Trying to figure out how to implement my WINC like compatibility layer. Going the emulation way is probably not so smart. We should not use the kernel but rather hook native functions in the Exec calls.
// Copyright (c) 1996-2009 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\active\t_dtim.cpp
// Overview:
// Test delta timers.
// API Information:
// CDeltaTimer.
// Details:
// - Create a delta timer and queue a number of timed events with different time intervals.
// The callback functions of the timed events perform various actions:
// - Requeuing itself
// - Cancelling the previous or next timer
// - Doing nothing
// - Stopping the active scheduler
// - Verifies the timed events are run correctly and orderly
// - The callback for each timed event increments a counter each time they are run
// - The counters are checked to check how many times each callback has been called
// Platforms/Drives/Compatibility:
// All.
// Assumptions/Requirement/Pre-requisites:
// Failures and causes:
// Base Port information:
//
//
#include <e32std.h>
#include <e32std_private.h>
#include <e32base.h>
#include <e32base_private.h>
#include <e32test.h>
#include <e32hal.h>
#include <e32def.h>
#include <e32def_private.h>
RTest test(_L("T_DTIM"));
TInt theResults[10];
TCallBack* theCallBacks;
TDeltaTimerEntry TheTimers[10];
CDeltaTimer* theTimer;
class CMyActiveScheduler : public CActiveScheduler
{
public:
void Error(TInt anError)const;
static CMyActiveScheduler* NewL();
};
void CMyActiveScheduler::Error(TInt /*anError*/) const
//
//
//
{
User::Panic(_L("MYActiveScheduler"),0);
}
CMyActiveScheduler* CMyActiveScheduler::NewL()
{
return new(ELeave) CMyActiveScheduler;
}
struct TDeltaTimerCallData
{
CDeltaTimer* iTimer;
TDeltaTimerEntry *iTimers;
TInt iIndex;
};
TInt print(TAny* anArg)
//
// Null entry. Just prints and increments it's counter.
//
{
TInt index=(TInt)anArg;
theResults[index]++;
test.Printf(_L("Callback %d\r\n"),index);
return 0;
}
TInt cancelNext(TAny * anArg)
//
// Cancels the next entry - assumes it is valid.
//
{
TInt index=(TInt)anArg;
theTimer->Remove(TheTimers[index+1]);
return print(anArg);
}
TInt requeue(TAny * anArg)
//
// Note that a requeue will run once every 200 ms until stop is called.
//
{
TTimeIntervalMicroSeconds32 tickPeriod;
UserHal::TickPeriod(tickPeriod);
const TInt K13Ticks = 13 * tickPeriod.Int();
TInt index=(TInt)anArg;
theTimer->Queue(K13Ticks*2/3,TheTimers[index]);
return print(anArg);
}
TInt requeuePrevious(TAny * anArg)
//
// Requeue the previous entry (assumes previous entry is valid handle)
//
{
TTimeIntervalMicroSeconds32 tickPeriod;
UserHal::TickPeriod(tickPeriod);
const TInt K13Ticks = 13 * tickPeriod.Int();
TInt index=(TInt)anArg - 1;
theTimer->Queue(K13Ticks,TheTimers[index]);
return print(anArg);
}
TInt cancel2ndFollowing(TAny * anArg)
//
// Assumes that 2nd following timer handle is valid.
//
{
TInt index=(TInt)anArg;
theTimer->Remove(TheTimers[index+2]);
return print(anArg);
}
TInt stop(TAny * anArg)
//
// Stops the active schduler
//
{
TInt index=(TInt)anArg;
theResults[index]++;
test.Printf(_L("Callback %d, stopping\r\n"),index);
CMyActiveScheduler::Stop();
return 0;
}
TInt E32Main()
//
//
//
{
CMyActiveScheduler* s=NULL;
TRAPD(ret,s=CMyActiveScheduler::NewL())
test(ret==KErrNone);
CActiveScheduler::Install(s);
test.Title();
test.Start(_L("Timer"));
__KHEAP_MARK;
TTimeIntervalMicroSeconds32 tickPeriod;
UserHal::TickPeriod(tickPeriod);
TRAP(ret,theTimer=CDeltaTimer::NewL(100, tickPeriod.Int()));
test(ret==KErrNone);
Mem::FillZ(theResults,10*sizeof(TInt));
TCallBack callBacks[10]=
{
/* 0 */ TCallBack(print,(TAny*)0),
/* 1 */ TCallBack(cancelNext,(TAny*)1),
/* 2 */ TCallBack(print,(TAny*)2), // Gets cancelled
/* 3 */ TCallBack(print,(TAny*)3), // Runs twice
/* 4 */ TCallBack(requeuePrevious,(TAny*)4),
/* 5 */ TCallBack(cancel2ndFollowing,(TAny*)5),
/* 6 */ TCallBack(print,(TAny*)6),
/* 7 */ TCallBack(cancelNext,(TAny*)7), // Gets cancelled
/* 8 */ TCallBack(requeue,(TAny*)8), // Runs twice, once on the same RunL as the stop
/* 9 */ TCallBack(stop,(TAny*)9),
};
theCallBacks=callBacks;
for (TInt i=0;i<10;i++)
TheTimers[i].Set(theCallBacks[i]);
const TInt K13Ticks = 13 * tickPeriod.Int();
theTimer->Queue(K13Ticks,TheTimers[0]);
theTimer->Queue(2*K13Ticks,TheTimers[1]);
theTimer->Queue(3*K13Ticks,TheTimers[2]);
theTimer->Queue(4*K13Ticks,TheTimers[3]);
theTimer->Queue(5*K13Ticks,TheTimers[4]);
theTimer->Queue(6*K13Ticks,TheTimers[5]);
theTimer->Queue(7*K13Ticks,TheTimers[6]);
theTimer->Queue(8*K13Ticks,TheTimers[7]);
theTimer->Queue(9*K13Ticks,TheTimers[8]);
theTimer->Queue(10*K13Ticks,TheTimers[9]);
CActiveScheduler::Start();
test(theResults[0]==1);
test(theResults[1]==1);
test(theResults[2]==0);
test(theResults[3]==2);
test(theResults[4]==1);
test(theResults[5]==1);
test(theResults[6]==1);
test(theResults[7]==0);
test(theResults[8]==2);
test(theResults[9]==1);
delete theTimer;
__KHEAP_MARKEND;
test.End();
return 0;
}