Source code of Windows XP (NT5)
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/*++
Copyright (c) 1994 Microsoft Corporation
All rights reserved.
Module Name:
Mem.cxx
Abstract:
Memory manipulations
Author:
Albert Ting (AlbertT) 20-May-1994
Revision History:
--*/
#include "spllibp.hxx"
#pragma hdrstop
HANDLE ghMemHeap;
#if defined( CHECKMEM ) || DBG
LONG gcbMem = 0;
#endif
#if DBG
HANDLE ghDbgMemHeap;
VBackTrace* gpbtAlloc;
VBackTrace* gpbtFree;
/*++
Memory fail test code
This is test code (checked builds only) that fails memory allocations
at regular intervals. It helps detect cases where we are not checking
memory return errors.
Every gcAlloc allocations, it will try to fail. However, if it detects
that it has failed at that backtrace in the past, it will not fail
and try to fail at the next allocation.
Once it has failed, the counter is reset.
To enable, set gbAllocFail to 1 (usually from the debugger).
If you find an allocation and want to fail at it again, set the
gAllocFailHash to the hash value of the failure, then also
set gAllocFailHashAction to 1 (for fail) or 2 (for break and fail).
gbAllocFail controls whether the alloc fail is enabled.
gcAlloc is the current count of allocs.
gcAllocFail indicates how often we fail (every gcAllocFail allocs).
--*/
BOOL gbAllocFail = FALSE;
LONG gcAlloc = 0;
LONG gcAllocFail = 0x20;
ULONG gAllocFailHash = 0;
enum EAllocFailHashAction {
kIgnore = 0,
kFail = 1,
kBreakFail = 2
};
EAllocFailHashAction gAllocFailHashAction = kIgnore;
PVOID
DbgAllocMem(
UINT cbSize
)
{
return HeapAlloc( ghDbgMemHeap, 0, cbSize );
}
VOID
DbgFreeMem(
PVOID pMem
)
{
if( pMem ){
HeapFree( ghDbgMemHeap, 0, pMem );
}
}
#endif
PVOID
AllocMem(
UINT cbSize
)
/*++
Routine Description:
Allocates memory. If CHECKMEM is defined, adds tail guard.
Arguments:
Return Value:
--*/
{
#if defined( CHECKMEM ) || DBG
PULONG_PTR pMem;
UINT cbNew;
SPLASSERT( cbSize < 0x1000000 );
cbNew = DWordAlign(cbSize+3*sizeof(*pMem));
pMem = (PULONG_PTR)HeapAlloc( ghMemHeap, 0, cbNew );
if (!pMem) {
DBGMSG( DBG_WARN,
( "AllocMem failed: size %x, %d\n",
cbSize, GetLastError( )));
return NULL;
}
FillMemory(pMem, cbNew, 0x83);
pMem[0] = cbSize;
#if DBG
HANDLE hData;
ULONG Hash = 0;
hData = gpbtAlloc ?
gpbtAlloc->hCapture( (ULONG_PTR)&pMem[2], cbSize, 0, &Hash ) :
NULL;
pMem[1] = reinterpret_cast<ULONG_PTR>( hData );
//
// Test if what happens if out of memory failures
// occur.
//
if( gbAllocFail && gpbtAlloc){
BOOL bHashCase;
bHashCase = ( Hash == gAllocFailHash ) &&
( gAllocFailHashAction != kIgnore );
if( bHashCase ||
( InterlockedCompareExchange( &gcAlloc, 0, 0 ) == 0 )){
BOOL bBreak = bHashCase && ( gAllocFailHashAction == kBreakFail );
PLONG plCount;
plCount = gpbtAlloc->plGetCount( hData );
//
// Counter started at -1, so if it is 0 now, then fail
// the allocation.
//
if( bBreak ||
( plCount && InterlockedIncrement( plCount ) == 0 )){
gpbtAlloc->hCapture( 0, cbSize );
HeapFree( ghMemHeap, 0, (PVOID)pMem );
pMem = NULL;
SetLastError( ERROR_NOT_ENOUGH_MEMORY );
//
// Reset the counter to the negative number.
//
InterlockedExchangeAdd( &gcAlloc, -gcAllocFail );
if( bBreak ){
OutputDebugStringA( "Reached AllocFail Hash.\n" );
DebugBreak();
}
return NULL;
}
} else {
//
// We didn't reach zero. Increment the count.
//
InterlockedIncrement( &gcAlloc );
}
}
#endif
InterlockedExchangeAdd( &gcbMem, cbNew );
*(PDWORD)((PBYTE)pMem + cbNew - sizeof(ULONG_PTR)) = 0xdeadbeef;
return (PVOID)(pMem+2);
#else
return (PVOID)HeapAlloc( ghMemHeap, 0, cbSize );
#endif
}
VOID
FreeMem(
PVOID pMem
)
{
if( !pMem ){
return;
}
#if defined( CHECKMEM ) || DBG
DWORD cbSize;
PULONG_PTR pNewMem;
pNewMem = (PULONG_PTR)pMem;
pNewMem -= 2;
cbSize = (DWORD)*pNewMem;
InterlockedExchangeAdd( &gcbMem, -(LONG)cbSize );
if (*(PDWORD)((PBYTE)pMem + DWordAlign(cbSize)) != 0xdeadbeef) {
DBGMSG( DBG_ERROR,
( "Corrupt Memory: %x size = 0x%x\n",
pMem,
cbSize ));
} else {
FillMemory(pNewMem, cbSize, 0x65);
HeapFree( ghMemHeap, 0, (PVOID)pNewMem );
#if DBG
if( gpbtFree ){
gpbtFree->hCapture( (ULONG_PTR)pMem, cbSize );
}
#endif
}
#else
HeapFree( ghMemHeap, 0, (PVOID)pMem );
#endif
}