mirror of
https://github.com/moparisthebest/Simba
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702 lines
21 KiB
ObjectPascal
702 lines
21 KiB
ObjectPascal
{******************************************************************************}
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{* DCPcrypt v2.0 written by David Barton (crypto@cityinthesky.co.uk) **********}
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{******************************************************************************}
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{* Main component definitions *************************************************}
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{******************************************************************************}
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{* Copyright (c) 1999-2003 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 DCPcrypt2;
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{$MODE Delphi}
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interface
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uses
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Classes, Sysutils, DCPbase64;
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//{$DEFINE DCP1COMPAT} { DCPcrypt v1.31 compatiblity mode - see documentation }
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{******************************************************************************}
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{ A few predefined types to help out }
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type
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{$IFNDEF FPC}
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Pbyte= ^byte;
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Pword= ^word;
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Pdword= ^dword;
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Pint64= ^int64;
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dword= longword;
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Pwordarray= ^Twordarray;
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Twordarray= array[0..19383] of word;
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{$ENDIF}
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Pdwordarray= ^Tdwordarray;
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Tdwordarray= array[0..8191] of dword;
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{******************************************************************************}
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{ The base class from which all hash algorithms are to be derived }
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type
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EDCP_hash= class(Exception);
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TDCP_hash= class(TComponent)
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protected
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fInitialized: boolean; { Whether or not the algorithm has been initialized }
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procedure DeadInt(Value: integer); { Knudge to display vars in the object inspector }
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procedure DeadStr(Value: string); { Knudge to display vars in the object inspector }
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private
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function _GetId: integer;
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function _GetAlgorithm: string;
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function _GetHashSize: integer;
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public
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property Initialized: boolean
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read fInitialized;
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class function GetId: integer; virtual;
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{ Get the algorithm id }
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class function GetAlgorithm: string; virtual;
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{ Get the algorithm name }
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class function GetHashSize: integer; virtual;
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{ Get the size of the digest produced - in bits }
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class function SelfTest: boolean; virtual;
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{ Tests the implementation with several test vectors }
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procedure Init; virtual;
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{ Initialize the hash algorithm }
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procedure Final(var Digest); virtual;
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{ Create the final digest and clear the stored information.
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The size of the Digest var must be at least equal to the hash size }
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procedure Burn; virtual;
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{ Clear any stored information with out creating the final digest }
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procedure Update(const Buffer; Size: longword); virtual;
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{ Update the hash buffer with Size bytes of data from Buffer }
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procedure UpdateStream(Stream: TStream; Size: longword);
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{ Update the hash buffer with Size bytes of data from the stream }
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procedure UpdateStr(const Str: string);
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{ Update the hash buffer with the string }
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destructor Destroy; override;
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published
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property Id: integer
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read _GetId write DeadInt;
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property Algorithm: string
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read _GetAlgorithm write DeadStr;
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property HashSize: integer
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read _GetHashSize write DeadInt;
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end;
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TDCP_hashclass= class of TDCP_hash;
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{******************************************************************************}
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{ The base class from which all encryption components will be derived. }
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{ Stream ciphers will be derived directly from this class where as }
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{ Block ciphers will have a further foundation class TDCP_blockcipher. }
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type
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EDCP_cipher= class(Exception);
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TDCP_cipher= class(TComponent)
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protected
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fInitialized: boolean; { Whether or not the key setup has been done yet }
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procedure DeadInt(Value: integer); { Knudge to display vars in the object inspector }
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procedure DeadStr(Value: string); { Knudge to display vars in the object inspector }
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private
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function _GetId: integer;
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function _GetAlgorithm: string;
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function _GetMaxKeySize: integer;
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public
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property Initialized: boolean
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read fInitialized;
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class function GetId: integer; virtual;
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{ Get the algorithm id }
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class function GetAlgorithm: string; virtual;
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{ Get the algorithm name }
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class function GetMaxKeySize: integer; virtual;
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{ Get the maximum key size (in bits) }
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class function SelfTest: boolean; virtual;
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{ Tests the implementation with several test vectors }
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procedure Init(const Key; Size: longword; InitVector: pointer); virtual;
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{ Do key setup based on the data in Key, size is in bits }
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procedure InitStr(const Key: string; HashType: TDCP_hashclass);
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{ Do key setup based on a hash of the key string }
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procedure Burn; virtual;
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{ Clear all stored key information }
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procedure Reset; virtual;
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{ Reset any stored chaining information }
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procedure Encrypt(const Indata; var Outdata; Size: longword); virtual;
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{ Encrypt size bytes of data and place in Outdata }
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procedure Decrypt(const Indata; var Outdata; Size: longword); virtual;
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{ Decrypt size bytes of data and place in Outdata }
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function EncryptStream(InStream, OutStream: TStream; Size: longword): longword;
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{ Encrypt size bytes of data from InStream and place in OutStream }
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function DecryptStream(InStream, OutStream: TStream; Size: longword): longword;
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{ Decrypt size bytes of data from InStream and place in OutStream }
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function EncryptString(const Str: string): string; virtual;
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{ Encrypt a string and return Base64 encoded }
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function DecryptString(const Str: string): string; virtual;
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{ Decrypt a Base64 encoded string }
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constructor Create(AOwner: TComponent); override;
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destructor Destroy; override;
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published
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property Id: integer
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read _GetId write DeadInt;
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property Algorithm: string
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read _GetAlgorithm write DeadStr;
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property MaxKeySize: integer
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read _GetMaxKeySize write DeadInt;
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end;
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TDCP_cipherclass= class of TDCP_cipher;
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{******************************************************************************}
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{ The base class from which all block ciphers are to be derived, this }
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{ extra class takes care of the different block encryption modes. }
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type
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TDCP_ciphermode= (cmCBC, cmCFB8bit, cmCFBblock, cmOFB, cmCTR); // cmCFB8bit is equal to DCPcrypt v1.xx's CFB mode
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EDCP_blockcipher= class(EDCP_cipher);
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TDCP_blockcipher= class(TDCP_cipher)
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protected
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fCipherMode: TDCP_ciphermode; { The cipher mode the encrypt method uses }
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procedure InitKey(const Key; Size: longword); virtual;
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private
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function _GetBlockSize: integer;
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public
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class function GetBlockSize: integer; virtual;
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{ Get the block size of the cipher (in bits) }
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procedure SetIV(const Value); virtual;
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{ Sets the IV to Value and performs a reset }
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procedure GetIV(var Value); virtual;
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{ Returns the current chaining information, not the actual IV }
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procedure Encrypt(const Indata; var Outdata; Size: longword); override;
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{ Encrypt size bytes of data and place in Outdata using CipherMode }
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procedure Decrypt(const Indata; var Outdata; Size: longword); override;
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{ Decrypt size bytes of data and place in Outdata using CipherMode }
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function EncryptString(const Str: string): string; override;
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{ Encrypt a string and return Base64 encoded }
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function DecryptString(const Str: string): string; override;
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{ Decrypt a Base64 encoded string }
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procedure EncryptECB(const Indata; var Outdata); virtual;
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{ Encrypt a block of data using the ECB method of encryption }
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procedure DecryptECB(const Indata; var Outdata); virtual;
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{ Decrypt a block of data using the ECB method of decryption }
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procedure EncryptCBC(const Indata; var Outdata; Size: longword); virtual;
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{ Encrypt size bytes of data using the CBC method of encryption }
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procedure DecryptCBC(const Indata; var Outdata; Size: longword); virtual;
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{ Decrypt size bytes of data using the CBC method of decryption }
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procedure EncryptCFB8bit(const Indata; var Outdata; Size: longword); virtual;
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{ Encrypt size bytes of data using the CFB (8 bit) method of encryption }
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procedure DecryptCFB8bit(const Indata; var Outdata; Size: longword); virtual;
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{ Decrypt size bytes of data using the CFB (8 bit) method of decryption }
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procedure EncryptCFBblock(const Indata; var Outdata; Size: longword); virtual;
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{ Encrypt size bytes of data using the CFB (block) method of encryption }
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procedure DecryptCFBblock(const Indata; var Outdata; Size: longword); virtual;
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{ Decrypt size bytes of data using the CFB (block) method of decryption }
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procedure EncryptOFB(const Indata; var Outdata; Size: longword); virtual;
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{ Encrypt size bytes of data using the OFB method of encryption }
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procedure DecryptOFB(const Indata; var Outdata; Size: longword); virtual;
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{ Decrypt size bytes of data using the OFB method of decryption }
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procedure EncryptCTR(const Indata; var Outdata; Size: longword); virtual;
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{ Encrypt size bytes of data using the CTR method of encryption }
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procedure DecryptCTR(const Indata; var Outdata; Size: longword); virtual;
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{ Decrypt size bytes of data using the CTR method of decryption }
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constructor Create(AOwner: TComponent); override;
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published
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property BlockSize: integer
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read _GetBlockSize write DeadInt;
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property CipherMode: TDCP_ciphermode
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read fCipherMode write fCipherMode default cmCBC;
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end;
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TDCP_blockcipherclass= class of TDCP_blockcipher;
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{******************************************************************************}
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{ Helper functions }
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procedure XorBlock(var InData1, InData2; Size: longword);
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// Supposed to be an optimized version of XorBlock() using 32-bit xor
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procedure XorBlockEx(var InData1, InData2; Size: longword);
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// removes the compiler hint due to first param being 'var' instead of 'out'
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procedure dcpFillChar(out x; count: SizeInt; Value: Byte); overload;
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procedure dcpFillChar(out x; count: SizeInt; Value: Char); overload;
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procedure ZeroMemory(Destination: Pointer; Length: PtrUInt);
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implementation
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{$Q-}{$R-}
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{** TDCP_hash *****************************************************************}
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procedure TDCP_hash.DeadInt(Value: integer);
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begin
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end;
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procedure TDCP_hash.DeadStr(Value: string);
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begin
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end;
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function TDCP_hash._GetId: integer;
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begin
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Result:= GetId;
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end;
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function TDCP_hash._GetAlgorithm: string;
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begin
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Result:= GetAlgorithm;
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end;
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function TDCP_hash._GetHashSize: integer;
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begin
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Result:= GetHashSize;
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end;
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class function TDCP_hash.GetId: integer;
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begin
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Result:= -1;
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end;
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class function TDCP_hash.GetAlgorithm: string;
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begin
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Result:= '';
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end;
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class function TDCP_hash.GetHashSize: integer;
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begin
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Result:= -1;
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end;
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class function TDCP_hash.SelfTest: boolean;
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begin
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Result:= false;
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end;
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procedure TDCP_hash.Init;
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begin
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end;
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procedure TDCP_hash.Final(var Digest);
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begin
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end;
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procedure TDCP_hash.Burn;
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begin
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end;
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procedure TDCP_hash.Update(const Buffer; Size: longword);
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begin
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end;
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procedure TDCP_hash.UpdateStream(Stream: TStream; Size: longword);
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var
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Buffer: array[0..8191] of byte;
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i, read: integer;
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begin
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dcpFillChar(Buffer, SizeOf(Buffer), 0);
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for i:= 1 to (Size div Sizeof(Buffer)) do
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begin
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read:= Stream.Read(Buffer,Sizeof(Buffer));
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Update(Buffer,read);
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end;
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if (Size mod Sizeof(Buffer))<> 0 then
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begin
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read:= Stream.Read(Buffer,Size mod Sizeof(Buffer));
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Update(Buffer,read);
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end;
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end;
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procedure TDCP_hash.UpdateStr(const Str: string);
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begin
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Update(Str[1],Length(Str));
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end;
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destructor TDCP_hash.Destroy;
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begin
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if fInitialized then
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Burn;
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inherited Destroy;
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end;
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{** TDCP_cipher ***************************************************************}
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procedure TDCP_cipher.DeadInt(Value: integer);
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begin
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end;
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procedure TDCP_cipher.DeadStr(Value: string);
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begin
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end;
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function TDCP_cipher._GetId: integer;
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begin
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Result:= GetId;
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end;
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function TDCP_cipher._GetAlgorithm: string;
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begin
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Result:= GetAlgorithm;
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end;
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function TDCP_cipher._GetMaxKeySize: integer;
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begin
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Result:= GetMaxKeySize;
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end;
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class function TDCP_cipher.GetId: integer;
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begin
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Result:= -1;
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end;
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class function TDCP_cipher.GetAlgorithm: string;
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begin
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Result:= '';
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end;
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class function TDCP_cipher.GetMaxKeySize: integer;
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begin
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Result:= -1;
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end;
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class function TDCP_cipher.SelfTest: boolean;
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begin
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Result:= false;
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end;
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procedure TDCP_cipher.Init(const Key; Size: longword; InitVector: pointer);
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begin
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if fInitialized then
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Burn;
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if (Size <= 0) or ((Size and 3)<> 0) or (Size> longword(GetMaxKeySize)) then
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raise EDCP_cipher.Create('Invalid key size')
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else
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fInitialized:= true;
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end;
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procedure TDCP_cipher.InitStr(const Key: string; HashType: TDCP_hashclass);
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var
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Hash: TDCP_hash;
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Digest: pointer;
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begin
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if fInitialized then
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Burn;
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try
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GetMem(Digest,HashType.GetHashSize div 8);
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Hash:= HashType.Create(Self);
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Hash.Init;
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Hash.UpdateStr(Key);
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Hash.Final(Digest^);
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Hash.Free;
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if MaxKeySize< HashType.GetHashSize then
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begin
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Init(Digest^,MaxKeySize,nil);
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end
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else
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begin
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Init(Digest^,HashType.GetHashSize,nil);
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end;
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FillChar(Digest^,HashType.GetHashSize div 8,$FF);
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FreeMem(Digest);
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except
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raise EDCP_cipher.Create('Unable to allocate sufficient memory for hash digest');
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end;
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end;
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procedure TDCP_cipher.Burn;
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begin
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fInitialized:= false;
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end;
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procedure TDCP_cipher.Reset;
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begin
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end;
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procedure TDCP_cipher.Encrypt(const Indata; var Outdata; Size: longword);
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begin
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end;
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procedure TDCP_cipher.Decrypt(const Indata; var Outdata; Size: longword);
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begin
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end;
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function TDCP_cipher.EncryptStream(InStream, OutStream: TStream; Size: longword): longword;
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var
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Buffer: array[0..8191] of byte;
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i, Read: longword;
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begin
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dcpFillChar(Buffer, SizeOf(Buffer), 0);
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Result:= 0;
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for i:= 1 to (Size div Sizeof(Buffer)) do
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begin
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Read:= InStream.Read(Buffer,Sizeof(Buffer));
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Inc(Result,Read);
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Encrypt(Buffer,Buffer,Read);
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OutStream.Write(Buffer,Read);
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end;
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if (Size mod Sizeof(Buffer))<> 0 then
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begin
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Read:= InStream.Read(Buffer,Size mod Sizeof(Buffer));
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Inc(Result,Read);
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Encrypt(Buffer,Buffer,Read);
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OutStream.Write(Buffer,Read);
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end;
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end;
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function TDCP_cipher.DecryptStream(InStream, OutStream: TStream; Size: longword): longword;
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var
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Buffer: array[0..8191] of byte;
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i, Read: longword;
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begin
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dcpFillChar(Buffer, SizeOf(Buffer), 0);
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Result:= 0;
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for i:= 1 to (Size div Sizeof(Buffer)) do
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begin
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Read:= InStream.Read(Buffer,Sizeof(Buffer));
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Inc(Result,Read);
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Decrypt(Buffer,Buffer,Read);
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OutStream.Write(Buffer,Read);
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end;
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if (Size mod Sizeof(Buffer))<> 0 then
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begin
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Read:= InStream.Read(Buffer,Size mod Sizeof(Buffer));
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Inc(Result,Read);
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Decrypt(Buffer,Buffer,Read);
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OutStream.Write(Buffer,Read);
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end;
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end;
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function TDCP_cipher.EncryptString(const Str: string): string;
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begin
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SetLength(Result,Length(Str));
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Encrypt(Str[1],Result[1],Length(Str));
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Result:= Base64EncodeStr(Result);
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end;
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function TDCP_cipher.DecryptString(const Str: string): string;
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begin
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Result:= Base64DecodeStr(Str);
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Decrypt(Result[1],Result[1],Length(Result));
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end;
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constructor TDCP_cipher.Create(AOwner: TComponent);
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begin
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inherited Create(AOwner);
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Burn;
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end;
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destructor TDCP_cipher.Destroy;
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begin
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if fInitialized then
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Burn;
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inherited Destroy;
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end;
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{** TDCP_blockcipher **********************************************************}
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procedure TDCP_blockcipher.InitKey(const Key; Size: longword);
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begin
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end;
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function TDCP_blockcipher._GetBlockSize: integer;
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begin
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Result:= GetBlockSize;
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end;
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class function TDCP_blockcipher.GetBlockSize: integer;
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begin
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Result:= -1;
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end;
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procedure TDCP_blockcipher.SetIV(const Value);
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begin
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end;
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procedure TDCP_blockcipher.GetIV(var Value);
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begin
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end;
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procedure TDCP_blockcipher.Encrypt(const Indata; var Outdata; Size: longword);
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begin
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case fCipherMode of
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cmCBC: EncryptCBC(Indata,Outdata,Size);
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cmCFB8bit: EncryptCFB8bit(Indata,Outdata,Size);
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cmCFBblock: EncryptCFBblock(Indata,Outdata,Size);
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cmOFB: EncryptOFB(Indata,Outdata,Size);
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cmCTR: EncryptCTR(Indata,Outdata,Size);
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end;
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end;
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function TDCP_blockcipher.EncryptString(const Str: string): string;
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begin
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SetLength(Result,Length(Str));
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EncryptCFB8bit(Str[1],Result[1],Length(Str));
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Result:= Base64EncodeStr(Result);
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end;
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function TDCP_blockcipher.DecryptString(const Str: string): string;
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begin
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Result:= Base64DecodeStr(Str);
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DecryptCFB8bit(Result[1],Result[1],Length(Result));
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end;
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procedure TDCP_blockcipher.Decrypt(const Indata; var Outdata; Size: longword);
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begin
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case fCipherMode of
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cmCBC: DecryptCBC(Indata,Outdata,Size);
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cmCFB8bit: DecryptCFB8bit(Indata,Outdata,Size);
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cmCFBblock: DecryptCFBblock(Indata,Outdata,Size);
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cmOFB: DecryptOFB(Indata,Outdata,Size);
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cmCTR: DecryptCTR(Indata,Outdata,Size);
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end;
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end;
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procedure TDCP_blockcipher.EncryptECB(const Indata; var Outdata);
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begin
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end;
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procedure TDCP_blockcipher.DecryptECB(const Indata; var Outdata);
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begin
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end;
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procedure TDCP_blockcipher.EncryptCBC(const Indata; var Outdata; Size: longword);
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begin
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end;
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procedure TDCP_blockcipher.DecryptCBC(const Indata; var Outdata; Size: longword);
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begin
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end;
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procedure TDCP_blockcipher.EncryptCFB8bit(const Indata; var Outdata; Size: longword);
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begin
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end;
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procedure TDCP_blockcipher.DecryptCFB8bit(const Indata; var Outdata; Size: longword);
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begin
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end;
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procedure TDCP_blockcipher.EncryptCFBblock(const Indata; var Outdata; Size: longword);
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begin
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end;
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procedure TDCP_blockcipher.DecryptCFBblock(const Indata; var Outdata; Size: longword);
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begin
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end;
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procedure TDCP_blockcipher.EncryptOFB(const Indata; var Outdata; Size: longword);
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begin
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end;
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procedure TDCP_blockcipher.DecryptOFB(const Indata; var Outdata; Size: longword);
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begin
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end;
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procedure TDCP_blockcipher.EncryptCTR(const Indata; var Outdata; Size: longword);
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begin
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end;
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procedure TDCP_blockcipher.DecryptCTR(const Indata; var Outdata; Size: longword);
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begin
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end;
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constructor TDCP_blockcipher.Create(AOwner: TComponent);
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begin
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inherited Create(AOwner);
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fCipherMode:= cmCBC;
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end;
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{** Helpher functions *********************************************************}
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procedure XorBlock(var InData1, InData2; Size: longword);
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var
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b1: PByteArray;
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b2: PByteArray;
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i: longword;
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begin
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b1 := @InData1;
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b2 := @InData2;
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for i := 0 to size-1 do
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b1[i] := b1[i] xor b2[i];
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end;
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procedure dcpFillChar(out x; count: SizeInt; Value: Byte);
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begin
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{$HINTS OFF}
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FillChar(x, count, value);
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{$HINTS ON}
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end;
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procedure ZeroMemory(Destination: Pointer; Length: PtrUInt);
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begin
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FillChar(Destination^, Length, 0);
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end;
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procedure dcpFillChar(out x; count: SizeInt; Value: Char);
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begin
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{$HINTS OFF}
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FillChar(x, count, Value);
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{$HINTS ON}
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end;
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// Supposed to be an optimized version of XorBlock() using 32-bit xor
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procedure XorBlockEx(var InData1, InData2; Size: longword);
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var
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l1: PIntegerArray;
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l2: PIntegerArray;
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b1: PByteArray;
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b2: PByteArray;
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i: integer;
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c: integer;
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begin
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l1 := @inData1;
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l2 := @inData2;
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for i := 0 to size div sizeof(LongWord)-1 do
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l1[i] := l1[i] xor l2[i];
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// the rest of the buffer (3 bytes)
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c := size mod sizeof(longWord);
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if c > 0 then begin
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b1 := @InData1;
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b2 := @InData2;
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for i := (size-c) to size-1 do
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b1[i] := b1[i] xor b2[i];
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end;
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end;
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end.
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