Rework addition of Symbian splash screen to reduce the source impact (uses SVG from Bug 2414)
Notes: by using the OPTION SOURCEDIR parameter in the mifconv extension instructions, I can
arrange to use the same source file name in sfimage, without having to export over the original
Nokia file. This means that the name inside splashscreen.mbg is the same, which removes the need
for the conditional compilation in SplashScreen.cpp, and gets rid of sf_splashscreen.mmp.
// 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 "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 "ASTstAlarmTest.h"
// System includes
#include <asclisoundplay.h>
// Globals
static TTime time;
static TAlarmId id;
static TInt ret;
// Type definitions
typedef CArrayFixFlat<TASCliSoundPlayDefinition> CPlayIntervalArray;
// This define appears in sa_mng.cpp - update it if it changes there!
#define KDefaultAlarmCycleStartOffsetMinutes {0,1,2,3,5,10,20,30,45,60,90,120,180,240,KErrNotFound};
static TAlarmId AddAlarm(TTime aTime)
{
TASShdAlarm alarm;
alarm.Category() = KASCliCategoryClock;
alarm.RepeatDefinition() = EAlarmRepeatDefintionRepeatOnce;
alarm.NextDueTime() = aTime;
//
TheAlarmTest(TheAlarmTest.Session().AlarmAdd(alarm) == KErrNone, __LINE__);
const TAlarmId id = alarm.Id();
TheAlarmTest(id != KNullAlarmId, __LINE__);
return id;
}
static TAlarmId AddUtcAlarm(TTime aTime)
{
TASShdAlarm alarm;
alarm.Category()=KASCliCategoryClock;
alarm.RepeatDefinition()=EAlarmRepeatDefintionRepeatOnce;
alarm.SetUtcNextDueTime(aTime);
//
TheAlarmTest(TheAlarmTest.Session().AlarmAdd(alarm) == KErrNone, __LINE__);
const TAlarmId id = alarm.Id();
TheAlarmTest(id != KNullAlarmId, __LINE__);
return id;
}
static void TestDefaultSoundInfoL()
//
// Get default sound info details
//
{
TheAlarmTest.Test().Next(_L("Test the default sound play intervals"));
// When the server is started, the alarm sound intervals should currently be
// set to their defaults defined in KDefaultAlarmCycleStartOffsetMinutes
// Initialise sound array with default values
CPlayIntervalArray* array = new(ELeave) CPlayIntervalArray(20);
CleanupStack::PushL(array);
// Get default sound intervals
TheAlarmTest.Session().GetAlarmPlayIntervalsL(*array);
// Check that the default values are correct
const TInt minuteCycle[]=KDefaultAlarmCycleStartOffsetMinutes;
TInt i = 0;
TInt offset = minuteCycle[i];
while (offset != KErrNotFound)
{
const TASCliSoundPlayDefinition& item = array->At(i);
TheAlarmTest(item.Offset().Int() == offset, __LINE__);
TheAlarmTest(item.Duration().Int() == KDefaultSoundPlayDurationInSeconds, __LINE__);
offset = minuteCycle[++i];
}
CleanupStack::PopAndDestroy();
}
static void TestAlarmFunctionalityL()
{
TheAlarmTest.Test().Next(_L("Test alarm functionality"));
TheAlarmTest.TestClearStoreL();
time.HomeTime();
time += TTimeIntervalMinutes(1);
id = AddAlarm(time);
TASShdAlarm alarm;
ret = TheAlarmTest.Session().GetAlarmDetails(id, alarm);
TheAlarmTest(ret == KErrNone, __LINE__);
TAlarmCategory category;
ret = TheAlarmTest.Session().GetAlarmCategory(id, category);
TheAlarmTest(ret == KErrNone, __LINE__);
TheAlarmTest(category == KASCliCategoryClock, __LINE__);
ret = TheAlarmTest.Session().SetAlarmStatus(id, EAlarmStatusDisabled);
TheAlarmTest(ret == KErrNone, __LINE__);
TAlarmStatus status;
ret = TheAlarmTest.Session().GetAlarmStatus(id, status);
TheAlarmTest(ret == KErrNone, __LINE__);
TheAlarmTest(status == EAlarmStatusDisabled, __LINE__);
}
static void TestAlarmDataFunctionalityL()
{
TheAlarmTest.Test().Next(_L("Test alarm data functionality"));
time.HomeTime();
time += TTimeIntervalMinutes(1);
id = AddAlarm(time);
_LIT8(KAlarmData, "some 8-bit data to attach to the alarm");
ret = TheAlarmTest.Session().AlarmDataAttachL(id, KAlarmData());
TheAlarmTest(ret == KErrNone, __LINE__);
ret = TheAlarmTest.Session().AlarmDataSize(id);
TheAlarmTest(ret > 0, __LINE__);
HBufC8* temp = HBufC8::NewLC(KAlarmData().Size());
TPtr8 pData(temp->Des());
ret = TheAlarmTest.Session().GetAlarmData(id, pData);
TheAlarmTest(ret == KErrNone, __LINE__);
TheAlarmTest(pData.CompareC(KAlarmData()) == 0, __LINE__);
CleanupStack::PopAndDestroy(temp);
}
static void TestOtherFunctionalityL()
{
TheAlarmTest.Test().Next(_L("Test other functionality"));
TheAlarmTest.TestClearStoreL();
time.HomeTime();
time += TTimeIntervalMinutes(1);
id = AddAlarm(time);
time -= TTimeIntervalSeconds(30);
id = AddAlarm(time);
ret = TheAlarmTest.Session().SetAlarmStatusByCategory(KASCliCategoryClock, EAlarmStatusEnabled);
TheAlarmTest(ret == KErrNone, __LINE__);
ret = TheAlarmTest.Session().GetAlarmCountForCategory(KASCliCategoryClock);
TheAlarmTest(ret == 2, __LINE__);
RArray<TAlarmCategory> categories;
TheAlarmTest.Session().GetAvailableCategoryListL(categories);
TheAlarmTest(categories.Count() == 1, __LINE__);
categories.Reset();
RArray<TAlarmId> ids;
TheAlarmTest.Session().GetAlarmIdListForCategoryL(KASCliCategoryClock, ids);
TheAlarmTest(ids.Count() == 2, __LINE__);
ids.Reset();
ret = TheAlarmTest.Session().AlarmCountByState(EAlarmStateQueued);
TheAlarmTest(ret == 2, __LINE__);
TheAlarmTest.Session().GetAlarmIdListL(ids);
TheAlarmTest(ids.Count() == 2, __LINE__);
ids.Reset();
TAlarmId nextDueId;
ret = TheAlarmTest.Session().GetNextDueAlarmId(nextDueId);
TheAlarmTest(ret == KErrNone && nextDueId == id, __LINE__);
ret = TheAlarmTest.Session().NumberOfAlarmsActiveInQueue();
TheAlarmTest(ret == 2, __LINE__);
ret = TheAlarmTest.Session().AlarmDeleteAllByCategory(KASCliCategoryClock, EFalse);
TheAlarmTest(ret == KErrNone, __LINE__);
}
static void TestUtcAlarmFunctionalityL()
{
TheAlarmTest.Test().Next(_L("Test UTC alarm functionality"));
TheAlarmTest.TestClearStoreL();
time.HomeTime();
time += TTimeIntervalMinutes(1);
id = AddUtcAlarm(time);
TASShdAlarm alarm;
ret = TheAlarmTest.Session().GetAlarmDetails(id, alarm);
TheAlarmTest(ret == KErrNone, __LINE__);
TAlarmCategory category;
ret = TheAlarmTest.Session().GetAlarmCategory(id, category);
TheAlarmTest(ret == KErrNone, __LINE__);
TheAlarmTest(category == KASCliCategoryClock, __LINE__);
ret = TheAlarmTest.Session().SetAlarmStatus(id, EAlarmStatusDisabled);
TheAlarmTest(ret == KErrNone, __LINE__);
TAlarmStatus status;
ret = TheAlarmTest.Session().GetAlarmStatus(id, status);
TheAlarmTest(ret == KErrNone, __LINE__);
TheAlarmTest(status == EAlarmStatusDisabled, __LINE__);
}
static void TestUtcAlarmDataFunctionalityL()
{
TheAlarmTest.Test().Next(_L("Test alarm data functionality"));
time.HomeTime();
time += TTimeIntervalMinutes(1);
id = AddUtcAlarm(time);
_LIT8(KAlarmData, "some 8-bit data to attach to the alarm");
ret = TheAlarmTest.Session().AlarmDataAttachL(id, KAlarmData());
TheAlarmTest(ret == KErrNone, __LINE__);
ret = TheAlarmTest.Session().AlarmDataSize(id);
TheAlarmTest(ret > 0, __LINE__);
HBufC8* temp = HBufC8::NewLC(KAlarmData().Size());
TPtr8 pData(temp->Des());
ret = TheAlarmTest.Session().GetAlarmData(id, pData);
TheAlarmTest(ret == KErrNone, __LINE__);
TheAlarmTest(pData.CompareC(KAlarmData()) == 0, __LINE__);
CleanupStack::PopAndDestroy(temp);
}
static void TestOtherFunctionalityUtcL()
{
TheAlarmTest.Test().Next(_L("Test other functionality"));
TheAlarmTest.TestClearStoreL();
time.HomeTime();
time += TTimeIntervalMinutes(1);
id = AddUtcAlarm(time);
time -= TTimeIntervalSeconds(30);
id = AddUtcAlarm(time);
ret = TheAlarmTest.Session().SetAlarmStatusByCategory(KASCliCategoryClock, EAlarmStatusEnabled);
TheAlarmTest(ret == KErrNone, __LINE__);
ret = TheAlarmTest.Session().GetAlarmCountForCategory(KASCliCategoryClock);
TheAlarmTest(ret == 2, __LINE__);
RArray<TAlarmCategory> categories;
TheAlarmTest.Session().GetAvailableCategoryListL(categories);
TheAlarmTest(categories.Count() == 1, __LINE__);
categories.Reset();
RArray<TAlarmId> ids;
TheAlarmTest.Session().GetAlarmIdListForCategoryL(KASCliCategoryClock, ids);
TheAlarmTest(ids.Count() == 2, __LINE__);
ids.Reset();
ret = TheAlarmTest.Session().AlarmCountByState(EAlarmStateQueued);
TheAlarmTest(ret == 2, __LINE__);
TheAlarmTest.Session().GetAlarmIdListL(ids);
TheAlarmTest(ids.Count() == 2, __LINE__);
ids.Reset();
TAlarmId nextDueId;
ret = TheAlarmTest.Session().GetNextDueAlarmId(nextDueId);
TheAlarmTest(ret == KErrNone && nextDueId == id, __LINE__);
ret = TheAlarmTest.Session().NumberOfAlarmsActiveInQueue();
TheAlarmTest(ret == 2, __LINE__);
ret = TheAlarmTest.Session().AlarmDeleteAllByCategory(KASCliCategoryClock, EFalse);
TheAlarmTest(ret == KErrNone, __LINE__);
}
static void TestSoundControlL()
{
TheAlarmTest.Test().Next(_L("Test sound control"));
TheAlarmTest.TestClearStoreL();
ret = TheAlarmTest.Session().SetAlarmSoundState(EAlarmGlobalSoundStateOff);
TheAlarmTest(ret == KErrNone, __LINE__);
TAlarmGlobalSoundState soundState;
ret = TheAlarmTest.Session().GetAlarmSoundState(soundState);
TheAlarmTest(ret == KErrNone && soundState == EAlarmGlobalSoundStateOff, __LINE__);
time.HomeTime();
time += TTimeIntervalMinutes(1);
ret = TheAlarmTest.Session().SetAlarmSoundsSilentUntil(time);
TheAlarmTest(ret == KErrNone, __LINE__);
ret = TheAlarmTest.Session().CancelAlarmSilence();
TheAlarmTest(ret == KErrNone, __LINE__);
ret = TheAlarmTest.Session().SetAlarmSoundsSilentFor(1);
TheAlarmTest(ret == KErrNone, __LINE__);
ret = TheAlarmTest.Session().GetAlarmSoundsSilentUntil(time);
TheAlarmTest(ret == KErrNone, __LINE__);
if (!TheAlarmTest.Session().AlarmSoundsTemporarilySilenced())
{
User::Leave(KErrGeneral);
}
}
static void TestStartUpAndShutDownL()
{
#ifdef _DEBUG
#ifdef __WINS__
TheAlarmTest.Test().Next(_L("Test start up and shut down"));
TheAlarmTest.Session().__DbgShutDownServer();
TheAlarmTest.TestStartServers();
TheAlarmTest.TestClearStoreL();
time.HomeTime();
time += TTimeIntervalMinutes(5);
id = AddAlarm(time);
TheAlarmTest.Test().Printf(_L("\nDebug only - shutting down server\n"));
TheAlarmTest.Session().__DbgShutDownServer();
User::After(3 * 1000000);
TheAlarmTest.TestStartServers();
TAlarmId nextDueId;
ret = TheAlarmTest.Session().GetNextDueAlarmId(nextDueId);
TheAlarmTest(ret == KErrNone && nextDueId == id, __LINE__);
time -= TTimeIntervalMinutes(1);
id = AddAlarm(time);
TheAlarmTest.Session().__DbgShutDownServer();
User::After(3 * 1000000);
TheAlarmTest.TestStartServers();
ret = TheAlarmTest.Session().GetNextDueAlarmId(nextDueId);
TheAlarmTest(ret == KErrNone && nextDueId == id, __LINE__);
#endif
#endif
}
static void TestStartUpAndShutDownUtcL()
{
#ifdef _DEBUG
#ifdef __WINS__
TheAlarmTest.Test().Next(_L("Test start up and shut down with UTC Alarms"));
TheAlarmTest.Session().__DbgShutDownServer();
TheAlarmTest.TestStartServers();
TheAlarmTest.TestClearStoreL();
time.HomeTime();
time += TTimeIntervalMinutes(5);
id = AddUtcAlarm(time);
TheAlarmTest.Test().Printf(_L("\nDebug only - shutting down server\n"));
TheAlarmTest.Session().__DbgShutDownServer();
User::After(3 * 1000000);
TheAlarmTest.TestStartServers();
TAlarmId nextDueId;
ret = TheAlarmTest.Session().GetNextDueAlarmId(nextDueId);
TheAlarmTest(ret == KErrNone && nextDueId == id, __LINE__);
time -= TTimeIntervalMinutes(1);
id = AddUtcAlarm(time);
TheAlarmTest.Session().__DbgShutDownServer();
User::After(3 * 1000000);
TheAlarmTest.TestStartServers();
ret = TheAlarmTest.Session().GetNextDueAlarmId(nextDueId);
TheAlarmTest(ret == KErrNone && nextDueId == id, __LINE__);
#endif
#endif
}
static void DoTestsL()
{
CActiveScheduler* scheduler = new (ELeave) CActiveScheduler;
CleanupStack::PushL(scheduler);
CActiveScheduler::Install(scheduler);
TheAlarmTest.Next(_L("Connecting to server"));
const TInt r = TheAlarmTest.Session().Connect();
TheAlarmTest(r == KErrNone, __LINE__);
TheAlarmTest.TestClearStoreL();
TestAlarmFunctionalityL();
TestAlarmDataFunctionalityL();
TestOtherFunctionalityL();
TestStartUpAndShutDownL();
TheAlarmTest.TestClearStoreL();
TestDefaultSoundInfoL();
TestUtcAlarmFunctionalityL();
TestUtcAlarmDataFunctionalityL();
TestOtherFunctionalityUtcL();
TestSoundControlL();
TestStartUpAndShutDownUtcL();
CleanupStack::PopAndDestroy(scheduler);
}
void DoOOMTestL()
{
TheAlarmTest.Test().Printf(_L("starting OOM test\n"));
//reserve space on cleanup stack
for(TInt i=0; i<1000; i++)
{
CleanupStack::PushL(&i);
}
CleanupStack::Pop(1000);
TInt ret=KErrNoMemory;
TInt failAt=0;
while (ret!=KErrNone)
{
failAt++;
__UHEAP_SETFAIL(RHeap::EDeterministic,failAt);
__UHEAP_MARK;
TRAP(ret, DoTestsL());
if (ret!=KErrNone)
{
__UHEAP_MARKEND;
}
__UHEAP_RESET;
TheAlarmTest(ret==KErrNoMemory||ret==KErrNone, __LINE__);
}
}
/**
@SYMTestCaseID PIM-TOOMTEST-0001
*/
GLDEF_C TInt E32Main()
//
// Test the alarm server.
//
{
__UHEAP_MARK;
TInt ret = KErrNone;
CTrapCleanup* cleanup = CTrapCleanup::New();
if (!cleanup)
{
return KErrNoMemory;
}
TheAlarmTest.Start(_L("@SYMTestCaseID PIM-TOOMTEST-0001"));
TheAlarmTest.Title();
TheAlarmTest.TestStartServers();
TRAPD(error, DoOOMTestL());
TheAlarmTest(error == KErrNone, __LINE__);
TRAP(ret,TheAlarmTest.EndL());
TheAlarmTest.Test().Close();
ASTstAlarmTest::Close();
delete cleanup;
__UHEAP_MARKEND;
return ret;
}