apicompatanamdw/bcdrivers/os/cellularsrv/BCSmsUtilitiesTest/src/BCSmsUtilitiesTest.cpp
New BC drivers added are - Phonebook, Speed dial utility control, MMS Client MTM, Plugin Bio control, Organizer,
Startup List Management, Flash viewer framework, Network Status, Profile engine wrapper, Drm helper, OMA Drm CAF Agent,
SIP, Connection settings & UI, BLID, Landmarks, Send UI, Media Fetch, WebServices, Cellular services, Device services,
Graphics, Kernel and OSSrv, XML Services, Multimedia.
/*
* Copyright (c) 2002 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: BCSmsUtilitiesTest class member functions
*
*/
// INCLUDE FILES
#include <Stiftestinterface.h>
#include "BCSmsUtilitiesTest.h"
// ============================ MEMBER FUNCTIONS ===============================
// -----------------------------------------------------------------------------
// CBCSmsUtilitiesTest::CBCSmsUtilitiesTest
// C++ default constructor can NOT contain any code, that
// might leave.
// -----------------------------------------------------------------------------
//
CBCSmsUtilitiesTest::CBCSmsUtilitiesTest()
{
}
// -----------------------------------------------------------------------------
// CBCSmsUtilitiesTest::ConstructL
// Symbian 2nd phase constructor can leave.
//
// Note: If OOM test case uses STIF Logger, then STIF Logger must be created
// with static buffer size parameter (aStaticBufferSize). Otherwise Logger
// allocates memory from heap and therefore causes error situations with OOM
// testing. For more information about STIF Logger construction, see STIF Users
// Guide.
// -----------------------------------------------------------------------------
//
void CBCSmsUtilitiesTest::ConstructL()
{
iLog = CStifLogger::NewL( KBCSmsUtilitiesTestLogPath,
KBCSmsUtilitiesTestLogFile);
// Sample how to use logging
_LIT( KLogStart, "BCSmsUtilitiesTest logging starts!" );
iLog->Log( KLogStart );
iCharSet = CCnvCharacterSetConverter::NewL();
}
//-----------------------------------------------------------------------------
// CBCSmsUtilitiesTest::SendTestClassVersion
// Method used to send version of test class
//-----------------------------------------------------------------------------
//
void CBCSmsUtilitiesTest::SendTestModuleVersion()
{
TVersion moduleVersion;
moduleVersion.iMajor = TEST_MODULE_VERSION_MAJOR;
moduleVersion.iMinor = TEST_MODULE_VERSION_MINOR;
moduleVersion.iBuild = TEST_MODULE_VERSION_BUILD;
TFileName moduleName;
moduleName = _L("BCSmsUtilitiesTest.dll");
TBool newVersionOfMethod = ETrue;
CTestModuleIf &test=TestModuleIf();
test.SendTestModuleVersion(moduleVersion, moduleName, newVersionOfMethod);
test.SetBehavior(CTestModuleIf::ETestLeaksHandles);
}
// -----------------------------------------------------------------------------
// CBCSmsUtilitiesTest::NewL
// Two-phased constructor.
// -----------------------------------------------------------------------------
//
CBCSmsUtilitiesTest* CBCSmsUtilitiesTest::NewL()
{
CBCSmsUtilitiesTest* self = new (ELeave) CBCSmsUtilitiesTest;
CleanupStack::PushL( self );
self->ConstructL();
CleanupStack::Pop();
return self;
}
// Destructor
CBCSmsUtilitiesTest::~CBCSmsUtilitiesTest()
{
iSession.Close();
delete iCharSet;
delete iLog;
}
// -----------------------------------------------------------------------------
// CBCSmsUtilitiesTest::InitL
// InitL is used to initialize the Test Module.
// -----------------------------------------------------------------------------
//
TInt CBCSmsUtilitiesTest::InitL(
TFileName& /*aIniFile*/,
TBool /*aFirstTime*/ )
{
return KErrNone;
}
// -----------------------------------------------------------------------------
// CBCSmsUtilitiesTest::GetTestCasesL
// GetTestCases is used to inquire test cases from the Test Module. Test
// cases are stored to array of test cases. The Test Framework will be
// the owner of the data in the RPointerArray after GetTestCases return
// and it does the memory deallocation.
// -----------------------------------------------------------------------------
//
TInt CBCSmsUtilitiesTest::GetTestCasesL(
const TFileName& /*aConfig*/,
RPointerArray<TTestCaseInfo>& aTestCases )
{
// Loop through all test cases and create new
// TTestCaseInfo items and append items to aTestCase array
for( TInt i = 0; Case(i).iMethod != NULL; i++ )
{
// Allocate new TTestCaseInfo from heap for a testcase definition.
TTestCaseInfo* newCase = new( ELeave ) TTestCaseInfo();
// PushL TTestCaseInfo to CleanupStack.
CleanupStack::PushL( newCase );
// Set number for the testcase.
// When the testcase is run, this comes as a parameter to RunTestCaseL.
newCase->iCaseNumber = i;
// Set title for the test case. This is shown in UI to user.
newCase->iTitle.Copy( Case(i).iCaseName );
// Append TTestCaseInfo to the testcase array. After appended
// successfully the TTestCaseInfo object is owned (and freed)
// by the TestServer.
User::LeaveIfError(aTestCases.Append ( newCase ) );
// Pop TTestCaseInfo from the CleanupStack.
CleanupStack::Pop( newCase );
}
return KErrNone;
}
// -----------------------------------------------------------------------------
// CBCSmsUtilitiesTest::RunTestCaseL
// RunTestCaseL is used to run an individual test case specified
// by aTestCase. Test cases that can be run may be requested from
// Test Module by GetTestCases method before calling RunTestCase.
// -----------------------------------------------------------------------------
//
TInt CBCSmsUtilitiesTest::RunTestCaseL(
const TInt aCaseNumber,
const TFileName& /*aConfig*/,
TTestResult& aResult )
{
SendTestModuleVersion();
// Return value
TInt execStatus = KErrNone;
// Get the pointer to test case function
TCaseInfo tmp = Case ( aCaseNumber );
_LIT( KLogStartTC, "Starting testcase [%S]" );
iLog->Log( KLogStartTC, &tmp.iCaseName);
// Check that case number was valid
if ( tmp.iMethod != NULL )
{
// Valid case was found, call it via function pointer
iMethod = tmp.iMethod;
execStatus = ( this->*iMethod )( aResult );
}
else
{
// Valid case was not found, return error.
execStatus = KErrNotFound;
}
// Return case execution status (not the result of the case execution)
return execStatus;
}
// -----------------------------------------------------------------------------
// CBCSmsUtilitiesTest::OOMTestQueryL
// Used to check if a particular test case should be run in OOM conditions and
// which memory allocations should fail.
// -----------------------------------------------------------------------------
//
TBool CBCSmsUtilitiesTest::OOMTestQueryL(
const TFileName& /* aTestCaseFile */,
const TInt aCaseNumber,
TOOMFailureType& /* aFailureType */,
TInt& aFirstMemFailure,
TInt& aLastMemFailure )
{
_LIT( KLogOOMTestQueryL, "CBCSmsUtilitiesTest::OOMTestQueryL" );
iLog->Log( KLogOOMTestQueryL );
aFirstMemFailure = Case( aCaseNumber ).iFirstMemoryAllocation;
aLastMemFailure = Case( aCaseNumber ).iLastMemoryAllocation;
return Case( aCaseNumber ).iIsOOMTest;
}
// -----------------------------------------------------------------------------
// CBCSmsUtilitiesTest::OOMTestInitializeL
// Used to perform the test environment setup for a particular OOM test case.
// Test Modules may use the initialization file to read parameters for Test
// Module initialization but they can also have their own configure file or
// some other routine to initialize themselves.
//
// NOTE: User may add implementation for OOM test environment initialization.
// Usually no implementation is required.
// -----------------------------------------------------------------------------
//
void CBCSmsUtilitiesTest::OOMTestInitializeL(
const TFileName& /* aTestCaseFile */,
const TInt /* aCaseNumber */ )
{
}
// -----------------------------------------------------------------------------
// CBCSmsUtilitiesTest::OOMHandleWarningL
// In some cases the heap memory allocation should be skipped, either due to
// problems in the OS code or components used by the code being tested, or even
// inside the tested components which are implemented this way on purpose (by
// design), so it is important to give the tester a way to bypass allocation
// failures.
//
// NOTE: User may add implementation for OOM test warning handling. Usually no
// implementation is required.
// -----------------------------------------------------------------------------
//
void CBCSmsUtilitiesTest::OOMHandleWarningL(
const TFileName& /* aTestCaseFile */,
const TInt /* aCaseNumber */,
TInt& /* aFailNextValue */ )
{
}
// -----------------------------------------------------------------------------
// CBCSmsUtilitiesTest::OOMTestFinalizeL
// Used to perform the test environment cleanup for a particular OOM test case.
//
// NOTE: User may add implementation for OOM test environment finalization.
// Usually no implementation is required.
// -----------------------------------------------------------------------------
//
void CBCSmsUtilitiesTest::OOMTestFinalizeL(
const TFileName& /* aTestCaseFile */,
const TInt /* aCaseNumber */ )
{
}
// ========================== OTHER EXPORTED FUNCTIONS =========================
// -----------------------------------------------------------------------------
// LibEntryL is a polymorphic Dll entry point
// Returns: CTestModuleBase*: Pointer to Test Module object
// -----------------------------------------------------------------------------
//
EXPORT_C CTestModuleBase* LibEntryL()
{
return CBCSmsUtilitiesTest::NewL();
}
// -----------------------------------------------------------------------------
// SetRequirements handles test module parameters(implements evolution
// version 1 for test module's heap and stack sizes configuring).
// Returns: TInt: Symbian error code.
// -----------------------------------------------------------------------------
//
EXPORT_C TInt SetRequirements( CTestModuleParam*& /*aTestModuleParam*/,
TUint32& /*aParameterValid*/ )
{
/* --------------------------------- NOTE ---------------------------------
USER PANICS occurs in test thread creation when:
1) "The panic occurs when the value of the stack size is negative."
2) "The panic occurs if the minimum heap size specified is less
than KMinHeapSize".
KMinHeapSize: "Functions that require a new heap to be allocated will
either panic, or will reset the required heap size to this value if
a smaller heap size is specified".
3) "The panic occurs if the minimum heap size specified is greater than
the maximum size to which the heap can grow".
Other:
1) Make sure that your hardware or Symbian OS is supporting given sizes.
e.g. Hardware might support only sizes that are divisible by four.
------------------------------- NOTE end ------------------------------- */
// Normally STIF uses default heap and stack sizes for test thread, see:
// KTestThreadMinHeap, KTestThreadMinHeap and KStackSize.
// If needed heap and stack sizes can be configured here by user. Remove
// comments and define sizes.
/*
aParameterValid = KStifTestModuleParameterChanged;
CTestModuleParamVer01* param = CTestModuleParamVer01::NewL();
// Stack size
param->iTestThreadStackSize= 16384; // 16K stack
// Heap sizes
param->iTestThreadMinHeap = 4096; // 4K heap min
param->iTestThreadMaxHeap = 1048576;// 1M heap max
aTestModuleParam = param;
*/
return KErrNone;
}
// -----------------------------------------------------------------------------
// E32Dll is a DLL entry point function
// Returns: KErrNone: No error
// -----------------------------------------------------------------------------
//
#ifndef EKA2 // Hide Dll entry point to EKA2
GLDEF_C TInt E32Dll(
TDllReason /*aReason*/) // Reason
{
return(KErrNone);
}
#endif // EKA2
// End of File