Fix for bug 2283 (RVCT 4.0 support is missing from PDK 3.0.h)
Have multiple extension sections in the bld.inf, one for each version
of the compiler. The RVCT version building the tools will build the
runtime libraries for its version, but make sure we extract all the other
versions from zip archives. Also add the archive for RVCT4.
// 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)
{
SemaphoreLatencyArgs sl(aRemote, aIter);
MBMChild* child = sync.SpawnChild(&sl);
for (TBMUInt64 i = 0; i < aIter; ++i)
{
sl.iSem.Wait();
TBMTicks now;
::bmTimer.Stamp(&now);
aResult->Cumulate(TBMTicksDelta(sl.SignalTime(), now));
}
child->WaitChildExit();
sl.Close();
}
TInt Sync::SemaphoreLatencyChild(TAny* ptr)
{
SemaphoreLatencyArgs* sl = (SemaphoreLatencyArgs*) ptr;
sl->ChildOpen();
for (TBMUInt64 i = 0; i < sl->iIterationCount; ++i)
{
TBMTicks sigTime;
::bmTimer.Stamp(&sigTime);
sl->iSem.Signal();
sl->ChildSignalTime(sigTime);
}
sl->ChildClose();
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)
{
ThreadSemaphoreLatencyArgs sl(aRemote, aIter);
MBMChild* child = sync.SpawnChild(&sl);
for (TBMUInt64 i = 0; i < aIter; ++i)
{
sl.iStatus = KRequestPending;
User::WaitForRequest(sl.iStatus);
BM_ASSERT(sl.iStatus == KErrNone);
TBMTicks now;
::bmTimer.Stamp(&now);
aResult->Cumulate(TBMTicksDelta(sl.SignalTime(), now));
}
child->WaitChildExit();
sl.Close();
}
TInt Sync::ThreadSemaphoreLatencyChild(TAny* ptr)
{
ThreadSemaphoreLatencyArgs* sl = (ThreadSemaphoreLatencyArgs*) ptr;
sl->ChildOpen();
for (TBMUInt64 i = 0; i < sl->iIterationCount; ++i)
{
TRequestStatus* sptr = sl->iStatusPtr;
TBMTicks sigTime;
::bmTimer.Stamp(&sigTime);
sl->iParent.RequestComplete(sptr, KErrNone);
sl->ChildSignalTime(sigTime);
}
sl->ChildClose();
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;
}