windows-nt/Source/XPSP1/NT/base/hals/halacpi/amd64/pmrtc.c

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2020-09-26 03:20:57 -05:00
/*++
Copyright (c) 2000 Microsoft Corporation
Module Name:
pmrtc.c
Abstract:
This module implements the code for ACPI-related RTC functions.
Author:
Jake Oshins (jakeo) March 28, 1997
Environment:
Kernel mode only.
Revision History:
Split from pmclock.asm due to PIIX4 bugs.
Forrest Foltz (forrestf) 24-Oct-2000
Ported from pmrtc.asm to pmrtc.c
--*/
#include <halp.h>
#include <acpitabl.h>
#include <xxacpi.h>
#include "io_cmos.h"
VOID
HalpInitializeCmos (
VOID
)
/*++
Routine Description
This routine reads CMOS and initializes globals required for CMOS access,
such as the location of the century byte.
Arguments
None
Return Value
None
--*/
{
UCHAR centuryAlarmIndex;
//
// If the century byte is filled in, use it... otherwise assume
// a default value.
//
centuryAlarmIndex = HalpFixedAcpiDescTable.century_alarm_index;
if (centuryAlarmIndex == 0) {
centuryAlarmIndex = RTC_OFFSET_CENTURY;
}
HalpCmosCenturyOffset = centuryAlarmIndex;
}
NTSTATUS
HalpSetWakeAlarm (
IN ULONG64 WakeSystemTime,
IN PTIME_FIELDS WakeTimeFields
)
/*++
Routine Description:
This routine sets the real-time clock's alarm to go
off at a specified time in the future and programs
the ACPI chipset so that this wakes the computer.
Arguments:
WakeSystemTime - amount of time that passes before we wake
WakeTimeFields - time to wake broken down into TIME_FIELDS
Return Value:
status
--*/
{
UCHAR alarmPort;
UCHAR value;
HalpAcquireCmosSpinLockAndWait();
CMOS_WRITE_BCD(RTC_OFFSET_SECOND_ALARM,(UCHAR)WakeTimeFields->Second);
CMOS_WRITE_BCD(RTC_OFFSET_MINUTE_ALARM,(UCHAR)WakeTimeFields->Minute);
CMOS_WRITE_BCD(RTC_OFFSET_HOUR_ALARM,(UCHAR)WakeTimeFields->Hour);
alarmPort = HalpFixedAcpiDescTable.day_alarm_index;
if (alarmPort != 0) {
CMOS_WRITE_BCD(alarmPort,(UCHAR)WakeTimeFields->Day);
alarmPort = HalpFixedAcpiDescTable.month_alarm_index;
if (alarmPort != 0) {
CMOS_WRITE_BCD(alarmPort,(UCHAR)WakeTimeFields->Month);
}
}
//
// Enable the alarm. Be sure to preserve the daylight savings time
// bit.
//
value = CMOS_READ(CMOS_STATUS_B);
value &= REGISTER_B_DAYLIGHT_SAVINGS_TIME;
value |= REGISTER_B_ENABLE_ALARM_INTERRUPT | REGISTER_B_24HOUR_MODE;
CMOS_WRITE(CMOS_STATUS_B,value);
CMOS_READ(CMOS_STATUS_C);
CMOS_READ(CMOS_STATUS_D);
HalpReleaseCmosSpinLock();
return STATUS_SUCCESS;
}
VOID
HalpSetClockBeforeSleep (
VOID
)
/*++
Routine Description:
This routine sets the RTC such that it will not generate
periodic interrupts while the machine is sleeping, as this
could be interpretted as an RTC wakeup event.
Arguments:
Return Value:
None
--*/
{
UCHAR value;
HalpAcquireCmosSpinLock();
HalpRtcRegA = CMOS_READ(CMOS_STATUS_A);
HalpRtcRegB = CMOS_READ(CMOS_STATUS_B);
value = HalpRtcRegB & ~REGISTER_B_ENABLE_PERIODIC_INTERRUPT;
value |= REGISTER_B_24HOUR_MODE;
CMOS_WRITE(CMOS_STATUS_B,value);
CMOS_READ(CMOS_STATUS_C);
CMOS_READ(CMOS_STATUS_D);
HalpReleaseCmosSpinLock();
}
VOID
HalpSetClockAfterSleep (
VOID
)
/*++
Routine Description:
This routine sets the RTC back to the way it was
before a call to HalpSetClockBeforeSleep.
Arguments:
Return Value:
None
--*/
{
UCHAR value;
HalpAcquireCmosSpinLock();
CMOS_WRITE(CMOS_STATUS_A,HalpRtcRegA);
value = HalpRtcRegB;
value &= ~REGISTER_B_ENABLE_ALARM_INTERRUPT;
value |= REGISTER_B_24HOUR_MODE;
CMOS_WRITE(CMOS_STATUS_B,value);
CMOS_READ(CMOS_STATUS_C);
CMOS_READ(CMOS_STATUS_D);
HalpReleaseCmosSpinLock();
}