// Copyright (c) 1997-2009 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\nkern\d_implicit.cpp
// LDD for testing nanokernel implicit system lock
//
//
#define __INCLUDE_NTHREADBASE_DEFINES__
#include "platform.h"
#include "nk_priv.h"
#include "d_implicit.h"
#ifndef __SMP__
#include "../misc/prbs.h"
const TInt KMajorVersionNumber=0;
const TInt KMinorVersionNumber=1;
const TInt KBuildVersionNumber=1;
const TInt KStackSize=1024;
inline NThreadBase::NThreadBase()
{
}
class DImpSysTestFactory : public DLogicalDevice
//
// Implicit system lock test LDD factory
//
{
public:
DImpSysTestFactory();
virtual TInt Install(); //overriding pure virtual
virtual void GetCaps(TDes8& aDes) const; //overriding pure virtual
virtual TInt Create(DLogicalChannelBase*& aChannel); //overriding pure virtual
};
class DImpSysTest : public DLogicalChannelBase
//
// Implicit system lock test LDD channel
//
{
public:
DImpSysTest();
protected:
virtual TInt Request(TInt aReqNo, TAny* a1, TAny* a2);
virtual TInt DoCreate(TInt aUnit, const TDesC8* anInfo, const TVersion& aVer);
public:
TInt CreateThread(TInt);
TInt Start(TInt aTest);
TInt Stop(SStats& aStats);
static void Thread1(TAny*);
static void Thread2(TAny*);
static void Thread3(TAny*);
public:
TInt iFailCount;
TInt iCount1;
TInt iCount2;
TInt iCount3;
TInt iTestNum;
NFastMutex iMutex;
NThread iThread1; // holds fast mutex, imp sys
NThread iThread2; // holds system lock, not imp sys
NThread iThread3; // random stuff
TUint32 iStack1[KStackSize/sizeof(TUint32)];
TUint32 iStack2[KStackSize/sizeof(TUint32)];
TUint32 iStack3[KStackSize/sizeof(TUint32)];
};
TInt DImpSysTest::CreateThread(TInt a)
{
SNThreadCreateInfo info;
info.iStackSize=KStackSize;
info.iPriority=(a==3)?16:12;
info.iTimeslice=-1;
info.iAttributes=(TUint8)((a==1)?KThreadAttImplicitSystemLock:0);
info.iHandlers=NULL;
info.iFastExecTable=NULL;
info.iSlowExecTable=NULL;
info.iParameterBlock=(const TUint32*)this;
info.iParameterBlockSize=0;
NThread* pT=NULL;
switch (a)
{
case 1:
pT=&iThread1;
info.iFunction=&Thread1;
info.iStackBase=iStack1;
break;
case 2:
pT=&iThread2;
info.iFunction=&Thread2;
info.iStackBase=iStack2;
break;
case 3:
pT=&iThread3;
info.iFunction=&Thread3;
info.iStackBase=iStack3;
break;
default:
return KErrArgument;
}
return NKern::ThreadCreate(pT,info);
}
void DImpSysTest::Thread1(TAny* aPtr)
{
DImpSysTest& d=*(DImpSysTest*)aPtr;
TScheduler* pS=TScheduler::Ptr();
NFastMutex& m=pS->iLock;
TUint seed[2];
seed[0]=1;
seed[1]=0;
FOREVER
{
NKern::FMWait(&d.iMutex);
Kern::NanoWait(1300000); // spin for 1.3ms
TInt c = NKern::CurrentContext();
__NK_ASSERT_ALWAYS(c == NKern::EThread);
NKern::FMSignal(&d.iMutex);
if (m.iHoldingThread)
++d.iFailCount;
TInt x=Random(seed)&3;
if (x)
NKern::Sleep(x);
++d.iCount1;
}
}
void DImpSysTest::Thread2(TAny* aPtr)
{
DImpSysTest& d=*(DImpSysTest*)aPtr;
TUint seed[2];
seed[0]=2;
seed[1]=0;
FOREVER
{
TInt c = NKern::CurrentContext();
__NK_ASSERT_ALWAYS(c == NKern::EThread);
NKern::LockSystem();
Kern::NanoWait(1100000); // spin for 1.1ms
NKern::UnlockSystem();
TInt x=Random(seed)&3;
if (x)
NKern::Sleep(x);
++d.iCount2;
}
}
void DImpSysTest::Thread3(TAny* aPtr)
{
DImpSysTest& d=*(DImpSysTest*)aPtr;
TUint seed[2];
seed[0]=3;
seed[1]=0;
if (d.iTestNum==RImpSysTest::ETestPriority)
{
FOREVER
{
TInt c = NKern::CurrentContext();
__NK_ASSERT_ALWAYS(c == NKern::EThread);
TInt x=Random(seed)&15;
NKern::Sleep(x+1);
x=Random(seed)&1;
TInt p=10+Random(seed)&3;
if (x)
NKern::ThreadSetPriority(&d.iThread1,p);
else
NKern::ThreadSetPriority(&d.iThread2,p);
++d.iCount3;
}
}
else if (d.iTestNum==RImpSysTest::ETestRoundRobin)
{
FOREVER
{
TInt c = NKern::CurrentContext();
__NK_ASSERT_ALWAYS(c == NKern::EThread);
TInt x=Random(seed)&15;
NKern::Sleep(x+1);
NKern::RotateReadyList(12);
++d.iCount3;
}
}
else if (d.iTestNum==RImpSysTest::ETestDummy)
{
FOREVER
{
TInt c = NKern::CurrentContext();
__NK_ASSERT_ALWAYS(c == NKern::EThread);
TInt x=Random(seed)&15;
NKern::Sleep(x+1);
x=Random(seed)&255;
TInt p=10+Random(seed)&3;
if (x<85)
{
NKern::LockSystem();
NKern::ThreadSetPriority(&d.iThread1,p);
NKern::UnlockSystem();
}
else if (x<170)
{
NKern::LockSystem();
NKern::ThreadSetPriority(&d.iThread2,p);
NKern::UnlockSystem();
}
else
{
NKern::FMWait(&d.iMutex);
NKern::FMSignal(&d.iMutex);
}
++d.iCount3;
}
}
}
TInt DImpSysTest::Start(TInt aTest)
{
if (iTestNum>=0)
return KErrInUse;
iTestNum=aTest;
iFailCount=0;
iCount1=0;
iCount2=0;
iCount3=0;
new (&iMutex) NFastMutex;
TInt r=CreateThread(1);
if (r==KErrNone)
r=CreateThread(2);
if (r==KErrNone)
r=CreateThread(3);
if (r==KErrNone)
{
NKern::ThreadResume(&iThread3);
NKern::ThreadResume(&iThread1);
NKern::ThreadResume(&iThread2);
}
if (r!=KErrNone)
iTestNum=-1;
return r;
}
TInt DImpSysTest::Stop(SStats& a)
{
NKern::ThreadKill(&iThread1);
NKern::ThreadKill(&iThread2);
NKern::ThreadKill(&iThread3);
NKern::ThreadSetPriority(&iThread1,16);
NKern::ThreadSetPriority(&iThread2,16);
NKern::ThreadSetPriority(&iThread3,16);
while (iThread1.iNState!=NThread::EDead || iThread2.iNState!=NThread::EDead || iThread3.iNState!=NThread::EDead)
NKern::Sleep(10);
TInt size=3*(sizeof(NThread)+KStackSize)+sizeof(NFastMutex);
memset(&iMutex,0xbb,size);
a.iFailCount=iFailCount;
a.iCount1=iCount1;
a.iCount2=iCount2;
a.iCount3=iCount3;
iTestNum=-1;
return KErrNone;
}
DImpSysTestFactory::DImpSysTestFactory()
//
// Constructor
//
{
iVersion=TVersion(KMajorVersionNumber,KMinorVersionNumber,KBuildVersionNumber);
//iParseMask=0;//No units, no info, no PDD
//iUnitsMask=0;//Only one thing
}
TInt DImpSysTestFactory::Create(DLogicalChannelBase*& aChannel)
//
// Create a new DImpSysTest on this logical device
//
{
aChannel=new DImpSysTest;
return aChannel?KErrNone:KErrNoMemory;
}
TInt DImpSysTestFactory::Install()
//
// Install the LDD - overriding pure virtual
//
{
return SetName(&KLddName);
}
void DImpSysTestFactory::GetCaps(TDes8& aDes) const
//
// Get capabilities - overriding pure virtual
//
{
TCapsImpSysTestV01 b;
b.iVersion=TVersion(KMajorVersionNumber,KMinorVersionNumber,KBuildVersionNumber);
Kern::InfoCopy(aDes,(TUint8*)&b,sizeof(b));
}
DImpSysTest::DImpSysTest()
//
// Constructor
//
: iTestNum(-1)
{
}
TInt DImpSysTest::DoCreate(TInt /*aUnit*/, const TDesC8* /*anInfo*/, const TVersion& aVer)
//
// Create channel
//
{
if (!Kern::QueryVersionSupported(TVersion(KMajorVersionNumber,KMinorVersionNumber,KBuildVersionNumber),aVer))
return KErrNotSupported;
return KErrNone;
}
TInt DImpSysTest::Request(TInt aReqNo, TAny* a1, TAny*)
{
SStats s;
TInt r=KErrNotSupported;
switch (aReqNo)
{
case RImpSysTest::EControlStart:
r=Start((TInt)a1);
break;
case RImpSysTest::EControlStop:
{
r=Stop(s);
kumemput32(a1,&s,sizeof(s));
}
break;
default:
break;
}
return r;
}
#endif
DECLARE_STANDARD_LDD()
{
#ifdef __SMP__
return 0; // not used on SMP
#else
return new DImpSysTestFactory;
#endif
}