICIT_STRING_CAST_LOSS OFF}
{$WARN SUSPICIOUS_TYPECAST OFF}
{$ENDIF}
unit synacode;
interface
uses
SysUtils;
type
TSpecials = set of AnsiChar;
const
SpecialChar: TSpecials =
['=', '(', ')', '[', ']', '<', '>', ':', ';', ',', '@', '/', '?', '\',
'"', '_'];
NonAsciiChar: TSpecials =
[#0..#31, #127..#255];
URLFullSpecialChar: TSpecials =
[';', '/', '?', ':', '@', '=', '&', '#', '+'];
URLSpecialChar: TSpecials =
[#$00..#$20, '_', '<', '>', '"', '%', '{', '}', '|', '\', '^', '~', '[', ']',
'`', #$7F..#$FF];
TableBase64 =
'ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/=';
TableBase64mod =
'ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+,=';
TableUU =
'`!"#$%&''()*+,-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_';
TableXX =
'+-0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz';
ReTablebase64 =
#$40 +#$40 +#$40 +#$40 +#$40 +#$40 +#$40 +#$40 +#$40 +#$40 +#$3E +#$40
+#$40 +#$40 +#$3F +#$34 +#$35 +#$36 +#$37 +#$38 +#$39 +#$3A +#$3B +#$3C
+#$3D +#$40 +#$40 +#$40 +#$40 +#$40 +#$40 +#$40 +#$00 +#$01 +#$02 +#$03
+#$04 +#$05 +#$06 +#$07 +#$08 +#$09 +#$0A +#$0B +#$0C +#$0D +#$0E +#$0F
+#$10 +#$11 +#$12 +#$13 +#$14 +#$15 +#$16 +#$17 +#$18 +#$19 +#$40 +#$40
+#$40 +#$40 +#$40 +#$40 +#$1A +#$1B +#$1C +#$1D +#$1E +#$1F +#$20 +#$21
+#$22 +#$23 +#$24 +#$25 +#$26 +#$27 +#$28 +#$29 +#$2A +#$2B +#$2C +#$2D
+#$2E +#$2F +#$30 +#$31 +#$32 +#$33 +#$40 +#$40 +#$40 +#$40 +#$40 +#$40;
ReTableUU =
#$01 +#$02 +#$03 +#$04 +#$05 +#$06 +#$07 +#$08 +#$09 +#$0A +#$0B +#$0C
+#$0D +#$0E +#$0F +#$10 +#$11 +#$12 +#$13 +#$14 +#$15 +#$16 +#$17 +#$18
+#$19 +#$1A +#$1B +#$1C +#$1D +#$1E +#$1F +#$20 +#$21 +#$22 +#$23 +#$24
+#$25 +#$26 +#$27 +#$28 +#$29 +#$2A +#$2B +#$2C +#$2D +#$2E +#$2F +#$30
+#$31 +#$32 +#$33 +#$34 +#$35 +#$36 +#$37 +#$38 +#$39 +#$3A +#$3B +#$3C
+#$3D +#$3E +#$3F +#$00 +#$40 +#$40 +#$40 +#$40 +#$40 +#$40 +#$40 +#$40
+#$40 +#$40 +#$40 +#$40 +#$40 +#$40 +#$40 +#$40 +#$40 +#$40 +#$40 +#$40
+#$40 +#$40 +#$40 +#$40 +#$40 +#$40 +#$40 +#$40 +#$40 +#$40 +#$40 +#$40;
ReTableXX =
#$40 +#$40 +#$40 +#$40 +#$40 +#$40 +#$40 +#$40 +#$40 +#$40 +#$00 +#$40
+#$01 +#$40 +#$40 +#$02 +#$03 +#$04 +#$05 +#$06 +#$07 +#$08 +#$09 +#$0A
+#$0B +#$40 +#$40 +#$40 +#$40 +#$40 +#$40 +#$40 +#$0C +#$0D +#$0E +#$0F
+#$10 +#$11 +#$12 +#$13 +#$14 +#$15 +#$16 +#$17 +#$18 +#$19 +#$1A +#$1B
+#$1C +#$1D +#$1E +#$1F +#$20 +#$21 +#$22 +#$23 +#$24 +#$25 +#$40 +#$40
+#$40 +#$40 +#$40 +#$40 +#$26 +#$27 +#$28 +#$29 +#$2A +#$2B +#$2C +#$2D
+#$2E +#$2F +#$30 +#$31 +#$32 +#$33 +#$34 +#$35 +#$36 +#$37 +#$38 +#$39
+#$3A +#$3B +#$3C +#$3D +#$3E +#$3F +#$40 +#$40 +#$40 +#$40 +#$40 +#$40;
{:Decodes triplet encoding with a given character delimiter. It is used for
decoding quoted-printable or URL encoding.}
function DecodeTriplet(const Value: AnsiString; Delimiter: AnsiChar): AnsiString;
{:Decodes a string from quoted printable form. (also decodes triplet sequences
like '=7F')}
function DecodeQuotedPrintable(const Value: AnsiString): AnsiString;
{:Decodes a string of URL encoding. (also decodes triplet sequences like '%7F')}
function DecodeURL(const Value: AnsiString): AnsiString;
{:Performs triplet encoding with a given character delimiter. Used for encoding
quoted-printable or URL encoding.}
function EncodeTriplet(const Value: AnsiString; Delimiter: AnsiChar;
Specials: TSpecials): AnsiString;
{:Encodes a string to triplet quoted printable form. All @link(NonAsciiChar)
are encoded.}
function EncodeQuotedPrintable(const Value: AnsiString): AnsiString;
{:Encodes a string to triplet quoted printable form. All @link(NonAsciiChar) and
@link(SpecialChar) are encoded.}
function EncodeSafeQuotedPrintable(const Value: AnsiString): AnsiString;
{:Encodes a string to URL format. Used for encoding data from a form field in
HTTP, etc. (Encodes all critical characters including characters used as URL
delimiters ('/',':', etc.)}
function EncodeURLElement(const Value: AnsiString): AnsiString;
{:Encodes a string to URL format. Used to encode critical characters in all
URLs.}
function EncodeURL(const Value: AnsiString): AnsiString;
{:Decode 4to3 encoding with given table. If some element is not found in table,
first item from table is used. This is good for buggy coded items by Microsoft
Outlook. This software sometimes using wrong table for UUcode, where is used
' ' instead '`'.}
function Decode4to3(const Value, Table: AnsiString): AnsiString;
{:Decode 4to3 encoding with given REVERSE table. Using this function with
reverse table is much faster then @link(Decode4to3). This function is used
internally for Base64, UU or XX decoding.}
function Decode4to3Ex(const Value, Table: AnsiString): AnsiString;
{:Encode by system 3to4 (used by Base64, UU coding, etc) by given table.}
function Encode3to4(const Value, Table: AnsiString): AnsiString;
{:Decode string from base64 format.}
function DecodeBase64(const Value: AnsiString): AnsiString;
{:Encodes a string to base64 format.}
function EncodeBase64(const Value: AnsiString): AnsiString;
{:Decode string from modified base64 format. (used in IMAP, for example.)}
function DecodeBase64mod(const Value: AnsiString): AnsiString;
{:Encodes a string to modified base64 format. (used in IMAP, for example.)}
function EncodeBase64mod(const Value: AnsiString): AnsiString;
{:Decodes a string from UUcode format.}
function DecodeUU(const Value: AnsiString): AnsiString;
{:encode UUcode. it encode only datas, you must also add header and footer for
proper encode.}
function EncodeUU(const Value: AnsiString): AnsiString;
{:Decodes a string from XXcode format.}
function DecodeXX(const Value: AnsiString): AnsiString;
{:decode line with Yenc code. This code is sometimes used in newsgroups.}
function DecodeYEnc(const Value: AnsiString): AnsiString;
{:Returns a new CRC32 value after adding a new byte of data.}
function UpdateCrc32(Value: Byte; Crc32: Integer): Integer;
{:return CRC32 from a value string.}
function Crc32(const Value: AnsiString): Integer;
{:Returns a new CRC16 value after adding a new byte of data.}
function UpdateCrc16(Value: Byte; Crc16: Word): Word;
{:return CRC16 from a value string.}
function Crc16(const Value: AnsiString): Word;
{:Returns a binary string with a RSA-MD5 hashing of "Value" string.}
function MD5(const Value: AnsiString): AnsiString;
{:Returns a binary string with HMAC-MD5 hash.}
function HMAC_MD5(Text, Key: AnsiString): AnsiString;
{:Returns a binary string with a RSA-MD5 hashing of string what is constructed
by repeating "value" until length is "Len".}
function MD5LongHash(const Value: AnsiString; Len: integer): AnsiString;
{:Returns a binary string with a SHA-1 hashing of "Value" string.}
function SHA1(const Value: AnsiString): AnsiString;
{:Returns a binary string with HMAC-SHA1 hash.}
function HMAC_SHA1(Text, Key: AnsiString): AnsiString;
{:Returns a binary string with a SHA-1 hashing of string what is constructed
by repeating "value" until length is "Len".}
function SHA1LongHash(const Value: AnsiString; Len: integer): AnsiString;
{:Returns a binary string with a RSA-MD4 hashing of "Value" string.}
function MD4(const Value: AnsiString): AnsiString;
implementation
const
Crc32Tab: array[0..255] of Integer = (
Integer($00000000), Integer($77073096), Integer($EE0E612C), Integer($990951BA),
Integer($076DC419), Integer($706AF48F), Integer($E963A535), Integer($9E6495A3),
Integer($0EDB8832), Integer($79DCB8A4), Integer($E0D5E91E), Integer($97D2D988),
Integer($09B64C2B), Integer($7EB17CBD), Integer($E7B82D07), Integer($90BF1D91),
Integer($1DB71064), Integer($6AB020F2), Integer($F3B97148), Integer($84BE41DE),
Integer($1ADAD47D), Integer($6DDDE4EB), Integer($F4D4B551), Integer($83D385C7),
Integer($136C9856), Integer($646BA8C0), Integer($FD62F97A), Integer($8A65C9EC),
Integer($14015C4F), Integer($63066CD9), Integer($FA0F3D63), Integer($8D080DF5),
Integer($3B6E20C8), Integer($4C69105E), Integer($D56041E4), Integer($A2677172),
Integer($3C03E4D1), Integer($4B04D447), Integer($D20D85FD), Integer($A50AB56B),
Integer($35B5A8FA), Integer($42B2986C), Integer($DBBBC9D6), Integer($ACBCF940),
Integer($32D86CE3), Integer($45DF5C75), Integer($DCD60DCF), Integer($ABD13D59),
Integer($26D930AC), Integer($51DE003A), Integer($C8D75180), Integer($BFD06116),
Integer($21B4F4B5), Integer($56B3C423), Integer($CFBA9599), Integer($B8BDA50F),
Integer($2802B89E), Integer($5F058808), Integer($C60CD9B2), Integer($B10BE924),
Integer($2F6F7C87), Integer($58684C11), Integer($C1611DAB), Integer($B6662D3D),
Integer($76DC4190), Integer($01DB7106), Integer($98D220BC), Integer($EFD5102A),
Integer($71B18589), Integer($06B6B51F), Integer($9FBFE4A5), Integer($E8B8D433),
Integer($7807C9A2), Integer($0F00F934), Integer($9609A88E), Integer($E10E9818),
Integer($7F6A0DBB), Integer($086D3D2D), Integer($91646C97), Integer($E6635C01),
Integer($6B6B51F4), Integer($1C6C6162), Integer($856530D8), Integer($F262004E),
Integer($6C0695ED), Integer($1B01A57B), Integer($8208F4C1), Integer($F50FC457),
Integer($65B0D9C6), Integer($12B7E950), Integer($8BBEB8EA), Integer($FCB9887C),
Integer($62DD1DDF), Integer($15DA2D49), Integer($8CD37CF3), Integer($FBD44C65),
Integer($4DB26158), Integer($3AB551CE), Integer($A3BC0074), Integer($D4BB30E2),
Integer($4ADFA541), Integer($3DD895D7), Integer($A4D1C46D), Integer($D3D6F4FB),
Integer($4369E96A), Integer($346ED9FC), Integer($AD678846), Integer($DA60B8D0),
Integer($44042D73), Integer($33031DE5), Integer($AA0A4C5F), Integer($DD0D7CC9),
Integer($5005713C), Integer($270241AA), Integer($BE0B1010), Integer($C90C2086),
Integer($5768B525), Integer($206F85B3), Integer($B966D409), Integer($CE61E49F),
Integer($5EDEF90E), Integer($29D9C998), Integer($B0D09822), Integer($C7D7A8B4),
Integer($59B33D17), Integer($2EB40D81), Integer($B7BD5C3B), Integer($C0BA6CAD),
Integer($EDB88320), Integer($9ABFB3B6), Integer($03B6E20C), Integer($74B1D29A),
Integer($EAD54739), Integer($9DD277AF), Integer($04DB2615), Integer($73DC1683),
Integer($E3630B12), Integer($94643B84), Integer($0D6D6A3E), Integer($7A6A5AA8),
Integer($E40ECF0B), Integer($9309FF9D), Integer($0A00AE27), Integer($7D079EB1),
Integer($F00F9344), Integer($8708A3D2), Integer($1E01F268), Integer($6906C2FE),
Integer($F762575D), Integer($806567CB), Integer($196C3671), Integer($6E6B06E7),
Integer($FED41B76), Integer($89D32BE0), Integer($10DA7A5A), Integer($67DD4ACC),
Integer($F9B9DF6F), Integer($8EBEEFF9), Integer($17B7BE43), Integer($60B08ED5),
Integer($D6D6A3E8), Integer($A1D1937E), Integer($38D8C2C4), Integer($4FDFF252),
Integer($D1BB67F1), Integer($A6BC5767), Integer($3FB506DD), Integer($48B2364B),
Integer($D80D2BDA), Integer($AF0A1B4C), Integer($36034AF6), Integer($41047A60),
Integer($DF60EFC3), Integer($A867DF55), Integer($316E8EEF), Integer($4669BE79),
Integer($CB61B38C), Integer($BC66831A), Integer($256FD2A0), Integer($5268E236),
Integer($CC0C7795), Integer($BB0B4703), Integer($220216B9), Integer($5505262F),
Integer($C5BA3BBE), Integer($B2BD0B28), Integer($2BB45A92), Integer($5CB36A04),
Integer($C2D7FFA7), Integer($B5D0CF31), Integer($2CD99E8B), Integer($5BDEAE1D),
Integer($9B64C2B0), Integer($EC63F226), Integer($756AA39C), Integer($026D930A),
Integer($9C0906A9), Integer($EB0E363F), Integer($72076785), Integer($05005713),
Integer($95BF4A82), Integer($E2B87A14), Integer($7BB12BAE), Integer($0CB61B38),
Integer($92D28E9B), Integer($E5D5BE0D), Integer($7CDCEFB7), Integer($0BDBDF21),
Integer($86D3D2D4), Integer($F1D4E242), Integer($68DDB3F8), Integer($1FDA836E),
Integer($81BE16CD), Integer($F6B9265B), Integer($6FB077E1), Integer($18B74777),
Integer($88085AE6), Integer($FF0F6A70), Integer($66063BCA), Integer($11010B5C),
Integer($8F659EFF), Integer($F862AE69), Integer($616BFFD3), Integer($166CCF45),
Integer($A00AE278), Integer($D70DD2EE), Integer($4E048354), Integer($3903B3C2),
Integer($A7672661), Integer($D06016F7), Integer($4969474D), Integer($3E6E77DB),
Integer($AED16A4A), Integer($D9D65ADC), Integer($40DF0B66), Integer($37D83BF0),
Integer($A9BCAE53), Integer($DEBB9EC5), Integer($47B2CF7F), Integer($30B5FFE9),
Integer($BDBDF21C), Integer($CABAC28A), Integer($53B39330), Integer($24B4A3A6),
Integer($BAD03605), Integer($CDD70693), Integer($54DE5729), Integer($23D967BF),
Integer($B3667A2E), Integer($C4614AB8), Integer($5D681B02), Integer($2A6F2B94),
Integer($B40BBE37), Integer($C30C8EA1), Integer($5A05DF1B), Integer($2D02EF8D)
);
Crc16Tab: array[0..255] of Word = (
$0000, $1189, $2312, $329B, $4624, $57AD, $6536, $74BF,
$8C48, $9DC1, $AF5A, $BED3, $CA6C, $DBE5, $E97E, $F8F7,
$1081, $0108, $3393, $221A, $56A5, $472C, $75B7, $643E,
$9CC9, $8D40, $BFDB, $AE52, $DAED, $CB64, $F9FF, $E876,
$2102, $308B, $0210, $1399, $6726, $76AF, $4434, $55BD,
$AD4A, $BCC3, $8E58, $9FD1, $EB6E, $FAE7, $C87C, $D9F5,
$3183, $200A, $1291, $0318, $77A7, $662E, $54B5, $453C,
$BDCB, $AC42, $9ED9, $8F50, $FBEF, $EA66, $D8FD, $C974,
$4204, $538D, $6116, $709F, $0420, $15A9, $2732, $36BB,
$CE4C, $DFC5, $ED5E, $FCD7, $8868, $99E1, $AB7A, $BAF3,
$5285, $430C, $7197, $601E, $14A1, $0528, $37B3, $263A,
$DECD, $CF44, $FDDF, $EC56, $98E9, $8960, $BBFB, $AA72,
$6306, $728F, $4014, $519D, $2522, $34AB, $0630, $17B9,
$EF4E, $FEC7, $CC5C, $DDD5, $A96A, $B8E3, $8A78, $9BF1,
$7387, $620E, $5095, $411C, $35A3, $242A, $16B1, $0738,
$FFCF, $EE46, $DCDD, $CD54, $B9EB, $A862, $9AF9, $8B70,
$8408, $9581, $A71A, $B693, $C22C, $D3A5, $E13E, $F0B7,
$0840, $19C9, $2B52, $3ADB, $4E64, $5FED, $6D76, $7CFF,
$9489, $8500, $B79B, $A612, $D2AD, $C324, $F1BF, $E036,
$18C1, $0948, $3BD3, $2A5A, $5EE5, $4F6C, $7DF7, $6C7E,
$A50A, $B483, $8618, $9791, $E32E, $F2A7, $C03C, $D1B5,
$2942, $38CB, $0A50, $1BD9, $6F66, $7EEF, $4C74, $5DFD,
$B58B, $A402, $9699, $8710, $F3AF, $E226, $D0BD, $C134,
$39C3, $284A, $1AD1, $0B58, $7FE7, $6E6E, $5CF5, $4D7C,
$C60C, $D785, $E51E, $F497, $8028, $91A1, $A33A, $B2B3,
$4A44, $5BCD, $6956, $78DF, $0C60, $1DE9, $2F72, $3EFB,
$D68D, $C704, $F59F, $E416, $90A9, $8120, $B3BB, $A232,
$5AC5, $4B4C, $79D7, $685E, $1CE1, $0D68, $3FF3, $2E7A,
$E70E, $F687, $C41C, $D595, $A12A, $B0A3, $8238, $93B1,
$6B46, $7ACF, $4854, $59DD, $2D62, $3CEB, $0E70, $1FF9,
$F78F, $E606, $D49D, $C514, $B1AB, $A022, $92B9, $8330,
$7BC7, $6A4E, $58D5, $495C, $3DE3, $2C6A, $1EF1, $0F78
);
procedure ArrByteToLong(var ArByte: Array of byte; var ArLong: Array of Integer);
{$IFDEF CIL}
var
n: integer;
{$ENDIF}
begin
if (High(ArByte) + 1) > ((High(ArLong) + 1) * 4) then
Exit;
{$IFDEF CIL}
for n := 0 to ((high(ArByte) + 1) div 4) - 1 do
ArLong[n] := ArByte[n * 4 + 0]
+ (ArByte[n * 4 + 1] shl 8)
+ (ArByte[n * 4 + 2] shl 16)
+ (ArByte[n * 4 + 3] shl 24);
{$ELSE}
Move(ArByte[0], ArLong[0], High(ArByte) + 1);
{$ENDIF}
end;
procedure ArrLongToByte(var ArLong: Array of Integer; var ArByte: Array of byte);
{$IFDEF CIL}
var
n: integer;
{$ENDIF}
begin
if (High(ArByte) + 1) < ((High(ArLong) + 1) * 4) then
Exit;
{$IFDEF CIL}
for n := 0 to high(ArLong) do
begin
ArByte[n * 4 + 0] := ArLong[n] and $000000FF;
ArByte[n * 4 + 1] := (ArLong[n] shr 8) and $000000FF;
ArByte[n * 4 + 2] := (ArLong[n] shr 16) and $000000FF;
ArByte[n * 4 + 3] := (ArLong[n] shr 24) and $000000FF;
end;
{$ELSE}
Move(ArLong[0], ArByte[0], High(ArByte) + 1);
{$ENDIF}
end;
type
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;
TSHA1Ctx= record
Hi, Lo: integer;
Buffer: array[0..63] of byte;
Index: integer;
Hash: array[0..4] of Integer;
HashByte: array[0..19] of byte;
end;
TMDTransform = procedure(var Buf: array of LongInt; const Data: array of LongInt);
{==============================================================================}
function DecodeTriplet(const Value: AnsiString; Delimiter: AnsiChar): AnsiString;
var
x, l, lv: Integer;
c: AnsiChar;
b: Byte;
bad: Boolean;
begin
lv := Length(Value);
SetLength(Result, lv);
x := 1;
l := 1;
while x <= lv do
begin
c := Value[x];
Inc(x);
if c <> Delimiter then
begin
Result[l] := c;
Inc(l);
end
else
if x < lv then
begin
Case Value[x] Of
#13:
if (Value[x + 1] = #10) then
Inc(x, 2)
else
Inc(x);
#10:
if (Value[x + 1] = #13) then
Inc(x, 2)
else
Inc(x);
else
begin
bad := False;
Case Value[x] Of
'0'..'9': b := (Byte(Value[x]) - 48) Shl 4;
'a'..'f', 'A'..'F': b := ((Byte(Value[x]) And 7) + 9) shl 4;
else
begin
b := 0;
bad := True;
end;
end;
Case Value[x + 1] Of
'0'..'9': b := b Or (Byte(Value[x + 1]) - 48);
'a'..'f', 'A'..'F': b := b Or ((Byte(Value[x + 1]) And 7) + 9);
else
bad := True;
end;
if bad then
begin
Result[l] := c;
Inc(l);
end
else
begin
Inc(x, 2);
Result[l] := AnsiChar(b);
Inc(l);
end;
end;
end;
end
else
break;
end;
Dec(l);
SetLength(Result, l);
end;
{==============================================================================}
function DecodeQuotedPrintable(const Value: AnsiString): AnsiString;
begin
Result := DecodeTriplet(Value, '=');
end;
{==============================================================================}
function DecodeURL(const Value: AnsiString): AnsiString;
begin
Result := DecodeTriplet(Value, '%');
end;
{==============================================================================}
function EncodeTriplet(const Value: AnsiString; Delimiter: AnsiChar;
Specials: TSpecials): AnsiString;
var
n, l: Integer;
s: AnsiString;
c: AnsiChar;
begin
SetLength(Result, Length(Value) * 3);
l := 1;
for n := 1 to Length(Value) do
begin
c := Value[n];
if c in Specials then
begin
Result[l] := Delimiter;
Inc(l);
s := IntToHex(Ord(c), 2);
Result[l] := s[1];
Inc(l);
Result[l] := s[2];
Inc(l);
end
else
begin
Result[l] := c;
Inc(l);
end;
end;
Dec(l);
SetLength(Result, l);
end;
{==============================================================================}
function EncodeQuotedPrintable(const Value: AnsiString): AnsiString;
begin
Result := EncodeTriplet(Value, '=', ['='] + NonAsciiChar);
end;
{==============================================================================}
function EncodeSafeQuotedPrintable(const Value: AnsiString): AnsiString;
begin
Result := EncodeTriplet(Value, '=', SpecialChar + NonAsciiChar);
end;
{==============================================================================}
function EncodeURLElement(const Value: AnsiString): AnsiString;
begin
Result := EncodeTriplet(Value, '%', URLSpecialChar + URLFullSpecialChar);
end;
{==============================================================================}
function EncodeURL(const Value: AnsiString): AnsiString;
begin
Result := EncodeTriplet(Value, '%', URLSpecialChar);
end;
{==============================================================================}
function Decode4to3(const Value, Table: AnsiString): AnsiString;
var
x, y, n, l: Integer;
d: array[0..3] of Byte;
begin
SetLength(Result, Length(Value));
x := 1;
l := 1;
while x <= Length(Value) do
begin
for n := 0 to 3 do
begin
if x > Length(Value) then
d[n] := 64
else
begin
y := Pos(Value[x], Table);
if y < 1 then
y := 1;
d[n] := y - 1;
end;
Inc(x);
end;
Result[l] := AnsiChar((D[0] and $3F) shl 2 + (D[1] and $30) shr 4);
Inc(l);
if d[2] <> 64 then
begin
Result[l] := AnsiChar((D[1] and $0F) shl 4 + (D[2] and $3C) shr 2);
Inc(l);
if d[3] <> 64 then
begin
Result[l] := AnsiChar((D[2] and $03) shl 6 + (D[3] and $3F));
Inc(l);
end;
end;
end;
Dec(l);
SetLength(Result, l);
end;
{==============================================================================}
function Decode4to3Ex(const Value, Table: AnsiString): AnsiString;
var
x, y, lv: Integer;
d: integer;
dl: integer;
c: byte;
p: integer;
begin
lv := Length(Value);
SetLength(Result, lv);
x := 1;
dl := 4;
d := 0;
p := 1;
while x <= lv do
begin
y := Ord(Value[x]);
if y in [33..127] then
c := Ord(Table[y - 32])
else
c := 64;
Inc(x);
if c > 63 then
continue;
d := (d shl 6) or c;
dec(dl);
if dl <> 0 then
continue;
Result[p] := AnsiChar((d shr 16) and $ff);
inc(p);
Result[p] := AnsiChar((d shr 8) and $ff);
inc(p);
Result[p] := AnsiChar(d and $ff);
inc(p);
d := 0;
dl := 4;
end;
case dl of
1:
begin
d := d shr 2;
Result[p] := AnsiChar((d shr 8) and $ff);
inc(p);
Result[p] := AnsiChar(d and $ff);
inc(p);
end;
2:
begin
d := d shr 4;
Result[p] := AnsiChar(d and $ff);
inc(p);
end;
end;
SetLength(Result, p - 1);
end;
{==============================================================================}
function Encode3to4(const Value, Table: AnsiString): AnsiString;
var
c: Byte;
n, l: Integer;
Count: Integer;
DOut: array[0..3] of Byte;
begin
setlength(Result, ((Length(Value) + 2) div 3) * 4);
l := 1;
Count := 1;
while Count <= Length(Value) do
begin
c := Ord(Value[Count]);
Inc(Count);
DOut[0] := (c and $FC) shr 2;
DOut[1] := (c and $03) shl 4;
if Count <= Length(Value) then
begin
c := Ord(Value[Count]);
Inc(Count);
DOut[1] := DOut[1] + (c and $F0) shr 4;
DOut[2] := (c and $0F) shl 2;
if Count <= Length(Value) then
begin
c := Ord(Value[Count]);
Inc(Count);
DOut[2] := DOut[2] + (c and $C0) shr 6;
DOut[3] := (c and $3F);
end
else
begin
DOut[3] := $40;
end;
end
else
begin
DOut[2] := $40;
DOut[3] := $40;
end;
for n := 0 to 3 do
begin
if (DOut[n] + 1) <= Length(Table) then
begin
Result[l] := Table[DOut[n] + 1];
Inc(l);
end;
end;
end;
SetLength(Result, l - 1);
end;
{==============================================================================}
function DecodeBase64(const Value: AnsiString): AnsiString;
begin
Result := Decode4to3Ex(Value, ReTableBase64);
end;
{==============================================================================}
function EncodeBase64(const Value: AnsiString): AnsiString;
begin
Result := Encode3to4(Value, TableBase64);
end;
{==============================================================================}
function DecodeBase64mod(const Value: AnsiString): AnsiString;
begin
Result := Decode4to3(Value, TableBase64mod);
end;
{==============================================================================}
function EncodeBase64mod(const Value: AnsiString): AnsiString;
begin
Result := Encode3to4(Value, TableBase64mod);
end;
{==============================================================================}
function DecodeUU(const Value: AnsiString): AnsiString;
var
s: AnsiString;
uut: AnsiString;
x: Integer;
begin
Result := '';
uut := TableUU;
s := trim(UpperCase(Value));
if s = '' then Exit;
if Pos('BEGIN', s) = 1 then
Exit;
if Pos('END', s) = 1 then
Exit;
if Pos('TABLE', s) = 1 then
Exit; //ignore Table yet (set custom UUT)
//begin decoding
x := Pos(Value[1], uut) - 1;
case (x mod 3) of
0: x :=(x div 3)* 4;
1: x :=((x div 3) * 4) + 2;
2: x :=((x div 3) * 4) + 3;
end;
//x - lenght UU line
s := Copy(Value, 2, x);
if s = '' then
Exit;
s := s + StringOfChar(' ', x - length(s));
Result := Decode4to3(s, uut);
end;
{==============================================================================}
function EncodeUU(const Value: AnsiString): AnsiString;
begin
Result := '';
if Length(Value) < Length(TableUU) then
Result := TableUU[Length(Value) + 1] + Encode3to4(Value, TableUU);
end;
{==============================================================================}
function DecodeXX(const Value: AnsiString): AnsiString;
var
s: AnsiString;
x: Integer;
begin
Result := '';
s := trim(UpperCase(Value));
if s = '' then
Exit;
if Pos('BEGIN', s) = 1 then
Exit;
if Pos('END', s) = 1 then
Exit;
//begin decoding
x := Pos(Value[1], TableXX) - 1;
case (x mod 3) of
0: x :=(x div 3)* 4;
1: x :=((x div 3) * 4) + 2;
2: x :=((x div 3) * 4) + 3;
end;
//x - lenght XX line
s := Copy(Value, 2, x);
if s = '' then
Exit;
s := s + StringOfChar(' ', x - length(s));
Result := Decode4to3(s, TableXX);
end;
{==============================================================================}
function DecodeYEnc(const Value: AnsiString): AnsiString;
var
C : Byte;
i: integer;
begin
Result := '';
i := 1;
while i <= Length(Value) do
begin
c := Ord(Value[i]);
Inc(i);
if c = Ord('=') then
begin
c := Ord(Value[i]);
Inc(i);
Dec(c, 64);
end;
Dec(C, 42);
Result := Result + AnsiChar(C);
end;
end;
{==============================================================================}
function UpdateCrc32(Value: Byte; Crc32: Integer): Integer;
begin
Result := (Crc32 shr 8)
xor crc32tab[Byte(Value xor (Crc32 and Integer($000000FF)))];
end;
{==============================================================================}
function Crc32(const Value: AnsiString): Integer;
var
n: Integer;
begin
Result := Integer($FFFFFFFF);
for n := 1 to Length(Value) do
Result := UpdateCrc32(Ord(Value[n]), Result);
Result := not Result;
end;
{==============================================================================}
function UpdateCrc16(Value: Byte; Crc16: Word): Word;
begin
Result := ((Crc16 shr 8) and $00FF) xor
crc16tab[Byte(Crc16 xor (Word(Value)) and $00FF)];
end;
{==============================================================================}
function Crc16(const Value: AnsiString): Word;
var
n: Integer;
begin
Result := $FFFF;
for n := 1 to Length(Value) do
Result := UpdateCrc16(Ord(Value[n]), Result);
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($10325476);
end;
procedure MD5Transform(var Buf: array of LongInt; const Data: array of LongInt);
var
A, B, C, D: LongInt;
procedure Round1(var W: LongInt; X, Y, Z, Data: LongInt; S: Byte);
begin
Inc(W, (Z xor (X and (Y xor Z))) + Data);
W := (W shl S) or (W shr (32 - S));
Inc(W, X);
end;
procedure Round2(var W: LongInt; X, Y, Z, Data: LongInt; S: Byte);
begin
Inc(W, (Y xor (Z and (X xor Y))) + Data);
W := (W shl S) or (W shr (32 - S));
Inc(W, X);
end;
procedure Round3(var W: LongInt; X, Y, Z, Data: LongInt; S: Byte);
begin
Inc(W, (X xor Y xor Z) + Data);
W := (W shl S) or (W shr (32 - S));
Inc(W, X);
end;
procedure Round4(var W: LongInt; X, Y, Z, Data: LongInt; S: Byte);
begin
Inc(W, (Y xor (X or not Z)) + Data);
W := (W shl S) or (W shr (32 - S));
Inc(W, X);
end;
begin
A := Buf[0];
B := Buf[1];
C := Buf[2];
D := Buf[3];
Round1(A, B, C, D, Data[0] + Longint($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;
//fixed by James McAdams
procedure MDUpdate(var MDContext: TMDCtx; const Data: AnsiString; transform: TMDTransform);
var
Index, partLen, InputLen, I: integer;
{$IFDEF CIL}
n: integer;
{$ENDIF}
begin
InputLen := Length(Data);
with MDContext do
begin
Index := (Count[0] shr 3) and $3F;
Inc(Count[0], InputLen shl 3);
if Count[0] < (InputLen shl 3) then
Inc(Count[1]);
Inc(Count[1], InputLen shr 29);
partLen := 64 - Index;
if InputLen >= partLen then
begin
ArrLongToByte(BufLong, BufAnsiChar);
{$IFDEF CIL}
for n := 1 to partLen do
BufAnsiChar[index - 1 + n] := Ord(Data[n]);
{$ELSE}
Move(Data[1], BufAnsiChar[Index], partLen);
{$ENDIF}
ArrByteToLong(BufAnsiChar, BufLong);
Transform(State, Buflong);
I := partLen;
while I + 63 < InputLen do
begin
ArrLongToByte(BufLong, BufAnsiChar);
{$IFDEF CIL}
for n := 1 to 64 do
BufAnsiChar[n - 1] := Ord(Data[i + n]);
{$ELSE}
Move(Data[I+1], BufAnsiChar, 64);
{$ENDIF}
ArrByteToLong(BufAnsiChar, BufLong);
Transform(State, Buflong);
inc(I, 64);
end;
Index := 0;
end
else
I := 0;
ArrLongToByte(BufLong, BufAnsiChar);
{$IFDEF CIL}
for n := 1 to InputLen-I do
BufAnsiChar[Index + n - 1] := Ord(Data[i + n]);
{$ELSE}
Move(Data[I+1], BufAnsiChar[Index], InputLen-I);
{$ENDIF}
ArrByteToLong(BufAnsiChar, BufLong);
end
end;
function MDFinal(var MDContext: TMDCtx; transform: TMDTransform): AnsiString;
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);
// FillChar(BufAnsiChar[P], Cnt, #0);
Transform(State, BufLong);
ArrLongToByte(BufLong, BufAnsiChar);
for n := 0 to 55 do
BufAnsiChar[n] := 0;
ArrByteToLong(BufAnsiChar, BufLong);
// FillChar(BufAnsiChar, 56, #0);
end
else
begin
for n := 0 to Cnt - 8 - 1 do
BufAnsiChar[p + n] := 0;
ArrByteToLong(BufAnsiChar, BufLong);
// FillChar(BufAnsiChar[P], Cnt - 8, #0);
end;
BufLong[14] := Count[0];
BufLong[15] := Count[1];
Transform(State, BufLong);
ArrLongToByte(State, Digest);
// Move(State, Digest, 16);
Result := '';
for i := 0 to 15 do
Result := Result + AnsiChar(digest[i]);
end;
// FillChar(MD5Context, SizeOf(TMD5Ctx), #0)
end;
{==============================================================================}
function MD5(const Value: AnsiString): AnsiString;
var
MDContext: TMDCtx;
begin
MDInit(MDContext);
MDUpdate(MDContext, Value, @MD5Transform);
Result := MDFinal(MDContext, @MD5Transform);
end;
{==============================================================================}
function HMAC_MD5(Text, Key: AnsiString): AnsiString;
var
ipad, opad, s: AnsiString;
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] := AnsiChar(Byte(ipad[n]) xor Byte(Key[n]));
opad[n] := AnsiChar(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;
{==============================================================================}
function MD5LongHash(const Value: AnsiString; Len: integer): AnsiString;
var
cnt, rest: integer;
l: integer;
n: integer;
MDContext: TMDCtx;
begin
l := length(Value);
cnt := Len div l;
rest := Len mod l;
MDInit(MDContext);
for n := 1 to cnt do
MDUpdate(MDContext, Value, @MD5Transform);
if rest > 0 then
MDUpdate(MDContext, Copy(Value, 1, rest), @MD5Transform);
Result := MDFinal(MDContext, @MD5Transform);
end;
{==============================================================================}
// SHA1 is based on sources by Dave Barton (davebarton@bigfoot.com)
procedure SHA1init( var SHA1Context: TSHA1Ctx );
var
n: integer;
begin
SHA1Context.Hi := 0;
SHA1Context.Lo := 0;
SHA1Context.Index := 0;
for n := 0 to High(SHA1Context.Buffer) do
SHA1Context.Buffer[n] := 0;
for n := 0 to High(SHA1Context.HashByte) do
SHA1Context.HashByte[n] := 0;
// FillChar(SHA1Context, SizeOf(TSHA1Ctx), #0);
SHA1Context.Hash[0] := integer($67452301);
SHA1Context.Hash[1] := integer($EFCDAB89);
SHA1Context.Hash[2] := integer($98BADCFE);
SHA1Context.Hash[3] := integer($10325476);
SHA1Context.Hash[4] := integer($C3D2E1F0);
end;
//******************************************************************************
function RB(A: integer): integer;
begin
Result := (A shr 24) or ((A shr 8) and $FF00) or ((A shl 8) and $FF0000) or (A shl 24);
end;
procedure SHA1Compress(var Data: TSHA1Ctx);
var
A, B, C, D, E, T: integer;
W: array[0..79] of integer;
i: integer;
n: integer;
function F1(x, y, z: integer): integer;
begin
Result := z xor (x and (y xor z));
end;
function F2(x, y, z: integer): integer;
begin
Result := x xor y xor z;
end;
function F3(x, y, z: integer): integer;
begin
Result := (x and y) or (z and (x or y));
end;
function LRot32(X: integer; c: integer): integer;
begin
result := (x shl c) or (x shr (32 - c));
end;
begin
ArrByteToLong(Data.Buffer, W);
// Move(Data.Buffer, W, Sizeof(Data.Buffer));
for i := 0 to 15 do
W[i] := RB(W[i]);
for i := 16 to 79 do
W[i] := LRot32(W[i-3] xor W[i-8] xor W[i-14] xor W[i-16], 1);
A := Data.Hash[0];
B := Data.Hash[1];
C := Data.Hash[2];
D := Data.Hash[3];
E := Data.Hash[4];
for i := 0 to 19 do
begin
T := LRot32(A, 5) + F1(B, C, D) + E + W[i] + integer($5A827999);
E := D;
D := C;
C := LRot32(B, 30);
B := A;
A := T;
end;
for i := 20 to 39 do
begin
T := LRot32(A, 5) + F2(B, C, D) + E + W[i] + integer($6ED9EBA1);
E := D;
D := C;
C := LRot32(B, 30);
B := A;
A := T;
end;
for i := 40 to 59 do
begin
T := LRot32(A, 5) + F3(B, C, D) + E + W[i] + integer($8F1BBCDC);
E := D;
D := C;
C := LRot32(B, 30);
B := A;
A := T;
end;
for i := 60 to 79 do
begin
T := LRot32(A, 5) + F2(B, C, D) + E + W[i] + integer($CA62C1D6);
E := D;
D := C;
C := LRot32(B, 30);
B := A;
A := T;
end;
Data.Hash[0] := Data.Hash[0] + A;
Data.Hash[1] := Data.Hash[1] + B;
Data.Hash[2] := Data.Hash[2] + C;
Data.Hash[3] := Data.Hash[3] + D;
Data.Hash[4] := Data.Hash[4] + E;
for n := 0 to high(w) do
w[n] := 0;
// FillChar(W, Sizeof(W), 0);
for n := 0 to high(Data.Buffer) do
Data.Buffer[n] := 0;
// FillChar(Data.Buffer, Sizeof(Data.Buffer), 0);
end;
//******************************************************************************
procedure SHA1Update(var Context: TSHA1Ctx; const Data: AnsiString);
var
Len: integer;
n: integer;
i, k: integer;
begin
Len := Length(data);
for k := 0 to 7 do
begin
i := Context.Lo;
Inc(Context.Lo, Len);
if Context.Lo < i then
Inc(Context.Hi);
end;
for n := 1 to len do
begin
Context.Buffer[Context.Index] := byte(Data[n]);
Inc(Context.Index);
if Context.Index = 64 then
begin
Context.Index := 0;
SHA1Compress(Context);
end;
end;
end;
//******************************************************************************
function SHA1Final(var Context: TSHA1Ctx): AnsiString;
type
Pinteger = ^integer;
var
i: integer;
procedure ItoArr(var Ar: Array of byte; I, value: Integer);
begin
Ar[i + 0] := Value and $000000FF;
Ar[i + 1] := (Value shr 8) and $000000FF;
Ar[i + 2] := (Value shr 16) and $000000FF;
Ar[i + 3] := (Value shr 24) and $000000FF;
end;
begin
Context.Buffer[Context.Index] := $80;
if Context.Index >= 56 then
SHA1Compress(Context);
ItoArr(Context.Buffer, 56, RB(Context.Hi));
ItoArr(Context.Buffer, 60, RB(Context.Lo));
// Pinteger(@Context.Buffer[56])^ := RB(Context.Hi);
// Pinteger(@Context.Buffer[60])^ := RB(Context.Lo);
SHA1Compress(Context);
Context.Hash[0] := RB(Context.Hash[0]);
Context.Hash[1] := RB(Context.Hash[1]);
Context.Hash[2] := RB(Context.Hash[2]);
Context.Hash[3] := RB(Context.Hash[3]);
Context.Hash[4] := RB(Context.Hash[4]);
ArrLongToByte(Context.Hash, Context.HashByte);
Result := '';
for i := 0 to 19 do
Result := Result + AnsiChar(Context.HashByte[i]);
end;
function SHA1(const Value: AnsiString): AnsiString;
var
SHA1Context: TSHA1Ctx;
begin
SHA1Init(SHA1Context);
SHA1Update(SHA1Context, Value);
Result := SHA1Final(SHA1Context);
end;
{==============================================================================}
function HMAC_SHA1(Text, Key: AnsiString): AnsiString;
var
ipad, opad, s: AnsiString;
n: Integer;
SHA1Context: TSHA1Ctx;
begin
if Length(Key) > 64 then
Key := SHA1(Key);
ipad := StringOfChar(#$36, 64);
opad := StringOfChar(#$5C, 64);
for n := 1 to Length(Key) do
begin
ipad[n] := AnsiChar(Byte(ipad[n]) xor Byte(Key[n]));
opad[n] := AnsiChar(Byte(opad[n]) xor Byte(Key[n]));
end;
SHA1Init(SHA1Context);
SHA1Update(SHA1Context, ipad);
SHA1Update(SHA1Context, Text);
s := SHA1Final(SHA1Context);
SHA1Init(SHA1Context);
SHA1Update(SHA1Context, opad);
SHA1Update(SHA1Context, s);
Result := SHA1Final(SHA1Context);
end;
{==============================================================================}
function SHA1LongHash(const Value: AnsiString; Len: integer): AnsiString;
var
cnt, rest: integer;
l: integer;
n: integer;
SHA1Context: TSHA1Ctx;
begin
l := length(Value);
cnt := Len div l;
rest := Len mod l;
SHA1Init(SHA1Context);
for n := 1 to cnt do
SHA1Update(SHA1Context, Value);
if rest > 0 then
SHA1Update(SHA1Context, Copy(Value, 1, rest));
Result := SHA1Final(SHA1Context);
end;
{==============================================================================}
procedure MD4Transform(var Buf: array of LongInt; const Data: array of LongInt);
var
A, B, C, D: LongInt;
function LRot32(a, b: longint): longint;
begin
Result:= (a shl b) or (a shr (32 - b));
end;
begin
A := Buf[0];
B := Buf[1];
C := Buf[2];
D := Buf[3];
A:= LRot32(A + (D xor (B and (C xor D))) + Data[ 0], 3);
D:= LRot32(D + (C xor (A and (B xor C))) + Data[ 1], 7);
C:= LRot32(C + (B xor (D and (A xor B))) + Data[ 2], 11);
B:= LRot32(B + (A xor (C and (D xor A))) + Data[ 3], 19);
A:= LRot32(A + (D xor (B and (C xor D))) + Data[ 4], 3);
D:= LRot32(D + (C xor (A and (B xor C))) + Data[ 5], 7);
C:= LRot32(C + (B xor (D and (A xor B))) + Data[ 6], 11);
B:= LRot32(B + (A xor (C and (D xor A))) + Data[ 7], 19);
A:= LRot32(A + (D xor (B and (C xor D))) + Data[ 8], 3);
D:= LRot32(D + (C xor (A and (B xor C))) + Data[ 9], 7);
C:= LRot32(C + (B xor (D and (A xor B))) + Data[10], 11);
B:= LRot32(B + (A xor (C and (D xor A))) + Data[11], 19);
A:= LRot32(A + (D xor (B and (C xor D))) + Data[12], 3);
D:= LRot32(D + (C xor (A and (B xor C))) + Data[13], 7);
C:= LRot32(C + (B xor (D and (A xor B))) + Data[14], 11);
B:= LRot32(B + (A xor (C and (D xor A))) + Data[15], 19);
A:= LRot32(A + ((B and C) or (B and D) or (C and D)) + Data[ 0] + longint($5a827999), 3);
D:= LRot32(D + ((A and B) or (A and C) or (B and C)) + Data[ 4] + longint($5a827999), 5);
C:= LRot32(C + ((D and A) or (D and B) or (A and B)) + Data[ 8] + longint($5a827999), 9);
B:= LRot32(B + ((C and D) or (C and A) or (D and A)) + Data[12] + longint($5a827999), 13);
A:= LRot32(A + ((B and C) or (B and D) or (C and D)) + Data[ 1] + longint($5a827999), 3);
D:= LRot32(D + ((A and B) or (A and C) or (B and C)) + Data[ 5] + longint($5a827999), 5);
C:= LRot32(C + ((D and A) or (D and B) or (A and B)) + Data[ 9] + longint($5a827999), 9);
B:= LRot32(B + ((C and D) or (C and A) or (D and A)) + Data[13] + longint($5a827999), 13);
A:= LRot32(A + ((B and C) or (B and D) or (C and D)) + Data[ 2] + longint($5a827999), 3);
D:= LRot32(D + ((A and B) or (A and C) or (B and C)) + Data[ 6] + longint($5a827999), 5);
C:= LRot32(C + ((D and A) or (D and B) or (A and B)) + Data[10] + longint($5a827999), 9);
B:= LRot32(B + ((C and D) or (C and A) or (D and A)) + Data[14] + longint($5a827999), 13);
A:= LRot32(A + ((B and C) or (B and D) or (C and D)) + Data[ 3] + longint($5a827999), 3);
D:= LRot32(D + ((A and B) or (A and C) or (B and C)) + Data[ 7] + longint($5a827999), 5);
C:= LRot32(C + ((D and A) or (D and B) or (A and B)) + Data[11] + longint($5a827999), 9);
B:= LRot32(B + ((C and D) or (C and A) or (D and A)) + Data[15] + longint($5a827999), 13);
A:= LRot32(A + (B xor C xor D) + Data[ 0] + longint($6ed9eba1), 3);
D:= LRot32(D + (A xor B xor C) + Data[ 8] + longint($6ed9eba1), 9);
C:= LRot32(C + (D xor A xor B) + Data[ 4] + longint($6ed9eba1), 11);
B:= LRot32(B + (C xor D xor A) + Data[12] + longint($6ed9eba1), 15);
A:= LRot32(A + (B xor C xor D) + Data[ 2] + longint($6ed9eba1), 3);
D:= LRot32(D + (A xor B xor C) + Data[10] + longint($6ed9eba1), 9);
C:= LRot32(C + (D xor A xor B) + Data[ 6] + longint($6ed9eba1), 11);
B:= LRot32(B + (C xor D xor A) + Data[14] + longint($6ed9eba1), 15);
A:= LRot32(A + (B xor C xor D) + Data[ 1] + longint($6ed9eba1), 3);
D:= LRot32(D + (A xor B xor C) + Data[ 9] + longint($6ed9eba1), 9);
C:= LRot32(C + (D xor A xor B) + Data[ 5] + longint($6ed9eba1), 11);
B:= LRot32(B + (C xor D xor A) + Data[13] + longint($6ed9eba1), 15);
A:= LRot32(A + (B xor C xor D) + Data[ 3] + longint($6ed9eba1), 3);
D:= LRot32(D + (A xor B xor C) + Data[11] + longint($6ed9eba1), 9);
C:= LRot32(C + (D xor A xor B) + Data[ 7] + longint($6ed9eba1), 11);
B:= LRot32(B + (C xor D xor A) + Data[15] + longint($6ed9eba1), 15);
Inc(Buf[0], A);
Inc(Buf[1], B);
Inc(Buf[2], C);
Inc(Buf[3], D);
end;
{==============================================================================}
function MD4(const Value: AnsiString): AnsiString;
var
MDContext: TMDCtx;
begin
MDInit(MDContext);
MDUpdate(MDContext, Value, @MD4Transform);
Result := MDFinal(MDContext, @MD4Transform);
end;
{==============================================================================}
end.