reactos/win32ss/user/ntuser/object.c
Thamatip Chitpong 533d877aaf
[NTUSER] Remove RETURN() macro (#6194)
Remove macro definition and the remaining uses.
RETURN() macro is just a wrapper for goto, most of the time it makes the code more complicated than using goto directly.
2023-12-21 11:10:46 +07:00

872 lines
21 KiB
C

/*
* COPYRIGHT: See COPYING in the top level directory
* PROJECT: ReactOS kernel
* PURPOSE: User handle manager
* FILE: win32ss/user/ntuser/object.c
* PROGRAMER: Copyright (C) 2001 Alexandre Julliard
*/
#include <win32k.h>
DBG_DEFAULT_CHANNEL(UserObj);
//int usedHandles=0;
PUSER_HANDLE_TABLE gHandleTable = NULL;
/* Forward declarations */
_Success_(return!=NULL)
static PVOID AllocThreadObject(
_In_ PDESKTOP pDesk,
_In_ PTHREADINFO pti,
_In_ SIZE_T Size,
_Out_ PVOID* HandleOwner)
{
PTHROBJHEAD ObjHead;
UNREFERENCED_PARAMETER(pDesk);
ASSERT(Size > sizeof(*ObjHead));
ASSERT(pti != NULL);
ObjHead = UserHeapAlloc(Size);
if (!ObjHead)
return NULL;
RtlZeroMemory(ObjHead, Size);
ObjHead->pti = pti;
IntReferenceThreadInfo(pti);
*HandleOwner = pti;
/* It's a thread object, but it still count as one for the process */
pti->ppi->UserHandleCount++;
return ObjHead;
}
static void FreeThreadObject(
_In_ PVOID Object)
{
PTHROBJHEAD ObjHead = (PTHROBJHEAD)Object;
PTHREADINFO pti = ObjHead->pti;
UserHeapFree(ObjHead);
pti->ppi->UserHandleCount--;
IntDereferenceThreadInfo(pti);
}
_Success_(return!=NULL)
static PVOID AllocDeskThreadObject(
_In_ PDESKTOP pDesk,
_In_ PTHREADINFO pti,
_In_ SIZE_T Size,
_Out_ PVOID* HandleOwner)
{
PTHRDESKHEAD ObjHead;
ASSERT(Size > sizeof(*ObjHead));
ASSERT(pti != NULL);
if (!pDesk)
pDesk = pti->rpdesk;
ObjHead = DesktopHeapAlloc(pDesk, Size);
if (!ObjHead)
return NULL;
RtlZeroMemory(ObjHead, Size);
ObjHead->pSelf = ObjHead;
ObjHead->rpdesk = pDesk;
ObjHead->pti = pti;
IntReferenceThreadInfo(pti);
*HandleOwner = pti;
/* It's a thread object, but it still count as one for the process */
pti->ppi->UserHandleCount++;
return ObjHead;
}
static void FreeDeskThreadObject(
_In_ PVOID Object)
{
PTHRDESKHEAD ObjHead = (PTHRDESKHEAD)Object;
PDESKTOP pDesk = ObjHead->rpdesk;
PTHREADINFO pti = ObjHead->pti;
DesktopHeapFree(pDesk, Object);
pti->ppi->UserHandleCount--;
IntDereferenceThreadInfo(pti);
}
_Success_(return!=NULL)
static PVOID AllocDeskProcObject(
_In_ PDESKTOP pDesk,
_In_ PTHREADINFO pti,
_In_ SIZE_T Size,
_Out_ PVOID* HandleOwner)
{
PPROCDESKHEAD ObjHead;
PPROCESSINFO ppi;
ASSERT(Size > sizeof(*ObjHead));
ASSERT(pDesk != NULL);
ASSERT(pti != NULL);
ObjHead = DesktopHeapAlloc(pDesk, Size);
if (!ObjHead)
return NULL;
RtlZeroMemory(ObjHead, Size);
ppi = pti->ppi;
ObjHead->pSelf = ObjHead;
ObjHead->rpdesk = pDesk;
ObjHead->hTaskWow = (DWORD_PTR)ppi;
ppi->UserHandleCount++;
IntReferenceProcessInfo(ppi);
*HandleOwner = ppi;
return ObjHead;
}
static void FreeDeskProcObject(
_In_ PVOID Object)
{
PPROCDESKHEAD ObjHead = (PPROCDESKHEAD)Object;
PDESKTOP pDesk = ObjHead->rpdesk;
PPROCESSINFO ppi = (PPROCESSINFO)ObjHead->hTaskWow;
ppi->UserHandleCount--;
IntDereferenceProcessInfo(ppi);
DesktopHeapFree(pDesk, Object);
}
_Success_(return!=NULL)
static PVOID AllocProcMarkObject(
_In_ PDESKTOP pDesk,
_In_ PTHREADINFO pti,
_In_ SIZE_T Size,
_Out_ PVOID* HandleOwner)
{
PPROCMARKHEAD ObjHead;
PPROCESSINFO ppi = pti->ppi;
UNREFERENCED_PARAMETER(pDesk);
ASSERT(Size > sizeof(*ObjHead));
ObjHead = UserHeapAlloc(Size);
if (!ObjHead)
return NULL;
RtlZeroMemory(ObjHead, Size);
ObjHead->ppi = ppi;
IntReferenceProcessInfo(ppi);
*HandleOwner = ppi;
ppi->UserHandleCount++;
return ObjHead;
}
void FreeProcMarkObject(
_In_ PVOID Object)
{
PPROCESSINFO ppi = ((PPROCMARKHEAD)Object)->ppi;
UserHeapFree(Object);
ppi->UserHandleCount--;
IntDereferenceProcessInfo(ppi);
}
_Success_(return!=NULL)
static PVOID AllocSysObject(
_In_ PDESKTOP pDesk,
_In_ PTHREADINFO pti,
_In_ SIZE_T Size,
_Out_ PVOID* ObjectOwner)
{
PVOID Object;
UNREFERENCED_PARAMETER(pDesk);
UNREFERENCED_PARAMETER(pti);
ASSERT(Size > sizeof(HEAD));
Object = UserHeapAlloc(Size);
if (!Object)
return NULL;
*ObjectOwner = NULL;
RtlZeroMemory(Object, Size);
return Object;
}
_Success_(return!=NULL)
static PVOID AllocSysObjectCB(
_In_ PDESKTOP pDesk,
_In_ PTHREADINFO pti,
_In_ SIZE_T Size,
_Out_ PVOID* ObjectOwner)
{
PVOID Object;
UNREFERENCED_PARAMETER(pDesk);
UNREFERENCED_PARAMETER(pti);
ASSERT(Size > sizeof(HEAD));
/* Allocate the clipboard data */
// FIXME: This allocation should be done on the current session pool;
// however ReactOS' MM doesn't support session pool yet.
Object = ExAllocatePoolZero(/* SESSION_POOL_MASK | */ PagedPool, Size, USERTAG_CLIPBOARD);
if (!Object)
{
ERR("ExAllocatePoolZero failed. No object created.\n");
return NULL;
}
*ObjectOwner = NULL;
return Object;
}
static void FreeSysObject(
_In_ PVOID Object)
{
UserHeapFree(Object);
}
static void FreeSysObjectCB(
_In_ PVOID Object)
{
ExFreePoolWithTag(Object, USERTAG_CLIPBOARD);
}
static const struct
{
PVOID (*ObjectAlloc)(PDESKTOP, PTHREADINFO, SIZE_T, PVOID*);
BOOLEAN (*ObjectDestroy)(PVOID);
void (*ObjectFree)(PVOID);
} ObjectCallbacks[TYPE_CTYPES] =
{
{ NULL, NULL, NULL }, /* TYPE_FREE */
{ AllocDeskThreadObject, co_UserDestroyWindow, FreeDeskThreadObject }, /* TYPE_WINDOW */
{ AllocDeskProcObject, UserDestroyMenuObject, FreeDeskProcObject }, /* TYPE_MENU */
{ AllocProcMarkObject, IntDestroyCurIconObject, FreeCurIconObject }, /* TYPE_CURSOR */
{ AllocSysObject, /*UserSetWindowPosCleanup*/NULL, FreeSysObject }, /* TYPE_SETWINDOWPOS */
{ AllocDeskThreadObject, IntRemoveHook, FreeDeskThreadObject }, /* TYPE_HOOK */
{ AllocSysObjectCB, /*UserClipDataCleanup*/NULL,FreeSysObjectCB }, /* TYPE_CLIPDATA */
{ AllocDeskProcObject, DestroyCallProc, FreeDeskProcObject }, /* TYPE_CALLPROC */
{ AllocProcMarkObject, UserDestroyAccelTable, FreeProcMarkObject }, /* TYPE_ACCELTABLE */
{ NULL, NULL, NULL }, /* TYPE_DDEACCESS */
{ NULL, NULL, NULL }, /* TYPE_DDECONV */
{ NULL, NULL, NULL }, /* TYPE_DDEXACT */
{ AllocSysObject, /*UserMonitorCleanup*/NULL, FreeSysObject }, /* TYPE_MONITOR */
{ AllocSysObject, /*UserKbdLayoutCleanup*/NULL,FreeSysObject }, /* TYPE_KBDLAYOUT */
{ AllocSysObject, /*UserKbdFileCleanup*/NULL, FreeSysObject }, /* TYPE_KBDFILE */
{ AllocThreadObject, IntRemoveEvent, FreeThreadObject }, /* TYPE_WINEVENTHOOK */
{ AllocSysObject, /*UserTimerCleanup*/NULL, FreeSysObject }, /* TYPE_TIMER */
{ AllocInputContextObject, UserDestroyInputContext, UserFreeInputContext }, /* TYPE_INPUTCONTEXT */
{ NULL, NULL, NULL }, /* TYPE_HIDDATA */
{ NULL, NULL, NULL }, /* TYPE_DEVICEINFO */
{ NULL, NULL, NULL }, /* TYPE_TOUCHINPUTINFO */
{ NULL, NULL, NULL }, /* TYPE_GESTUREINFOOBJ */
};
#if DBG
void DbgUserDumpHandleTable(VOID)
{
int HandleCounts[TYPE_CTYPES];
PPROCESSINFO ppiList;
int i;
PWCHAR TypeNames[] = {L"Free",L"Window",L"Menu", L"CursorIcon", L"SMWP", L"Hook", L"ClipBoardData", L"CallProc",
L"Accel", L"DDEaccess", L"DDEconv", L"DDExact", L"Monitor", L"KBDlayout", L"KBDfile",
L"Event", L"Timer", L"InputContext", L"HidData", L"DeviceInfo", L"TouchInput",L"GestureInfo"};
ERR("Total handles count: %lu\n", gpsi->cHandleEntries);
memset(HandleCounts, 0, sizeof(HandleCounts));
/* First of all count the number of handles per type */
ppiList = gppiList;
while (ppiList)
{
ERR("Process %s (%p) handles count: %d\n\t", ppiList->peProcess->ImageFileName, ppiList->peProcess->UniqueProcessId, ppiList->UserHandleCount);
for (i = 1 ;i < TYPE_CTYPES; i++)
{
HandleCounts[i] += ppiList->DbgHandleCount[i];
DbgPrint("%S: %lu, ", TypeNames[i], ppiList->DbgHandleCount[i]);
if (i % 6 == 0)
DbgPrint("\n\t");
}
DbgPrint("\n");
ppiList = ppiList->ppiNext;
}
/* Print total type counts */
ERR("Total handles of the running processes: \n\t");
for (i = 1 ;i < TYPE_CTYPES; i++)
{
DbgPrint("%S: %d, ", TypeNames[i], HandleCounts[i]);
if (i % 6 == 0)
DbgPrint("\n\t");
}
DbgPrint("\n");
/* Now count the handle counts that are allocated from the handle table */
memset(HandleCounts, 0, sizeof(HandleCounts));
for (i = 0; i < gHandleTable->nb_handles; i++)
HandleCounts[gHandleTable->handles[i].type]++;
ERR("Total handles count allocated: \n\t");
for (i = 1 ;i < TYPE_CTYPES; i++)
{
DbgPrint("%S: %d, ", TypeNames[i], HandleCounts[i]);
if (i % 6 == 0)
DbgPrint("\n\t");
}
DbgPrint("\n");
}
#endif
PUSER_HANDLE_ENTRY handle_to_entry(PUSER_HANDLE_TABLE ht, HANDLE handle )
{
unsigned short generation;
int index = (LOWORD(handle) - FIRST_USER_HANDLE) >> 1;
if (index < 0 || index >= ht->nb_handles)
return NULL;
if (!ht->handles[index].type)
return NULL;
generation = HIWORD(handle);
if (generation == ht->handles[index].generation || !generation || generation == 0xffff)
return &ht->handles[index];
return NULL;
}
__inline static HANDLE entry_to_handle(PUSER_HANDLE_TABLE ht, PUSER_HANDLE_ENTRY ptr )
{
int index = ptr - ht->handles;
return (HANDLE)((((INT_PTR)index << 1) + FIRST_USER_HANDLE) + (ptr->generation << 16));
}
__inline static PUSER_HANDLE_ENTRY alloc_user_entry(PUSER_HANDLE_TABLE ht)
{
PUSER_HANDLE_ENTRY entry;
TRACE("handles used %lu\n", gpsi->cHandleEntries);
if (ht->freelist)
{
entry = ht->freelist;
ht->freelist = entry->ptr;
gpsi->cHandleEntries++;
return entry;
}
if (ht->nb_handles >= ht->allocated_handles) /* Need to grow the array */
{
ERR("Out of user handles! Used -> %lu, NM_Handle -> %d\n", gpsi->cHandleEntries, ht->nb_handles);
#if DBG
DbgUserDumpHandleTable();
#endif
return NULL;
#if 0
PUSER_HANDLE_ENTRY new_handles;
/* Grow array by 50% (but at minimum 32 entries) */
int growth = max( 32, ht->allocated_handles / 2 );
int new_size = min( ht->allocated_handles + growth, (LAST_USER_HANDLE-FIRST_USER_HANDLE+1) >> 1 );
if (new_size <= ht->allocated_handles)
return NULL;
if (!(new_handles = UserHeapReAlloc( ht->handles, new_size * sizeof(*ht->handles) )))
return NULL;
ht->handles = new_handles;
ht->allocated_handles = new_size;
#endif
}
entry = &ht->handles[ht->nb_handles++];
entry->generation = 1;
gpsi->cHandleEntries++;
return entry;
}
VOID UserInitHandleTable(PUSER_HANDLE_TABLE ht, PVOID mem, ULONG bytes)
{
ht->freelist = NULL;
ht->handles = mem;
ht->nb_handles = 0;
ht->allocated_handles = bytes / sizeof(USER_HANDLE_ENTRY);
}
__inline static void *free_user_entry(PUSER_HANDLE_TABLE ht, PUSER_HANDLE_ENTRY entry)
{
void *ret;
#if DBG
{
PPROCESSINFO ppi;
switch (entry->type)
{
case TYPE_WINDOW:
case TYPE_HOOK:
case TYPE_WINEVENTHOOK:
ppi = ((PTHREADINFO)entry->pi)->ppi;
break;
case TYPE_MENU:
case TYPE_CURSOR:
case TYPE_CALLPROC:
case TYPE_ACCELTABLE:
ppi = entry->pi;
break;
default:
ppi = NULL;
}
if (ppi)
ppi->DbgHandleCount[entry->type]--;
}
#endif
ret = entry->ptr;
entry->ptr = ht->freelist;
entry->type = 0;
entry->flags = 0;
entry->pi = NULL;
ht->freelist = entry;
gpsi->cHandleEntries--;
return ret;
}
/* allocate a user handle for a given object */
HANDLE UserAllocHandle(
_Inout_ PUSER_HANDLE_TABLE ht,
_In_ PVOID object,
_In_ HANDLE_TYPE type,
_In_ PVOID HandleOwner)
{
PUSER_HANDLE_ENTRY entry = alloc_user_entry(ht);
if (!entry)
return 0;
entry->ptr = object;
entry->type = type;
entry->flags = 0;
entry->pi = HandleOwner;
if (++entry->generation >= 0xffff)
entry->generation = 1;
/* We have created a handle, which is a reference! */
UserReferenceObject(object);
return entry_to_handle(ht, entry );
}
/* return a pointer to a user object from its handle without setting an error */
PVOID UserGetObjectNoErr(PUSER_HANDLE_TABLE ht, HANDLE handle, HANDLE_TYPE type )
{
PUSER_HANDLE_ENTRY entry;
ASSERT(ht);
if (!(entry = handle_to_entry(ht, handle )) || entry->type != type)
{
return NULL;
}
return entry->ptr;
}
/* return a pointer to a user object from its handle */
PVOID UserGetObject(PUSER_HANDLE_TABLE ht, HANDLE handle, HANDLE_TYPE type )
{
PUSER_HANDLE_ENTRY entry;
ASSERT(ht);
if (!(entry = handle_to_entry(ht, handle )) || entry->type != type)
{
EngSetLastError(ERROR_INVALID_HANDLE);
return NULL;
}
return entry->ptr;
}
/* Get the full handle (32bit) for a possibly truncated (16bit) handle */
HANDLE get_user_full_handle(PUSER_HANDLE_TABLE ht, HANDLE handle )
{
PUSER_HANDLE_ENTRY entry;
if ((ULONG_PTR)handle >> 16)
return handle;
if (!(entry = handle_to_entry(ht, handle )))
return handle;
return entry_to_handle( ht, entry );
}
/* Same as get_user_object plus set the handle to the full 32-bit value */
void *get_user_object_handle(PUSER_HANDLE_TABLE ht, HANDLE* handle, HANDLE_TYPE type )
{
PUSER_HANDLE_ENTRY entry;
if (!(entry = handle_to_entry(ht, *handle )) || entry->type != type)
return NULL;
*handle = entry_to_handle( ht, entry );
return entry->ptr;
}
BOOL FASTCALL UserCreateHandleTable(VOID)
{
PVOID mem;
INT HandleCount = 1024 * 4;
// FIXME: Don't alloc all at once! Must be mapped into umode also...
mem = UserHeapAlloc(sizeof(USER_HANDLE_ENTRY) * HandleCount);
if (!mem)
{
ERR("Failed creating handle table\n");
return FALSE;
}
gHandleTable = UserHeapAlloc(sizeof(USER_HANDLE_TABLE));
if (gHandleTable == NULL)
{
UserHeapFree(mem);
ERR("Failed creating handle table\n");
return FALSE;
}
// FIXME: Make auto growable
UserInitHandleTable(gHandleTable, mem, sizeof(USER_HANDLE_ENTRY) * HandleCount);
return TRUE;
}
//
// New
//
PVOID
FASTCALL
UserCreateObject( PUSER_HANDLE_TABLE ht,
PDESKTOP pDesktop,
PTHREADINFO pti,
HANDLE* h,
HANDLE_TYPE type,
ULONG size)
{
HANDLE hi;
PVOID Object;
PVOID ObjectOwner;
/* Some sanity checks. Other checks will be made in the allocator */
ASSERT(type < TYPE_CTYPES);
ASSERT(type != TYPE_FREE);
ASSERT(ht != NULL);
/* Allocate the object */
ASSERT(ObjectCallbacks[type].ObjectAlloc != NULL);
Object = ObjectCallbacks[type].ObjectAlloc(pDesktop, pti, size, &ObjectOwner);
if (!Object)
{
ERR("User object allocation failed. Out of memory!\n");
return NULL;
}
hi = UserAllocHandle(ht, Object, type, ObjectOwner);
if (hi == NULL)
{
ERR("Out of user handles!\n");
ObjectCallbacks[type].ObjectFree(Object);
return NULL;
}
#if DBG
if (pti)
pti->ppi->DbgHandleCount[type]++;
#endif
/* Give this object its identity. */
((PHEAD)Object)->h = hi;
/* The caller will get a locked object.
* Note: with the reference from the handle, that makes two */
UserReferenceObject(Object);
if (h)
*h = hi;
return Object;
}
// Win: HMMarkObjectDestroy
BOOL
FASTCALL
UserMarkObjectDestroy(PVOID Object)
{
PUSER_HANDLE_ENTRY entry;
PHEAD ObjHead = Object;
entry = handle_to_entry(gHandleTable, ObjHead->h);
ASSERT(entry != NULL);
entry->flags |= HANDLEENTRY_DESTROY;
if (ObjHead->cLockObj > 1)
{
entry->flags &= ~HANDLEENTRY_INDESTROY;
TRACE("Count %d\n",ObjHead->cLockObj);
return FALSE;
}
return TRUE;
}
BOOL
FASTCALL
UserDereferenceObject(PVOID Object)
{
PHEAD ObjHead = Object;
ASSERT(ObjHead->cLockObj >= 1);
ASSERT(ObjHead->cLockObj < 0x10000);
if (--ObjHead->cLockObj == 0)
{
PUSER_HANDLE_ENTRY entry;
HANDLE_TYPE type;
entry = handle_to_entry(gHandleTable, ObjHead->h);
ASSERT(entry != NULL);
/* The entry should be marked as in deletion */
ASSERT(entry->flags & HANDLEENTRY_INDESTROY);
type = entry->type;
ASSERT(type != TYPE_FREE);
ASSERT(type < TYPE_CTYPES);
/* We can now get rid of everything */
free_user_entry(gHandleTable, entry );
#if 0
/* Call the object destructor */
ASSERT(ObjectCallbacks[type].ObjectCleanup != NULL);
ObjectCallbacks[type].ObjectCleanup(Object);
#endif
/* And free it */
ASSERT(ObjectCallbacks[type].ObjectFree != NULL);
ObjectCallbacks[type].ObjectFree(Object);
return TRUE;
}
return FALSE;
}
BOOL
FASTCALL
UserFreeHandle(PUSER_HANDLE_TABLE ht, HANDLE handle )
{
PUSER_HANDLE_ENTRY entry;
if (!(entry = handle_to_entry( ht, handle )))
{
SetLastNtError( STATUS_INVALID_HANDLE );
return FALSE;
}
entry->flags = HANDLEENTRY_INDESTROY;
return UserDereferenceObject(entry->ptr);
}
BOOL
FASTCALL
UserObjectInDestroy(HANDLE h)
{
PUSER_HANDLE_ENTRY entry;
if (!(entry = handle_to_entry( gHandleTable, h )))
{
SetLastNtError( STATUS_INVALID_HANDLE );
return TRUE;
}
return (entry->flags & HANDLEENTRY_INDESTROY);
}
BOOL
FASTCALL
UserDeleteObject(HANDLE h, HANDLE_TYPE type )
{
PVOID body = UserGetObject(gHandleTable, h, type);
if (!body) return FALSE;
ASSERT( ((PHEAD)body)->cLockObj >= 1);
ASSERT( ((PHEAD)body)->cLockObj < 0x10000);
return UserFreeHandle(gHandleTable, h);
}
VOID
FASTCALL
UserReferenceObject(PVOID obj)
{
PHEAD ObjHead = obj;
ASSERT(ObjHead->cLockObj < 0x10000);
ObjHead->cLockObj++;
}
PVOID
FASTCALL
UserReferenceObjectByHandle(HANDLE handle, HANDLE_TYPE type)
{
PVOID object;
object = UserGetObject(gHandleTable, handle, type);
if (object)
{
UserReferenceObject(object);
}
return object;
}
BOOLEAN
UserDestroyObjectsForOwner(PUSER_HANDLE_TABLE Table, PVOID Owner)
{
int i;
PUSER_HANDLE_ENTRY Entry;
BOOLEAN Ret = TRUE;
/* Sweep the whole handle table */
for (i = 0; i < Table->allocated_handles; i++)
{
Entry = &Table->handles[i];
if (Entry->pi != Owner)
continue;
/* Do not destroy if it's already been done */
if (Entry->flags & HANDLEENTRY_INDESTROY)
continue;
/* Call destructor */
if (!ObjectCallbacks[Entry->type].ObjectDestroy(Entry->ptr))
{
ERR("Failed destructing object %p, type %u.\n", Entry->ptr, Entry->type);
/* Don't return immediately, we must continue destroying the other objects */
Ret = FALSE;
}
}
return Ret;
}
/*
*
* Status
* @implemented
*/
BOOL
APIENTRY
NtUserValidateHandleSecure(
HANDLE handle)
{
UINT uType;
PPROCESSINFO ppi;
PUSER_HANDLE_ENTRY entry;
BOOL Ret = FALSE;
UserEnterExclusive();
if (!(entry = handle_to_entry(gHandleTable, handle )))
{
EngSetLastError(ERROR_INVALID_HANDLE);
goto Exit; // Return FALSE
}
uType = entry->type;
switch (uType)
{
case TYPE_WINDOW:
case TYPE_INPUTCONTEXT:
ppi = ((PTHREADINFO)entry->pi)->ppi;
break;
case TYPE_MENU:
case TYPE_ACCELTABLE:
case TYPE_CURSOR:
case TYPE_HOOK:
case TYPE_CALLPROC:
case TYPE_SETWINDOWPOS:
ppi = entry->pi;
break;
default:
ppi = NULL;
break;
}
if (!ppi)
goto Exit; // Return FALSE
// Same process job returns TRUE.
if (gptiCurrent->ppi->pW32Job == ppi->pW32Job) Ret = TRUE;
Exit:
UserLeave();
return Ret;
}
// Win: HMAssignmentLock
PVOID FASTCALL UserAssignmentLock(PVOID *ppvObj, PVOID pvNew)
{
PVOID pvOld = *ppvObj;
*ppvObj = pvNew;
if (pvOld && pvOld == pvNew)
return pvOld;
if (pvNew)
UserReferenceObject(pvNew);
if (pvOld)
{
if (UserDereferenceObject(pvOld))
pvOld = NULL;
}
return pvOld;
}
// Win: HMAssignmentUnlock
PVOID FASTCALL UserAssignmentUnlock(PVOID *ppvObj)
{
PVOID pvOld = *ppvObj;
*ppvObj = NULL;
if (pvOld)
{
if (UserDereferenceObject(pvOld))
pvOld = NULL;
}
return pvOld;
}