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// RandGen.cpp
#include "StdAfx.h"
#include "RandGen.h"
#ifndef USE_STATIC_SYSTEM_RAND
#ifndef Z7_ST
#include "../../Windows/Synchronization.h"
#endif
#ifdef _WIN32
#ifdef _WIN64
#define USE_STATIC_RtlGenRandom
#endif
#ifdef USE_STATIC_RtlGenRandom
// #include <NTSecAPI.h>
EXTERN_C_BEGIN
#ifndef RtlGenRandom
#define RtlGenRandom SystemFunction036
BOOLEAN WINAPI RtlGenRandom(PVOID RandomBuffer, ULONG RandomBufferLength);
#endif
EXTERN_C_END
#else
EXTERN_C_BEGIN
typedef BOOLEAN (WINAPI * Func_RtlGenRandom)(PVOID RandomBuffer, ULONG RandomBufferLength);
EXTERN_C_END
#endif
#else
#include <unistd.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <fcntl.h>
#define USE_POSIX_TIME
#define USE_POSIX_TIME2
#endif
#ifdef USE_POSIX_TIME
#include <time.h>
#ifdef USE_POSIX_TIME2
#include <sys/time.h>
#endif
#endif
// The seed and first generated data block depend from processID,
// theadID, timer and system random generator, if available.
// Other generated data blocks depend from previous state
#define HASH_UPD(x) Sha256_Update(&hash, (const Byte *)&x, sizeof(x));
void CRandomGenerator::Init()
{
MY_ALIGN (16)
CSha256 hash;
Sha256_Init(&hash);
unsigned numIterations = 1000;
{
#ifndef UNDER_CE
const unsigned kNumIterations_Small = 100;
const unsigned kBufSize = 32;
MY_ALIGN (16)
Byte buf[kBufSize];
#endif
#ifdef _WIN32
DWORD w = ::GetCurrentProcessId();
HASH_UPD(w)
w = ::GetCurrentThreadId();
HASH_UPD(w)
#ifdef UNDER_CE
/*
if (CeGenRandom(kBufSize, buf))
{
numIterations = kNumIterations_Small;
Sha256_Update(&hash, buf, kBufSize);
}
*/
#elif defined(USE_STATIC_RtlGenRandom)
if (RtlGenRandom(buf, kBufSize))
{
numIterations = kNumIterations_Small;
Sha256_Update(&hash, buf, kBufSize);
}
#else
{
const HMODULE hModule = ::LoadLibrary(TEXT("advapi32.dll"));
if (hModule)
{
// SystemFunction036() is real name of RtlGenRandom() function
const
Func_RtlGenRandom
my_RtlGenRandom = Z7_GET_PROC_ADDRESS(
Func_RtlGenRandom, hModule, "SystemFunction036");
if (my_RtlGenRandom)
{
if (my_RtlGenRandom(buf, kBufSize))
{
numIterations = kNumIterations_Small;
Sha256_Update(&hash, buf, kBufSize);
}
}
::FreeLibrary(hModule);
}
}
#endif
#else
pid_t pid = getpid();
HASH_UPD(pid)
pid = getppid();
HASH_UPD(pid)
{
int f = open("/dev/urandom", O_RDONLY);
unsigned numBytes = kBufSize;
if (f >= 0)
{
do
{
ssize_t n = read(f, buf, numBytes);
if (n <= 0)
break;
Sha256_Update(&hash, buf, (size_t)n);
numBytes -= (unsigned)n;
}
while (numBytes);
close(f);
if (numBytes == 0)
numIterations = kNumIterations_Small;
}
}
/*
{
int n = getrandom(buf, kBufSize, 0);
if (n > 0)
{
Sha256_Update(&hash, buf, n);
if (n == kBufSize)
numIterations = kNumIterations_Small;
}
}
*/
#endif
}
#ifdef _DEBUG
numIterations = 2;
#endif
do
{
#ifdef _WIN32
LARGE_INTEGER v;
if (::QueryPerformanceCounter(&v))
HASH_UPD(v.QuadPart)
#endif
#ifdef USE_POSIX_TIME
#ifdef USE_POSIX_TIME2
timeval v;
if (gettimeofday(&v, NULL) == 0)
{
HASH_UPD(v.tv_sec)
HASH_UPD(v.tv_usec)
}
#endif
const time_t v2 = time(NULL);
HASH_UPD(v2)
#endif
#ifdef _WIN32
const DWORD tickCount = ::GetTickCount();
HASH_UPD(tickCount)
#endif
for (unsigned j = 0; j < 100; j++)
{
Sha256_Final(&hash, _buff);
Sha256_Init(&hash);
Sha256_Update(&hash, _buff, SHA256_DIGEST_SIZE);
}
}
while (--numIterations);
Sha256_Final(&hash, _buff);
_needInit = false;
}
#ifndef Z7_ST
static NWindows::NSynchronization::CCriticalSection g_CriticalSection;
#define MT_LOCK NWindows::NSynchronization::CCriticalSectionLock lock(g_CriticalSection);
#else
#define MT_LOCK
#endif
void CRandomGenerator::Generate(Byte *data, unsigned size)
{
MT_LOCK
if (_needInit)
Init();
while (size != 0)
{
MY_ALIGN (16)
CSha256 hash;
Sha256_Init(&hash);
Sha256_Update(&hash, _buff, SHA256_DIGEST_SIZE);
Sha256_Final(&hash, _buff);
Sha256_Init(&hash);
UInt32 salt = 0xF672ABD1;
HASH_UPD(salt)
Sha256_Update(&hash, _buff, SHA256_DIGEST_SIZE);
MY_ALIGN (16)
Byte buff[SHA256_DIGEST_SIZE];
Sha256_Final(&hash, buff);
for (unsigned i = 0; i < SHA256_DIGEST_SIZE && size != 0; i++, size--)
*data++ = buff[i];
}
}
MY_ALIGN (16)
CRandomGenerator g_RandomGenerator;
#endif
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