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https://github.com/DarkflameUniverse/DarkflameServer.git
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207 lines
6.3 KiB
C++
207 lines
6.3 KiB
C++
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/// \file
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///
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/// This file is part of RakNet Copyright 2003 Kevin Jenkins.
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///
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/// Usage of RakNet is subject to the appropriate license agreement.
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/// Creative Commons Licensees are subject to the
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/// license found at
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/// http://creativecommons.org/licenses/by-nc/2.5/
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/// Single application licensees are subject to the license found at
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/// http://www.jenkinssoftware.com/SingleApplicationLicense.html
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/// Custom license users are subject to the terms therein.
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/// GPL license users are subject to the GNU General Public
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/// License as published by the Free
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/// Software Foundation; either version 2 of the License, or (at your
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/// option) any later version.
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#include "DataBlockEncryptor.h"
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#include "CheckSum.h"
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#include "GetTime.h"
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#include "Rand.h"
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#include <assert.h>
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#include <string.h>
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#include "Rijndael.h"
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#include "Types.h"
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DataBlockEncryptor::DataBlockEncryptor()
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{
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keySet = false;
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}
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DataBlockEncryptor::~DataBlockEncryptor()
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{}
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bool DataBlockEncryptor::IsKeySet( void ) const
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{
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return keySet;
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}
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void DataBlockEncryptor::SetKey( const unsigned char key[ 16 ] )
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{
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keySet = true;
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//secretKeyAES128.set_key( key );
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makeKey(&keyEncrypt, DIR_ENCRYPT, 16, (char*)key);
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makeKey(&keyDecrypt, DIR_DECRYPT, 16, (char*)key);
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cipherInit(&cipherInst, MODE_ECB, 0); // ECB is not secure except that I chain manually farther down.
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}
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void DataBlockEncryptor::UnsetKey( void )
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{
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keySet = false;
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}
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void DataBlockEncryptor::Encrypt( unsigned char *input, unsigned int inputLength, unsigned char *output, unsigned int *outputLength )
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{
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unsigned index, byteIndex, lastBlock;
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unsigned int checkSum;
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unsigned char paddingBytes;
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unsigned char encodedPad;
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unsigned char randomChar;
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CheckSum checkSumCalculator;
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#ifdef _DEBUG
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assert( keySet );
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#endif
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assert( input && inputLength );
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// randomChar will randomize the data so the same data sent twice will not look the same
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randomChar = (unsigned char) randomMT();
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// 16-(((x-1) % 16)+1)
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// # of padding bytes is 16 -(((input_length + extra_data -1) % 16)+1)
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paddingBytes = (unsigned char) ( 16 - ( ( ( inputLength + sizeof( randomChar ) + sizeof( checkSum ) + sizeof( encodedPad ) - 1 ) % 16 ) + 1 ) );
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// Randomize the pad size variable
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encodedPad = (unsigned char) randomMT();
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encodedPad <<= 4;
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encodedPad |= paddingBytes;
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*outputLength = inputLength + sizeof( randomChar ) + sizeof( checkSum ) + sizeof( encodedPad ) + paddingBytes;
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// Write the data first, in case we are overwriting ourselves
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if ( input == output )
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memmove( output + sizeof( checkSum ) + sizeof( randomChar ) + sizeof( encodedPad ) + paddingBytes, input, inputLength );
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else
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memcpy( output + sizeof( checkSum ) + sizeof( randomChar ) + sizeof( encodedPad ) + paddingBytes, input, inputLength );
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// Write the random char
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memcpy( output + sizeof( checkSum ), ( char* ) & randomChar, sizeof( randomChar ) );
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// Write the pad size variable
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memcpy( output + sizeof( checkSum ) + sizeof( randomChar ), ( char* ) & encodedPad, sizeof( encodedPad ) );
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// Write the padding
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for ( index = 0; index < paddingBytes; index++ )
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*( output + sizeof( checkSum ) + sizeof( randomChar ) + sizeof( encodedPad ) + index ) = (unsigned char) randomMT();
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// Calculate the checksum on the data
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checkSumCalculator.Add( output + sizeof( checkSum ), inputLength + sizeof( randomChar ) + sizeof( encodedPad ) + paddingBytes );
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checkSum = checkSumCalculator.Get();
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// Write checksum
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#ifdef HOST_ENDIAN_IS_BIG
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output[0] = checkSum&0xFF;
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output[1] = (checkSum>>8)&0xFF;
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output[2] = (checkSum>>16)&0xFF;
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output[3] = (checkSum>>24)&0xFF;
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#else
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memcpy( output, ( char* ) & checkSum, sizeof( checkSum ) );
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#endif
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// AES on the first block
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// secretKeyAES128.encrypt16( output );
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blockEncrypt(&cipherInst, &keyEncrypt, output, 16, output);
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lastBlock = 0;
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// Now do AES on every other block from back to front
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for ( index = *outputLength - 16; index >= 16; index -= 16 )
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{
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for ( byteIndex = 0; byteIndex < 16; byteIndex++ )
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output[ index + byteIndex ] ^= output[ lastBlock + byteIndex ];
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//secretKeyAES128.encrypt16( output + index );
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blockEncrypt(&cipherInst, &keyEncrypt, output+index, 16, output+index);
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lastBlock = index;
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}
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}
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bool DataBlockEncryptor::Decrypt( unsigned char *input, unsigned int inputLength, unsigned char *output, unsigned int *outputLength )
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{
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unsigned index, byteIndex, lastBlock;
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unsigned int checkSum;
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unsigned char paddingBytes;
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unsigned char encodedPad;
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unsigned char randomChar;
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CheckSum checkSumCalculator;
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#ifdef _DEBUG
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assert( keySet );
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#endif
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if ( input == 0 || inputLength < 16 || ( inputLength % 16 ) != 0 )
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{
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return false;
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}
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// Unchain in reverse order
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for ( index = 16; index <= inputLength - 16;index += 16 )
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{
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// secretKeyAES128.decrypt16( input + index );
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blockDecrypt(&cipherInst, &keyDecrypt, input + index, 16, output + index);
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for ( byteIndex = 0; byteIndex < 16; byteIndex++ )
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{
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if ( index + 16 == ( unsigned ) inputLength )
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output[ index + byteIndex ] ^= input[ byteIndex ];
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else
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output[ index + byteIndex ] ^= input[ index + 16 + byteIndex ];
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}
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lastBlock = index;
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};
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// Decrypt the first block
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//secretKeyAES128.decrypt16( input );
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blockDecrypt(&cipherInst, &keyDecrypt, input, 16, output);
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// Read checksum
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#ifdef HOST_ENDIAN_IS_BIG
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checkSum = (unsigned int)output[0] | (unsigned int)(output[1]<<8) |
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(unsigned int)(output[2]<<16)|(unsigned int)(output[3]<<24);
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#else
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memcpy( ( char* ) & checkSum, output, sizeof( checkSum ) );
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#endif
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// Read the pad size variable
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memcpy( ( char* ) & encodedPad, output + sizeof( randomChar ) + sizeof( checkSum ), sizeof( encodedPad ) );
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// Ignore the high 4 bytes
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paddingBytes = encodedPad & 0x0F;
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// Get the data length
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*outputLength = inputLength - sizeof( randomChar ) - sizeof( checkSum ) - sizeof( encodedPad ) - paddingBytes;
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// Calculate the checksum on the data.
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checkSumCalculator.Add( output + sizeof( checkSum ), *outputLength + sizeof( randomChar ) + sizeof( encodedPad ) + paddingBytes );
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if ( checkSum != checkSumCalculator.Get() )
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return false;
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// Read the data
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//if ( input == output )
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memmove( output, output + sizeof( randomChar ) + sizeof( checkSum ) + sizeof( encodedPad ) + paddingBytes, *outputLength );
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//else
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// memcpy( output, input + sizeof( randomChar ) + sizeof( checkSum ) + sizeof( encodedPad ) + paddingBytes, *outputLength );
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return true;
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}
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