Raule Posted February 19, 2012 Author Share Posted February 19, 2012 Nu conteaza, da-mi daca ai. Link to comment Share on other sites More sharing options...
Trance Posted February 19, 2012 Share Posted February 19, 2012 Lasal ma si tu ..ca nu da nimeni 2 bani pe el si el se cearta cu noi ca vai domne noi suntem aia de vina ca a luat el ban si ca de ce nu ii oferim suport. (Eu cu opinia mea el cu a lui dar se pare ca omu nu poate sa asculte si opinia la alte persoane mai ales cand ii se zice adevarul) Si nu sunt singurul care are aceiasi opinie despre ce se intampla aici,sido a explicat situatia actuala destul de concret ptr toti. /END. (sa terminam odata cu circu asta) Baga asta la maxim trance ;D Ce dreacu faci cu conturi de youtube raule ? Ofc ca stiu mel <3. Oricum nu dau 2 bani, eu dau reply aiurea. : ) Sincer nu am nimic cu el,daca el extinde chat-ul, de ce nu? ;D Link to comment Share on other sites More sharing options...
Raule Posted February 19, 2012 Author Share Posted February 19, 2012 da, dormiti? Link to comment Share on other sites More sharing options...
Trance Posted February 20, 2012 Share Posted February 20, 2012 da, dormiti? don't u? Link to comment Share on other sites More sharing options...
Trance Posted February 20, 2012 Share Posted February 20, 2012 Link to comment Share on other sites More sharing options...
Sido Posted February 20, 2012 Share Posted February 20, 2012 no moar drama :( ? ma duc sal caut pe tryskell pe chat atunci xD Link to comment Share on other sites More sharing options...
PsychoJr Posted February 20, 2012 Share Posted February 20, 2012 E cineva pe aici care e in stare sa transcrie codul asta in java ? // SimpleModulus.cpp : Defines the entry point for the application. // #include "Header\StdAfx.h" #include "SimpleModules.h" DWORD CSimpleModulus::s_dwSaveLoadXOR[4]={0x3F08A79B, 0xE25CC287, 0x93D27AB9, 0x20DEA7BF}; //#pragma warning(disable : 4244) CSimpleModulus::CSimpleModulus() // Completed { this->Init(); } CSimpleModulus::~CSimpleModulus() // Completed { return; } VOID CSimpleModulus::Init() // Completed { memset(this->m_dwEncryptionKey, 0, sizeof(this->m_dwEncryptionKey)); memset(this->m_dwModulus, 0, sizeof(this->m_dwModulus)); memset(this->m_dwDecryptionKey, 0, sizeof(this->m_dwDecryptionKey)); } int CSimpleModulus::Encrypt(void * lpDest, void * lpSource, int iSize) // Emulated - Completed { int iTempSize = iSize; int iTempSize2; int iOriSize ; unsigned char * lpTempDest = (LPBYTE)lpDest; unsigned char * lpTempSource = (LPBYTE)lpSource; int iDec = ((iSize+7)/8); iSize = (iDec + iDec*4)*2 + iDec; if ( lpDest != NULL ) { iOriSize = iTempSize; for ( int i=0; i<iTempSize; i+=8,iOriSize-=8,lpTempDest+=11) { iTempSize2 = iOriSize; if ( iOriSize >= 8 ) iTempSize2 = 8; this->EncryptBlock(lpTempDest, lpTempSource+i, iTempSize2); } } return iSize; } int CSimpleModulus::Decrypt(void * lpDest, void * lpSource, int iSize) { if ( lpDest == NULL) { return iSize*8/11; } LPBYTE lpTempDest = (LPBYTE)lpDest; LPBYTE lpTempSrc = (LPBYTE)lpSource; int iResult = 0; int iDecLen = 0; if ( iSize > 0 ) { while ( iDecLen < iSize ) { int iTempResult = this->DecryptBlock(lpTempDest, lpTempSrc); if ( iResult < 0 ) { return iResult; } iResult += iTempResult; iDecLen += 11; lpTempSrc += 11; lpTempDest += 8; } } return iResult; } int CSimpleModulus::EncryptBlock(void*lpDest,void*lpSource,int iSize) { DWORD dwEncBuffer[4]; DWORD dwEncValue=0; // TempVar1 LPBYTE lpEncDest = (LPBYTE)lpDest; LPBYTE lpEncSource = (LPBYTE)lpSource; memset(lpEncDest, 0, 11); int i=0; for ( i=0;i<4;i++) { dwEncBuffer[i]=((this->m_dwXORKey[i]^((WORD*)lpEncSource)[i]^dwEncValue)*this->m_dwEncryptionKey[i])%this->m_dwModulus[i]; dwEncValue=dwEncBuffer[i]&0xFFFF; } for ( i=0;i<3;i++) { dwEncBuffer[i] = dwEncBuffer[i] ^ this->m_dwXORKey[i] ^ ( dwEncBuffer[i+1] & 0xFFFF ); } int iBitPos = 0; for ( i=0;i<4;i++) { iBitPos = this->AddBits(lpDest, iBitPos, &dwEncBuffer[i], 0, 16); iBitPos = this->AddBits(lpDest, iBitPos, &dwEncBuffer[i], 22, 2); } BYTE btCheckSum = 0xF8; for ( i=0;i<8;i++) btCheckSum ^= lpEncSource[i]; ((LPBYTE)&dwEncValue)[1] = btCheckSum ; ((LPBYTE)&dwEncValue)[0] = btCheckSum ^ iSize ^ 0x3D; return this->AddBits(lpDest, iBitPos, &dwEncValue, 0, 16); } int CSimpleModulus::DecryptBlock(void*lpDest,void*lpSource) { memset(lpDest, 0, 8); DWORD dwDecBuffer[4]= {0}; int iBitPosition = 0; LPBYTE lpDecDest = (LPBYTE)lpDest; LPBYTE lpDecSource = (LPBYTE)lpSource; int i=0; for(i=0;i<4;i++) { this->AddBits(&dwDecBuffer[i], 0, lpDecSource, iBitPosition, 16); iBitPosition += 16; this->AddBits(&dwDecBuffer[i], 22, lpDecSource, iBitPosition, 2); iBitPosition += 2; } for(i=2;i>=0;i--) { dwDecBuffer[i] = dwDecBuffer[i] ^ this->m_dwXORKey[i] ^ (dwDecBuffer[i+1]&0xFFFF); } DWORD Temp=0,Temp1; for(i=0;i<4;i++) { Temp1 = (( this->m_dwDecryptionKey[i] * (dwDecBuffer[i])) % ( this->m_dwModulus[i])) ^ this->m_dwXORKey[i]^Temp; Temp = dwDecBuffer[i]&0xFFFF; ((WORD*)lpDecDest)[i] = WORD(Temp1); } dwDecBuffer[0]=0; this->AddBits(&dwDecBuffer[0], 0, lpDecSource, iBitPosition, 16); ((LPBYTE)dwDecBuffer)[0]=((LPBYTE)dwDecBuffer)[1]^ ((LPBYTE)dwDecBuffer)[0]^0x3D; BYTE btCheckSum=0xF8; for(i=0;i<8;i++) btCheckSum ^= lpDecDest[i]; if( btCheckSum != ((LPBYTE)dwDecBuffer)[1] ) return -1; return ((LPBYTE)dwDecBuffer)[0]; } int CSimpleModulus::AddBits(void*lpDest,int iDestBitPos,void*lpSource,int iBitSourcePos,int iBitLen) // Completed Emulated { // Get Buffer Lens int iSourceBufferBitLen = iBitLen + iBitSourcePos ; int iTempBufferLen = this->GetByteOfBit(iSourceBufferBitLen-1); iTempBufferLen += 1 - this->GetByteOfBit(iBitSourcePos); // Copy the Source Buffer unsigned char * pTempBuffer = new unsigned char[iTempBufferLen+1]; memset(pTempBuffer, 0, iTempBufferLen+1); memcpy(pTempBuffer, (unsigned char *)lpSource+ this->GetByteOfBit(iBitSourcePos), iTempBufferLen); // Save the Last ibt if exist if ( (iSourceBufferBitLen%8 ) != 0 ) { pTempBuffer[iTempBufferLen - 1] &= 255 << (8 - (iSourceBufferBitLen%8)); } // Get the Values to Shift int iShiftLeft = (iBitSourcePos%8); int iShiftRight = (iDestBitPos%8); // Shift the Values to Add the right space of the desired bits this->Shift(pTempBuffer, iTempBufferLen, -iShiftLeft); this->Shift(pTempBuffer, iTempBufferLen+1, iShiftRight); // Copy the the bits of Source to the Dest int iNewTempBufferLen = (( iShiftRight <= iShiftLeft )?0:1) + iTempBufferLen; unsigned char * TempDist = (unsigned char *)lpDest + this->GetByteOfBit(iDestBitPos); for ( int i=0;i<iNewTempBufferLen;i++) { TempDist[i] |= pTempBuffer[i]; } // Delete the temp Buffer delete [] pTempBuffer; // Return the number of bits of the new Dest Buffer return iDestBitPos + iBitLen; } VOID CSimpleModulus::Shift(void*lpBuff,int iSize,int ShiftLen) // Need To be Checked { unsigned char * TempBuff = (unsigned char *)lpBuff; // Case no Shift Len if ( ShiftLen != 0 ) { // Shift Right if ( ShiftLen > 0 ) { if ( (iSize -1 ) > 0 ) { for ( int i=(iSize-1); i>0 ; i--) { TempBuff[i] = (TempBuff[i-1]<<((8 - ShiftLen))) | (TempBuff[i]>>ShiftLen ); } } TempBuff[0] >>= ShiftLen; } else // Shift Left { ShiftLen = - ShiftLen; if ( (iSize-1) > 0 ) { for ( int i=0; i<(iSize-1) ;i++) { TempBuff[i] = (TempBuff[i+1]>>((8 - ShiftLen))) | (TempBuff[i]<<ShiftLen ); } } TempBuff[iSize-1] <<= ShiftLen; } } } int CSimpleModulus::GetByteOfBit(int btByte) { return btByte >> 3; } BOOL CSimpleModulus::SaveAllKey(LPSTR lpszFileName ) { return this->SaveKey(lpszFileName, 4370, TRUE, TRUE, TRUE, TRUE); } BOOL CSimpleModulus::LoadAllKey(LPSTR lpszFileName) { return this->LoadKey(lpszFileName, 4370, TRUE, TRUE, TRUE, TRUE); } BOOL CSimpleModulus::SaveEncryptionKey(LPSTR lpszFileName) { return this->SaveKey(lpszFileName, 4370, TRUE, TRUE, FALSE, TRUE); } BOOL CSimpleModulus::LoadEncryptionKey(LPSTR lpszFileName) { return this->LoadKey(lpszFileName, 4370, TRUE, TRUE, FALSE ,TRUE); } BOOL CSimpleModulus::SaveDecryptionKey(LPSTR lpszFileName) { return this->SaveKey(lpszFileName, 4370, TRUE, FALSE, TRUE, TRUE); } BOOL CSimpleModulus::LoadDecryptionKey(LPSTR lpszFileName) { return this->LoadKey(lpszFileName, 4370, TRUE, FALSE ,TRUE ,TRUE); } BOOL CSimpleModulus::SaveKey(LPSTR lpszFileName, WORD wFileHeader, BOOL bSaveModulus, BOOL bSaveEncKey, BOOL bSaveDecKey, BOOL bSaveXORKey) { // MAde by Deathway ENCDEC_FILEHEADER HeaderBuffer; int iSize; DWORD XORTable[4]; HANDLE hFile = CreateFile(lpszFileName, GENERIC_READ, FILE_SHARE_READ, NULL, OPEN_EXISTING, 0x80, NULL); if ( hFile == INVALID_HANDLE_VALUE ) { return FALSE; } HeaderBuffer.sFileHeader = wFileHeader; HeaderBuffer.dwSize = ( bSaveModulus + bSaveEncKey + bSaveDecKey + bSaveXORKey ) * sizeof(XORTable) + sizeof(ENCDEC_FILEHEADER); WriteFile( hFile, &HeaderBuffer, sizeof(ENCDEC_FILEHEADER), (ULONG*)&iSize, NULL); if ( bSaveModulus != FALSE ) { for ( int n = 0 ; n < 4 ; n++ ) { XORTable[n] = this->m_dwModulus[n] ^ s_dwSaveLoadXOR[n]; } WriteFile(hFile, &XORTable, sizeof(XORTable), (ULONG*)&iSize, NULL); } if ( bSaveEncKey != FALSE ) { for ( int n = 0 ; n < 4 ; n++ ) { XORTable[n] = this->m_dwEncryptionKey[n] ^ s_dwSaveLoadXOR[n]; } WriteFile(hFile, &XORTable, sizeof(XORTable), (ULONG*)&iSize, NULL); } if ( bSaveDecKey != FALSE ) { for ( int n = 0 ; n < 4 ; n++ ) { XORTable[n] = this->m_dwDecryptionKey[n] ^ s_dwSaveLoadXOR[n]; } WriteFile(hFile, &XORTable, sizeof(XORTable), (ULONG*)&iSize, NULL); } if ( bSaveXORKey != FALSE ) { for ( int n = 0 ; n < 4 ; n++ ) { XORTable[n] = this->m_dwXORKey[n] ^ s_dwSaveLoadXOR[n]; } WriteFile(hFile, &XORTable, sizeof(XORTable), (ULONG*)&iSize, NULL); } CloseHandle(hFile); return TRUE; } BOOL CSimpleModulus::LoadKey(LPSTR lpszFileName, WORD wFileHeader, BOOL bLoadModulus, BOOL bLoadEncKey, BOOL bLoadDecKey, BOOL bLoadXORKey) { ENCDEC_FILEHEADER HeaderBuffer; int iSize; DWORD XORTable[4]; HANDLE hFile = CreateFile(lpszFileName, GENERIC_READ, FILE_SHARE_READ, NULL, OPEN_EXISTING, 0x80, NULL); if ( hFile != INVALID_HANDLE_VALUE ) { ReadFile( hFile, &HeaderBuffer, sizeof(ENCDEC_FILEHEADER), (ULONG*)&iSize, NULL); } if ( HeaderBuffer.sFileHeader == wFileHeader ) { if ( (HeaderBuffer.dwSize) == (int)((( bLoadModulus + bLoadEncKey + bLoadDecKey + bLoadXORKey )*sizeof(XORTable))+sizeof(ENCDEC_FILEHEADER)) ) { if ( bLoadModulus != FALSE ) { ReadFile(hFile, XORTable, sizeof(XORTable) , (ULONG*)&iSize, NULL); for ( int n = 0 ; n<4;n++) { this->m_dwModulus[n] = s_dwSaveLoadXOR[n] ^ XORTable[n]; } } if ( bLoadEncKey != FALSE ) { ReadFile(hFile, XORTable, sizeof(XORTable) , (ULONG*)&iSize, NULL); for ( int n = 0 ; n<4;n++) { this->m_dwEncryptionKey[n] = s_dwSaveLoadXOR[n] ^ XORTable[n]; } } if ( bLoadDecKey != FALSE ) { ReadFile(hFile, XORTable, sizeof(XORTable) , (ULONG*)&iSize, NULL); for ( int n = 0 ; n<4;n++) { this->m_dwDecryptionKey[n] = s_dwSaveLoadXOR[n] ^ XORTable[n]; } } if ( bLoadXORKey != FALSE ) { ReadFile(hFile, XORTable,sizeof(XORTable) , (ULONG*)&iSize, NULL); for ( int n = 0 ; n<4;n++) { this->m_dwXORKey[n] = s_dwSaveLoadXOR[n] ^ XORTable[n]; } } CloseHandle(hFile); return TRUE; } } else { CloseHandle(hFile); } return FALSE; } Link to comment Share on other sites More sharing options...
Sido Posted February 20, 2012 Share Posted February 20, 2012 lume lume.. Link to comment Share on other sites More sharing options...
MMan Posted February 21, 2012 Share Posted February 21, 2012 E cineva pe aici care e in stare sa transcrie codul asta in java ? // SimpleModulus.cpp : Defines the entry point for the application. // #include "Header\StdAfx.h" #include "SimpleModules.h" DWORD CSimpleModulus::s_dwSaveLoadXOR[4]={0x3F08A79B, 0xE25CC287, 0x93D27AB9, 0x20DEA7BF}; //#pragma warning(disable : 4244) CSimpleModulus::CSimpleModulus() // Completed { this->Init(); } CSimpleModulus::~CSimpleModulus() // Completed { return; } VOID CSimpleModulus::Init() // Completed { memset(this->m_dwEncryptionKey, 0, sizeof(this->m_dwEncryptionKey)); memset(this->m_dwModulus, 0, sizeof(this->m_dwModulus)); memset(this->m_dwDecryptionKey, 0, sizeof(this->m_dwDecryptionKey)); } int CSimpleModulus::Encrypt(void * lpDest, void * lpSource, int iSize) // Emulated - Completed { int iTempSize = iSize; int iTempSize2; int iOriSize ; unsigned char * lpTempDest = (LPBYTE)lpDest; unsigned char * lpTempSource = (LPBYTE)lpSource; int iDec = ((iSize+7)/8); iSize = (iDec + iDec*4)*2 + iDec; if ( lpDest != NULL ) { iOriSize = iTempSize; for ( int i=0; i<iTempSize; i+=8,iOriSize-=8,lpTempDest+=11) { iTempSize2 = iOriSize; if ( iOriSize >= 8 ) iTempSize2 = 8; this->EncryptBlock(lpTempDest, lpTempSource+i, iTempSize2); } } return iSize; } int CSimpleModulus::Decrypt(void * lpDest, void * lpSource, int iSize) { if ( lpDest == NULL) { return iSize*8/11; } LPBYTE lpTempDest = (LPBYTE)lpDest; LPBYTE lpTempSrc = (LPBYTE)lpSource; int iResult = 0; int iDecLen = 0; if ( iSize > 0 ) { while ( iDecLen < iSize ) { int iTempResult = this->DecryptBlock(lpTempDest, lpTempSrc); if ( iResult < 0 ) { return iResult; } iResult += iTempResult; iDecLen += 11; lpTempSrc += 11; lpTempDest += 8; } } return iResult; } int CSimpleModulus::EncryptBlock(void*lpDest,void*lpSource,int iSize) { DWORD dwEncBuffer[4]; DWORD dwEncValue=0; // TempVar1 LPBYTE lpEncDest = (LPBYTE)lpDest; LPBYTE lpEncSource = (LPBYTE)lpSource; memset(lpEncDest, 0, 11); int i=0; for ( i=0;i<4;i++) { dwEncBuffer[i]=((this->m_dwXORKey[i]^((WORD*)lpEncSource)[i]^dwEncValue)*this->m_dwEncryptionKey[i])%this->m_dwModulus[i]; dwEncValue=dwEncBuffer[i]&0xFFFF; } for ( i=0;i<3;i++) { dwEncBuffer[i] = dwEncBuffer[i] ^ this->m_dwXORKey[i] ^ ( dwEncBuffer[i+1] & 0xFFFF ); } int iBitPos = 0; for ( i=0;i<4;i++) { iBitPos = this->AddBits(lpDest, iBitPos, &dwEncBuffer[i], 0, 16); iBitPos = this->AddBits(lpDest, iBitPos, &dwEncBuffer[i], 22, 2); } BYTE btCheckSum = 0xF8; for ( i=0;i<8;i++) btCheckSum ^= lpEncSource[i]; ((LPBYTE)&dwEncValue)[1] = btCheckSum ; ((LPBYTE)&dwEncValue)[0] = btCheckSum ^ iSize ^ 0x3D; return this->AddBits(lpDest, iBitPos, &dwEncValue, 0, 16); } int CSimpleModulus::DecryptBlock(void*lpDest,void*lpSource) { memset(lpDest, 0, 8); DWORD dwDecBuffer[4]= {0}; int iBitPosition = 0; LPBYTE lpDecDest = (LPBYTE)lpDest; LPBYTE lpDecSource = (LPBYTE)lpSource; int i=0; for(i=0;i<4;i++) { this->AddBits(&dwDecBuffer[i], 0, lpDecSource, iBitPosition, 16); iBitPosition += 16; this->AddBits(&dwDecBuffer[i], 22, lpDecSource, iBitPosition, 2); iBitPosition += 2; } for(i=2;i>=0;i--) { dwDecBuffer[i] = dwDecBuffer[i] ^ this->m_dwXORKey[i] ^ (dwDecBuffer[i+1]&0xFFFF); } DWORD Temp=0,Temp1; for(i=0;i<4;i++) { Temp1 = (( this->m_dwDecryptionKey[i] * (dwDecBuffer[i])) % ( this->m_dwModulus[i])) ^ this->m_dwXORKey[i]^Temp; Temp = dwDecBuffer[i]&0xFFFF; ((WORD*)lpDecDest)[i] = WORD(Temp1); } dwDecBuffer[0]=0; this->AddBits(&dwDecBuffer[0], 0, lpDecSource, iBitPosition, 16); ((LPBYTE)dwDecBuffer)[0]=((LPBYTE)dwDecBuffer)[1]^ ((LPBYTE)dwDecBuffer)[0]^0x3D; BYTE btCheckSum=0xF8; for(i=0;i<8;i++) btCheckSum ^= lpDecDest[i]; if( btCheckSum != ((LPBYTE)dwDecBuffer)[1] ) return -1; return ((LPBYTE)dwDecBuffer)[0]; } int CSimpleModulus::AddBits(void*lpDest,int iDestBitPos,void*lpSource,int iBitSourcePos,int iBitLen) // Completed Emulated { // Get Buffer Lens int iSourceBufferBitLen = iBitLen + iBitSourcePos ; int iTempBufferLen = this->GetByteOfBit(iSourceBufferBitLen-1); iTempBufferLen += 1 - this->GetByteOfBit(iBitSourcePos); // Copy the Source Buffer unsigned char * pTempBuffer = new unsigned char[iTempBufferLen+1]; memset(pTempBuffer, 0, iTempBufferLen+1); memcpy(pTempBuffer, (unsigned char *)lpSource+ this->GetByteOfBit(iBitSourcePos), iTempBufferLen); // Save the Last ibt if exist if ( (iSourceBufferBitLen%8 ) != 0 ) { pTempBuffer[iTempBufferLen - 1] &= 255 << (8 - (iSourceBufferBitLen%8)); } // Get the Values to Shift int iShiftLeft = (iBitSourcePos%8); int iShiftRight = (iDestBitPos%8); // Shift the Values to Add the right space of the desired bits this->Shift(pTempBuffer, iTempBufferLen, -iShiftLeft); this->Shift(pTempBuffer, iTempBufferLen+1, iShiftRight); // Copy the the bits of Source to the Dest int iNewTempBufferLen = (( iShiftRight <= iShiftLeft )?0:1) + iTempBufferLen; unsigned char * TempDist = (unsigned char *)lpDest + this->GetByteOfBit(iDestBitPos); for ( int i=0;i<iNewTempBufferLen;i++) { TempDist[i] |= pTempBuffer[i]; } // Delete the temp Buffer delete [] pTempBuffer; // Return the number of bits of the new Dest Buffer return iDestBitPos + iBitLen; } VOID CSimpleModulus::Shift(void*lpBuff,int iSize,int ShiftLen) // Need To be Checked { unsigned char * TempBuff = (unsigned char *)lpBuff; // Case no Shift Len if ( ShiftLen != 0 ) { // Shift Right if ( ShiftLen > 0 ) { if ( (iSize -1 ) > 0 ) { for ( int i=(iSize-1); i>0 ; i--) { TempBuff[i] = (TempBuff[i-1]<<((8 - ShiftLen))) | (TempBuff[i]>>ShiftLen ); } } TempBuff[0] >>= ShiftLen; } else // Shift Left { ShiftLen = - ShiftLen; if ( (iSize-1) > 0 ) { for ( int i=0; i<(iSize-1) ;i++) { TempBuff[i] = (TempBuff[i+1]>>((8 - ShiftLen))) | (TempBuff[i]<<ShiftLen ); } } TempBuff[iSize-1] <<= ShiftLen; } } } int CSimpleModulus::GetByteOfBit(int btByte) { return btByte >> 3; } BOOL CSimpleModulus::SaveAllKey(LPSTR lpszFileName ) { return this->SaveKey(lpszFileName, 4370, TRUE, TRUE, TRUE, TRUE); } BOOL CSimpleModulus::LoadAllKey(LPSTR lpszFileName) { return this->LoadKey(lpszFileName, 4370, TRUE, TRUE, TRUE, TRUE); } BOOL CSimpleModulus::SaveEncryptionKey(LPSTR lpszFileName) { return this->SaveKey(lpszFileName, 4370, TRUE, TRUE, FALSE, TRUE); } BOOL CSimpleModulus::LoadEncryptionKey(LPSTR lpszFileName) { return this->LoadKey(lpszFileName, 4370, TRUE, TRUE, FALSE ,TRUE); } BOOL CSimpleModulus::SaveDecryptionKey(LPSTR lpszFileName) { return this->SaveKey(lpszFileName, 4370, TRUE, FALSE, TRUE, TRUE); } BOOL CSimpleModulus::LoadDecryptionKey(LPSTR lpszFileName) { return this->LoadKey(lpszFileName, 4370, TRUE, FALSE ,TRUE ,TRUE); } BOOL CSimpleModulus::SaveKey(LPSTR lpszFileName, WORD wFileHeader, BOOL bSaveModulus, BOOL bSaveEncKey, BOOL bSaveDecKey, BOOL bSaveXORKey) { // MAde by Deathway ENCDEC_FILEHEADER HeaderBuffer; int iSize; DWORD XORTable[4]; HANDLE hFile = CreateFile(lpszFileName, GENERIC_READ, FILE_SHARE_READ, NULL, OPEN_EXISTING, 0x80, NULL); if ( hFile == INVALID_HANDLE_VALUE ) { return FALSE; } HeaderBuffer.sFileHeader = wFileHeader; HeaderBuffer.dwSize = ( bSaveModulus + bSaveEncKey + bSaveDecKey + bSaveXORKey ) * sizeof(XORTable) + sizeof(ENCDEC_FILEHEADER); WriteFile( hFile, &HeaderBuffer, sizeof(ENCDEC_FILEHEADER), (ULONG*)&iSize, NULL); if ( bSaveModulus != FALSE ) { for ( int n = 0 ; n < 4 ; n++ ) { XORTable[n] = this->m_dwModulus[n] ^ s_dwSaveLoadXOR[n]; } WriteFile(hFile, &XORTable, sizeof(XORTable), (ULONG*)&iSize, NULL); } if ( bSaveEncKey != FALSE ) { for ( int n = 0 ; n < 4 ; n++ ) { XORTable[n] = this->m_dwEncryptionKey[n] ^ s_dwSaveLoadXOR[n]; } WriteFile(hFile, &XORTable, sizeof(XORTable), (ULONG*)&iSize, NULL); } if ( bSaveDecKey != FALSE ) { for ( int n = 0 ; n < 4 ; n++ ) { XORTable[n] = this->m_dwDecryptionKey[n] ^ s_dwSaveLoadXOR[n]; } WriteFile(hFile, &XORTable, sizeof(XORTable), (ULONG*)&iSize, NULL); } if ( bSaveXORKey != FALSE ) { for ( int n = 0 ; n < 4 ; n++ ) { XORTable[n] = this->m_dwXORKey[n] ^ s_dwSaveLoadXOR[n]; } WriteFile(hFile, &XORTable, sizeof(XORTable), (ULONG*)&iSize, NULL); } CloseHandle(hFile); return TRUE; } BOOL CSimpleModulus::LoadKey(LPSTR lpszFileName, WORD wFileHeader, BOOL bLoadModulus, BOOL bLoadEncKey, BOOL bLoadDecKey, BOOL bLoadXORKey) { ENCDEC_FILEHEADER HeaderBuffer; int iSize; DWORD XORTable[4]; HANDLE hFile = CreateFile(lpszFileName, GENERIC_READ, FILE_SHARE_READ, NULL, OPEN_EXISTING, 0x80, NULL); if ( hFile != INVALID_HANDLE_VALUE ) { ReadFile( hFile, &HeaderBuffer, sizeof(ENCDEC_FILEHEADER), (ULONG*)&iSize, NULL); } if ( HeaderBuffer.sFileHeader == wFileHeader ) { if ( (HeaderBuffer.dwSize) == (int)((( bLoadModulus + bLoadEncKey + bLoadDecKey + bLoadXORKey )*sizeof(XORTable))+sizeof(ENCDEC_FILEHEADER)) ) { if ( bLoadModulus != FALSE ) { ReadFile(hFile, XORTable, sizeof(XORTable) , (ULONG*)&iSize, NULL); for ( int n = 0 ; n<4;n++) { this->m_dwModulus[n] = s_dwSaveLoadXOR[n] ^ XORTable[n]; } } if ( bLoadEncKey != FALSE ) { ReadFile(hFile, XORTable, sizeof(XORTable) , (ULONG*)&iSize, NULL); for ( int n = 0 ; n<4;n++) { this->m_dwEncryptionKey[n] = s_dwSaveLoadXOR[n] ^ XORTable[n]; } } if ( bLoadDecKey != FALSE ) { ReadFile(hFile, XORTable, sizeof(XORTable) , (ULONG*)&iSize, NULL); for ( int n = 0 ; n<4;n++) { this->m_dwDecryptionKey[n] = s_dwSaveLoadXOR[n] ^ XORTable[n]; } } if ( bLoadXORKey != FALSE ) { ReadFile(hFile, XORTable,sizeof(XORTable) , (ULONG*)&iSize, NULL); for ( int n = 0 ; n<4;n++) { this->m_dwXORKey[n] = s_dwSaveLoadXOR[n] ^ XORTable[n]; } } CloseHandle(hFile); return TRUE; } } else { CloseHandle(hFile); } return FALSE; } contra o suma de bani, e posibil. Link to comment Share on other sites More sharing options...
mmytza Posted February 21, 2012 Share Posted February 21, 2012 contra o suma de bani, e posibil. si mai zicea ca romanii sa-l sustina =)) Link to comment Share on other sites More sharing options...
Ioane Posted February 21, 2012 Share Posted February 21, 2012 Salutare lume:))...Mai traieste cineva pe aici?:D Link to comment Share on other sites More sharing options...
Raule Posted February 21, 2012 Author Share Posted February 21, 2012 Salutare lume:))...Mai traieste cineva pe aici?:D Eu.. Link to comment Share on other sites More sharing options...
Ioane Posted February 21, 2012 Share Posted February 21, 2012 ooo sa traiesti raule...ce faci ma?:)) Link to comment Share on other sites More sharing options...
Raule Posted February 21, 2012 Author Share Posted February 21, 2012 Nimic interesant. Link to comment Share on other sites More sharing options...
Ioane Posted February 21, 2012 Share Posted February 21, 2012 Inca nu-i pe moarte MxC-u?:)) Link to comment Share on other sites More sharing options...
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