Improving comments on panics generated by CActive::SetActive. Patch slightly altered based on comments by John Imhofe.
// 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:
// e32test\power\t_power.cpp
// Overview:
// Test power down and wakeup event notification
// API Information:
// Power::PowerDown(), Power::RequestWakeupEventNotification()
// Details:
// - Arm a wakeup timer, enable wakeup events, enter standby mode, get woken up.
// - Test RequestWakeupEventNotification(): arm a timer, request notification,
// wait for timer to expire, verify event has been notified, issue another
// notification request, disable wakeup events, arm another timer, verify
// wakeup event has not been notified, cancel the notification request and
// close the timer.
// - Verify that a slave process panics because it hasn't and capability.
// - Confirm the number of open handles and pending requests are as expected.
// Platforms/Drives/Compatibility:
// All.
// Assumptions/Requirement/Pre-requisites:
// Failures and causes:
// Base Port information:
//
//
#define __E32TEST_EXTENSION__
#include <e32power.h>
#include <e32test.h>
#include <e32kpan.h>
#include <f32file.h>
LOCAL_D RTest test(_L(" T_POWER "));
void SetAbsoluteTimeout(RTimer& aTimer, TUint aUs, TRequestStatus& aStatus)
{
TTime wakeup;
wakeup.HomeTime();
wakeup += TTimeIntervalMicroSeconds(aUs);
aTimer.At(aStatus, wakeup);
}
void PowerTests()
{
test.Next(_L("test PowerDown()"));
TInt r = Power::PowerDown();
test (r == KErrNotReady);
for (int i = 0; i < 4; ++i)
{
test.Printf(_L(" %d "), i);
// Arm an absolute timer wakeup event after 5 sec
TRequestStatus absstatus;
RTimer abstimer;
r = abstimer.CreateLocal();
test (r == KErrNone);
SetAbsoluteTimeout(abstimer, 5000000, absstatus); // 5 sec
// Go to standby
r = Power::EnableWakeupEvents(EPwStandby);
test (r == KErrNone);
r = Power::PowerDown();
test (r == KErrNone);
User::WaitForRequest(absstatus);
abstimer.Close();
}
test.Printf(_L(" OK\n"));
test.Next(_L("test RequestWakeupEventNotification()"));
{
TInt r = Power::EnableWakeupEvents(EPwActive);
test (r == KErrArgument);
// Request wakup event notification and enable wakeup events
TRequestStatus status;
Power::RequestWakeupEventNotification(status);
test(status.Int() == KRequestPending);
r = Power::EnableWakeupEvents(EPwStandby);
test (r == KErrNone);
// Arm an absolute timer wakeup event
TRequestStatus absstatus;
RTimer abstimer;
r = abstimer.CreateLocal();
test (r == KErrNone);
SetAbsoluteTimeout(abstimer, 100000, absstatus); // 100ms
// Wait for the timer
User::WaitForRequest(absstatus);
test(absstatus.Int() == KErrNone);
// Wakup event has to be already notified
test(status.Int() == KErrNone);
User::WaitForRequest(status); // collect it
// Issue another notification request
Power::RequestWakeupEventNotification(status);
test(status.Int() == KRequestPending);
// Disable wakeup events
Power::DisableWakeupEvents();
// Arm another absolute timer wakeup event
SetAbsoluteTimeout(abstimer, 100000, absstatus); // 100ms
// Wait for the timer
User::WaitForRequest(absstatus);
test(absstatus.Int() == KErrNone);
// Wakeup event has not to be notified
test(status.Int() == KRequestPending);
// Cancel the notification request
Power::CancelWakeupEventNotification();
test(status.Int() == KErrCancel);
User::WaitForRequest(status); // collect it
// Cancel again just for fun ...
Power::CancelWakeupEventNotification();
test(status.Int() == KErrCancel);
abstimer.Close();
}
}
_LIT(KSecuritySlavePath, "t_power_slave.exe");
void ExecSlave(TUint aArg)
{
RProcess proc;
TInt r = proc.Create(KSecuritySlavePath, TPtrC((TUint16*) &aArg, sizeof(aArg)/sizeof(TUint16)));
test(r == KErrNone);
TRequestStatus status;
proc.Logon(status);
proc.Resume();
User::WaitForRequest(status);
// The slave must panic
test_Equal(EExitPanic, proc.ExitType());
test_Equal(EPlatformSecurityTrap, proc.ExitReason());
CLOSE_AND_WAIT(proc);
}
GLDEF_C TInt E32Main()
{
test.Title();
test.Start(_L("Testing"));
// Turn off evil lazy dll unloading
RLoader l;
test(l.Connect()==KErrNone);
test(l.CancelLazyDllUnload()==KErrNone);
l.Close();
//
// Perform the number of iterations specifed by the command line argument.
//
// If no arguments - perform two iterations
//
TInt iter = 2;
TInt len = User::CommandLineLength();
if (len)
{
// Copy the command line in a buffer
HBufC* hb = HBufC::NewMax(len);
test(hb != NULL);
TPtr cmd((TUint16*) hb->Ptr(), len);
User::CommandLine(cmd);
// Extract the number of iterations
TLex l(cmd);
TInt i;
TInt r = l.Val(i);
if (r == KErrNone)
iter = i;
else
// strange command - silently ignore
{}
delete hb;
}
test.Printf(_L("Go for %d iterations\n"), iter);
while (iter--)
{
// Remember the number of open handles. Just for a sanity check ....
TInt start_thc, start_phc;
RThread().HandleCount(start_phc, start_thc);
PowerTests();
test.Start(_L("test platform security"));
// The slave process must panic because it hasn't any capability
if(!PlatSec::IsCapabilityEnforced(ECapabilityPowerMgmt))
test.Printf(_L("TESTS NOT RUN - PowerMgmt capability isn't enforced on system"));
else
{
test.Next(_L("PowerDown()"));
ExecSlave(0);
test.Next(_L("EnableWakeupEvents()"));
ExecSlave(1);
test.Next(_L("DisableWakeupEvents()"));
ExecSlave(2);
test.Next(_L("RequestWakeupEventNotification()"));
ExecSlave(3);
test.Next(_L("CancelWakeupEventNotification()"));
ExecSlave(4);
}
test.End();
// Sanity check for open handles
TInt end_thc, end_phc;
RThread().HandleCount(end_phc, end_thc);
test(start_thc == end_thc);
test(start_phc == end_phc);
// and also for pending requests ...
test(RThread().RequestCount() == 0);
}
test.End();
return KErrNone;
}