void CRandomGenerator::Init() { NCrypto::NSha1::CContext hash; hash.Init(); #ifdef _WIN32 DWORD w = ::GetCurrentProcessId(); hash.Update((const Byte *)&w, sizeof(w)); w = ::GetCurrentThreadId(); hash.Update((const Byte *)&w, sizeof(w)); #endif for (int i = 0; i < 1000; i++) { #ifdef _WIN32 LARGE_INTEGER v; if (::QueryPerformanceCounter(&v)) hash.Update((const Byte *)&v.QuadPart, sizeof(v.QuadPart)); #endif DWORD tickCount = ::GetTickCount(); hash.Update((const Byte *)&tickCount, sizeof(tickCount)); for (int j = 0; j < 100; j++) { hash.Final(_buff); hash.Init(); hash.Update(_buff, NCrypto::NSha1::kDigestSize); } } hash.Final(_buff); _needInit = false; }
void CRandomGenerator::Generate(Byte *data, unsigned int size) { g_CriticalSection.Enter(); if (_needInit) Init(); while (size > 0) { NCrypto::NSha1::CContext hash; hash.Init(); hash.Update(_buff, NCrypto::NSha1::kDigestSize); hash.Final(_buff); hash.Init(); UInt32 salt = 0xF672ABD1; hash.Update((const Byte *)&salt, sizeof(salt)); hash.Update(_buff, NCrypto::NSha1::kDigestSize); Byte buff[NCrypto::NSha1::kDigestSize]; hash.Final(buff); for (unsigned int i = 0; i < NCrypto::NSha1::kDigestSize && size > 0; i++, size--) *data++ = buff[i]; } g_CriticalSection.Leave(); }
void CRandomGenerator::Init() { NCrypto::NSha1::CContext hash; hash.Init(); #ifdef _WIN32 DWORD w = ::GetCurrentProcessId(); hash.Update((const Byte *)&w, sizeof(w)); w = ::GetCurrentThreadId(); hash.Update((const Byte *)&w, sizeof(w)); #else pid_t pid = getpid(); hash.Update((const Byte *)&pid, sizeof(pid)); pid = getppid(); hash.Update((const Byte *)&pid, sizeof(pid)); #endif for (int i = 0; i < 1000; i++) { #ifdef _WIN32 LARGE_INTEGER v; if (::QueryPerformanceCounter(&v)) hash.Update((const Byte *)&v.QuadPart, sizeof(v.QuadPart)); #endif #ifdef USE_POSIX_TIME #ifdef USE_POSIX_TIME2 timeval v; if (gettimeofday(&v, 0) == 0) { hash.Update((const Byte *)&v.tv_sec, sizeof(v.tv_sec)); hash.Update((const Byte *)&v.tv_usec, sizeof(v.tv_usec)); } #endif time_t v2 = time(NULL); hash.Update((const Byte *)&v2, sizeof(v2)); #endif DWORD tickCount = ::GetTickCount(); hash.Update((const Byte *)&tickCount, sizeof(tickCount)); for (int j = 0; j < 100; j++) { hash.Final(_buff); hash.Init(); hash.Update(_buff, NCrypto::NSha1::kDigestSize); } } hash.Final(_buff); _needInit = false; }