mirror of
https://github.com/reactos/reactos.git
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251 lines
6.9 KiB
C
251 lines
6.9 KiB
C
/*
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* PROJECT: ReactOS HAL
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* LICENSE: GNU GPL - See COPYING in the top level directory
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* FILE: hal/halx86/apic/rtctimer.c
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* PURPOSE: HAL APIC Management and Control Code
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* PROGRAMMERS: Timo Kreuzer (timo.kreuzer@reactos.org)
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* REFERENCES: https://wiki.osdev.org/RTC
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* https://forum.osdev.org/viewtopic.php?f=13&t=20825&start=0
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* http://www.bioscentral.com/misc/cmosmap.htm
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*/
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/* INCLUDES *******************************************************************/
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#include <hal.h>
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#include "apicp.h"
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#include <smp.h>
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#define NDEBUG
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#include <debug.h>
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/* GLOBALS ********************************************************************/
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static const UCHAR RtcMinimumClockRate = 6; /* Minimum rate 6: 1024 Hz / 0.97 ms */
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static const UCHAR RtcMaximumClockRate = 10; /* Maximum rate 10: 64 Hz / 15.6 ms */
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static UCHAR HalpCurrentClockRate = 10; /* Initial rate 10: 64 Hz / 15.6 ms */
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static ULONG HalpCurrentTimeIncrement;
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static ULONG HalpMinimumTimeIncrement;
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static ULONG HalpMaximumTimeIncrement;
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static ULONG HalpCurrentFractionalIncrement;
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static ULONG HalpRunningFraction;
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static BOOLEAN HalpSetClockRate;
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static UCHAR HalpNextClockRate;
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/*!
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\brief Converts the CMOS RTC rate into the time increment in 0.1ns intervals.
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Rate Frequency Interval (ms) Precise increment (0.1ns)
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------------------------------------------------------
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0 disabled
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1 32768 0.03052 305,175
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2 16384 0.06103 610,351
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3 8192 0.12207 1,220,703
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4 4096 0.24414 2,441,406
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5 2048 0.48828 4,882,812
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6 1024 0.97656 9,765,625 <- minimum
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7 512 1.95313 19,531,250
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8 256 3.90625 39,062,500
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9 128 7.8125 78,125,000
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10 64 15.6250 156,250,000 <- maximum / default
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11 32 31.25 312,500,000
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12 16 62.5 625,000,000
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13 8 125 1,250,000,000
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14 4 250 2,500,000,000
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15 2 500 5,000,000,000
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*/
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FORCEINLINE
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ULONG
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RtcClockRateToPreciseIncrement(UCHAR Rate)
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{
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/* Calculate frequency */
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ULONG Frequency = 32768 >> (Rate - 1);
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/* Calculate interval in 0.1ns interval: Interval = (1 / Frequency) * 10,000,000,000 */
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return 10000000000ULL / Frequency;
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}
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VOID
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RtcSetClockRate(UCHAR ClockRate)
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{
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UCHAR RegisterA;
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ULONG PreciseIncrement;
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/* Update the global values */
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HalpCurrentClockRate = ClockRate;
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PreciseIncrement = RtcClockRateToPreciseIncrement(ClockRate);
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HalpCurrentTimeIncrement = PreciseIncrement / 1000;
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HalpCurrentFractionalIncrement = PreciseIncrement % 1000;
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/* Acquire CMOS lock */
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HalpAcquireCmosSpinLock();
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// TODO: disable NMI
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/* Read value of register A */
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RegisterA = HalpReadCmos(RTC_REGISTER_A);
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/* Change lower 4 bits to new rate */
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RegisterA &= 0xF0;
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RegisterA |= ClockRate;
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/* Write the new value */
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HalpWriteCmos(RTC_REGISTER_A, RegisterA);
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/* Release CMOS lock */
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HalpReleaseCmosSpinLock();
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}
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CODE_SEG("INIT")
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VOID
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NTAPI
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HalpInitializeClock(VOID)
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{
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ULONG_PTR EFlags;
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UCHAR RegisterB;
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/* Save EFlags and disable interrupts */
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EFlags = __readeflags();
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_disable();
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// TODO: disable NMI
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/* Acquire CMOS lock */
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HalpAcquireCmosSpinLock();
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/* Enable the periodic interrupt in the CMOS */
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RegisterB = HalpReadCmos(RTC_REGISTER_B);
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HalpWriteCmos(RTC_REGISTER_B, RegisterB | RTC_REG_B_PI);
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/* Release CMOS lock */
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HalpReleaseCmosSpinLock();
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/* Set initial rate */
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RtcSetClockRate(HalpCurrentClockRate);
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/* Restore interrupt state */
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__writeeflags(EFlags);
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/* Calculate minumum and maximum increment */
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HalpMinimumTimeIncrement = RtcClockRateToPreciseIncrement(RtcMinimumClockRate) / 1000;
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HalpMaximumTimeIncrement = RtcClockRateToPreciseIncrement(RtcMaximumClockRate) / 1000;
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/* Notify the kernel about the maximum and minimum increment */
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KeSetTimeIncrement(HalpMaximumTimeIncrement, HalpMinimumTimeIncrement);
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/* Enable the timer interrupt */
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HalEnableSystemInterrupt(APIC_CLOCK_VECTOR, CLOCK_LEVEL, Latched);
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DPRINT1("Clock initialized\n");
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}
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VOID
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FASTCALL
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HalpClockInterruptHandler(IN PKTRAP_FRAME TrapFrame)
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{
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ULONG LastIncrement;
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KIRQL Irql;
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/* Enter trap */
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KiEnterInterruptTrap(TrapFrame);
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#ifdef _M_AMD64
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/* This is for debugging */
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TrapFrame->ErrorCode = 0xc10c4;
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#endif
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/* Start the interrupt */
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if (!HalBeginSystemInterrupt(CLOCK_LEVEL, APIC_CLOCK_VECTOR, &Irql))
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{
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/* Spurious, just end the interrupt */
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#ifdef _M_IX86
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KiEoiHelper(TrapFrame);
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#endif
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return;
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}
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/* Read register C, so that the next interrupt can happen */
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HalpReadCmos(RTC_REGISTER_C);
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/* Save increment */
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LastIncrement = HalpCurrentTimeIncrement;
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/* Check if the running fraction has accounted for 100 ns */
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HalpRunningFraction += HalpCurrentFractionalIncrement;
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if (HalpRunningFraction >= 1000)
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{
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LastIncrement++;
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HalpRunningFraction -= 1000;
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}
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/* Check if someone changed the time rate */
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if (HalpSetClockRate)
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{
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/* Set new clock rate */
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RtcSetClockRate(HalpNextClockRate);
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/* We're done */
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HalpSetClockRate = FALSE;
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}
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/* Send the clock IPI to all other CPUs */
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HalpBroadcastClockIpi(CLOCK_IPI_VECTOR);
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/* Update the system time -- on x86 the kernel will exit this trap */
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KeUpdateSystemTime(TrapFrame, LastIncrement, Irql);
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/* End the interrupt */
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KiEndInterrupt(Irql, TrapFrame);
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}
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VOID
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FASTCALL
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HalpClockIpiHandler(IN PKTRAP_FRAME TrapFrame)
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{
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KIRQL Irql;
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/* Enter trap */
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KiEnterInterruptTrap(TrapFrame);
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#ifdef _M_AMD64
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/* This is for debugging */
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TrapFrame->ErrorCode = 0xc10c4;
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#endif
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/* Start the interrupt */
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if (!HalBeginSystemInterrupt(CLOCK_LEVEL, CLOCK_IPI_VECTOR, &Irql))
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{
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/* Spurious, just end the interrupt */
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#ifdef _M_IX86
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KiEoiHelper(TrapFrame);
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#endif
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return;
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}
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/* Call the kernel to update runtimes */
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KeUpdateRunTime(TrapFrame, Irql);
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/* End the interrupt */
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KiEndInterrupt(Irql, TrapFrame);
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}
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ULONG
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NTAPI
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HalSetTimeIncrement(IN ULONG Increment)
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{
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UCHAR Rate;
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ULONG NextIncrement;
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/* Lookup largest value below given Increment */
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for (Rate = RtcMinimumClockRate; Rate < RtcMaximumClockRate; Rate++)
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{
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/* Check if this is the largest rate possible */
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NextIncrement = RtcClockRateToPreciseIncrement(Rate + 1) / 1000;
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if (NextIncrement > Increment)
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break;
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}
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/* Set the rate and tell HAL we want to change it */
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HalpNextClockRate = Rate;
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HalpSetClockRate = TRUE;
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/* Return the real increment */
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return RtcClockRateToPreciseIncrement(Rate) / 1000;
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}
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