stif/stif_plat/inc/StifTestModule.h
branchRCL_3
changeset 59 8ad140f3dd41
--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/stif/stif_plat/inc/StifTestModule.h	Wed Oct 13 16:17:58 2010 +0300
@@ -0,0 +1,1217 @@
+/*
+* Copyright (c) 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: This file contains the header file of the 
+* CTestModuleBase and CTestModuleIf classes. Test Module inherits 
+* the CTestModuleBase and uses the CTestModuleIf for printing 
+* to user interface and event system control.
+*
+* The initialization of this interface must be done from the Test Module Server with:
+* 	CTestModuleXXX *mod = new CTestModuleXXX;
+* 	RThread thread;
+* 	CTestModuleIf::NewL( this, (CTestModuleBase*) mod, thread.Id() );
+* 
+* CTestModuleIf is deleted by destructor of the CTestModuleBase. 
+*
+*/
+
+#ifndef TESTMODULE_H
+#define TESTMODULE_H
+
+// INCLUDES
+#include <e32std.h>
+#include <e32base.h>
+#include "StifCommand.h"
+
+// CONSTANTS
+
+// Define Old Test Module API version - API that doesn't support version of test module
+const TInt KOldTestModuleAPIMajor = 1;
+const TInt KOldTestModuleAPIMinor = 1;
+const TInt KOldTestModuleAPIBuild = 0;
+
+// Define Test Module API version
+const TInt KTestModuleAPIMajor = 1;
+const TInt KTestModuleAPIMinor = 2;
+const TInt KTestModuleAPIBuild = 0;
+const TInt KStifMaxResultDes = 128; // Maximum test result description length
+
+// Max array value for STIF macros allow result.
+const TInt KSTIFMacroResultArraySize = 10;
+
+// Test module def-file check when setting parameters.
+const TUint32 KStifTestModuleParameterChanged = 0xdeadbeef;
+
+// MACROS
+// Test result description. Maximum length is 128 characters.
+typedef TBuf<KStifMaxResultDes> TResultDes;
+
+// Macro for boolean.
+#ifdef TL
+    #pragma message( "============================================================" )
+    #pragma message( " TL macro is already defined, now using STIF TF's TL macro" )
+    #pragma message( "============================================================" )
+#undef TL
+#endif
+// Macro for integer and one expected result.
+#ifdef T1L
+    #pragma message( "==============================================================" )
+    #pragma message( " T1L macro is already defined, now using STIF TF's T1L macro" )
+    #pragma message( "==============================================================" )
+#undef T1L
+#endif
+// Macro for integer and two expected result.
+#ifdef T2L
+    #pragma message( "==============================================================" )
+    #pragma message( " T2L macro is already defined, now using STIF TF's T2L macro" )
+    #pragma message( "==============================================================" )
+#undef T2L
+#endif
+// Macro for integer and three expected result.
+#ifdef T3L
+    #pragma message( "==============================================================" )
+    #pragma message( " T3L macro is already defined, now using STIF TF's T3L macro" )
+    #pragma message( "==============================================================" )
+#undef T3L
+#endif
+// Macro for integer and four expected result.
+#ifdef T4L
+    #pragma message( "==============================================================" )
+    #pragma message( " T4L macro is already defined, now using STIF TF's T4L macro" )
+    #pragma message( "==============================================================" )
+#undef T4L
+#endif
+// Macro for integer and five expected result.
+#ifdef T5L
+    #pragma message( "==============================================================" )
+    #pragma message( " T5L macro is already defined, now using STIF TF's T5L macro" )
+    #pragma message( "==============================================================" )
+#undef T5L
+#endif
+
+// Macro for boolean. Recommended use with TestScripter's test class.
+#ifdef TAL
+    #pragma message( "==============================================================" )
+    #pragma message( " TAL macro is already defined, now using STIF TF's TAL macro" )
+    #pragma message( "==============================================================" )
+#undef TAL
+#endif
+// Macro for integer and one expected result. Recommended use with TestScripter's test
+// class.
+#ifdef TA1L
+    #pragma message( "================================================================" )
+    #pragma message( " TA1L macro is already defined, now using STIF TF's TA1L macro" )
+    #pragma message( "================================================================" )
+#undef TA1L
+#endif
+// Macro for integer and two expected result. Recommended use with TestScripter's test
+// class.
+#ifdef TA2L
+    #pragma message( "================================================================" )
+    #pragma message( " TA2L macro is already defined, now using STIF TF's TA2L macro" )
+    #pragma message( "================================================================" )
+#undef TA2L
+#endif
+// Macro for integer and three expected result. Recommended use with TestScripter's test
+// class.
+#ifdef TA3L
+    #pragma message( "================================================================" )
+    #pragma message( " TA3L macro is already defined, now using STIF TF's TA3L macro" )
+    #pragma message( "================================================================" )
+#undef TA3L
+#endif
+// Macro for integer and four expected result. Recommended use with TestScripter's test
+// class.
+#ifdef TA4L
+    #pragma message( "================================================================" )
+    #pragma message( " TA4L macro is already defined, now using STIF TF's TA4L macro" )
+    #pragma message( "================================================================" )
+#undef TA4L
+#endif
+// Macro for integer and five expected result. Recommended use with TestScripter's test
+// class.
+#ifdef TA5L
+    #pragma message( "================================================================" )
+    #pragma message( " TA5L macro is already defined, now using STIF TF's TA5L macro" )
+    #pragma message( "================================================================" )
+#undef TA5L
+#endif
+
+
+//  TL ========================================================================
+//  Macro for verify boolean value.
+//  Example for use, 1: TL( Open() == KErrNone );
+//                   1: TL( VerifyString1() == VerifyString2() );
+//                   2: TL( 6 <= 8 );
+//  ===========================================================================
+    #define TL( aIsTrue )\
+        if( (!(aIsTrue)) )\
+        { TestModuleIf().StifMacroError( (0), (TText8*)__FILE__, __FUNCTION__, __LINE__ );\
+        User::Leave( KErrArgument ); };
+
+//  T1L =======================================================================
+//  Macro for verify integer value from the expected 1 value.
+//  Example: T1L( Open(), KErrNone );
+//  ===========================================================================
+    #define T1L( aResult, aExpected1 )\
+        {\
+        TInt result = aResult;\
+        if( ( (result) != (aExpected1) ) )\
+            { TestModuleIf().StifMacroError(\
+                (1), (TText8*)__FILE__, __FUNCTION__, __LINE__, (result), (aExpected1) );\
+            User::Leave( KErrArgument ); };\
+        };
+
+//  T2L =======================================================================
+//  Macro for verify integer value from the expected 1 and 2 values.
+//  Example for use: T1L( Open(), KErrNone, KErrAlreadyExists );
+//  ===========================================================================
+    #define T2L( aResult, aExpected1, aExpected2 )\
+        {\
+        TInt result = aResult;\
+        if( ( (result) != (aExpected1) && (result) != (aExpected2) ) )\
+            { TestModuleIf().StifMacroError(\
+                (2), (TText8*)__FILE__, __FUNCTION__, __LINE__, (result), (aExpected1), (aExpected2) );\
+            User::Leave( KErrArgument ); };\
+        };
+
+//  T3L =======================================================================
+//  Macro for verify integer value from the expected 1, 2 and 3 values.
+//  Example for use: T1L( Open(), KErrNone, KErrAlreadyExists, KErrDiskFull );
+//  ===========================================================================
+    #define T3L( aResult, aExpected1, aExpected2, aExpected3 )\
+        {\
+        TInt result = aResult;\
+        if( ( (result) != (aExpected1) && (result) != (aExpected2) && (result) != (aExpected3) ) )\
+            { TestModuleIf().StifMacroError(\
+                (3), (TText8*)__FILE__, __FUNCTION__, __LINE__, (result), (aExpected1), (aExpected2), (aExpected3) );\
+            User::Leave( KErrArgument ); };\
+        };
+
+//  T4L =======================================================================
+//  Macro for verify integer value from the expected 1, 2, 3 and 4 values.
+//  Example for use:
+//  T1L( Open(), KErrNone, KErrAlreadyExists, KErrDiskFull, KErrDisconnected );
+//  ===========================================================================
+    #define T4L( aResult, aExpected1, aExpected2, aExpected3, aExpected4 )\
+        {\
+        TInt result = aResult;\
+        if( ( (result) != (aExpected1) && \
+              (result) != (aExpected2) && \
+              (result) != (aExpected3) && \
+              (result) != (aExpected4) ) )\
+            { TestModuleIf().StifMacroError(\
+                (4), (TText8*)__FILE__, __FUNCTION__, __LINE__, (result), \
+                (aExpected1), (aExpected2), (aExpected3), (aExpected4) );\
+            User::Leave( KErrArgument ); };\
+        };
+
+//  T5L =======================================================================
+//  Macro for verify integer value from the expected 1, 2, 3, 4 and 5 values.
+//  Example for use:
+//  T1L( Open(), KErrNone, KErrDied, KErrInUse, KErrDisconnected, KErrAbort );
+//  ===========================================================================
+    #define T5L( aResult, aExpected1, aExpected2, aExpected3, aExpected4, aExpected5 )\
+        {\
+        TInt result = aResult;\
+        if( ( (result) != (aExpected1) && \
+              (result) != (aExpected2) && \
+              (result) != (aExpected3) && \
+              (result) != (aExpected4) && \
+              (result) != (aExpected5) ) )\
+            { TestModuleIf().StifMacroError(\
+                (5), (TText8*)__FILE__, __FUNCTION__, __LINE__, (result), \
+                (aExpected1), (aExpected2), (aExpected3), (aExpected4), (aExpected5) );\
+            User::Leave( KErrArgument ); };\
+        };
+
+
+//  TAL ========================================================================
+//  Macro for verify boolean value. 
+//  Recommended use with TestScripter's test class. Allowed result can be defined
+//  with 'allownextresult' and 'allowerrorcodes' keywords.
+//  Example for use, 1: TL( Open() == KErrNone );
+//                   1: TL( VerifyString1() == VerifyString2() );
+//                   2: TL( 6 <= 8 );
+//  =============================================================================
+    #define TAL( aIsTrue )\
+        if( ( !(aIsTrue) ) && TestModuleIf().CheckAllowResult( 0 /* = EFalse*/ ) )\
+            { TestModuleIf().StifMacroError( (0), (TText8*)__FILE__, __FUNCTION__, __LINE__ );\
+            User::Leave( KErrArgument ); };
+
+//  TA1L =======================================================================
+//  Macro for verify integer value from the expected 1 value. 
+//  Recommended use with TestScripter's test class. Allowed result can be defined
+//  with 'allownextresult' and 'allowerrorcodes' keywords.
+//  Example: T1L( Open(), KErrNone );
+//  =============================================================================
+    #define TA1L( aResult, aExpected1 )\
+        {\
+        TInt result = aResult;\
+        if( ( (result) != (aExpected1) ) && \
+               TestModuleIf().CheckAllowResult( result ) ) \
+            { TestModuleIf().StifMacroError(\
+                (1), (TText8*)__FILE__, __FUNCTION__, __LINE__, (result), (aExpected1) );\
+            User::Leave( KErrArgument ); };\
+        };
+
+//  TA2L =======================================================================
+//  Macro for verify integer value from the expected 1 and 2 values.
+//  Recommended use with TestScripter's test class. Allowed result can be defined
+//  with 'allownextresult' and 'allowerrorcodes' keywords.
+//  Example for use: T1L( Open(), KErrNone, KErrAlreadyExists );
+//  =============================================================================
+    #define TA2L( aResult, aExpected1, aExpected2 )\
+        {\
+        TInt result = aResult;\
+        if( ( (result) != (aExpected1) && (result) != (aExpected2) ) && \
+               TestModuleIf().CheckAllowResult( result ) ) \
+            { TestModuleIf().StifMacroError(\
+                (2), (TText8*)__FILE__, __FUNCTION__, __LINE__, (result), (aExpected1), (aExpected2) );\
+            User::Leave( KErrArgument ); };\
+        };
+
+//  TA3L =======================================================================
+//  Macro for verify integer value from the expected 1, 2 and 3 values. 
+//  Recommended use with TestScripter's test class. Allowed result can be defined
+//  with 'allownextresult' and 'allowerrorcodes' keywords.
+//  Example for use: T1L( Open(), KErrNone, KErrAlreadyExists, KErrDiskFull );
+//  =============================================================================
+    #define TA3L( aResult, aExpected1, aExpected2, aExpected3 )\
+        {\
+        TInt result = aResult;\
+        if( ( (result) != (aExpected1) && (result) != (aExpected2) && (result) != (aExpected3) ) && \
+              TestModuleIf().CheckAllowResult( result ) )\
+            { TestModuleIf().StifMacroError(\
+                (3), (TText8*)__FILE__, __FUNCTION__, __LINE__, (result), (aExpected1), (aExpected2), (aExpected3) );\
+            User::Leave( KErrArgument ); };\
+        };
+
+//  TA4L =======================================================================
+//  Macro for verify integer value from the expected 1, 2, 3 and 4 values.
+//  Recommended use with TestScripter's test class. Allowed result can be defined
+//  with 'allownextresult' and 'allowerrorcodes' keywords.
+//  Example for use:
+//  T1L( Open(), KErrNone, KErrAlreadyExists, KErrDiskFull, KErrDisconnected );
+//  =============================================================================
+    #define TA4L( aResult, aExpected1, aExpected2, aExpected3, aExpected4 )\
+        {\
+        TInt result = aResult;\
+        if( ( (result) != (aExpected1) && \
+              (result) != (aExpected2) && \
+              (result) != (aExpected3) && \
+              (result) != (aExpected4) ) && \
+               TestModuleIf().CheckAllowResult( result ) ) \
+            { TestModuleIf().StifMacroError(\
+                (4), (TText8*)__FILE__, __FUNCTION__, __LINE__, (result), \
+                (aExpected1), (aExpected2), (aExpected3), (aExpected4) );\
+            User::Leave( KErrArgument ); };\
+        };
+
+//  TA5L =======================================================================
+//  Macro for verify integer value from the expected 1, 2, 3, 4 and 5 values.
+//  Recommended use with TestScripter's test class. Allowed result can be defined
+//  with 'allownextresult' and 'allowerrorcodes' keywords.
+//  Example for use:
+//  T1L( Open(), KErrNone, KErrDied, KErrInUse, KErrDisconnected, KErrAbort );
+//  =============================================================================
+    #define TA5L( aResult, aExpected1, aExpected2, aExpected3, aExpected4, aExpected5 )\
+        {\
+        TInt result = aResult;\
+        if( ( (result) != (aExpected1) && \
+              (result) != (aExpected2) && \
+              (result) != (aExpected3) && \
+              (result) != (aExpected4) && \
+              (result) != (aExpected5) ) && \
+               TestModuleIf().CheckAllowResult( result ) ) \
+            { TestModuleIf().StifMacroError(\
+                (5), (TText8*)__FILE__, __FUNCTION__, __LINE__, (result), \
+                (aExpected1), (aExpected2), (aExpected3), (aExpected4), (aExpected5) );\
+            User::Leave( KErrArgument ); };\
+        };
+
+
+// Workaround for ARM RVCT compiler error. This added because if some
+// environment do not include this definition.
+#if !defined (NONSHARABLE_CLASS)
+#define NONSHARABLE_CLASS(x) class x
+#endif
+
+// DATA TYPES
+// None
+
+// FUNCTION PROTOTYPES
+// None
+
+// FORWARD DECLARATIONS
+class CTestModuleBase;
+class TEventIf;
+class CTestThreadContainer;
+class MSTIFTestInterference;
+class CSTIFTestMeasurement;
+class CSTIFTestMeasurementImplementation;
+class CUiEnvProxy;
+
+// CLASS DECLARATION
+
+// DESCRIPTION
+// Base class for test case measurement . User can start measurement operations
+// via this class.
+NONSHARABLE_CLASS( CSTIFTestMeasurement )
+        :public CBase 
+    {
+    public: // Enumerations
+
+        /**
+        * Enumeration for different measurement types.
+        */
+        enum TSTIFMeasurementType
+            {
+            KStifMeasurementEnableAll,
+            KStifMeasurementPlugin01,
+            KStifMeasurementPlugin02,
+            KStifMeasurementPlugin03,
+            KStifMeasurementPlugin04,
+            KStifMeasurementPlugin05,
+            KStifMeasurementBappeaProfiler,
+            KStifMeasurementDisableAll,
+            };
+
+        /**
+        * Enumeration for different measurement operations.
+        */
+        enum TSTIFMeasurementOperation
+            {
+            KMeasurementNew,
+            KMeasurementStart,
+            KMeasurementStop,
+            };
+
+        /**
+        * Struct for measurement.
+        */
+        struct TStifMeasurementStruct
+            {
+            TSTIFMeasurementType        iMeasurementType;
+            TFileName                   iConfigurationInfo;
+            TSTIFMeasurementOperation   iMeasurementOperation;
+            TInt                        iOperationResult;
+            CTestModuleBase*            iPointerToMeasurementModule;
+            };
+
+    private: // Enumerations
+
+    public: // Constructors and destructor
+
+        /**
+        * Two-phased constructor. Intializes test measurement module.
+        */
+        IMPORT_C static CSTIFTestMeasurement* NewL( 
+                                            CTestModuleBase* aTestModuleBase,
+                                            TSTIFMeasurementType aType,
+                                            const TDesC& aConfigurationInfo );
+
+    public: // New functions
+
+        /**
+        * Start commant for test measurement module.
+        * Returns Symbian error code.
+        */
+        IMPORT_C TInt Start();
+
+        /**
+        * Stop command for test measurement module.
+        * Returns Symbian error code.
+        */
+        IMPORT_C TInt Stop();
+
+    public: // Functions from base classes
+
+        /**
+        * Destructor 
+        */
+        virtual ~CSTIFTestMeasurement();
+
+    protected: // New functions
+
+    protected: // Functions from base classes
+
+    private:
+
+        /**
+        * C++ default constructor.
+        */
+        CSTIFTestMeasurement( CTestModuleBase* aTestModuleBase );
+
+        /**
+        * By default Symbian OS constructor is private.
+        */
+        void ConstructL( TSTIFMeasurementType aType,
+                         const TDesC& aConfigurationInfo );
+
+    public: //Data
+
+    protected: // Data
+
+    private: // Data
+
+        // Pointer to STIF side
+        CTestModuleBase*        iTestModuleBase;
+
+        // Stuct that includes measurement related information
+        TStifMeasurementStruct  iMeasurementStruct;
+
+        // Indicates is measurement disable
+        TInt                    iMeasurementOption;
+
+    public: // Friend classes
+
+    protected: // Friend classes
+
+    private: // Friend classes
+        friend class CTestModuleBase;
+
+    };
+
+
+// CLASS DECLARATION
+
+// DESCRIPTION
+// TTestResult defines the test case result information.
+class TTestResult 
+    {
+    public:
+
+        /**
+        * Default constructor of TTestResult.
+        */
+        IMPORT_C TTestResult();
+
+        /**
+        * Sets result and result description of the test case.
+        */
+        IMPORT_C void SetResult( TInt aResultCode, const TDesC& aResultDes );
+
+    public:
+
+        // Test case result as Symbian OS error code.
+        TInt iResult;
+        // Descriptive test case result.
+        TResultDes iResultDes;
+    };
+
+// CLASS DECLARATION
+
+// DESCRIPTION
+// TTestCaseInfo defines the information for test case execution.
+class TTestCaseInfo
+    {
+    public:
+        // Default test case priority values
+        enum TPriority
+            {    
+            EPriorityLow = -100,
+            EPriorityNormal = 0,
+            EPriorityHigh = 100,
+            };
+
+    public:
+
+        /**
+        * Default constructor of TTestCaseInfo.
+        */
+        IMPORT_C TTestCaseInfo();
+
+    public:
+
+        // Test case number.
+        TInt iCaseNumber;
+        // Test case title.
+        TName iTitle;
+        // Test Case Timeout ( 0 == No timeout )
+        TTimeIntervalMicroSeconds iTimeout; 
+        // Test case priority
+        TInt iPriority;
+
+    };
+// Packaged TTestCaseInfo
+typedef TPckg<TTestCaseInfo> TTestCaseInfoPckg;
+
+// CLASS DECLARATION
+
+// DESCRIPTION
+// CTestModuleIf provides interface for Test Module to perform 
+// printing to user interface and to control event system.
+class CTestModuleIf
+        :public CBase 
+    {
+    public: // Enumerations
+
+        // Possible test case exit reasons.
+        enum TExitReason
+            {    
+            // Case will exit normally AND return test case result.
+            ENormal,          
+            // Case is expected to panic.
+            EPanic,           
+            // Case will end to exception.
+            EException,
+            };
+
+        enum TRebootType
+            {
+            EDefaultReset = 0,  // Do not change the value
+            EKernelReset,
+
+            EDeviceReset0 = 100,
+            EDeviceReset1,
+            EDeviceReset2,
+            EDeviceReset3,
+            EDeviceReset4,
+            EDeviceReset5
+            };
+
+        enum TTestBehavior
+            {
+            ETestLeaksMem       = 0x00000001,
+            ETestLeaksRequests  = 0x00000002,
+            ETestLeaksHandles   = 0x00000004,
+            EOOMDisableLeakChecks = 0x00000008,
+            };
+
+    private: // Enumerations
+
+    public: // Constructors and destructor
+
+        /**
+        * Two-phased constructor.
+        */
+        IMPORT_C static CTestModuleIf* NewL( CTestThreadContainer* aExecutionSession, 
+                                             CTestModuleBase* aTestModule );
+
+    public: // New functions
+
+        /**
+        * Printf is used to provide different information up to the UI 
+        * that can be then printed e.g. to the Console Screen. 
+        * The definition of data to be printed is copied to aDefinition. 
+        * The aPriority tells how important information is returned. 
+        * The priority can be used in the UI to decide if the information 
+        * received from the Test Module will be discarded or not in 
+        * the different performance situations. The priority is also 
+        * used in the Test Module server and in the Test Engine to queue 
+        * the Printf responses.
+        * This method is implemented in Test Module Server and the Test Module 
+        * can call it to provide printable information to the UI.
+        */
+        IMPORT_C void Printf( const TInt aPriority, 
+                              const TDesC& aDefinition, 
+                              TRefByValue<const TDesC> aFmt,... );
+
+        /**
+        * Event function is used to control and use the event system. 
+        * TEvent &aEvent encapsulates the request type and 
+        * the event name, see StifTestEventInterface.h for more information.
+        * This method is implemented in Test Module Server and the Test Module 
+        * can call it to control the event system.
+        */
+        IMPORT_C TInt Event( TEventIf& aEvent );
+
+        /**
+        * Asynchronous overload function for the previous. Only one 
+        * asynchronous Event call can be active concurrently. Second 
+        * concurrent call will block until first one is completed.
+        */
+        IMPORT_C void Event( TEventIf& aEvent, TRequestStatus& aStatus );
+
+        /**
+        * Cancel asynchronous event command. 
+        */
+        IMPORT_C TInt CancelEvent( TEventIf& aEvent,
+                                   TRequestStatus* aStatus );
+
+        /**
+        * SetExitReason function is used to set different crash reasons to
+        * acceptable test case result. 
+        * Only one exit reason can be set at time. When function is called
+        * again, previous exit reason is removed and new one is set to
+        * acceptable exit reason.
+        *
+        * Function is typically used to accept test case panics as "passed"
+        * test cases.
+        * 
+        * Test case that panics or gets exception is set to passed 
+        * if aExitReason parameter matches with exit reason and 
+        * aExitCode matches with panic code or exception type.
+        */
+        IMPORT_C void SetExitReason( const CTestModuleIf::TExitReason aExitReason, 
+                                     const TInt aExitCode );
+
+
+        /**
+        * RemoteSend function is used send remote control protocol messages.
+        */
+        IMPORT_C TInt RemoteSend( const TDesC& aRemoteMsg );
+
+        /**
+        * RemoteReceive function is used receive remote 
+        * control protocol messages.
+        */
+        IMPORT_C void RemoteReceive( TDes& aRemoteMsg, 
+                                     TRequestStatus& aStatus );
+
+        /**
+        * RemoteReceiveCancel function is used cancel 
+        * pending RemoteReceive.
+        */
+        IMPORT_C void RemoteReceiveCancel();
+
+        /**
+        * Reboot device, StoreState MUST have been called.
+        */
+        IMPORT_C TInt Reboot( TInt aType = EDefaultReset );
+
+        /**
+        * Store state before reboot. MUST be called before calling Reboot().
+        */
+        IMPORT_C TInt StoreState( TInt aCode, TName& aName );
+
+        /**
+        * Get state after reboot (stored with StoreState).
+        */
+        IMPORT_C TInt GetStoredState( TInt& aCode, TName& aName );
+
+        /**
+        * Set test case behavior, e.g. allow memory leak, handle leak etc.
+        */
+        IMPORT_C TInt SetBehavior( TTestBehavior aType, TAny* aPtr=NULL );
+
+        /**
+        * This can be called from test module but it is recommended to use
+        * TL, T1L, T2L or T3L macro instead of this method.
+        * For more information see macro definitions above on this file.
+        */ 
+        IMPORT_C TInt StifMacroError( TInt aMacroType,
+                                      const TText8* aFile,
+                                      const char* aFunction,
+                                      TInt aLine,
+                                      TInt aResult = 0,
+                                      TInt aExpected1 = 0,
+                                      TInt aExpected2 = 0,
+                                      TInt aExpected3 = 0,
+                                      TInt aExpected4 = 0,
+                                      TInt aExpected5 = 0 );
+
+        /**
+        * Add thread handle to Array. Via array can handle test interference
+        * thread's kill in panic etc. cases
+        */ 
+        TInt AddInterferenceThread( RThread aSTIFTestInterference );
+
+        /**
+        * Remove thread handle from Array.Test interference thread is stopped
+        * and killed successfully
+        */ 
+        TInt RemoveInterferenceThread( RThread aSTIFTestInterference );
+
+        /**
+        * With this can be stored information about test measurement
+        * to TestServer space.
+        */ 
+        TInt HandleMeasurementProcess( CSTIFTestMeasurement::TStifMeasurementStruct aSTIFMeasurementInfo );
+
+        /**
+        * Get measurement option(s) given from initialization file etc.
+        */
+        IMPORT_C TInt GetMeasurementOptions( TInt& aOptions );
+
+        /**
+        * Use with TAL, TA1L, TA2L, TA3L, TA4L and TA5L macros to allow
+        * results.
+        * Set test case allow result given by user. In TestScripter cases allow
+        * result can set by 'allownextresult' or 'allowerrorcodes' keywords. In
+        * Normal and Hardcoded test modules allow result can be set with this
+        * method, reset should be done with ResetAllowResult method.
+        */
+        IMPORT_C TInt SetAllowResult( TInt aResult );
+
+        /**
+        * This is mainly used by STIF's TAL-TA5L macros internally.
+        * Check is macros result allowed result.
+        */
+        IMPORT_C TInt CheckAllowResult( TInt aResult );
+
+        /**
+        * Use with TAL, TA1L, TA2L, TA3L, TA4L and TA5L macros to reset allowed
+        * results.
+        * Reset allow result(s) given with SetAllowResult. In TestScripter
+        * cases this will be called automatically by STIF. Normal and Hardcoded
+        * cases this should be called by user.
+        */
+        IMPORT_C TInt ResetAllowResult();
+
+        /**
+        * StopExecution function is used to stop the execution of test case.
+        */
+        IMPORT_C TInt StopExecution(TStopExecutionType aType, TInt aCode = KErrNone);
+
+        /**
+         * SendTestModuleVersion method is used to pass version of test module
+         * to test engine
+         */
+        IMPORT_C TInt SendTestModuleVersion(TVersion aVersion, TFileName aModuleName);
+        
+        /**
+         * SendTestModuleVersion method is used to pass version of test module
+         * to test engine. This version with 3 parameters were added because version with
+         * 2 parameters has arguments passed by value which is incorrect. So the third argument
+         * was added only to overload the method and enable test modules using "old" version
+         * (with 2 parameters) to work. Only this version (with three parameters) should be used.
+         */
+        IMPORT_C TInt SendTestModuleVersion(TVersion& aVersion, const TDesC& aModuleName, TBool aNewVersion);
+
+        /**
+        * Command function is used to send command to test engine.
+        * It was created to provide possibility to kill test case by itself.
+        */
+        TInt Command(TCommand aCommand, const TDesC8& aParamsPckg);
+
+        /**
+         * Get test case execution arguments
+         */
+        IMPORT_C const TDesC& GetTestCaseArguments() const;        
+
+        /**
+        * GetTestCaseTitleL function is used to obtain test case title.
+        */
+        IMPORT_C void GetTestCaseTitleL(TDes& aTestCaseTitle);
+
+        /**
+        * Checks if testserver supports UI testing
+        */
+		IMPORT_C TBool UITesting();
+
+        /**
+        * Gets UIEnvProxy
+        */
+		IMPORT_C CUiEnvProxy* GetUiEnvProxy();
+
+    public: // Functions from base classes
+
+    protected: // New functions
+
+    protected: // Functions from base classes
+
+    private:
+
+        /**
+        * C++ default constructor.
+        */
+        CTestModuleIf( CTestThreadContainer* aTestExecution );
+
+        /**
+        * By default Symbian OS constructor is private.
+        */
+        void ConstructL( CTestModuleBase* aTestModule );
+
+        /**
+        * Destructor is also private. 
+        * ONLY friend CTestModuleBase can delete CTestModuleIf.
+        */
+        ~CTestModuleIf();
+
+        /**
+        * Check that server is alive.
+        */ 
+        TBool IsServerAlive();
+
+    public: //Data
+
+    protected: // Data
+
+    private: // Data
+        CTestThreadContainer* iTestExecution;
+
+        // Indicates is reboot operation ready to start.
+        TBool iIsRebootReady;
+
+        // Indicated StoreState() method's call times.
+        TInt iStoreStateCounter;
+
+        // Test case allowed results. Array is a static one for avoid dynamic
+        // allocations.
+        TInt iTestCaseResults[KSTIFMacroResultArraySize]; 
+        // Test case allowed results count. This is used with
+        // iTestCaseResults array.
+        TInt iAllowTestCaseResultsCount; 
+
+    public: // Friend classes
+
+    protected: // Friend classes
+
+    private: // Friend classes
+        friend class CTestModuleBase;
+
+    };
+
+
+// CLASS DECLARATION
+
+// DESCRIPTION
+// Base class for test module parameters. According to parameters may
+// configure test module. e.g. heap and stack configuring.
+class CTestModuleParam : public CBase 
+    {
+
+    public: // Enumerations
+
+        /**
+        * Evolution version for test module parameters.
+        **/
+        enum TParameterVersio
+            {
+            EVersio1 = 1, // For heap and stack configuring.
+            EVersio2 = 2, // For future needs.
+            EVersio3 = 3, // For future needs.
+            EVersio4 = 4, // For future needs.
+            EVersio5 = 5, // For future needs.
+
+            };
+
+    private: // Enumerations
+
+    public: // Constructors and destructor
+
+        /**
+        * Two-phased constructor.
+        */
+        //IMPORT_C static CTestModuleParam* NewL();
+
+        /**
+        *
+        */
+        //IMPORT_C ~CTestModuleParam();
+
+    public: // New functions
+
+        /**
+        * 
+        */
+        virtual TInt Version() = 0;
+
+    public: // Functions from base classes
+
+    protected: // New functions
+
+    protected: // Functions from base classes
+
+    private:
+
+        /**
+        * C++ default constructor.
+        */
+        //CTestModuleParam();
+
+        /**
+        * By default Symbian OS constructor is private.
+        */
+        //void ConstructL();
+
+    public: //Data
+
+    protected: // Data
+
+    private: // Data
+
+    public: // Friend classes
+
+    protected: // Friend classes
+
+    private: // Friend classes
+
+    };
+
+// CLASS DECLARATION
+
+// DESCRIPTION
+// CTestModuleParamVer01 implements evolution version 1 for test module's 
+// heap and stack configuring.
+class CTestModuleParamVer01 : public CTestModuleParam
+    {
+    public: // Enumerations
+
+    private: // Enumerations
+
+    public: // Constructors and destructor
+
+        /**
+        * Two-phased constructor.
+        */
+        IMPORT_C static CTestModuleParamVer01* NewL();
+        //IMPORT_C CTestModuleParamVer01* NewL();
+
+        /**
+        * C++ default constructor.
+        */
+        CTestModuleParamVer01();
+
+        /**
+        * Destructor.
+        */
+        IMPORT_C ~CTestModuleParamVer01(); 
+
+    private: // Constructors and destructor
+
+        /**
+        * By default Symbian OS constructor is private.
+        */
+        void ConstructL();
+
+    public: // New functions
+
+        /**
+        *
+        */
+        inline TInt Version() { return iVersio; };
+
+    public: // Functions from base classes
+        
+    protected: // New functions
+
+    protected: // Functions from base classes
+
+    private:
+
+    public: // Data
+
+        /**
+        * Test thread stack size defined by user.
+        **/
+        TInt iTestThreadStackSize;
+
+        /**
+        * Test thread heap minimum size defined by user.
+        **/
+        TInt iTestThreadMinHeap;
+
+        /**
+        * Test thread heap maximum size defined by user.
+        **/
+        TInt iTestThreadMaxHeap;
+
+    protected: // Data
+
+    private: // Data
+
+        /**
+        *
+        **/
+        TInt iVersio;
+
+    public: // Friend classes
+
+    protected: // Friend classes
+
+    private: // Friend classes
+
+    };
+
+// CLASS DECLARATION
+
+// DESCRIPTION
+// Test Module inherits the CTestModuleBase class that is used to provide 
+// simple interface between Test Engine and Test Module. CTestModuleBase 
+// consists of pure virtual methods that the Test Module shall implement 
+// and virtual methods that the Test Module should implement.
+class CTestModuleBase
+        :public CBase
+    {
+    public: // Enumerations
+    
+        // For OOM execution
+        enum TOOMFailureType 
+            {    
+            EFailNext
+            };
+    private: // Enumerations
+
+    public: // Version query.
+
+        /**
+        * Returns the API version which this test module complies.
+        * Test Framework uses this function to verify that loaded module
+        * can be used in current framework release.
+        *
+        * Note that this function must always be the very first function
+        * that is defined in CTestModuleBase.
+        */
+        virtual inline TVersion Version()
+                                 { return TVersion ( KTestModuleAPIMajor,
+                                                     KTestModuleAPIMinor,
+                                                     KTestModuleAPIBuild); }
+
+    public: // Constructors and destructor
+
+        /**
+        * C++ default constructor.
+        */
+        CTestModuleBase(): iTestModuleIf(0) {};
+
+        /**
+        * Destructor.
+        */
+        virtual ~CTestModuleBase(){ delete iTestModuleIf; }; 
+
+    public: // New functions
+
+        /**
+        * InitL is used to initialize the Test Module. The 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.
+        * This method is virtual and it is not mandatory to implement it 
+        * to Test Module.
+        */
+        virtual TInt InitL( TFileName& /* aIniFile */,
+                           TBool /* aFirstTime */ )
+            { return KErrNone; };
+
+        /**
+        * Test cases are inquired from the Test Module by calling 
+        * GetTestCasesL. Test cases may be read from the testcase file 
+        * specified by aTestCaseFile or they can be e.g. hardcoded to testmodule. 
+        * If the Test Module does not use testcase files for test case 
+        * definition it does not use aTestCaseFile parameter. Test cases are 
+        * appended to RPointerArray<TTestCaseInfo> that is a list 
+        * consisting of several TTestCaseInfo objects.
+        * The STIF Test Framework will be the owner of the objects stored to 
+        * RPointerArray after the GetTestCasesL has appended them to the list
+        * and it does the memory deallocation.
+        * This method is pure virtual and the Test Module must implement it.
+        */
+        virtual TInt GetTestCasesL( const TFileName& aTestCaseFile, 
+            RPointerArray<TTestCaseInfo>& aTestCases ) = 0;
+
+        /**
+        * RunTestCaseL is used to run an individual test case specified 
+        * by aCaseNumber and aTestCaseFile (optional). 
+        * This method is synchronous and test case result is returned as 
+        * reference parameter aResult value. 
+        * The function shall return KErrNone if case is started succesfully.
+        * If test case is not available (i.e invalid testcase file or
+        * or case number), then function shall return KErrNotFound. In other 
+        * error situations another Symbian error code is returned.                
+        * This method is pure virtual and the Test Module must implement it. 
+        */
+        virtual TInt RunTestCaseL( const TInt aCaseNumber, 
+                                  const TFileName& aTestCaseFile,
+                                  TTestResult& aResult ) = 0;
+
+        /**
+        * TestModuleIf returns the handle to the CTestModuleIf interface. 
+        * This is an utility function that can be used if the upper layer 
+        * interface is needed to be used.
+        * This method must not be called from the constructor of Test Module 
+        * that derives the CTestModuleBase.
+        */
+        inline CTestModuleIf& TestModuleIf(){ return *iTestModuleIf; };
+
+        /**
+        * Used to perform the test environment setup for a particular OOM test 
+        * case. The 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.
+        *
+        * This method is virtual and will be implemented if test case is to be
+        * executed using OOM conditions.
+        */
+        virtual void OOMTestInitializeL( const TFileName& /* aTestCaseFile */, 
+                                         const TInt /* aCaseNumber */ ) {};
+
+        /**
+        * Used to perform the test environment cleanup for a particular OOM 
+        * test case.
+        *         
+        * This method is virtual and will be implemented if test case is to be
+        * executed using OOM conditions.
+        */
+        virtual void OOMTestFinalizeL( const TFileName& /* aTestCaseFile */, 
+                                       const TInt /* aCaseNumber */ ) {};
+
+        /**
+        * Used to check if a particular Test Case should be run in OOM 
+        * conditions and which memory allocations should fail.
+        * Method returns ETrue if test is should run in OOM conditions, EFalse 
+        * otherwise. 
+        *
+        * This method is virtual and will be implemented if test case is to be
+        * executed using OOM conditions.
+        */
+        virtual TBool OOMTestQueryL( const TFileName& /* aTestCaseFile */, 
+                                     const TInt /* aCaseNumber */, 
+                                     TOOMFailureType& aFailureType, 
+                                     TInt& /* aFirstMemFailure */, 
+                                     TInt& /* aLastMemFailure */ ) 
+            { 
+            aFailureType = EFailNext;
+            return EFalse; 
+            };
+
+        /**
+        * Used in OOM testing only. Provides a way to the derived TestModule to
+        * handle warnings related to non-leaving or TRAPped allocations.
+        * 
+        * In some cases the 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.
+        *
+        * This method is virtual and will be implemented if test case is to be
+        * executed using OOM conditions.
+        */
+        virtual void OOMHandleWarningL( const TFileName& /* aTestCaseFile */,
+                                        const TInt /* aCaseNumber */, 
+                                        TInt& /* aFailNextValue */) {};
+
+    public: // Functions from base classes
+
+    protected: // New functions
+
+    protected: // Functions from base classes
+
+    private:
+
+    public: // Data
+
+    protected: // Data
+
+    private: // Data
+        CTestModuleIf* iTestModuleIf;
+
+    public: // Friend classes
+
+    protected: // Friend classes
+
+    private: // Friend classes
+        friend class CTestModuleIf;
+        friend class CTestModuleParam;
+        friend class MSTIFTestInterference;
+        friend class CSTIFInterferenceThread;
+        friend class CSTIFTestMeasurement;
+
+    };
+
+#endif      // TESTMODULE_H  
+
+// End of File