dlls/ole32/ifs.c - wine - Git at Google

 /*
  *	basic interfaces
  *
  *	Copyright 1997	Marcus Meissner
  *
  * This library is free software; you can redistribute it and/or
  * modify it under the terms of the GNU Lesser General Public
  * License as published by the Free Software Foundation; either
  * version 2.1 of the License, or (at your option) any later version.
  *
  * This library is distributed in the hope that it will be useful,
  * but WITHOUT ANY WARRANTY; without even the implied warranty of
  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
  * Lesser General Public License for more details.
  *
  * You should have received a copy of the GNU Lesser General Public
  * License along with this library; if not, write to the Free Software
  * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA
  */

 #include "config.h"

 #include <ctype.h>
 #include <stdarg.h>
 #include <stdlib.h>
 #include <string.h>
 #include <assert.h>

 #define COBJMACROS

 #include "windef.h"
 #include "winbase.h"
 #include "winuser.h"
 #include "ole2.h"
 #include "winerror.h"

 #include "wine/debug.h"

 WINE_DEFAULT_DEBUG_CHANNEL(olemalloc);

 /******************************************************************************
  *	IMalloc32 implementation
  *
  * NOTES
  *  For supporting CoRegisterMallocSpy the IMalloc implementation must know if
  *  a given memory block was allocated with a spy active.
  *
  *****************************************************************************/
 /* set the vtable later */
 static const IMallocVtbl VT_IMalloc32;

 typedef struct {
         IMalloc IMalloc_iface;
         DWORD dummy;                /* nothing, we are static */
 	IMallocSpy * pSpy;          /* the spy when active */
 	DWORD SpyedAllocationsLeft; /* number of spyed allocations left */
 	BOOL SpyReleasePending;     /* CoRevokeMallocSpy called with spyed allocations left*/
         LPVOID * SpyedBlocks;       /* root of the table */
         DWORD SpyedBlockTableLength;/* size of the table*/
 } _Malloc32;

 /* this is the static object instance */
 static _Malloc32 Malloc32 = {{&VT_IMalloc32}, 0, NULL, 0, 0, NULL, 0};

 /* with a spy active all calls from pre to post methods are threadsave */
 static CRITICAL_SECTION IMalloc32_SpyCS;
 static CRITICAL_SECTION_DEBUG critsect_debug =
 {
     0, 0, &IMalloc32_SpyCS,
     { &critsect_debug.ProcessLocksList, &critsect_debug.ProcessLocksList },
       0, 0, { (DWORD_PTR)(__FILE__ ": IMalloc32_SpyCS") }
 };
 static CRITICAL_SECTION IMalloc32_SpyCS = { &critsect_debug, -1, 0, 0, 0, 0 };

 /* resize the old table */
 static int SetSpyedBlockTableLength ( DWORD NewLength )
 {
 	LPVOID *NewSpyedBlocks;

 	if (!Malloc32.SpyedBlocks) NewSpyedBlocks = LocalAlloc(LMEM_ZEROINIT, NewLength * sizeof(PVOID));
 	else NewSpyedBlocks = LocalReAlloc(Malloc32.SpyedBlocks, NewLength * sizeof(PVOID), LMEM_ZEROINIT | LMEM_MOVEABLE);
 	if (NewSpyedBlocks) {
 		Malloc32.SpyedBlocks = NewSpyedBlocks;
 		Malloc32.SpyedBlockTableLength = NewLength;
 	}

 	return NewSpyedBlocks != NULL;
 }

 /* add a location to the table */
 static int AddMemoryLocation(LPVOID * pMem)
 {
         LPVOID * Current;

 	/* allocate the table if not already allocated */
 	if (!Malloc32.SpyedBlockTableLength) {
             if (!SetSpyedBlockTableLength(0x1000)) return 0;
 	}

 	/* find a free location */
 	Current = Malloc32.SpyedBlocks;
 	while (*Current) {
             Current++;
 	    if (Current >= Malloc32.SpyedBlocks + Malloc32.SpyedBlockTableLength) {
 	        /* no more space in table, grow it */
                 DWORD old_length = Malloc32.SpyedBlockTableLength;
 	        if (!SetSpyedBlockTableLength( Malloc32.SpyedBlockTableLength + 0x1000 )) return 0;
                 Current = Malloc32.SpyedBlocks + old_length;
 	    }
 	};

 	/* put the location in our table */
 	*Current = pMem;
         Malloc32.SpyedAllocationsLeft++;
 	/*TRACE("%lu\n",Malloc32.SpyedAllocationsLeft);*/
         return 1;
 }

 static int RemoveMemoryLocation(LPCVOID pMem)
 {
         LPVOID * Current;

 	/* allocate the table if not already allocated */
 	if (!Malloc32.SpyedBlockTableLength) {
             if (!SetSpyedBlockTableLength(0x1000)) return 0;
 	}

 	Current = Malloc32.SpyedBlocks;

 	/* find the location */
 	while (*Current != pMem) {
             Current++;
 	    if (Current >= Malloc32.SpyedBlocks + Malloc32.SpyedBlockTableLength)  return 0;      /* not found  */
 	}

 	/* location found */
         Malloc32.SpyedAllocationsLeft--;
 	/*TRACE("%lu\n",Malloc32.SpyedAllocationsLeft);*/
 	*Current = NULL;
 	return 1;
 }

 /******************************************************************************
  *	IMalloc32_QueryInterface	[VTABLE]
  */
 static HRESULT WINAPI IMalloc_fnQueryInterface(LPMALLOC iface,REFIID refiid,LPVOID *obj) {

 	TRACE("(%s,%p)\n",debugstr_guid(refiid),obj);

 	if (IsEqualIID(&IID_IUnknown,refiid) || IsEqualIID(&IID_IMalloc,refiid)) {
 		*obj = &Malloc32;
 		return S_OK;
 	}
 	return E_NOINTERFACE;
 }

 /******************************************************************************
  *	IMalloc32_AddRefRelease		[VTABLE]
  */
 static ULONG WINAPI IMalloc_fnAddRefRelease (LPMALLOC iface) {
 	return 1;
 }

 /******************************************************************************
  *	IMalloc32_Alloc 		[VTABLE]
  */
 static LPVOID WINAPI IMalloc_fnAlloc(LPMALLOC iface, DWORD cb) {

 	LPVOID addr;

 	TRACE("(%d)\n",cb);

 	if(Malloc32.pSpy) {
 	    DWORD preAllocResult;

 	    EnterCriticalSection(&IMalloc32_SpyCS);
 	    preAllocResult = IMallocSpy_PreAlloc(Malloc32.pSpy, cb);
 	    if ((cb != 0) && (preAllocResult == 0)) {
 		/* PreAlloc can force Alloc to fail, but not if cb == 0 */
 		TRACE("returning null\n");
 		LeaveCriticalSection(&IMalloc32_SpyCS);
 		return NULL;
 	    }
 	}

 	addr = HeapAlloc(GetProcessHeap(),0,cb);

 	if(Malloc32.pSpy) {
 	    addr = IMallocSpy_PostAlloc(Malloc32.pSpy, addr);
 	    if (addr) AddMemoryLocation(addr);
 	    LeaveCriticalSection(&IMalloc32_SpyCS);
 	}

 	TRACE("--(%p)\n",addr);
 	return addr;
 }

 /******************************************************************************
  * IMalloc32_Realloc [VTABLE]
  */
 static LPVOID WINAPI IMalloc_fnRealloc(LPMALLOC iface,LPVOID pv,DWORD cb) {

 	LPVOID pNewMemory;

 	TRACE("(%p,%d)\n",pv,cb);

 	if(Malloc32.pSpy) {
 	    LPVOID pRealMemory;
 	    BOOL fSpyed;

 	    EnterCriticalSection(&IMalloc32_SpyCS);
             fSpyed = RemoveMemoryLocation(pv);
             cb = IMallocSpy_PreRealloc(Malloc32.pSpy, pv, cb, &pRealMemory, fSpyed);

 	    /* check if can release the spy */
 	    if(Malloc32.SpyReleasePending && !Malloc32.SpyedAllocationsLeft) {
 	        IMallocSpy_Release(Malloc32.pSpy);
 		Malloc32.SpyReleasePending = FALSE;
 		Malloc32.pSpy = NULL;
 		LeaveCriticalSection(&IMalloc32_SpyCS);
 	    }

 	    if (0==cb) {
 		/* PreRealloc can force Realloc to fail */
 		if (Malloc32.pSpy)
 		    LeaveCriticalSection(&IMalloc32_SpyCS);
 		return NULL;
 	    }

 	    pv = pRealMemory;
 	}

         if (!pv) pNewMemory = HeapAlloc(GetProcessHeap(),0,cb);
 	else if (cb) pNewMemory = HeapReAlloc(GetProcessHeap(),0,pv,cb);
 	else {
 	    HeapFree(GetProcessHeap(),0,pv);
 	    pNewMemory = NULL;
 	}

 	if(Malloc32.pSpy) {
 	    pNewMemory = IMallocSpy_PostRealloc(Malloc32.pSpy, pNewMemory, TRUE);
 	    if (pNewMemory) AddMemoryLocation(pNewMemory);
             LeaveCriticalSection(&IMalloc32_SpyCS);
 	}

 	TRACE("--(%p)\n",pNewMemory);
 	return pNewMemory;
 }

 /******************************************************************************
  * IMalloc32_Free [VTABLE]
  */
 static VOID WINAPI IMalloc_fnFree(LPMALLOC iface,LPVOID pv) {

 	BOOL fSpyed = 0;

 	TRACE("(%p)\n",pv);

 	if(Malloc32.pSpy) {
             EnterCriticalSection(&IMalloc32_SpyCS);
             fSpyed = RemoveMemoryLocation(pv);
 	    pv = IMallocSpy_PreFree(Malloc32.pSpy, pv, fSpyed);
 	}

 	HeapFree(GetProcessHeap(),0,pv);

 	if(Malloc32.pSpy) {
 	    IMallocSpy_PostFree(Malloc32.pSpy, fSpyed);

 	    /* check if can release the spy */
 	    if(Malloc32.SpyReleasePending && !Malloc32.SpyedAllocationsLeft) {
 	        IMallocSpy_Release(Malloc32.pSpy);
 		Malloc32.SpyReleasePending = FALSE;
 		Malloc32.pSpy = NULL;
 	    }

 	    LeaveCriticalSection(&IMalloc32_SpyCS);
         }
 }

 /******************************************************************************
  * IMalloc32_GetSize [VTABLE]
  *
  * NOTES
  *  FIXME returns:
  *      win95:  size allocated (4 byte boundarys)
  *      win2k:  size originally requested !!! (allocated on 8 byte boundarys)
  */
 static DWORD WINAPI IMalloc_fnGetSize(LPMALLOC iface,LPVOID pv) {

 	DWORD cb;
 	BOOL fSpyed = 0;

 	TRACE("(%p)\n",pv);

 	if(Malloc32.pSpy) {
             EnterCriticalSection(&IMalloc32_SpyCS);
 	    pv = IMallocSpy_PreGetSize(Malloc32.pSpy, pv, fSpyed);
 	}

 	cb = HeapSize(GetProcessHeap(),0,pv);

 	if(Malloc32.pSpy) {
 	    cb = IMallocSpy_PostGetSize(Malloc32.pSpy, cb, fSpyed);
 	    LeaveCriticalSection(&IMalloc32_SpyCS);
 	}

 	return cb;
 }

 /******************************************************************************
  * IMalloc32_DidAlloc [VTABLE]
  */
 static INT WINAPI IMalloc_fnDidAlloc(LPMALLOC iface,LPVOID pv) {

 	BOOL fSpyed = 0;
 	int didAlloc;

 	TRACE("(%p)\n",pv);

 	if(Malloc32.pSpy) {
             EnterCriticalSection(&IMalloc32_SpyCS);
 	    pv = IMallocSpy_PreDidAlloc(Malloc32.pSpy, pv, fSpyed);
 	}

 	didAlloc = -1;

 	if(Malloc32.pSpy) {
 	    didAlloc = IMallocSpy_PostDidAlloc(Malloc32.pSpy, pv, fSpyed, didAlloc);
             LeaveCriticalSection(&IMalloc32_SpyCS);
 	}
 	return didAlloc;
 }

 /******************************************************************************
  * IMalloc32_HeapMinimize [VTABLE]
  */
 static VOID WINAPI IMalloc_fnHeapMinimize(LPMALLOC iface) {
 	TRACE("()\n");

 	if(Malloc32.pSpy) {
             EnterCriticalSection(&IMalloc32_SpyCS);
 	    IMallocSpy_PreHeapMinimize(Malloc32.pSpy);
 	}

 	if(Malloc32.pSpy) {
 	    IMallocSpy_PostHeapMinimize(Malloc32.pSpy);
             LeaveCriticalSection(&IMalloc32_SpyCS);
 	}
 }

 static const IMallocVtbl VT_IMalloc32 =
 {
 	IMalloc_fnQueryInterface,
 	IMalloc_fnAddRefRelease,
 	IMalloc_fnAddRefRelease,
 	IMalloc_fnAlloc,
 	IMalloc_fnRealloc,
 	IMalloc_fnFree,
 	IMalloc_fnGetSize,
 	IMalloc_fnDidAlloc,
 	IMalloc_fnHeapMinimize
 };

 /******************************************************************************
  *		CoGetMalloc	[OLE32.@]
  *
  * Retrieves the current IMalloc interface for the process.
  *
  * PARAMS
  *  dwMemContext [I]
  *  lpMalloc     [O] Address where memory allocator object will be stored.
  *
  * RETURNS
  *	Success: S_OK.
  *  Failure: HRESULT code.
  */
 HRESULT WINAPI CoGetMalloc(DWORD dwMemContext, LPMALLOC *lpMalloc)
 {
         *lpMalloc = &Malloc32.IMalloc_iface;
         return S_OK;
 }

 /***********************************************************************
  *           CoTaskMemAlloc     [OLE32.@]
  *
  * Allocates memory using the current process memory allocator.
  *
  * PARAMS
  *  size [I] Size of the memory block to allocate.
  *
  * RETURNS
  * 	Success: Pointer to newly allocated memory block.
  *  Failure: NULL.
  */
 LPVOID WINAPI CoTaskMemAlloc(ULONG size)
 {
         return IMalloc_Alloc(&Malloc32.IMalloc_iface,size);
 }

 /***********************************************************************
  *           CoTaskMemFree      [OLE32.@]
  *
  * Frees memory allocated from the current process memory allocator.
  *
  * PARAMS
  *  ptr [I] Memory block to free.
  *
  * RETURNS
  *  Nothing.
  */
 VOID WINAPI CoTaskMemFree(LPVOID ptr)
 {
         IMalloc_Free(&Malloc32.IMalloc_iface, ptr);
 }

 /***********************************************************************
  *           CoTaskMemRealloc   [OLE32.@]
  *
  * Allocates memory using the current process memory allocator.
  *
  * PARAMS
  *  pvOld [I] Pointer to old memory block.
  *  size  [I] Size of the new memory block.
  *
  * RETURNS
  * 	Success: Pointer to newly allocated memory block.
  *  Failure: NULL.
  */
 LPVOID WINAPI CoTaskMemRealloc(LPVOID pvOld, ULONG size)
 {
         return IMalloc_Realloc(&Malloc32.IMalloc_iface, pvOld, size);
 }

 /***********************************************************************
  *           CoRegisterMallocSpy        [OLE32.@]
  *
  * Registers an object that receives notifications on memory allocations and
  * frees.
  *
  * PARAMS
  *  pMallocSpy [I] New spy object.
  *
  * RETURNS
  *  Success: S_OK.
  *  Failure: HRESULT code.
  *
  * NOTES
  *  if a mallocspy is already registered, we can't do it again since
  *  only the spy knows, how to free a memory block
  */
 HRESULT WINAPI CoRegisterMallocSpy(LPMALLOCSPY pMallocSpy)
 {
 	IMallocSpy* pSpy;
         HRESULT hres = E_INVALIDARG;

 	TRACE("\n");

 	if(Malloc32.pSpy) return CO_E_OBJISREG;

         EnterCriticalSection(&IMalloc32_SpyCS);

 	if (SUCCEEDED(IMallocSpy_QueryInterface(pMallocSpy, &IID_IMallocSpy, (void**)&pSpy))) {
 	    Malloc32.pSpy = pSpy;
 	    hres = S_OK;
 	}

 	LeaveCriticalSection(&IMalloc32_SpyCS);

 	return hres;
 }

 /***********************************************************************
  *           CoRevokeMallocSpy  [OLE32.@]
  *
  * Revokes a previously registered object that receives notifications on memory
  * allocations and frees.
  *
  * PARAMS
  *  pMallocSpy [I] New spy object.
  *
  * RETURNS
  *  Success: S_OK.
  *  Failure: HRESULT code.
  *
  * NOTES
  *  we can't revoke a malloc spy as long as memory blocks allocated with
  *  the spy are active since only the spy knows how to free them
  */
 HRESULT WINAPI CoRevokeMallocSpy(void)
 {
 	HRESULT hres = S_OK;
 	TRACE("\n");

         EnterCriticalSection(&IMalloc32_SpyCS);

 	if (Malloc32.SpyedAllocationsLeft) {
             TRACE("SpyReleasePending with %u allocations left\n", Malloc32.SpyedAllocationsLeft);
 	    Malloc32.SpyReleasePending = TRUE;
 	    hres = E_ACCESSDENIED;
 	} else {
 	    IMallocSpy_Release(Malloc32.pSpy);
 	    Malloc32.pSpy = NULL;
         }
 	LeaveCriticalSection(&IMalloc32_SpyCS);

 	return hres;
 }

 /******************************************************************************
  *		IsValidInterface	[OLE32.@]
  *
  * Determines whether a pointer is a valid interface.
  *
  * PARAMS
  *  punk [I] Interface to be tested.
  *
  * RETURNS
  *  TRUE, if the passed pointer is a valid interface, or FALSE otherwise.
  */
 BOOL WINAPI IsValidInterface(LPUNKNOWN punk)
 {
 	return !(
 		IsBadReadPtr(punk,4)					||
 		IsBadReadPtr(punk->lpVtbl,4)				||
 		IsBadReadPtr(punk->lpVtbl->QueryInterface,9)	||
 		IsBadCodePtr((FARPROC)punk->lpVtbl->QueryInterface)
 	);
 }
	/*
	* basic interfaces
	*
	* Copyright 1997 Marcus Meissner
	*
	* This library is free software; you can redistribute it and/or
	* modify it under the terms of the GNU Lesser General Public
	* License as published by the Free Software Foundation; either
	* version 2.1 of the License, or (at your option) any later version.
	*
	* This library is distributed in the hope that it will be useful,
	* but WITHOUT ANY WARRANTY; without even the implied warranty of
	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
	* Lesser General Public License for more details.
	*
	* You should have received a copy of the GNU Lesser General Public
	* License along with this library; if not, write to the Free Software
	* Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA
	*/

	#include "config.h"

	#include <ctype.h>
	#include <stdarg.h>
	#include <stdlib.h>
	#include <string.h>
	#include <assert.h>

	#define COBJMACROS

	#include "windef.h"
	#include "winbase.h"
	#include "winuser.h"
	#include "ole2.h"
	#include "winerror.h"

	#include "wine/debug.h"

	WINE_DEFAULT_DEBUG_CHANNEL(olemalloc);

	/******************************************************************************
	* IMalloc32 implementation
	*
	* NOTES
	* For supporting CoRegisterMallocSpy the IMalloc implementation must know if
	* a given memory block was allocated with a spy active.
	*
	*****************************************************************************/
	/* set the vtable later */
	static const IMallocVtbl VT_IMalloc32;

	typedef struct {
	IMalloc IMalloc_iface;
	DWORD dummy; /* nothing, we are static */
	IMallocSpy * pSpy; /* the spy when active */
	DWORD SpyedAllocationsLeft; /* number of spyed allocations left */
	BOOL SpyReleasePending; /* CoRevokeMallocSpy called with spyed allocations left*/
	LPVOID * SpyedBlocks; /* root of the table */
	DWORD SpyedBlockTableLength;/* size of the table*/
	} _Malloc32;

	/* this is the static object instance */
	static _Malloc32 Malloc32 = {{&VT_IMalloc32}, 0, NULL, 0, 0, NULL, 0};

	/* with a spy active all calls from pre to post methods are threadsave */
	static CRITICAL_SECTION IMalloc32_SpyCS;
	static CRITICAL_SECTION_DEBUG critsect_debug =
	{
	0, 0, &IMalloc32_SpyCS,
	{ &critsect_debug.ProcessLocksList, &critsect_debug.ProcessLocksList },
	0, 0, { (DWORD_PTR)(__FILE__ ": IMalloc32_SpyCS") }
	};
	static CRITICAL_SECTION IMalloc32_SpyCS = { &critsect_debug, -1, 0, 0, 0, 0 };

	/* resize the old table */
	static int SetSpyedBlockTableLength ( DWORD NewLength )
	{
	LPVOID *NewSpyedBlocks;

	if (!Malloc32.SpyedBlocks) NewSpyedBlocks = LocalAlloc(LMEM_ZEROINIT, NewLength * sizeof(PVOID));
	else NewSpyedBlocks = LocalReAlloc(Malloc32.SpyedBlocks, NewLength * sizeof(PVOID), LMEM_ZEROINIT \| LMEM_MOVEABLE);
	if (NewSpyedBlocks) {
	Malloc32.SpyedBlocks = NewSpyedBlocks;
	Malloc32.SpyedBlockTableLength = NewLength;
	}

	return NewSpyedBlocks != NULL;
	}

	/* add a location to the table */
	static int AddMemoryLocation(LPVOID * pMem)
	{
	LPVOID * Current;

	/* allocate the table if not already allocated */
	if (!Malloc32.SpyedBlockTableLength) {
	if (!SetSpyedBlockTableLength(0x1000)) return 0;
	}

	/* find a free location */
	Current = Malloc32.SpyedBlocks;
	while (*Current) {
	Current++;
	if (Current >= Malloc32.SpyedBlocks + Malloc32.SpyedBlockTableLength) {
	/* no more space in table, grow it */
	DWORD old_length = Malloc32.SpyedBlockTableLength;
	if (!SetSpyedBlockTableLength( Malloc32.SpyedBlockTableLength + 0x1000 )) return 0;
	Current = Malloc32.SpyedBlocks + old_length;
	}
	};

	/* put the location in our table */
	*Current = pMem;
	Malloc32.SpyedAllocationsLeft++;
	/TRACE("%lu\n",Malloc32.SpyedAllocationsLeft);/
	return 1;
	}

	static int RemoveMemoryLocation(LPCVOID pMem)
	{
	LPVOID * Current;

	/* allocate the table if not already allocated */
	if (!Malloc32.SpyedBlockTableLength) {
	if (!SetSpyedBlockTableLength(0x1000)) return 0;
	}

	Current = Malloc32.SpyedBlocks;

	/* find the location */
	while (*Current != pMem) {
	Current++;
	if (Current >= Malloc32.SpyedBlocks + Malloc32.SpyedBlockTableLength) return 0; /* not found */
	}

	/* location found */
	Malloc32.SpyedAllocationsLeft--;
	/TRACE("%lu\n",Malloc32.SpyedAllocationsLeft);/
	*Current = NULL;
	return 1;
	}

	/******************************************************************************
	* IMalloc32_QueryInterface [VTABLE]
	*/
	static HRESULT WINAPI IMalloc_fnQueryInterface(LPMALLOC iface,REFIID refiid,LPVOID *obj) {

	TRACE("(%s,%p)\n",debugstr_guid(refiid),obj);

	if (IsEqualIID(&IID_IUnknown,refiid) \|\| IsEqualIID(&IID_IMalloc,refiid)) {
	*obj = &Malloc32;
	return S_OK;
	}
	return E_NOINTERFACE;
	}

	/******************************************************************************
	* IMalloc32_AddRefRelease [VTABLE]
	*/
	static ULONG WINAPI IMalloc_fnAddRefRelease (LPMALLOC iface) {
	return 1;
	}

	/******************************************************************************
	* IMalloc32_Alloc [VTABLE]
	*/
	static LPVOID WINAPI IMalloc_fnAlloc(LPMALLOC iface, DWORD cb) {

	LPVOID addr;

	TRACE("(%d)\n",cb);

	if(Malloc32.pSpy) {
	DWORD preAllocResult;

	EnterCriticalSection(&IMalloc32_SpyCS);
	preAllocResult = IMallocSpy_PreAlloc(Malloc32.pSpy, cb);
	if ((cb != 0) && (preAllocResult == 0)) {
	/* PreAlloc can force Alloc to fail, but not if cb == 0 */
	TRACE("returning null\n");
	LeaveCriticalSection(&IMalloc32_SpyCS);
	return NULL;
	}
	}

	addr = HeapAlloc(GetProcessHeap(),0,cb);

	if(Malloc32.pSpy) {
	addr = IMallocSpy_PostAlloc(Malloc32.pSpy, addr);
	if (addr) AddMemoryLocation(addr);
	LeaveCriticalSection(&IMalloc32_SpyCS);
	}

	TRACE("--(%p)\n",addr);
	return addr;
	}

	/******************************************************************************
	* IMalloc32_Realloc [VTABLE]
	*/
	static LPVOID WINAPI IMalloc_fnRealloc(LPMALLOC iface,LPVOID pv,DWORD cb) {

	LPVOID pNewMemory;

	TRACE("(%p,%d)\n",pv,cb);

	if(Malloc32.pSpy) {
	LPVOID pRealMemory;
	BOOL fSpyed;

	EnterCriticalSection(&IMalloc32_SpyCS);
	fSpyed = RemoveMemoryLocation(pv);
	cb = IMallocSpy_PreRealloc(Malloc32.pSpy, pv, cb, &pRealMemory, fSpyed);

	/* check if can release the spy */
	if(Malloc32.SpyReleasePending && !Malloc32.SpyedAllocationsLeft) {
	IMallocSpy_Release(Malloc32.pSpy);
	Malloc32.SpyReleasePending = FALSE;
	Malloc32.pSpy = NULL;
	LeaveCriticalSection(&IMalloc32_SpyCS);
	}

	if (0==cb) {
	/* PreRealloc can force Realloc to fail */
	if (Malloc32.pSpy)
	LeaveCriticalSection(&IMalloc32_SpyCS);
	return NULL;
	}

	pv = pRealMemory;
	}

	if (!pv) pNewMemory = HeapAlloc(GetProcessHeap(),0,cb);
	else if (cb) pNewMemory = HeapReAlloc(GetProcessHeap(),0,pv,cb);
	else {
	HeapFree(GetProcessHeap(),0,pv);
	pNewMemory = NULL;
	}

	if(Malloc32.pSpy) {
	pNewMemory = IMallocSpy_PostRealloc(Malloc32.pSpy, pNewMemory, TRUE);
	if (pNewMemory) AddMemoryLocation(pNewMemory);
	LeaveCriticalSection(&IMalloc32_SpyCS);
	}

	TRACE("--(%p)\n",pNewMemory);
	return pNewMemory;
	}

	/******************************************************************************
	* IMalloc32_Free [VTABLE]
	*/
	static VOID WINAPI IMalloc_fnFree(LPMALLOC iface,LPVOID pv) {

	BOOL fSpyed = 0;

	TRACE("(%p)\n",pv);

	if(Malloc32.pSpy) {
	EnterCriticalSection(&IMalloc32_SpyCS);
	fSpyed = RemoveMemoryLocation(pv);
	pv = IMallocSpy_PreFree(Malloc32.pSpy, pv, fSpyed);
	}

	HeapFree(GetProcessHeap(),0,pv);

	if(Malloc32.pSpy) {
	IMallocSpy_PostFree(Malloc32.pSpy, fSpyed);

	/* check if can release the spy */
	if(Malloc32.SpyReleasePending && !Malloc32.SpyedAllocationsLeft) {
	IMallocSpy_Release(Malloc32.pSpy);
	Malloc32.SpyReleasePending = FALSE;
	Malloc32.pSpy = NULL;
	}

	LeaveCriticalSection(&IMalloc32_SpyCS);
	}
	}

	/******************************************************************************
	* IMalloc32_GetSize [VTABLE]
	*
	* NOTES
	* FIXME returns:
	* win95: size allocated (4 byte boundarys)
	* win2k: size originally requested !!! (allocated on 8 byte boundarys)
	*/
	static DWORD WINAPI IMalloc_fnGetSize(LPMALLOC iface,LPVOID pv) {

	DWORD cb;
	BOOL fSpyed = 0;

	TRACE("(%p)\n",pv);

	if(Malloc32.pSpy) {
	EnterCriticalSection(&IMalloc32_SpyCS);
	pv = IMallocSpy_PreGetSize(Malloc32.pSpy, pv, fSpyed);
	}

	cb = HeapSize(GetProcessHeap(),0,pv);

	if(Malloc32.pSpy) {
	cb = IMallocSpy_PostGetSize(Malloc32.pSpy, cb, fSpyed);
	LeaveCriticalSection(&IMalloc32_SpyCS);
	}

	return cb;
	}

	/******************************************************************************
	* IMalloc32_DidAlloc [VTABLE]
	*/
	static INT WINAPI IMalloc_fnDidAlloc(LPMALLOC iface,LPVOID pv) {

	BOOL fSpyed = 0;
	int didAlloc;

	TRACE("(%p)\n",pv);

	if(Malloc32.pSpy) {
	EnterCriticalSection(&IMalloc32_SpyCS);
	pv = IMallocSpy_PreDidAlloc(Malloc32.pSpy, pv, fSpyed);
	}

	didAlloc = -1;

	if(Malloc32.pSpy) {
	didAlloc = IMallocSpy_PostDidAlloc(Malloc32.pSpy, pv, fSpyed, didAlloc);
	LeaveCriticalSection(&IMalloc32_SpyCS);
	}
	return didAlloc;
	}

	/******************************************************************************
	* IMalloc32_HeapMinimize [VTABLE]
	*/
	static VOID WINAPI IMalloc_fnHeapMinimize(LPMALLOC iface) {
	TRACE("()\n");

	if(Malloc32.pSpy) {
	EnterCriticalSection(&IMalloc32_SpyCS);
	IMallocSpy_PreHeapMinimize(Malloc32.pSpy);
	}

	if(Malloc32.pSpy) {
	IMallocSpy_PostHeapMinimize(Malloc32.pSpy);
	LeaveCriticalSection(&IMalloc32_SpyCS);
	}
	}

	static const IMallocVtbl VT_IMalloc32 =
	{
	IMalloc_fnQueryInterface,
	IMalloc_fnAddRefRelease,
	IMalloc_fnAddRefRelease,
	IMalloc_fnAlloc,
	IMalloc_fnRealloc,
	IMalloc_fnFree,
	IMalloc_fnGetSize,
	IMalloc_fnDidAlloc,
	IMalloc_fnHeapMinimize
	};

	/******************************************************************************
	* CoGetMalloc [OLE32.@]
	*
	* Retrieves the current IMalloc interface for the process.
	*
	* PARAMS
	* dwMemContext [I]
	* lpMalloc [O] Address where memory allocator object will be stored.
	*
	* RETURNS
	* Success: S_OK.
	* Failure: HRESULT code.
	*/
	HRESULT WINAPI CoGetMalloc(DWORD dwMemContext, LPMALLOC *lpMalloc)
	{
	*lpMalloc = &Malloc32.IMalloc_iface;
	return S_OK;
	}

	/***********************************************************************
	* CoTaskMemAlloc [OLE32.@]
	*
	* Allocates memory using the current process memory allocator.
	*
	* PARAMS
	* size [I] Size of the memory block to allocate.
	*
	* RETURNS
	* Success: Pointer to newly allocated memory block.
	* Failure: NULL.
	*/
	LPVOID WINAPI CoTaskMemAlloc(ULONG size)
	{
	return IMalloc_Alloc(&Malloc32.IMalloc_iface,size);
	}

	/***********************************************************************
	* CoTaskMemFree [OLE32.@]
	*
	* Frees memory allocated from the current process memory allocator.
	*
	* PARAMS
	* ptr [I] Memory block to free.
	*
	* RETURNS
	* Nothing.
	*/
	VOID WINAPI CoTaskMemFree(LPVOID ptr)
	{
	IMalloc_Free(&Malloc32.IMalloc_iface, ptr);
	}

	/***********************************************************************
	* CoTaskMemRealloc [OLE32.@]
	*
	* Allocates memory using the current process memory allocator.
	*
	* PARAMS
	* pvOld [I] Pointer to old memory block.
	* size [I] Size of the new memory block.
	*
	* RETURNS
	* Success: Pointer to newly allocated memory block.
	* Failure: NULL.
	*/
	LPVOID WINAPI CoTaskMemRealloc(LPVOID pvOld, ULONG size)
	{
	return IMalloc_Realloc(&Malloc32.IMalloc_iface, pvOld, size);
	}

	/***********************************************************************
	* CoRegisterMallocSpy [OLE32.@]
	*
	* Registers an object that receives notifications on memory allocations and
	* frees.
	*
	* PARAMS
	* pMallocSpy [I] New spy object.
	*
	* RETURNS
	* Success: S_OK.
	* Failure: HRESULT code.
	*
	* NOTES
	* if a mallocspy is already registered, we can't do it again since
	* only the spy knows, how to free a memory block
	*/
	HRESULT WINAPI CoRegisterMallocSpy(LPMALLOCSPY pMallocSpy)
	{
	IMallocSpy* pSpy;
	HRESULT hres = E_INVALIDARG;

	TRACE("\n");

	if(Malloc32.pSpy) return CO_E_OBJISREG;

	EnterCriticalSection(&IMalloc32_SpyCS);

	if (SUCCEEDED(IMallocSpy_QueryInterface(pMallocSpy, &IID_IMallocSpy, (void**)&pSpy))) {
	Malloc32.pSpy = pSpy;
	hres = S_OK;
	}

	LeaveCriticalSection(&IMalloc32_SpyCS);

	return hres;
	}

	/***********************************************************************
	* CoRevokeMallocSpy [OLE32.@]
	*
	* Revokes a previously registered object that receives notifications on memory
	* allocations and frees.
	*
	* PARAMS
	* pMallocSpy [I] New spy object.
	*
	* RETURNS
	* Success: S_OK.
	* Failure: HRESULT code.
	*
	* NOTES
	* we can't revoke a malloc spy as long as memory blocks allocated with
	* the spy are active since only the spy knows how to free them
	*/
	HRESULT WINAPI CoRevokeMallocSpy(void)
	{
	HRESULT hres = S_OK;
	TRACE("\n");

	EnterCriticalSection(&IMalloc32_SpyCS);

	if (Malloc32.SpyedAllocationsLeft) {
	TRACE("SpyReleasePending with %u allocations left\n", Malloc32.SpyedAllocationsLeft);
	Malloc32.SpyReleasePending = TRUE;
	hres = E_ACCESSDENIED;
	} else {
	IMallocSpy_Release(Malloc32.pSpy);
	Malloc32.pSpy = NULL;
	}
	LeaveCriticalSection(&IMalloc32_SpyCS);

	return hres;
	}

	/******************************************************************************
	* IsValidInterface [OLE32.@]
	*
	* Determines whether a pointer is a valid interface.
	*
	* PARAMS
	* punk [I] Interface to be tested.
	*
	* RETURNS
	* TRUE, if the passed pointer is a valid interface, or FALSE otherwise.
	*/
	BOOL WINAPI IsValidInterface(LPUNKNOWN punk)
	{
	return !(
	IsBadReadPtr(punk,4) \|\|
	IsBadReadPtr(punk->lpVtbl,4) \|\|
	IsBadReadPtr(punk->lpVtbl->QueryInterface,9) \|\|
	IsBadCodePtr((FARPROC)punk->lpVtbl->QueryInterface)
	);
	}