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219 lines
5.7 KiB
C++
219 lines
5.7 KiB
C++
#include "rar.hpp"
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#if defined(_WIN_ALL)
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typedef BOOL (WINAPI *CRYPTPROTECTMEMORY)(LPVOID pData,DWORD cbData,DWORD dwFlags);
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typedef BOOL (WINAPI *CRYPTUNPROTECTMEMORY)(LPVOID pData,DWORD cbData,DWORD dwFlags);
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#ifndef CRYPTPROTECTMEMORY_BLOCK_SIZE
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#define CRYPTPROTECTMEMORY_BLOCK_SIZE 16
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#define CRYPTPROTECTMEMORY_SAME_PROCESS 0x00
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#define CRYPTPROTECTMEMORY_CROSS_PROCESS 0x01
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#endif
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class CryptLoader
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{
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private:
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HMODULE hCrypt;
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bool LoadCalled;
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public:
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CryptLoader()
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{
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hCrypt=NULL;
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pCryptProtectMemory=NULL;
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pCryptUnprotectMemory=NULL;
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LoadCalled=false;
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}
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~CryptLoader()
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{
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if (hCrypt!=NULL)
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FreeLibrary(hCrypt);
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hCrypt=NULL;
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pCryptProtectMemory=NULL;
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pCryptUnprotectMemory=NULL;
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};
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void Load()
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{
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if (!LoadCalled)
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{
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hCrypt = LoadSysLibrary(L"Crypt32.dll");
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if (hCrypt != NULL)
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{
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// Available since Vista.
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pCryptProtectMemory = (CRYPTPROTECTMEMORY)GetProcAddress(hCrypt, "CryptProtectMemory");
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pCryptUnprotectMemory = (CRYPTUNPROTECTMEMORY)GetProcAddress(hCrypt, "CryptUnprotectMemory");
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}
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LoadCalled=true;
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}
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}
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CRYPTPROTECTMEMORY pCryptProtectMemory;
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CRYPTUNPROTECTMEMORY pCryptUnprotectMemory;
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};
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// We need to call FreeLibrary when RAR is exiting.
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static CryptLoader GlobalCryptLoader;
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#endif
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SecPassword::SecPassword()
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{
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Set(L"");
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}
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SecPassword::~SecPassword()
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{
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Clean();
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}
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void SecPassword::Clean()
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{
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PasswordSet=false;
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if (Password.size()>0)
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cleandata(&Password[0],Password.size());
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}
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// When we call memset in end of function to clean local variables
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// for security reason, compiler optimizer can remove such call.
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// So we use our own function for this purpose.
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void cleandata(void *data,size_t size)
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{
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if (data==NULL || size==0)
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return;
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#if defined(_WIN_ALL) && defined(_MSC_VER)
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SecureZeroMemory(data,size);
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#else
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// 'volatile' is required. Otherwise optimizers can remove this function
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// if cleaning local variables, which are not used after that.
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volatile byte *d = (volatile byte *)data;
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for (size_t i=0;i<size;i++)
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d[i]=0;
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#endif
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}
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// We got a complain from user that it is possible to create WinRAR dump
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// with "Create dump file" command in Windows Task Manager and then easily
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// locate Unicode password string in the dump. It is unsecure if several
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// people share the same computer and somebody left WinRAR copy with entered
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// password. So we decided to obfuscate the password to make it more difficult
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// to find it in dump.
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void SecPassword::Process(const wchar *Src,size_t SrcSize,wchar *Dst,size_t DstSize,bool Encode)
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{
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// Source string can be shorter than destination as in case when we process
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// -p<pwd> parameter, so we need to take into account both sizes.
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memcpy(Dst,Src,Min(SrcSize,DstSize)*sizeof(*Dst));
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SecHideData(Dst,DstSize*sizeof(*Dst),Encode,false);
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}
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void SecPassword::Get(wchar *Psw,size_t MaxSize)
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{
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if (PasswordSet)
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{
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Process(&Password[0],Password.size(),Psw,MaxSize,false);
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Psw[MaxSize-1]=0;
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}
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else
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*Psw=0;
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}
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void SecPassword::Set(const wchar *Psw)
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{
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// Eliminate any traces of previously stored password for security reason
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// in case it was longer than new one.
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Clean();
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if (*Psw!=0)
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{
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PasswordSet=true;
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Process(Psw,wcslen(Psw)+1,&Password[0],Password.size(),true);
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}
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}
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size_t SecPassword::Length()
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{
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wchar Plain[MAXPASSWORD];
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Get(Plain,ASIZE(Plain));
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size_t Length=wcslen(Plain);
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cleandata(Plain,ASIZE(Plain));
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return Length;
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}
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bool SecPassword::operator == (SecPassword &psw)
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{
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// We cannot compare encoded data directly, because there is no guarantee
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// than encryption function will always produce the same result for same
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// data (salt?) and because we do not clean the rest of password buffer
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// after trailing zero before encoding password. So we decode first.
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wchar Plain1[MAXPASSWORD],Plain2[MAXPASSWORD];
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Get(Plain1,ASIZE(Plain1));
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psw.Get(Plain2,ASIZE(Plain2));
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bool Result=wcscmp(Plain1,Plain2)==0;
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cleandata(Plain1,ASIZE(Plain1));
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cleandata(Plain2,ASIZE(Plain2));
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return Result;
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}
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// Set CrossProcess to true if we need to pass a password to another process.
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// We use CrossProcess when transferring parameters to UAC elevated WinRAR
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// and Windows GUI SFX modules.
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void SecHideData(void *Data,size_t DataSize,bool Encode,bool CrossProcess)
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{
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// CryptProtectMemory is not available in UWP and CryptProtectData
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// increases data size not allowing in place conversion.
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#if defined(_WIN_ALL)
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// Try to utilize the secure Crypt[Un]ProtectMemory if possible.
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if (GlobalCryptLoader.pCryptProtectMemory==NULL)
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GlobalCryptLoader.Load();
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size_t Aligned=DataSize-DataSize%CRYPTPROTECTMEMORY_BLOCK_SIZE;
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DWORD Flags=CrossProcess ? CRYPTPROTECTMEMORY_CROSS_PROCESS : CRYPTPROTECTMEMORY_SAME_PROCESS;
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if (Encode)
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{
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if (GlobalCryptLoader.pCryptProtectMemory!=NULL)
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{
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if (!GlobalCryptLoader.pCryptProtectMemory(Data,DWORD(Aligned),Flags))
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{
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ErrHandler.GeneralErrMsg(L"CryptProtectMemory failed");
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ErrHandler.SysErrMsg();
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ErrHandler.Exit(RARX_FATAL);
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}
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return;
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}
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}
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else
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{
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if (GlobalCryptLoader.pCryptUnprotectMemory!=NULL)
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{
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if (!GlobalCryptLoader.pCryptUnprotectMemory(Data,DWORD(Aligned),Flags))
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{
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ErrHandler.GeneralErrMsg(L"CryptUnprotectMemory failed");
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ErrHandler.SysErrMsg();
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ErrHandler.Exit(RARX_FATAL);
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}
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return;
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}
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}
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#endif
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// CryptProtectMemory is not available, so only slightly obfuscate data.
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uint Key;
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#ifdef _WIN_ALL
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Key=GetCurrentProcessId();
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#elif defined(_UNIX)
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Key=getpid();
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#else
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Key=0; // Just an arbitrary value.
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#endif
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for (size_t I=0;I<DataSize;I++)
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*((byte *)Data+I)^=Key+I+75;
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}
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