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251 lines
6.7 KiB
251 lines
6.7 KiB
/* Copyright (c) 1999-2000 Microsoft Corporation */
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///======================================================================
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//
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// Perf.c
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//
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// This file contains the performance counter initialization
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// and dump routines. The only part of this file you
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// must modify is the performance counter name table. Match
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// the names with the counters you define in perf.h
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//
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///======================================================================
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#include "wdm.h"
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#include "perf.h"
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#include "debug.h"
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#if PERFORMANCE
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//**********************************************************************
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//
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// Modify this section for your counters
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//
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//
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// The names that correspond to the performance
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// counter indexes in perf.h
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//
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static char CounterNames[NUM_PERF_COUNTERS][32] = {
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//
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// Write path
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//
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"Write",
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"WriteComplete",
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"WriteTimeout",
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//
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// Read path
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//
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"StartUsbReadWorkItem",
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"UsbRead",
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"UsbReadCompletion",
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"CheckForQueuedUserReads",
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"GetUserData",
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"PutUserData",
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"CancelUsbReadIrp",
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"Read",
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"StartOrQueueIrp",
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"StartUserRead",
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"GetNextUserIrp",
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"CancelCurrentRead",
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"CancelQueuedIrp",
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"ReadTimeout",
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"IntervalReadTimeout",
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"CancelUsbReadWorkItem",
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//
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// USB Path
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//
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"UsbReadWritePacket",
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//
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// Serial path
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//
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"ProcessSerialWaits",
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//
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// Utils
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//
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"TryToCompleteCurrentIrp",
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"RundownIrpRefs",
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"RecycleIrp",
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"ReuseIrp",
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"CalculateTimeout",
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};
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//
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// End of user-modified portion
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//
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//**********************************************************************
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// print macro that only turns on when debugging is on
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//#if DBG
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#define PerfPrint(arg) DbgPrint arg
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//#else
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//#define PerfPrint(arg)
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//#endif
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//
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// The array of performance counters
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//
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PERF_COUNTER PerfCounter[NUM_PERF_COUNTERS];
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//
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// Number of cycles for a PERF_ENTRY and PERF_EXIT
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//
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static LARGE_INTEGER PerfEntryExitCycles;
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//
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// Number of cycles per second
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//
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static LARGE_INTEGER PerfCyclesPerSecond;
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//
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// The resolution of the NT-supplied performance
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// counter
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//
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static LARGE_INTEGER PerfFreq;
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#endif
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//----------------------------------------------------------------------
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//
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// InitPerfCounters
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//
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// This function initializes the performance counter statistic
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// array, estimates how many cycles on this processor equal a second,
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// and determines how many cycles it takes to execute a
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// PERF_ENTRY/PERF_EXIT pair.
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//
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//----------------------------------------------------------------------
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VOID
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InitPerfCounters()
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{
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#if PERFORMANCE
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volatile ULONG i;
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LARGE_INTEGER calStart;
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LARGE_INTEGER calEnd;
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LARGE_INTEGER perfStart, perfEnd;
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LARGE_INTEGER seconds;
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KIRQL prevIrql;
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//
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// Number of calibration loops
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//
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#define CALIBRATION_LOOPS 500000
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//
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// This define is for a dummy performance counter that we
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// use just to calibrate the performance macro overhead
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//
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#define TEST 0
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//
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// Calibrate the overhead of PERF_ENTRY and PERF_EXIT, so that
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// they can be subtracted from the output
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//
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DbgDump(DBG_INIT, ("CALIBRATING PEFORMANCE TIMER....\n"));
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KeRaiseIrql( DISPATCH_LEVEL, &prevIrql );
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perfStart = KeQueryPerformanceCounter( &PerfFreq );
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RDTSC(calStart);
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for( i = 0; i < CALIBRATION_LOOPS; i++ ) {
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PERF_ENTRY(TEST);
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PERF_EXIT(TEST);
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}
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RDTSC(calEnd);
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perfEnd = KeQueryPerformanceCounter(NULL);
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KeLowerIrql( prevIrql );
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//
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// Calculate the cycles/PERF_ENTRY, and the number of cycles/second
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//
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PerfEntryExitCycles.QuadPart = (calEnd.QuadPart - calStart.QuadPart)/CALIBRATION_LOOPS;
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seconds.QuadPart = ((perfEnd.QuadPart - perfStart.QuadPart) * 1000 )/ PerfFreq.QuadPart;
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PerfCyclesPerSecond.QuadPart =
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seconds.QuadPart ? ((calEnd.QuadPart - calStart.QuadPart) * 1000) / seconds.QuadPart : 0;
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DbgDump(DBG_INIT, ("Machine's Cycles Per Second : %I64d\n", PerfCyclesPerSecond.QuadPart ));
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DbgDump(DBG_INIT, ("Machine's Cycles in PERF_XXXX : %I64d\n", PerfEntryExitCycles.QuadPart ));
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DbgDump(DBG_INIT, ("Machine's NT Performance counter frequency: %I64d\n", PerfFreq.QuadPart ));
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//
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// Initialize the array
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//
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for( i = 0; i < NUM_PERF_COUNTERS; i++ ) {
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PerfCounter[i].Count = 0;
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KeInitializeSpinLock( &PerfCounter[i].Lock );
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PerfCounter[i].TotalCycles.QuadPart = 0;
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}
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#endif
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}
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// *******************************************************************
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// Name:
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// DumpPerfCounters()
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//
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// Description:
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// Dumps the performance counters
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//
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// Assumptions:
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//
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// Returns:
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//
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// *******************************************************************
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VOID
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DumpPerfCounters()
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{
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#if PERFORMANCE
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int i;
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LARGE_INTEGER totCycles;
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LARGE_INTEGER totLengthMs;
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LARGE_INTEGER avgLengthMs;
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if (DebugLevel & DBG_PERF ) {
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PerfPrint(("\n"));
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PerfPrint(("Machine's Cycles Per Second : %I64d\n", PerfCyclesPerSecond.QuadPart ));
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PerfPrint(("Machine's Cycles in PERF_XXXX : %I64d\n", PerfEntryExitCycles.QuadPart ));
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PerfPrint(("Machine's NT Performance counter frequency: %I64d\n", PerfFreq.QuadPart ));
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PerfPrint(("\n===================================================================================\n"));
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PerfPrint((" %-30s Count TTL Time Avg Time (uS)\n", "Function" ));
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PerfPrint(("===================================================================================\n"));
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for( i = 0; i < NUM_PERF_COUNTERS; i++ ) {
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totCycles = PerfCounter[i].TotalCycles;
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totCycles.QuadPart -= (PerfCounter[i].Count * PerfEntryExitCycles.QuadPart);
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totLengthMs.QuadPart = PerfCyclesPerSecond.QuadPart ? (totCycles.QuadPart * 1000000)/
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PerfCyclesPerSecond.QuadPart : 0;
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avgLengthMs.QuadPart = PerfCounter[i].Count ? totLengthMs.QuadPart / PerfCounter[i].Count : 0;
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PerfPrint((" %-30s %10d %15I64d %14I64d\n",
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CounterNames[i], PerfCounter[i].Count,
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totLengthMs.QuadPart, avgLengthMs.QuadPart ));
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/*
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PerfPrint((" %-30s %10s %15I64d %14I64d (CY)\n",
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"", "",
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totCycles.QuadPart,
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totCycles.QuadPart ? totCycles.QuadPart / PerfCounter[i].Count: 0 ));
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PerfPrint(("------------------------------------------------------------------------------\n"));
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*/
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}
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PerfPrint(("------------------------------------------------------------------------------\n"));
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}
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#endif
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}
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