/*++
Routine Description:
Clock interrupt handler for processors other than 0.
Arguments:
Interrupt
ServiceContext
TrapFrame
Return Value:
TRUE
--*/
BOOLEAN
HalpHandleDecrementerInterrupt1(
IN PKINTERRUPT Interrupt,
IN PVOID ServiceContext,
IN PVOID TrapFrame
)
{
KIRQL OldIrql;
ULONG CpuId;
HASSERT(!MSR(EE));
CpuId = GetCpuId();
//
// Raise irql via updating the PCR
//
OldIrql = PCR->CurrentIrql;
PCR->CurrentIrql = CLOCK2_LEVEL;
RInterruptMask(CpuId) = (Irql2Mask[CLOCK2_LEVEL] & registeredInts[CpuId]);
WaitForRInterruptMask(CpuId);
//
// Reset DECREMENTER (no account for latency)
//
HalpUpdateDecrementer(HalpFullTickClockCount);
//
// Call the kernel to update run time for this thread and process.
//
KeUpdateRunTime(TrapFrame);
HDBG(DBG_PROC1DBG,
{
//
// Check for the debugger BreakIn only every minute or so.
// (decrementer is interms of ms so we multiple by 10,000
// on the order of a minute).
//
static Count = 0;
if (++Count > 10000) {
Count = 0;
if (KdDebuggerEnabled && KdPollBreakIn()) {
HalpEnableInterrupts();
DbgBreakPointWithStatus(DBG_STATUS_CONTROL_C);
HalpDisableInterrupts();
}
}
}
);
VOID
FASTCALL
KeUpdateSystemTime(IN PKTRAP_FRAME TrapFrame,
IN ULONG Increment,
IN KIRQL Irql)
{
PKPRCB Prcb = KeGetCurrentPrcb();
ULARGE_INTEGER CurrentTime, InterruptTime;
LONG OldTickOffset;
/* Check if this tick is being skipped */
if (Prcb->SkipTick)
{
/* Handle it next time */
Prcb->SkipTick = FALSE;
/* Increase interrupt count and end the interrupt */
Prcb->InterruptCount++;
KiEndInterrupt(Irql, TrapFrame);
/* Note: non-x86 return back to the caller! */
return;
}
/* Add the increment time to the shared data */
InterruptTime.QuadPart = *(ULONGLONG*)&SharedUserData->InterruptTime;
InterruptTime.QuadPart += Increment;
KiWriteSystemTime(&SharedUserData->InterruptTime, InterruptTime);
/* Check for timer expiration */
KiCheckForTimerExpiration(Prcb, TrapFrame, InterruptTime);
/* Update the tick offset */
OldTickOffset = InterlockedExchangeAdd(&KiTickOffset, -(LONG)Increment);
/* If the debugger is enabled, check for break-in request */
if (KdDebuggerEnabled && KdPollBreakIn())
{
/* Break-in requested! */
DbgBreakPointWithStatus(DBG_STATUS_CONTROL_C);
}
/* Check for full tick */
if (OldTickOffset <= (LONG)Increment)
{
/* Update the system time */
CurrentTime.QuadPart = *(ULONGLONG*)&SharedUserData->SystemTime;
CurrentTime.QuadPart += KeTimeAdjustment;
KiWriteSystemTime(&SharedUserData->SystemTime, CurrentTime);
/* Update the tick count */
CurrentTime.QuadPart = (*(ULONGLONG*)&KeTickCount) + 1;
KiWriteSystemTime(&KeTickCount, CurrentTime);
/* Update it in the shared user data */
KiWriteSystemTime(&SharedUserData->TickCount, CurrentTime);
/* Check for expiration with the new tick count as well */
KiCheckForTimerExpiration(Prcb, TrapFrame, InterruptTime);
/* Reset the tick offset */
KiTickOffset += KeMaximumIncrement;
/* Update processor/thread runtime */
KeUpdateRunTime(TrapFrame, Irql);
}
else
{
/* Increase interrupt count only */
Prcb->InterruptCount++;
}
/* Disable interrupts and end the interrupt */
KiEndInterrupt(Irql, TrapFrame);
}
