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