// Copyright (c) 2003-2009 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 <e32base.h>
#include <e32test.h>
#include <csch_cli.h>
#include <f32file.h>
#include "Thelpers.h"
#include "TestUtils.h"
RTest TheTest(_L("TC_TSCH_YEAR2000 - hometime"));
LOCAL_D RFs TheFsSession;
LOCAL_D RScheduler TheScheduler;
_LIT(KMinimalTaskHandler, "MinimalTaskHandler");
LOCAL_D void SetTimeTo1SecBefore(TTsTime& aTime)
{
// TTsTime class can return UTC or Local time values.
// to ensure these are calculated based on the correct offset,
// use GetLocalTime() for local time based TTsTime values,
// and GetUtcTime() for UTC based TTsTime values.
TTime time;
TTimeIntervalSeconds secs(1);
TBuf<30> dateString;
// If time is UTC based, use UTC apis. If time is local time based, use local time APIs.
if(aTime.IsUtc())
{
time = aTime.GetUtcTime() - secs;
SchSvrHelpers::SetUTCTimeL(time);
time.FormatL(dateString,(_L("%H%:1%T:%S %*E%*D %X%*N%Y %1 %2 %3")));
TheTest.Printf(_L("current UTC time: %S\n"), &dateString);
}
else // due time is local time based
{
time = aTime.GetLocalTime() - secs;
SchSvrHelpers::SetHomeTimeL(time);
time.FormatL(dateString,(_L("%H%:1%T:%S %*E%*D %X%*N%Y %1 %2 %3")));
TheTest.Printf(_L("current local time: %S\n"), &dateString);
}
}
LOCAL_D void SetTime(TDateTime& aDateTime)
{
TTime time(aDateTime);
SchSvrHelpers::SetHomeTimeL(time);
}
LOCAL_D TTsTime ShowDueTime(TInt aScheduleId)
{
TScheduleState2 state;
TTsTime dueTime;
CArrayFixFlat<TScheduleEntryInfo2>* entries = new CArrayFixFlat<TScheduleEntryInfo2> (3);
CArrayFixFlat<TTaskInfo>* tasks = new CArrayFixFlat<TTaskInfo> (3);
TInt res = TheScheduler.GetScheduleL(aScheduleId, state, *entries, *tasks, dueTime);
TEST2(res, KErrNone);
delete tasks;
delete entries;
TBuf<30> dateString;
state.DueTime().GetLocalTime().FormatL(dateString,(_L("%H%:1%T%*E%*D%X%*N%Y %1 %2 %3")));
TheTest.Printf(_L("due at:%S\n"), &dateString);
return state.DueTime();
}
LOCAL_D void AppendHourlyEntry(CArrayFixFlat<TScheduleEntryInfo2>& aEntries, TInt aInterval,TInt aYear,
TMonth aMonth, TInt aDay, TInt aHour, TInt aMinute)
{
TTime ttime(TDateTime(aYear, aMonth, aDay, aHour, aMinute, 0,0));
TTsTime startTime (ttime, EFalse);
TScheduleEntryInfo2 entry1 (startTime, EHourly, aInterval, 0);
aEntries.AppendL(entry1);
}
LOCAL_D void AppendDailyEntry(CArrayFixFlat<TScheduleEntryInfo2>& aEntries, TInt aInterval,TInt aYear,
TMonth aMonth, TInt aDay, TInt aHour, TInt aMinute)
{
TTime ttime(TDateTime(aYear, aMonth, aDay, aHour, aMinute, 0,0));
TTsTime startTime (ttime,EFalse);
TScheduleEntryInfo2 entry1 (startTime, EDaily, aInterval, 0);
aEntries.AppendL(entry1);
}
LOCAL_D void AppendMonthlyEntry(CArrayFixFlat<TScheduleEntryInfo2>& aEntries, TInt aInterval,
TInt aYear, TMonth aMonth, TInt aDate, TInt aHour,TInt aMinute)
{
TTime ttime(TDateTime(aYear, aMonth, aDate, aHour, aMinute, 0,0));
TTsTime startTime (ttime, EFalse);
TScheduleEntryInfo2 entry1 (startTime, EMonthly, aInterval, 0);
aEntries.AppendL(entry1);
}
LOCAL_D void AppendYearlyEntry(CArrayFixFlat<TScheduleEntryInfo2>& aEntries, TInt aInterval,
TInt aYear, TMonth aMonth,TInt aDate, TInt aHour, TInt aMinute)
{
TTime ttime(TDateTime(aYear, aMonth, aDate, aHour, aMinute, 0,0));
TTsTime startTime (ttime,EFalse);
TScheduleEntryInfo2 entry1 (startTime, EYearly, aInterval, 0);
aEntries.AppendL(entry1);
}
LOCAL_D TInt testCreateBoundarySchedule1(TSchedulerItemRef& aRef)
{
CArrayFixFlat<TScheduleEntryInfo2>* entryList;
entryList = new (ELeave) CArrayFixFlat<TScheduleEntryInfo2>(3);
TName name(_L("and another off-peak"));
aRef.iName = name;
//times post-boundary (to show boundary crossed properly)
AppendYearlyEntry(*entryList, 10, 1999, EJanuary, 0, 0, 0);
AppendYearlyEntry(*entryList, 10, 1999, EFebruary, 27, 0, 0);
AppendYearlyEntry(*entryList, 10, 1999, EMarch, 0, 0, 0);
AppendYearlyEntry(*entryList, 10, 1999, ESeptember, 0, 0, 0);
AppendYearlyEntry(*entryList, 10, 1999, ESeptember, 8, 0, 0);
AppendYearlyEntry(*entryList, 10, 1999, ESeptember, 9, 0, 0);
AppendYearlyEntry(*entryList, 10, 2000, EJanuary, 0, 0, 0);
AppendYearlyEntry(*entryList, 10, 2000, EFebruary, 27, 0, 0);
AppendYearlyEntry(*entryList, 10, 2000, EFebruary, 28, 0, 0);
AppendYearlyEntry(*entryList, 10, 2000, EMarch, 0, 0, 0);
AppendYearlyEntry(*entryList, 10, 2001, EJanuary, 0, 0, 0);
AppendYearlyEntry(*entryList, 10, 2001, EMarch, 0, 0, 0);
AppendYearlyEntry(*entryList, 10, 2004, EFebruary, 28, 0, 0);
AppendYearlyEntry(*entryList, 10, 2004, EMarch, 0, 0, 0);
TInt res = TheScheduler.CreatePersistentSchedule(aRef, *entryList);
TEST2(res, KErrNone);
TInt count = entryList->Count();
delete entryList;
return count;
}
LOCAL_D TInt testCreateBoundarySchedule2(TSchedulerItemRef& aRef)
{
CArrayFixFlat<TScheduleEntryInfo2>* entryList;
entryList = new (ELeave) CArrayFixFlat<TScheduleEntryInfo2>(3);
TName name(_L("and another off-peak"));
aRef.iName = name;
//times on pre-boundary dates(to show they're recognized as valid)
//commented-out lines are handled below
AppendYearlyEntry(*entryList, 10, 1998, EDecember, 30, 0, 0);
AppendYearlyEntry(*entryList, 10, 1999, EFebruary, 26, 0, 0);
// AppendYearlyEntry(*entryList, 10, 1999, EFebruary, 27, 0, 0);
AppendYearlyEntry(*entryList, 10, 1999, EAugust, 30, 0, 0);
AppendYearlyEntry(*entryList, 10, 1999, ESeptember, 7, 0, 0);
// AppendYearlyEntry(*entryList, 10, 1999, ESeptember, 8, 0, 0);
AppendYearlyEntry(*entryList, 10, 1999, EDecember, 30, 0, 0);
AppendYearlyEntry(*entryList, 10, 2000, EFebruary, 26, 0, 0);
// AppendYearlyEntry(*entryList, 10, 2000, EFebruary, 27, 0, 0);
// AppendYearlyEntry(*entryList, 10, 2000, EFebruary, 28, 0, 0);
AppendYearlyEntry(*entryList, 10, 2000, EDecember, 30, 0, 0);
AppendYearlyEntry(*entryList, 10, 2001, EFebruary, 27, 0, 0);
AppendYearlyEntry(*entryList, 10, 2004, EFebruary, 27, 0, 0);
//AppendYearlyEntry(*entryList, 10, 2004, EFebruary, 28, 0, 0);
TInt res = TheScheduler.CreatePersistentSchedule(aRef, *entryList);
TEST2(res, KErrNone);
TInt count = entryList->Count();
delete entryList;
return count;
}
LOCAL_D TInt testCreateHourlyTimeSpanSchedule1(TSchedulerItemRef& aRef)
{
CArrayFixFlat<TScheduleEntryInfo2>* entryList;
entryList = new (ELeave) CArrayFixFlat<TScheduleEntryInfo2>(3);
TName name(_L("and another off-peak"));
aRef.iName = name;
AppendHourlyEntry(*entryList, 213*24, 1999, EJune, 0, 0, 0);
AppendHourlyEntry(*entryList, 214*24, 1999, EJune, 0, 0, 0);
AppendHourlyEntry(*entryList, 273*24, 1999, EJune, 0, 0, 0);
AppendHourlyEntry(*entryList, 274*24, 1999, EJune, 0, 0, 0);
AppendHourlyEntry(*entryList, 305*24, 1999, EJune, 0, 0, 0);
AppendHourlyEntry(*entryList, 366*24, 1999, EJuly, 0, 0, 0);
TInt res = TheScheduler.CreatePersistentSchedule(aRef, *entryList);
TEST2(res, KErrNone);
TInt count = entryList->Count();
delete entryList;
return count;
}
LOCAL_D TInt testCreateHourlyTimeSpanSchedule2(TSchedulerItemRef& aRef)
{
CArrayFixFlat<TScheduleEntryInfo2>* entryList;
entryList = new (ELeave) CArrayFixFlat<TScheduleEntryInfo2>(3);
TName name(_L("and another off-peak"));
aRef.iName = name;
AppendHourlyEntry(*entryList, 365*24, 2000, EAugust, 0, 0, 0);
TInt res = TheScheduler.CreatePersistentSchedule(aRef, *entryList);
TEST2(res, KErrNone);
TInt count = entryList->Count();
delete entryList;
return count;
}
LOCAL_D TInt testCreateDailyTimeSpanSchedule1(TSchedulerItemRef& aRef)
{
CArrayFixFlat<TScheduleEntryInfo2>* entryList;
entryList = new (ELeave) CArrayFixFlat<TScheduleEntryInfo2>(3);
TName name(_L("and another off-peak"));
aRef.iName = name;
AppendDailyEntry(*entryList, 213, 1999, EJune, 0, 0, 0);
AppendDailyEntry(*entryList, 214, 1999, EJune, 0, 0, 0);
AppendDailyEntry(*entryList, 273, 1999, EJune, 0, 0, 0);
AppendDailyEntry(*entryList, 274, 1999, EJune, 0, 0, 0);
AppendDailyEntry(*entryList, 305, 1999, EJune, 0, 0, 0);
AppendDailyEntry(*entryList, 366, 1999, EJuly, 0, 0, 0);
TInt res = TheScheduler.CreatePersistentSchedule(aRef, *entryList);
TEST2(res, KErrNone);
TInt count = entryList->Count();
delete entryList;
return count;
}
LOCAL_D TInt testCreateDailyTimeSpanSchedule2(TSchedulerItemRef& aRef)
{
CArrayFixFlat<TScheduleEntryInfo2>* entryList;
entryList = new (ELeave) CArrayFixFlat<TScheduleEntryInfo2>(3);
TName name(_L("and another off-peak"));
aRef.iName = name;
AppendDailyEntry(*entryList, 365, 2000, EAugust, 0, 0, 0);
TInt res = TheScheduler.CreatePersistentSchedule(aRef, *entryList);
TEST2(res, KErrNone);
TInt count = entryList->Count();
delete entryList;
return count;
}
LOCAL_D TInt testCreateMonthlyTimeSpanSchedule1(TSchedulerItemRef& aRef)
{
CArrayFixFlat<TScheduleEntryInfo2>* entryList;
entryList = new (ELeave) CArrayFixFlat<TScheduleEntryInfo2>(3);
TName name(_L("and another off-peak"));
aRef.iName = name;
AppendMonthlyEntry(*entryList, 7, 1999, EMay, 30, 0, 0);
AppendMonthlyEntry(*entryList, 7, 1999, EJune, 0, 0, 0);
AppendMonthlyEntry(*entryList, 8, 1999, EJune, 29, 0, 0);
AppendMonthlyEntry(*entryList, 8, 1999, EJuly, 0, 0, 0);
AppendMonthlyEntry(*entryList, 9, 1999, EJuly, 0, 0, 0);
AppendMonthlyEntry(*entryList, 12, 1999, EJuly, 0, 0, 0);
TInt res = TheScheduler.CreatePersistentSchedule(aRef, *entryList);
TEST2(res, KErrNone);
TInt count = entryList->Count();
delete entryList;
return count;
}
LOCAL_D TInt testCreateMonthlyTimeSpanSchedule2(TSchedulerItemRef& aRef)
{
CArrayFixFlat<TScheduleEntryInfo2>* entryList;
entryList = new (ELeave) CArrayFixFlat<TScheduleEntryInfo2>(3);
TName name(_L("and another off-peak"));
aRef.iName = name;
AppendMonthlyEntry(*entryList, 12, 2000, EAugust, 0, 0, 0);
TInt res = TheScheduler.CreatePersistentSchedule(aRef, *entryList);
TEST2(res, KErrNone);
TInt count = entryList->Count();
delete entryList;
return count;
}
LOCAL_D TInt testCreateYearlyTimeSpanSchedule1(TSchedulerItemRef& aRef)
{
CArrayFixFlat<TScheduleEntryInfo2>* entryList;
entryList = new (ELeave) CArrayFixFlat<TScheduleEntryInfo2>(3);
TName name(_L("and another off-peak"));
aRef.iName = name;
AppendYearlyEntry(*entryList, 1, 1998, EDecember, 30, 0, 0);
AppendYearlyEntry(*entryList, 1, 1999, EJanuary, 0, 0, 0);
AppendYearlyEntry(*entryList, 1, 1999, EFebruary, 27, 0, 0);
AppendYearlyEntry(*entryList, 1, 1999, EMarch, 0, 0, 0);
AppendYearlyEntry(*entryList, 1, 1999, EApril, 0, 0, 0);
AppendYearlyEntry(*entryList, 1, 1999, EJuly, 0, 0, 0);
TInt res = TheScheduler.CreatePersistentSchedule(aRef, *entryList);
TEST2(res, KErrNone);
TInt count = entryList->Count();
delete entryList;
return count;
}
LOCAL_D TInt testCreateYearlyTimeSpanSchedule2(TSchedulerItemRef& aRef)
{
CArrayFixFlat<TScheduleEntryInfo2>* entryList;
entryList = new (ELeave) CArrayFixFlat<TScheduleEntryInfo2>(3);
TName name(_L("and another off-peak"));
aRef.iName = name;
AppendYearlyEntry(*entryList, 1, 2000, EAugust, 0, 0, 0);
TInt res = TheScheduler.CreatePersistentSchedule(aRef, *entryList);
TEST2(res, KErrNone);
TInt count = entryList->Count();
delete entryList;
return count;
}
LOCAL_D TInt testScheduleTask(TInt aScheduleId)
{
HBufC* data = HBufC::NewL(20);
*data = _L("the data");
TTaskInfo taskInfo;
taskInfo.iTaskId = 0;
taskInfo.iName = (_L("Y2K testing"));
taskInfo.iPriority = 2;
taskInfo.iRepeat = -1;
TInt res = TheScheduler.ScheduleTask(taskInfo, *data, aScheduleId);
TEST2(res, KErrNone);
delete data;
return taskInfo.iTaskId;
}
LOCAL_D void doTestLoopL(TInt aId, TInt aCount)
{
TTsTime time = ShowDueTime(aId);
for (TInt i=0;i<aCount;i++)
{
SetTimeTo1SecBefore(time);
//wait for exe to launch
TEST2(STaskSemaphore::WaitL(KDefaultTimeout), KErrNone);
CleanupHelpers::KillProcess(KMinimalTaskHandler);
//
if (i<(aCount-1))//i.e. if it's going to execute
time = ShowDueTime(aId);
}
}
/**
@file
@SYMTestCaseID SYSLIB-SCHSVR-CT-0273
@SYMTestCaseDesc Year2000 replicated test, boundary test - Hometime
@SYMTestPriority High
@SYMTestActions Create a schedules, with one entry for each boundary pair & with a task to execute immediately after boundary set time to 5 seconds before each boundary, task should be executed in 5 seconds - also ensures all (pre-and-)post boundary times are valid, also reports the day on each of these dates
@SYMTestExpectedResults The test must not fail.
@SYMPREQ PREQ234
*/
LOCAL_D void doBoundaryTestL()
{
TheTest.Next(_L(" @SYMTestCaseID:SYSLIB-SCHSVR-CT-0273 "));
TDateTime dateTime(1998, EAugust, 1, 17, 0, 0, 0);
SetTime(dateTime);
TSchedulerItemRef ref;
TInt count = testCreateBoundarySchedule1(ref);
TInt taskId;
taskId = testScheduleTask(ref.iHandle);
doTestLoopL(ref.iHandle, count);
TInt res = TheScheduler.DeleteTask(taskId);
TEST2(res, KErrNone);
res = TheScheduler.DeleteSchedule(ref.iHandle);
TEST2(res, KErrNone);
SetTime(dateTime);
count = testCreateBoundarySchedule2(ref);
taskId = testScheduleTask(ref.iHandle);
doTestLoopL(ref.iHandle, count);
TheScheduler.DeleteTask(taskId);
TheScheduler.DeleteSchedule(ref.iHandle);
}
LOCAL_D void doHourlyTimeSpanTestL()
{
TDateTime dateTime(1999, EAugust, 1, 17, 0, 0, 0);
SetTime(dateTime);
TSchedulerItemRef ref;
TInt count = testCreateHourlyTimeSpanSchedule1(ref);
TInt taskId;
taskId = testScheduleTask(ref.iHandle);
doTestLoopL(ref.iHandle, count);
TInt res = TheScheduler.DeleteTask(taskId);
TEST2(res, KErrNone);
res = TheScheduler.DeleteSchedule(ref.iHandle);
TEST2(res, KErrNone);
TDateTime dt2(2000, EAugust,1,17,0,0,0);
SetTime(dt2);
count = testCreateHourlyTimeSpanSchedule2(ref);
taskId = testScheduleTask(ref.iHandle);
doTestLoopL(ref.iHandle, count);
TheScheduler.DeleteTask(taskId);
TheScheduler.DeleteSchedule(ref.iHandle);
}
LOCAL_D void doDailyTimeSpanTestL()
{
TDateTime dateTime(1999, EAugust, 1, 17, 0, 0, 0);
SetTime(dateTime);
TSchedulerItemRef ref;
TInt count = testCreateDailyTimeSpanSchedule1(ref);
TInt taskId;
taskId = testScheduleTask(ref.iHandle);
doTestLoopL(ref.iHandle, count);
TInt res = TheScheduler.DeleteTask(taskId);
TEST2(res, KErrNone);
res = TheScheduler.DeleteSchedule(ref.iHandle);
TEST2(res, KErrNone);
TDateTime dt2(2000, EAugust,1,17,0,0,0);
SetTime(dt2);
count = testCreateDailyTimeSpanSchedule2(ref);
taskId = testScheduleTask(ref.iHandle);
doTestLoopL(ref.iHandle, count);
TheScheduler.DeleteTask(taskId);
TheScheduler.DeleteSchedule(ref.iHandle);
}
LOCAL_D void doMonthlyTimeSpanTestL()
{
TDateTime dateTime(1999, EAugust, 1, 17, 0, 0, 0);
SetTime(dateTime);
TSchedulerItemRef ref;
TInt count = testCreateMonthlyTimeSpanSchedule1(ref);
TInt taskId;
taskId = testScheduleTask(ref.iHandle);
doTestLoopL(ref.iHandle, count);
TInt res = TheScheduler.DeleteTask(taskId);
TEST2(res, KErrNone);
res = TheScheduler.DeleteSchedule(ref.iHandle);
TEST2(res, KErrNone);
TDateTime dt2(2000, EAugust,1,17,0,0,0);
SetTime(dt2);
count = testCreateMonthlyTimeSpanSchedule2(ref);
taskId = testScheduleTask(ref.iHandle);
doTestLoopL(ref.iHandle, count);
TheScheduler.DeleteTask(taskId);
TheScheduler.DeleteSchedule(ref.iHandle);
}
LOCAL_D void doYearlyTimeSpanTestL()
{
TDateTime dateTime(1999, EAugust, 1, 17, 0, 0, 0);
SetTime(dateTime);
TSchedulerItemRef ref;
TInt count = testCreateYearlyTimeSpanSchedule1(ref);
TInt taskId;
taskId = testScheduleTask(ref.iHandle);
doTestLoopL(ref.iHandle, count);
TInt res = TheScheduler.DeleteTask(taskId);
TEST2(res, KErrNone);
res = TheScheduler.DeleteSchedule(ref.iHandle);
TEST2(res, KErrNone);
TDateTime dt2(2000, EAugust,1,17,0,0,0);
SetTime(dt2);
count = testCreateYearlyTimeSpanSchedule2(ref);
taskId = testScheduleTask(ref.iHandle);
doTestLoopL(ref.iHandle, count);
TheScheduler.DeleteTask(taskId);
TheScheduler.DeleteSchedule(ref.iHandle);
}
/**
@file
@SYMTestCaseID SYSLIB-SCHSVR-CT-0274
@SYMTestCaseDesc Year2000 replicated test, time span test - Hometime
@SYMTestPriority High
@SYMTestActions For each time-span, a set of schedules with the interval defined in terms of hours, days, weeks, months, whose interval=the time span: then set time to some time in between start of span & end: schedules should be next due at end of each respective time-span. Test time-spans measured in days & months. So, 1 schedule for each of these, including 1 entry for each span. Each entry starts at start of span, repeats at end(defined in terms of x days/weeks/months.). For each entry, set time to just before end of span, check it goes off
@SYMTestExpectedResults The test must not fail.
@SYMPREQ PREQ234
*/
LOCAL_D void doTimeSpanTestL()
{
TheTest.Next(_L(" @SYMTestCaseID:SYSLIB-SCHSVR-CT-0274 "));
TheTest.Printf(_L("\nTesting time-spans...\n"));
TheTest.Printf(_L("Hourly time-spans...\n"));
doHourlyTimeSpanTestL();
TheTest.Printf(_L("Daily time-spans...\n"));
doDailyTimeSpanTestL();
TheTest.Printf(_L("Monthly time-spans...\n"));
doMonthlyTimeSpanTestL();
TheTest.Printf(_L("Yearly time-spans...\n"));
doYearlyTimeSpanTestL();
}
static void DoTestsL()
{
TheTest.Next(_L("Delete old files"));
SchSvrHelpers::DeleteScheduleFilesL();
TheTest.Next(_L("Connect to Scheduler"));
TInt res=TheScheduler.Connect();
TEST2(res, KErrNone);
TheTest.Next(_L("Registering Client"));
res = SchSvrHelpers::RegisterClientL(TheScheduler);
TEST2(res, KErrNone);
// Create exe Semaphore
STaskSemaphore sem;
sem.CreateL();
TheTest.Next(_L("Boundary/valid dates testing"));
doBoundaryTestL();
TheTest.Next(_L("Time span testing"));
doTimeSpanTestL();
// close exe Semaphore
sem.Close();
//Tidying up so next test will be clear.
TheTest.Next(_L("Delete all schedules"));
SchSvrHelpers::DeleteAllSchedulesL(TheScheduler);
TheScheduler.Close();
}
GLDEF_C TInt E32Main()
{
__UHEAP_MARK;
CTrapCleanup* cleanup = CTrapCleanup::New();
TEST(cleanup != NULL);
TEST2(TheFsSession.Connect(), KErrNone);
TheTest.Title();
TheTest.Start(_L("Year 2000 - hometime"));
//If the previous test fails, SCHSVR.exe may stay in memory.
TRAPD(err,CleanupHelpers::TestCleanupL());
TEST2(err, KErrNone);
TRAP(err, DoTestsL());
TEST2(err,KErrNone);
TRAP(err,CleanupHelpers::TestCleanupL());
TEST2(err, KErrNone);
TheTest.End();
TheFsSession.Close();
TheTest.Close();
delete cleanup;
__UHEAP_MARKEND;
return KErrNone;
}