windows-nt/Source/XPSP1/NT/base/fs/ntfs/tests/logfile/utils.cxx

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//+---------------------------------------------------------------------------
//
// Microsoft Windows
// Copyright (C) Microsoft Corporation, 1996 - 1997.
//
// File: utils.cxx
//
// Contents: general purpose utility functions
//
// Classes:
//
// Functions:
//
// Coupling:
//
// Notes: right now only operator<< for different types
// must init crit sec for rand on your own
//
// History: 9-11-1996 benl Created
//
//----------------------------------------------------------------------------
#include "pch.hxx"
#include <stdio.h>
#include <limits.h>
#include <stdlib.h>
#include "mydebug.hxx"
#include "utils.hxx"
#include "randpeak.hxx"
static CRITICAL_SECTION gcsRand;
static BOOLEAN gfInit;
//+---------------------------------------------------------------------------
//
// Function: PrintGuid
//
// Synopsis:
//
// Arguments: [file] --
// [guid] --
//
// Returns:
//
// History: 1-27-1997 benl Created
//
// Notes:
//
//----------------------------------------------------------------------------
void PrintGuid(FILE * file, const GUID & guid)
{
INT iIndex;
fprintf(file, "%08x-%04hx-%04hx-", guid.Data1, guid.Data2, guid.Data3);
for (iIndex=0;iIndex < 8; iIndex++)
{
fprintf(file,"%01x", guid.Data4[iIndex]);
}
} //PrintGuid
//+---------------------------------------------------------------------------
//
// Function: MyRand
//
// Synopsis: simple rand function
//
// Arguments: [dwLimit] --
//
// Returns: values btwn 0 and dwLimit inclusively
//
// History: 10-23-1996 benl Created
//
// Notes:
//
//----------------------------------------------------------------------------
INT MyRand(INT iLimit)
{
return RandomInRange(0, iLimit);
} //MyRand
//+---------------------------------------------------------------------------
//
// Function: MyRand64
//
// Synopsis: like above but for 64 bit integers
//
// Arguments: [llLimit] --
//
// Returns:
//
// History: 2-12-1997 benl Created
//
// Notes: This works poorly - need a true 64bit random number generator
//
//----------------------------------------------------------------------------
LONGLONG MyRand64(LONGLONG llLimit)
{
LARGE_INTEGER liTemp;
liTemp.LowPart = Random32();
liTemp.HighPart = Random32();
return liTemp.QuadPart % llLimit;
} //MyRand64
//+---------------------------------------------------------------------------
//
// Function: MyRand16
//
// Synopsis: like above but for 16 bit integers
//
// Arguments: [sLimit] --
//
// Returns:
//
// History: 5-15-1997 benl Created
//
// Notes:
//
//----------------------------------------------------------------------------
SHORT MyRand16(SHORT sLimit)
{
return (SHORT) RandomInRange(0, sLimit);
} // MyRand16
//+---------------------------------------------------------------------------
//
// Function: MySRand
//
// Synopsis: srand for threads
//
// Arguments: [dwBase] --
//
// Returns:
//
// History: 10-30-1996 benl Created
//
// Notes:
//
//----------------------------------------------------------------------------
VOID MySRand(DWORD & dwBase)
{
if (!gfInit)
{
InitializeCriticalSection(&gcsRand);
gfInit = TRUE;
}
EnterCriticalSection(&gcsRand);
dwBase++;
SeedRandom32(dwBase);
LeaveCriticalSection(&gcsRand);
} //MySRand
//+---------------------------------------------------------------------------
//
// Function: SwapBuffers
//
// Synopsis: Swap two differently sized buffers such that
// the info is split correctly between them
// i.e if one is 40 bytes and the second 60 bytes
// after its done the first one contains 40 bytes from the orig 2nd buffer
// and the 2nd one contains the following orig 20 bytes of the 2nd buffer and
// then the orig 40. bytes of the first buffer
//
// Arguments: [cbBuf1] -- len of pBuffer1
// [pBuffer1] -- buffer1
// [cbBuf2] -- len of pBuffer2
// [pBuffer2] -- buffer2
//
// Returns:
//
// History: 9-29-1997 benl Created
//
// Notes:
//
//----------------------------------------------------------------------------
void SwapBuffers(INT cbBuf1, BYTE * pBuffer1, INT cbBuf2, BYTE * pBuffer2)
{
BYTE * pTemp = new BYTE[cbBuf1];
INT iFirst;
INT iSecond;
INT iThird;
memcpy(pTemp, pBuffer1, cbBuf1);
iFirst = min(cbBuf1, cbBuf2);
memcpy(pBuffer1, pBuffer2, iFirst);
if (iFirst < cbBuf1)
{
memcpy(pBuffer1 + iFirst, pTemp, cbBuf1 - iFirst);
iSecond = 0;
iThird = cbBuf1 + iFirst;
} else
{
memcpy(pBuffer2, pBuffer1 + iFirst, cbBuf2 - iFirst);
iSecond = cbBuf2 - iFirst;
iThird = 0;
}
memcpy(pBuffer2 + iSecond, pTemp + iThird, cbBuf2 - iSecond);
if (pTemp)
{
delete[] pTemp;
}
} // SwapBuffers
//+---------------------------------------------------------------------------
//
// Function: PrintByte
//
// Synopsis:
//
// Arguments: [byte] --
//
// Returns:
//
// History: 11-14-1996 benl Created
//
// Notes:
//
//----------------------------------------------------------------------------
void PrintByte(BYTE byte)
{
printf("%02hx", byte);
} //PrintByte
//+---------------------------------------------------------------------------
//
// Function: PrintWord
//
// Synopsis:
//
// Arguments: [bytes] --
//
// Returns:
//
// History: 11-14-1996 benl Created
//
// Notes:
//
//----------------------------------------------------------------------------
void PrintWord(LPBYTE bytes)
{
PrintByte(bytes[0]);
printf(" ");
PrintByte(bytes[1]);
} //PrintWord
//+---------------------------------------------------------------------------
//
// Function: PrintDWord
//
// Synopsis:
//
// Arguments: [bytes] --
//
// Returns:
//
// History: 11-14-1996 benl Created
//
// Notes:
//
//----------------------------------------------------------------------------
void PrintDWord(LPBYTE bytes)
{
PrintWord(bytes);
printf(" ");
PrintWord(bytes + 2);
} //PrintDWord
//+---------------------------------------------------------------------------
//
// Function: DumpRawBytes
//
// Synopsis: Helper output function
//
// Arguments: [pBytes] --
// [cBytes] --
//
// Returns:
//
// History: 11-14-1996 benl Created
//
// Notes:
//
//----------------------------------------------------------------------------
void DumpRawBytes(BYTE * pBytes, UINT cBytes)
{
UINT iIndex;
UINT iIndex2;
if (0 == cBytes)
{
printf("Empty Buffer\n");
}
/*
if (cBytes < 16)
{
printf("%04x ",iIndex * 16);
for(iIndex=0; iIndex < cBytes; iIndex++)
{
PrintByte(*(pBytes + iIndex));
printf(" ");
}
}
*/
for (iIndex=0;iIndex < cBytes / 16; iIndex++)
{
printf("%04x ",iIndex * 16);
PrintDWord(pBytes + (iIndex * 16));
printf(" ");
PrintDWord(pBytes + (iIndex * 16 + 4));
printf(" ");
PrintDWord(pBytes + (iIndex * 16 + 8));
printf(" ");
PrintDWord(pBytes + (iIndex * 16 + 12));
printf(" ");
for (iIndex2=0;iIndex2 < 16; iIndex2++)
{
if (isgraph(pBytes[(iIndex*16) + iIndex2]))
{
printf("%c", pBytes[(iIndex*16) + iIndex2]);
} else
{
printf(".");
}
}
printf("\n");
}
//print trailing bytes
printf("%04x ", ((cBytes / 16) * 16));
for (iIndex=0; iIndex < 16; iIndex++)
{
if (iIndex < cBytes % 16)
{
PrintByte(*(pBytes + ((cBytes / 16) * 16) + iIndex));
printf(" ");
} else
{
printf(" ");
}
//add byte separator if necc.
if (iIndex && (iIndex % 7 == 0))
{
printf(" ");
}
}
for (iIndex2=0; iIndex2 < cBytes % 16; iIndex2++)
{
if (isgraph(*(pBytes + ((cBytes / 16) * 16) + iIndex2)))
{
printf("%c", *(pBytes + ((cBytes / 16) * 16) + iIndex2));
} else
{
printf(".");
}
}
printf("\n");
} //DumpRawBytes
//+---------------------------------------------------------------------------
//
// Function: DumpRawDwords
//
// Synopsis:
//
// Arguments: [pDwords] --
// [cBytes] --
//
// Returns:
//
// History: 8-25-1998 benl Created
//
// Notes:
//
//----------------------------------------------------------------------------
void DumpRawDwords(DWORD * pDwords, UINT cBytes)
{
UINT iIndex;
UINT iIndex2;
BYTE * pBytes;
if (0 == cBytes)
{
printf("Empty Buffer\n");
}
for (iIndex=0; iIndex < cBytes / 16; iIndex++)
{
printf("%04x ",iIndex * 16);
printf("%08x ", pDwords[iIndex * 4]);
printf("%08x ", pDwords[iIndex * 4 + 1]);
printf("%08x ", pDwords[iIndex * 4 + 2]);
printf("%08x ", pDwords[iIndex * 4 + 3]);
printf(" ");
pBytes = (BYTE *) (pDwords + (iIndex * 4));
for (iIndex2=0; iIndex2 < 16; iIndex2++)
{
if (isgraph(pBytes[iIndex2]))
{
printf("%c", pBytes[iIndex2]);
} else
{
printf(".");
}
}
printf("\n");
}
//print trailing dwords
printf("%04x ", ((cBytes / 16) * 16));
for (iIndex=0; iIndex < 4; iIndex++)
{
if (iIndex * 4 < cBytes % 16)
{
printf("%08x", pDwords[((cBytes / 16) * 4) +iIndex]);
printf(" ");
} else
{
printf(" ");
}
}
printf(" ");
pBytes = (BYTE *) (pDwords + ((cBytes / 16) * 4));
for (iIndex2=0; iIndex2 < cBytes % 16; iIndex2++)
{
if (isgraph(*(pBytes + iIndex2)))
{
printf("%c", *(pBytes + iIndex2));
} else
{
printf(".");
}
}
printf("\n");
} // DumpRawDwords
//+---------------------------------------------------------------------------
//
// Function: HexStrToInt64
//
// Synopsis:
//
// Arguments: [szIn] --
// [i64Out] --
//
// Returns:
//
// History: 5-30-96 benl Created
//
// Notes:
//
//----------------------------------------------------------------------------
void HexStrToInt64(LPCTSTR szIn, __int64 & i64Out)
{
int i;
const TCHAR * szTmp = szIn;
i64Out = 0;
/*
if (szTmp[0] != '0' && szTmp[1] != 'x') {
return;
}
//move past prefix
szTmp+=2;
*/
while (*szTmp != _T('\0') &&
(_istdigit(*szTmp) || (_totlower(*szTmp) >= 'a' && _totlower(*szTmp) <= 'f')))
{
i64Out *= 16;
if (_istdigit(*szTmp))
{
i64Out += *szTmp - _T('0');
} else
{
i64Out += _totlower(*szTmp) - _T('a') + 10;
}
szTmp++;
} //endwhile
} //HexStrToInt64