We need a way to pass flags to rombuilds in Raptor via extension flm interfaces, so that the CPP pass
of the rom input files can be informed what toolchain we are building with and conditionally
include or exclude files depending on whether the toolchain could build them.
// Copyright (c) 2005-2009 Nokia Corporation and/or its subsidiary(-ies).
// All rights reserved.
// This component and the accompanying materials are made available
// under the terms of the License "Eclipse Public License v1.0"
// which accompanies this distribution, and is available
// at the URL "http://www.eclipse.org/legal/epl-v10.html".
//
// Initial Contributors:
// Nokia Corporation - initial contribution.
//
// Contributors:
//
// Description:
// e32test\bench\d_kernasmfnc.cpp
//
//
#include <e32cmn.h>
#include <e32cmn_private.h>
#include <kernel/kern_priv.h>
#include "d_kernbm.h"
#include "d_kernasmbm.h"
TUint8* UserPtr; // pointer to user-side buffer
TUint8* KernelPtr; // pointer to kernel-side buffer
NFastMutex* FastMutex;
NFastSemaphore* FastSem;
DThread* Thread;
void DfcFunc(TAny*)
{
}
TDfc Dfc(DfcFunc, NULL, Kern::DfcQue0(), 3);
TPriList<TPriListLink, 64> PriList;
_LIT(KObjectName, "This is a valid object name.");
TBitMapAllocator* Bma;
TInt BitmapList[32];
const TUint8* CharData = (const TUint8*) "Here's some char data to compare with memicmp";
// Allocate a 32-byte aligned block
TAny* AllocAligned(TUint aSize)
{
TUint mem = (TUint)Kern::Alloc(aSize + 32 + 4);
if (!mem)
return NULL;
TUint* ptr = (TUint*) ALIGN_ADDR(mem + 4);
ptr[-1] = mem;
return ptr;
}
// Free a block allocated by AllocAligned
void FreeAligned(TAny* ptr)
{
Kern::Free((TAny*)((TUint*)ptr)[-1]);
}
TBitMapAllocator* AllocAlignedBMA(TInt aSize, TBool aState)
{
TInt nmapw=(aSize+31)>>5;
TInt memsz=sizeof(TBitMapAllocator)+(nmapw-1)*sizeof(TUint32);
TBitMapAllocator* pA=(TBitMapAllocator*)AllocAligned(memsz);
if (pA)
new(pA) TBitMapAllocator(aSize, aState);
return pA;
}
TInt ThreadFunc(TAny* aPtr)
{
return KErrNone;
}
TInt InitData()
{
KernelPtr = (TUint8*)AllocAligned(KKernAsmBmBufferSize);
if (!KernelPtr)
return KErrNoMemory;
Bma = AllocAlignedBMA(256, ETrue);
if (!Bma)
return KErrNoMemory;
FastSem = (NFastSemaphore*) AllocAligned(sizeof(NFastSemaphore));
if (!FastSem)
return KErrNoMemory;
new (FastSem) NFastSemaphore;
NKern::FSSetOwner(FastSem, NULL);
FastMutex = (NFastMutex*) AllocAligned(sizeof(FastMutex));
if (!FastMutex)
return KErrNoMemory;
new (FastMutex) NFastMutex;
SThreadCreateInfo info;
info.iType=EThreadSupervisor;
info.iFunction=ThreadFunc;
info.iPtr=NULL;
info.iSupervisorStack=NULL;
info.iSupervisorStackSize=0; // zero means use default value
info.iInitialThreadPriority=NKern::CurrentThread()->iPriority;
info.iName.Set(_L("bmthread2"));
info.iTotalSize = sizeof(info);
NKern::ThreadEnterCS();
TInt r = Kern::ThreadCreate(info);
NKern::ThreadLeaveCS();
if (r != KErrNone)
return r;
Thread = (DThread*)info.iHandle;
return KErrNone;
}
void CloseData()
{
FreeAligned(KernelPtr); KernelPtr = NULL;
FreeAligned(Bma); Bma = NULL;
FreeAligned(FastSem); FastSem = NULL;
FreeAligned(FastMutex); FastMutex = NULL;
Kern::ThreadResume(*Thread); Thread = NULL; // thread will now exit
}
// 1. Functions that have C++ equivalents
// 1.1 NKern
// 1.1.1 DFCs
DEFINE_BENCHMARK(Dfc_DoEnqueCancel,
NKern::Lock(),
Dfc.DoEnque(); Dfc.Cancel(),
NKern::Unlock());
DEFINE_BENCHMARK(Dfc_AddCancel,
NKern::Lock(),
Dfc.Add(); Dfc.Cancel(),
NKern::Unlock());
// Not exported: TDfc::DoEnqueFinal, TDfc::ThreadFunction
// 1.1.2 Fast mutex
DEFINE_BENCHMARK(NKern_LockUnlockSystem,
,
NKern::LockSystem(); NKern::UnlockSystem(),
);
DEFINE_BENCHMARK(NFastMutex_WaitSignal,
NKern::Lock(),
FastMutex->Wait(); FastMutex->Signal(),
NKern::Unlock()); // no contention
DEFINE_BENCHMARK(NKern_FMWaitSignal,
,
NKern::FMWait(FastMutex); NKern::FMSignal(FastMutex),
); // no contention
// Benchmark that exercises contention for fast mutex
DEFINE_THREADED_BENCHMARK(NFastMutex_ThreadSwitch,
-1,
Kern::ThreadResume(*iThread2),
NKern::FSWait(FastSem); NKern::FMWait(FastMutex); NKern::FMSignal(FastMutex),
NKern::FMWait(FastMutex); NKern::FSSignal(FastSem); NKern::FMSignal(FastMutex),
);
// Benchmark thread switching with suspend/resume for comparison
DEFINE_THREADED_BENCHMARK(Kern_ThreadSwitch,
1,
,
Kern::ThreadResume(*iThread2),
Kern::ThreadSuspend(*iThread2, 1),
Kern::ThreadResume(*iThread2));
// 1.1.3 Fast semaphore
DEFINE_BENCHMARK(NFastSem_Wait,
NKern::Lock(); FastSem->SignalN(aParams.iIts * 10),
FastSem->Wait(),
NKern::Unlock());
DEFINE_BENCHMARK(NFastSem_Signal,
NKern::Lock(),
FastSem->Signal(),
FastSem->Reset(); NKern::Unlock());
DEFINE_BENCHMARK(NFastSem_SignalN,
NKern::Lock(),
FastSem->SignalN(1),
FastSem->Reset(); NKern::Unlock());
DEFINE_BENCHMARK(NFastSem_Reset,
NKern::Lock(),
FastSem->Reset(),
NKern::Unlock());
// NFastSemaphore::WaitCancel not exported
DEFINE_THREADED_BENCHMARK(NFastSem_ThreadSwitch,
-1,
Kern::ThreadResume(*iThread2),
NKern::FSWait(FastSem),
NKern::FSSignal(FastSem),
);
DEFINE_BENCHMARK(NKern_WaitForAnyReq,
NKern::ThreadRequestSignal(NULL, aParams.iIts * 10),
NKern::WaitForAnyRequest(),
);
DEFINE_BENCHMARK(NKern_ThreadReqSignal,
NThread* t = &Thread->iNThread; NKern::Lock(),
NKern::ThreadRequestSignal(t),
t->iRequestSemaphore.Reset();NKern::Unlock());
DEFINE_BENCHMARK(NKern_ThreadReqSignal2,
NThread* t = &Thread->iNThread,
NKern::FMWait(FastMutex); NKern::ThreadRequestSignal(t, FastMutex),
NKern::Lock(); t->iRequestSemaphore.Reset(); NKern::Unlock(););
// 1.1.4 Timers
DEFINE_BENCHMARK(NTimer_OneShot,
NTimer timer,
timer.OneShot(100); timer.Cancel(),
);
DEFINE_BENCHMARK(NTimer_Again,
NTimer timer,
timer.Again(100); timer.Cancel(),
);
// Not exported:
// NTimerQ::Add
// NTimerQ::AddFinal
// NTimerQ::DfcFn
// NTimerQ::Dfc
// Not tested:
// NTimerQ::IdleTime
// 1.1.5 Priority list
DEFINE_BENCHMARK(TPriList_AddRemove,
TPriListLink link(15),
PriList.Add(&link); PriList.Remove(&link),
);
DEFINE_BENCHMARK(TPriList_AddRemove2,
TPriListLink link(15); TPriListLink link2(15); PriList.Add(&link2),
PriList.Add(&link); PriList.Remove(&link),
PriList.Remove(&link2));
DEFINE_BENCHMARK(TPriList_First,
TPriListLink link(15); PriList.Add(&link),
PriList.First(),
PriList.Remove(&link));
DEFINE_BENCHMARK(TPriList_HighestPri,
TPriListLink link(15); PriList.Add(&link),
PriList.First(),
PriList.Remove(&link));
DEFINE_BENCHMARK(TPriList_ChangePri,
TPriListLink link(15); PriList.Add(&link); TInt pri = 15,
pri ^= 32; PriList.ChangePriority(&link, pri),
PriList.Remove(&link));
// 1.2 Kern
DEFINE_BENCHMARK(Kern_ValidateFullName,
,
Kern::ValidateFullName(KObjectName),
);
// 1.3. klib
DEFINE_BENCHMARK(TBitMapAlloc_Ctor,
,
new (Bma) TBitMapAllocator(256, ETrue),
);
DEFINE_BENCHMARK(TBitMapAlloc_AllocFree1,
,
Bma->Alloc(17, 119); Bma->Free(17, 119),
);
DEFINE_BENCHMARK(TBitMapAlloc_AllocFree2,
Bma->Alloc(0, 119),
Bma->Free(Bma->Alloc()),
Bma->Free(0, 119));
DEFINE_BENCHMARK(TBitMapAlloc_SelectFree,
,
Bma->SelectiveFree(0, 153),
);
DEFINE_BENCHMARK(TBitMapAlloc_NotFree,
,
Bma->NotFree(0, 119),
);
DEFINE_BENCHMARK(TBitMapAlloc_NotAlloc,
,
Bma->NotAllocated(0, 119),
);
DEFINE_BENCHMARK(TBitMapAlloc_AllocList,
,
Bma->AllocList(32, BitmapList); Bma->Free(0, 32),
);
DEFINE_BENCHMARK(TBitMapAlloc_AllocAligned,
Bma->Alloc(0, 35); TInt a = 0; TInt b=0,
Bma->AllocAligned(64, 3, 0, EFalse, a, b),
Bma->Free(0, 35));
DEFINE_BENCHMARK(Kern_ValidateName,
,
Kern::ValidateName(KObjectName),
);
DEFINE_BENCHMARK(memicmp,
,
memicmp(CharData, CharData, 49),
);
// 2. Functions that have no C++ equivalent
// 2.1. NKern
DEFINE_BENCHMARK(NKern_LockedInc,
TInt i,
NKern::LockedInc(i),
);
DEFINE_BENCHMARK(NKern_LockedDec,
TInt i,
NKern::LockedDec(i),
);
DEFINE_BENCHMARK(NKern_LockedAdd,
TInt i,
NKern::LockedAdd(i, 0),
);
DEFINE_BENCHMARK(NKern_LockedSetClear,
TUint32 i,
NKern::LockedSetClear(i, 0, 0),
);
DEFINE_BENCHMARK(NKern_LockedSetClear8,
TUint8 i,
NKern::LockedSetClear8(i, 0, 0),
);
DEFINE_BENCHMARK(NKern_SafeInc,
TInt i = 0,
NKern::SafeInc(i),
);
DEFINE_BENCHMARK(NKern_SafeDec,
TInt i = KMaxTInt,
NKern::SafeDec(i),
);
DEFINE_BENCHMARK(NKern_SafeSwap,
TAny* i,
NKern::SafeSwap(0, i),
);
DEFINE_BENCHMARK(NKern_SafeSwap8,
TUint8 i,
NKern::SafeSwap8(0, i),
);
DEFINE_BENCHMARK(NKern_LockUnlock,
,
NKern::Lock(); NKern::Unlock(),
);
DEFINE_BENCHMARK(NKern_DisableInts1,
,
NKern::RestoreInterrupts(NKern::DisableInterrupts(1)),
);
DEFINE_BENCHMARK(NKern_DisableInts2,
,
NKern::RestoreInterrupts(NKern::DisableInterrupts(2)),
);
// 2.2 Kern
DEFINE_BENCHMARK(Kern_NanoWait,
,
Kern::NanoWait(1000),
); // expect 1uS!
DEFINE_BENCHMARK(Kern_KUSafeInc,
umemset(UserPtr, 1, sizeof(TInt)),
Kern::KUSafeInc(*(TInt*)UserPtr),
);
DEFINE_BENCHMARK(Kern_KUSafeDec,
umemset(UserPtr, KMaxTInt8, sizeof(TInt)),
Kern::KUSafeDec(*(TInt*)UserPtr),
);
DEFINE_BENCHMARK(DThread_ObjectFromHandle,
DThread* thread = &Kern::CurrentThread(),
thread->ObjectFromHandle(1),
);
DEFINE_BENCHMARK(Kern_ObjectFromHandle,
DThread* thread = &Kern::CurrentThread(),
Kern::ObjectFromHandle(thread, 1, -1),
);
DEFINE_BENCHMARK(Kern_KUSafeRead,
TUint8 buf[128],
Kern::KUSafeRead(UserPtr, buf, 128),
);
DEFINE_BENCHMARK(Kern_SafeRead,
TUint8 buf[128],
Kern::SafeRead(KernelPtr, buf, 128),
);
DEFINE_BENCHMARK(Kern_KUSafeWrite,
TUint8 buf[128],
Kern::KUSafeWrite(UserPtr, buf, 128),
);
DEFINE_BENCHMARK(Kern_SafeWrite,
TUint8 buf[128],
Kern::SafeWrite(KernelPtr, buf, 128),
);
DEFINE_BENCHMARK(Kern_SafeRead4,
TUint8 buf[128],
Kern::SafeRead(KernelPtr, buf, 4),
);
DEFINE_BENCHMARK(Kern_SafeRead8,
TUint8 buf[128],
Kern::SafeRead(KernelPtr, buf, 8),
);
// 2.3 klib
DEFINE_BENCHMARK(umemput32_16,
,
umemput32(UserPtr, KernelPtr, 16),
);
DEFINE_BENCHMARK(umemput32_4,
,
umemput32(UserPtr, KernelPtr, 4),
);
DEFINE_MEMORY_BENCHMARK(umemput32_64K,
4,
KernelPtr,
UserPtr,
,
umemput32(dest, src, 65536),
);
DEFINE_BENCHMARK(umemput_32,
,
umemput(UserPtr, KernelPtr, 32),
);
DEFINE_BENCHMARK(umemput_40,
,
umemput(UserPtr, KernelPtr, 40),
);
DEFINE_MEMORY_BENCHMARK(umemput_64K,
1,
KernelPtr,
UserPtr,
,
umemput(dest, src, 65536),
);
DEFINE_BENCHMARK(umemget32_32,
,
umemget32(KernelPtr, UserPtr, 32),
);
DEFINE_MEMORY_BENCHMARK(umemget32_64K,
4,
UserPtr,
KernelPtr,
,
umemget32(dest, src, 65536),
);
DEFINE_BENCHMARK(umemget_7,
,
umemget(KernelPtr, UserPtr, 7),
);
DEFINE_MEMORY_BENCHMARK(umemget_64K,
1,
UserPtr,
KernelPtr,
,
umemget(dest, src, 65536),
);
DEFINE_BENCHMARK(umemset_64K,
,
umemset(UserPtr, 23, 65536),
);
// Not exported:
// K::ObjectFromHandle(TInt /*aHandle*/)
// K::ObjectFromHandle(TInt /*aHandle*/, TInt /*aType*/)
// ExecHandler::LockedInc
// ExecHandler::LockedDec
// ExecHandler::SafeInc
// ExecHandler::SafeDec