// Copyright (c) 2002-2009 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:
//
#include <e32test.h>
#include <e32msgqueue.h>
#include "bm_suite.h"
class Sync : public BMProgram
{
public :
Sync() : BMProgram(_L("Synchronization Primitives"))
{}
virtual TBMResult* Run(TBMUInt64 aIter, TInt* aCount);
typedef void (*MeasurementFunc)(TBMResult*, TBMUInt64 aIter, TBool aRemote);
struct Measurement
{
MeasurementFunc iFunc;
TPtrC iName;
TBool iRemote;
Measurement(MeasurementFunc aFunc, const TDesC& aName, TBool aRemote = EFalse) :
iFunc(aFunc), iName(aName), iRemote(aRemote) {}
};
static TBMResult iResults[];
static Measurement iMeasurements[];
static void MutexPassing(TBMResult*, TBMUInt64 aIter, TBool aRemote);
static void MutexContentionParent(TBMResult* aResult, TBMUInt64 aIter, TBool aRemote);
static TInt MutexContentionChild(TAny*);
static void SemaphoreLatencyParent(TBMResult* aResult, TBMUInt64 aIter, TBool aRemote);
static TInt SemaphoreLatencyChild(TAny*);
static void ThreadSemaphoreLatencyParent(TBMResult* aResult, TBMUInt64 aIter, TBool aRemote);
static TInt ThreadSemaphoreLatencyChild(TAny*);
};
Sync::Measurement Sync::iMeasurements[] =
{
Measurement(&Sync::MutexPassing, _L("Mutex Passing Case")),
Measurement(&Sync::MutexContentionParent, _L("Local Mutex Contention")),
Measurement(&Sync::MutexContentionParent, _L("Remote Mutex Contention"), ETrue),
Measurement(&Sync::SemaphoreLatencyParent, _L("Local Semaphore Latency")),
Measurement(&Sync::SemaphoreLatencyParent, _L("Remote Semaphore Latency"), ETrue),
Measurement(&Sync::ThreadSemaphoreLatencyParent, _L("Local Thread Semaphore Latency")),
};
TBMResult Sync::iResults[sizeof(Sync::iMeasurements)/sizeof(Sync::iMeasurements[0])];
static Sync sync;
void Sync::MutexPassing(TBMResult* aResult, TBMUInt64 aIter, TBool)
{
RMutex mutex;
mutex.CreateLocal();
TBMTimeInterval ti;
ti.Begin();
for (TBMUInt64 i = 0; i < aIter; ++i)
{
mutex.Wait();
mutex.Signal();
}
TBMTicks t = ti.End();
mutex.Close();
aResult->Cumulate(t, aIter);
}
class MutexContentionArgs : public TBMSpawnArgs
{
public:
RMutex iMutexA;
RMutex iMutexB;
RSemaphore iSem;
TBMUInt64 iIterationCount;
MutexContentionArgs(TInt aRemote, TBMUInt64 aIter);
void ChildOpen();
void ChildClose();
void Close();
};
MutexContentionArgs::MutexContentionArgs(TInt aRemote, TBMUInt64 aIter) :
TBMSpawnArgs(Sync::MutexContentionChild, KBMPriorityLow, aRemote, sizeof(*this)),
iIterationCount(aIter)
{
TInt r;
if (aRemote)
{
r = iMutexA.CreateGlobal(_L("MutexA"));
BM_ERROR(r, r == KErrNone);
r = iMutexB.CreateGlobal(_L("MutexB"));
BM_ERROR(r, r == KErrNone);
r = iSem.CreateGlobal(_L("Semaphore"), 0);
BM_ERROR(r, r == KErrNone);
}
else
{
r = iMutexA.CreateLocal();
BM_ERROR(r, r == KErrNone);
r = iMutexB.CreateLocal();
BM_ERROR(r, r == KErrNone);
r = iSem.CreateLocal(0);
BM_ERROR(r, r == KErrNone);
}
}
void MutexContentionArgs::ChildOpen()
{
if (iRemote)
{
iMutexA.Duplicate(iParent);
iMutexB.Duplicate(iParent);
iSem.Duplicate(iParent);
}
}
void MutexContentionArgs::ChildClose()
{
if (iRemote)
{
iMutexA.Close();
iMutexB.Close();
iSem.Close();
}
}
void MutexContentionArgs::Close()
{
iMutexA.Close();
iMutexB.Close();
iSem.Close();
}
void Sync::MutexContentionParent(TBMResult* aResult, TBMUInt64 aIter, TBool aRemote)
{
MutexContentionArgs mc(aRemote, aIter);
MBMChild* child = sync.SpawnChild(&mc);
mc.iSem.Wait();
TBMTimeInterval ti;
ti.Begin();
for (TBMUInt64 i = 0; i < aIter; ++i)
{
mc.iMutexA.Wait();
mc.iMutexA.Signal();
mc.iMutexB.Wait();
mc.iMutexB.Signal();
}
TBMTicks t = ti.End();
child->WaitChildExit();
mc.Close();
aResult->Cumulate(t/2, aIter);
}
TInt Sync::MutexContentionChild(TAny* ptr)
{
MutexContentionArgs* mc = (MutexContentionArgs*) ptr;
mc->ChildOpen();
mc->iMutexA.Wait();
mc->iSem.Signal();
for (TBMUInt64 i = 0; i < mc->iIterationCount; ++i)
{
mc->iMutexB.Wait();
mc->iMutexA.Signal();
mc->iMutexA.Wait();
mc->iMutexB.Signal();
}
mc->iMutexA.Signal();
mc->ChildClose();
return KErrNone;
}
class SemaphoreLatencyArgs : public TBMSpawnArgs
{
public:
RSemaphore iSem;
TBMUInt64 iIterationCount;
RMsgQueue<TBMTicks> iSignalTimeQue;
SemaphoreLatencyArgs(TInt aRemote, TBMUInt64 aIter);
void ChildOpen();
void ChildClose();
TBMTicks SignalTime();
void ChildSignalTime(TBMTicks);
void Close();
};
SemaphoreLatencyArgs::SemaphoreLatencyArgs(TInt aRemote, TBMUInt64 aIter) :
TBMSpawnArgs(Sync::SemaphoreLatencyChild, KBMPriorityLow, aRemote, sizeof(*this)),
iIterationCount(aIter)
{
TInt r;
if (aRemote)
{
r = iSem.CreateGlobal(_L("BM Semaphore"), 0);
BM_ERROR(r, r == KErrNone);
}
else
{
r = iSem.CreateLocal(0);
BM_ERROR(r, r == KErrNone);
}
r = iSignalTimeQue.CreateGlobal(_L("BM Queue"), 1);
BM_ERROR(r, r == KErrNone);
}
void SemaphoreLatencyArgs::ChildOpen()
{
if (iRemote)
{
iSem.Duplicate(iParent);
TInt r = iSignalTimeQue.OpenGlobal(_L("BM Queue"));
BM_ERROR(r, r == KErrNone);
}
}
void SemaphoreLatencyArgs::ChildSignalTime(TBMTicks aTime)
{
TInt r = iSignalTimeQue.Send(aTime);
BM_ERROR(r, r == KErrNone);
}
TBMTicks SemaphoreLatencyArgs::SignalTime()
{
TBMTicks time;
iSignalTimeQue.ReceiveBlocking(time);
return time;
}
void SemaphoreLatencyArgs::ChildClose()
{
if (iRemote)
{
iSem.Close();
iSignalTimeQue.Close();
}
}
void SemaphoreLatencyArgs::Close()
{
iSem.Close();
iSignalTimeQue.Close();
}
void Sync::SemaphoreLatencyParent(TBMResult* aResult, TBMUInt64 aIter, TBool aRemote)
{
RSemaphore slSync;
TInt r = slSync.CreateGlobal(_L("slSync"), 0);
BM_ERROR(r, r == KErrNone);
SemaphoreLatencyArgs sl(aRemote, aIter);
MBMChild* child = sync.SpawnChild(&sl);
for (TBMUInt64 i = 0; i < aIter; ++i)
{
slSync.Signal();
sl.iSem.Wait();
TBMTicks now;
::bmTimer.Stamp(&now);
aResult->Cumulate(TBMTicksDelta(sl.SignalTime(), now));
}
child->WaitChildExit();
sl.Close();
slSync.Close();
}
TInt Sync::SemaphoreLatencyChild(TAny* ptr)
{
RSemaphore slSync;
TInt r = slSync.OpenGlobal(_L("slSync"));
BM_ERROR(r, r == KErrNone);
SemaphoreLatencyArgs* sl = (SemaphoreLatencyArgs*) ptr;
sl->ChildOpen();
for (TBMUInt64 i = 0; i < sl->iIterationCount; ++i)
{
slSync.Wait();
TBMTicks sigTime;
::bmTimer.Stamp(&sigTime);
sl->iSem.Signal();
sl->ChildSignalTime(sigTime);
}
sl->ChildClose();
slSync.Close();
return KErrNone;
}
class ThreadSemaphoreLatencyArgs : public TBMSpawnArgs
{
public:
TBMUInt64 iIterationCount;
TBMTicks iSignalTime;
TRequestStatus iStatus;
TRequestStatus* iStatusPtr;
RMsgQueue<TBMTicks> iSignalTimeQue;
ThreadSemaphoreLatencyArgs(TInt aRemote, TBMUInt64 aIter);
void ChildOpen();
void ChildClose();
TBMTicks SignalTime();
void ChildSignalTime(TBMTicks);
void Close();
};
ThreadSemaphoreLatencyArgs::ThreadSemaphoreLatencyArgs(TInt aRemote, TBMUInt64 aIter) :
TBMSpawnArgs(Sync::ThreadSemaphoreLatencyChild, KBMPriorityLow, aRemote, sizeof(*this)),
iIterationCount(aIter),
iStatusPtr(&iStatus)
{
TInt r = iSignalTimeQue.CreateGlobal(_L("BM Queue"), 1);
BM_ERROR(r, r == KErrNone);
}
void ThreadSemaphoreLatencyArgs::ChildOpen()
{
if (iRemote)
{
TInt r = iSignalTimeQue.OpenGlobal(_L("BM Queue"));
BM_ERROR(r, r == KErrNone);
}
}
void ThreadSemaphoreLatencyArgs::ChildSignalTime(TBMTicks aTime)
{
TInt r = iSignalTimeQue.Send(aTime);
BM_ERROR(r, r == KErrNone);
}
TBMTicks ThreadSemaphoreLatencyArgs::SignalTime()
{
TBMTicks time;
iSignalTimeQue.ReceiveBlocking(time);
return time;
}
void ThreadSemaphoreLatencyArgs::ChildClose()
{
if (iRemote)
{
iSignalTimeQue.Close();
}
}
void ThreadSemaphoreLatencyArgs::Close()
{
iSignalTimeQue.Close();
}
void Sync::ThreadSemaphoreLatencyParent(TBMResult* aResult, TBMUInt64 aIter, TBool aRemote)
{
RSemaphore tslSync;
TInt r = tslSync.CreateGlobal(_L("tslSync"), 0);
BM_ERROR(r, r == KErrNone);
ThreadSemaphoreLatencyArgs sl(aRemote, aIter);
MBMChild* child = sync.SpawnChild(&sl);
for (TBMUInt64 i = 0; i < aIter; ++i)
{
sl.iStatus = KRequestPending;
tslSync.Signal();
User::WaitForRequest(sl.iStatus);
BM_ASSERT(sl.iStatus == KErrNone);
TBMTicks now;
::bmTimer.Stamp(&now);
aResult->Cumulate(TBMTicksDelta(sl.SignalTime(), now));
}
child->WaitChildExit();
sl.Close();
tslSync.Close();
}
TInt Sync::ThreadSemaphoreLatencyChild(TAny* ptr)
{
RSemaphore tslSync;
TInt r = tslSync.OpenGlobal(_L("tslSync"));
BM_ERROR(r, r == KErrNone);
ThreadSemaphoreLatencyArgs* sl = (ThreadSemaphoreLatencyArgs*) ptr;
sl->ChildOpen();
for (TBMUInt64 i = 0; i < sl->iIterationCount; ++i)
{
tslSync.Wait();
TRequestStatus* sptr = sl->iStatusPtr;
TBMTicks sigTime;
::bmTimer.Stamp(&sigTime);
sl->iParent.RequestComplete(sptr, KErrNone);
sl->ChildSignalTime(sigTime);
}
sl->ChildClose();
tslSync.Close();
return KErrNone;
}
TBMResult* Sync::Run(TBMUInt64 aIter, TInt* aCount)
{
TInt count = sizeof(iResults)/sizeof(iResults[0]);
for (TInt i = 0; i < count; ++i)
{
iResults[i].Reset(iMeasurements[i].iName);
iMeasurements[i].iFunc(&iResults[i], aIter, iMeasurements[i].iRemote);
iResults[i].Update();
}
*aCount = count;
return iResults;
}
void AddSync()
{
BMProgram* next = bmSuite;
bmSuite=(BMProgram*)&sync;
bmSuite->Next()=next;
}