// 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 "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:
//
/**
@file
@internalComponent
*/
#include "WapFullySpecCLPushSteps.h"
#include "WapStackSuiteDefs.h"
#include <simtsy.h>
#include <wapmsgerr.h>
#include <ecom/ecom.h>
CFullySpecCLPushBase::CFullySpecCLPushBase()
/**
* Constructor
*/
{
}
CFullySpecCLPushBase::~CFullySpecCLPushBase()
/**
* Destructor
*/
{
if(iImp)
{
UnloadInterface();
}
}
CWapFullySpecCLPushService* CFullySpecCLPushBase::LoadInterface()
{
TInt trapValue;
CWapFullySpecCLPushService* implementation = NULL;
// UID {0x101FBB3A} - SWS implementation
TUid KInterfaceUid = {0x101FBB3A};
INFO_PRINTF2(_L("Calling new NewL(0x%08X) method"), KInterfaceUid);
TRAP(trapValue, implementation = CWapFullySpecCLPushService::NewL(KInterfaceUid));
if(!trapValue)
{
INFO_PRINTF2(_L("Interface is loaded: implementation.addr = 0x%08x"), implementation);
return implementation;
}
else return NULL;
}
void CFullySpecCLPushBase::UnloadInterface()
{
INFO_PRINTF2(_L("Interface at implementation.addr = 0x%08x is deleted"), iImp);
delete iImp;
iImp = NULL;
REComSession::FinalClose();
}
CFullySpecCLPushStep_1::CFullySpecCLPushStep_1()
/**
* Constructor
*/
{
}
CFullySpecCLPushStep_1::~CFullySpecCLPushStep_1()
/**
* Destructor
*/
{
}
TVerdict CFullySpecCLPushStep_1::doTestStepL()
/**
* @return - TVerdict code
* Override of base class pure virtual
* Our implementation only gets called if the base class doTestStepPreambleL() did
* not leave. That being the case, the current test result value will be EPass.
*/
{
//
// CWapFullySpecCLPushService
//
INFO_PRINTF1(_L("CreateImplementation - CWapFullySpecCLPushService"));
INFO_PRINTF1(_L("Calling old NewL() method"));
TInt trapValue;
SetTestStepResult(EFail);
TRAP(trapValue, iImp = CWapFullySpecCLPushService::NewL());
if(!trapValue)
{
// interface is loaded
INFO_PRINTF2(_L("Interface is loaded: implementation.addr = 0x%08x"), iImp);
UnloadInterface();
iImp = LoadInterface();
if(iImp)
{
INFO_PRINTF1(_L("CreateImplementation - OK"));
SetTestStepResult(EPass);
UnloadInterface();
}
}
return TestStepResult();
}
CFullySpecCLPushStep_2::CFullySpecCLPushStep_2()
/**
* Constructor
*/
{
}
CFullySpecCLPushStep_2::~CFullySpecCLPushStep_2()
/**
* Destructor
*/
{
}
TVerdict CFullySpecCLPushStep_2::doTestStepL()
/**
* Test Connect methoths
* @return - TVerdict code
*
*/
{
INFO_PRINTF1(_L("FULLYSPEC-PUSH: Testing Connect"));
if(TestStepResult() == EPass )
{
SetTestStepResult(EFail);
iImp = LoadInterface();
if(iImp)
{
TInt bearer;
TInt error = KErrNone;
TBool secure= EFalse;
TBool reconnect = EFalse;
SetLastError(KErrNone);
if(GetIntFromConfig(ConfigSection(),KWapBearer, bearer)) iBearer = (Wap::TBearer)bearer;
if(GetIntFromConfig(ConfigSection(), KWapExError, error)) SetExpectedError(error);
if(GetBoolFromConfig(ConfigSection(), KWapSecure, secure)) iSecure = secure;
if(GetBoolFromConfig(ConfigSection(),_L("Reconnect"), reconnect)) iReconnect = reconnect;
if(UseSimTsy())
{
GetIntFromConfig(ConfigSection(), KWapSIMTSYState, iSimTsyState);
User::LeaveIfError(RProperty::Set(KUidPSSimTsyCategory, KPSSimTsyTestNumber, iSimTsyState));
}
User::LeaveIfError(RProperty::Set(KUidSystemCategory, KUidPhonePwr.iUid, ESAPhoneOn));
SetState(EConnect);
iControl->ReStart();
ShowConnectionInfo();
StartScheduler();
UnloadInterface();
}
}
return TestStepResult();
}
TInt CFullySpecCLPushStep_2::CallStateMachine()
{
TInt err = KErrNone;
INFO_PRINTF2(_L("CallStateMachine: step [%d]"), State());
switch(iState)
{
case EConnect:
INFO_PRINTF1(_L("EConnect"));
err = iImp->Connect(iRemoteHost, iRemotePort, iBearer, iSecure);
INFO_PRINTF2(_L("Connection completed with code = %d"), err);
if( err == KErrNone)
{
if(iReconnect)
{
INFO_PRINTF1(_L("Reconnection"));
iControl->ReStart();
break;
}
}
SetState(EFinish);
SetLastError(err);
iControl->ReStart();
break;
case EFinish:
INFO_PRINTF1(_L("EFinish"));
if(GetLastError() == GetExpectedError()) SetTestStepResult(EPass);
else SetTestStepResult(EFail);
SetState(EIdle);
StopScheduler();
break;
case EIdle:
default:
INFO_PRINTF2(_L("Error: EIdle or unknown state %d"), State());
SetTestStepResult(EFail);
StopScheduler();
break;
}
return (0);
}
CFullySpecCLPushStep_3::CFullySpecCLPushStep_3()
/**
* Constructor
*/
{
}
CFullySpecCLPushStep_3::~CFullySpecCLPushStep_3()
/**
* Destructor
*/
{
}
TVerdict CFullySpecCLPushStep_3::doTestStepL()
/**
* Test Connect methoths
* @return - TVerdict code
*
*/
{
INFO_PRINTF1(_L("FullySpecWSPPush. Requests without connection"));
// check preamble result
TVerdict verdict = TestStepResult();
if (verdict==EPass)
{
TInt err, ret;
iImp = LoadInterface();
if (!iImp)
{
ERR_PRINTF1(_L("Unable to load FullySpecWSPPush Interface"));
verdict = EFail;
}
else
{
GetIntFromConfig(ConfigSection(),KWapExError,(TInt&)iExError);
ShowConnectionInfo();
TRequestStatus reqStatus;
iImp->AwaitPush(iRecvHeadersBuf, iRecvBodyBuf, iTransactionIdPckg, reqStatus);
TRAP(ret, TEST_CHECKL(reqStatus.Int(), iExError, _L("AwaitPush Fails not as expected")))
if (ret)
verdict = EFail;
else
{
Wap::TPort port;
err=iImp->GetLocalPort(port);
TRAP(ret, TEST_CHECKL(err, iExError, _L("GetLocalPort Fails not as expected")))
if (ret)
verdict = EFail;
else
{
HBufC8* localHost;
err=iImp->GetLocalAddress(localHost);
TRAP(ret, TEST_CHECKL(err, iExError, _L("GetLocalAddress Fails not as expected")))
if (ret)
verdict = EFail;
}
}
UnloadInterface();
}
}
if (verdict==EPass)
{
INFO_PRINTF1(_L("FullySpecCLPush. Requests Fail as expected"));
}
SetTestStepResult(verdict);
return TestStepResult();
}
TInt CFullySpecCLPushStep_3::CallStateMachine()
{
return (0);
}
CFullySpecCLPushStep_4::CFullySpecCLPushStep_4()
/**
* Constructor
*/
{
}
CFullySpecCLPushStep_4::~CFullySpecCLPushStep_4()
/**
* Destructor
*/
{
}
TVerdict CFullySpecCLPushStep_4::doTestStepL()
/**
* Test Connect methoths
* @return - TVerdict code
*
*/
{
INFO_PRINTF1(_L("FULLYSPEC-CLPUSH: Connect-AwaitPush"));
if(TestStepResult() == EPass )
{
SetTestStepResult(EFail);
iImp = LoadInterface();
if(iImp)
{
SetLastError(KErrNone);
TInt bearer, port;
TInt error = KErrNone;
TPtrC16 remote_host;
if(GetIntFromConfig(ConfigSection(),KWapBearer, bearer))
{
iBearer = static_cast<Wap::TBearer>(bearer);
}
if(GetStringFromConfig(ConfigSection(), KWapRemoteHost, remote_host))
{
iRemoteHost.Copy(remote_host);
}
if(GetIntFromConfig(ConfigSection(),KWapLocalPort, port))
{
iLocalPort = static_cast<Wap::TPort>(port);
}
if(GetIntFromConfig(ConfigSection(),KWapRemotePort, port))
{
iRemotePort = static_cast<Wap::TPort>(port);
}
if(GetIntFromConfig(ConfigSection(),KWapExError, error))
{
SetExpectedError(error);
}
GetBoolFromConfig(ConfigSection(), KMiddleCancel, iMiddleCancel);
GetBoolFromConfig(ConfigSection(), KMultiReadCancel, iMultiReadCancel);
TInt headerLength, bufLength;
if(GetIntFromConfig(ConfigSection(),KWapWSPRecvHeaderLength, headerLength))
{
iHeaderRecvBufLength=static_cast<TUint16>(headerLength);
}
if(GetIntFromConfig(ConfigSection(),KWapWSPRecvBodyLength, bufLength))
{
iBodyRecvBufLength=static_cast<TUint16>(bufLength);
}
iRecvHeaders = HBufC8::NewL(iHeaderRecvBufLength);
iRecvBody = HBufC8::NewL(iBodyRecvBufLength);
User::LeaveIfError(RProperty::Set(KUidSystemCategory, KUidPhonePwr.iUid, ESAPhoneOn));
if(UseSimTsy())
{
GetIntFromConfig(ConfigSection(), KWapSIMTSYState, iSimTsyState);
User::LeaveIfError(RProperty::Set(KUidPSSimTsyCategory, KPSSimTsyTestNumber, iSimTsyState));
}
SetState(EConnect);
iControl->ReStart();
ShowConnectionInfo();
// Start state machine
StartScheduler();
delete iRecvBody;
iRecvBody=NULL;
delete iRecvHeaders;
iRecvHeaders=NULL;
UnloadInterface();
}
}
return TestStepResult();
}
TInt CFullySpecCLPushStep_4::CallStateMachine()
{
TVerdict verdict = EFail;
TInt err = KErrNone;
TInt activate = 0;
INFO_PRINTF2(_L("CallStateMachine: state [%d]"), State());
switch(iState)
{
case EConnect:
INFO_PRINTF1(_L("EConnect"));
err = iImp->Connect(iRemoteHost, iRemotePort, iBearer, EFalse);
INFO_PRINTF2(_L("Connection completed with code = %d"), err);
if( err == KErrNone)
{
TRAP(err, WaitForInitializeL());
iRecvHeadersBuf.Set(iRecvHeaders->Des());
iRecvBodyBuf.Set(iRecvBody->Des());
iImp->AwaitPush(iRecvHeadersBuf, iRecvBodyBuf, iTransactionIdPckg, *iStatus);
INFO_PRINTF1(_L("Start AwaitingPush....."));
activate = 1;
if (!iMiddleCancel)
{
SetState(EAwaitPush);
}
else
{
INFO_PRINTF1(_L("Cancel AwaitPush"));
iImp->CancelAwaitPush();
SetState(EFinish);
}
}
else
{
SetState(EFinish);
iControl->ReStart();
}
SetLastError(err);
break;
case EAwaitPush:
INFO_PRINTF1(_L("EAwaitPush"));
if(iStatus->Int() != KErrNone && iStatus->Int()!=Wap::EMoreData)
// AwaitPush failed
{
INFO_PRINTF1(_L("AwaitPush failed"));
SetLastError(iStatus->Int());
SetState(EFinish);
iControl->ReStart();
}
else
{
iMaxWspHeaderRecvBuffer.Append(iRecvHeadersBuf);
iMaxWspDataRecvBuffer.Append(iRecvBodyBuf);
if (iStatus->Int()==Wap::EMoreData)
{
iImp->AwaitPush(iRecvHeadersBuf, iRecvBodyBuf, iTransactionIdPckg, *iStatus);
activate = 1;
if (!iMultiReadCancel)
{
SetState(EAwaitPush);
}
else
{
INFO_PRINTF1(_L("Cancel Receive in EMutipleReceive state"));
iImp->CancelAwaitPush();
SetState(EFinish);
}
}
else
{
SetLastError(iStatus->Int());
iControl->ReStart();
SetState(EFinish);
}
}
break;
case EFinish:
INFO_PRINTF1(_L("EFinish"));
if(iStatus->Int() != KErrNone)
{
SetLastError(iStatus->Int());
}
verdict = (GetLastError() == GetExpectedError())?EPass:EFail;
if (verdict==EPass && !iMiddleCancel && !iMultiReadCancel)
{
iImp->CancelAwaitPush();
INFO_PRINTF1(_L("Headers"));
DumpBuf(iMaxWspHeaderRecvBuffer);
INFO_PRINTF1(_L("Body"));
DumpBuf(iMaxWspDataRecvBuffer);
if (verdict==EPass)
{
Wap::TPort port;
iImp->GetLocalPort(port);
verdict = (port == iLocalPort)?EPass:EFail;
}
if (verdict==EPass)
{
//This test can not perform.
HBufC8* buf;
iImp->GetLocalAddress(buf);
delete buf;
}
}
SetTestStepResult(verdict);
SetState(EIdle);
StopScheduler();
break;
case EIdle:
default:
INFO_PRINTF2(_L("Error: EIdle or unknown state %d"), State());
SetTestStepResult(verdict);
StopScheduler();
break;
}
return (activate);
}
CFullySpecCLPushStep_5::CFullySpecCLPushStep_5()
/**
* Constructor
*/
{
}
CFullySpecCLPushStep_5::~CFullySpecCLPushStep_5()
/**
* Destructor
*/
{
}
TVerdict CFullySpecCLPushStep_5::doTestStepL()
/**
* Test Cancel await push
* @return - TVerdict code
*
*/
{
INFO_PRINTF1(_L("FullySpecified-PUSH: Testing Cancel"));
if(TestStepResult() == EPass )
{
SetTestStepResult(EFail);
iImp = LoadInterface();
if(iImp)
{
TInt bearer;
TInt error = KErrNone;
TBool secure= EFalse;
TBool reconnect = EFalse;
SetLastError(KErrNone);
if(GetIntFromConfig(ConfigSection(),KWapBearer, bearer)) iBearer = (Wap::TBearer)bearer;
if(GetIntFromConfig(ConfigSection(), KWapExError, error)) SetExpectedError(error);
if(GetBoolFromConfig(ConfigSection(), KWapSecure, secure)) iSecure = secure;
if(GetBoolFromConfig(ConfigSection(),_L("Reconnect"), reconnect)) iReconnect = reconnect;
ShowConnectionInfo();
error = iImp->Connect(iRemoteHost, iRemotePort, iBearer, iSecure);
INFO_PRINTF2(_L("Connection completed with code = %d"), error);
if( error == KErrNone)
{
TBuf8<100> header, body;
TPckgBuf<TUint8> pushIdPckg;
TRequestStatus reqStatus;
iImp->AwaitPush(header, body, pushIdPckg, reqStatus);
SetState(EAwaitPush);
StartScheduler();
iControl->ReStart();
if(reqStatus==KErrCancel)
{
SetTestStepResult(EPass);
}
}
}
}
return TestStepResult();
}
TInt CFullySpecCLPushStep_5::CallStateMachine()
{
INFO_PRINTF2(_L("CallStateMachine: state [%d]"), State());
switch(iState)
{
case EAwaitPush:
INFO_PRINTF1(_L("EAwaitPush"));
iImp->CancelAwaitPush();
SetState(EFinish);
iControl->ReStart();
break;
case EFinish:
INFO_PRINTF1(_L("EFinish"));
SetState(EIdle);
StopScheduler();
break;
case EIdle:
default:
INFO_PRINTF2(_L("Error: EIdle or unknown state %d"), State());
SetTestStepResult(EFail);
StopScheduler();
break;
}
return (0);
}
CFullySpecCLPushStep_6::CFullySpecCLPushStep_6()
{
}
CFullySpecCLPushStep_6::~CFullySpecCLPushStep_6()
{
}
TVerdict CFullySpecCLPushStep_6::doTestStepL()
{
//Not in use
return TestStepResult();
}
TInt CFullySpecCLPushStep_6::CallStateMachine()
{
return (0);
}
CFullySpecCLPushStep_7::CFullySpecCLPushStep_7()
{
}
CFullySpecCLPushStep_7::~CFullySpecCLPushStep_7()
{
}
TVerdict CFullySpecCLPushStep_7::doTestStepL()
{
INFO_PRINTF1(_L("FULLYSPEC-CLPUSH: Connect-AwaitPush-AwaitPush"));
if(TestStepResult() == EPass )
{
SetTestStepResult(EFail);
iImp = LoadInterface();
if(iImp)
{
SetLastError(KErrNone);
TInt bearer;
TInt error = KErrNone;
if(GetIntFromConfig(ConfigSection(),KWapBearer, bearer))
{
iBearer = static_cast<Wap::TBearer>(bearer);
}
if(GetIntFromConfig(ConfigSection(),KWapExError, error))
{
SetExpectedError(error);
}
TInt headerLength, bufLength;
if(GetIntFromConfig(ConfigSection(),KWapWSPRecvHeaderLength, headerLength))
{
iHeaderRecvBufLength=static_cast<TUint16>(headerLength);
}
if(GetIntFromConfig(ConfigSection(),KWapWSPRecvBodyLength, bufLength))
{
iBodyRecvBufLength=static_cast<TUint16>(bufLength);
}
iRecvHeaders = HBufC8::NewL(iHeaderRecvBufLength);
iRecvBody = HBufC8::NewL(iBodyRecvBufLength);
SetState(EConnect);
iControl->ReStart();
ShowConnectionInfo();
// Start state machine
StartScheduler();
delete iRecvBody;
iRecvBody=NULL;
delete iRecvHeaders;
iRecvHeaders=NULL;
UnloadInterface();
}
}
return TestStepResult();
}
TInt CFullySpecCLPushStep_7::CallStateMachine()
{
TVerdict verdict = EFail;
TInt err = KErrNone;
TInt activate = 0;
INFO_PRINTF2(_L("CallStateMachine: state [%d]"), State());
switch(iState)
{
case EConnect:
INFO_PRINTF1(_L("EConnect"));
err = iImp->Connect(iRemoteHost, iRemotePort, iBearer, EFalse);
INFO_PRINTF2(_L("Connection completed with code = %d"), err);
if( err == KErrNone)
{
// WaitForInitializeL();
TRequestStatus reqStatus;
iRecvHeadersBuf.Set(iRecvHeaders->Des());
iRecvBodyBuf.Set(iRecvBody->Des());
iImp->AwaitPush(iRecvHeadersBuf, iRecvBodyBuf, iTransactionIdPckg, reqStatus);
iImp->AwaitPush(iRecvHeadersBuf, iRecvBodyBuf, iTransactionIdPckg, *iStatus);
INFO_PRINTF1(_L("AwaitPush"));
activate = 1;
}
else
{
iControl->ReStart();
}
SetLastError(err);
SetState(EFinish);
break;
case EFinish:
INFO_PRINTF1(_L("EFinish"));
iImp->CancelAwaitPush();
if(iStatus->Int() != KErrNone)
{
SetLastError(iStatus->Int());
}
verdict = (GetLastError() == GetExpectedError())?EPass:EFail;
SetTestStepResult(verdict);
SetState(EIdle);
StopScheduler();
break;
case EIdle:
default:
INFO_PRINTF2(_L("Error: EIdle or unknown state %d"), State());
SetTestStepResult(verdict);
StopScheduler();
break;
}
return (activate);
}
CFullySpecCLPushStep_8::CFullySpecCLPushStep_8()
{
}
CFullySpecCLPushStep_8::~CFullySpecCLPushStep_8()
{
}
TVerdict CFullySpecCLPushStep_8::doTestStepL()
/**
* @return - TVerdict code
* Wrong parameter values for FullySpecified CL Push API:
* - Wrong TUid on construction
* - Connect to wrong bearer (already implemented in test 2)
*/
{
INFO_PRINTF1(_L("CreateImplementation with wrong Uid- CWapFullySpecCLPushService"));
if(TestStepResult() == EPass )
{
TInt error;
if(GetIntFromConfig(ConfigSection(),KWapExError2, error))
{
iExError2=error;
}
TInt trapValue;
TUid invalidInterfaceUid = {0x00000000};
INFO_PRINTF2(_L("Calling new NewL(0x%08X) method"), invalidInterfaceUid);
TRAP(trapValue, iImp = CWapFullySpecCLPushService::NewL(invalidInterfaceUid));
TVerdict verdict = (trapValue == iExError2)?EPass:EFail;
if (verdict==EPass)
{
INFO_PRINTF2(_L("CreateImplementation with wrong Uid- Failed as expected with error %d"),trapValue);
}
SetTestStepResult(verdict);
}
return TestStepResult();
}
TInt CFullySpecCLPushStep_8::CallStateMachine()
{
return (0);
}
CFullySpecCLPushStep_9::CFullySpecCLPushStep_9() {}
CFullySpecCLPushStep_9::~CFullySpecCLPushStep_9() {}
TVerdict CFullySpecCLPushStep_9::doTestStepL()
{
return TestStepResult();
}
TInt CFullySpecCLPushStep_9::CallStateMachine()
{
return (0);
}