// 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 "bm_suite.h"
class RTLatency : public BMProgram
{
struct Measurement
{
RBMChannel::TMode iMode;
TPtrC iName;
TBool iForcePSwitch;
Measurement(RBMChannel::TMode aMode, const TDesC& aName, TBool aForcePSwitch = EFalse) :
iMode(aMode), iName(aName), iForcePSwitch(aForcePSwitch) {}
};
public :
RTLatency() : BMProgram(_L("Real-Time Latency"))
{}
virtual TBMResult* Run(TBMUInt64 aIter, TInt* aCount);
static TBMResult iResults[];
static Measurement iMeasurements[];
void Perform(RBMChannel::TMode, TBMResult*, TBMUInt64 aIter, TBool aForcePSwitch);
static TInt Child(TAny*);
};
RTLatency::Measurement RTLatency::iMeasurements[] =
{
Measurement(RBMChannel::EInterruptLatency, _L("Interrupt Latency")),
Measurement(RBMChannel::EKernelPreemptionLatency, _L("Kernel Thread Preemption Latency (Idle)")),
Measurement(RBMChannel::EKernelPreemptionLatency, _L("Kernel Thread Preemption Latency(Busy)"), ETrue),
Measurement(RBMChannel::EUserPreemptionLatency, _L("User Thread Preemption Latency (Idle)")),
Measurement(RBMChannel::EUserPreemptionLatency, _L("User Thread Preemption Latency (Busy)"), ETrue),
Measurement(RBMChannel::ENTimerJitter, _L("NTimer Jitter")),
Measurement(RBMChannel::ETimerStampOverhead, _L("Getting Time Stamp Overhead"))
};
TBMResult RTLatency::iResults[sizeof(RTLatency::iMeasurements)/sizeof(RTLatency::iMeasurements[0])];
static RTLatency rtLatency;
struct ChildArgs : public TBMSpawnArgs
{
RSemaphore iSem;
ChildArgs () : TBMSpawnArgs(RTLatency::Child, KBMPriorityLow, ETrue, sizeof(*this))
{
TInt r = KErrNone;
do
{ //"Bm_SuiteSemaphore" is created/deleted a number of times during the test.
if (r) //If kernel did not clean up the previous instance, wait a sec and retry.
User::After(1000000);
r = iSem.CreateGlobal(_L("Bm_SuiteSemaphore"), 0);
}
while(KErrAlreadyExists == r);
BM_ERROR(r, r == KErrNone);
}
void ChildOpen()
{
iSem.Duplicate(iParent);
}
~ChildArgs ()
{
iSem.Close();
}
};
//
// Child process entry point.
//
TInt RTLatency::Child(TAny* ptr)
{
ChildArgs* ca = (ChildArgs*) ptr;
// get handles to all objects shared with the parent
ca->ChildOpen();
// signal the parent that the child is ready
ca->iSem.Signal();
// loop forever
for(;;) {}
}
void RTLatency::Perform(RBMChannel::TMode aMode, TBMResult* aResult, TBMUInt64 aIter, TBool aForcePSwitch)
{
ChildArgs ca;
MBMChild* child = NULL;
if (aForcePSwitch)
{
// spawn a busy running low-pririty child process
child = rtLatency.SpawnChild(&ca);
ca.iSem.Wait();
}
RBMChannel ch;
TInt r = ch.Open(aMode);
if(r==KErrInUse)
return; // Assume that resources are being used for other forms of latency testing
BM_ERROR(r, r == KErrNone);
while(aIter--)
{
// request an interrupt
ch.RequestInterrupt();
TBMTicks ticks;
// wait for the result. At this point the child becomes running.
ch.Result(&ticks);
aResult->Cumulate(ticks);
}
ch.Close();
if (aForcePSwitch)
{
child->Kill();
child->WaitChildExit();
}
}
TBMResult* RTLatency::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);
Perform(iMeasurements[i].iMode, &iResults[i], aIter, iMeasurements[i].iForcePSwitch);
iResults[i].Update();
}
*aCount = count;
return iResults;
}
void AddrtLatency()
{
BMProgram* next = bmSuite;
bmSuite=(BMProgram*)&rtLatency;
bmSuite->Next()=next;
}