mirror of
https://github.com/moparisthebest/Simba
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238 lines
8.6 KiB
ObjectPascal
238 lines
8.6 KiB
ObjectPascal
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{******************************************************************************}
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{* DCPcrypt v2.0 written by David Barton (crypto@cityinthesky.co.uk) **********}
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{******************************************************************************}
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{* A binary compatible implementation of MD4 **********************************}
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{******************************************************************************}
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{* Copyright (c) 1999-2002 David Barton *}
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{* Permission is hereby granted, free of charge, to any person obtaining a *}
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{* copy of this software and associated documentation files (the "Software"), *}
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{* to deal in the Software without restriction, including without limitation *}
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{* the rights to use, copy, modify, merge, publish, distribute, sublicense, *}
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{* and/or sell copies of the Software, and to permit persons to whom the *}
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{* Software is furnished to do so, subject to the following conditions: *}
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{* *}
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{* The above copyright notice and this permission notice shall be included in *}
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{* all copies or substantial portions of the Software. *}
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{* *}
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{* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR *}
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{* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, *}
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{* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL *}
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{* THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER *}
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{* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING *}
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{* FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER *}
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{* DEALINGS IN THE SOFTWARE. *}
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{******************************************************************************}
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unit DCPmd4;
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{$MODE Delphi}
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interface
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uses
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Classes, Sysutils, DCPcrypt2, DCPconst;
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type
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TDCP_md4= class(TDCP_hash)
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protected
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LenHi, LenLo: longword;
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Index: DWord;
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CurrentHash: array[0..3] of DWord;
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HashBuffer: array[0..63] of byte;
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procedure Compress;
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public
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class function GetId: integer; override;
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class function GetAlgorithm: string; override;
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class function GetHashSize: integer; override;
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class function SelfTest: boolean; override;
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procedure Init; override;
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procedure Burn; override;
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procedure Update(const Buffer; Size: longword); override;
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procedure Final(var Digest); override;
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end;
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{******************************************************************************}
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{******************************************************************************}
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implementation
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{$R-}{$Q-}
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function LRot32(a, b: longword): longword;
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begin
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Result:= (a shl b) or (a shr (32-b));
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end;
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procedure TDCP_md4.Compress;
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var
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Data: array[0..15] of dword;
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A, B, C, D: dword;
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begin
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dcpFillChar(Data, SizeOf(Data), 0);
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Move(HashBuffer,Data,Sizeof(Data));
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A:= CurrentHash[0];
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B:= CurrentHash[1];
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C:= CurrentHash[2];
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D:= CurrentHash[3];
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A:= LRot32(A + (D xor (B and (C xor D))) + Data[ 0],3);
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D:= LRot32(D + (C xor (A and (B xor C))) + Data[ 1],7);
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C:= LRot32(C + (B xor (D and (A xor B))) + Data[ 2],11);
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B:= LRot32(B + (A xor (C and (D xor A))) + Data[ 3],19);
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A:= LRot32(A + (D xor (B and (C xor D))) + Data[ 4],3);
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D:= LRot32(D + (C xor (A and (B xor C))) + Data[ 5],7);
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C:= LRot32(C + (B xor (D and (A xor B))) + Data[ 6],11);
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B:= LRot32(B + (A xor (C and (D xor A))) + Data[ 7],19);
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A:= LRot32(A + (D xor (B and (C xor D))) + Data[ 8],3);
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D:= LRot32(D + (C xor (A and (B xor C))) + Data[ 9],7);
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C:= LRot32(C + (B xor (D and (A xor B))) + Data[10],11);
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B:= LRot32(B + (A xor (C and (D xor A))) + Data[11],19);
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A:= LRot32(A + (D xor (B and (C xor D))) + Data[12],3);
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D:= LRot32(D + (C xor (A and (B xor C))) + Data[13],7);
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C:= LRot32(C + (B xor (D and (A xor B))) + Data[14],11);
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B:= LRot32(B + (A xor (C and (D xor A))) + Data[15],19);
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A:= LRot32(A + ((B and C) or (B and D) or (C and D)) + Data[ 0] + $5a827999,3);
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D:= LRot32(D + ((A and B) or (A and C) or (B and C)) + Data[ 4] + $5a827999,5);
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C:= LRot32(C + ((D and A) or (D and B) or (A and B)) + Data[ 8] + $5a827999,9);
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B:= LRot32(B + ((C and D) or (C and A) or (D and A)) + Data[12] + $5a827999,13);
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A:= LRot32(A + ((B and C) or (B and D) or (C and D)) + Data[ 1] + $5a827999,3);
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D:= LRot32(D + ((A and B) or (A and C) or (B and C)) + Data[ 5] + $5a827999,5);
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C:= LRot32(C + ((D and A) or (D and B) or (A and B)) + Data[ 9] + $5a827999,9);
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B:= LRot32(B + ((C and D) or (C and A) or (D and A)) + Data[13] + $5a827999,13);
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A:= LRot32(A + ((B and C) or (B and D) or (C and D)) + Data[ 2] + $5a827999,3);
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D:= LRot32(D + ((A and B) or (A and C) or (B and C)) + Data[ 6] + $5a827999,5);
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C:= LRot32(C + ((D and A) or (D and B) or (A and B)) + Data[10] + $5a827999,9);
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B:= LRot32(B + ((C and D) or (C and A) or (D and A)) + Data[14] + $5a827999,13);
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A:= LRot32(A + ((B and C) or (B and D) or (C and D)) + Data[ 3] + $5a827999,3);
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D:= LRot32(D + ((A and B) or (A and C) or (B and C)) + Data[ 7] + $5a827999,5);
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C:= LRot32(C + ((D and A) or (D and B) or (A and B)) + Data[11] + $5a827999,9);
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B:= LRot32(B + ((C and D) or (C and A) or (D and A)) + Data[15] + $5a827999,13);
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A:= LRot32(A + (B xor C xor D) + Data[ 0] + $6ed9eba1,3);
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D:= LRot32(D + (A xor B xor C) + Data[ 8] + $6ed9eba1,9);
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C:= LRot32(C + (D xor A xor B) + Data[ 4] + $6ed9eba1,11);
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B:= LRot32(B + (C xor D xor A) + Data[12] + $6ed9eba1,15);
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A:= LRot32(A + (B xor C xor D) + Data[ 2] + $6ed9eba1,3);
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D:= LRot32(D + (A xor B xor C) + Data[10] + $6ed9eba1,9);
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C:= LRot32(C + (D xor A xor B) + Data[ 6] + $6ed9eba1,11);
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B:= LRot32(B + (C xor D xor A) + Data[14] + $6ed9eba1,15);
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A:= LRot32(A + (B xor C xor D) + Data[ 1] + $6ed9eba1,3);
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D:= LRot32(D + (A xor B xor C) + Data[ 9] + $6ed9eba1,9);
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C:= LRot32(C + (D xor A xor B) + Data[ 5] + $6ed9eba1,11);
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B:= LRot32(B + (C xor D xor A) + Data[13] + $6ed9eba1,15);
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A:= LRot32(A + (B xor C xor D) + Data[ 3] + $6ed9eba1,3);
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D:= LRot32(D + (A xor B xor C) + Data[11] + $6ed9eba1,9);
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C:= LRot32(C + (D xor A xor B) + Data[ 7] + $6ed9eba1,11);
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B:= LRot32(B + (C xor D xor A) + Data[15] + $6ed9eba1,15);
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Inc(CurrentHash[0],A);
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Inc(CurrentHash[1],B);
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Inc(CurrentHash[2],C);
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Inc(CurrentHash[3],D);
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Index:= 0;
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FillChar(HashBuffer,Sizeof(HashBuffer),0);
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end;
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class function TDCP_md4.GetHashSize: integer;
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begin
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Result:= 128;
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end;
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class function TDCP_md4.GetId: integer;
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begin
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Result:= DCP_md4;
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end;
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class function TDCP_md4.GetAlgorithm: string;
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begin
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Result:= 'MD4';
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end;
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class function TDCP_md4.SelfTest: boolean;
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const
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Test1Out: array[0..15] of byte=
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($a4,$48,$01,$7a,$af,$21,$d8,$52,$5f,$c1,$0a,$e8,$7a,$a6,$72,$9d);
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Test2Out: array[0..15] of byte=
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($d7,$9e,$1c,$30,$8a,$a5,$bb,$cd,$ee,$a8,$ed,$63,$df,$41,$2d,$a9);
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var
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TestHash: TDCP_md4;
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TestOut: array[0..19] of byte;
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begin
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dcpFillChar(TestOut, SizeOf(TestOut), 0);
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TestHash:= TDCP_md4.Create(nil);
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TestHash.Init;
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TestHash.UpdateStr('abc');
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TestHash.Final(TestOut);
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Result:= CompareMem(@TestOut,@Test1Out,Sizeof(Test1Out));
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TestHash.Init;
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TestHash.UpdateStr('abcdefghijklmnopqrstuvwxyz');
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TestHash.Final(TestOut);
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Result:= CompareMem(@TestOut,@Test2Out,Sizeof(Test2Out)) and Result;
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TestHash.Free;
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end;
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procedure TDCP_md4.Init;
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begin
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Burn;
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CurrentHash[0]:= $67452301;
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CurrentHash[1]:= $efcdab89;
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CurrentHash[2]:= $98badcfe;
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CurrentHash[3]:= $10325476;
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fInitialized:= true;
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end;
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procedure TDCP_md4.Burn;
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begin
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LenHi:= 0; LenLo:= 0;
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Index:= 0;
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FillChar(HashBuffer,Sizeof(HashBuffer),0);
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FillChar(CurrentHash,Sizeof(CurrentHash),0);
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fInitialized:= false;
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end;
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procedure TDCP_md4.Update(const Buffer; Size: longword);
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var
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PBuf: ^byte;
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begin
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if not fInitialized then
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raise EDCP_hash.Create('Hash not initialized');
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Inc(LenHi,Size shr 29);
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Inc(LenLo,Size*8);
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if LenLo< (Size*8) then
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Inc(LenHi);
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PBuf:= @Buffer;
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while Size> 0 do
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begin
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if (Sizeof(HashBuffer)-Index)<= DWord(Size) then
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begin
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Move(PBuf^,HashBuffer[Index],Sizeof(HashBuffer)-Index);
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Dec(Size,Sizeof(HashBuffer)-Index);
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Inc(PBuf,Sizeof(HashBuffer)-Index);
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Compress;
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end
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else
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begin
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Move(PBuf^,HashBuffer[Index],Size);
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Inc(Index,Size);
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Size:= 0;
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end;
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end;
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end;
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procedure TDCP_md4.Final(var Digest);
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begin
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if not fInitialized then
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raise EDCP_hash.Create('Hash not initialized');
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HashBuffer[Index]:= $80;
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if Index>= 56 then
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Compress;
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PDWord(@HashBuffer[56])^:= LenLo;
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PDWord(@HashBuffer[60])^:= LenHi;
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Compress;
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Move(CurrentHash,Digest,Sizeof(CurrentHash));
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Burn;
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end;
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end.
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