// Copyright (c) 2007-2009 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:
// Old Test CaseID APPFWK-SSS-0004
// New Test CaseID DEVSRVS-SSMA-STARTSAFE-0004
//
//
/**
@file
@test
@internalComponent - Internal Symbian test code
*/
#include "tss_appstartmultiple.h"
const TInt KSsTestAppStartTimeout = 3000; // ms
const TInt KInduceTimeoutFailWaitTime = 300; //ms
const TInt KTestMultiRetries = 5; // for a successful start this value must exceed KDontRvCount (declared in ssmtestapprvafterretry.h)
TVerdict CSsTestStepAppStartMultiple::doTestStepL()
{
__UHEAP_MARK;
TRAPD(err, DoTestMultiAppAsyncL());
TEST(err == KErrNone);
INFO_PRINTF2(_L("DoTestMultiAppAsyncL completed with err = %d"), err);
TRAP(err, DoTestMultiAppWithTimeoutAsyncL());
TEST(err == KErrNone);
INFO_PRINTF2(_L("DoTestMultiAppWithTimeoutAsyncL completed with err = %d"), err);
TRAP(err, DoTestMultiAppAllTimeoutAsyncL());
TEST(err == KErrNone);
INFO_PRINTF2(_L("DoTestMultiAppAllTimeoutAsyncL completed with err = %d"), err);
TRAP(err, DoTestMultiAppIncludingRetryAsyncL());
TEST(err == KErrNone);
INFO_PRINTF2(_L("DoTestMultiAppIncludingRetryAsyncL completed with err = %d"), err);
TRAP(err, DoTestMultiProcAsyncL());
TEST(err == KErrNone);
INFO_PRINTF2(_L("DoTestMultiProcAsyncL completed with err = %d"), err);
TRAP(err, DoTestMultiProcWithTimeoutAsyncL());
TEST(err == KErrNone);
INFO_PRINTF2(_L("DoTestMultiProcWithTimeoutAsyncL completed with err = %d"), err);
TRAP(err, DoTestMultiProcAllTimeoutAsyncL());
TEST(err == KErrNone);
INFO_PRINTF2(_L("DoTestMultiProcAllTimeoutAsyncL completed with err = %d"), err);
TRAP(err, DoTestMultiProcIncludingRetryAsyncL());
TEST(err == KErrNone);
INFO_PRINTF2(_L("DoTestMultiProcIncludingRetryAsyncL completed with err = %d"), err);
__UHEAP_MARKEND;
return TestStepResult();
}
//
// START AS APPS
//
/**
Concurrently starts four instances of ssmtestappgood.exe
There is no timeout specified, therefore no instances of CTimeoutWaiter are constructed.
*/
void CSsTestStepAppStartMultiple::DoTestMultiAppAsyncL()
{
INFO_PRINTF1( _L("\n\n Performing Multiple App-Start Async test---no timeout") );
CSsmStartupProperties* startupProperties_0 = CSsmStartupProperties::NewL();
CleanupStack::PushL( startupProperties_0 );
// Slightly cheeky. Use the same startup properties for each call
startupProperties_0->SetFileParamsL( KTestAppGood, KNullDesC );
startupProperties_0->SetCommandTypeL( ESsmCmdStartApp );
startupProperties_0->SetExecutionBehaviour( ESsmWaitForSignal );
RProcess process_0;
CleanupClosePushL( process_0 );
RProcess process_1;
CleanupClosePushL( process_1 );
RProcess process_2;
CleanupClosePushL( process_2 );
RProcess process_3;
CleanupClosePushL( process_3 );
TInt id_0 = 0;
TInt id_1 = 0;
TInt id_2 = 0;
TInt id_3 = 0;
CStartAcknowledge* ack_0 = new(ELeave) CStartAcknowledge( this );
CleanupStack::PushL( ack_0 );
CStartAcknowledge* ack_1 = new(ELeave) CStartAcknowledge( this );
CleanupStack::PushL( ack_1 );
CStartAcknowledge* ack_2 = new(ELeave) CStartAcknowledge( this );
CleanupStack::PushL( ack_2 );
CStartAcknowledge* ack_3 = new(ELeave) CStartAcknowledge( this );
CleanupStack::PushL( ack_3 );
CSsmStartSafe* ss = CSsmStartSafe::NewLC();
// Use this timeout AO. Therefore not making assumptions about the order of completions.
CAsPauseStopper* pauseStopper = new(ELeave) CAsPauseStopper( KSsAsStopperNominalTimeout * 2);
CleanupStack::PushL( pauseStopper );
ss->Start(*startupProperties_0, process_0, ack_0->iStatus, id_0);
ss->Start(*startupProperties_0, process_1, ack_1->iStatus, id_1);
ss->Start(*startupProperties_0, process_2, ack_2->iStatus, id_2);
ss->Start(*startupProperties_0, process_3, ack_3->iStatus, id_3);
INFO_PRINTF5( _L("id_0 to id_3 have the values %d %d %d %d "), id_0, id_1, id_2, id_3 );
//Process are started using Wait for start execution behaviour,
//Start method always sets TRequestStatus to KRequestPending.
if( (KRequestPending == ack_0->iStatus.Int()) && (KRequestPending == ack_1->iStatus.Int()) && (KRequestPending == ack_2->iStatus.Int()) && (KRequestPending == ack_3->iStatus.Int()) )
{
CActiveScheduler::Start();
TBuf<KMaxFileName> buf( process_0.FileName() );
INFO_PRINTF2( _L("process_0 filename %S"), &buf );
buf.Copy( process_1.FileName() );
INFO_PRINTF2( _L("process_1 filename %S"), &buf );
buf.Copy( process_2.FileName() );
INFO_PRINTF2( _L("process_2 filename %S"), &buf );
buf.Copy( process_3.FileName() );
INFO_PRINTF2( _L("process_3 filename %S"), &buf );
INFO_PRINTF5( _L("Test apps rv'd with the values %d %d %d %d "), ack_0->iStatus.Int(), ack_1->iStatus.Int(), ack_2->iStatus.Int(), ack_3->iStatus.Int() );
INFO_PRINTF5( _L("Anticipated values were %d %d %d %d "), KErrNone, KErrNone, KErrNone, KErrNone );
TEST( ack_0->iStatus == KErrNone );
TEST( ack_1->iStatus == KErrNone );
TEST( ack_2->iStatus == KErrNone );
TEST( ack_3->iStatus == KErrNone );
}
CleanupStack::PopAndDestroy( 11, startupProperties_0 );
TEST( 4 == FindAndKill(KTestAppGood) );
}
/**
Concurrently starts four instances of ssmtestappgood.exe
A timeout value is specified which ensures that intances of CTimeoutWaiter are created
*/
void CSsTestStepAppStartMultiple::DoTestMultiAppWithTimeoutAsyncL()
{
INFO_PRINTF1( _L("\n\n Performing Multiple App-Start Async test---*with* timeout") );
CSsmStartupProperties* startupProperties_0 = CSsmStartupProperties::NewL();
CleanupStack::PushL( startupProperties_0 );
// Slightly cheeky. Use the same startup properties for each call
// Timeout is specified, therefore there are instances of CTimeoutWaiter constructed.
startupProperties_0->SetFileParamsL( KTestAppGood, KNullDesC );
startupProperties_0->SetCommandTypeL( ESsmCmdStartApp );
startupProperties_0->SetExecutionBehaviour( ESsmWaitForSignal );
startupProperties_0->SetTimeout( KSsTestAppStartTimeout );
RProcess process_0;
CleanupClosePushL( process_0 );
RProcess process_1;
CleanupClosePushL( process_1 );
RProcess process_2;
CleanupClosePushL( process_2 );
RProcess process_3;
CleanupClosePushL( process_3 );
TInt id_0 = 0;
TInt id_1 = 0;
TInt id_2 = 0;
TInt id_3 = 0;
CStartAcknowledge* ack_0 = new(ELeave) CStartAcknowledge( this );
CleanupStack::PushL( ack_0 );
CStartAcknowledge* ack_1 = new(ELeave) CStartAcknowledge( this );
CleanupStack::PushL( ack_1 );
CStartAcknowledge* ack_2 = new(ELeave) CStartAcknowledge( this );
CleanupStack::PushL( ack_2 );
CStartAcknowledge* ack_3 = new(ELeave) CStartAcknowledge( this );
CleanupStack::PushL( ack_3 );
// Use this timeout AO. Therefore not making assumptions about the order of completions.
CAsPauseStopper* pauseStopper = new(ELeave) CAsPauseStopper( KSsAsStopperNominalTimeout * 5 );
CleanupStack::PushL( pauseStopper );
CSsmStartSafe* ss = CSsmStartSafe::NewLC();
ss->Start(*startupProperties_0, process_0, ack_0->iStatus, id_0);
ss->Start(*startupProperties_0, process_1, ack_1->iStatus, id_1);
ss->Start(*startupProperties_0, process_2, ack_2->iStatus, id_2);
ss->Start(*startupProperties_0, process_3, ack_3->iStatus, id_3);
INFO_PRINTF5( _L("id_0 to id_3 have the values %d %d %d %d "), id_0, id_1, id_2, id_3 );
//Process are started using Wait for start execution behaviour,
//Start method always sets TRequestStatus to KRequestPending.
if( (KRequestPending == ack_0->iStatus.Int()) && (KRequestPending == ack_1->iStatus.Int()) && (KRequestPending == ack_2->iStatus.Int()) && (KRequestPending == ack_3->iStatus.Int()) )
{
CActiveScheduler::Start();
TBuf<KMaxFileName> buf( process_0.FileName() );
INFO_PRINTF2( _L("process_0 filename %S"), &buf );
buf.Copy( process_1.FileName() );
INFO_PRINTF2( _L("process_1 filename %S"), &buf );
buf.Copy( process_2.FileName() );
INFO_PRINTF2( _L("process_2 filename %S"), &buf );
buf.Copy( process_3.FileName() );
INFO_PRINTF2( _L("process_3 filename %S"), &buf );
INFO_PRINTF5( _L("Test apps rv'd with the values %d %d %d %d "), ack_0->iStatus.Int(), ack_1->iStatus.Int(), ack_2->iStatus.Int(), ack_3->iStatus.Int() );
INFO_PRINTF5( _L("Anticipated values were %d %d %d %d "), KErrNone, KErrNone, KErrNone, KErrNone );
TEST( ack_0->iStatus == KErrNone );
TEST( ack_1->iStatus == KErrNone );
TEST( ack_2->iStatus == KErrNone );
TEST( ack_3->iStatus == KErrNone );
}
CleanupStack::PopAndDestroy( 11, startupProperties_0 );
TEST( 4 == FindAndKill(KTestAppGood) );
}
/**
Concurrently starts four instances of ssmtestappnorv.exe
All of these timeout (naturalment)
*/
void CSsTestStepAppStartMultiple::DoTestMultiAppAllTimeoutAsyncL()
{
INFO_PRINTF1( _L("\n\n Performing Multiple App-Start Async test---ALL timeout") );
CSsmStartupProperties* startupProperties_0 = CSsmStartupProperties::NewL();
CleanupStack::PushL( startupProperties_0 );
// Slightly cheeky. Use the same startup properties for each call
// Timeout is specified, therefore there are instances of CTimeoutWaiter constructed.
startupProperties_0->SetFileParamsL( KTestAppNoRv, KNullDesC );
startupProperties_0->SetCommandTypeL( ESsmCmdStartApp );
startupProperties_0->SetExecutionBehaviour( ESsmWaitForSignal );
startupProperties_0->SetTimeout( KInduceTimeoutFailWaitTime );
RProcess process_0;
CleanupClosePushL( process_0 );
RProcess process_1;
CleanupClosePushL( process_1 );
RProcess process_2;
CleanupClosePushL( process_2 );
RProcess process_3;
CleanupClosePushL( process_3 );
TInt id_0 = 0;
TInt id_1 = 0;
TInt id_2 = 0;
TInt id_3 = 0;
CStartAcknowledge* ack_0 = new(ELeave) CStartAcknowledge( this );
CleanupStack::PushL( ack_0 );
CStartAcknowledge* ack_1 = new(ELeave) CStartAcknowledge( this );
CleanupStack::PushL( ack_1 );
CStartAcknowledge* ack_2 = new(ELeave) CStartAcknowledge( this );
CleanupStack::PushL( ack_2 );
CStartAcknowledge* ack_3 = new(ELeave) CStartAcknowledge( this );
CleanupStack::PushL( ack_3 );
CSsmStartSafe* ss = CSsmStartSafe::NewLC();
// Use this timeout AO. Therefore not making assumptions about the order of completions.
CAsPauseStopper* pauseStopper = new(ELeave) CAsPauseStopper( KSsAsStopperNominalTimeout * 5 );
CleanupStack::PushL( pauseStopper );
ss->Start(*startupProperties_0, process_0, ack_0->iStatus, id_0);
ss->Start(*startupProperties_0, process_1, ack_1->iStatus, id_1);
ss->Start(*startupProperties_0, process_2, ack_2->iStatus, id_2);
ss->Start(*startupProperties_0, process_3, ack_3->iStatus, id_3);
INFO_PRINTF5( _L("id_0 to id_3 have the values %d %d %d %d "), id_0, id_1, id_2, id_3 );
//Process are started using Wait for start execution behaviour,
//Start method always sets TRequestStatus to KRequestPending.
if( (KRequestPending == ack_0->iStatus.Int()) && (KRequestPending == ack_1->iStatus.Int()) && (KRequestPending == ack_2->iStatus.Int()) && (KRequestPending == ack_3->iStatus.Int()) )
{
CActiveScheduler::Start();
INFO_PRINTF5( _L("Test apps rv'd with the values %d %d %d %d "), ack_0->iStatus.Int(), ack_1->iStatus.Int(), ack_2->iStatus.Int(), ack_3->iStatus.Int() );
INFO_PRINTF5( _L("Anticipated values were %d %d %d %d "), KErrTimedOut, KErrTimedOut, KErrTimedOut, KErrTimedOut );
TEST( ack_0->iStatus == KErrTimedOut );
TEST( ack_1->iStatus == KErrTimedOut );
TEST( ack_2->iStatus == KErrTimedOut );
TEST( ack_3->iStatus == KErrTimedOut );
}
CleanupStack::PopAndDestroy( 11, startupProperties_0 );
TEST( 0 == FindAndKill(KTestAppNoRv) );
}
/**
This test starts three instances of ssmtestappgood.exe and one of ssmtestapprvafterretry.exe.The latter
fails to rv 1 + the number of retries specified in the dat file (written here and deleted by the app)
Rv is eventually successful
*/
void CSsTestStepAppStartMultiple::DoTestMultiAppIncludingRetryAsyncL()
{
INFO_PRINTF1( _L("\n\n Performing Multiple App-Start Async test---Inc one Retry") );
//
// Write the retry number to a file to be read, updated
// and eventually deleted by the test-app.
RFs fs;
CleanupClosePushL( fs );
RFileWriteStream writeStream;
CleanupClosePushL( writeStream );
User::LeaveIfError(fs.Connect());
User::LeaveIfError(writeStream.Replace(fs, KDontRvCountFile, EFileWrite));
writeStream.WriteInt8L( KDontRvCount ); // KDontRvCount is declared in ssmtestapprvafterretry.h
writeStream.CommitL();
CleanupStack::PopAndDestroy( 2, &fs );
//
CSsmStartupProperties* startupProperties_0 = CSsmStartupProperties::NewL();
CleanupStack::PushL( startupProperties_0 );
// Timeout is specified, therefore there are instances of CTimeoutWaiter constructed.
startupProperties_0->SetFileParamsL( KTestAppGood, KNullDesC );
startupProperties_0->SetCommandTypeL( ESsmCmdStartApp );
startupProperties_0->SetExecutionBehaviour( ESsmWaitForSignal );
startupProperties_0->SetRetries( KTestMultiRetries );
startupProperties_0->SetTimeout( KSsTestAppStartTimeout );
CSsmStartupProperties* startupProperties_1 = CSsmStartupProperties::NewL();
CleanupStack::PushL( startupProperties_1 );
// The app that rv's after some retries (specified in c:\dontrvcount.dat
startupProperties_1->SetFileParamsL( KTestAppRvAfterRetry, KNullDesC );
startupProperties_1->SetCommandTypeL( ESsmCmdStartApp );
startupProperties_1->SetExecutionBehaviour( ESsmWaitForSignal );
startupProperties_1->SetRetries( KTestMultiRetries );
// Each retry in the test app takes 2ms, so delay for 5 retries is given as 18ms.
startupProperties_1->SetTimeout( KSsTestAppStartTimeout * 6); //18000ms because KTestAppRvAfterRetry takes 2ms delay for each retry
RProcess process_0;
CleanupClosePushL( process_0 );
RProcess process_1;
CleanupClosePushL( process_1 );
RProcess process_2;
CleanupClosePushL( process_2 );
RProcess process_3;
CleanupClosePushL( process_3 );
TInt id_0 = 0;
TInt id_1 = 0;
TInt id_2 = 0;
TInt id_3 = 0;
CStartAcknowledge* ack_0 = new(ELeave) CStartAcknowledge( this );
CleanupStack::PushL( ack_0 );
CStartAcknowledge* ack_1 = new(ELeave) CStartAcknowledge( this );
CleanupStack::PushL( ack_1 );
CStartAcknowledge* ack_2 = new(ELeave) CStartAcknowledge( this );
CleanupStack::PushL( ack_2 );
CStartAcknowledge* ack_3 = new(ELeave) CStartAcknowledge( this );
CleanupStack::PushL( ack_3 );
CSsmStartSafe* ss = CSsmStartSafe::NewLC();
// Use this timeout AO. Therefore not making assumptions about the order of completions.
CAsPauseStopper* pauseStopper = new(ELeave) CAsPauseStopper( KSsAsStopperNominalTimeout * 10 );
CleanupStack::PushL( pauseStopper );
ss->Start(*startupProperties_0, process_0, ack_0->iStatus, id_0);
ss->Start(*startupProperties_0, process_1, ack_1->iStatus, id_1);
ss->Start(*startupProperties_0, process_2, ack_2->iStatus, id_2);
ss->Start(*startupProperties_1, process_3, ack_3->iStatus, id_3); // The problematic app. Starts after the retries-count file is depleted
INFO_PRINTF5( _L("id_0 to id_3 have the values %d %d %d %d "), id_0, id_1, id_2, id_3 );
//Process are started using Wait for start execution behaviour,
//Start method always sets TRequestStatus to KRequestPending.
if( (KRequestPending == ack_0->iStatus.Int()) && (KRequestPending == ack_1->iStatus.Int()) && (KRequestPending == ack_2->iStatus.Int()) && (KRequestPending == ack_3->iStatus.Int()) )
{
CActiveScheduler::Start();
TBuf<KMaxFileName> buf( process_0.FileName() );
INFO_PRINTF2( _L("process_0 filename %S"), &buf );
buf.Copy( process_1.FileName() );
INFO_PRINTF2( _L("process_1 filename %S"), &buf );
buf.Copy( process_2.FileName() );
INFO_PRINTF2( _L("process_2 filename %S"), &buf );
buf.Copy( process_3.FileName() );
INFO_PRINTF2( _L("process_3 filename %S"), &buf );
INFO_PRINTF5( _L("Test apps rv'd with the values %d %d %d %d "), ack_0->iStatus.Int(), ack_1->iStatus.Int(), ack_2->iStatus.Int(), ack_3->iStatus.Int() );
INFO_PRINTF5( _L("Anticipated values were %d %d %d %d "), KErrNone, KErrNone, KErrNone, KErrNone );
TEST( ack_0->iStatus == KErrNone );
TEST( ack_1->iStatus == KErrNone );
TEST( ack_2->iStatus == KErrNone );
TEST( ack_3->iStatus == KErrNone );
}
CleanupStack::PopAndDestroy( 12, startupProperties_0 );
TEST( 1 == FindAndKill(KTestAppRvAfterRetry) );
TEST( 3 == FindAndKill(KTestAppGood) );
}
//
// START AS PROCESSES
//
/**
Concurrently starts four instances of ssmtestappgood.exe as processes
*/
void CSsTestStepAppStartMultiple::DoTestMultiProcAsyncL()
{
INFO_PRINTF1( _L("\n\n Performing Multiple Process-Start Async test---no timeout") );
CSsmStartupProperties* startupProperties_0 = CSsmStartupProperties::NewL();
CleanupStack::PushL( startupProperties_0 );
// Slightly cheeky. Use the same startup properties for each call
// No timeout specified, therefore there is no instance of CTimeoutWaiter constructed.
startupProperties_0->SetFileParamsL( KTestAppGood, KNullDesC );
startupProperties_0->SetCommandTypeL( ESsmCmdStartProcess );
startupProperties_0->SetExecutionBehaviour( ESsmWaitForSignal );
RProcess process_0;
CleanupClosePushL( process_0 );
RProcess process_1;
CleanupClosePushL( process_1 );
RProcess process_2;
CleanupClosePushL( process_2 );
RProcess process_3;
CleanupClosePushL( process_3 );
TInt id_0 = 0;
TInt id_1 = 0;
TInt id_2 = 0;
TInt id_3 = 0;
CStartAcknowledge* ack_0 = new(ELeave) CStartAcknowledge( this );
CleanupStack::PushL( ack_0 );
CStartAcknowledge* ack_1 = new(ELeave) CStartAcknowledge( this );
CleanupStack::PushL( ack_1 );
CStartAcknowledge* ack_2 = new(ELeave) CStartAcknowledge( this );
CleanupStack::PushL( ack_2 );
CStartAcknowledge* ack_3 = new(ELeave) CStartAcknowledge( this );
CleanupStack::PushL( ack_3 );
CSsmStartSafe* ss = CSsmStartSafe::NewLC();
// Use this timeout AO. Therefore not making assumptions about the order of completions.
CAsPauseStopper* pauseStopper = new(ELeave) CAsPauseStopper( KSsAsStopperNominalTimeout * 2 );
CleanupStack::PushL( pauseStopper );
ss->Start(*startupProperties_0, process_0, ack_0->iStatus, id_0);
ss->Start(*startupProperties_0, process_1, ack_1->iStatus, id_1);
ss->Start(*startupProperties_0, process_2, ack_2->iStatus, id_2);
ss->Start(*startupProperties_0, process_3, ack_3->iStatus, id_3);
INFO_PRINTF5( _L("id_0 to id_3 have the values %d %d %d %d "), id_0, id_1, id_2, id_3 );
//Process are started using Wait for start execution behaviour,
//Start method always sets TRequestStatus to KRequestPending.
if( (KRequestPending == ack_0->iStatus.Int()) && (KRequestPending == ack_1->iStatus.Int()) && (KRequestPending == ack_2->iStatus.Int()) && (KRequestPending == ack_3->iStatus.Int()) )
{
CActiveScheduler::Start();
TBuf<KMaxFileName> buf( process_0.FileName() );
INFO_PRINTF2( _L("process_0 filename %S"), &buf );
buf.Copy( process_1.FileName() );
INFO_PRINTF2( _L("process_1 filename %S"), &buf );
buf.Copy( process_2.FileName() );
INFO_PRINTF2( _L("process_2 filename %S"), &buf );
buf.Copy( process_3.FileName() );
INFO_PRINTF2( _L("process_3 filename %S"), &buf );
INFO_PRINTF5( _L("Test apps rv'd with the values %d %d %d %d "), ack_0->iStatus.Int(), ack_1->iStatus.Int(), ack_2->iStatus.Int(), ack_3->iStatus.Int() );
INFO_PRINTF5( _L("Anticipated values were %d %d %d %d "), KErrNone, KErrNone, KErrNone, KErrNone );
TEST( ack_0->iStatus == KErrNone );
TEST( ack_1->iStatus == KErrNone );
TEST( ack_2->iStatus == KErrNone );
TEST( ack_3->iStatus == KErrNone );
}
CleanupStack::PopAndDestroy( 11, startupProperties_0 );
TEST( 4 == FindAndKill(KTestAppGood) );
}
/**
Concurrently starts four instances of ssmtestappgood.exe as processes
A timeout value is specified which ensures that intances of CTimeoutWaiter are created
*/
void CSsTestStepAppStartMultiple::DoTestMultiProcWithTimeoutAsyncL()
{
INFO_PRINTF1( _L("\n\n Performing Multiple Process-Start Async test---*with* timeout") );
CSsmStartupProperties* startupProperties_0 = CSsmStartupProperties::NewL();
CleanupStack::PushL( startupProperties_0 );
// Slightly cheeky. Use the same startup properties for each call
// Timeout is specified, therefore there are instances of CTimeoutWaiter constructed.
startupProperties_0->SetFileParamsL( KTestAppGood, KNullDesC );
startupProperties_0->SetCommandTypeL( ESsmCmdStartProcess );
startupProperties_0->SetExecutionBehaviour( ESsmWaitForSignal );
startupProperties_0->SetTimeout( KSsTestAppStartTimeout );
RProcess process_0;
CleanupClosePushL( process_0 );
RProcess process_1;
CleanupClosePushL( process_1 );
RProcess process_2;
CleanupClosePushL( process_2 );
RProcess process_3;
CleanupClosePushL( process_3 );
TInt id_0 = 0;
TInt id_1 = 0;
TInt id_2 = 0;
TInt id_3 = 0;
CStartAcknowledge* ack_0 = new(ELeave) CStartAcknowledge( this );
CleanupStack::PushL( ack_0 );
CStartAcknowledge* ack_1 = new(ELeave) CStartAcknowledge( this );
CleanupStack::PushL( ack_1 );
CStartAcknowledge* ack_2 = new(ELeave) CStartAcknowledge( this );
CleanupStack::PushL( ack_2 );
CStartAcknowledge* ack_3 = new(ELeave) CStartAcknowledge( this );
CleanupStack::PushL( ack_3 );
CSsmStartSafe* ss = CSsmStartSafe::NewLC();
// Use this timeout AO. Therefore not making assumptions about the order of completions.
CAsPauseStopper* pauseStopper = new(ELeave) CAsPauseStopper( KSsAsStopperNominalTimeout * 5 );
CleanupStack::PushL( pauseStopper );
ss->Start(*startupProperties_0, process_0, ack_0->iStatus, id_0);
ss->Start(*startupProperties_0, process_1, ack_1->iStatus, id_1);
ss->Start(*startupProperties_0, process_2, ack_2->iStatus, id_2);
ss->Start(*startupProperties_0, process_3, ack_3->iStatus, id_3);
INFO_PRINTF5( _L("id_0 to id_3 have the values %d %d %d %d "), id_0, id_1, id_2, id_3 );
//Process are started using Wait for start execution behaviour,
//Start method always sets TRequestStatus to KRequestPending.
if( (KRequestPending == ack_0->iStatus.Int()) && (KRequestPending == ack_1->iStatus.Int()) && (KRequestPending == ack_2->iStatus.Int()) && (KRequestPending == ack_3->iStatus.Int()) )
{
CActiveScheduler::Start();
TBuf<KMaxFileName> buf( process_0.FileName() );
INFO_PRINTF2( _L("process_0 filename %S"), &buf );
buf.Copy( process_1.FileName() );
INFO_PRINTF2( _L("process_1 filename %S"), &buf );
buf.Copy( process_2.FileName() );
INFO_PRINTF2( _L("process_2 filename %S"), &buf );
buf.Copy( process_3.FileName() );
INFO_PRINTF2( _L("process_3 filename %S"), &buf );
INFO_PRINTF5( _L("Test apps rv'd with the values %d %d %d %d "), ack_0->iStatus.Int(), ack_1->iStatus.Int(), ack_2->iStatus.Int(), ack_3->iStatus.Int() );
INFO_PRINTF5( _L("Anticipated values were %d %d %d %d "), KErrNone, KErrNone, KErrNone, KErrNone );
TEST( ack_0->iStatus == KErrNone );
TEST( ack_1->iStatus == KErrNone );
TEST( ack_2->iStatus == KErrNone );
TEST( ack_3->iStatus == KErrNone );
}
CleanupStack::PopAndDestroy( 11, startupProperties_0 );
TEST( 4 == FindAndKill(KTestAppGood) );
}
/**
Concurrently starts four instances of ssmtestappnorv.exe as processes
All of these timeout (naturalment)
*/
void CSsTestStepAppStartMultiple::DoTestMultiProcAllTimeoutAsyncL()
{
INFO_PRINTF1( _L("\n\n Performing Multiple App-as-Process-Start Async test---ALL timeout") );
CSsmStartupProperties* startupProperties_0 = CSsmStartupProperties::NewL();
CleanupStack::PushL( startupProperties_0 );
// Slightly cheeky. Use the same startup properties for each call
startupProperties_0->SetFileParamsL( KTestAppNoRv, KNullDesC );
startupProperties_0->SetCommandTypeL( ESsmCmdStartProcess );
startupProperties_0->SetExecutionBehaviour( ESsmWaitForSignal );
startupProperties_0->SetTimeout( KInduceTimeoutFailWaitTime );
RProcess process_0;
CleanupClosePushL( process_0 );
RProcess process_1;
CleanupClosePushL( process_1 );
RProcess process_2;
CleanupClosePushL( process_2 );
RProcess process_3;
CleanupClosePushL( process_3 );
TInt id_0 = 0;
TInt id_1 = 0;
TInt id_2 = 0;
TInt id_3 = 0;
CStartAcknowledge* ack_0 = new(ELeave) CStartAcknowledge( this );
CleanupStack::PushL( ack_0 );
CStartAcknowledge* ack_1 = new(ELeave) CStartAcknowledge( this );
CleanupStack::PushL( ack_1 );
CStartAcknowledge* ack_2 = new(ELeave) CStartAcknowledge( this );
CleanupStack::PushL( ack_2 );
CStartAcknowledge* ack_3 = new(ELeave) CStartAcknowledge( this );
CleanupStack::PushL( ack_3 );
CSsmStartSafe* ss = CSsmStartSafe::NewLC();
// Use this timeout AO. Therefore not making assumptions about the order of completions.
CAsPauseStopper* pauseStopper = new(ELeave) CAsPauseStopper( KSsAsStopperNominalTimeout * 5 );
CleanupStack::PushL( pauseStopper );
ss->Start(*startupProperties_0, process_0, ack_0->iStatus, id_0);
ss->Start(*startupProperties_0, process_1, ack_1->iStatus, id_1);
ss->Start(*startupProperties_0, process_2, ack_2->iStatus, id_2);
ss->Start(*startupProperties_0, process_3, ack_3->iStatus, id_3);
INFO_PRINTF5( _L("id_0 to id_3 have the values %d %d %d %d "), id_0, id_1, id_2, id_3 );
//Process are started using Wait for start execution behaviour,
//Start method always sets TRequestStatus to KRequestPending.
if( (KRequestPending == ack_0->iStatus.Int()) && (KRequestPending == ack_1->iStatus.Int()) && (KRequestPending == ack_2->iStatus.Int()) && (KRequestPending == ack_3->iStatus.Int()) )
{
CActiveScheduler::Start();
INFO_PRINTF5( _L("Test apps rv'd with the values %d %d %d %d "), ack_0->iStatus.Int(), ack_1->iStatus.Int(), ack_2->iStatus.Int(), ack_3->iStatus.Int() );
INFO_PRINTF5( _L("Anticipated values were %d %d %d %d "), KErrTimedOut, KErrTimedOut, KErrTimedOut, KErrTimedOut );
TEST( ack_0->iStatus == KErrTimedOut );
TEST( ack_1->iStatus == KErrTimedOut );
TEST( ack_2->iStatus == KErrTimedOut );
TEST( ack_3->iStatus == KErrTimedOut );
}
CleanupStack::PopAndDestroy( 11, startupProperties_0 );
TEST( 0 == FindAndKill(KTestAppNoRv) );
}
/**
This test starts three instances of ssmtestappgood.exe and one of ssmtestapprvafterretry.exe as processes.The latter
fails to rv 1 + the number of retries specified in the dat file (written here and deleted by the app)
Rv is eventually successful
*/
void CSsTestStepAppStartMultiple::DoTestMultiProcIncludingRetryAsyncL()
{
INFO_PRINTF1( _L("\n\n Performing Multiple Slow App-As-Process-Start Async test---ALL Retry") );
//
// Write the retry number to a file to be read, updated
// and eventually deleted by the test-app.
RFs fs;
CleanupClosePushL( fs );
RFileWriteStream writeStream;
CleanupClosePushL( writeStream );
User::LeaveIfError(fs.Connect());
User::LeaveIfError(writeStream.Replace(fs, KDontRvCountFile, EFileWrite));
writeStream.WriteInt8L( KDontRvCount ); // KDontRvCount is declared in ssmtestapprvafterretry.h
writeStream.CommitL();
CleanupStack::PopAndDestroy( 2, &fs );
//
CSsmStartupProperties* startupProperties_0 = CSsmStartupProperties::NewL();
CleanupStack::PushL( startupProperties_0 );
// Timeout is specified, therefore there are instances of CTimeoutWaiter constructed.
startupProperties_0->SetFileParamsL( KTestAppGood, KNullDesC );
startupProperties_0->SetCommandTypeL( ESsmCmdStartProcess );
startupProperties_0->SetExecutionBehaviour( ESsmWaitForSignal );
startupProperties_0->SetRetries( KTestMultiRetries );
startupProperties_0->SetTimeout( KSsTestAppStartTimeout );
CSsmStartupProperties* startupProperties_1 = CSsmStartupProperties::NewL();
CleanupStack::PushL( startupProperties_1 );
// The app that rv's after some retries (specified in c:\dontrvcount.dat
startupProperties_1->SetFileParamsL( KTestAppRvAfterRetry, KNullDesC );
startupProperties_1->SetCommandTypeL( ESsmCmdStartProcess );
startupProperties_1->SetExecutionBehaviour( ESsmWaitForSignal );
startupProperties_1->SetRetries( KTestMultiRetries );
startupProperties_1->SetTimeout( KSsTestAppStartTimeout * 6); //18000ms because KTestAppRvAfterRetry takes 2ms delay for each retry
RProcess process_0;
CleanupClosePushL( process_0 );
RProcess process_1;
CleanupClosePushL( process_1 );
RProcess process_2;
CleanupClosePushL( process_2 );
RProcess process_3;
CleanupClosePushL( process_3 );
TInt id_0 = 0;
TInt id_1 = 0;
TInt id_2 = 0;
TInt id_3 = 0;
CStartAcknowledge* ack_0 = new(ELeave) CStartAcknowledge( this );
CleanupStack::PushL( ack_0 );
CStartAcknowledge* ack_1 = new(ELeave) CStartAcknowledge( this );
CleanupStack::PushL( ack_1 );
CStartAcknowledge* ack_2 = new(ELeave) CStartAcknowledge( this );
CleanupStack::PushL( ack_2 );
CStartAcknowledge* ack_3 = new(ELeave) CStartAcknowledge( this );
CleanupStack::PushL( ack_3 );
CSsmStartSafe* ss = CSsmStartSafe::NewLC();
// Use this timeout AO. Therefore not making assumptions about the order of completions.
CAsPauseStopper* pauseStopper = new(ELeave) CAsPauseStopper( KSsAsStopperNominalTimeout * 10 );
CleanupStack::PushL( pauseStopper );
ss->Start(*startupProperties_0, process_0, ack_0->iStatus, id_0);
ss->Start(*startupProperties_0, process_1, ack_1->iStatus, id_1);
ss->Start(*startupProperties_0, process_2, ack_2->iStatus, id_2);
ss->Start(*startupProperties_1, process_3, ack_3->iStatus, id_3); // The problematic app. Starts after the retries-count file is depleted
INFO_PRINTF5( _L("id_0 to id_3 have the values %d %d %d %d "), id_0, id_1, id_2, id_3 );
//Process are started using Wait for start execution behaviour,
//Start method always sets TRequestStatus to KRequestPending.
if( (KRequestPending == ack_0->iStatus.Int()) && (KRequestPending == ack_1->iStatus.Int()) && (KRequestPending == ack_2->iStatus.Int()) && (KRequestPending == ack_3->iStatus.Int()) )
{
CActiveScheduler::Start();
TBuf<KMaxFileName> buf( process_0.FileName() );
INFO_PRINTF2( _L("process_0 filename %S"), &buf );
buf.Copy( process_1.FileName() );
INFO_PRINTF2( _L("process_1 filename %S"), &buf );
buf.Copy( process_2.FileName() );
INFO_PRINTF2( _L("process_2 filename %S"), &buf );
buf.Copy( process_3.FileName() );
INFO_PRINTF2( _L("process_3 filename %S"), &buf );
INFO_PRINTF5( _L("Test apps rv'd with the values %d %d %d %d "), ack_0->iStatus.Int(), ack_1->iStatus.Int(), ack_2->iStatus.Int(), ack_3->iStatus.Int() );
INFO_PRINTF5( _L("Anticipated values were %d %d %d %d "), KErrNone, KErrNone, KErrNone, KErrNone );
TEST( ack_0->iStatus == KErrNone );
TEST( ack_1->iStatus == KErrNone );
TEST( ack_2->iStatus == KErrNone );
TEST( ack_3->iStatus == KErrNone );
}
CleanupStack::PopAndDestroy( 12, startupProperties_0 );
TEST( 1 == FindAndKill(KTestAppRvAfterRetry) );
TEST( 3 == FindAndKill(KTestAppGood) );
}
TVerdict CSsTestStepAppStartMultiple::doTestStepPreambleL()
{
iActiveScheduler = new(ELeave) CActiveScheduler;
CActiveScheduler::Install( iActiveScheduler );
return CTestStep::doTestStepPreambleL();
}
/** */
TVerdict CSsTestStepAppStartMultiple::doTestStepPostambleL()
{
return CTestStep::doTestStepPostambleL();
}
/**
From MSsTestAsyncNotifier
*/
void CSsTestStepAppStartMultiple::SsTestNotify( TInt aNotify )
{
// This method is called if CSsmStartSafe's start method leaves in void CTestAndStopper::DoStartsL().
INFO_PRINTF2( _L("*** App rv'd with %d"), aNotify );
}
CSsTestStepAppStartMultiple::CSsTestStepAppStartMultiple()
{
SetTestStepName( KCTestCaseAppStartMultiple );
}
CSsTestStepAppStartMultiple::~CSsTestStepAppStartMultiple()
{
delete iActiveScheduler;
}