mirror of
https://github.com/reactos/reactos.git
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181 lines
4.4 KiB
C
181 lines
4.4 KiB
C
/*
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* PROJECT: ReactOS HAL
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* LICENSE: GPL - See COPYING in the top level directory
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* FILE: hal/halx86/apic/tsc.c
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* PURPOSE: HAL Routines for TSC handling
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* PROGRAMMERS: Timo Kreuzer (timo.kreuzer@reactos.org)
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*/
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/* INCLUDES ******************************************************************/
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#include <hal.h>
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#define NDEBUG
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#include <debug.h>
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#include "tsc.h"
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LARGE_INTEGER HalpCpuClockFrequency = {{INITIAL_STALL_COUNT * 1000000}};
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UCHAR TscCalibrationPhase;
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ULONG64 TscCalibrationArray[NUM_SAMPLES];
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UCHAR HalpRtcClockVector = 0xD1;
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#define RTC_MODE 6 /* Mode 6 is 1024 Hz */
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#define SAMPLE_FREQENCY ((32768 << 1) >> RTC_MODE)
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/* PRIVATE FUNCTIONS *********************************************************/
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static
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ULONG64
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DoLinearRegression(
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ULONG XMax,
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ULONG64 *ArrayY)
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{
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ULONG X, SumXX;
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ULONG64 SumXY;
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/* Calculate the sum of the squares of X */
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SumXX = (XMax * (XMax + 1) * (2*XMax + 1)) / 6;
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/* Calculate the sum of the differences to the first value
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weighted by x */
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for (SumXY = 0, X = 1; X <= XMax; X++)
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{
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SumXY += X * (ArrayY[X] - ArrayY[0]);
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}
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/* Account for sample frequency */
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SumXY *= SAMPLE_FREQENCY;
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/* Return the quotient of the sums */
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return (SumXY + (SumXX/2)) / SumXX;
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}
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VOID
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NTAPI
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HalpInitializeTsc(VOID)
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{
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ULONG_PTR Flags;
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KIDTENTRY OldIdtEntry, *IdtPointer;
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PKPCR Pcr = KeGetPcr();
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UCHAR RegisterA, RegisterB;
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/* Check if the CPU supports RDTSC */
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if (!(KeGetCurrentPrcb()->FeatureBits & KF_RDTSC))
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{
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KeBugCheck(HAL_INITIALIZATION_FAILED);
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}
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/* Save flags and disable interrupts */
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Flags = __readeflags();
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_disable();
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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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/* Modify register A to RTC_MODE to get SAMPLE_FREQENCY */
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RegisterA = HalpReadCmos(RTC_REGISTER_A);
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RegisterA = (RegisterA & 0xF0) | RTC_MODE;
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HalpWriteCmos(RTC_REGISTER_A, RegisterA);
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/* Save old IDT entry */
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IdtPointer = KiGetIdtEntry(Pcr, HalpRtcClockVector);
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OldIdtEntry = *IdtPointer;
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/* Set the calibration ISR */
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KeRegisterInterruptHandler(HalpRtcClockVector, TscCalibrationISR);
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/* Reset TSC value to 0 */
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__writemsr(MSR_RDTSC, 0);
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/* Enable the timer interrupt */
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HalEnableSystemInterrupt(HalpRtcClockVector, CLOCK_LEVEL, Latched);
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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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/* Wait for completion */
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_enable();
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while (TscCalibrationPhase < NUM_SAMPLES) _ReadWriteBarrier();
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_disable();
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/* Disable the periodic interrupt in the CMOS */
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HalpWriteCmos(RTC_REGISTER_B, RegisterB & ~RTC_REG_B_PI);
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/* Disable the timer interrupt */
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HalDisableSystemInterrupt(HalpRtcClockVector, CLOCK_LEVEL);
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/* Restore old IDT entry */
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*IdtPointer = OldIdtEntry;
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/* Calculate an average, using simplified linear regression */
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HalpCpuClockFrequency.QuadPart = DoLinearRegression(NUM_SAMPLES - 1,
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TscCalibrationArray);
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/* Restore flags */
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__writeeflags(Flags);
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}
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VOID
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NTAPI
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HalpCalibrateStallExecution(VOID)
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{
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// Timer interrupt is now active
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HalpInitializeTsc();
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KeGetPcr()->StallScaleFactor = (ULONG)(HalpCpuClockFrequency.QuadPart / 1000000);
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}
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/* PUBLIC FUNCTIONS ***********************************************************/
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LARGE_INTEGER
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NTAPI
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KeQueryPerformanceCounter(
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OUT PLARGE_INTEGER PerformanceFrequency OPTIONAL)
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{
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LARGE_INTEGER Result;
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/* Make sure it's calibrated */
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ASSERT(HalpCpuClockFrequency.QuadPart != 0);
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/* Does the caller want the frequency? */
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if (PerformanceFrequency)
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{
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/* Return tsc frequency */
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*PerformanceFrequency = HalpCpuClockFrequency;
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}
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/* Return the current value */
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Result.QuadPart = __rdtsc();
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return Result;
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}
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VOID
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NTAPI
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KeStallExecutionProcessor(ULONG MicroSeconds)
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{
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ULONG64 StartTime, EndTime;
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/* Get the initial time */
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StartTime = __rdtsc();
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/* Calculate the ending time */
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EndTime = StartTime + KeGetPcr()->StallScaleFactor * MicroSeconds;
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/* Loop until time is elapsed */
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while (__rdtsc() < EndTime);
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}
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VOID
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NTAPI
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HalCalibratePerformanceCounter(
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IN volatile PLONG Count,
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IN ULONGLONG NewCount)
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{
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UNIMPLEMENTED;
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ASSERT(FALSE);
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}
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