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jitperf.cpp
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jitperf.cpp
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// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
// See the LICENSE file in the project root for more information.
#include "stdafx.h"
#include "jitperf.h"
#include "perflog.h"
#include "clrhost.h"
#include "contract.h"
#include "utilcode.h"
#include "sstring.h"
//=============================================================================
// ALL THE JIT PERF STATS GATHERING CODE IS COMPILED ONLY IF THE ENABLE_JIT_PERF WAS DEFINED.
#if defined(ENABLE_JIT_PERF)
__int64 g_JitCycles = 0;
size_t g_NonJitCycles = 0;
CRITSEC_COOKIE g_csJit;
__int64 g_tlsJitCycles = 0;
int g_fJitPerfOn;
size_t g_dwTlsx86CodeSize = 0;
size_t g_TotalILCodeSize = 0;
size_t g_Totalx86CodeSize = 0;
size_t g_TotalMethodsJitted = 0;
void OutputStats ()
{
CONTRACTL {
NOTHROW;
GC_NOTRIGGER;
CANNOT_TAKE_LOCK;
} CONTRACTL_END;
LARGE_INTEGER cycleFreq;
if (QueryPerformanceFrequency (&cycleFreq))
{
double dJitC = (double) g_JitCycles;
double dNonJitC = (double) g_NonJitCycles;
double dFreq = (double)cycleFreq.QuadPart;
double compileSpeed = (double)g_TotalILCodeSize/(dJitC/dFreq);
PERFLOG((W("Jit Cycles"), (dJitC - dNonJitC), CYCLES));
PERFLOG((W("Jit Time"), (dJitC - dNonJitC)/dFreq, SECONDS));
PERFLOG((W("Non Jit Cycles"), dNonJitC, CYCLES));
PERFLOG((W("Non Jit Time"), dNonJitC/dFreq, SECONDS));
PERFLOG((W("Total Jit Cycles"), dJitC, CYCLES));
PERFLOG((W("Total Jit Time"), dJitC/dFreq, SECONDS));
PERFLOG((W("Methods Jitted"), (UINT_PTR)g_TotalMethodsJitted, COUNT));
PERFLOG((W("IL Code Compiled"), (UINT_PTR)g_TotalILCodeSize, BYTES));
PERFLOG((W("X86 Code Emitted"), (UINT_PTR)g_Totalx86CodeSize, BYTES));
// Included the perf counter description in this case because its not obvious what we are reporting.
PERFLOG((W("ExecTime"), compileSpeed/1000, KBYTES_PER_SEC, W("IL Code compiled/sec")));
}
}
void InitJitPerf(void)
{
CONTRACTL {
NOTHROW;
GC_NOTRIGGER;
CANNOT_TAKE_LOCK;
} CONTRACTL_END;
InlineSString<4> lpszValue;
g_fJitPerfOn = WszGetEnvironmentVariable (W("JIT_PERF_OUTPUT"), lpszValue);
if (g_fJitPerfOn)
{
g_csJit = ClrCreateCriticalSection(CrstJitPerf,CRST_UNSAFE_ANYMODE);
}
}
void DoneJitPerfStats()
{
CONTRACTL {
NOTHROW;
GC_NOTRIGGER;
CANNOT_TAKE_LOCK;
} CONTRACTL_END;
if (g_fJitPerfOn)
{
ClrDeleteCriticalSection(g_csJit);
// Output stats to stdout and if necessary to the perf automation file.
OutputStats();
}
}
void StartNonJITPerfWorker(LARGE_INTEGER * pCycleStart)
{
CONTRACTL {
NOTHROW;
GC_NOTRIGGER;
CANNOT_TAKE_LOCK;
} CONTRACTL_END;
pCycleStart->QuadPart = 0;
size_t pTlsNonJitCycles = (size_t) ClrFlsGetValue (TlsIdx_JitPerf);
if ((pTlsNonJitCycles & 1) == 0 ) { /* odd value indicates we are in the EE */
ClrFlsSetValue(TlsIdx_JitPerf, (LPVOID)(pTlsNonJitCycles + 1));
QueryPerformanceCounter(pCycleStart);
}
}
void StopNonJITPerfWorker(LARGE_INTEGER * pCycleStart)
{
CONTRACTL {
NOTHROW;
GC_NOTRIGGER;
CANNOT_TAKE_LOCK;
} CONTRACTL_END;
LARGE_INTEGER CycleStop;
if (pCycleStart->QuadPart != 0 && QueryPerformanceCounter(&CycleStop) ) {
size_t pTlsNonJitCycles = (size_t)ClrFlsGetValue (TlsIdx_JitPerf);
pTlsNonJitCycles += static_cast<size_t>(CycleStop.QuadPart - pCycleStart->QuadPart);
pTlsNonJitCycles &= ~1; /* even indicate we are not in EE */
ClrFlsSetValue(TlsIdx_JitPerf, (LPVOID)(pTlsNonJitCycles));
}
}
#endif //ENABLE_JIT_PERF