reactos/win32ss/user/ntuser/timer.c
Victor Perevertkin 5c7ce4475e
[REACTOS] Cleanup INIT and some PAGE section allocations
- Change INIT_FUNCTION and INIT_SECTION to CODE_SEG("INIT") and DATA_SEG("INIT") respectively
- Remove INIT_FUNCTION from function prototypes
- Remove alloc_text pragma calls as they are not needed anymore
2020-11-02 21:45:31 +03:00

713 lines
16 KiB
C

/*
* COPYRIGHT: See COPYING in the top level directory
* PROJECT: ReactOS kernel
* PURPOSE: Window timers messages
* FILE: win32ss/user/ntuser/timer.c
* PROGRAMER: Gunnar
* Thomas Weidenmueller (w3seek@users.sourceforge.net)
* Michael Martin (michael.martin@reactos.org)
*/
#include <win32k.h>
DBG_DEFAULT_CHANNEL(UserTimer);
/* GLOBALS *******************************************************************/
static LIST_ENTRY TimersListHead;
static LONG TimeLast = 0;
/* Windows 2000 has room for 32768 window-less timers */
#define NUM_WINDOW_LESS_TIMERS 32768
static PFAST_MUTEX Mutex;
static RTL_BITMAP WindowLessTimersBitMap;
static PVOID WindowLessTimersBitMapBuffer;
static ULONG HintIndex = 1;
ERESOURCE TimerLock;
#define IntLockWindowlessTimerBitmap() \
ExEnterCriticalRegionAndAcquireFastMutexUnsafe(Mutex)
#define IntUnlockWindowlessTimerBitmap() \
ExReleaseFastMutexUnsafeAndLeaveCriticalRegion(Mutex)
#define TimerEnterExclusive() \
{ \
KeEnterCriticalRegion(); \
ExAcquireResourceExclusiveLite(&TimerLock, TRUE); \
}
#define TimerLeave() \
{ \
ExReleaseResourceLite(&TimerLock); \
KeLeaveCriticalRegion(); \
}
/* FUNCTIONS *****************************************************************/
static
PTIMER
FASTCALL
CreateTimer(VOID)
{
HANDLE Handle;
PTIMER Ret = NULL;
Ret = UserCreateObject(gHandleTable, NULL, NULL, &Handle, TYPE_TIMER, sizeof(TIMER));
if (Ret)
{
Ret->head.h = Handle;
InsertTailList(&TimersListHead, &Ret->ptmrList);
}
return Ret;
}
static
BOOL
FASTCALL
RemoveTimer(PTIMER pTmr)
{
BOOL Ret = FALSE;
if (pTmr)
{
/* Set the flag, it will be removed when ready */
RemoveEntryList(&pTmr->ptmrList);
if ((pTmr->pWnd == NULL) && (!(pTmr->flags & TMRF_SYSTEM))) // System timers are reusable.
{
UINT_PTR IDEvent;
IDEvent = NUM_WINDOW_LESS_TIMERS - pTmr->nID;
IntLockWindowlessTimerBitmap();
RtlClearBit(&WindowLessTimersBitMap, IDEvent);
IntUnlockWindowlessTimerBitmap();
}
UserDereferenceObject(pTmr);
Ret = UserDeleteObject( UserHMGetHandle(pTmr), TYPE_TIMER);
}
if (!Ret) ERR("Warning: Unable to delete timer\n");
return Ret;
}
PTIMER
FASTCALL
FindTimer(PWND Window,
UINT_PTR nID,
UINT flags)
{
PLIST_ENTRY pLE;
PTIMER pTmr, RetTmr = NULL;
TimerEnterExclusive();
pLE = TimersListHead.Flink;
while (pLE != &TimersListHead)
{
pTmr = CONTAINING_RECORD(pLE, TIMER, ptmrList);
if ( pTmr->nID == nID &&
pTmr->pWnd == Window &&
(pTmr->flags & (TMRF_SYSTEM|TMRF_RIT)) == (flags & (TMRF_SYSTEM|TMRF_RIT)))
{
RetTmr = pTmr;
break;
}
pLE = pLE->Flink;
}
TimerLeave();
return RetTmr;
}
PTIMER
FASTCALL
FindSystemTimer(PMSG pMsg)
{
PLIST_ENTRY pLE;
PTIMER pTmr = NULL;
TimerEnterExclusive();
pLE = TimersListHead.Flink;
while (pLE != &TimersListHead)
{
pTmr = CONTAINING_RECORD(pLE, TIMER, ptmrList);
if ( pMsg->lParam == (LPARAM)pTmr->pfn &&
(pTmr->flags & TMRF_SYSTEM) )
break;
pLE = pLE->Flink;
}
TimerLeave();
return pTmr;
}
BOOL
FASTCALL
ValidateTimerCallback(PTHREADINFO pti,
LPARAM lParam)
{
PLIST_ENTRY pLE;
BOOL Ret = FALSE;
PTIMER pTmr;
TimerEnterExclusive();
pLE = TimersListHead.Flink;
while (pLE != &TimersListHead)
{
pTmr = CONTAINING_RECORD(pLE, TIMER, ptmrList);
if ( (lParam == (LPARAM)pTmr->pfn) &&
!(pTmr->flags & (TMRF_SYSTEM|TMRF_RIT)) &&
(pTmr->pti->ppi == pti->ppi) )
{
Ret = TRUE;
break;
}
pLE = pLE->Flink;
}
TimerLeave();
return Ret;
}
UINT_PTR FASTCALL
IntSetTimer( PWND Window,
UINT_PTR IDEvent,
UINT Elapse,
TIMERPROC TimerFunc,
INT Type)
{
PTIMER pTmr;
UINT Ret = IDEvent;
LARGE_INTEGER DueTime;
DueTime.QuadPart = (LONGLONG)(-97656); // 1024hz .9765625 ms set to 10.0 ms
#if 0
/* Windows NT/2k/XP behaviour */
if (Elapse > USER_TIMER_MAXIMUM)
{
TRACE("Adjusting uElapse\n");
Elapse = 1;
}
#else
/* Windows XP SP2 and Windows Server 2003 behaviour */
if (Elapse > USER_TIMER_MAXIMUM)
{
TRACE("Adjusting uElapse\n");
Elapse = USER_TIMER_MAXIMUM;
}
#endif
/* Windows 2k/XP and Windows Server 2003 SP1 behaviour */
if (Elapse < USER_TIMER_MINIMUM)
{
TRACE("Adjusting uElapse\n");
Elapse = USER_TIMER_MINIMUM; // 1024hz .9765625 ms, set to 10.0 ms (+/-)1 ms
}
/* Passing an IDEvent of 0 and the SetTimer returns 1.
It will create the timer with an ID of 0 */
if ((Window) && (IDEvent == 0))
Ret = 1;
pTmr = FindTimer(Window, IDEvent, Type);
if ((!pTmr) && (Window == NULL) && (!(Type & TMRF_SYSTEM)))
{
IntLockWindowlessTimerBitmap();
IDEvent = RtlFindClearBitsAndSet(&WindowLessTimersBitMap, 1, HintIndex);
if (IDEvent == (UINT_PTR) -1)
{
IntUnlockWindowlessTimerBitmap();
ERR("Unable to find a free window-less timer id\n");
EngSetLastError(ERROR_NO_SYSTEM_RESOURCES);
ASSERT(FALSE);
return 0;
}
IDEvent = NUM_WINDOW_LESS_TIMERS - IDEvent;
Ret = IDEvent;
IntUnlockWindowlessTimerBitmap();
}
if (!pTmr)
{
pTmr = CreateTimer();
if (!pTmr) return 0;
if (Window && (Type & TMRF_TIFROMWND))
pTmr->pti = Window->head.pti->pEThread->Tcb.Win32Thread;
else
{
if (Type & TMRF_RIT)
pTmr->pti = ptiRawInput;
else
pTmr->pti = PsGetCurrentThreadWin32Thread();
}
pTmr->pWnd = Window;
pTmr->cmsCountdown = Elapse;
pTmr->cmsRate = Elapse;
pTmr->pfn = TimerFunc;
pTmr->nID = IDEvent;
pTmr->flags = Type|TMRF_INIT;
}
else
{
pTmr->cmsCountdown = Elapse;
pTmr->cmsRate = Elapse;
}
ASSERT(MasterTimer != NULL);
// Start the timer thread!
if (TimersListHead.Flink == TimersListHead.Blink) // There is only one timer
KeSetTimer(MasterTimer, DueTime, NULL);
return Ret;
}
//
// Process win32k system timers.
//
VOID
CALLBACK
SystemTimerProc(HWND hwnd,
UINT uMsg,
UINT_PTR idEvent,
DWORD dwTime)
{
PDESKTOP pDesk;
PWND pWnd = NULL;
if (hwnd)
{
pWnd = UserGetWindowObject(hwnd);
if (!pWnd)
{
ERR("System Timer Proc has invalid window handle! %p Id: %u\n", hwnd, idEvent);
return;
}
}
else
{
TRACE( "Windowless Timer Running!\n" );
return;
}
switch (idEvent)
{
/*
Used in NtUserTrackMouseEvent.
*/
case ID_EVENT_SYSTIMER_MOUSEHOVER:
{
POINT Point;
UINT Msg;
WPARAM wParam;
pDesk = pWnd->head.rpdesk;
if ( pDesk->dwDTFlags & DF_TME_HOVER &&
pWnd == pDesk->spwndTrack )
{
Point = gpsi->ptCursor;
if ( RECTL_bPointInRect(&pDesk->rcMouseHover, Point.x, Point.y) )
{
if (pDesk->htEx == HTCLIENT) // In a client area.
{
wParam = MsqGetDownKeyState(pWnd->head.pti->MessageQueue);
Msg = WM_MOUSEHOVER;
if (pWnd->ExStyle & WS_EX_LAYOUTRTL)
{
Point.x = pWnd->rcClient.right - Point.x - 1;
}
else
Point.x -= pWnd->rcClient.left;
Point.y -= pWnd->rcClient.top;
}
else
{
wParam = pDesk->htEx; // Need to support all HTXYZ hits.
Msg = WM_NCMOUSEHOVER;
}
TRACE("Generating WM_NCMOUSEHOVER\n");
UserPostMessage(hwnd, Msg, wParam, MAKELPARAM(Point.x, Point.y));
pDesk->dwDTFlags &= ~DF_TME_HOVER;
break; // Kill this timer.
}
}
}
return; // Not this window so just return.
case ID_EVENT_SYSTIMER_FLASHWIN:
{
FLASHWINFO fwi =
{sizeof(FLASHWINFO),
UserHMGetHandle(pWnd),
FLASHW_SYSTIMER,0,0};
IntFlashWindowEx(pWnd, &fwi);
}
return;
default:
ERR("System Timer Proc invalid id %u!\n", idEvent);
break;
}
IntKillTimer(pWnd, idEvent, TRUE);
}
VOID
FASTCALL
StartTheTimers(VOID)
{
// Need to start gdi syncro timers then start timer with Hang App proc
// that calles Idle process so the screen savers will know to run......
IntSetTimer(NULL, 0, 1000, HungAppSysTimerProc, TMRF_RIT);
// Test Timers
// IntSetTimer(NULL, 0, 1000, SystemTimerProc, TMRF_RIT);
}
UINT_PTR
FASTCALL
SystemTimerSet( PWND Window,
UINT_PTR nIDEvent,
UINT uElapse,
TIMERPROC lpTimerFunc)
{
if (Window && Window->head.pti->pEThread->ThreadsProcess != PsGetCurrentProcess())
{
EngSetLastError(ERROR_ACCESS_DENIED);
TRACE("SysemTimerSet: Access Denied!\n");
return 0;
}
return IntSetTimer( Window, nIDEvent, uElapse, lpTimerFunc, TMRF_SYSTEM);
}
BOOL
FASTCALL
PostTimerMessages(PWND Window)
{
PLIST_ENTRY pLE;
MSG Msg;
PTHREADINFO pti;
BOOL Hit = FALSE;
PTIMER pTmr;
pti = PsGetCurrentThreadWin32Thread();
TimerEnterExclusive();
pLE = TimersListHead.Flink;
while(pLE != &TimersListHead)
{
pTmr = CONTAINING_RECORD(pLE, TIMER, ptmrList);
if ( (pTmr->flags & TMRF_READY) &&
(pTmr->pti == pti) &&
((pTmr->pWnd == Window) || (Window == NULL)) )
{
Msg.hwnd = (pTmr->pWnd) ? pTmr->pWnd->head.h : 0;
Msg.message = (pTmr->flags & TMRF_SYSTEM) ? WM_SYSTIMER : WM_TIMER;
Msg.wParam = (WPARAM) pTmr->nID;
Msg.lParam = (LPARAM) pTmr->pfn;
Msg.time = EngGetTickCount32();
// Fix all wine win:test_GetMessagePos WM_TIMER tests. See CORE-10867.
Msg.pt = gpsi->ptCursor;
MsqPostMessage(pti, &Msg, FALSE, (QS_POSTMESSAGE|QS_ALLPOSTMESSAGE), 0, 0);
pTmr->flags &= ~TMRF_READY;
ClearMsgBitsMask(pti, QS_TIMER);
Hit = TRUE;
// Now move this entry to the end of the list so it will not be
// called again in the next msg loop.
if (pLE != &TimersListHead)
{
RemoveEntryList(&pTmr->ptmrList);
InsertTailList(&TimersListHead, &pTmr->ptmrList);
}
break;
}
pLE = pLE->Flink;
}
TimerLeave();
return Hit;
}
VOID
FASTCALL
ProcessTimers(VOID)
{
LARGE_INTEGER DueTime;
LONG Time;
PLIST_ENTRY pLE;
PTIMER pTmr;
LONG TimerCount = 0;
TimerEnterExclusive();
pLE = TimersListHead.Flink;
Time = EngGetTickCount32();
DueTime.QuadPart = (LONGLONG)(-97656); // 1024hz .9765625 ms set to 10.0 ms
while(pLE != &TimersListHead)
{
pTmr = CONTAINING_RECORD(pLE, TIMER, ptmrList);
TimerCount++;
if (pTmr->flags & TMRF_WAITING)
{
pLE = pTmr->ptmrList.Flink;
pTmr = CONTAINING_RECORD(pLE, TIMER, ptmrList);
continue;
}
if (pTmr->flags & TMRF_INIT)
{
pTmr->flags &= ~TMRF_INIT; // Skip this run.
}
else
{
if (pTmr->cmsCountdown < 0)
{
ASSERT(pTmr->pti);
if ((!(pTmr->flags & TMRF_READY)) && (!(pTmr->pti->TIF_flags & TIF_INCLEANUP)))
{
if (pTmr->flags & TMRF_ONESHOT)
pTmr->flags |= TMRF_WAITING;
if (pTmr->flags & TMRF_RIT)
{
// Hard coded call here, inside raw input thread.
pTmr->pfn(NULL, WM_SYSTIMER, pTmr->nID, (LPARAM)pTmr);
}
else
{
pTmr->flags |= TMRF_READY; // Set timer ready to be ran.
// Set thread message queue for this timer.
if (pTmr->pti)
{ // Wakeup thread
pTmr->pti->cTimersReady++;
ASSERT(pTmr->pti->pEventQueueServer != NULL);
MsqWakeQueue(pTmr->pti, QS_TIMER, TRUE);
}
}
}
pTmr->cmsCountdown = pTmr->cmsRate;
}
else
pTmr->cmsCountdown -= Time - TimeLast;
}
pLE = pLE->Flink;
}
// Restart the timer thread!
ASSERT(MasterTimer != NULL);
KeSetTimer(MasterTimer, DueTime, NULL);
TimeLast = Time;
TimerLeave();
TRACE("TimerCount = %d\n", TimerCount);
}
BOOL FASTCALL
DestroyTimersForWindow(PTHREADINFO pti, PWND Window)
{
PLIST_ENTRY pLE;
PTIMER pTmr;
BOOL TimersRemoved = FALSE;
if (Window == NULL)
return FALSE;
TimerEnterExclusive();
pLE = TimersListHead.Flink;
while(pLE != &TimersListHead)
{
pTmr = CONTAINING_RECORD(pLE, TIMER, ptmrList);
pLE = pLE->Flink; /* get next timer list entry before current timer is removed */
if ((pTmr) && (pTmr->pti == pti) && (pTmr->pWnd == Window))
{
TimersRemoved = RemoveTimer(pTmr);
}
}
TimerLeave();
return TimersRemoved;
}
BOOL FASTCALL
DestroyTimersForThread(PTHREADINFO pti)
{
PLIST_ENTRY pLE = TimersListHead.Flink;
PTIMER pTmr;
BOOL TimersRemoved = FALSE;
TimerEnterExclusive();
while(pLE != &TimersListHead)
{
pTmr = CONTAINING_RECORD(pLE, TIMER, ptmrList);
pLE = pLE->Flink; /* get next timer list entry before current timer is removed */
if ((pTmr) && (pTmr->pti == pti))
{
TimersRemoved = RemoveTimer(pTmr);
}
}
TimerLeave();
return TimersRemoved;
}
BOOL FASTCALL
IntKillTimer(PWND Window, UINT_PTR IDEvent, BOOL SystemTimer)
{
PTIMER pTmr = NULL;
TRACE("IntKillTimer Window %p id %uI systemtimer %s\n",
Window, IDEvent, SystemTimer ? "TRUE" : "FALSE");
TimerEnterExclusive();
pTmr = FindTimer(Window, IDEvent, SystemTimer ? TMRF_SYSTEM : 0);
if (pTmr)
{
RemoveTimer(pTmr);
}
TimerLeave();
return pTmr ? TRUE : FALSE;
}
CODE_SEG("INIT")
NTSTATUS
NTAPI
InitTimerImpl(VOID)
{
ULONG BitmapBytes;
/* Allocate FAST_MUTEX from non paged pool */
Mutex = ExAllocatePoolWithTag(NonPagedPool, sizeof(FAST_MUTEX), TAG_INTERNAL_SYNC);
if (!Mutex)
{
return STATUS_INSUFFICIENT_RESOURCES;
}
ExInitializeFastMutex(Mutex);
BitmapBytes = ALIGN_UP_BY(NUM_WINDOW_LESS_TIMERS, sizeof(ULONG) * 8) / 8;
WindowLessTimersBitMapBuffer = ExAllocatePoolWithTag(NonPagedPool, BitmapBytes, TAG_TIMERBMP);
if (WindowLessTimersBitMapBuffer == NULL)
{
return STATUS_UNSUCCESSFUL;
}
RtlInitializeBitMap(&WindowLessTimersBitMap,
WindowLessTimersBitMapBuffer,
BitmapBytes * 8);
/* Yes we need this, since ExAllocatePoolWithTag isn't supposed to zero out allocated memory */
RtlClearAllBits(&WindowLessTimersBitMap);
ExInitializeResourceLite(&TimerLock);
InitializeListHead(&TimersListHead);
return STATUS_SUCCESS;
}
UINT_PTR
APIENTRY
NtUserSetTimer
(
HWND hWnd,
UINT_PTR nIDEvent,
UINT uElapse,
TIMERPROC lpTimerFunc
)
{
PWND Window = NULL;
DECLARE_RETURN(UINT_PTR);
TRACE("Enter NtUserSetTimer\n");
UserEnterExclusive();
if (hWnd) Window = UserGetWindowObject(hWnd);
UserLeave();
RETURN(IntSetTimer(Window, nIDEvent, uElapse, lpTimerFunc, TMRF_TIFROMWND));
CLEANUP:
TRACE("Leave NtUserSetTimer, ret=%u\n", _ret_);
END_CLEANUP;
}
BOOL
APIENTRY
NtUserKillTimer
(
HWND hWnd,
UINT_PTR uIDEvent
)
{
PWND Window = NULL;
DECLARE_RETURN(BOOL);
TRACE("Enter NtUserKillTimer\n");
UserEnterExclusive();
if (hWnd) Window = UserGetWindowObject(hWnd);
UserLeave();
RETURN(IntKillTimer(Window, uIDEvent, FALSE));
CLEANUP:
TRACE("Leave NtUserKillTimer, ret=%i\n", _ret_);
END_CLEANUP;
}
UINT_PTR
APIENTRY
NtUserSetSystemTimer(
HWND hWnd,
UINT_PTR nIDEvent,
UINT uElapse,
TIMERPROC lpTimerFunc
)
{
DECLARE_RETURN(UINT_PTR);
TRACE("Enter NtUserSetSystemTimer\n");
RETURN(IntSetTimer(UserGetWindowObject(hWnd), nIDEvent, uElapse, NULL, TMRF_SYSTEM));
CLEANUP:
TRACE("Leave NtUserSetSystemTimer, ret=%u\n", _ret_);
END_CLEANUP;
}
BOOL
APIENTRY
NtUserValidateTimerCallback(
LPARAM lParam)
{
BOOL Ret = FALSE;
UserEnterShared();
Ret = ValidateTimerCallback(PsGetCurrentThreadWin32Thread(), lParam);
UserLeave();
return Ret;
}
/* EOF */