telephonyserverplugins/ctsydispatchlayer/test/dispatchertests/dispatchsrc/cctsysatfu.cpp
// Copyright (c) 2008-2009 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 The TEFUnit test suite for SatControl in the Common TSY.
*/
#include <cstktsy/bertlv_defs.h>
#include <etel.h>
#include <etelmm.h>
#include <etelsat.h>
#include <et_clsvr.h>
#include <ctsy/serviceapi/gsmerror.h>
#include <ctsy/mmtsy_names.h>
#include <ctsy/serviceapi/mmtsy_ipcdefs.h>
#include <ctsy/ltsy/sat_defs.h>
#include <cstktsy/ttlv.h>
#include "cctsysatfu.h"
#include <ctsy/ltsy/mltsydispatchsatinterface.h>
#include <ctsy/ltsy/mltsydispatchsmsinterface.h> //for KLtsyDispatchSmsSendSatSmsApiId
#include <ctsy/ltsy/mltsydispatchphoneinterface.h> //for KLtsyDispatchPhoneGetPhoneIdApiId
#include <ctsy/ltsy/mltsydispatchphonebookinterface.h> //for KLtsyDispatchPhonebookSmsStoreWriteEntryApiId
#include "mockltsyindicatorids.h"
#include "testconstants.h"
#include <test/tmockltsydata.h>
const TDesC8& KGeneralResultAddInfo = KNullDesC8;
const TInt KShiftBitsToGetMSB = 8;
const TInt KShiftBitsToGetLSB = 0;
//const TUint8 KAddrMaxLength = 255;
//const TUint8 KFilePathLength = 8;
CTestSuite* CCTsySatFU::CreateSuiteL(const TDesC& aName)
{
SUB_SUITE;
//add use-case tests
ADD_TEST_STEP_ISO_CPP(CCTsySatFU, TestUseCase0001L);
ADD_TEST_STEP_ISO_CPP(CCTsySatFU, TestUseCase0002L);
ADD_TEST_STEP_ISO_CPP(CCTsySatFU, TestUseCase0003L);
ADD_TEST_STEP_ISO_CPP(CCTsySatFU, TestUseCase0004L);
ADD_TEST_STEP_ISO_CPP(CCTsySatFU, TestUseCase0005L);
ADD_TEST_STEP_ISO_CPP(CCTsySatFU, TestUseCase0006L);
ADD_TEST_STEP_ISO_CPP(CCTsySatFU, TestUseCase0007L);
ADD_TEST_STEP_ISO_CPP(CCTsySatFU, TestUseCase0008L);
ADD_TEST_STEP_ISO_CPP(CCTsySatFU, TestUseCase0009L);
ADD_TEST_STEP_ISO_CPP(CCTsySatFU, TestUseCase0010L);
//add other unit tests
ADD_TEST_STEP_ISO_CPP(CCTsySatFU, TestUnit0001L);
ADD_TEST_STEP_ISO_CPP(CCTsySatFU, TestUnit0002L);
ADD_TEST_STEP_ISO_CPP(CCTsySatFU, TestUnit0003L);
ADD_TEST_STEP_ISO_CPP(CCTsySatFU, TestUnit0004L);
ADD_TEST_STEP_ISO_CPP(CCTsySatFU, TestUnit0005L);
ADD_TEST_STEP_ISO_CPP(CCTsySatFU, TestUnit0006L);
ADD_TEST_STEP_ISO_CPP(CCTsySatFU, TestUnit0007L);
ADD_TEST_STEP_ISO_CPP(CCTsySatFU, TestUnit0008L);
ADD_TEST_STEP_ISO_CPP(CCTsySatFU, TestUnit0009L);
ADD_TEST_STEP_ISO_CPP(CCTsySatFU, TestUnit0010L);
ADD_TEST_STEP_ISO_CPP(CCTsySatFU, TestUnit0011L);
ADD_TEST_STEP_ISO_CPP(CCTsySatFU, TestUnit0012L);
ADD_TEST_STEP_ISO_CPP(CCTsySatFU, TestUnit0013L);
ADD_TEST_STEP_ISO_CPP(CCTsySatFU, TestUnit0014L);
ADD_TEST_STEP_ISO_CPP(CCTsySatFU, TestUnit0015L);
ADD_TEST_STEP_ISO_CPP(CCTsySatFU, TestUnit0016L);
ADD_TEST_STEP_ISO_CPP(CCTsySatFU, TestUnit0017L);
END_SUITE;
}
//
// Use-case tests
//
/**
@SYMTestCaseID BA-CTSYD-DIS-SAT-UC0001
@SYMComponent telephony_ctsy
@SYMTestCaseDesc Test CTSY/STK initialisation
@SYMTestPriority High
@SYMTestActions Invokes RSat::Open()
@SYMTestExpectedResults Pass
@SYMTestType CT
*/
void CCTsySatFU::TestUseCase0001L()
{
OpenEtelServerL(EUseExtendedError);
CleanupStack::PushL(TCleanupItem(Cleanup,this));
OpenPhoneL();
//OpenSatL contains the test code that drives the initialisation of SAT.
OpenSatL(KSmsMoControlEnabled | KSmsPpDownloadEnabled | KUssdEnabled);
AssertMockLtsyStatusL();
CleanupStack::PopAndDestroy(this);
}
/**
@SYMTestCaseID BA-CTSYD-DIS-SAT-UC0002
@SYMComponent telephony_ctsy
@SYMTestCaseDesc Test support in CTSY for a representative Proactive Command session involving user interaction
@SYMTestPriority High
@SYMTestActions Invokes RSat::NotifySetUpMenuPCmd, RSat::NotifyDisplayTextPCmd, RSat::NotifySelectItemPCmd,RSat::TerminalRsp, RSat::MenuSelection
@SYMTestExpectedResults Pass
@SYMTestType CT
*/
void CCTsySatFU::TestUseCase0002L()
{
OpenEtelServerL(EUseExtendedError);
CleanupStack::PushL(TCleanupItem(Cleanup,this));
OpenPhoneL();
OpenSatL();
RBuf8 data;
CleanupClosePushL(data);
TRequestStatus reqStatus;
const TUint8 KPCmdNumber1 = 123;
const TUint8 KPCmdNumber2 = 124;
const TUint8 KPCmdNumber3 = 125;
TUint8 pcmdCode = KSetUpMenu;
TMockLtsyData1<TUint8> expLtsyData(pcmdCode);
expLtsyData.SerialiseL(data);
iMockLTSY.ExpectL(MLtsyDispatchSatPCmdNotification::KLtsyDispatchSatPCmdNotificationApiId,data);
TTlv tlv;
tlv.Begin(KBerTlvProactiveSimCommandTag);
tlv.AddTag(KTlvCommandDetailsTag);
tlv.AddByte(KPCmdNumber1);//ETLV_CommandNumber
tlv.AddByte(KSetUpMenu); //ETLV_TypeOfCommand
tlv.AddByte(KSelectionUsingSoftKey); //ETLV_CommandQualifier
tlv.AddTag(KTlvDeviceIdentityTag);
tlv.AddByte(KSim); //ETLV_SourceDeviceIdentity
tlv.AddByte(KDisplay); //ETLV_DestinationDeviceIdentity
tlv.AddTag(KTlvAlphaIdentifierTag);
_LIT8(KSetupMenuTest8,"Menu AlphaIdent");
_LIT16(KSetupMenuTest16,"Menu AlphaIdent");
tlv.AddData(KSetupMenuTest8);//ETLV_AlphaIdentifier
const TUint8 KItemIdentifier1 = 77;
tlv.AddTag(KTlvItemTag);
tlv.AddByte(KItemIdentifier1); //item identifier
tlv.AddData(_L8("Item AlphaIdent1"));
const TUint8 KItemIdentifier2 = 78;
tlv.AddTag(KTlvItemTag);
tlv.AddByte(KItemIdentifier2); //item identifier
tlv.AddData(_L8("Item AlphaIdent2"));
TDesC8* tlvDscPtr = &const_cast<TDesC8&>(tlv.End());
TMockLtsyData1<TDesC8*> tlvDscPack(tlvDscPtr);
data.Close();
tlvDscPack.SerialiseL(data);
iMockLTSY.CompleteL(KMockLtsyDispatchSatPcmdIndId,KErrNone,data);
RSat::TSetUpMenuV2 setupMenu;
RSat::TSetUpMenuV2Pckg setpPck(setupMenu);
iSat.NotifySetUpMenuPCmd(reqStatus, setpPck);
User::WaitForRequest(reqStatus);
ASSERT_EQUALS(KErrNone, reqStatus.Int());
ASSERT_EQUALS(KPCmdNumber1, setupMenu.PCmdNumber());
ASSERT_EQUALS(RSat::EAlphaIdProvided, setupMenu.iAlphaId.iStatus);
ASSERT_EQUALS(0, setupMenu.iAlphaId.iAlphaId.Compare(KSetupMenuTest16));
AssertMockLtsyStatusL();
data.Close();
//generate the terminal response
RSat::TSetUpMenuRspV1 setupMenuResp;
RSat::TSetUpMenuRspV1Pckg setupMenuRespPckg(setupMenuResp);
setupMenuResp.iGeneralResult = RSat::KSuccess;
setupMenuResp.iInfoType = RSat::KNoAdditionalInfo;
setupMenuResp.SetPCmdNumber(KPCmdNumber1);
GenerateAndWaitForTermRspL(KPCmdNumber1,KSetUpMenu,KSelectionUsingSoftKey,RSat::ESetUpMenu, RSat::KSuccess, setupMenuRespPckg, KErrNone);
//simulate the user requesting help on a menu option.
TTlv menuSelectionEnvelope;
menuSelectionEnvelope.Begin( KBerTlvMenuSelectionTag );
menuSelectionEnvelope.AddTag( KTlvDeviceIdentityTag );
menuSelectionEnvelope.AddByte( KKeypad );
menuSelectionEnvelope.AddByte( KSim );
menuSelectionEnvelope.AddTag( KTlvItemIdentifierTag );
menuSelectionEnvelope.AddByte( KItemIdentifier1 );
menuSelectionEnvelope.AddTag( KTlvHelpRequestTag );
TDesC8* menuSelectionEnvelopePtr = &const_cast<TDesC8&>(menuSelectionEnvelope.End());
TMockLtsyData1<TDesC8*> menuSelDescPck(menuSelectionEnvelopePtr);
data.Close();
menuSelDescPck.SerialiseL(data);
iMockLTSY.ExpectL(MLtsyDispatchSatMenuSelectionEnvelope::KLtsyDispatchSatMenuSelectionEnvelopeApiId, data);
TRequestStatus reqStatusNotifyTerminated;
iMockLTSY.NotifyTerminated(reqStatusNotifyTerminated);
RSat::TMenuSelectionV1 menuSelection;
RSat::TMenuSelectionV1Pckg menuSelectionPckg(menuSelection);
menuSelection.iItemId = KItemIdentifier1;
menuSelection.iHelp = RSat::EHelpRequested;
iSat.MenuSelection(reqStatus, menuSelectionPckg);
User::WaitForRequest(reqStatus);
ASSERT_EQUALS(reqStatus.Int(),KErrNone);
User::WaitForRequest(reqStatusNotifyTerminated);
ASSERT_EQUALS(reqStatusNotifyTerminated.Int(),KErrNone);
//response from ucc to the help request
pcmdCode = KDisplayText;
data.Close();
expLtsyData.SerialiseL(data);
iMockLTSY.ExpectL(MLtsyDispatchSatPCmdNotification::KLtsyDispatchSatPCmdNotificationApiId,data);
RSat::TDisplayTextV2 displayText;
RSat::TDisplayTextV2Pckg displayTextPckg(displayText);
iSat.NotifyDisplayTextPCmd(reqStatus, displayTextPckg);
TTlv displayTextTlv;
displayTextTlv.Begin(KBerTlvProactiveSimCommandTag);
displayTextTlv.AddTag(KTlvCommandDetailsTag);
displayTextTlv.AddByte(KPCmdNumber2);//ETLV_CommandNumber
displayTextTlv.AddByte(KDisplayText); //ETLV_TypeOfCommand
TUint8 dispTextMask = KMessageClearMask & ~KPriorityMask; //user must acknowledge the message. normal priority.
displayTextTlv.AddByte(dispTextMask); //ETLV_CommandQualifier
displayTextTlv.AddTag(KTlvDeviceIdentityTag);
displayTextTlv.AddByte(KSim); //ETLV_SourceDeviceIdentity
displayTextTlv.AddByte(KDisplay); //ETLV_DestinationDeviceIdentity
displayTextTlv.AddTag(KTlvTextStringTag);
displayTextTlv.AddByte(K8BitDCS); //ETLV_DataCodingScheme
_LIT8(KTstHelpInfo8, "HELP INFORMATION ABOUT MENU COMMAND");//defining this string twice because its returned
_LIT(KTstHelpInfo16, "HELP INFORMATION ABOUT MENU COMMAND");//via NotifyDisplayTextPcmd completion as 16 bit desc
displayTextTlv.AddData(KTstHelpInfo8);
displayTextTlv.AddTag(KTlvImmediateResponseTag);
TDesC8* displayTextDscPtr = &const_cast<TDesC8&>(displayTextTlv.End());
TMockLtsyData1<TDesC8*> displayTextPack(displayTextDscPtr);
data.Close();
displayTextPack.SerialiseL(data);
iMockLTSY.CompleteL(KMockLtsyDispatchSatPcmdIndId,KErrNone,data);
User::WaitForRequest(reqStatus);
ASSERT_EQUALS(reqStatus.Int(),KErrNone);
ASSERT_EQUALS(displayText.PCmdNumber(),KPCmdNumber2);
ASSERT_TRUE(displayText.iText == KTstHelpInfo16);
AssertMockLtsyStatusL();
//generate the terminal response
RSat::TDisplayTextRspV1 displayTextRsp;
RSat::TDisplayTextRspV1Pckg displayTextRspPckg(displayTextRsp);
displayTextRsp.iGeneralResult = RSat::KSuccess;
displayTextRsp.iInfoType = RSat::KNoAdditionalInfo;
displayTextRsp.SetPCmdNumber(KPCmdNumber2);
GenerateAndWaitForTermRspL(KPCmdNumber2,KDisplayText,dispTextMask,RSat::EDisplayText, RSat::KSuccess, displayTextRspPckg, KErrNone);
//now let the user select a top level item which will open a submenu.
menuSelectionEnvelope.Begin( KBerTlvMenuSelectionTag );
menuSelectionEnvelope.AddTag( KTlvDeviceIdentityTag );
menuSelectionEnvelope.AddByte( KKeypad );
menuSelectionEnvelope.AddByte( KSim );
menuSelectionEnvelope.AddTag( KTlvItemIdentifierTag );
menuSelectionEnvelope.AddByte( KItemIdentifier1 );
menuSelectionEnvelopePtr = &const_cast<TDesC8&>(menuSelectionEnvelope.End());
data.Close();
menuSelDescPck.SerialiseL(data);
iMockLTSY.ExpectL(MLtsyDispatchSatMenuSelectionEnvelope::KLtsyDispatchSatMenuSelectionEnvelopeApiId, data);
menuSelection.iItemId = KItemIdentifier1;
menuSelection.iHelp = RSat::EHelpNotRequested;
iMockLTSY.NotifyTerminated(reqStatusNotifyTerminated);
iSat.MenuSelection(reqStatus, menuSelectionPckg);
User::WaitForRequest(reqStatus);
ASSERT_EQUALS(reqStatus.Int(),KErrNone);
User::WaitForRequest(reqStatusNotifyTerminated);
ASSERT_EQUALS(reqStatusNotifyTerminated.Int(),KErrNone);
//now provide the sub menu
pcmdCode = KSelectItem;
data.Close();
expLtsyData.SerialiseL(data);
iMockLTSY.ExpectL(MLtsyDispatchSatPCmdNotification::KLtsyDispatchSatPCmdNotificationApiId,data);
tlv.Begin(KBerTlvProactiveSimCommandTag);
tlv.AddTag(KTlvCommandDetailsTag);
tlv.AddByte(KPCmdNumber3);//ETLV_CommandNumber
tlv.AddByte(KSelectItem); //ETLV_TypeOfCommand
tlv.AddByte(KSelectionUsingSoftKey); //ETLV_CommandQualifier
tlv.AddTag(KTlvDeviceIdentityTag);
tlv.AddByte(KSim); //ETLV_SourceDeviceIdentity
tlv.AddByte(KDisplay); //ETLV_DestinationDeviceIdentity
tlv.AddTag(KTlvAlphaIdentifierTag);
_LIT8(KSelectItemTestMenu8,"select item Menu AlphaIdent");
_LIT16(KSelectItemTestMenu16,"select item Menu AlphaIdent");
tlv.AddData(KSelectItemTestMenu8);//ETLV_AlphaIdentifier
const TUint8 KSubMenuItemIdentifier1 = 90;
tlv.AddTag(KTlvItemTag);
tlv.AddByte(KSubMenuItemIdentifier1); //item identifier
tlv.AddData(_L8("select Item AlphaIdent1"));
const TUint8 KSumMenuItemIdentifier2 = 91;
tlv.AddTag(KTlvItemTag);
tlv.AddByte(KSumMenuItemIdentifier2); //item identifier
tlv.AddData(_L8("select Item AlphaIdent2"));
tlvDscPtr = &const_cast<TDesC8&>(tlv.End());
data.Close();
tlvDscPack.SerialiseL(data);
iMockLTSY.CompleteL(KMockLtsyDispatchSatPcmdIndId,KErrNone,data);
RSat::TSelectItemV5 selectItem;
RSat::TSelectItemV5Pckg SelectItemPck(selectItem);
iSat.NotifySelectItemPCmd(reqStatus, SelectItemPck);
User::WaitForRequest(reqStatus);
ASSERT_EQUALS(reqStatus.Int(),KErrNone);
ASSERT_EQUALS(selectItem.PCmdNumber(),KPCmdNumber3);
ASSERT_EQUALS(selectItem.iAlphaId.iStatus,RSat::EAlphaIdProvided);
ASSERT_TRUE(selectItem.iAlphaId.iAlphaId == KSelectItemTestMenu16);
//generate the terminal response
RSat::TSelectItemRspV1 selectItemRsp;
RSat::TSelectItemRspV1Pckg selectItemRspPckg(selectItemRsp);
selectItemRsp.iGeneralResult = RSat::KSuccess;
selectItemRsp.iInfoType = RSat::KItemIdentifier;
selectItemRsp.iAdditionalInfo.Append(KSubMenuItemIdentifier1);
selectItemRsp.SetPCmdNumber(KPCmdNumber3);
TTlv tlvAddInfo;
tlvAddInfo.AddTag(KTlvItemIdentifierTag);
tlvAddInfo.AddByte(KSubMenuItemIdentifier1);
TPtrC8 addInfo = tlvAddInfo.GetDataWithoutTopLevelTag();
GenerateAndWaitForTermRspL( KPCmdNumber3,
KSelectItem,
KSelectionUsingSoftKey,
RSat::ESelectItem,selectItemRsp.iGeneralResult,
KGeneralResultAddInfo,
selectItemRspPckg,
addInfo,
KErrNone);
data.Close();
AssertMockLtsyStatusL();
CleanupStack::PopAndDestroy(2, this); // data, this
}
/**
@SYMTestCaseID BA-CTSYD-DIS-SAT-UC0003
@SYMComponent telephony_ctsy
@SYMTestCaseDesc Test support in CTSY for Getting and Icon Ef(Img) Record, Icon instance and CLUT
@SYMTestPriority High
@SYMTestActions Invokes RSat::GetIcon , RSat::GetImageInstance, Rsat::GetClut
@SYMTestExpectedResults Pass
@SYMTestType CT
*/
void CCTsySatFU::TestUseCase0003L()
{
OpenEtelServerL(EUseExtendedError);
CleanupStack::PushL(TCleanupItem(Cleanup,this));
OpenPhoneL();
OpenSatL();
RBuf8 getData;
CleanupClosePushL(getData);
RBuf8 retData;
CleanupClosePushL(retData);
TRequestStatus reqStatus;
/******************************************Get Icon*******************************************************/
//Test to get a given Icons EF(Img) record
//re-create the file path
TBuf8<KFilePathLength> simFilePath(KFilePathLength);
simFilePath[0] = 0x3F; //MF High byte
simFilePath[1] = 0x00; //MF Low byte
simFilePath[2] = 0x7F; //DF(Telecom) High byte
simFilePath[3] = 0x10; //DF(Telecom) Low byte
simFilePath[4] = 0x5F; //DF(Graphics) High byte
simFilePath[5] = 0x50; //DF(Graphics) Low byte
simFilePath[6] = 0x4F; //EF(Img) High byte
simFilePath[7] = 0x20; //EF(Img) Low byte
//a EF(Img) record to get
const TUint8 KRecordNumber = 5;
//create the down expect data
TUint8 recordNumber = KRecordNumber;
TDesC8* simFilePathPtr = &simFilePath;
TMockLtsyData2<TUint8,TDesC8*> getIconData(recordNumber,simFilePathPtr);
getIconData.SerialiseL(getData);
//create a EF(Img) record
const TUint KNoImagesLength = 1;
const TUint KEfImgRecordLength = 9;
RBuf8 iconEfRecordInstance;
CleanupClosePushL(iconEfRecordInstance);
iconEfRecordInstance.CreateMaxL(KEfImgRecordLength);
const TUint8 KNumberOfImages = 1;
const TUint16 KInstanceNumber = 1;
const TUint16 KOffset = 1;
const TUint16 KLength = 1;
const TUint8 KWidth = 40;
const TUint8 KHeight = 40;
iconEfRecordInstance[0] = KWidth; //image instance width, expressed in raster image points
iconEfRecordInstance[1] = KHeight; //image instance height, expressed in raster image points
iconEfRecordInstance[2] = RSat::KBasic; //image coding scheme that has been used in encoding the image instance 11-basic, 21-colour
iconEfRecordInstance[3] = KInstanceNumber >> KShiftBitsToGetMSB; //high byte of Image Instance File Identifier
iconEfRecordInstance[4] = KInstanceNumber & 0xFF; //low byte of Image Instance File Identifier.
iconEfRecordInstance[5] = KOffset >> KShiftBitsToGetMSB; //high byte of offset into Image Instance File
iconEfRecordInstance[6] = KOffset & 0xFF; //low byte of offset into Image Instance File
iconEfRecordInstance[7] = KLength >> KShiftBitsToGetMSB; //high byte of Image Instance Data length
iconEfRecordInstance[8] = KLength & 0xFF; //low byte of Image Instance Data length
RBuf8 iconEfImgData;
CleanupClosePushL(iconEfImgData);
iconEfImgData.CreateL(KNoImagesLength + KEfImgRecordLength);
iconEfImgData.Append(KNumberOfImages);
iconEfImgData.Append(iconEfRecordInstance);
//create the up complete data
TDesC8* iconDataPtr = &iconEfImgData;
TMockLtsyData1<TDesC8*> retIconData(iconDataPtr);
retIconData.SerialiseL(retData);
//queue the MockLTSY expect completes
iMockLTSY.ExpectL(MLtsyDispatchSatGetIconData::KLtsyDispatchSatGetIconDataApiId,getData);
iMockLTSY.CompleteL(MLtsyDispatchSatGetIconData::KLtsyDispatchSatGetIconDataApiId, KErrNone, retData);
// ETel Sat Calls
RSat::TIcon retrievedIconEfImg;
RSat::TIconId iconId;
iconId.iIdentifier = KRecordNumber;
iSat.GetIcon(reqStatus,iconId.iIdentifier,retrievedIconEfImg);
User::WaitForRequest(reqStatus);
ASSERT_EQUALS(reqStatus.Int(),KErrNone);
ASSERT_TRUE(iconEfImgData == retrievedIconEfImg);
AssertMockLtsyStatusL();
getData.Close();
retData.Close();
CleanupStack::PopAndDestroy(&iconEfImgData);
CleanupStack::PopAndDestroy(&iconEfRecordInstance);
/*************************************************************************************************/
/******************************************Get Image Instance*******************************************************/
// Test to get a given instance of an icons EF(IIDF)
// The Client should have read the icon EF before reading the image instance.
// The contents of the icon EF indicate the size of the image instance,
// the Client should use this information to allocate a buffer size that it requires
// and pass a reference to is as a TDes8&
//create the down expect data
TUint8 imageInstanceNumberInRecord = KNumberOfImages - KInstanceNumber + 1;
TMockLtsyData2<TUint8,TUint8> getImageInstanceData(recordNumber,imageInstanceNumberInRecord);
getImageInstanceData.SerialiseL(getData);
RBuf8 imageInstanceData;
CleanupClosePushL(imageInstanceData);
RBuf8 imageInstanceBody;
CleanupClosePushL(imageInstanceBody);
//A basic image data
const TUint KIconDataLength = 2;
imageInstanceData.CreateMaxL(KIconDataLength);
imageInstanceData[0] = retrievedIconEfImg[KNoImagesLength + 1]; //i.e. KWidth;
imageInstanceData[1] = retrievedIconEfImg[KNoImagesLength + 2]; //i.e. KHeight;
//The image body
imageInstanceBody.CreateMaxL(KWidth * KHeight);
//fill with any data (just for testing)
for(TInt i = 0; i < imageInstanceBody.Length(); ++i)
{
imageInstanceBody[i] = i;
}
TDesC8* imageInstanceDataPtr = &imageInstanceData;
TDesC8* imageInstanceBodyPtr = &imageInstanceBody;
TMockLtsyData2<TDesC8*,TDesC8*> retImageInstanceData(imageInstanceDataPtr,imageInstanceBodyPtr);
retImageInstanceData.SerialiseL(retData);
//queue the MockLTSY expect completes
iMockLTSY.ExpectL(MLtsyDispatchSatGetImageInstance::KLtsyDispatchSatGetImageInstanceApiId,getData);
iMockLTSY.CompleteL(MLtsyDispatchSatGetImageInstance::KLtsyDispatchSatGetImageInstanceApiId, KErrNone, retData);
//this is used in the CTSY to check against the retrieved icon EF(Img) record
RSat::TInstanceInfoV3 instanceInfo;
instanceInfo.iInstanceNumber = KInstanceNumber;
instanceInfo.iLength = KLength;
instanceInfo.iOffset = KOffset;
instanceInfo.iCoding = RSat::KBasic;
instanceInfo.iImgWidth = KWidth;
instanceInfo.iImgHeight = KHeight;
instanceInfo.iFileId = 0; //not used in the CTSY
RSat::TInstanceInfoV3Pckg instanceInfoPackage1(instanceInfo);
RBuf8 retrievedImageinstance;
CleanupClosePushL(retrievedImageinstance);
retrievedImageinstance.CreateL(KIconDataLength + (KWidth * KHeight)); //the EF(IIDF)
// ETel Sat Calls
iSat.GetImageInstance(reqStatus, instanceInfoPackage1, retrievedImageinstance);
User::WaitForRequest(reqStatus);
ASSERT_EQUALS(reqStatus.Int(),KErrNone);
ASSERT_TRUE(retrievedImageinstance.Mid(0,KIconDataLength) == imageInstanceData);
ASSERT_TRUE(retrievedImageinstance.Mid(KIconDataLength) == imageInstanceBody);
AssertMockLtsyStatusL();
getData.Close();
retData.Close();
CleanupStack::PopAndDestroy(&retrievedImageinstance);
CleanupStack::PopAndDestroy(&imageInstanceBody);
CleanupStack::PopAndDestroy(&imageInstanceData);
/*************************************************************************************************/
/******************************************Get Image Instance*************************************/
//Test to get a given Icon instances CLUT
TMockLtsyData2<TUint8,TUint8> getClutData(recordNumber,imageInstanceNumberInRecord);
getClutData.SerialiseL(getData);
const TUint KClutLength = 24;
TBuf8<KClutLength> clutData(KClutLength);
//fill with any data (just for testing)
for(TInt j = 0; j < clutData.Length(); ++j)
{
clutData[j] = j;
}
TDesC8* clutDataPtr = &clutData;
TMockLtsyData1<TDesC8*> retClutData(clutDataPtr);
retClutData.SerialiseL(retData);
//queue the MockLTSY expect completes
iMockLTSY.ExpectL(MLtsyDispatchSatGetClut::KLtsyDispatchSatGetClutApiId,getData);
iMockLTSY.CompleteL(MLtsyDispatchSatGetClut::KLtsyDispatchSatGetClutApiId,KErrNone, retData);
const TUint KGetClutOffset = 0; //Unused in the CTSY
// ETel Sat Calls
TBuf8<KClutLength> retrievedClut;
iSat.GetClut(reqStatus, KInstanceNumber, KGetClutOffset, retrievedClut);
User::WaitForRequest(reqStatus);
ASSERT_EQUALS(reqStatus.Int(),KErrNone);
ASSERT_TRUE(clutData == retrievedClut);
AssertMockLtsyStatusL();
getData.Close();
retData.Close();
/*************************************************************************************************/
CleanupStack::PopAndDestroy(&retData);
CleanupStack::PopAndDestroy(&getData);
CleanupStack::PopAndDestroy(this);
}
/**
@SYMTestCaseID BA-CTSYD-DIS-SAT-UC0004
@SYMComponent telephony_ctsy
@SYMTestCaseDesc Test setting up the event list then an event download (User Activity) from ETel
@SYMTestPriority High
@SYMTestActions Invokes RSat::NotifySetUpEventListPCmd, Proactive command, RSat::TerminalRsp, RSat::EventDownload
@SYMTestExpectedResults Pass
@SYMTestType CT
*/
void CCTsySatFU::TestUseCase0004L()
{
OpenEtelServerL(EUseExtendedError);
CleanupStack::PushL(TCleanupItem(Cleanup,this));
OpenPhoneL();
OpenSatL();
const TUint8 KPCommandNumber = 123;
SetupEventListL(KPCommandNumber,KEventUserActivity);
// Create envelope
TTlv envelope;
envelope.Begin(KBerTlvEventDownloadTag);
// Event list
envelope.AddTag(KTlvEventListTag);
envelope.AddByte(KEventUserActivity);
// Device identities
envelope.AddTag(KTlvDeviceIdentityTag);
envelope.AddByte(KMe);
envelope.AddByte(KSim);
WaitForEventDownloadL(RSat::KUserActivity,envelope.End());
AssertMockLtsyStatusL();
CleanupStack::PopAndDestroy(this);
}
/**
@SYMTestCaseID BA-CTSYD-DIS-SAT-UC0005
@SYMComponent telephony_ctsy
@SYMTestCaseDesc Test support in CTSY for control related functionality - a call is requested via a proactive command and then modified via call control
@SYMTestPriority High
@SYMTestActions Invokes RSat::NotifySetUpCallPCmd, RCall::OpenNewCall, RSat::TerminalRsp
@SYMTestExpectedResults Pass
@SYMTestType CT
*/
void CCTsySatFU::TestUseCase0005L()
{
OpenEtelServerL(EUseExtendedError);
CleanupStack::PushL(TCleanupItem(Cleanup,this));
OpenPhoneL();
OpenSatL();
iCallContainer = new (ELeave) CCallTypeContainer();
RBuf8 data;
CleanupClosePushL(data);
TRequestStatus requestStatus;
//provide location info so that it can be used during call control events
SetupLocalInfoL(KLocationAreaCode,KCellId,KOperatorCode,KLocationStatusNormalService);
//************************************************************************************
//Now we do a setup call proactive command
TUint8 pcmdCode = KSetUpCall;
TMockLtsyData1<TUint8> expLtsyData(pcmdCode);
expLtsyData.SerialiseL(data);
iMockLTSY.ExpectL(MLtsyDispatchSatPCmdNotification::KLtsyDispatchSatPCmdNotificationApiId,data);
RSat::TSetUpCallV6 setupCall;
RSat::TSetUpCallV6Pckg setupCallPckg(setupCall);
iSat.NotifySetUpCallPCmd(requestStatus, setupCallPckg);
const TUint8 KSetUpCallPCmdNo = 201;
TTlv tlv;
tlv.Begin(KBerTlvProactiveSimCommandTag);
tlv.AddTag(KTlvCommandDetailsTag);
tlv.AddByte(KSetUpCallPCmdNo);//ETLV_CommandNumber
tlv.AddByte(pcmdCode); //ETLV_TypeOfCommand
tlv.AddByte(KSetUpCallDisconnectingOtherCalls); //ETLV_CommandQualifier
tlv.AddTag(KTlvDeviceIdentityTag);
tlv.AddByte(KSim); //ETLV_SourceDeviceIdentity
tlv.AddByte(KNetwork); //ETLV_DestinationDeviceIdentity
tlv.AddTag(KTlvAddressTag);
const TUint8 KTonNpi = 0x91;
tlv.AddByte(KTonNpi); //TON and NPI (national number that conforms to the itu telephony style of numbering)
RBuf8 setUpCallNo;
CleanupClosePushL(setUpCallNo);
setUpCallNo.CreateL(KPhoneNumber().Length());
setUpCallNo.Copy(KPhoneNumber); //converts from 16 to 8 bit.
RBuf8 bcdSetUpCallNo;
CleanupClosePushL(bcdSetUpCallNo);
bcdSetUpCallNo.CreateL(KPhoneNumber().Length());
TSatUtility::AsciiToBCD(setUpCallNo,bcdSetUpCallNo);
tlv.AddData(bcdSetUpCallNo);
TDesC8* tlvDscPtr = &const_cast<TDesC8&>(tlv.End());
TMockLtsyData1<TDesC8*> tlvDscPack(tlvDscPtr);
data.Close();
tlvDscPack.SerialiseL(data);
iMockLTSY.CompleteL(KMockLtsyDispatchSatPcmdIndId,KErrNone,data);
User::WaitForRequest(requestStatus);
ASSERT_EQUALS(requestStatus.Int(),KErrNone);
ASSERT_EQUALS(setupCall.PCmdNumber(),KSetUpCallPCmdNo);
//******************************************************************************************************
//* At this stage the phone application/system software would attempt to make the call specified in the
//* SET UP CALL pcmd payload, first checking whether this is the emergency number (112) per ETSI TS 102 223
//* section 6.4.13 and routing the call via the appropriate ETel API, i.e. RMobileCall::DialEmergencyCall()
//* for emergency calls and RCall::Dial() for standard ones.
//*
//* After checking for emergency numbers and against the FDN list, the LTSY uses the CreateEnvelopeInd IPC to
//* request that the CTSY constructs TLV data for an ENVELOPE (CALL CONTROL). Once this is done it passes it
//* to the LTSY with the SendEnvelopeReq(IPC).
//*
//******************************************************************************************************
//Generate the call
// Call control code cribbed from cctsycallcontrolfu.cpp
TInt callId = 1;
RMobilePhone::TMobileService mobileService = RMobilePhone::EVoiceService;
//The fourth parameter of DriverDialCallL specifies whether this call originates from the SIM or ETel client
//In this case the call originates from the SET UP CALL proactive command so the flag is set to ETrue.
DriverDialCallL(callId, mobileService, EFalse, ETrue);
TInt hangUpCause = KErrGsmCCNormalCallClearing; // Hang up cause for normal hang up
DriverHangUpCallL(callId, hangUpCause);
// Client Side Test
RMobileLine mobileLine;
CleanupClosePushL(mobileLine);
RMobileCall mobileCall;
CleanupClosePushL(mobileCall);
ClientDialCallL(mobileLine, mobileCall, mobileService);
TRequestStatus notifyCallStatus;
RMobileCall::TMobileCallStatus callStatus = RMobileCall::EStatusUnknown;
mobileCall.NotifyMobileCallStatusChange(notifyCallStatus, callStatus);
TRequestStatus hangupStatus;
mobileCall.HangUp(hangupStatus);
RArray<RMobileCall::TMobileCallStatus> expectedCallStatuses;
CleanupClosePushL(expectedCallStatuses);
expectedCallStatuses.AppendL(RMobileCall::EStatusDisconnecting);
expectedCallStatuses.AppendL(RMobileCall::EStatusIdle);
ClientWaitForCallStatusNotifications(mobileCall, notifyCallStatus, callStatus, expectedCallStatuses, KErrNone);
User::WaitForRequest(hangupStatus);
ASSERT_EQUALS(KErrNone, hangupStatus.Int());
mobileCall.GetMobileCallStatus(callStatus);
ASSERT_EQUALS(RMobileCall::EStatusIdle, callStatus);
expectedCallStatuses.Close();
CleanupStack::PopAndDestroy(1, &expectedCallStatuses);
mobileCall.Close();
mobileLine.Close();
CleanupStack::PopAndDestroy(&mobileCall);
CleanupStack::PopAndDestroy(&mobileLine);
//**********************************************************************************
//send up the "create envelope" event which causes the ctsy to assemble the ENVELOPE (CALL CONTROL)
_LIT8(KBcc1,"asdas");
_LIT8(KBcc2,"qwqwqw");
const TUint8 KDcs = 56;
TDesC8* bcc1Ptr = const_cast<TDesC8*>(&KBcc1);
TDesC8* bcc2Ptr = const_cast<TDesC8*>(&KBcc2);
TDesC8* addrPtr = &setUpCallNo;
TUint8 tag = KTlvAddressTag;
TUint8 tonNpi = KTonNpi;
TUint8 dcs = KDcs;
TMockLtsyData6<TUint8, TDesC8*, TDesC8*, TDesC8*, TUint8, TUint8> ccInfoPck(tag, bcc1Ptr, bcc2Ptr, addrPtr, tonNpi, dcs);
data.Close();
ccInfoPck.SerialiseL(data);
iMockLTSY.CompleteL(KMockLtsyDispatchSatCreateCallControlEnvelopeIndId,KErrNone,data);
//**********************************************************************************
//Now send down the created envelope
tlv.Begin( KBerTlvCallControlTag );
// Device identities
tlv.AddTag( KTlvDeviceIdentityTag );
tlv.AddByte( KMe );
tlv.AddByte( KSim );
// Address
tlv.AddTag( KTlvAddressTag );
tlv.AddByte( KTonNpi );
tlv.AddData( bcdSetUpCallNo );
// Optional
tlv.AddTag( KTlvCapabilityConfigurationParametersTag );
tlv.AddData( KBcc1 );
// Add location information data
tlv.AddTag( KTlvLocationInformationTag );
// Append Mobile Country & Network Codes, 3 bytes
tlv.AddData( KOperatorCode );
// Append Location Area Code (LAC)
tlv.AddByte( static_cast<TUint8>( KLocationAreaCode >> KShiftBitsToGetMSB ) );//msb
tlv.AddByte( static_cast<TUint8>( KLocationAreaCode >> KShiftBitsToGetLSB ) );//lsb
// Append Cell Id
tlv.AddByte( static_cast<TUint8>( KCellId >> KShiftBitsToGetMSB ) ); // msbthey
tlv.AddByte( static_cast<TUint8>( KCellId >> KShiftBitsToGetLSB ) ); // lsb
tlv.AddTag( KTlvCapabilityConfigurationParametersTag );
tlv.AddData( KBcc2 );
// Prepare data
TDesC8* tlvDscDes = &const_cast<TDesC8&>(tlv.End());
TMockLtsyData1<TDesC8*> tlvDscDesPck(tlvDscDes);
data.Close();
tlvDscDesPck.SerialiseL(data);
iMockLTSY.ExpectL(MLtsyDispatchSatCallAndSmsControlEnvelope::KLtsyDispatchSatCallAndSmsControlEnvelopeApiId,data);
WaitForMockLTSYTerminated();
//************************************************************************************
//Now we send up the response of the call control
tlv.Begin(0x02);//the type of request has changed (the envelope responses have a slightly different format to the rest of the data so we achieve this by passing in call control result as the top level tag)
tlv.AddTag(KTlvAddressTag);
tlv.AddByte(KTonNpi); //ton+npi
tlv.AddData(bcdSetUpCallNo);
tlv.AddTag(KTlvAlphaIdentifierTag);
_LIT8(KAlphaId8,"Test alpha id");
_LIT16(KAlphaId16, "Test alpha id");
tlv.AddData(KAlphaId8());
tlvDscDes = &const_cast<TDesC8&>(tlv.End());
TMockLtsyData1<TDesC8*> controlPck(tlvDscDes);
data.Close();
controlPck.SerialiseL(data);
iMockLTSY.CompleteL(KMockLtsyDispatchSatCallControlEnvelopeResponseIndId,KErrNone,data);
iSat.NotifyCallControlRequest(requestStatus, iCallContainer->iCallControlPckg);
User::WaitForRequest(requestStatus);
ASSERT_EQUALS(KErrNone, requestStatus.Int());
RSat::TAlphaIdValidity val;
iCallContainer->iCallControl.GetAlphaId(val,iCallContainer->iAlphaId);
ASSERT_TRUE(KAlphaId16() == iCallContainer->iAlphaId.iAlphaId);
//************************************************************************************
//now we need to provide the terminal response to the SET UP CALL proactive command
//from etsi 102 223
//6.8.9 Result data object 2
//When the terminal issues a TERMINAL RESPONSE for a proactive command SET UP CALL which has been
//modified by call control by UICC in another type of request, it shall supply the Result data object it would have
//supplied for the proactive command equivalent to the action requested by call control, and given in the Call control
//request data element.
RSat::TSetUpCallRspV2 setUpCallRsp;
RSat::TSetUpCallRspV2Pckg setUpCallRspPckg(setUpCallRsp);
setUpCallRsp.iGeneralResult = RSat::KSuccess;
setUpCallRsp.iInfoType = RSat::KNoAdditionalInfo;
setUpCallRsp.SetPCmdNumber(KSetUpCallPCmdNo);
GenerateAndWaitForTermRspL(KSetUpCallPCmdNo,KSetUpCall,KSetUpCallDisconnectingOtherCalls,RSat::ESetUpCall,RSat::KSuccess,setUpCallRspPckg,KErrNone);
CleanupStack::PopAndDestroy(&bcdSetUpCallNo); // data, this
CleanupStack::PopAndDestroy(&setUpCallNo); // data, this
CleanupStack::PopAndDestroy(2, this); // data, this
}
/**
@SYMTestCaseID BA-CTSYD-DIS-SAT-UC0006
@SYMComponent telephony_ctsy
@SYMTestCaseDesc Test support in CTSY for Timer Managment functionality
@SYMTestPriority High
@SYMTestActions Invokes Proactive command, Terminal response, Timer Expiration Envelope, (start a timer and wait for it to expire)
@SYMTestExpectedResults Pass
@SYMTestType CT
*/
void CCTsySatFU::TestUseCase0006L()
{
OpenEtelServerL(EUseExtendedError);
CleanupStack::PushL(TCleanupItem(Cleanup,this));
OpenPhoneL();
OpenSatL();
RBuf8 data;
CleanupClosePushL(data);
TRequestStatus reqStatus;
const TUint8 KPCommandNumber = 11;
const RSat::TTimerId KTimerId = RSat::KTimer1;
const TUint8 KTimerManagementStart = 0x00;
//others KDeactivateTimer, KGetTimerValue and 0x03 is RFU
//create the Mock LTSY complete TLV data (a proactive command to start a timer)
TTlv proactiveCommandTlv;
proactiveCommandTlv.Begin(KBerTlvProactiveSimCommandTag);
proactiveCommandTlv.AddTag(KTlvCommandDetailsTag);
proactiveCommandTlv.AddByte(KPCommandNumber);//ETLV_CommandNumber
proactiveCommandTlv.AddByte(KTimerManagement); //ETLV_TypeOfCommand
proactiveCommandTlv.AddByte(KTimerManagementStart); //ETLV_CommandQualifier
proactiveCommandTlv.AddTag(KTlvDeviceIdentityTag);
proactiveCommandTlv.AddByte(KSim);
proactiveCommandTlv.AddByte(KMe);
proactiveCommandTlv.AddTag(KTlvTimerIdentifierTag);
proactiveCommandTlv.AddByte(KTimerId);
proactiveCommandTlv.AddTag(KTlvTimerValueTag);
const TUint8 KHourLSB = 0;
const TUint8 KHourMSB = 0;
const TUint8 KMinLSB = 0;
const TUint8 KMinMSB = 0;
const TUint8 KSecLSB = 0;
const TUint8 KSecMSB = 2; //2 seconds
const TInt KBitsToShiftMSNibble = 4;
proactiveCommandTlv.AddByte((KHourMSB << KBitsToShiftMSNibble) | KHourLSB); //hour
proactiveCommandTlv.AddByte((KMinMSB << KBitsToShiftMSNibble) | KMinLSB); //min
proactiveCommandTlv.AddByte((KSecMSB << KBitsToShiftMSNibble) | KSecLSB); //second
proactiveCommandTlv.AddByte((KHourMSB << KBitsToShiftMSNibble) | KHourLSB); //hour
proactiveCommandTlv.AddByte((KMinMSB << KBitsToShiftMSNibble) | KMinLSB); //min
proactiveCommandTlv.AddByte((KSecMSB << KBitsToShiftMSNibble) | KSecLSB); //second
TDesC8* proactiveCommandTlvPtr = &const_cast<TDesC8&>(proactiveCommandTlv.End());
TMockLtsyData1<TDesC8*> tlvDscPack(proactiveCommandTlvPtr);
tlvDscPack.SerialiseL(data);
iMockLTSY.CompleteL(KMockLtsyDispatchSatPcmdIndId,KErrNone,data);
//The Terminal response generated by the CTSY (as a result of the proactive command)
const TDesC8& KGeneralResultAddInfo = KNullDesC8;
TTlv additionalInfoTlv;
additionalInfoTlv.AddTag(KTlvTimerIdentifierTagCRBitOn);
additionalInfoTlv.AddByte(KTimerId);
GenerateAndWaitForTermRspL( KPCommandNumber,
KTimerManagement,
KTimerManagementStart,
RSat::ETimerMngt,
RSat::KSuccess,
KGeneralResultAddInfo,
KNullDesC8,
additionalInfoTlv.GetDataWithoutTopLevelTag(),
KErrNone);
//Queue the expect, this is the Timer Expiration ENVELOPE command when the timer expires.
TTlv timerExpirationTlv;
timerExpirationTlv.Begin( KBerTlvTimerExpirationTag );
// Create Device Identity TLV
// Device identity tag
timerExpirationTlv.AddTag( KTlvDeviceIdentityTag );
// Source device identity = ME
timerExpirationTlv.AddByte(KMe);
// Destination device identity = SIM
timerExpirationTlv.AddByte(KSim);
// Value KTlvTimerIdentifierTagCRBitOn ( 0xA4 ) is added,
// because used KTlvTimerIdentifierTag ( 0x24 ) doesn't
// include comprehension bit in tag the value and it is expected
// to be present in indications and terminal responses.
timerExpirationTlv.AddTag(KTlvTimerIdentifierTagCRBitOn);
timerExpirationTlv.AddByte(KTimerId);
// Timer value in semi-octets
timerExpirationTlv.AddTag( KTlvTimerValueTag );
timerExpirationTlv.AddByte((KHourMSB << KBitsToShiftMSNibble) | KHourLSB); //hour
timerExpirationTlv.AddByte((KMinMSB << KBitsToShiftMSNibble) | KMinLSB); //min
timerExpirationTlv.AddByte((KSecMSB << KBitsToShiftMSNibble) | KSecLSB); //second
TDesC8* timerExpirationDscPtr = &const_cast<TDesC8&>(timerExpirationTlv.End());
TMockLtsyData1<TDesC8*> timerExpirationTlvDscPack(timerExpirationDscPtr);
timerExpirationTlvDscPack.SerialiseL(data);
iMockLTSY.ExpectL(MLtsyDispatchSatTimerExpirationEnvelope::KLtsyDispatchSatTimerExpirationEnvelopeApiId,data);
data.Close();
//wait for the timer to expire
WaitForMockLTSYTerminated();
CleanupStack::PopAndDestroy(&data);
CleanupStack::PopAndDestroy(this);
}
/**
@SYMTestCaseID BA-CTSYD-DIS-SAT-UC0007
@SYMComponent telephony_ctsy
@SYMTestCaseDesc Test support in CTSY for Setting the polling interval and turning polling off.
@SYMTestPriority High
@SYMTestActions Invokes CTSY Internal Proactive command, Set Polling Interval, Terminal Response
@SYMTestExpectedResults Pass
@SYMTestType CT
*/
void CCTsySatFU::TestUseCase0007L()
{
OpenEtelServerL(EUseExtendedError);
CleanupStack::PushL(TCleanupItem(Cleanup,this));
OpenPhoneL();
OpenSatL();
RBuf8 data;
CleanupClosePushL(data);
TRequestStatus reqStatus;
/*********************************Set Polling Interval*******************************************/
const TUint8 KSetPollingPCmdNumber = 123;
const TUint8 KCommandQualifier = 0; //RFU (Reserved for future use)
TTlv pollIntervalPCmdTlv;
pollIntervalPCmdTlv.Begin(KBerTlvProactiveSimCommandTag);
pollIntervalPCmdTlv.AddTag(KTlvCommandDetailsTag);
pollIntervalPCmdTlv.AddByte(KSetPollingPCmdNumber);//ETLV_CommandNumber
pollIntervalPCmdTlv.AddByte(KPollInterval); //ETLV_TypeOfCommand
pollIntervalPCmdTlv.AddByte(KCommandQualifier); //ETLV_CommandQualifier - RFU
pollIntervalPCmdTlv.AddTag(KTlvDeviceIdentityTag);
pollIntervalPCmdTlv.AddByte(KSim); //ETLV_SourceDeviceIdentity
pollIntervalPCmdTlv.AddByte(KMe); //ETLV_DestinationDeviceIdentity
const TUint8 KTimeUint = KSeconds; //seconds
const TUint8 KTimeInterval = 5; //5 of them
pollIntervalPCmdTlv.AddTag(KTlvDurationTag);
pollIntervalPCmdTlv.AddByte(KTimeUint);
pollIntervalPCmdTlv.AddByte(KTimeInterval);
TDesC8* pollIntervalPCmdTlvDscPtr = &const_cast<TDesC8&>(pollIntervalPCmdTlv.End());
//the proactive command (LTSY -> CTSY)
TMockLtsyData1<TDesC8*> pollIntervalPCmdPack(pollIntervalPCmdTlvDscPtr);
pollIntervalPCmdPack.SerialiseL(data);
iMockLTSY.CompleteL(KMockLtsyDispatchSatPcmdIndId,KErrNone,data);
data.Close();
TUint8 pollInterval = KTimeInterval;
//set polling request (CTSY -> LTSY)
TMockLtsyData1<TUint8> setPollIntervalRequestPack(pollInterval);
setPollIntervalRequestPack.SerialiseL(data);
iMockLTSY.ExpectL(MLtsyDispatchSatSetPollingInterval::KLtsyDispatchSatSetPollingIntervalApiId,data);
data.Close();
//set polling complete (LTSY -> CTSY)
TMockLtsyData1<TUint8> setPollIntervalCompletePack(pollInterval);
setPollIntervalCompletePack.SerialiseL(data);
iMockLTSY.CompleteL(MLtsyDispatchSatSetPollingInterval::KLtsyDispatchSatSetPollingIntervalApiId,KErrNone,data);
data.Close();
//terminal response for inital proactive command request (CTSY -> LTSY)
RSat::TPCmdResult pollIntervalGeneralResult = RSat::KSuccess;
const TDesC8& KGeneralResultAddInfo = KNullDesC8;
TTlv pollIntervalAdditionalInfoTlv;
pollIntervalAdditionalInfoTlv.AddTag(KTlvDurationTag);
pollIntervalAdditionalInfoTlv.AddByte(KSeconds);
pollIntervalAdditionalInfoTlv.AddByte(pollInterval);
GenerateAndWaitForTermRspL( KSetPollingPCmdNumber,
KPollInterval,
KCommandQualifier,
RSat::EPollingInterval,
pollIntervalGeneralResult,
KGeneralResultAddInfo,
KNullDesC8,
pollIntervalAdditionalInfoTlv.GetDataWithoutTopLevelTag(),
KErrNone);
/*********************************Turn Polling Off*******************************************/
const TUint8 KPollingOffPCmdNumber = 125;
//proactive command to set Polling off (LTSY -> CTSY)
TTlv pollingOffPCmdTlv;
pollingOffPCmdTlv.Begin(KBerTlvProactiveSimCommandTag);
pollingOffPCmdTlv.AddTag(KTlvCommandDetailsTag);
pollingOffPCmdTlv.AddByte(KPollingOffPCmdNumber);//ETLV_CommandNumber
pollingOffPCmdTlv.AddByte(KPollingOff); //ETLV_TypeOfCommand
pollingOffPCmdTlv.AddByte(KCommandQualifier); //ETLV_CommandQualifier - RFU
pollingOffPCmdTlv.AddTag(KTlvDeviceIdentityTag);
pollingOffPCmdTlv.AddByte(KSim); //ETLV_SourceDeviceIdentity
pollingOffPCmdTlv.AddByte(KMe); //ETLV_DestinationDeviceIdentity
TDesC8* pollingOffPCmdTlvDscPtr = &const_cast<TDesC8&>(pollingOffPCmdTlv.End());
TMockLtsyData1<TDesC8*> pollingOffPCmdPack(pollingOffPCmdTlvDscPtr);
pollingOffPCmdPack.SerialiseL(data);
iMockLTSY.CompleteL(KMockLtsyDispatchSatPcmdIndId,KErrNone,data);
data.Close();
//set polling request (CTSY -> LTSY)
TUint8 pollingOffInterval = 0;
TMockLtsyData1<TUint8> setPollingOffRequestPack(pollingOffInterval);
setPollingOffRequestPack.SerialiseL(data);
iMockLTSY.ExpectL(MLtsyDispatchSatSetPollingInterval::KLtsyDispatchSatSetPollingIntervalApiId,data);
data.Close();
//set polling complete (LTSY -> CTSY)
TMockLtsyData1<TUint8> setPollingOffCompletePack(pollingOffInterval);
setPollingOffCompletePack.SerialiseL(data);
iMockLTSY.CompleteL(MLtsyDispatchSatSetPollingInterval::KLtsyDispatchSatSetPollingIntervalApiId,KErrNone,data);
data.Close();
//terminal response for inital proactive command request (CTSY -> LTSY)
RSat::TPCmdResult pollingOffGeneralResult = RSat::KSuccess;
GenerateAndWaitForTermRspL(KPollingOffPCmdNumber,KPollingOff,KCommandQualifier,RSat::EPollingOff,pollingOffGeneralResult,KNullDesC8,KErrNone);
CleanupStack::PopAndDestroy(&data);
CleanupStack::PopAndDestroy(this);
}
/**
@SYMTestCaseID BA-CTSYD-DIS-SAT-UC0008
@SYMComponent telephony_ctsy
@SYMTestCaseDesc Test support in CTSY Mo Short Message Control
@SYMTestPriority High
@SYMTestActions Send up a "send sms" proactive command, send the SMS via RSat, then handle the mo sms control envelope
and response, and complete a terminal response
@SYMTestExpectedResults Pass
@SYMTestType CT
*/
void CCTsySatFU::TestUseCase0008L()
{
OpenEtelServerL(EUseExtendedError);
CleanupStack::PushL(TCleanupItem(Cleanup,this));
OpenPhoneL();
OpenSatL(KSmsMoControlEnabled);
//setup local info as this is appended to the MO SHORT MESSAGE CONTROL ENVELOPE
SetupLocalInfoL(KLocationAreaCode,KCellId,KOperatorCode,KLocationStatusNormalService);
RBuf8 data;
CleanupClosePushL(data);
TRequestStatus reqStatus;
TRequestStatus sendMessageReqStatus;
TRequestStatus moSmControlRequestReqStatus;
//send a Sm proactive command
TUint8 pcmdCode = KSendShortMessage;
TMockLtsyData1<TUint8> expPCmdNotificationLtsyData(pcmdCode);
expPCmdNotificationLtsyData.SerialiseL(data);
iMockLTSY.ExpectL(MLtsyDispatchSatPCmdNotification::KLtsyDispatchSatPCmdNotificationApiId, data );
expPCmdNotificationLtsyData.Close();
const TUint8 KPCmdNumber = 123;
const TUint8 KCommandQualifier = 0; //0 = packing not required, 1 = SMS packing by the ME required.
TTlv tlv;
tlv.Begin(KBerTlvProactiveSimCommandTag);
tlv.AddTag(KTlvCommandDetailsTag);
tlv.AddByte(KPCmdNumber);//ETLV_CommandNumber
tlv.AddByte(KSendShortMessage); //ETLV_TypeOfCommand
tlv.AddByte(KCommandQualifier); // 0 = packing not required, 1 = SMS packing by the ME required.
tlv.AddTag(KTlvDeviceIdentityTag);
tlv.AddByte(KSim);
tlv.AddByte(KMe);
_LIT8(KAlphaId8,"Text To Display");
_LIT16(KAlphaId16,"Text To Display");
tlv.AddTag(KTlvAlphaIdentifierTag);
tlv.AddData(KAlphaId8);
tlv.AddTag(KTlvAddressTag);
tlv.AddByte(0); //Ton NPI
tlv.AddData(_L8("Number"));
TUint8 tpduProtocolByte = 0;
tpduProtocolByte |= 0x01 << 0;//TP Message Type Indicator, bit 0-1 - SMS SUBMIT
tpduProtocolByte |= 0x00 << 2;//TP Reject Duplicates, bit 2 - Instruct the SC to accept an SMS SUBMIT for an SM still held in the
//SC which has the same TP MR and the same TP DA as a previously submitted SM from the same OA.
tpduProtocolByte |= 0x00 << 3; //TP Validity Period Format, bit 3-4 - TP VP field not present
tpduProtocolByte |= 0x00 << 5; //TP Status Report Request, bit 5 - A status report is not requested
tpduProtocolByte |= 0x00 << 6; //TP User Data Header Indicator, bit 6 - The TP UD field contains only the short message
tpduProtocolByte |= 0x00 << 7; //TP Reply Path, bit 7- TP Reply Path parameter is not set in this SMS SUBMIT/DELIVER
const TUint8 KProtocolIdentifier = 0x7F; //SmsTpduProtcolIdUSimDdl Parameters(1)+TP-OA(min 2)+TP-PID(1)+DCS(1)+TP-SCTS(7)+TP-UDL(2)+TP-UD(?)
const TUint8 KDataCodingScheme = 0x02; //TP Data Coding Scheme (TP DCS)
TTpdu tpdu;
tpdu.Append(tpduProtocolByte);
_LIT8(KOriginatingAddress,"1234567");
tpdu.Append(KOriginatingAddress().Length() * 2); //Number of octets
tpdu.Append(0); //Type of address
tpdu.Append(KOriginatingAddress());
tpdu.Append(KProtocolIdentifier); //TP Protocol Identifier
tpdu.Append(KDataCodingScheme); //TP Data Coding Scheme (TP DCS)
tpdu.Append(_L8("1234567")); //TP Service Centre Time Stamp
_LIT8(KUserData,"User Data");
tpdu.Append(KUserData().Length()); //TP User Data Length
tpdu.Append(KUserData()); //TP User Data
tlv.AddTag(KTlvSmsTpduTag);
tlv.AddData(tpdu);
TDesC8* tlvDscPtr = &const_cast<TDesC8&>(tlv.End());
TMockLtsyData1<TDesC8*> tlvDscPack(tlvDscPtr);
tlvDscPack.SerialiseL(data);
iMockLTSY.CompleteL(KMockLtsyDispatchSatPcmdIndId,KErrNone,data);
data.Close();
RSat::TSendSmV1 sendSm;
RSat::TSendSmV1Pckg sendSmPckg(sendSm);
iSat.NotifySendSmPCmd(reqStatus,sendSmPckg);
User::WaitForRequest(reqStatus);
ASSERT_EQUALS(reqStatus.Int(),KErrNone);
ASSERT_EQUALS(sendSm.PCmdNumber(),KPCmdNumber);
ASSERT_EQUALS(sendSm.iAlphaId.iStatus,RSat::EAlphaIdProvided);
ASSERT_TRUE(sendSm.iAlphaId.iAlphaId == KAlphaId16);
ASSERT_TRUE(sendSm.iSmsTpdu == tpdu);
_LIT8(KServiceCentreNumber,"123456789");
const RMobilePhone::TMobileTON KMobilePhoneTon = RMobilePhone::ENetworkSpecificNumber;
const RSat::TTypeOfNumber KSatTon = RSat::ENetworkSpecificNumber;
const RMobilePhone::TMobileNPI KMobilePhoneNpi = RMobilePhone::EPrivateNumberPlan;
const RSat::TNumberingPlan KSatNpi = RSat::EPrivateNumberPlan;
RMobileSmsMessaging::TMobileSmsSendAttributesV1 smsSendAttributes;
smsSendAttributes.iFlags = (RMobileSmsMessaging::KSmsDataFormat | RMobileSmsMessaging::KGsmServiceCentre | RMobileSmsMessaging::KMoreToSend);
smsSendAttributes.iDataFormat = RMobileSmsMessaging::EFormatGsmTpdu;
smsSendAttributes.iGsmServiceCentre.iTelNumber.Copy(KServiceCentreNumber);
smsSendAttributes.iGsmServiceCentre.iTypeOfNumber = KMobilePhoneTon;
smsSendAttributes.iGsmServiceCentre.iNumberPlan = KMobilePhoneNpi;
smsSendAttributes.iMore = EFalse; //set False in CSatTsy::SendMessageNoLogging
TDesC8* tpduPtr = &tpdu;
TMockLtsyData4< TDesC8*,
RMobileSmsMessaging::TMobileSmsDataFormat,
RMobilePhone::TMobileAddress,
TBool
> sendMessagePack(tpduPtr, smsSendAttributes.iDataFormat, smsSendAttributes.iGsmServiceCentre, smsSendAttributes.iMore);
sendMessagePack.SerialiseL(data);
iMockLTSY.ExpectL(MLtsyDispatchSmsSendSatSms::KLtsyDispatchSmsSendSatSmsApiId,data);
data.Close();
RSat::TSatSmsV1 satSms;
RSat::TSatSmsV1Pckg satSmsPckg(satSms);
satSms.iBuf = sendSm.iSmsTpdu;
satSms.iServiceCenter.iTelNumber.Copy(KServiceCentreNumber);
satSms.iServiceCenter.iTypeOfNumber = KSatTon;
satSms.iServiceCenter.iNumberPlan = KSatNpi;
RSat::TMoSmControlV1 moSmsControl;
RSat::TMoSmControlV1Pckg moSmsControlPckg(moSmsControl);
iSat.NotifyMoSmControlRequest(moSmControlRequestReqStatus,moSmsControlPckg);
TUint16 msgRef;
iSat.SendMessageNoLogging(sendMessageReqStatus,satSmsPckg,msgRef);
//indicator up from the CTSY to create a Mo Short Message Envelope
//LTSY -> CTSY
//Type of Number (TON) and numbering plan identification (NPI).
//MSB - 1, Type of Number - 011 (Network Specific Number), Numbering Plan - 1001 (Private numbering plan) 10111001 = B9 Hex
const TUint8 KTonAndNpi = TonAndNpi(RMobilePhone::ENetworkSpecificNumber,RMobilePhone::EPrivateNumberPlan);
RBuf8 rpDestinationAddress;
CleanupClosePushL(rpDestinationAddress);
rpDestinationAddress.CreateL(KAddrMaxLength);
rpDestinationAddress.Append(KTonAndNpi); //TON & NPI
rpDestinationAddress.Append(_L8("1234567")); //dummy data not EF(ADN) encoded data
RBuf8 tpDestinationAddress;
CleanupClosePushL(tpDestinationAddress);
tpDestinationAddress.CreateL(KAddrMaxLength);
tpDestinationAddress.Append(KTonAndNpi); //TON & NPI
tpDestinationAddress.Append(_L8("7654321")); //dummy data not EF(ADN) encoded data
TDesC8* rpDestinationAddressPtr = &rpDestinationAddress;
TDesC8* tpDestinationAddressPtr = &tpDestinationAddress;
TMockLtsyData2<TDesC8*,TDesC8*> createMoSmsControlEnvelopPack(rpDestinationAddressPtr,tpDestinationAddressPtr);
createMoSmsControlEnvelopPack.SerialiseL(data);
iMockLTSY.CompleteL(KMockLtsyDispatchSatCreateMoSmControlEnvelopeIndId, KErrNone, data);
data.Close();
//constructed envelope by the CTSY send down (see 3GPP TS 11.14 - Structure of ENVELOPE (MO SHORT MESSAGE CONTROL))
//CTSY -> LTSY
TTlv moSmControlEnvelope;
moSmControlEnvelope.Begin(KBerTlvMoShortMessageControlTag);
//device identities
moSmControlEnvelope.AddTag(KTlvDeviceIdentityTag);
moSmControlEnvelope.AddByte(KMe);
moSmControlEnvelope.AddByte(KSim);
// Address Data object 1
moSmControlEnvelope.AddTag(KTlvAddressTag);
moSmControlEnvelope.AddData(rpDestinationAddress);
// Address Data object 2
moSmControlEnvelope.AddTag(KTlvAddressTag);
moSmControlEnvelope.AddData(tpDestinationAddress);
// Add location information data, start with the tag
moSmControlEnvelope.AddTag(KTlvLocationInformationTag);
// Append Mobile Country & Network Codes, 3 bytes
moSmControlEnvelope.AddData(KOperatorCode);
// Append Location Area Code (LAC)
moSmControlEnvelope.AddByte(KLocationAreaCode >> KShiftBitsToGetMSB);//msb
moSmControlEnvelope.AddByte(KLocationAreaCode & 0x00FF);//lsb
// Append Cell Id
moSmControlEnvelope.AddByte(KCellId >> KShiftBitsToGetMSB); //msb
moSmControlEnvelope.AddByte(KCellId & 0x00FF); //lsb
// Prepare data
TDesC8* moSmControlEnvelopeTlvPtr = &const_cast<TDesC8&>(moSmControlEnvelope.End());
TMockLtsyData1<TDesC8*> moSmsControlEnvelopePack(moSmControlEnvelopeTlvPtr);
moSmsControlEnvelopePack.SerialiseL(data);
iMockLTSY.ExpectL(MLtsyDispatchSatCallAndSmsControlEnvelope::KLtsyDispatchSatCallAndSmsControlEnvelopeApiId,data);
data.Close();
WaitForMockLTSYTerminated();
//Response from the SIM
//LTSY -> CTSY
TTlv moSmsControlResponseTlv;
TUint8 result = KMoSmCtrlResultAllowed;
_LIT8(KAlphaIdData8,"Sending an SMS");
_LIT16(KAlphaIdData16,"Sending an SMS");
moSmsControlResponseTlv.Begin(result);
moSmsControlResponseTlv.AddTag(KTlvAddressTag);
moSmsControlResponseTlv.AddData(rpDestinationAddress);
moSmsControlResponseTlv.AddTag(KTlvAddressTag);
moSmsControlResponseTlv.AddData(tpDestinationAddress);
moSmsControlResponseTlv.AddTag(KTlvAlphaIdentifierTag);
moSmsControlResponseTlv.AddData(KAlphaIdData8);
TDesC8* moSmsControlResponseTlvDesPtr = &const_cast<TDesC8&>( moSmsControlResponseTlv.End());
TMockLtsyData1<TDesC8*> moSmsControlResponsePack(moSmsControlResponseTlvDesPtr);
moSmsControlResponsePack.SerialiseL(data);
iMockLTSY.CompleteL(KMockLtsyDispatchSatMoSmControlEnvelopeResponseIndId,KErrNone,data);
data.Close();
TMockLtsyData3<TUint8,TDesC8*,TDesC8*> moSmControlResponseDataPack(result,rpDestinationAddressPtr,tpDestinationAddressPtr);
moSmControlResponseDataPack.SerialiseL(data);
iMockLTSY.ExpectL(MLtsyDispatchSatSmControlResponseData::KLtsyDispatchSatSmControlResponseDataApiId,data);
data.Close();
User::WaitForRequest(moSmControlRequestReqStatus);
ASSERT_EQUALS(moSmControlRequestReqStatus.Int(),KErrNone);
ASSERT_EQUALS(moSmsControl.iResult,RSat::EAllowedNoModification);
ASSERT_EQUALS(moSmsControl.iAlphaId.iStatus,RSat::EAlphaIdProvided);
ASSERT_TRUE(moSmsControl.iAlphaId.iAlphaId == KAlphaIdData16);
//LTSY -> CTSY the SMS has been sent
iMockLTSY.CompleteL(MLtsyDispatchSmsSendSatSms::KLtsyDispatchSmsSendSatSmsApiId,KErrNone);
User::WaitForRequest(sendMessageReqStatus);
ASSERT_EQUALS(sendMessageReqStatus.Int(),KErrNone);
//generate the terminal response to the send sms proactive command.
RSat::TSendSmRspV1 sendSmRsp;
sendSmRsp.iGeneralResult = RSat::KSuccess;
sendSmRsp.iInfoType = RSat::KNoAdditionalInfo;
sendSmRsp.SetPCmdNumber(KPCmdNumber);
RSat::TSendSmRspV1Pckg sendSmRspPckg(sendSmRsp);
GenerateAndWaitForTermRspL(KPCmdNumber,KSendShortMessage,KCommandQualifier,RSat::ESendSm,RSat::KSuccess,sendSmRspPckg,KErrNone);
CleanupStack::PopAndDestroy(&tpDestinationAddress);
CleanupStack::PopAndDestroy(&rpDestinationAddress);
CleanupStack::PopAndDestroy(&data);
CleanupStack::PopAndDestroy(this);
}
/**
@SYMTestCaseID BA-CTSYD-DIS-SAT-UC0009
@SYMComponent telephony_ctsy
@SYMTestCaseDesc Test support in CTSY for Sms PP & Cell Broadcast Data Download
@SYMTestPriority High
@SYMTestActions Invokes CTSY Internal, create both SmsPP and Cell Broadcast envelopes
@SYMTestExpectedResults Pass
@SYMTestType CT
*/
void CCTsySatFU::TestUseCase0009L()
{
OpenEtelServerL(EUseExtendedError);
CleanupStack::PushL(TCleanupItem(Cleanup,this));
OpenPhoneL();
OpenSatL(KSmsPpDownloadEnabled);
RBuf8 data;
CleanupClosePushL(data);
TRequestStatus reqStatus;
/*********************************SMS PP Download********************************/
//test the case when SMS PP Data Download is allocated in NAA (KSmsPpDownloadEnabled)
//MSB - 1, Type of Number - 011 (Network Specific Number), Numbering Plan - 1001 (Private numbering plan)
//10111001 = B9 Hex
RMobilePhone::TMobileTON KTon = RMobilePhone::ENetworkSpecificNumber;
RMobilePhone::TMobileNPI KNpi = RMobilePhone::EPrivateNumberPlan;
const TUint8 KTonAndNpi = TonAndNpi(KTon,KNpi); //Type of Number (TON) and numbering plan identification (NPI).
RBuf8 rpOriginatingAddress;
CleanupClosePushL(rpOriginatingAddress);
rpOriginatingAddress.CreateL(KAddrMaxLength);
rpOriginatingAddress.Append(KTonAndNpi); //TON & NPI
_LIT8(KRpNumber,"1234567");
rpOriginatingAddress.Append(KRpNumber); //dummy data not EF(ADN) encoded data
RBuf8 smsDeliveryTpdu;
CleanupClosePushL(smsDeliveryTpdu);
smsDeliveryTpdu.CreateL(RMobileSmsMessaging::KGsmTpduSize);
TUint8 tpduProtocolByte = 0;
tpduProtocolByte |= 0x01 << 0;//TP Message Type Indicator, bit 0-1 - SMS SUBMIT
tpduProtocolByte |= 0x00 << 2;//TP Reject Duplicates, bit 2 - Instruct the SC to accept an SMS SUBMIT for an SM still held in the
//SC which has the same TP MR and the same TP DA as a previously submitted SM from the same OA.
tpduProtocolByte |= 0x00 << 3; //TP Validity Period Format, bit 3-4 - TP VP field not present
tpduProtocolByte |= 0x00 << 5; //TP Status Report Request, bit 5 - A status report is not requested
tpduProtocolByte |= 0x00 << 6; //TP User Data Header Indicator, bit 6 - The TP UD field contains only the short message
tpduProtocolByte |= 0x00 << 7; //TP Reply Path, bit 7- TP Reply Path parameter is not set in this SMS SUBMIT/DELIVER
const TUint8 KProtocolIdentifier = 0x7F; //SmsTpduProtcolIdUSimDdl Parameters(1)+TP-OA(min 2)+TP-PID(1)+DCS(1)+TP-SCTS(7)+TP-UDL(2)+TP-UD(?)
const TUint8 KDataCodingScheme = 0x02; //TP Data Coding Scheme (TP DCS)
smsDeliveryTpdu.Append(tpduProtocolByte);
_LIT8(KOriginatingAddress,"1234567");
smsDeliveryTpdu.Append(KOriginatingAddress().Length() * 2); //Number of octets
smsDeliveryTpdu.Append(0); //Type of address
smsDeliveryTpdu.Append(KOriginatingAddress());
smsDeliveryTpdu.Append(KProtocolIdentifier); //TP Protocol Identifier
smsDeliveryTpdu.Append(KDataCodingScheme); //TP Data Coding Scheme (TP DCS)
smsDeliveryTpdu.Append(_L8("1234567")); //TP Service Centre Time Stamp
_LIT8(KUserData,"User Data");
smsDeliveryTpdu.Append(KUserData().Length()); //TP User Data Length
smsDeliveryTpdu.Append(KUserData()); //TP User Data
TDesC8* rpOriginatingAddressPtr = &rpOriginatingAddress;
TDesC8* smsDeliveryTpduPtr = &smsDeliveryTpdu;
//Indicator of a Sms-Point to Point-Download - LTSY -> CTSY
TMockLtsyData2<TDesC8*,TDesC8*> smsPpDatadownloadIndDataPack(rpOriginatingAddressPtr,smsDeliveryTpduPtr);
smsPpDatadownloadIndDataPack.SerialiseL(data);
iMockLTSY.CompleteL(KMockLtsyDispatchSatCreateSmsPpDownloadEnvelopeIndId,KErrNone,data);
data.Close();
TTlv smsPpDownloadEnvelope;
smsPpDownloadEnvelope.Begin(KBerTlvSmsPpDownloadTag);
smsPpDownloadEnvelope.AddTag(KTlvDeviceIdentityTag);
smsPpDownloadEnvelope.AddByte(KNetwork);
smsPpDownloadEnvelope.AddByte(KSim);
smsPpDownloadEnvelope.AddTag(KTlvAddressTag);
smsPpDownloadEnvelope.AddData(rpOriginatingAddress);
smsPpDownloadEnvelope.AddTag(KTlvSmsTpduTag );
smsPpDownloadEnvelope.AddData(smsDeliveryTpdu);
// Prepare data
TDesC8* smsPpDownloadEnvelopeTlv = &const_cast<TDesC8&>(smsPpDownloadEnvelope.End());
//handle the envelope as a result of the Indicator CTSY -> LTSY
TMockLtsyData1<TDesC8*> smsPpDdlExpectDataPack(smsPpDownloadEnvelopeTlv);
smsPpDdlExpectDataPack.SerialiseL(data);
iMockLTSY.ExpectL(MLtsyDispatchSatSmsPpDownloadEnvelope::KLtsyDispatchSatSmsPpDownloadEnvelopeApiId,data,KErrNone);
data.Close();
WaitForMockLTSYTerminated();
//test the case when SMS PP Data Download is not allocated in NAA
//re-open RSat with Sms PP Download Disabled
iSat.Close();
OpenSatL(); //KSmsPpDownloadEnabled - Disabled
//Indicator of a Sms-Point to Point-Download - LTSY -> CTSY
smsPpDatadownloadIndDataPack.SerialiseL(data);
iMockLTSY.CompleteL(KMockLtsyDispatchSatCreateSmsPpDownloadEnvelopeIndId,KErrNone,data);
data.Close();
RMobileSmsStore::TMobileGsmSmsEntryV1 mobileGsmSmsEntry;
mobileGsmSmsEntry.iIndex = -1; //-1 means 1st free slot. See Etel MM API Specification, 8.1.4 Write Entry.
mobileGsmSmsEntry.iServiceCentre.iTypeOfNumber = KTon;
mobileGsmSmsEntry.iServiceCentre.iNumberPlan = KNpi;
TBuf8<RSat::KMaxMobileTelNumberSize> address8;
TPtrC8 rpNumber(KRpNumber);
TSatUtility::BCDToAscii(rpNumber,address8);
for(TInt i = 0; i < address8.Length(); ++i)
{
mobileGsmSmsEntry.iServiceCentre.iTelNumber.Append(address8[i]);
}
mobileGsmSmsEntry.iMsgData.Copy(smsDeliveryTpdu);
//the request to do a sms store (CTSY->LTSY)
TMockLtsyData1<RMobileSmsStore::TMobileGsmSmsEntryV1> mobileGsmSmsEntryDataPack(mobileGsmSmsEntry);
mobileGsmSmsEntryDataPack.SerialiseL(data);
iMockLTSY.ExpectL(MLtsyDispatchPhonebookSmsStoreWriteEntry::KLtsyDispatchPhonebookSmsStoreWriteEntryApiId,data,KErrNone);
data.Close();
//the complete to the sms stote (LTSY -> CTSY)
TInt location = 100;
TBool receivedClass2ToBeResent = ETrue;
TMockLtsyData2<TInt, TBool> smsWriteEntryCompPack(location, receivedClass2ToBeResent);
smsWriteEntryCompPack.SerialiseL(data);
iMockLTSY.CompleteL(MLtsyDispatchPhonebookSmsStoreWriteEntry::KLtsyDispatchPhonebookSmsStoreWriteEntryApiId,KErrNone, data);
data.Close();
WaitForMockLTSYTerminated();
//Indicator to create the Sms Delivery Report
//LTSY -> CTSY
iMockLTSY.CompleteL(KMockLtsyDispatchSatCreateSmsDeliveryReportIndId,KErrNone);
RBuf8 smsDeliveryReportTpdu;
CleanupClosePushL(smsDeliveryReportTpdu);
smsDeliveryReportTpdu.CreateL(RMobileSmsMessaging::KGsmTpduSize);
smsDeliveryReportTpdu.Append(tpduProtocolByte); //TP-parameters
smsDeliveryReportTpdu.Append(0x07); //TP-Parameter-Indicator -KAllOptParamsPresent
smsDeliveryReportTpdu.Append(KProtocolIdentifier); //TP-Protocol-Identifier
smsDeliveryReportTpdu.Append(KDataCodingScheme); //TP-Data-Coding-Scheme
smsDeliveryReportTpdu.Append(KUserData().Length()); //TP User Data Length
smsDeliveryReportTpdu.Append(KUserData()); //TP User Data
TDesC8* smsDeliveryReportTpduPtr = &smsDeliveryReportTpdu;
//The Sms Delivery report expect Tpdu as a result from the indicator
//CTSY -> LTSY
TMockLtsyData1<TDesC8*> smsDeliveryReportExpectDataPack(smsDeliveryReportTpduPtr);
smsDeliveryReportExpectDataPack.SerialiseL(data);
iMockLTSY.ExpectL(MLtsyDispatchSatSmsDeliverReport::KLtsyDispatchSatSmsDeliverReportApiId,data,KErrNone);
data.Close();
//no associated complete to MLtsyDispatchSatSmsDeliverReport::KLtsyDispatchSatSmsDeliverReportApiId
WaitForMockLTSYTerminated();
/*********************************Cell Broadcast********************************/
RBuf8 cellBroadcastPage;
CleanupClosePushL(cellBroadcastPage);
_LIT8(KCellBroadCastPageData,"Page Data");
cellBroadcastPage.CreateL(92/*KCbsMsgMaxLength*/);
cellBroadcastPage.Append(KCellBroadCastPageData);
TDesC8* cellBroadcastPagePtr = &cellBroadcastPage;
TMockLtsyData1<TDesC8*> cellBroadcastCompleteLtsyData(cellBroadcastPagePtr);
cellBroadcastCompleteLtsyData.SerialiseL(data);
iMockLTSY.CompleteL(KMockLtsyDispatchSatCreateCellBroadcastEnvelopeIndId, KErrNone, data);
data.Close();
TTlv cellBroadcastEnvelope;
// Tag
cellBroadcastEnvelope.Begin(KBerTlvCellBroadcastTag);
// Device identities
cellBroadcastEnvelope.AddTag(KTlvDeviceIdentityTag);
cellBroadcastEnvelope.AddByte(KNetwork);
cellBroadcastEnvelope.AddByte(KSim);
// Cell broadcast page
cellBroadcastEnvelope.AddTag(KTlvCellBroadcastPageTag);
cellBroadcastEnvelope.AddData(KCellBroadCastPageData);
// Prepare data
// Prepare data
TDesC8* cellBroadcastEnvelopePtr = &const_cast<TDesC8&>(cellBroadcastEnvelope.End());
TMockLtsyData1<TDesC8*> cellBroadcastExpLtsyData(cellBroadcastEnvelopePtr);
cellBroadcastExpLtsyData.SerialiseL(data);
iMockLTSY.ExpectL(MLtsyDispatchSatCellBroadcastEnvelope::KLtsyDispatchSatCellBroadcastEnvelopeApiId,data);
data.Close();
WaitForMockLTSYTerminated();
CleanupStack::PopAndDestroy(&cellBroadcastPage);
CleanupStack::PopAndDestroy(&smsDeliveryReportTpdu);
CleanupStack::PopAndDestroy(&smsDeliveryTpdu);
CleanupStack::PopAndDestroy(&rpOriginatingAddress);
CleanupStack::PopAndDestroy(2, this); // data, this
}
/*
@SYMTestCaseID BA-CTSYD-DIS-SAT-UC0010
@SYMComponent telephony_ctsy
@SYMTestCaseDesc Test
@SYMTestPriority High
@SYMTestActions Testing of Refresh Commands
@SYMTestExpectedResults Pass
@SYMTestType CT
*/
void CCTsySatFU::TestUseCase0010L()
{
OpenEtelServerL(EUseExtendedError);
CleanupStack::PushL(TCleanupItem(Cleanup,this));
OpenPhoneL();
OpenSatL();
const TUint8 KPCmdNumber = 101;
const TUint8 KCommandQualifier = KSimInitFullFileChangeNotification; //zero is NAA Initialization and Full File Change Notification
RefreshNoTerminalRspL(KPCmdNumber, KCommandQualifier, KErrNone);
//Do the Client side refresh
//once finished generate the Terminal response
RSat::TRefreshRspV1 refreshTerminalRsp;
refreshTerminalRsp.iGeneralResult = RSat::KSuccess;
refreshTerminalRsp.iInfoType = RSat::KNoAdditionalInfo;
refreshTerminalRsp.iAdditionalInfo = KNullDesC;
refreshTerminalRsp.SetPCmdNumber(KPCmdNumber);
RSat::TRefreshRspV1Pckg refreshTerminalRspPckg(refreshTerminalRsp);
GenerateAndWaitForTermRspL(KPCmdNumber,KRefresh,KCommandQualifier,RSat::ERefresh,RSat::KSuccess,refreshTerminalRspPckg,KErrNone);
AssertMockLtsyStatusL();
//for a coverage test complete MLtsyDispatchSatTerminalRsp::KLtsyDispatchSatTerminalRspApiId with an error
RefreshNoTerminalRspL(KPCmdNumber, KCommandQualifier, KErrNone);
GenerateAndWaitForTermRspL(KPCmdNumber,KRefresh,KCommandQualifier,RSat::ERefresh,RSat::KSuccess,refreshTerminalRspPckg,KErrGeneral);
AssertMockLtsyStatusL();
CleanupStack::PopAndDestroy(this);
}
//
// Other unit tests
//
/**
@SYMTestCaseID BA-CTSYD-DIS-SAT-UN0001
@SYMComponent telephony_ctsy
@SYMTestCaseDesc Test support in CTSY for notify local info Proactive Command sequence
@SYMTestPriority High
@SYMTestActions Invokes PROVIDE LOCAL INFO proactive command, RSat::NotifyLocalInfoPCmd
@SYMTestExpectedResults Pass
@SYMTestType UT
*/
void CCTsySatFU::TestUnit0001L()
{
OpenEtelServerL(EUseExtendedError);
CleanupStack::PushL(TCleanupItem(Cleanup,this));
OpenPhoneL();
OpenSatL();
RBuf8 data;
CleanupClosePushL(data);
//
//First provide local info (langauge) - this one gets sent up to the RSat client to deal with
TUint8 pcmdCode = KProvideLocalInformation;
TMockLtsyData1<TUint8> expLtsyData(pcmdCode);
expLtsyData.SerialiseL(data);
iMockLTSY.ExpectL(MLtsyDispatchSatPCmdNotification::KLtsyDispatchSatPCmdNotificationApiId,data);
data.Close();
const TUint8 KPCmdNumber = 101;
TTlv tlv;
tlv.Begin(KBerTlvProactiveSimCommandTag);
tlv.AddTag(KTlvCommandDetailsTag);
tlv.AddByte(KPCmdNumber);//ETLV_CommandNumber
tlv.AddByte(KProvideLocalInformation); //ETLV_TypeOfCommand
tlv.AddByte(RSat::KProvideLocalInfoLanguage);//ETLV_CommandQualifier / KCommandQualifier
tlv.AddTag(KTlvDeviceIdentityTag);
tlv.AddByte(KSim);//ETLV_SourceDeviceIdentity
tlv.AddByte(KMe);
TDesC8* tlvDscPtr = &const_cast<TDesC8&>(tlv.End());
TMockLtsyData1<TDesC8*> tlvDscPack(tlvDscPtr);
tlvDscPack.SerialiseL(data);
iMockLTSY.CompleteL(KMockLtsyDispatchSatPcmdIndId,KErrNone,data);
data.Close();
TUint16 locationAreaCode = KLocationAreaCode;
TUint16 cellId = KCellId;
TBuf8<KOperatorCodeLength> operatorCode(KOperatorCode);
TDesC8* opCodePtr = &operatorCode;
TMockLtsyData3<TUint16,TUint16,TDesC8*> localInfoPCmdDataPack(locationAreaCode,cellId,opCodePtr);
localInfoPCmdDataPack.SerialiseL(data);
RSat::TLocalInfoV3 localInfo;
RSat::TLocalInfoV3Pckg localInfoPck(localInfo);
localInfo.iInfoType = RSat::KProvideLocalInfo;
TRequestStatus stat;
iSat.NotifyLocalInfoPCmd(stat, localInfoPck);
User::WaitForRequest(stat);
ASSERT_EQUALS(stat.Int(),KErrNone);
ASSERT_EQUALS(localInfo.PCmdNumber(),KPCmdNumber);
ASSERT_EQUALS(localInfo.iDevideId,RSat::KUICC);
ASSERT_EQUALS(localInfo.iInfoType,RSat::KProvideLocalInfoLanguage);
//Now send the terminal response
_LIT(KTermRespLangCode,"EN"); //language code
TTlv termRespAddInfo;
termRespAddInfo.AddTag( KTlvLanguageTag );
TBuf8<2> character;
TSatUtility::Copy16to8LE( KTermRespLangCode, character);
termRespAddInfo.AddData( character );
TPtrC8 termRespAddInfoDes= termRespAddInfo.GetDataWithoutTopLevelTag();
RSat::TLocalInfoRspV3 resp;
RSat::TLocalInfoRspV3Pckg respPck(resp);
resp.iGeneralResult = RSat::KSuccess;
//resp.iInfoType = RSat::KLocalInformation;
resp.iInfoType = RSat::KProvideLocalInfoLanguage;
resp.iAdditionalInfo = KTermRespLangCode; //language code
resp.SetPCmdNumber(KPCmdNumber);
const TDesC8& KGeneralResultAddInfo = KNullDesC8;
GenerateAndWaitForTermRspL( KPCmdNumber,
KProvideLocalInformation,
RSat::KProvideLocalInfoLanguage,
RSat::ELocalInfo,
RSat::KSuccess,
KGeneralResultAddInfo,
respPck,
termRespAddInfoDes,
KErrNone);
AssertMockLtsyStatusL();
CleanupStack::PopAndDestroy(2, this); // data, this
}
/**
@SYMTestCaseID BA-CTSYD-DIS-SAT-UN0002
@SYMComponent telephony_ctsy
@SYMTestCaseDesc Test support in CTSY for notify of a Access Technology change
@SYMTestPriority High
@SYMTestActions Invokes RSat::EventDownload, CallbackSatAccessTechnologyChangeInd
@SYMTestExpectedResults Pass
@SYMTestType UT
*/
void CCTsySatFU::TestUnit0002L()
{
OpenEtelServerL(EUseExtendedError);
CleanupStack::PushL(TCleanupItem(Cleanup,this));
OpenPhoneL();
OpenSatL();
RBuf8 data;
CleanupClosePushL(data);
TRequestStatus reqStatus;
const TUint8 KPCmdNumber = 123;
SetupEventListL(KPCmdNumber,KEventAccessTechnologyChange);
TUint8 currentAccessTechnology = 0x06; //i.e. TIA/EIA/IS-2000;
//MockLTSY complete, an access technology change up from the LTSY to the CTSY
TMockLtsyData1<TUint8> accTechPack(currentAccessTechnology);
accTechPack.SerialiseL(data);
iMockLTSY.CompleteL(KMockLtsyDispatchSatAccessTechnologyChangeIndId, KErrNone, data);
data.Close();
//MockLTSY expect, the CTSY sends down a Event Download to the LTSY
// Create envelope
TTlv envelope;
envelope.Begin(KBerTlvEventDownloadTag);
// Event list
envelope.AddTag(KTlvEventListTag);
envelope.AddByte(KEventAccessTechnologyChange);
// Device identities
envelope.AddTag(KTlvDeviceIdentityTag);
envelope.AddByte(KMe);
envelope.AddByte(KSim);
// channel status
envelope.AddTag(KTlvAccessTechnologyTag);
envelope.AddByte(currentAccessTechnology);
// Prepare data
WaitForEventDownloadL(RSat::KAccessTechnologyChange,envelope.End());
AssertMockLtsyStatusL();
CleanupStack::PopAndDestroy(&data);
CleanupStack::PopAndDestroy(this);
}
/**
@SYMTestCaseID BA-CTSYD-DIS-SAT-UN0003
@SYMComponent telephony_ctsy
@SYMTestCaseDesc tests EVENT DOWNLOAD (LOCATION STATUS) and (via SET UP EVENT LIST pcmd)
@SYMTestPriority High
@SYMTestActions Invokes RSat::EventDownload, CallbackSatLocationStatusInd
@SYMTestExpectedResults Pass
@SYMTestType UT
*/
void CCTsySatFU::TestUnit0003L()
{
OpenEtelServerL(EUseExtendedError);
CleanupStack::PushL(TCleanupItem(Cleanup,this));
OpenPhoneL();
OpenSatL();
RBuf8 data;
CleanupClosePushL(data);
TRequestStatus reqStatus;
const TUint8 KPCmdNumber = 123;
SetupEventListL(KPCmdNumber,KEventLocationStatus);
//first scenario is that there is no location service available.
TUint8 locationStatus = KLocationStatusNoService;
_LIT8(KEmptyOpCode,"");
TDesC8* operatorCode=&const_cast<TDesC8&>(KEmptyOpCode());
TUint16 locationAreaCode = 0;
TUint16 cellId = 0;
TMockLtsyData4<TUint8, TDesC8*, TUint16, TUint16 > lcnStat(locationStatus,operatorCode,locationAreaCode,cellId);
data.Close();
lcnStat.SerialiseL(data);
iMockLTSY.CompleteL(KMockLtsyDispatchSatLocationStatusIndId,KErrNone,data);
// Create envelope
TTlv envelope;
envelope.Begin(KBerTlvEventDownloadTag);
// Event list
envelope.AddTag(KTlvEventListTag);
envelope.AddByte(KEventLocationStatus);
// Device identities
envelope.AddTag(KTlvDeviceIdentityTag);
envelope.AddByte(KMe);
envelope.AddByte(KSim);
// location status
envelope.AddTag(KTlvLocationStatusTag);
envelope.AddByte(locationStatus);
WaitForEventDownloadL(RSat::KLocationStatus,envelope.End());
//second scenario is that location status IS available
locationStatus = KLocationStatusNormalService;
_LIT8(KNonEmptyOperator,"gb");
operatorCode = &const_cast<TDesC8&>(KNonEmptyOperator());
locationAreaCode = 18;
cellId = 19;
data.Close();
lcnStat.SerialiseL(data);
iMockLTSY.CompleteL(KMockLtsyDispatchSatLocationStatusIndId,KErrNone,data);
//MockLTSY expect, the CTSY sends down a Event Download to the LTSY
// Create envelope
envelope.Begin(KBerTlvEventDownloadTag);
// Event list
envelope.AddTag(KTlvEventListTag);
envelope.AddByte(KEventLocationStatus);
// Device identities
envelope.AddTag(KTlvDeviceIdentityTag);
envelope.AddByte(KMe);
envelope.AddByte(KSim);
// location status
envelope.AddTag(KTlvLocationStatusTag);
envelope.AddByte(locationStatus);
// location info
envelope.AddTag(KTlvLocationInformationTag); //location information varies depending on access technology
envelope.AddData(*operatorCode);
envelope.AddByte( TUint8( locationAreaCode >> KShiftBitsToGetMSB ) );// Hi byte
envelope.AddByte( TUint8( locationAreaCode >> KShiftBitsToGetLSB ) );// Lo byte
envelope.AddByte( TUint8( cellId >> KShiftBitsToGetMSB ) ); // Hi byte
envelope.AddByte( TUint8( cellId >> KShiftBitsToGetLSB ) ); // Lo byte
WaitForEventDownloadL(RSat::KLocationStatus,envelope.End());
AssertMockLtsyStatusL();
CleanupStack::PopAndDestroy(&data);
CleanupStack::PopAndDestroy(this);
}
/*
* UNSUPPORTED due to being used internally by sat tsy
*
case ESatGetMeSideSatProfile:
case ESatClientSatProfileIndication:
case ESatUsatClientReadyIndication:
case ESatGetProvisioningRefFile:
case ESatNotifyRefreshRequired:
// Notifications
case ESatNotifyPerformCardApduPCmd:
case ESatNotifyPowerOffCardPCmd:
case ESatNotifyPowerOnCardPCmd:
case ESatNotifyGetReaderStatusPCmd:
case ESatNotifyRunAtCommandPCmd:
case ESatNotifyPollingOff:
case ESatNotifyPollingInterval:
case ESatNotifyServiceSearchPCmd:
case ESatNotifyGetServiceInfoPCmd:
case ESatNotifyDeclareServicePCmd:
case ESatNotifyProactiveSimSessionStart:
case ESatNotifyTimerExpiration:
case ESatNotifyTimerMgmtPCmd:
case ESatNotifyTsyStateUpdated:
*/
/**
@SYMTestCaseID BA-CTSYD-DIS-SAT-UN0004
@SYMComponent telephony_ctsy
@SYMTestCaseDesc Test of Call Connect and Call Disconnect Events from the LTSY
@SYMTestPriority High
@SYMTestActions Invokes RSat::EventDownload, CallbackSatCallConnectedInd, CallbackSatCallDisconnectedInd
@SYMTestExpectedResults Pass
@SYMTestType UT
*/
void CCTsySatFU::TestUnit0004L()
{
OpenEtelServerL(EUseExtendedError);
CleanupStack::PushL(TCleanupItem(Cleanup,this));
OpenPhoneL();
OpenSatL();
RBuf8 data;
CleanupClosePushL(data);
TRequestStatus reqStatus;
//test call connected
const TUint8 KPCmdNumber = 124;
const TUint8 KTransactionId = 111;
SetupEventListL(KPCmdNumber,KEventCallConnected);
TUint8 transactionId = KTransactionId;
TBool nearEnd = EFalse; //i.e. MO
TMockLtsyData2<TUint8,TBool> callConnectedTechPack(transactionId,nearEnd);
callConnectedTechPack.SerialiseL(data);
iMockLTSY.CompleteL(KMockLtsyDispatchSatCallConnectedIndId, KErrNone, data);
data.Close();
// Create envelope
TTlv callConnectEnvelope;
callConnectEnvelope.Begin( KBerTlvEventDownloadTag );
// Event list
callConnectEnvelope.AddTag(KTlvEventListTag);
callConnectEnvelope.AddByte(KEventCallConnected);
// Device identities
callConnectEnvelope.AddTag(KTlvDeviceIdentityTag);
callConnectEnvelope.AddByte(nearEnd ? KMe : KNetwork);
callConnectEnvelope.AddByte(KSim);
// Transaction identifier
callConnectEnvelope.AddTag(KTlvTransactionIdentifierTag);
callConnectEnvelope.AddByte(KTransactionId);
// Prepare data
WaitForEventDownloadL(RSat::KCallConnected,callConnectEnvelope.End());
//test call disconnect
SetupEventListL(KPCmdNumber,KEventCallDisconnected);
const TUint8 KMaxCauseLength = 248;
RBuf8 cause;
CleanupClosePushL(cause);
cause.CreateL(KMaxCauseLength);
cause.Append(_L8("1234567"));
TDesC8* causePtr = &cause;
TMockLtsyData3<TUint8,TBool,TDesC8*> callDisconnectedLtsyData(transactionId,nearEnd,causePtr);
callDisconnectedLtsyData.SerialiseL(data);
iMockLTSY.CompleteL(KMockLtsyDispatchSatCallDisconnectedIndId, KErrNone, data);
data.Close();
// Create envelope
TTlv callDisconnectedEnvelope;
callDisconnectedEnvelope.Begin(KBerTlvEventDownloadTag);
// Event list
callDisconnectedEnvelope.AddTag(KTlvEventListTag);
callDisconnectedEnvelope.AddByte(KEventCallDisconnected);
// Device identities
callDisconnectedEnvelope.AddTag(KTlvDeviceIdentityTag);
callDisconnectedEnvelope.AddByte(nearEnd ? KMe : KNetwork);
callDisconnectedEnvelope.AddByte(KSim);
// Transaction identifier
callDisconnectedEnvelope.AddTag(KTlvTransactionIdentifierTag);
callDisconnectedEnvelope.AddByte(KTransactionId);
// Cause
if (cause.Length() != 0)
{
callDisconnectedEnvelope.AddTag (KTlvCauseTag);
callDisconnectedEnvelope.AddData(cause);
}
// Prepare data
WaitForEventDownloadL(RSat::KCallDisconnected,callDisconnectedEnvelope.End());
AssertMockLtsyStatusL();
CleanupStack::PopAndDestroy(&cause);
CleanupStack::PopAndDestroy(&data);
CleanupStack::PopAndDestroy(this);
}
/**
@SYMTestCaseID BA-CTSYD-DIS-SAT-UN0005
@SYMComponent telephony_ctsy
@SYMTestCaseDesc Test MT Call event IPC
@SYMTestPriority High
@SYMTestActions Invokes RSat::EventDownload, CallbackSatMtCallInd
@SYMTestExpectedResults Pass
@SYMTestType UT
*/
void CCTsySatFU::TestUnit0005L()
{
OpenEtelServerL(EUseExtendedError);
CleanupStack::PushL(TCleanupItem(Cleanup,this));
OpenPhoneL();
OpenSatL();
RBuf8 data;
CleanupClosePushL(data);
TRequestStatus reqStatus;
const TUint8 KPCmdNumber = 124;
const TUint8 KTransactionId = 201;
SetupEventListL(KPCmdNumber,KEventMTCall);
//Type of Number (TON) and numbering plan identification (NPI).
//MSB - 1, Type of Number - 011 (Network Specific Number), Numbering Plan - 1001 (Private numbering plan) 10111001 = B9 Hex
const TUint8 KTonAndNpi = TonAndNpi(RMobilePhone::ENetworkSpecificNumber,RMobilePhone::EPrivateNumberPlan);
RBuf8 address;
CleanupClosePushL(address);
address.CreateL(KAddrMaxLength);
address.Append(KTonAndNpi);
address.Append(_L8("1234567")); //dummy data not EF(ADN) encoded data
const TInt KSubAddressLength = 100;
RBuf8 subAddress;
CleanupClosePushL(subAddress);
subAddress.CreateL(KSubAddressLength);
subAddress.Append(_L8("12345678910")); //dummy data not EF(ADN) encoded data
TUint8 transactionId = KTransactionId;
TDesC8* addressPtr = &address;
TDesC8* subAddressPtr = &subAddress;
TMockLtsyData3<TUint8,TDesC8*,TDesC8*> mtCallPack(transactionId,addressPtr,subAddressPtr);
mtCallPack.SerialiseL(data);
iMockLTSY.CompleteL(KMockLtsyDispatchSatMtCallIndId, KErrNone, data);
data.Close();
// Create envelope
TTlv envelope;
envelope.Begin(KBerTlvEventDownloadTag);
// Event list
envelope.AddTag(KTlvEventListTag);
envelope.AddByte(KEventMTCall);
// Device identities
envelope.AddTag(KTlvDeviceIdentityTag);
envelope.AddByte(KNetwork);
envelope.AddByte(KSim);
// Transaction identifier
envelope.AddTag(KTlvTransactionIdentifierTag);
envelope.AddByte(KTransactionId);
if(KTonAndNpi != 0)
{
envelope.AddTag(KTlvAddressTag);
envelope.AddByte(KTonAndNpi);
if(address.Length() != 0)
{
envelope.AddData(address.Mid(1)); //chop the Ton and Npi off
}
}
if(subAddress.Length() != 0)
{
envelope.AddTag( KTlvSubaddressTag );
envelope.AddData(subAddress);
}
// Prepare data
WaitForEventDownloadL(RSat::KMTCall,envelope.End());
AssertMockLtsyStatusL();
CleanupStack::PopAndDestroy(&subAddress);
CleanupStack::PopAndDestroy(&address);
CleanupStack::PopAndDestroy(&data);
CleanupStack::PopAndDestroy(this);
}
/**
@SYMTestCaseID BA-CTSYD-DIS-SAT-UN0006
@SYMComponent telephony_ctsy
@SYMTestCaseDesc Timezone change IPCs
@SYMTestPriority High
@SYMTestActions Send an indicator to the CTSY with the new time zone - CallbackSatTimeZoneChangeInd
@SYMTestExpectedResults Pass
@SYMTestType UT
*/
void CCTsySatFU::TestUnit0006L()
{
OpenEtelServerL(EUseExtendedError);
CleanupStack::PushL(TCleanupItem(Cleanup,this));
OpenPhoneL();
OpenSatL();
RBuf8 data;
CleanupClosePushL(data);
TRequestStatus reqStatus;
const TUint8 KTimeZone = 255;
//test and time zone update
TUint8 timeZone = KTimeZone;
TMockLtsyData1<TUint8> timeZonePack(timeZone);
timeZonePack.SerialiseL(data);
iMockLTSY.CompleteL(KMockLtsyDispatchSatTimeZoneChangeIndId, KErrNone, data);
data.Close();
WaitForMockLTSYTerminated();
CleanupStack::PopAndDestroy(&data);
CleanupStack::PopAndDestroy(this);
}
/**
@SYMTestCaseID BA-CTSYD-DIS-SAT-UN0007
@SYMComponent telephony_ctsy
@SYMTestCaseDesc SET UP EVENT LIST proactive command
@SYMTestPriority High
@SYMTestActions Invokes RSat::NotifySetUpEventListPCmd
@SYMTestExpectedResults Pass
@SYMTestType UT
*/
void CCTsySatFU::TestUnit0007L()
{
OpenEtelServerL(EUseExtendedError);
CleanupStack::PushL(TCleanupItem(Cleanup,this));
OpenPhoneL();
OpenSatL();
const TUint8 KPCmdNumber = 123;
//setup the event list
SetupEventListL(KPCmdNumber,KEventMTCall);
//"The list of events provided by the UICC in the last SET UP EVENT LIST
//command shall be removed if the terminal is powered off or the UICC is removed or a reset is performed."
//clear the event list
iMockLTSY.CompleteL(KMockLtsyDispatchSatRemoveEventListIndId,KErrNone);
WaitForMockLTSYTerminated();
AssertMockLtsyStatusL();
CleanupStack::PopAndDestroy(this);
}
/**
@SYMTestCaseID BA-CTSYD-DIS-SAT-UN0008
@SYMComponent telephony_ctsy
@SYMTestCaseDesc Testing RSat::NotifyProactiveSimSessionEnd support
@SYMTestPriority High
@SYMTestActions Invokes RSat::NotifyProactiveSimSessionEnd
@SYMTestExpectedResults Pass
@SYMTestType UT
*/
void CCTsySatFU::TestUnit0008L()
{
//RSat::NotifyProactiveSimSessionEnd Inroduced in version 6.1, marked as
//"no longer needed when using the ETelSat API" from version 8.2
OpenEtelServerL(EUseExtendedError);
CleanupStack::PushL(TCleanupItem(Cleanup,this));
OpenPhoneL();
OpenSatL();
RBuf8 data;
CleanupClosePushL(data);
TRequestStatus reqStatus;
TUint8 statusWord1 = 0x90;
TUint8 statusWord2 = 0x00;
TUint8 proactiveCommandType = KEndOfTheProactiveSession;
//this is as a result of the NotifyProactiveSimSessionEnd call down to the LTSY,
//this tells the LTSY we are interested in a Sim Session End event
//CTSY -> LTSY
TMockLtsyData1<TUint8> proactiveCommandTypeDataPack(proactiveCommandType);
proactiveCommandTypeDataPack.SerialiseL(data);
iMockLTSY.ExpectL(MLtsyDispatchSatPCmdNotification::KLtsyDispatchSatPCmdNotificationApiId,data);
data.Close();
//the client side call to be notifed when the Proactive Sim Session has ended.
iSat.NotifyProactiveSimSessionEnd(reqStatus);
//sometime later the Sim Session ends, indicator up
//LTSY -> CTSY
TMockLtsyData2<TUint8,TUint8> notifyProactiveSimSessionEndDataPack(statusWord1,statusWord2);
notifyProactiveSimSessionEndDataPack.SerialiseL(data);
iMockLTSY.CompleteL(KMockLtsyDispatchSatNotifyProactiveSimSessionEndIndId,KErrNone,data);
data.Close();
//wait for the client side to be notified
User::WaitForRequest(reqStatus);
ASSERT_EQUALS(reqStatus.Int(),KErrNone);
AssertMockLtsyStatusL();
CleanupStack::PopAndDestroy(&data);
CleanupStack::PopAndDestroy(this);
}
/**
@SYMTestCaseID BA-CTSYD-DIS-SAT-UN0009
@SYMComponent telephony_ctsy
@SYMTestCaseDesc Test support in CTSY for notify local info (network measurement result) IPC
@SYMTestPriority High
@SYMTestActions Invokes CallbackSatPcmdInd, CallbackSatLocalInformationNmrComp
@SYMTestExpectedResults Pass
@SYMTestType UT
*/
void CCTsySatFU::TestUnit0009L()
{
/*
*
* IPCS that are exercised
*
ESatTsyLocalInformationNmr:
ESatTsyNotifyLocalInfo:
*/
OpenEtelServerL(EUseExtendedError);
CleanupStack::PushL(TCleanupItem(Cleanup,this));
OpenPhoneL();
OpenSatL();
RBuf8 data;
CleanupClosePushL(data);
//
//provide local info (network measurement)
const TUint8 KPCmdNumber = 105;
TTlv tlv;
tlv.Begin(KBerTlvProactiveSimCommandTag);
tlv.AddTag(KTlvCommandDetailsTag);
tlv.AddByte(KPCmdNumber);//ETLV_CommandNumber
tlv.AddByte(KProvideLocalInformation); //ETLV_TypeOfCommand
tlv.AddByte(RSat::KProvideLocalInformationNmr);//ETLV_CommandQualifier / KCommandQualifier
tlv.AddTag(KTlvDeviceIdentityTag);
tlv.AddByte(KSim);//ETLV_SourceDeviceIdentity
tlv.AddByte(KMe);
TDesC8* tlvDscPtr = &const_cast<TDesC8&>(tlv.End());
TMockLtsyData1<TDesC8*> tlvDscPack(tlvDscPtr);
tlvDscPack.SerialiseL(data);
iMockLTSY.CompleteL(KMockLtsyDispatchSatPcmdIndId,KErrNone,data);
//Now send the terminal response
iMockLTSY.ExpectL(MLtsyDispatchSatLocalInformationNmr::KLtsyDispatchSatLocalInformationNmrApiId);
_LIT8(KNmrResults,"abc");
TDesC8* nmr = &const_cast<TDesC8&>(KNmrResults());
_LIT(KBcchList,"def");
TDesC* bcch = &const_cast<TDesC&>(KBcchList());
TMockLtsyData2<TDesC8*,TDesC*> nmrPack(nmr,bcch);
data.Close();
nmrPack.SerialiseL(data);
iMockLTSY.CompleteL(MLtsyDispatchSatLocalInformationNmr::KLtsyDispatchSatLocalInformationNmrApiId, KErrNone, data);
TTlv tlvAddInfo;
tlvAddInfo.AddTag( KTlvNetworkMeasurementResultsTag );
tlvAddInfo.AddData(KNmrResults);
tlvAddInfo.AddTag (KTlvBccdChannelListTag);
//convert the BCCH data to the right format
TInt i( 0 );
TInt mask( 3 );
TInt shiftMove( 2 );
TUint8 nextChar( 0 );
// Convert BCCH channel list from 16-bit to 10-bit format
for ( i = 0; i < bcch->Length(); i++ )
{
TUint char2 = ( (*bcch)[i] & 0x03FF );
TUint8 char1 = static_cast<TUint8>( char2 >> shiftMove );
// Append byte
tlvAddInfo.AddByte(
static_cast<TUint8>( char1 | nextChar ) );
nextChar = static_cast<TUint8>( ( char2 & mask )
<< ( 8 - shiftMove ) );
if ( 8 == shiftMove )
{
shiftMove = 2;
nextChar = 0;
tlvAddInfo.AddByte(
static_cast<TUint8> ( char2 & 0x00FF ) );
mask = 3;
}
else
{
shiftMove += 2;
mask = ( 1L << shiftMove ) - 1;
}
}
// Add last byte
tlvAddInfo.AddByte( nextChar );
GenerateAndWaitForTermRspL( KPCmdNumber,
KProvideLocalInformation,
RSat::KProvideLocalInformationNmr,
RSat::ELocalInfo,
RSat::KSuccess,
KGeneralResultAddInfo,
KNullDesC8,
tlvAddInfo.GetDataWithoutTopLevelTag(),
KErrNone);
AssertMockLtsyStatusL();
CleanupStack::PopAndDestroy(2, this); // data, this
}
/**
@SYMTestCaseID BA-CTSYD-DIS-SAT-UN0010
@SYMComponent telephony_ctsy
@SYMTestCaseDesc Test support in CTSY for notify local info (timing advance) IPCs
@SYMTestPriority High
@SYMTestActions Invokes CallbackSatPcmdInd, CallbackSatTimingAdvanceComp
@SYMTestExpectedResults Pass
@SYMTestType UT
*/
void CCTsySatFU::TestUnit0010L()
{
OpenEtelServerL(EUseExtendedError);
CleanupStack::PushL(TCleanupItem(Cleanup,this));
OpenPhoneL();
OpenSatL();
RBuf8 data;
CleanupClosePushL(data);
//
//provide local info (network measurement)
const TUint8 KPCmdNumber = 109;
const TUint8 KTimingAdvance = 47;
const TUint8 KMeStatus = 0x01;
TTlv tlv;
tlv.Begin(KBerTlvProactiveSimCommandTag);
tlv.AddTag(KTlvCommandDetailsTag);
tlv.AddByte(KPCmdNumber);//ETLV_CommandNumber
tlv.AddByte(KProvideLocalInformation); //ETLV_TypeOfCommand
//ETLV_CommandQualifier / KCommandQualifier
tlv.AddByte(RSat::KProvideLocalInfoTimingAdv);
tlv.AddTag(KTlvDeviceIdentityTag);
tlv.AddByte(KSim);//ETLV_SourceDeviceIdentity
tlv.AddByte(KMe);
TDesC8* tlvDscPtr = &const_cast<TDesC8&>(tlv.End());
TMockLtsyData1<TDesC8*> tlvDscPack(tlvDscPtr);
tlvDscPack.SerialiseL(data);
iMockLTSY.CompleteL(KMockLtsyDispatchSatPcmdIndId,KErrNone,data);
iMockLTSY.ExpectL(MLtsyDispatchSatTimingAdvance::KLtsyDispatchSatTimingAdvanceApiId);
TUint8 timingAdvance = KTimingAdvance;
TUint8 meStatus = KMeStatus;
TMockLtsyData2<TUint8,TUint8> nmrPack(timingAdvance,meStatus);
data.Close();
nmrPack.SerialiseL(data);
iMockLTSY.CompleteL(MLtsyDispatchSatTimingAdvance::KLtsyDispatchSatTimingAdvanceApiId, KErrNone, data);
const TDesC8& KGeneralResultAddInfo = KNullDesC8;
TTlv tlvAddInfo;
tlvAddInfo.AddTag( KTlvTimingAdvanceTag );
tlvAddInfo.AddByte(KMeStatus); //me status
tlvAddInfo.AddByte(KTimingAdvance); //timing advance
GenerateAndWaitForTermRspL( KPCmdNumber,
KProvideLocalInformation,
RSat::KProvideLocalInfoTimingAdv,
RSat::ELocalInfo,
RSat::KSuccess,
KGeneralResultAddInfo,
KNullDesC8,
tlvAddInfo.GetDataWithoutTopLevelTag(),
KErrNone);
AssertMockLtsyStatusL();
CleanupStack::PopAndDestroy(2, this); // data, this
}
/**
@SYMTestCaseID BA-CTSYD-DIS-SAT-UN0011
@SYMComponent telephony_ctsy
@SYMTestCaseDesc Test support in CTSY for notify local info access technology ipcs
@SYMTestPriority High
@SYMTestActions Invokes CallbackSatPcmdInd, CallbackSatAccessTechnologyChangeInd
@SYMTestExpectedResults Pass
@SYMTestType UT
*/
void CCTsySatFU::TestUnit0011L()
{
/*
*
* IPCS that are exercised in this unit test
*
* ESatTsyProvideLocalInfo:
* ESatTsyAccTech:
*/
OpenEtelServerL(EUseExtendedError);
CleanupStack::PushL(TCleanupItem(Cleanup,this));
OpenPhoneL();
OpenSatL();
RBuf8 data;
CleanupClosePushL(data);
//
//provide local info (network measurement)
const TUint8 KPCmdNumber = 129;
TTlv tlv;
tlv.Begin(KBerTlvProactiveSimCommandTag);
tlv.AddTag(KTlvCommandDetailsTag);
tlv.AddByte(KPCmdNumber);//ETLV_CommandNumber
tlv.AddByte(KProvideLocalInformation); //ETLV_TypeOfCommand
tlv.AddByte(RSat::KProvideLocalInfoAccTech); //ETLV_CommandQualifier / KCommandQualifier
tlv.AddTag(KTlvDeviceIdentityTag);
tlv.AddByte(KSim);//ETLV_SourceDeviceIdentity
tlv.AddByte(KMe);
TDesC8* tlvDscPtr = &const_cast<TDesC8&>(tlv.End());
TMockLtsyData1<TDesC8*> tlvDscPack(tlvDscPtr);
data.Close();
tlvDscPack.SerialiseL(data);
iMockLTSY.CompleteL(KMockLtsyDispatchSatPcmdIndId,KErrNone,data);
iMockLTSY.ExpectL(MLtsyDispatchSatGetAccessTechnology::KLtsyDispatchSatGetAccessTechnologyApiId);
const TUint8 KAccessTechnology = 47;
TUint8 accessTechnology = KAccessTechnology;
TMockLtsyData1<TUint8> accessTechnologyPack(accessTechnology);
data.Close();
accessTechnologyPack.SerialiseL(data);
iMockLTSY.CompleteL(MLtsyDispatchSatGetAccessTechnology::KLtsyDispatchSatGetAccessTechnologyApiId, KErrNone, data);
const TDesC8& KGeneralResultAddInfo = KNullDesC8;
TTlv tlvAddInfo;
tlvAddInfo.AddTag( KTlvAccessTechnologyTag );
tlvAddInfo.AddByte( KAccessTechnology ); //access tech
GenerateAndWaitForTermRspL( KPCmdNumber,
KProvideLocalInformation,
RSat::KProvideLocalInfoAccTech,
RSat::ELocalInfo,
RSat::KSuccess,
KGeneralResultAddInfo,
KNullDesC8,
tlvAddInfo.GetDataWithoutTopLevelTag(),
KErrNone);
AssertMockLtsyStatusL();
//test with completing with an Error
data.Close();
tlvDscPack.SerialiseL(data);
iMockLTSY.CompleteL(KMockLtsyDispatchSatPcmdIndId,KErrNone,data);
iMockLTSY.ExpectL(MLtsyDispatchSatGetAccessTechnology::KLtsyDispatchSatGetAccessTechnologyApiId);
data.Close();
accessTechnologyPack.SerialiseL(data);
iMockLTSY.CompleteL(MLtsyDispatchSatGetAccessTechnology::KLtsyDispatchSatGetAccessTechnologyApiId, KErrGeneral, data);
TBuf8<1> generalResultAddInfo;
generalResultAddInfo.Append(RSat::KNoSpecificMeProblem);
GenerateAndWaitForTermRspL( KPCmdNumber,
KProvideLocalInformation,
RSat::KProvideLocalInfoAccTech,
RSat::ELocalInfo,
RSat::KMeUnableToProcessCmd,
generalResultAddInfo,
KNullDesC8,
KNullDesC8, //no additional info
KErrNone);
AssertMockLtsyStatusL();
CleanupStack::PopAndDestroy(2, this); // data, this
}
/**
@SYMTestCaseID BA-CTSYD-DIS-SAT-UN0012
@SYMComponent telephony_ctsy
@SYMTestCaseDesc Test support in CTSY for ESatTsyEnvelopeError api
@SYMTestPriority High
@SYMTestActions Invokes CallbackSatLocationStatusInd, CallbackSatCreateCallControlEnvelopeInd, HandleUssdControlEnvelopeErrorReqL
@SYMTestExpectedResults Pass
@SYMTestType UT
*/
void CCTsySatFU::TestUnit0012L()
{
OpenEtelServerL(EUseExtendedError);
CleanupStack::PushL(TCleanupItem(Cleanup,this));
OpenPhoneL();
OpenSatL();
RBuf8 data;
CleanupClosePushL(data);
RBuf8 expectData;
CleanupClosePushL(expectData);
RBuf8 completeData;
CleanupClosePushL(completeData);
TRequestStatus stat;
//first we need to provide local info so that it can be used during cc events
SetupLocalInfoL(KLocationAreaCode,KCellId,KOperatorCode,KLocationStatusNormalService);
//************************************************************************************
//Now we do a SEND USSD proactive command
TUint8 pcmdCode = KSendUssd;
TMockLtsyData1<TUint8> expLtsyData(pcmdCode);
expLtsyData.SerialiseL(data);
iMockLTSY.ExpectL(MLtsyDispatchSatPCmdNotification::KLtsyDispatchSatPCmdNotificationApiId,data);
RSat::TSendUssdV6 ussd;
RSat::TSendUssdV6Pckg ussdPck(ussd);
iSat.NotifySendUssdPCmd(stat, ussdPck);
const TInt KSendUssdPCmdNo = 205;
TTlv tlv;
tlv.Begin(KBerTlvProactiveSimCommandTag);
tlv.AddTag(KTlvCommandDetailsTag);
tlv.AddByte(KSendUssdPCmdNo);//ETLV_CommandNumber
tlv.AddByte(pcmdCode); //ETLV_TypeOfCommand
tlv.AddByte(KSetUpCallDisconnectingOtherCalls); //ETLV_CommandQualifier
tlv.AddTag(KTlvDeviceIdentityTag);
tlv.AddByte(KSim); //ETLV_SourceDeviceIdentity
tlv.AddByte(KNetwork); //ETLV_DestinationDeviceIdentity
tlv.AddTag(KTlvUssdStringTag);
const TUint8 KTonNpi = 0x91; //0b10010001;
tlv.AddByte(KTonNpi); //TON and NPI (national number that conforms to the itu telephony style of numbering)
_LIT8(KSetUpCallNo8 ,"012345678hjhj");
//_LIT16(KSetUpCallNo16,"012345678hjhj");
TBuf8<KMaxAddressLength> bcdSetUpCallNo;
TBuf16<KMaxAddressLength> bcdSetUpCallNo16;
TSatUtility::AsciiToBCD(KSetUpCallNo8,bcdSetUpCallNo);
bcdSetUpCallNo16.Copy(bcdSetUpCallNo);
tlv.AddData(bcdSetUpCallNo);
TDesC8* tlvDscPtr = &const_cast<TDesC8&>(tlv.End());
TMockLtsyData1<TDesC8*> tlvDscPack(tlvDscPtr);
data.Close();
tlvDscPack.SerialiseL(data);
iMockLTSY.CompleteL(KMockLtsyDispatchSatPcmdIndId,KErrNone,data);
User::WaitForRequest(stat);
ASSERT_EQUALS(stat.Int(),KErrNone);
//******************************************************************************************************
//* At this stage the phone application/system software would attempt to make the call specified in the
//* SEND USSD pcmd payload, first checking whether this is the emergency number (112) per ETSI TS 102 223
//* section 6.4.13 and routing the call via the appropriate ETel API, i.e. RMobileCall::DialEmergencyCall()
//* for emergency calls and RCall::Dial() for standard ones.
//*
//* After checking for emergency numbers and against the FDN list, the LTSY uses the CreateEnvelopeInd IPC to
//* request that the CTSY constructs TLV data for an ENVELOPE (CALL CONTROL). Once this is done it passes it
//* to the LTSY with the SendEnvelopeReq(IPC).
//*
//******************************************************************************************************
//**********************************************************************************
//send up the "create envelope" event which we know the CTSY won't be able to create,
//due to USSD strings not being supported.
_LIT8(KBcc1,"asdas");
_LIT8(KBcc2,"qwqwqw");
TDesC8* bcc1Ptr = const_cast<TDesC8*>(&KBcc1);
TDesC8* bcc2Ptr = const_cast<TDesC8*>(&KBcc2);
TDesC8* addrPtr = const_cast<TDesC8*>(&KSetUpCallNo8);
TUint8 tag = KTlvUssdStringTag;
const TUint8 KDcs = 56;
TUint8 tonNpi = KTonNpi;
TUint8 dcs = KDcs;
TMockLtsyData6<TUint8, TDesC8*, TDesC8*, TDesC8*, TUint8, TUint8> ccInfoPck(tag, bcc1Ptr, bcc2Ptr, addrPtr, tonNpi, dcs);
data.Close();
ccInfoPck.SerialiseL(data);
iMockLTSY.CompleteL(KMockLtsyDispatchSatCreateCallControlEnvelopeIndId,KErrNone,data);
//**********************************************************************************
//Now report the error creating the USSD envelope.
iMockLTSY.ExpectL(MLtsyDispatchSatUssdControlEnvelopeError::KLtsyDispatchSatUssdControlEnvelopeErrorApiId);
iMockLTSY.CompleteL(MLtsyDispatchSatUssdControlEnvelopeError::KLtsyDispatchSatUssdControlEnvelopeErrorApiId,KErrNone);
WaitForMockLTSYTerminated();
CleanupStack::PopAndDestroy(&completeData);
CleanupStack::PopAndDestroy(&expectData);
CleanupStack::PopAndDestroy(2, this); // data, this
}
/**
@SYMTestCaseID BA-CTSYD-DIS-SAT-UN0013
@SYMComponent telephony_ctsy
@SYMTestCaseDesc Test support in CTSY for ESatNotifySetupCall (interaction between setup call proactive command and the call connected event)
@SYMTestPriority High
@SYMTestActions Invokes RSat::NotifySetUpCallPCmd, RSat::NotifyCallControlRequest
@SYMTestExpectedResults Pass
@SYMTestType UT
*/
void CCTsySatFU::TestUnit0013L()
{
OpenEtelServerL(EUseExtendedError);
CleanupStack::PushL(TCleanupItem(Cleanup,this));
OpenPhoneL();
OpenSatL();
iCallContainer = new (ELeave) CCallTypeContainer();
RBuf8 data;
CleanupClosePushL(data);
RBuf8 expectData;
CleanupClosePushL(expectData);
RBuf8 completeData;
CleanupClosePushL(completeData);
TRequestStatus reqStatus;
//**************************************************************************
//first we need to provide local info so that it can be used during cc events
SetupLocalInfoL(KLocationAreaCode,KCellId,KOperatorCode,KLocationStatusNormalService);
//*****************************************************
//now we set up an event list containing the call connected event
const TInt KPCommandNumber = 135;
SetupEventListL(KPCommandNumber,KEventCallConnected);
//************************************************************************************
//Now we do a setup call proactive command
TUint8 pcmdCode = KSetUpCall;
TMockLtsyData1<TUint8> expLtsyData(pcmdCode);
expLtsyData.SerialiseL(data);
iMockLTSY.ExpectL(MLtsyDispatchSatPCmdNotification::KLtsyDispatchSatPCmdNotificationApiId,data);
//iMockLTSY.ExpectL(MLtsyDispatchSatNotifySetUpCallPcmd::KLtsyDispatchSatNotifySetUpCallPcmdApiId);
iSat.NotifySetUpCallPCmd(reqStatus, iCallContainer->iSetUpCallPckg);
AssertMockLtsyStatusL(); //LTSY should be empty KLtsyDispatchSatPCmdNotificationApiId expect consumed by the NotifySetUpCallPCmd
const TUint8 KSetUpCallPCmdNo = 201;
TTlv tlv;
tlv.Begin(KBerTlvProactiveSimCommandTag);
tlv.AddTag(KTlvCommandDetailsTag);
tlv.AddByte(KSetUpCallPCmdNo);//ETLV_CommandNumber
tlv.AddByte(pcmdCode); //ETLV_TypeOfCommand
tlv.AddByte(KSetUpCallDisconnectingOtherCalls); //ETLV_CommandQualifier
tlv.AddTag(KTlvDeviceIdentityTag);
tlv.AddByte(KSim); //ETLV_SourceDeviceIdentity
tlv.AddByte(KNetwork); //ETLV_DestinationDeviceIdentity
tlv.AddTag(KTlvAddressTag);
const TUint8 KTonNpi = 0x91; //0b10010001;
tlv.AddByte(KTonNpi); //TON and NPI (national number that conforms to the itu telephony style of numbering)
_LIT8(KSetUpCallNo,"012345678");
TBuf8<KMaxAddressLength> bcdSetUpCallNo;
TSatUtility::AsciiToBCD(KSetUpCallNo,bcdSetUpCallNo);
tlv.AddData(bcdSetUpCallNo);
TDesC8* tlvDscPtr = &const_cast<TDesC8&>(tlv.End());
TMockLtsyData1<TDesC8*> tlvDscPack(tlvDscPtr);
data.Close();
tlvDscPack.SerialiseL(data);
iMockLTSY.CompleteL(KMockLtsyDispatchSatPcmdIndId,KErrNone,data);
User::WaitForRequest(reqStatus); //NotifySetUpCallProactiveCommand
ASSERT_EQUALS(reqStatus.Int(),KErrNone);
ASSERT_EQUALS(KSetUpCallPCmdNo, iCallContainer->iSetUpCall.PCmdNumber());
AssertMockLtsyStatusL();
//set up to listen for call control
iSat.NotifyCallControlRequest(reqStatus, iCallContainer->iCallControlPckg);
//**********************************************************************************
//send up the "create envelope" event which causes the ctsy to assemble the ENVELOPE (CALL CONTROL)
_LIT8(KBcc1,"asdas");
_LIT8(KBcc2,"qwqwqw");
TDesC8* bcc1Ptr = const_cast<TDesC8*>(&KBcc1);
TDesC8* bcc2Ptr = const_cast<TDesC8*>(&KBcc2);
TDesC8* addrPtr = const_cast<TDesC8*>(&KSetUpCallNo);
TUint8 tag = KTlvAddressTag;
const TUint8 KDcs = 56;
TUint8 tonNpi = KTonNpi;
TUint8 dcs = KDcs;
TMockLtsyData6<TUint8, TDesC8*, TDesC8*, TDesC8*, TUint8, TUint8> ccInfoPck(tag, bcc1Ptr, bcc2Ptr, addrPtr, tonNpi, dcs);
data.Close();
ccInfoPck.SerialiseL(data);
iMockLTSY.CompleteL(KMockLtsyDispatchSatCreateCallControlEnvelopeIndId,KErrNone,data);
//**********************************************************************************
//Now send down the created envelope
tlv.Begin( KBerTlvCallControlTag );
// Device identities
tlv.AddTag( KTlvDeviceIdentityTag );
tlv.AddByte( KMe );
tlv.AddByte( KSim );
// Address
tlv.AddTag( KTlvAddressTag );
tlv.AddByte( KTonNpi );
tlv.AddData( bcdSetUpCallNo );
// Optional
tlv.AddTag( KTlvCapabilityConfigurationParametersTag );
tlv.AddData( KBcc1 );
// Add location information data
tlv.AddTag( KTlvLocationInformationTag );
// Append Mobile Country & Network Codes, 3 bytes
tlv.AddData(KOperatorCode );
// Append Location Area Code (LAC)
tlv.AddByte( static_cast<TUint8>( KLocationAreaCode >> KShiftBitsToGetMSB ) );//msb
tlv.AddByte( static_cast<TUint8>( KLocationAreaCode >> KShiftBitsToGetLSB ) );//lsb
// Append Cell Id
tlv.AddByte( static_cast<TUint8>( KCellId >> KShiftBitsToGetMSB ) ); // msbthey
tlv.AddByte( static_cast<TUint8>( KCellId >> KShiftBitsToGetLSB ) ); // lsb
tlv.AddTag( KTlvCapabilityConfigurationParametersTag );
tlv.AddData( KBcc2 );
// Prepare data
TDesC8* tlvDscDes = &const_cast<TDesC8&>(tlv.End());
TMockLtsyData1<TDesC8*> tlvDscDesPck(tlvDscDes);
tlvDscDesPck.SerialiseL(expectData);
iMockLTSY.ExpectL(MLtsyDispatchSatCallAndSmsControlEnvelope::KLtsyDispatchSatCallAndSmsControlEnvelopeApiId,expectData);
//let the envelope IPCs go up and down
WaitForMockLTSYTerminated();
data.Close();
expectData.Close();
//************************************************************************************
//Now we send up the response of the call control
tlv.Begin(0x02);//the type of request has changed (the envelope responses have a slightly different format to the rest of the data so we achieve this by passing in call control result as the top level tag)
tlv.AddTag(KTlvAddressTag);
tlv.AddByte(KTonNpi); //ton+npi
tlv.AddData(bcdSetUpCallNo);
tlv.AddTag(KTlvAlphaIdentifierTag);
tlv.AddData(_L8("Test alpha id"));
tlvDscDes = &const_cast<TDesC8&>(tlv.End());
//RSat::TControlResult controlResult=RSat::EAllowedWithModifications;
TMockLtsyData1<TDesC8*> controlPck(tlvDscDes);
controlPck.SerialiseL(completeData);
iMockLTSY.CompleteL(KMockLtsyDispatchSatCallControlEnvelopeResponseIndId,KErrNone,completeData);
//**********************************************************************
// we now get a call connected event after the potentially modified call has been dialled
TUint8 transactionId = 111;
TBool nearEnd = EFalse; //i.e. this is a MO call
TMockLtsyData2<TUint8,TBool> callConnectedTechPack(transactionId,nearEnd);
callConnectedTechPack.SerialiseL(data);
iMockLTSY.CompleteL(KMockLtsyDispatchSatCallConnectedIndId, KErrNone, data);
User::WaitForRequest(reqStatus); //NotifyCallControlRequest
ASSERT_EQUALS(reqStatus.Int(),KErrNone);
AssertMockLtsyStatusL();
data.Close();
completeData.Close();
//************************************************************************************
//now we need to provide the terminal response to the SET UP CALL proactive command;
//when the terminal response is sent, it will trigger the sending of the saved
//call connected event envelope
//now fire off terminal response
RSat::TSetUpCallRspV2 setUpCallRsp;
RSat::TSetUpCallRspV2Pckg setUpCallRspPckg(setUpCallRsp);
const RSat::TPCmdResult KPCmdResult = RSat::KSuccess;
const TDesC8& KGeneralResultAddInfo = KNullDesC8();
setUpCallRsp.iGeneralResult = KPCmdResult;
setUpCallRsp.iInfoType = RSat::KNoAdditionalInfo;
setUpCallRsp.SetPCmdNumber(KSetUpCallPCmdNo);
RBuf8 terminalRsp;
CleanupClosePushL(terminalRsp);
terminalRsp.CreateL(KTlvMaxSize);
//void GenerateTermRspTlv(RBuf8& buf, TUint8 aPCmdNumber,TUint8 aTypeOfCommand, TUint8 aCommandQualifier, RSat::TPCmd aRSatTypeOfCommand, RSat::TPCmdResult aResult, const TDesC8& aRsp, const TDesC8& aAdditionalInfo);
GenerateTermRspTlv(terminalRsp, KSetUpCallPCmdNo, KSetUpCall, KSetUpCallDisconnectingOtherCalls, KPCmdResult, KGeneralResultAddInfo, KNullDesC8());
TDesC8* terminalRspPtr = &terminalRsp;
TMockLtsyData1<TDesC8*> termRespData(terminalRspPtr);
termRespData.SerialiseL(data);
iMockLTSY.ExpectL(MLtsyDispatchSatTerminalRsp::KLtsyDispatchSatTerminalRspApiId, data);
//following the dispatch terminal response ipc, we get the event envelope in response to call connected
TTlv callConnectEnvelope;
callConnectEnvelope.Begin( KBerTlvEventDownloadTag );
// Event list
callConnectEnvelope.AddTag(KTlvEventListTag);
callConnectEnvelope.AddByte(KEventCallConnected);
// Device identities
callConnectEnvelope.AddTag(KTlvDeviceIdentityTag);
callConnectEnvelope.AddByte(nearEnd ? KMe : KNetwork);
callConnectEnvelope.AddByte(KSim);
// Transaction identifier
callConnectEnvelope.AddTag(KTlvTransactionIdentifierTag);
callConnectEnvelope.AddByte(transactionId);
// Prepare data
//WaitForEventDownloadL(RSat::KCallConnected,);
TPtrC8 ccEnv(callConnectEnvelope.End());
TDesC8* ccEnvPtr = &ccEnv;
TMockLtsyData1<TDesC8*> eventDownloadExpLtsyData(ccEnvPtr);
eventDownloadExpLtsyData.SerialiseL(expectData);
iMockLTSY.ExpectL(MLtsyDispatchSatEventDownloadEnvelope::KLtsyDispatchSatEventDownloadEnvelopeApiId,expectData);
//after that we can complete the terminal response ipc
iMockLTSY.CompleteL(MLtsyDispatchSatTerminalRsp::KLtsyDispatchSatTerminalRspApiId, KErrNone);
TRequestStatus reqStatusNotifyTerminated;
iMockLTSY.NotifyTerminated(reqStatusNotifyTerminated);
iSat.TerminalRsp(reqStatus, RSat::ESetUpCall, setUpCallRspPckg);
User::WaitForRequest(reqStatus);
ASSERT_EQUALS(reqStatus.Int(),KErrNone);
User::WaitForRequest(reqStatusNotifyTerminated);
ASSERT_EQUALS(reqStatusNotifyTerminated.Int(),KErrNone);
AssertMockLtsyStatusL();
//****************
CleanupStack::PopAndDestroy(&terminalRsp);
CleanupStack::PopAndDestroy(&completeData);
CleanupStack::PopAndDestroy(&expectData);
CleanupStack::PopAndDestroy(2, this); // data, this
}
/**
@SYMTestCaseID BA-CTSYD-DIS-SAT-UN0014
@SYMComponent telephony_ctsy
@SYMTestCaseDesc Test support in CTSY for refresh
@SYMTestPriority High
@SYMTestActions Invokes RSat::NotifyRefreshRequired, RSat::NotifyRefreshPCmd, RSat::NotifyRefreshAllowed, RSat::TerminalRsp
@SYMTestExpectedResults Pass
@SYMTestType UT
*/
void CCTsySatFU::TestUnit0014L()
{
OpenEtelServerL(EUseExtendedError);
CleanupStack::PushL(TCleanupItem(Cleanup,this));
OpenPhoneL();
OpenSatL();
RBuf8 data;
CleanupClosePushL(data);
const TUint8 KPCmdNumber1 = 101;
const TUint8 KCommandQualifier1 = KSimInitFullFileChangeNotification; //zero is NAA Initialization and Full File Change Notification
RefreshNoTerminalRspL(KPCmdNumber1,KCommandQualifier1,KErrNotReady);
//ESatTsyRefresh
//indicator to create the terminal response.
const TUint8 KGeneralResultAddInfo = 0x3D;
TBuf8<RSat::KAdditionalInfoMaxSize> additionalInfo8;
additionalInfo8.Append(KGeneralResultAddInfo);
RSat::TAdditionalInfo additionalInfo;
additionalInfo.Append(KGeneralResultAddInfo);
RSat::TPCmdResult generalResult = RSat::KMeUnableToProcessCmd;
TDesC* additionalInfoPtr = &additionalInfo;
TMockLtsyData2<RSat::TPCmdResult,TDesC*> refreshDataPck(generalResult,additionalInfoPtr);
refreshDataPck.SerialiseL(data);
iMockLTSY.CompleteL(KMockLtsyDispatchSatCreateRefreshTerminalRspIndId,KErrNone,data);
data.Close();
const TUint8 KRefreshCommandQualifier = 0x00; // 00 = NAA Initialization and Full File Change Notification
GenerateAndWaitForTermRspL(KPCmdNumber1,KRefresh,KRefreshCommandQualifier,RSat::ERefresh,generalResult,additionalInfo8,KNullDesC8,KNullDesC8,KErrNone);
/********************************************************************/
const TUint8 KPCmdNumber2 = 102;
const TUint8 KCommandQualifier2 = KSimInit; //zero is NAA Initialization and Full File Change Notification
RefreshNoTerminalRspL(KPCmdNumber2,KCommandQualifier2,KErrNone);
//ESatTsyImsiChanged
iMockLTSY.CompleteL(KMockLtsyDispatchSatImsiChangedIndId,KErrNone);
WaitForMockLTSYTerminated();
//once finished generate the Terminal response
RSat::TRefreshRspV1 refreshTerminalRsp;
refreshTerminalRsp.iGeneralResult = RSat::KSuccess;
refreshTerminalRsp.iInfoType = RSat::KNoAdditionalInfo;
refreshTerminalRsp.iAdditionalInfo = KNullDesC;
refreshTerminalRsp.SetPCmdNumber(KPCmdNumber1);
RSat::TRefreshRspV1Pckg refreshTerminalRspPckg(refreshTerminalRsp);
TRequestStatus reqStatus;
iSat.TerminalRsp(reqStatus, RSat::ERefresh, refreshTerminalRspPckg);
User::WaitForRequest(reqStatus);
ASSERT_EQUALS(reqStatus.Int(),KErrNone);
AssertMockLtsyStatusL();
CleanupStack::PopAndDestroy(&data);
CleanupStack::PopAndDestroy(this);
}
/**
@SYMTestCaseID BA-CTSYD-DIS-SAT-UN0015
@SYMComponent telephony_ctsy
@SYMTestCaseDesc Test support in CTSY for notify local info - location information request (i.e. cell id etc)
@SYMTestPriority High
@SYMTestActions Invokes CallbackSatProvideLocationInfoComp
@SYMTestExpectedResults Pass
@SYMTestType UT
*/
void CCTsySatFU::TestUnit0015L()
{
/*
*
* IPCS that are exercised in this unit test
*
* ESatTsyProvideLocalInfo:
* ESatTsyAccTech:
*/
OpenEtelServerL(EUseExtendedError);
CleanupStack::PushL(TCleanupItem(Cleanup,this));
OpenPhoneL();
OpenSatL();
RBuf8 data;
CleanupClosePushL(data);
//
//provide local info (location info)
const TUint8 KPCmdNumber = 142;
TTlv tlv;
tlv.Begin(KBerTlvProactiveSimCommandTag);
tlv.AddTag(KTlvCommandDetailsTag);
tlv.AddByte(KPCmdNumber);//ETLV_CommandNumber
tlv.AddByte(KProvideLocalInformation); //ETLV_TypeOfCommand
tlv.AddByte(RSat::KProvideLocalInfo); //ETLV_CommandQualifier / KCommandQualifier
tlv.AddTag(KTlvDeviceIdentityTag);
tlv.AddByte(KSim);//ETLV_SourceDeviceIdentity
tlv.AddByte(KMe);
TDesC8* tlvDscPtr = &const_cast<TDesC8&>(tlv.End());
TMockLtsyData1<TDesC8*> tlvDscPack(tlvDscPtr);
tlvDscPack.SerialiseL(data);
TRequestStatus reqStatus;
iMockLTSY.NotifyTerminated(reqStatus);
iMockLTSY.CompleteL(KMockLtsyDispatchSatPcmdIndId,KErrNone,data);
iMockLTSY.ExpectL(MLtsyDispatchSatProvideLocationInfo::KLtsyDispatchSatProvideLocationInfoApiId);
User::WaitForRequest(reqStatus);
ASSERT_EQUALS(reqStatus.Int(),KErrNone);
TDesC8* opCodePtr = const_cast<TDesC8*>(&KOperatorCode);
TUint16 lac = KLocationAreaCode;
TUint16 cellId = KCellId;
TMockLtsyData3<TUint16,TUint16,TDesC8* > locationInfoPCmdDataPack( lac,
cellId, opCodePtr);
data.Close();
locationInfoPCmdDataPack.SerialiseL(data);
iMockLTSY.CompleteL(MLtsyDispatchSatProvideLocationInfo::KLtsyDispatchSatProvideLocationInfoApiId, KErrNone, data);
const TDesC8& KGeneralResultAddInfo = KNullDesC8;
TTlv tlvAddInfo;
tlvAddInfo.AddTag( KTlvLocationInformationTag );
tlvAddInfo.AddData( KOperatorCode );
tlvAddInfo.AddByte( static_cast<TUint8>( KLocationAreaCode >> KShiftBitsToGetMSB ) );//msb
tlvAddInfo.AddByte( static_cast<TUint8>( KLocationAreaCode >> KShiftBitsToGetLSB ) );//lsb
tlvAddInfo.AddByte( static_cast<TUint8>( KCellId >> KShiftBitsToGetMSB ) );//msb
tlvAddInfo.AddByte( static_cast<TUint8>( KCellId >> KShiftBitsToGetLSB ) );//lsb
GenerateAndWaitForTermRspL( KPCmdNumber,
KProvideLocalInformation,
RSat::KProvideLocalInfo,
RSat::ELocalInfo,
RSat::KSuccess,
KGeneralResultAddInfo,
KNullDesC8,
tlvAddInfo.GetDataWithoutTopLevelTag(),
KErrNone);
AssertMockLtsyStatusL();
CleanupStack::PopAndDestroy(2, this); // data, this
}
/**
@SYMTestCaseID BA-CTSYD-DIS-SAT-UN0016
@SYMComponent telephony_ctsy
@SYMTestCaseDesc Test support in CTSY for the ESatTsySsStatus api
@SYMTestPriority High
@SYMTestActions Invokes
@SYMTestExpectedResults Pass
@SYMTestType CT
*/
void CCTsySatFU::TestUnit0016L()
{
OpenEtelServerL(EUseExtendedError);
CleanupStack::PushL(TCleanupItem(Cleanup,this));
OpenPhoneL();
OpenSatL();
RBuf8 data;
CleanupClosePushL(data);
TRequestStatus reqStatus;
DispatcherSat::TSsStatus status = DispatcherSat::ENotBusy;
TMockLtsyData1<DispatcherSat::TSsStatus> ltsyData(status);
ltsyData.SerialiseL(data);
iMockLTSY.NotifyTerminated(reqStatus);
iMockLTSY.CompleteL(KMockLtsyDispatchSatSsChangeIndId, KErrNone, data);
data.Close();
User::WaitForRequest(reqStatus);
ASSERT_EQUALS(reqStatus.Int(),KErrNone);
status = DispatcherSat::ESsBusy;
ltsyData.SerialiseL(data);
iMockLTSY.NotifyTerminated(reqStatus);
iMockLTSY.CompleteL(KMockLtsyDispatchSatSsChangeIndId, KErrNone, data);
data.Close();
User::WaitForRequest(reqStatus);
ASSERT_EQUALS(reqStatus.Int(),KErrNone);
status = DispatcherSat::EUssdBusy;
ltsyData.SerialiseL(data);
iMockLTSY.NotifyTerminated(reqStatus);
iMockLTSY.CompleteL(KMockLtsyDispatchSatSsChangeIndId, KErrNone, data);
data.Close();
User::WaitForRequest(reqStatus);
ASSERT_EQUALS(reqStatus.Int(),KErrNone);
CleanupStack::PopAndDestroy(2, this); // data, this
}
/**
@SYMTestCaseID BA-CTSYD-DIS-SAT-UN0017
@SYMComponent telephony_ctsy
@SYMTestCaseDesc Test support in CTSY for RMmCustomAPI::SatRefreshCompleteNotification()
@SYMTestPriority High
@SYMTestActions Invokes RMmCustomAPI::SatRefreshCompleteNotification()
@SYMTestExpectedResults Pass
@SYMTestType CT
*/
void CCTsySatFU::TestUnit0017L()
{
OpenEtelServerL(EUseExtendedError);
CleanupStack::PushL(TCleanupItem(Cleanup,this));
OpenPhoneL();
OpenSatL();
RMmCustomAPI customApi;
OpenCustomApiLC(customApi);
RBuf8 data;
CleanupClosePushL(data);
TRequestStatus reqStatus;
customApi.SatRefreshCompleteNotification(reqStatus);
const TUint8 KPCmdNumber = 101;
const TUint8 KCommandQualifier = KSimInitFullFileChangeNotification; //zero is NAA Initialization and Full File Change Notification
RefreshNoTerminalRspL(KPCmdNumber, KCommandQualifier, KErrNone);
//can't wait here known defect 403701, see CCTsyCustomIPCFU::TestSatRefreshCompleteNotification0001L
//User::WaitForRequest(reqStatus);
//ASSERT_EQUALS(reqStatus.Int(),KErrNone);
//Do the Client side refresh
//once finished generate the Terminal response
RSat::TRefreshRspV1 refreshTerminalRsp;
refreshTerminalRsp.iGeneralResult = RSat::KSuccess;
refreshTerminalRsp.iInfoType = RSat::KNoAdditionalInfo;
refreshTerminalRsp.iAdditionalInfo = KNullDesC;
refreshTerminalRsp.SetPCmdNumber(KPCmdNumber);
RSat::TRefreshRspV1Pckg refreshTerminalRspPckg(refreshTerminalRsp);
GenerateAndWaitForTermRspL(KPCmdNumber,KRefresh,KCommandQualifier,RSat::ERefresh,RSat::KSuccess,refreshTerminalRspPckg,KErrNone);
AssertMockLtsyStatusL();
CleanupStack::PopAndDestroy(&data);
CleanupStack::PopAndDestroy(&customApi);
CleanupStack::PopAndDestroy(this);
}
/**
* Utility function which handles all the Expects/Completes generated by Opening an RSat object.
*/
void CCTsySatFU::OpenSatL(TUint8 aEnabled)
{
RBuf8 data;
CleanupClosePushL(data);
iMockLTSY.ExpectL(MLtsyDispatchSatGetSmsControlActivated::KLtsyDispatchSatGetSmsControlActivatedApiId);
TBool smsMoControlActivated = aEnabled & KSmsMoControlEnabled;
TMockLtsyData1<TBool> comLtsyData(smsMoControlActivated);
comLtsyData.SerialiseL(data);
iMockLTSY.CompleteL(MLtsyDispatchSatGetSmsControlActivated::KLtsyDispatchSatGetSmsControlActivatedApiId, KErrNone, data);
TUint8 pcmdCode = KPollInterval;
TMockLtsyData1<TUint8> expLtsyData(pcmdCode);
data.Close();
expLtsyData.SerialiseL(data);
iMockLTSY.ExpectL(MLtsyDispatchSatPCmdNotification::KLtsyDispatchSatPCmdNotificationApiId, data );
pcmdCode = KPollingOff;
data.Close();
expLtsyData.SerialiseL(data);
iMockLTSY.ExpectL(MLtsyDispatchSatPCmdNotification::KLtsyDispatchSatPCmdNotificationApiId, data );
pcmdCode = KMoreTime;
data.Close();
expLtsyData.SerialiseL(data);
iMockLTSY.ExpectL(MLtsyDispatchSatPCmdNotification::KLtsyDispatchSatPCmdNotificationApiId, data );
pcmdCode = KTimerManagement;
data.Close();
expLtsyData.SerialiseL(data);
iMockLTSY.ExpectL(MLtsyDispatchSatPCmdNotification::KLtsyDispatchSatPCmdNotificationApiId, data );
iMockLTSY.ExpectL(MLtsyDispatchPhoneGetPhoneId::KLtsyDispatchPhoneGetPhoneIdApiId);
_LIT(KSerialNumber, "12345678");
RMobilePhone::TMobilePhoneIdentityV1 phoneId;
phoneId.iSerialNumber = KSerialNumber;
TMockLtsyData1<RMobilePhone::TMobilePhoneIdentityV1> phoneIdData(phoneId);
data.Close();
phoneIdData.SerialiseL(data);
iMockLTSY.CompleteL(MLtsyDispatchPhoneGetPhoneId::KLtsyDispatchPhoneGetPhoneIdApiId, KErrNone, data);
iMockLTSY.ExpectL(MLtsyDispatchSatGetDefaultBearerCapability::KLtsyDispatchSatGetDefaultBearerCapabilityApiId);
TBuf8<KMaxLengthDefaultBearerData> bearerCapabilities(_L8("TEST BEARER!"));
TDesC8* bearerCapabilitiesPtr = &bearerCapabilities;
TMockLtsyData1<TDesC8*> bearerCapabilitiesData(bearerCapabilitiesPtr);
data.Close();
bearerCapabilitiesData.SerialiseL(data);
iMockLTSY.CompleteL(MLtsyDispatchSatGetDefaultBearerCapability::KLtsyDispatchSatGetDefaultBearerCapabilityApiId, KErrNone, data);
iMockLTSY.ExpectL(MLtsyDispatchSatGetUssdControlSupported::KLtsyDispatchSatGetUssdControlSupportedApiId);
TBool ussdSupported = aEnabled & KUssdEnabled;
TMockLtsyData1<TBool> ussdSupportedData(ussdSupported);
data.Close();
ussdSupportedData.SerialiseL(data);
iMockLTSY.CompleteL(MLtsyDispatchSatGetUssdControlSupported::KLtsyDispatchSatGetUssdControlSupportedApiId, KErrNone, data);
iMockLTSY.CompleteL(KMockLtsyDispatchSatUssdControlSupportedChangeIndId, KErrNone, data); //do a future indicator completion as well as this could happen at some point
iMockLTSY.ExpectL(MLtsyDispatchSatReady::KLtsyDispatchSatReadyApiId);
iMockLTSY.CompleteL(MLtsyDispatchSatReady::KLtsyDispatchSatReadyApiId,KErrNone);
iMockLTSY.ExpectL(MLtsyDispatchSatGetSmsPpDownloadSupported::KLtsyDispatchSatGetSmsPpDownloadSupportedApiId);
TBool smsPpDdlSupported = aEnabled & KSmsPpDownloadEnabled;
TMockLtsyData1<TBool> smsPpData(smsPpDdlSupported);
data.Close();
smsPpData.SerialiseL(data);
iMockLTSY.CompleteL(MLtsyDispatchSatGetSmsPpDownloadSupported::KLtsyDispatchSatGetSmsPpDownloadSupportedApiId, KErrNone, data);
TRequestStatus reqStatus;
iMockLTSY.NotifyTerminated(reqStatus);
ASSERT_EQUALS(KErrNone, iSat.Open(iPhone));
User::WaitForRequest(reqStatus);
ASSERT_EQUALS(KErrNone, reqStatus.Int());
CleanupStack::PopAndDestroy(&data);
}
void CCTsySatFU::SetupEventListL(TUint8 aPCommandNumber, TUint8 aEvent)
{
RBuf8 data;
CleanupClosePushL(data);
TRequestStatus reqStatus;
//setup the expect for Mock LTSY from the RSat::NotifySetUpEventListPCmd call
//ETel -> CTSY -> LTSY
TUint8 pcmdCode = KSetUpEventList;
TMockLtsyData1<TUint8> setUpEventListPCmdExpLtsyData(pcmdCode);
setUpEventListPCmdExpLtsyData.SerialiseL(data);
iMockLTSY.ExpectL(MLtsyDispatchSatPCmdNotification::KLtsyDispatchSatPCmdNotificationApiId,data);
data.Close();
//create the Mock LTSY complete TLV data (a proactive command)
//LTSY -> CTSY
TTlv proactiveCmdTlv;
proactiveCmdTlv.Begin(KBerTlvProactiveSimCommandTag);
proactiveCmdTlv.AddTag(KTlvCommandDetailsTag);
proactiveCmdTlv.AddByte(aPCommandNumber);//ETLV_CommandNumber
proactiveCmdTlv.AddByte(KSetUpEventList); //ETLV_TypeOfCommand
proactiveCmdTlv.AddByte(0); //ETLV_CommandQualifier - RFU for Set up event list
proactiveCmdTlv.AddTag(KTlvEventListTag);
proactiveCmdTlv.AddByte(aEvent); //ETLV_TypeOfCommand
proactiveCmdTlv.AddTag(KTlvDeviceIdentityTag);
proactiveCmdTlv.AddByte(KSim);
proactiveCmdTlv.AddByte(KMe);
TDesC8* tlvDscPtr = &const_cast<TDesC8&>(proactiveCmdTlv.End());
TMockLtsyData1<TDesC8*> tlvDscPack(tlvDscPtr);
tlvDscPack.SerialiseL(data);
iMockLTSY.CompleteL(KMockLtsyDispatchSatPcmdIndId,KErrNone,data);
data.Close();
//ETel Sat calls
RSat::TSetUpEventListV1 setUpEventList;
RSat::TSetUpEventListV1Pckg setUpEventListPckg(setUpEventList);
iSat.NotifySetUpEventListPCmd(reqStatus,setUpEventListPckg);
User::WaitForRequest(reqStatus);
ASSERT_EQUALS(reqStatus.Int(),KErrNone);
ASSERT_EQUALS(setUpEventList.iType,RSat::EUpdateEventList);
//Can't be asserted (easily) as some events the TSY is completly responsible for and iEvent is not set in the CTSY
//ASSERT_TRUE((setUpEventList.iEvents & RSat::KUserActivity) == RSat::KUserActivity)
ASSERT_EQUALS(setUpEventList.PCmdNumber(),aPCommandNumber);
AssertMockLtsyStatusL();
//The Terminal response
RSat::TSetUpEventListRspV1 resp;
RSat::TSetUpEventListRspV1Pckg respPck(resp);
resp.iGeneralResult = RSat::KSuccess;
resp.iInfoType = RSat::KNoAdditionalInfo;
resp.SetPCmdNumber(aPCommandNumber);
GenerateAndWaitForTermRspL(aPCommandNumber,KSetUpEventList,0,RSat::ESetUpEventList,RSat::KSuccess,respPck,KErrNone);
CleanupStack::PopAndDestroy(&data);
}
void CCTsySatFU::SetupLocalInfoL(TUint16 aAreaCode, TUint16 aCellId, const TDesC8& aOperatorCode, TUint8 aLocationStatus)
{
RBuf8 data;
CleanupClosePushL(data);
TRequestStatus reqStatus;
ASSERT_TRUE(aOperatorCode.Length() <= KOperatorCodeLength);
TDesC8* operatorCode = &const_cast<TDesC8&>(aOperatorCode);
TMockLtsyData4<TUint8, TDesC8*, TUint16, TUint16 >localInfoPack(aLocationStatus,operatorCode,aAreaCode,aCellId);
localInfoPack.SerialiseL(data);
iMockLTSY.CompleteL(KMockLtsyDispatchSatLocationStatusIndId, KErrNone, data);
WaitForMockLTSYTerminated();
CleanupStack::PopAndDestroy(&data);
}
void CCTsySatFU::WaitForEventDownloadL(RSat::TEventList aEventList, const TDesC8& aEventDownloadEnvelope)
{
RBuf8 data;
CleanupClosePushL(data);
TRequestStatus reqStatus;
TDesC8* envelopePtr = &const_cast<TDesC8&>(aEventDownloadEnvelope);
TMockLtsyData1<TDesC8*> eventDownloadExpLtsyData(envelopePtr);
eventDownloadExpLtsyData.SerialiseL(data);
iMockLTSY.ExpectL(MLtsyDispatchSatEventDownloadEnvelope::KLtsyDispatchSatEventDownloadEnvelopeApiId,data);
data.Close();
switch(aEventList)
{
case RSat::KUserActivity:
{
//ETel calls event download
RSat::TEventDownloadBaseV2 eventDownload;
RSat::TEventDownloadBaseV2Pckg eventDownloadPck(eventDownload);
RSat::TEventList eventList = aEventList;
iSat.EventDownload(reqStatus, eventList, eventDownloadPck); // No associated data
AssertMockLtsyStatusL(); //RSat::EventDownload should consume the queue expect of KLtsyDispatchSatEventDownloadEnvelopeApiId IPC
User::WaitForRequest(reqStatus);
ASSERT_EQUALS(reqStatus.Int(),KErrNone);
ASSERT_FALSE(eventDownload.iDataAvailable);
break;
}
case RSat::KAccessTechnologyChange:
case RSat::KLocationStatus:
case RSat::KCallConnected:
case RSat::KCallDisconnected:
case RSat::KMTCall:
{
//ETel notifiers not currently supported
WaitForMockLTSYTerminated();
break;
}
}
CleanupStack::PopAndDestroy(&data);
}
/**
* Handles sending a terminal response, generating a "command completed successfully" additional info tlv
*/
void CCTsySatFU::GenerateAndWaitForTermRspL( TUint8 aPCmdNumber,
TUint8 aTypeOfCommand,
TUint8 aCommandQualifier,
RSat::TPCmd aRSatTypeOfCommand,
RSat::TPCmdResult aGeneralResult,
const TDesC8& aRsp,
TInt aCompError)
{
GenerateAndWaitForTermRspL(aPCmdNumber, aTypeOfCommand, aCommandQualifier, aRSatTypeOfCommand, aGeneralResult, KNullDesC8, aRsp, KNullDesC8,aCompError);
}
/**
* Handles sending a terminal response, and takes as an argument a descriptor containing a tlv. This is to be used when a "command completed successfully" tlv
* is insufficient.
*/
void CCTsySatFU::GenerateAndWaitForTermRspL(TUint8 aPCmdNumber,
TUint8 aTypeOfCommand,
TUint8 aCommandQualifier,
RSat::TPCmd aRSatTypeOfCommand,
RSat::TPCmdResult aGeneralResult,
const TDesC8& aGeneralResultAddInfo,
const TDesC8& aRsp,
const TDesC8& aAdditionalInfo,
TInt aCompError)
{
RBuf8 data;
CleanupClosePushL(data);
TRequestStatus reqStatus;
RBuf8 terminalRsp;
CleanupClosePushL(terminalRsp);
terminalRsp.CreateL(KTlvMaxSize);
GenerateTermRspTlv(terminalRsp, aPCmdNumber, aTypeOfCommand, aCommandQualifier, aGeneralResult, aGeneralResultAddInfo, aAdditionalInfo);
TDesC8* terminalRspPtr = &terminalRsp;
TMockLtsyData1<TDesC8*> termRespData(terminalRspPtr);
termRespData.SerialiseL(data);
iMockLTSY.ExpectL(MLtsyDispatchSatTerminalRsp::KLtsyDispatchSatTerminalRspApiId, data);
if(aRsp != KNullDesC8)
{
//ETel generated Terminal response
iSat.TerminalRsp(reqStatus, aRSatTypeOfCommand, aRsp);
}
else
{
//CTSY generate Terminal response
iMockLTSY.NotifyTerminated(reqStatus);
}
User::WaitForRequest(reqStatus);
ASSERT_EQUALS(reqStatus.Int(),KErrNone);
iMockLTSY.NotifyTerminated(reqStatus);
iMockLTSY.CompleteL(MLtsyDispatchSatTerminalRsp::KLtsyDispatchSatTerminalRspApiId, aCompError);
User::WaitForRequest(reqStatus);
ASSERT_EQUALS(reqStatus.Int(),KErrNone);
CleanupStack::PopAndDestroy(&terminalRsp);
CleanupStack::PopAndDestroy(&data);
}
void CCTsySatFU::GenerateTermRspTlv( RBuf8& aBuf,
TUint8 aPCmdNumber,
TUint8 aTypeOfCommand,
TUint8 aCommandQualifier,
RSat::TPCmdResult aGeneralResult,
const TDesC8& aGeneralResultAddInfo,
const TDesC8& aAdditionalInfo)
{
TTlv tlv;
tlv.AddTag(KTlvCommandDetailsTag);
tlv.AddByte(aPCmdNumber);//ETLV_CommandNumber
tlv.AddByte(aTypeOfCommand); //ETLV_TypeOfCommand
tlv.AddByte(aCommandQualifier); //ETLV_CommandQualifier
tlv.AddTag(KTlvDeviceIdentityTag);
tlv.AddByte(KMe);
tlv.AddByte(KSim);
tlv.AddTag(KTlvResultTag);
tlv.AddByte(aGeneralResult);
tlv.AddData(aGeneralResultAddInfo);
aBuf.Zero();
aBuf.Append(tlv.GetDataWithoutTopLevelTag());
aBuf.Append(aAdditionalInfo);
}
void CCTsySatFU::RefreshNoTerminalRspL(TUint8 aPCmdNumber, TUint8 aCommandQualifier, TInt aRefreshAllowedCompleteResult)
{
RBuf8 data;
CleanupClosePushL(data);
//this is an example of how a other interested parties can register for NotifyRefreshPCmd,
//this would be any other but the main SAT engine.
RSat satUser;
CleanupClosePushL(satUser);
satUser.Open(iPhone);
//Expect a MLtsyDispatchSatPCmdNotification::KLtsyDispatchSatPCmdNotificationApiId when both
//notifiers are set (thus needs to be queued before we setup the two notifiers below)
TUint8 pcmdCode = KRefresh;
TMockLtsyData1<TUint8> proactiveCmdNotificationsLtsyData(pcmdCode);
proactiveCmdNotificationsLtsyData.SerialiseL(data);
iMockLTSY.ExpectL(MLtsyDispatchSatPCmdNotification::KLtsyDispatchSatPCmdNotificationApiId,data);
data.Close();
//Refresh Required client side notifier
//ETel -> CTSY
RSat::TRefreshV2 refreshRequired;
RSat::TRefreshV2Pckg refreshRequiredPckg(refreshRequired);
TRequestStatus refreshRequiredReqStatus;
iSat.NotifyRefreshRequired(refreshRequiredReqStatus,refreshRequiredPckg);
//Refresh Proactive Command client side notifier
//ETel -> CTSY
//Not both have been set, this will trigger a HandlePCmdNotificationReqL() down to the LTSY
RSat::TRefreshV2 refreshPCmd;
RSat::TRefreshV2Pckg refreshPCmdPckg(refreshPCmd);
TRequestStatus refreshPCmdReqStatus;
iSat.NotifyRefreshPCmd(refreshPCmdReqStatus,refreshPCmdPckg);
RSat::TRefreshV2 refreshPCmd2;
RSat::TRefreshV2Pckg refreshPCmdPckg2(refreshPCmd2);
TRequestStatus refreshPCmdReqStatus2;
satUser.NotifyRefreshPCmd(refreshPCmdReqStatus2,refreshPCmdPckg2);
//the MLtsyDispatchSatPCmdNotification::KLtsyDispatchSatPCmdNotificationApiId expect should be gone
//so assert the LTSY status
AssertMockLtsyStatusL();
TTlv proactiveCmdTlv;
proactiveCmdTlv.Begin(KBerTlvProactiveSimCommandTag);
proactiveCmdTlv.AddTag(KTlvCommandDetailsTag);
proactiveCmdTlv.AddByte(aPCmdNumber);//ETLV_CommandNumber
proactiveCmdTlv.AddByte(KRefresh); //ETLV_TypeOfCommand
proactiveCmdTlv.AddByte(aCommandQualifier); //ETLV_CommandQualifier
proactiveCmdTlv.AddTag(KTlvDeviceIdentityTag);
proactiveCmdTlv.AddByte(KSim);
proactiveCmdTlv.AddByte(KMe);
TUint numberOfFiles = 1;
proactiveCmdTlv.AddTag(KTlvFileListTag);
proactiveCmdTlv.AddByte(numberOfFiles);
//full paths to files (first byte identifies the type of file)
//master file
const TInt KFilePathLength = 4;
TBuf8<KFilePathLength> filePath(KFilePathLength);
filePath[0] = 0x3F;
filePath[1] = 0x00;
filePath[2] = 0x2F;
filePath[3] = 0xE2;
proactiveCmdTlv.AddData(filePath);
_LIT8(KAid,"AID INFO"); //not correct format, just for test check "Application identifier as defined in TS 101 220 [31]"
proactiveCmdTlv.AddTag(KTlvAIDTag);
proactiveCmdTlv.AddData(KAid);
const TUint8 KTextAttributeTag = 0xC8;
proactiveCmdTlv.AddTag(KTextAttributeTag);
//text formatting
proactiveCmdTlv.AddByte(0x00);
proactiveCmdTlv.AddByte(0x00);
proactiveCmdTlv.AddByte(0x00);
proactiveCmdTlv.AddByte(0x00);
TDesC8* tlvDscPtr = &const_cast<TDesC8&>(proactiveCmdTlv.End());
TMockLtsyData1<TDesC8*> tlvDscPack(tlvDscPtr);
tlvDscPack.SerialiseL(data);
iMockLTSY.CompleteL(KMockLtsyDispatchSatPcmdIndId,KErrNone,data);
data.Close();
User::WaitForRequest(refreshRequiredReqStatus);
ASSERT_EQUALS(refreshRequiredReqStatus.Int(),KErrNone);
//ASSERT_EQUALS(refreshRequired.PCmdNumber(),aPCmdNumber); not set in the CTSY
ASSERT_TRUE(refreshRequired.iAid == KAid);
ASSERT_EQUALS(refreshRequired.iType,static_cast<RSat::TRefreshType>(aCommandQualifier + 1)); //+1 as RSat::TRefreshType 0x00 is ERefreshTypeNotSet
ASSERT_EQUALS(filePath[2],static_cast<TUint8>(refreshRequired.iFileList[0] >> KShiftBitsToGetMSB));
ASSERT_EQUALS(filePath[3],static_cast<TUint8>(refreshRequired.iFileList[0] & 0xFF));
//no IPCs down to the LTSY should have occured, so we can AssertMockLtsyStatusL here.
AssertMockLtsyStatusL();
//ESatTsyServiceRequest
TDesC8* aidPtr = const_cast<TDesC8*>(&KAid);
TDesC8* refreshFileListPtr = &filePath;
TUint16 cache = 0x01 | 0x02;//ECacheEFSST | ECacheEFCBMID;
TMockLtsyData3<TDesC8*, TDesC8*, TUint16> refreshAllowedPack(refreshFileListPtr,aidPtr,cache);
refreshAllowedPack.SerialiseL(data);
iMockLTSY.ExpectL(MLtsyDispatchSatRefreshAllowed::KLtsyDispatchSatRefreshAllowedApiId,data,KErrNone);
data.Close();
RSat::TRefreshRspV1 refreshAllowedRsp;
refreshAllowedRsp.iGeneralResult = RSat::KSuccess;
refreshAllowedRsp.iInfoType = RSat::KNoAdditionalInfo;
refreshAllowedRsp.iAdditionalInfo = KNullDesC;
RSat::TRefreshRspV1Pckg refreshAllowedRspPckg(refreshAllowedRsp);
TRequestStatus refreshAllowedReqStatus;
iSat.RefreshAllowed(refreshAllowedReqStatus,refreshAllowedRspPckg);
User::WaitForRequest(refreshAllowedReqStatus);
ASSERT_EQUALS(refreshAllowedReqStatus.Int(),KErrNone);
//the MLtsyDispatchSatRefreshAllowed::KLtsyDispatchSatRefreshAllowedApiId expect should be gone
//so assert the LTSY status
AssertMockLtsyStatusL();
//ESatTsyCompleteRefresh
//indicator to create complete the notifier
const TInt KResult = aRefreshAllowedCompleteResult;
iMockLTSY.CompleteL(MLtsyDispatchSatRefreshAllowed::KLtsyDispatchSatRefreshAllowedApiId,KResult);
User::WaitForRequest(refreshPCmdReqStatus);
ASSERT_EQUALS(refreshPCmdReqStatus.Int(),KResult);
//ASSERT_EQUALS(refreshPCmd.PCmdNumber(),aPCmdNumber); not set in the CTSY
ASSERT_TRUE(refreshPCmd.iAid == KAid);
ASSERT_EQUALS(refreshPCmd.iType,static_cast<RSat::TRefreshType>(aCommandQualifier + 1)); //+1 as RSat::TRefreshType 0x00 is ERefreshTypeNotSet
ASSERT_EQUALS(filePath[2],static_cast<TUint8>(refreshPCmd.iFileList[0] >> KShiftBitsToGetMSB));
ASSERT_EQUALS(filePath[3],static_cast<TUint8>(refreshPCmd.iFileList[0] & 0xFF));
User::WaitForRequest(refreshPCmdReqStatus2);
ASSERT_EQUALS(refreshPCmdReqStatus2.Int(),KResult);
//ASSERT_EQUALS(refreshPCmd2.PCmdNumber(),aPCmdNumber); not set in the CTSY
ASSERT_TRUE(refreshPCmd2.iAid == KAid);
ASSERT_EQUALS(refreshPCmd2.iType,static_cast<RSat::TRefreshType>(aCommandQualifier + 1)); //+1 as RSat::TRefreshType 0x00 is ERefreshTypeNotSet
ASSERT_EQUALS(filePath[2],static_cast<TUint8>(refreshPCmd2.iFileList[0] >> KShiftBitsToGetMSB));
ASSERT_EQUALS(filePath[3],static_cast<TUint8>(refreshPCmd2.iFileList[0] & 0xFF));
CleanupStack::PopAndDestroy(&satUser);
CleanupStack::PopAndDestroy(&data);
}
TUint8 CCTsySatFU::TonAndNpi(RMobilePhone::TMobileTON aTon, RMobilePhone::TMobileNPI aNpi)
{
return (0x80) | (aTon << 4) | (aNpi);
}
void CCTsySatFU::DoCleanup()
{
delete iCallContainer;
iCallContainer = NULL;
iSat.Close();
CCtsyComponentTestBase::DoCleanup();
}
CCTsySatFU::CCallTypeContainer::CCallTypeContainer() :
iCallControlPckg(iCallControl),
iSetUpCallPckg(iSetUpCall)
{
}