// Copyright (c) 2007-2009 Nokia Corporation and/or its subsidiary(-ies).
// All rights reserved.
// This component and the accompanying materials are made available
// under the terms of the License "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:
// e32test\resourceman\t_rescontrolcli.cpp
// TestCase Description:
// This tests is intended to test the generic layer of PRM. It consists of unit testing and regression testing.
// Unit testing validates each of the API's. Regression testing performs random operation on random resource and
// currently executes 500 operations and returns.
// To run regression testing, test must be invoked with -R option.
// Testing runs only on simulated PSL.
//
//
#include <e32test.h>
#include <e32hal.h>
#include <e32math.h>
#include <e32def.h>
#include <e32def_private.h>
#include "d_rescontrolcli.h"
#include <drivers/resourcecontrol_clientsettings.h>
#include <drivers/resourcecontrol_settings.h>
#define MAX_STATIC_RESOURCE_NUM 24 //Maximum number of static resources in simulated PSL
#define MAX_STATIC_DEPENDENCY_RESOURCE_NUM 7 //Maximum number of static dependency resources in simulated PSL
#define DEPENDENCY_RESOURCE_BIT_MASK 0x00010000
#define DYNAMIC_RESOURCE_BIT_MASK 0x00020000
#define CUSTOM_RESOURCE_NUMBER 20
/** Macro to push the item into the specified list. Item are pushed to the head of the list. */
#define LIST_PUSH(list,item,link) \
{ \
(item)->link = (list); \
(list) = (item); \
}
/** Macro to pop the item from the specified list. Item are poped from the head of the list. */
#define LIST_POP(list,item,link) \
{ \
(item) = (list); \
if ((item)) \
{ \
(list) = (item)->link; \
(item)->link = NULL; \
} \
}
/** Macro to remove the item from the list. */
#define LIST_REMOVE(list,item,link,className) \
if (list) \
{ \
className* current = (list); \
if (current==(item)) \
{ \
(list) = (item)->link; \
(item)->link = NULL; \
} \
else \
{ \
className* next = current->link; \
while (next) \
{ \
if ((item)==next) \
{ \
current->link=next->link; \
next->link = NULL; \
break; \
} \
current = next; \
next = next->link; \
} \
} \
}
#ifndef PRM_ENABLE_EXTENDED_VERSION
_LIT(KLddFileName, "D_RESCONTROLCLI.LDD");
_LIT(KPddFileName, "resourcecontroller.pdd");
#else
_LIT(KExtLddFileName, "D_EXTENDEDRESCONTROLCLI.LDD");
_LIT(KExtPddFileName, "resourcecontrollerextended.pdd");
#endif
LOCAL_D RTest test(_L("RESOURCE_MANAGER_TEST"));
TBuf8<32> SpecialResName(_L8("SymbianSimulResource"));
//Enum definition for resource classification.
enum TType {EMultiLevel = 0x1, EMultiProperty};
enum TUsage {ESingle, EShared};
enum TLatency {EInstantaneous, ELongLatency};
enum TClass {EPhysical, ELogical};
enum TSense {EPositive, ENegative, ECustom};
//Structure to get resource information
class TPowerResourceInfoV01
{
public:
TClass iClass;
TLatency iLatencyGet;
TLatency iLatencySet;
TType iType;
TUsage iUsage;
TSense iSense;
TDesC8* iResourceName;
TUint iResourceId;
TInt iDefaultLevel;
TInt iMinLevel;
TInt iMaxLevel;
TInt iReserved1;
TInt iReserved2;
TInt iReserved3;
TInt iPslReserved1;
TInt iPslReserved2;
TInt iPslReserved3;
};
//Structure to get client information
struct TPowerClientInfoV01
{
TUint iClientId;
TDesC8* iClientName;
};
//Structure for holding client information
struct RMClientInfo
{
TUint iClientId;
TUint iNumResources;
TUint iResourceIds[MAX_STATIC_RESOURCE_NUM]; //Each bit corresponds to a static resource.
};
//Structure for holding notification information
struct NotiInfo
{
TUint iClientId;
TInt iThreshold;
TInt iDirection;
TInt iPreviousLevel;
NotiInfo *iNext;
};
// Structure for holding client level
struct SPowerResourceClientLevel
{
TUint iClientId;
TUint iResourceId;
TInt iLevel;
SPowerResourceClientLevel* iNextInList;
};
//Structure for capturing resource information to be used by Idle thread.
struct SIdleResourceInfo
{
TUint iResourceId;
TInt iLevelOwnerId;
TInt iCurrentLevel;
TInt iReserved1; //Reserved for future use.
TInt iReserved2; //Reserved for future use.
TInt iReserved3; //Reserved for future use.
};
//Structure for holding resource information
struct RMResInfo
{
TBuf8<32> iName;
TUint iResourceId;
TInt iMaxLevel;
TInt iMinLevel;
TInt iDefaultLevel;
TInt iCurrentLevel;
TInt iCurrentClient;
TUint iNumClients;
TSense iSense;
TType iType;
TLatency iLatencyGet;
TLatency iLatencySet;
TUsage iUsage;
TUint iUnCondNotiCount;
NotiInfo *iCondNoti;
NotiInfo *iUncondNoti;
SPowerResourceClientLevel *iLevel;
};
//Test class.
class TestRM
{
private:
//Possible resource operation.
enum Operation
{
ERegisterClient = 0,
EGetClientName = 1,
EGetAllClientName = 2,
EGetClientId = 3,
EGetResourceId = 4,
EGetResourceInfo = 5,
EGetNumReosourceInUseByClient = 6,
EGetInfoOnResourceInUseByClient = 7,
EGetNumClientsUsingResource = 8,
EGetInfoOnClientsUsingResource = 9,
EChangeResourceStateSync = 10,
EChangeResourceStateAsync = 11,
EGetResourceStateSync = 12,
EGetResourceStateAsync = 13,
ERequestNotificationCond = 14,
ERequestNotificationUnCond = 15,
ECancelNotificationCond = 16,
ECancelNotificationUnCond = 17,
EOperationEnd = 18
};
public:
TestRM();
void RegisterClient();
void DeRegisterClient(TUint aClientId);
void GetClientName(TUint aClientId);
void GetClientId(TUint aClientId);
void GetResourceId(TUint aResId);
void GetResourceInfo(TUint aResId);
void GetNumResourcesInUseByClient(TInt aClientId);
void GetInfoOnResourcesInUseByClient(TInt aClientId, TUint aNumRes);
void GetNumClientsUsingResource(TUint aClientId, TUint aResId);
void GetInfoOnClientsUsingResource(TUint aResId, TUint aNumCli);
void AllocReserve(TUint aClientId);
void CheckNotification(TUint aResId, TInt newState);
void AddClientLevel(TUint aResId, TInt newState);
void UpdateClientInformation(TUint aResId, TInt aNewState);
void ChangeResourceStateSync(TUint aResId);
void ChangeResourceStateAsync(TUint aResId, TBool aReqCancel=EFalse);
void GetResourceStateSync(TUint aResId);
void GetResourceStateAsync(TUint aResId, TBool aReqCancel=EFalse);
void RequestNotification(TUint aResId);
void RequestNotificationCon(TUint aResId);
void ValidateClient(TUint aNumClients, TOwnerType aContext);
void CancelNotification(TUint aResId, TBool Cond);
void APIValidationTest();
void SharedBinaryPositiveResourceTesting(TUint aResId);
void SharedBinaryNegativeResourceTesting(TUint aResId);
void CustomResourceTesting(TUint aResId);
void DeRegisterClientLevelFromResource(TInt aClientId, TUint aResId);
void RegressionTest();
void TestStaticResourceWithDependency();
void GetExtendedResStateAsyncAndVerify(TUint aResId, TInt aState, TInt aLevelOwnerId, TBool aReqCancel = EFalse);
void GetExtendedResStateAndVerify(TUint aResId, TInt aState, TInt aLevelOwnerId);
void TestDynamicResource();
void TestDynamicResourceDependency();
void CheckForDependencyInformation(TUint aClientId, TUint aResourceId, TUint aNumDependents, SResourceDependencyInfo* aDepResIdArray);
void SharedMultilevelNegativeResourceTesting(TUint aResId);
void SharedMultilevelPositiveResourceTesting(TUint aResId);
private:
RArray<RMClientInfo> Clients;
RMResInfo Resources[MAX_STATIC_RESOURCE_NUM];
TUint iStaticDependencyResources[MAX_STATIC_DEPENDENCY_RESOURCE_NUM];
TInt iCurrentClientId;
TUint iMaxClientId;
TUint iMaxClients;
TUint iMaxStaticResources;
TUint iMaxStaticDependentResources;
TUint iPowerControllerId;
TUint iTestingExtendedVersion;
};
TBool NegativeTesting; //If true enables negative testing of API's
TInt r = KErrNone;
TBuf8<32> ClientName(_L8("Client?"));
RTestResMan lddChan;
TestRM RmTest;
//Class constructor
TestRM::TestRM(): iCurrentClientId(-1),iMaxClientId(0), iMaxClients(0),iMaxStaticResources(0), iMaxStaticDependentResources(0), iTestingExtendedVersion(0)
{
test.Printf(_L("TestRM::TestRM()\n"));
}
//----------------------------------------------------------------------------------------------
//! @SYMTestCaseID KBASE-T_RESCONTROLCLI-0573
//! @SYMTestType UT
//! @SYMPREQ PREQ1398
//! @SYMTestCaseDesc This test case tests the client registeration functionality of resource
//! manager.It registeres a client with resource manager and stores the relevant
//! information in Clients array. Currently allows only maximum of 50 client
//! registration.
//! @SYMTestActions 0 Returns if already maximum allowable clients are registered.
//! 1 Register a client with the resource manager with a unique name.
//! 2 Appends the client information to an array for futher reference.
//!
//! @SYMTestExpectedResults client registration is successful, panics otherwise.
//! @SYMTestPriority High
//! @SYMTestStatus Implemented
//----------------------------------------------------------------------------------------------
void TestRM::RegisterClient()
{
TUint clientId = 0;
RMClientInfo info;
if(iMaxClientId > MAX_CLIENTS)
{
test.Printf(_L("Reached maximum client allocation. Can't allocate more\n"));
return;
}
ClientName[6] = (TUint8)('0' + iMaxClientId);
r = lddChan.RegisterClient(clientId, (const TDesC*)&ClientName);
if(r != KErrNone)
test.Printf(_L("Register Client failed with %d\n"), r);
test(r == KErrNone);
info.iClientId = clientId;
info.iNumResources = 0;
for(TUint c = 0; c< MAX_STATIC_RESOURCE_NUM; c++)
info.iResourceIds[c] = 0;
iMaxClientId++;
iMaxClients++;
r = Clients.Append(info);
if(r != KErrNone)
test.Printf(_L("Client Append failed with %d\n"), r);
test(r == KErrNone);
}
//----------------------------------------------------------------------------------------------
//! @SYMTestCaseID KBASE-T_RESCONTROLCLI-0574
//! @SYMTestType UT
//! @SYMPREQ PREQ1398
//! @SYMTestCaseDesc This test case tests the client deregisteration functionality of resource
//! manager.It deregisteres a client with the resource manager, calculates
//! the resource level of each resource that the client was having requirement and
//! checks the resource level change after client deregistration.
//! @SYMTestActions 0 Deregister a client from resource manager
//! 1 Calculates the resource level of each resource the client was having requirement.
//! 2 Checks the resource level change of each resource for correctness.
//! 3 Zeros the clientId stored internally to make sure it is not referenced again.
//!
//! @SYMTestExpectedResults client deregistration is successful and also the resource level of
//! each resource the client was holding the resource level is checked
//! for correctness, panics otherwise
//! @SYMTestPriority High
//! @SYMTestStatus Implemented
//----------------------------------------------------------------------------------------------
void TestRM::DeRegisterClient(TUint aClientId)
{
r = lddChan.DeRegisterClient(Clients[aClientId].iClientId);
if(r != KErrNone)
test.Printf(_L("Client deregistration of %d failed with %d\n"), Clients[aClientId].iClientId, r);
test(r == KErrNone);
TUint count;
for(count = 0; count < iMaxStaticResources; count++)
{
RMResInfo *pR = &Resources[count];
NotiInfo* pI = pR->iCondNoti;
NotiInfo* ptr = NULL;
//Remove any conditional notification that this client has on resource.
while(pI != NULL)
{
if(pI->iClientId == aClientId)
{
ptr = pI;
pI = pI->iNext;
LIST_REMOVE(pR->iCondNoti, ptr, iNext, NotiInfo);
delete ptr;
}
else
pI = pI->iNext;
}
//Remove any unconditional notification that this client has on resource.
pI = pR->iUncondNoti;
ptr = NULL;
while(pI != NULL)
{
if(pI->iClientId == aClientId)
{
ptr = pI;
pI = pI->iNext;
LIST_REMOVE(pR->iUncondNoti, ptr, iNext, NotiInfo);
delete ptr;
}
else
pI = pI->iNext;
}
}
//Remove client level
TUint res = 0;
for(count = 0; count < Clients[aClientId].iNumResources; count++)
{
res = Clients[aClientId].iResourceIds[count];
if(res == 0)
continue;
for(TUint c = 0; c< iMaxStaticResources; c++)
{
if(Resources[c].iResourceId == res)
{
res = c;
break;
}
}
if(Resources[res].iCurrentClient == (TInt)aClientId)
{
if(!Resources[res].iUsage)
{
Resources[res].iCurrentLevel = Resources[res].iDefaultLevel;
Resources[res].iCurrentClient = -1;
Resources[res].iNumClients = 0;
}
else if(Resources[res].iSense == ECustom)
continue;
else
{
TInt maxLevel = KMinTInt;
TInt id = -1;
for(SPowerResourceClientLevel* pCL = Resources[res].iLevel; pCL != NULL; pCL = pCL->iNextInList)
{
if(pCL->iClientId == aClientId)
continue;
if((maxLevel == KMinTInt) || (maxLevel == pCL->iLevel))
{
maxLevel = pCL->iLevel;
id = pCL->iClientId;
continue;
}
if(Resources[res].iSense == EPositive && pCL->iLevel > maxLevel)
{
maxLevel = pCL->iLevel;
id = pCL->iClientId;
}
else if(Resources[res].iSense == ENegative && pCL->iLevel < maxLevel)
{
maxLevel = pCL->iLevel;
id = pCL->iClientId;
}
}
if(id == -1)
{
Resources[res].iCurrentLevel = Resources[res].iDefaultLevel;
Resources[res].iCurrentClient = -1;
Resources[res].iNumClients = 0;
}
else
{
Resources[res].iCurrentLevel = maxLevel;
Resources[res].iCurrentClient = id;
Resources[res].iNumClients--;
}
}
}
//Remove client list entry from resource
for(SPowerResourceClientLevel* pCL = Resources[res].iLevel; pCL != NULL; pCL = pCL->iNextInList)
{
if(pCL->iClientId == aClientId)
{
LIST_REMOVE(Resources[res].iLevel, pCL, iNextInList, SPowerResourceClientLevel);
delete pCL;
break;
}
}
}
//Verify the resource state consistency
res = 0;
TInt newState;
TInt levelOwnerId;
if(iMaxClients > 1)
{
for(TUint id = 0; id < Clients[aClientId].iNumResources; id++)
{
res = Clients[aClientId].iResourceIds[id];
if(res == 0)
continue;
for(TUint c = 0; c< iMaxStaticResources; c++)
{
if(Resources[c].iResourceId == res)
{
res = c;
break;
}
}
r = lddChan.GetResourceStateSync(Clients[0].iClientId, Resources[res].iResourceId, ETrue, newState, levelOwnerId);
if(r != KErrNone)
test.Printf(_L("GetResourceStateSync returned with %d"), r);
test(r == KErrNone);
if(newState != Resources[res].iCurrentLevel)
test.Printf(_L("newState = %d, Resources[%d].iCurrentLevel = %d"), newState, Resources[res].iResourceId, Resources[res].iCurrentLevel);
test(newState == Resources[res].iCurrentLevel);
if(Resources[res].iCurrentClient == -1)
test(levelOwnerId == -1);
else if (levelOwnerId != (TInt)Clients[Resources[res].iCurrentClient].iClientId)
{
test.Printf(_L("levelOwnerId = 0x%x, iCurrentClient = 0x%x\n"), levelOwnerId, Resources[res].iCurrentClient);
test(0);
}
}
}
Clients[aClientId].iClientId = 0;
iMaxClients--;
}
//----------------------------------------------------------------------------------------------
//! @SYMTestCaseID KBASE-T_RESCONTROLCLI-0575
//! @SYMTestType UT
//! @SYMPREQ PREQ1398
//! @SYMTestCaseDesc This test case tests the retrieval of client name functionality of resource
//! manager and compares for correctness. There are negative and positive tests.
//! @SYMTestActions If negative testing is enabled then following tests are done
//! 0 Call the API with invalid client Id (calling client Id).
//! 1 Call the API with invalid instance count of calling client Id.
//! 2 Call the API with invalid target client Id.
//! 3 Call the API with invalid instance count of target client Id.
//! Positive tests
//! 4 Call the API with valid client Ids (both calling and target client ID)
//!
//! @SYMTestExpectedResults 0 API should return with KErrAccessDenied, panics otherwise
//! 1 API should return with KErrAccessDenied, panics otherwise
//! 2 API should return with KErrNotFound, panics otherwise
//! 3 API should return with KErrNotFound, panics otherwise
//! 4 API should return KErrNone with name updated and also name
//! is checked for correctness, panics otherwise
//! @SYMTestPriority High
//! @SYMTestStatus Implemented
//----------------------------------------------------------------------------------------------
void TestRM::GetClientName(TUint aClientId)
{
ClientName[6] = (TUint8)('0' + aClientId);
TBuf8<32> name;
if(NegativeTesting)
{
//Pass illegal client Id
r = lddChan.GetClientName(0, Clients[aClientId].iClientId, (TDes8*)&name);
test(r == KErrAccessDenied);
//Pass illegal instance count
TUint id = Clients[aClientId].iClientId;
id = id ^ (3<<16);
r = lddChan.GetClientName(id, Clients[aClientId].iClientId, (TDes8*)&name);
test(r == KErrAccessDenied);
//Pass illegal target client id
r = lddChan.GetClientName(Clients[aClientId].iClientId, iMaxClients, (TDes8*)&name);
test(r == KErrNotFound);
//Pass illegal instance count of target client id
id = id ^ (1<<16);
r = lddChan.GetClientName(Clients[aClientId].iClientId, 0 ,(TDes8*)&name);
test(r == KErrNotFound);
}
r = lddChan.GetClientName(Clients[aClientId].iClientId, Clients[aClientId].iClientId, (TDes8*)&name);
if(r != KErrNone)
test.Printf(_L("GetClientName of ClientId 0x%x returned with %d"), Clients[aClientId].iClientId, r);
test(r == KErrNone);
if(name.Compare(ClientName))
test(0);
}
//----------------------------------------------------------------------------------------------
//! @SYMTestCaseID KBASE-T_RESCONTROLCLI-0576
//! @SYMTestType UT
//! @SYMPREQ PREQ1398
//! @SYMTestCaseDesc This test case tests the retrieval of client ID functionality of resource
//! manager and compares for correctness. There are negative and positive tests.
//! @SYMTestActions If negative testing is enabled then following tests are done
//! 0 Call the API with invalid client Id (calling client Id).
//! 1 Call the API with invalid instance count of calling client Id.
//! 2 Call the API with client name greater than maximum allowable
//! client name (32 characters).
//! 3 Call the API with name not registered with resource manager
//! (non-existing name).
//! Positive tests
//! 4 Call the API with valid client Id.
//!
//! @SYMTestExpectedResults 0 API should return with KErrAccessDenied, panics otherwise
//! 1 API should return with KErrAccessDenied, panics otherwise
//! 2 API should return with KErrTooBig, panics otherwise
//! 3 API should return with KErrNotFound, panics otherwise
//! 4 API should return KErrNone with client Id updated and also Id
//! is checked for correctness, panics otherwise
//! @SYMTestPriority High
//! @SYMTestStatus Implemented
//----------------------------------------------------------------------------------------------
void TestRM::GetClientId(TUint aClientId)
{
TUint clientId;
ClientName[6] = (TUint8)('0' + aClientId);
if(NegativeTesting)
{
//Pass illegial client Id
r = lddChan.GetClientId(0, (TDesC8&)ClientName, Clients[aClientId].iClientId);
test(r == KErrAccessDenied);
//Pass illegal instance count
TUint id = Clients[aClientId].iClientId;
id = id ^ (3<<16);
r = lddChan.GetClientId(id, (TDesC8&)ClientName, Clients[aClientId].iClientId);
test(r == KErrAccessDenied);
TBuf8<50> badName = _L8("Clientnamegreaterthan32characters");
r = lddChan.GetClientId(Clients[aClientId].iClientId, (TDesC8&)badName, clientId);
test(r == KErrTooBig);
ClientName[6] = (TUint8)('0' + iMaxClients + 1);
r = lddChan.GetClientId(Clients[aClientId].iClientId, (TDesC8&)ClientName, clientId);
test(r == KErrNotFound);
}
ClientName[6] = (TUint8)('0' + aClientId);
r = lddChan.GetClientId(Clients[aClientId].iClientId, (TDesC8&)ClientName, clientId);
if(r != KErrNone)
test.Printf(_L("GetClientId returned with %d"), r);
test(r == KErrNone);
if(clientId != Clients[aClientId].iClientId)
test.Printf(_L("ClientId = 0x%x, Expected ClientId = 0x%x"), clientId, Clients[aClientId].iClientId);
test(clientId == Clients[aClientId].iClientId);
}
//----------------------------------------------------------------------------------------------
//! @SYMTestCaseID KBASE-T_RESCONTROLCLI-0577
//! @SYMTestType UT
//! @SYMPREQ PREQ1398
//! @SYMTestCaseDesc This test case tests the retrieval of resource ID functionality of resource
//! manager and compares for correctness. There are negative and positive tests.
//! @SYMTestActions If negative testing is enabled then following tests are done
//! 0 Call the API with invalid client Id (calling client Id).
//! 1 Call the API with invalid instance count of calling client Id.
//! 2 Call the API with resource name greater than maximum allowable
//! resource name (32 characters).
//! 3 Call the API with name not registered with resource manager
//! (non-existing name).
//! Positive tests
//! 4 Call the API with valid client Id and resource name.
//!
//! @SYMTestExpectedResults 0 API should return with KErrAccessDenied, panics otherwise
//! 1 API should return with KErrAccessDenied, panics otherwise
//! 2 API should return with KErrTooBig, panics otherwise
//! 3 API should return with KErrNotFound, panics otherwise
//! 4 API should return KErrNone with resource Id updated and also Id
//! is checked for correctness, panics otherwise
//! @SYMTestPriority High
//! @SYMTestStatus Implemented
//----------------------------------------------------------------------------------------------
void TestRM::GetResourceId(TUint aResId)
{
TUint resId;
if(NegativeTesting)
{
r = lddChan.GetResourceId(iMaxClients, Resources[aResId].iName, resId);
test(r == KErrAccessDenied);
//Pass illegal instance count
TUint id = Clients[iCurrentClientId].iClientId;
id = id ^ (3<<17);
r = lddChan.GetResourceId(id, (TDesC8&)Resources[aResId].iName, resId);
test(r == KErrAccessDenied);
TBuf8<50> badName = _L8("Resourcenamegreaterthen32characters");
r = lddChan.GetResourceId(Clients[iCurrentClientId].iClientId, (TDesC8&)badName, resId);
test(r == KErrTooBig);
badName = Resources[aResId].iName;
badName[0] = '0' + 1;
r = lddChan.GetResourceId(Clients[iCurrentClientId].iClientId, (TDesC8&)badName, resId);
test(r == KErrNotFound);
}
r = lddChan.GetResourceId(Clients[iCurrentClientId].iClientId, (TDesC8&)Resources[aResId].iName, resId);
if(r != KErrNone)
test.Printf(_L("Return value of GetResourceId %d"), r);
test(r == KErrNone);
if(resId != Resources[aResId].iResourceId)
test.Printf(_L("resId = %d ... aResId = %d"), resId, Resources[aResId].iResourceId);
test(resId == Resources[aResId].iResourceId);
}
//----------------------------------------------------------------------------------------------
//! @SYMTestCaseID KBASE-T_RESCONTROLCLI-0578
//! @SYMTestType UT
//! @SYMPREQ PREQ1398
//! @SYMTestCaseDesc This test case tests the retrieval of resource information of a specified
//! resource functionality of resource manager and compares each info for correctness.
//! There are negative and positive tests.
//! @SYMTestActions If negative testing is enabled then following tests are done
//! 0 Call the API with invalid client Id (calling client Id).
//! 1 Call the API with invalid instance count of calling client Id.
//! 2 Call the API with invalid resource id.
//! Positive tests
//! 3 Call the API with valid client Id and resource id.
//!
//! @SYMTestExpectedResults 0 API should return with KErrAccessDenied, panics otherwise
//! 1 API should return with KErrAccessDenied, panics otherwise
//! 2 API should return with KErrNotFound, panics otherwise
//! 3 API should return KErrNone with resource information updated and also
//! each information is checked for correctness, panics otherwise
//! @SYMTestPriority High
//! @SYMTestStatus Implemented
//----------------------------------------------------------------------------------------------
void TestRM::GetResourceInfo(TUint aResId)
{
RBuf8 infoBuf;
infoBuf.Create(sizeof(TPowerResourceInfoV01));
if(NegativeTesting)
{
r = lddChan.GetResourceInfo(iMaxClients-5, aResId+1, (TAny*)(TDes8*)&infoBuf);
test(r == KErrAccessDenied);
//Pass illegal instance count
TUint id = Clients[iCurrentClientId].iClientId;
id = id ^ (5<<17);
r = lddChan.GetResourceInfo(id, aResId+1, (TAny*)infoBuf.Ptr());
test(r == KErrAccessDenied);
r = lddChan.GetResourceInfo(Clients[iCurrentClientId].iClientId, iMaxStaticResources + 30, (TAny*)(TDes8*)&infoBuf);
test(r == KErrNotFound);
r = lddChan.GetResourceInfo(Clients[iCurrentClientId].iClientId, 26, (TAny*)(TDes8*)&infoBuf);
test(r == KErrNotFound);
}
r = lddChan.GetResourceInfo(Clients[iCurrentClientId].iClientId, Resources[aResId].iResourceId, (TAny*)(TDes8*)&infoBuf);
if(r != KErrNone)
test.Printf(_L("GetResourceInfo returned with %d"), r);
test(r == KErrNone);
TPowerResourceInfoV01 *ptr = (TPowerResourceInfoV01*)infoBuf.Ptr();
//Compare results.
test(ptr->iResourceId == Resources[aResId].iResourceId);
test(ptr->iLatencyGet == Resources[aResId].iLatencyGet);
test(ptr->iLatencySet == Resources[aResId].iLatencySet);
test(ptr->iType == Resources[aResId].iType);
test(ptr->iUsage == Resources[aResId].iUsage);
test(ptr->iSense == Resources[aResId].iSense);
test(ptr->iMaxLevel == Resources[aResId].iMaxLevel);
test(ptr->iMinLevel == Resources[aResId].iMinLevel);
test(ptr->iDefaultLevel == Resources[aResId].iDefaultLevel);
if(ptr->iUsage == ESingle && Resources[aResId].iNumClients >1) //Single user resource cannot have more than 1 client.
test(0);
infoBuf.Close();
}
//----------------------------------------------------------------------------------------------
//! @SYMTestCaseID KBASE-T_RESCONTROLCLI-0579
//! @SYMTestType UT
//! @SYMPREQ PREQ1398
//! @SYMTestCaseDesc This test case tests retrieval of number of resources the requested client has
//! requirement functionality of resource manager and compares with stored information
//! for correctness.There are negative and positive tests.
//! @SYMTestActions If negative testing is enabled then following tests are done
//! 0 Call the API with invalid client Id (calling client Id).
//! 1 Call the API with invalid instance count of calling client Id.
//! 2 Call the API with invalid target client Id.
//! 3 Call the API with invalid instance count of target client Id.
//! Positive tests
//! 4 Call the API with valid calling and target client Id.
//!
//! @SYMTestExpectedResults 0 API should return with KErrAccessDenied, panics otherwise
//! 1 API should return with KErrAccessDenied, panics otherwise
//! 2 API should return with KErrNotFound, panics otherwise
//! 3 API should return with KErrNotFound, panics otherwise
//! 4 API should return KErrNone with number of resources the requested client has
//! requirement updated and also is checked for correctness, panics otherwise
//! @SYMTestPriority High
//! @SYMTestStatus Implemented
//----------------------------------------------------------------------------------------------
void TestRM::GetNumResourcesInUseByClient(TInt aClientId)
{
TUint numRes;
if(NegativeTesting)
{
//Pass illegial client Id
r = lddChan.GetNumResourcesInUseByClient(23, Clients[aClientId].iClientId, numRes);
test(r == KErrAccessDenied);
//Pass illegal instance count
TUint id = Clients[aClientId].iClientId;
id = id ^ (1<<16);
r = lddChan.GetNumResourcesInUseByClient(id, Clients[aClientId].iClientId, numRes);
test(r == KErrAccessDenied);
//Pass illegal target client id
r = lddChan.GetNumResourcesInUseByClient(Clients[aClientId].iClientId, iMaxClients, numRes);
test(r == KErrNotFound);
//Pass illegal instance count of target client id
id = id ^ (3<<16);
r = lddChan.GetNumResourcesInUseByClient(Clients[aClientId].iClientId, id ,numRes);
test(r == KErrNotFound);
}
if(aClientId == -1)
{
r = lddChan.GetNumResourcesInUseByClient(Clients[0].iClientId, 0, numRes);
if(r != KErrNone)
test.Printf(_L("GetNumResourcesInUseByClient returned with %d"), r);
test(r == KErrNone);
if((!iTestingExtendedVersion) && (numRes > MAX_STATIC_RESOURCE_NUM))
test(0);
if(iMaxStaticResources == 0)
iMaxStaticResources = numRes;
else
test(numRes == (iMaxStaticResources + iMaxStaticDependentResources));
}
else
{
r = lddChan.GetNumResourcesInUseByClient(Clients[aClientId].iClientId, Clients[aClientId].iClientId, numRes);
if(r != KErrNone)
test.Printf(_L("GetNumResourceInUseByClient returned with %d"), r);
test(r == KErrNone);
if(numRes != Clients[aClientId].iNumResources)
test.Printf(_L("numRes = %d, iNumResources = %d"), numRes, Clients[aClientId].iNumResources);
test(numRes == Clients[aClientId].iNumResources);
}
}
//----------------------------------------------------------------------------------------------
//! @SYMTestCaseID KBASE-T_RESCONTROLCLI-0580
//! @SYMTestType UT
//! @SYMPREQ PREQ1398
//! @SYMTestCaseDesc This test case tests retrieval of information about resources the requested client has
//! requirement functionality of resource manager and compares with stored information
//! for correctness.There are negative and positive tests.
//! @SYMTestActions If negative testing is enabled then following tests are done
//! 0 Call the API with invalid client Id (calling client Id).
//! 1 Call the API with invalid instance count of calling client Id.
//! 2 Call the API with invalid target client Id.
//! 3 Call the API with invalid instance count of target client Id.
//! 4 Call the API with null buffer (buffer where the resource information will be updated).
//! 5 Call the API with the number of resource information to be updated as 0 (specifies the
//! size of the buffer).
//! Positive tests
//! 6 Call the API with valid calling and target client Id, buffer and its size.
//!
//! @SYMTestExpectedResults 0 API should return with KErrAccessDenied, panics otherwise
//! 1 API should return with KErrAccessDenied, panics otherwise
//! 2 API should return with KErrNotFound, panics otherwise
//! 3 API should return with KErrNotFound, panics otherwise
//! 4 API should return with KErrArgument, panics otherwise
//! 5 API should return with KErrArgument, panics otherwise
//! 6 API should return KErrNone with resource information about resources the requested
//! client has requirement updated and also is checked for correctness, panics otherwise
//! @SYMTestPriority High
//! @SYMTestStatus Implemented
//----------------------------------------------------------------------------------------------
void TestRM::GetInfoOnResourcesInUseByClient(TInt aClientId, TUint aNumRes)
{
RBuf8 info;
info.Create(aNumRes * sizeof(TPowerResourceInfoV01));
if(NegativeTesting)
{
//Pass illegial client Id
r = lddChan.GetInfoOnResourcesInUseByClient(32, Clients[aClientId].iClientId, aNumRes, (TAny*)(TDes8*)&info);
test(r == KErrAccessDenied);
//Pass illegal instance count
TUint id = Clients[aClientId].iClientId;
id = id ^ (1<<16);
r = lddChan.GetInfoOnResourcesInUseByClient(id, Clients[aClientId].iClientId, aNumRes, (TAny*)(TDes8*)&info);
test(r == KErrAccessDenied);
//Pass illegal target client id
r = lddChan.GetInfoOnResourcesInUseByClient(Clients[aClientId].iClientId, iMaxClients, aNumRes, (TAny*)(TDes8*)&info);
test(r == KErrNotFound);
//Pass illegal instance count of target client id
id = id ^ (3<<16);
r = lddChan.GetInfoOnResourcesInUseByClient(Clients[aClientId].iClientId, id ,aNumRes,(TAny*)(TDes8*)&info);
test(r == KErrNotFound);
//Pass null buffer
r = lddChan.GetInfoOnResourcesInUseByClient(Clients[aClientId].iClientId, Clients[aClientId].iClientId ,aNumRes, (TAny*)NULL);
test(r == KErrArgument);
//Pass required resources as 0
TUint tempRes = 0;
r = lddChan.GetInfoOnResourcesInUseByClient(Clients[aClientId].iClientId, Clients[aClientId].iClientId, tempRes, (TAny*)(TDes8*)&info);
test(r == KErrArgument);
}
if(aClientId == -1)
{
r = lddChan.GetInfoOnResourcesInUseByClient(Clients[0].iClientId, 0, aNumRes, (TAny*)(TDes8*)&info);
if(r != KErrNone)
test.Printf(_L("GetInfoOnResourceInUseByClient returned with %d"), r);
test(r == KErrNone);
if(aNumRes != (iMaxStaticResources + iMaxStaticDependentResources))
test.Printf(_L("aNumRes = %d, iMaxStaticResources = %d"), aNumRes, iMaxStaticResources);
test(aNumRes == (iMaxStaticResources + iMaxStaticDependentResources));
//Fill in the resource information
TInt newState, levelOwnerId;
TPowerResourceInfoV01 *ptr = (TPowerResourceInfoV01*)info.Ptr();
TUint extCount = 0;
for(TUint count = 0; count < aNumRes; count++)
{
r = lddChan.GetResourceStateSync(Clients[0].iClientId, ptr->iResourceId, ETrue, newState, levelOwnerId);
if(r != KErrNone)
test.Printf(_L("GetResourceStateSync failed for ClientId = %d, resourceId = %d with return value %d\n"), Clients[0].iClientId, count+1, r);
test(r == KErrNone);
test.Printf(_L("Info of Resource %d\n"), count+1);
test.Printf(_L("Resource Id %d\n"), ptr->iResourceId);
test.Printf(_L("Resource Type %d\n"), ptr->iType);
test.Printf(_L("Resource Sense %d\n"), ptr->iSense);
test.Printf(_L("Resource Latency Get %d\n"), ptr->iLatencyGet);
test.Printf(_L("Resource Latency Set %d\n"), ptr->iLatencySet);
test.Printf(_L("Resource usage %d\n"), ptr->iUsage);
test.Printf(_L("Resource MinLevel %d\n"), ptr->iMinLevel);
test.Printf(_L("Resource MaxLevel %d\n"), ptr->iMaxLevel);
test.Printf(_L("Resource DefaultLevel %d\n"), ptr->iDefaultLevel);
if(iTestingExtendedVersion && (ptr->iResourceId & DEPENDENCY_RESOURCE_BIT_MASK))
{
iStaticDependencyResources[extCount++] = ptr->iResourceId;
ptr++;
continue;
}
if(iTestingExtendedVersion && (ptr->iResourceId & DYNAMIC_RESOURCE_BIT_MASK))
{
ptr++;
continue;
}
Resources[count].iName.Copy(*ptr->iResourceName);
Resources[count].iResourceId = ptr->iResourceId;
Resources[count].iMaxLevel = ptr->iMaxLevel;
Resources[count].iMinLevel = ptr->iMinLevel;
Resources[count].iDefaultLevel = ptr->iDefaultLevel;
Resources[count].iNumClients = 0;
Resources[count].iCurrentClient = -1;
Resources[count].iCurrentLevel = newState;
Resources[count].iType = ptr->iType;
Resources[count].iSense = ptr->iSense;
Resources[count].iLatencyGet = ptr->iLatencyGet;
Resources[count].iLatencySet = ptr->iLatencySet;
Resources[count].iUsage = ptr->iUsage;
Resources[count].iUnCondNotiCount = 0;
Resources[count].iCondNoti = NULL;
Resources[count].iUncondNoti = NULL;
Resources[count].iLevel = NULL;
ptr++;
}
iMaxStaticResources -= extCount;
iMaxStaticDependentResources = extCount;
info.Close();
return;
}
r = lddChan.GetInfoOnResourcesInUseByClient(Clients[aClientId].iClientId, Clients[aClientId].iClientId, aNumRes, (TAny*)&info);
if(aNumRes != Clients[aClientId].iNumResources)
{
test.Printf(_L("Expected Resource Num = %d, Returned = %d\n"), Clients[aClientId].iNumResources, aNumRes);
test(0);
}
if(aNumRes == 0)
{
test((r == KErrArgument) || (r == KErrNone));
info.Close();
return;
}
else
test(r == KErrNone);
TPowerResourceInfoV01 *ptr = (TPowerResourceInfoV01*)info.Ptr();
for(TUint count = 0; count < Clients[aClientId].iNumResources; count++)
{
if(Clients[aClientId].iResourceIds[count] == 0)
continue;
TUint c;
for(c = 0; c < Clients[aClientId].iNumResources; c++)
{
if(Clients[aClientId].iResourceIds[c] == ptr->iResourceId)
break;
}
if(c == Clients[aClientId].iNumResources)
test(0);
//Find the resource from resource list
for(c = 0; c < iMaxStaticResources; c++)
{
if(Resources[c].iResourceId == ptr->iResourceId)
break;
}
if(c == iMaxStaticResources)
test(0);
test(Resources[c].iResourceId == ptr->iResourceId);
test(Resources[c].iMaxLevel == ptr->iMaxLevel);
test(Resources[c].iMinLevel == ptr->iMinLevel);
test(Resources[c].iDefaultLevel == ptr->iDefaultLevel);
test(Resources[c].iType == ptr->iType);
test(Resources[c].iSense == ptr->iSense);
test(Resources[c].iLatencyGet == ptr->iLatencyGet);
test(Resources[c].iLatencySet == ptr->iLatencySet);
test(Resources[c].iUsage == ptr->iUsage);
test(!Resources[c].iName.Compare(*ptr->iResourceName));
ptr++;
}
info.Close();
}
//----------------------------------------------------------------------------------------------
//! @SYMTestCaseID KBASE-T_RESCONTROLCLI-0581
//! @SYMTestType UT
//! @SYMPREQ PREQ1398
//! @SYMTestCaseDesc This test case tests retrieval of number of clients holding requirement on
//! the requested resource functionality of resource manager and compares with stored
//! information for correctness.There are negative and positive tests.
//! @SYMTestActions If negative testing is enabled then following tests are done
//! 0 Call the API with invalid client Id (calling client Id).
//! 1 Call the API with invalid instance count of calling client Id.
//! 2 Call the API with invalid resource Id.
//! Positive tests
//! 3 Call the API with valid calling client Id and resource Id.
//!
//! @SYMTestExpectedResults 0 API should return with KErrAccessDenied, panics otherwise
//! 1 API should return with KErrAccessDenied, panics otherwise
//! 2 API should return with KErrNotFound, panics otherwise
//! 3 API should return KErrNone with number of clients holding requirement on
//! the requested resource updated and also is checked for correctness, panics otherwise
//! @SYMTestPriority High
//! @SYMTestStatus Implemented
//----------------------------------------------------------------------------------------------
void TestRM::GetNumClientsUsingResource(TUint aClientId, TUint aResId)
{
TUint clientNum = 0;
if(NegativeTesting)
{
//Pass illegial client Id
r = lddChan.GetNumClientsUsingResource(32, 1, clientNum);
test(r == KErrAccessDenied);
//Pass illegal instance count
TUint id = Clients[aClientId].iClientId;
id = id ^ (1<<16);
r = lddChan.GetNumClientsUsingResource(id, 1, clientNum);
test(r == KErrAccessDenied);
//Invalid resource id
r = lddChan.GetNumClientsUsingResource(Clients[aClientId].iClientId, iMaxStaticResources+40, clientNum);
test(r == KErrNotFound);
}
if((TInt)aResId == -1)
r = lddChan.GetNumClientsUsingResource(Clients[aClientId].iClientId, 0, clientNum);
else
r = lddChan.GetNumClientsUsingResource(Clients[aClientId].iClientId, Resources[aResId].iResourceId, clientNum);
if(r != KErrNone)
test.Printf(_L("GetNumClientsUsingResource for client 0x%x failed with %d"), Clients[aClientId].iClientId, r);
test(r==KErrNone);
if((TInt)aResId == -1)
{
if(clientNum != (TUint)(Clients.Count() + 1))
test.Printf(_L("ClientNum = %d, Expected clientNum = %d"), clientNum, Clients.Count()+1);
test(clientNum == (TUint)(Clients.Count() + 1));
}
else
{
test(Resources[aResId].iNumClients == clientNum);
if(!Resources[aResId].iUsage && clientNum > 1) //Single user resource cannot have more that one client
test(0);
}
}
//----------------------------------------------------------------------------------------------
//! @SYMTestCaseID KBASE-T_RESCONTROLCLI-0582
//! @SYMTestType UT
//! @SYMPREQ PREQ1398
//! @SYMTestCaseDesc This test case tests retrieval of information about clients holding requirement on
//! the passed resource functionality of resource manager and compares with stored information
//! for correctness.There are negative and positive tests.
//! @SYMTestActions If negative testing is enabled then following tests are done
//! 0 Call the API with invalid client Id (calling client Id).
//! 1 Call the API with invalid instance count of calling client Id.
//! 2 Call the API with invalid resource Id.
//! 3 Call the API with null buffer (buffer where the resource information will be updated).
//! 4 Call the API with the number of resource information to be updated as 0 (specifies the
//! size of the buffer).
//! Positive tests
//! 5 Call the API with valid calling and target client Id, buffer and its size.
//!
//! @SYMTestExpectedResults 0 API should return with KErrAccessDenied, panics otherwise
//! 1 API should return with KErrAccessDenied, panics otherwise
//! 2 API should return with KErrNotFound, panics otherwise
//! 3 API should return with KErrArgument, panics otherwise
//! 4 API should return with KErrArgument, panics otherwise
//! 5 API should return KErrNone with resource information about clients holding requirement
//! on the passed resource and also is checked for correctness, panics otherwise
//! @SYMTestPriority High
//! @SYMTestStatus Implemented
//----------------------------------------------------------------------------------------------
void TestRM::GetInfoOnClientsUsingResource(TUint aResId, TUint aNumCli)
{
RBuf8 info;
info.Create(aNumCli * sizeof(TPowerClientInfoV01));
if(NegativeTesting)
{
//Pass illegial client Id
r = lddChan.GetInfoOnClientsUsingResource(2, 1, aNumCli, (TAny*)(TDes8*)&info);
test(r == KErrAccessDenied);
//Pass illegal instance count
TUint id = Clients[iCurrentClientId].iClientId;
id = id ^ (1<<16);
r = lddChan.GetInfoOnClientsUsingResource(id, 1, aNumCli, (TAny*)(TDes8*)&info);
test(r == KErrAccessDenied);
//Invalid resource id
r = lddChan.GetInfoOnClientsUsingResource(Clients[iCurrentClientId].iClientId, iMaxStaticResources+40, aNumCli, (TAny*)(TDes8*)&info);
test(r == KErrNotFound);
//Pass null buffer
r = lddChan.GetInfoOnClientsUsingResource(Clients[iCurrentClientId].iClientId, 1 ,aNumCli, (TAny*)NULL);
test(r == KErrArgument);
//Pass required resources as 0
TUint tempCli = 0;
r = lddChan.GetInfoOnClientsUsingResource(Clients[iCurrentClientId].iClientId, 1 ,tempCli, (TAny*)(TDes8*)&info);
test(r == KErrArgument);
}
if((TInt)aResId == -1)
r = lddChan.GetInfoOnClientsUsingResource(Clients[iCurrentClientId].iClientId, 0, aNumCli, (TAny*)(TDes8*)&info);
else
r = lddChan.GetInfoOnClientsUsingResource(Clients[iCurrentClientId].iClientId, Resources[aResId].iResourceId, aNumCli, (TAny*)(TDes8*)&info);
if(r == KErrArgument)
{
if(aResId != 0)
test(Resources[aResId].iNumClients == 0);
info.Close();
return;
}
test(r == KErrNone);
TPowerClientInfoV01 *ptr = (TPowerClientInfoV01*)info.Ptr();
if((TInt)aResId == -1)
{
test(aNumCli == (TUint)(Clients.Count() + 1));
TUint c = 0;
for(TUint count = 0; count < aNumCli; count++)
{
//Skip comparision of first client as that will be PowerController.
if(ptr->iClientId == iPowerControllerId)
{
ptr++;
continue;
}
for(c = 0; c< iMaxClients; c++)
{
if(ptr->iClientId == Clients[c].iClientId)
break;
}
if(c == iMaxClients)
test(0);
ptr++;
}
}
else
{
if(aNumCli != Resources[aResId].iNumClients)
test.Printf(_L("aNumCli = %d, Expected numClients = %d\n"), aNumCli, Resources[aResId].iNumClients);
test(aNumCli == Resources[aResId].iNumClients);
//Compare results
SPowerResourceClientLevel *level = Resources[aResId].iLevel;
TUint c = 0;
for(TUint count = 0; count < aNumCli; count++)
{
SPowerResourceClientLevel *pL = Resources[aResId].iLevel;
for(c =0;c<aNumCli;c++)
{
if(Clients[pL->iClientId].iClientId == ptr->iClientId)
break;
pL = pL->iNextInList;
}
if(c == aNumCli)
{
test.Printf(_L("Client Id %d is not in the resource clientlevel list\n"), Clients[level->iClientId].iClientId);
test(0);
}
level = level->iNextInList;
ptr++;
}
}
info.Close();
}
//----------------------------------------------------------------------------------------------
//! @SYMTestCaseID KBASE-T_RESCONTROLCLI-0583
//! @SYMTestType UT
//! @SYMPREQ PREQ1398
//! @SYMTestCaseDesc This test case tests preallocation of memory for resource manager internal
//! structure.There are negative and positive tests.
//! @SYMTestActions If negative testing is enabled then following tests are done
//! 0 Call the API with invalid client Id
//! 1 Call the API with invalid instance count of client Id.
//! Positive tests
//! 2 Call the API with valid client Id.
//!
//! @SYMTestExpectedResults 0 API should return with KErrAccessDenied, panics otherwise
//! 1 API should return with KErrAccessDenied, panics otherwise
//! 2 API should return with KErrNone, panic otherwise. Really cannot
//! test this for correctness.
//! @SYMTestPriority High
//! @SYMTestStatus Implemented
//----------------------------------------------------------------------------------------------
void TestRM::AllocReserve(TUint aClientId)
{
if(NegativeTesting)
{
//Pass illegial client Id
r = lddChan.AllocReserve(11, 0, 3);
test(r == KErrAccessDenied);
//Pass illegal instance count
TUint id = Clients[aClientId].iClientId;
id = id ^ (1<<16);
r = lddChan.AllocReserve(id, 0, 0);
test(r == KErrAccessDenied);
}
r = lddChan.AllocReserve(Clients[iCurrentClientId].iClientId, 1, 0);
if(r != KErrNone)
test.Printf(_L("Alloc Reserve failed with %d"), r);
test(r == KErrNone);
}
//This function validates the conditional and unconditional notification for the
//specified resource state change.
void TestRM::CheckNotification(TUint aResId, TInt newState)
{
if(newState == Resources[aResId].iCurrentLevel)
return;
//Return if the newState is in decreasing order with respect to sense.
if(Resources[aResId].iUsage == EShared && Resources[aResId].iCurrentClient != -1)
{
if(Resources[aResId].iSense == EPositive)
{
if(newState <= Resources[aResId].iCurrentLevel && Resources[aResId].iCurrentClient != iCurrentClientId)
return;
}
else
{
if(newState >= Resources[aResId].iCurrentLevel && Resources[aResId].iCurrentClient != iCurrentClientId)
return;
}
}
TUint notificationUnCon = Resources[aResId].iUnCondNotiCount;
TUint notificationCon =0;
for(NotiInfo* info = Resources[aResId].iCondNoti; info != NULL; info = info->iNext)
{
if((info->iDirection && (info->iPreviousLevel < info->iThreshold) && (newState >= info->iThreshold)) ||
(!info->iDirection && (info->iPreviousLevel > info->iThreshold) && (newState <= info->iThreshold)))
notificationCon++;
info->iPreviousLevel = newState;
}
r = lddChan.CheckNotifications(Resources[aResId].iResourceId, notificationUnCon, notificationCon);
if(r != KErrNone)
test.Printf(_L("Check Notifications failed with %d"), r);
test(r == KErrNone);
}
//This function updates the client level.This will be used by other functions for validation.
void TestRM::AddClientLevel(TUint aResId, TInt newState)
{
SPowerResourceClientLevel *pCL = NULL;
if(Resources[aResId].iUsage == EShared)
{
for(pCL = Resources[aResId].iLevel;pCL != NULL; pCL = pCL->iNextInList)
{
if((TInt)pCL->iClientId == iCurrentClientId)
{
pCL->iLevel = newState;
return;
}
}
pCL = new SPowerResourceClientLevel;
test(pCL != NULL);
pCL->iClientId = iCurrentClientId;
pCL->iResourceId = Resources[aResId].iResourceId;
pCL->iLevel = newState;
LIST_PUSH(Resources[aResId].iLevel, pCL, iNextInList);
Resources[aResId].iNumClients++;
}
else
{
if(Resources[aResId].iCurrentClient == -1)
{
pCL = new SPowerResourceClientLevel;
test(pCL != NULL);
pCL->iClientId = iCurrentClientId;
pCL->iResourceId = Resources[aResId].iResourceId;
pCL->iLevel = newState;
LIST_PUSH(Resources[aResId].iLevel, pCL, iNextInList);
Resources[aResId].iNumClients++;
}
else
{
SPowerResourceClientLevel* pCL = Resources[aResId].iLevel;
pCL->iLevel = newState;
}
}
}
//This function updates the current level and client information in corresponding resource array.
void TestRM::UpdateClientInformation(TUint aResId, TInt aNewState)
{
if(Resources[aResId].iCurrentClient == -1)
{
Resources[aResId].iCurrentLevel = aNewState;
Resources[aResId].iCurrentClient = iCurrentClientId;
return;
}
if(!Resources[aResId].iUsage)
{
Resources[aResId].iCurrentLevel = aNewState;
return;
}
if(Resources[aResId].iSense == EPositive)
{
if(aNewState > Resources[aResId].iCurrentLevel)
{
Resources[aResId].iCurrentLevel = aNewState;
Resources[aResId].iCurrentClient = iCurrentClientId;
}
else if(Resources[aResId].iCurrentClient == iCurrentClientId)
{
SPowerResourceClientLevel *pCL = NULL;
for(pCL = Resources[aResId].iLevel;pCL != NULL; pCL = pCL->iNextInList)
{
if(pCL->iLevel > aNewState)
{
Resources[aResId].iCurrentLevel = pCL->iLevel;
Resources[aResId].iCurrentClient = pCL->iClientId;
return;
}
}
Resources[aResId].iCurrentLevel = aNewState;
Resources[aResId].iCurrentClient = iCurrentClientId;
}
return;
}
if(Resources[aResId].iSense == ENegative)
{
if(aNewState < Resources[aResId].iCurrentLevel)
{
Resources[aResId].iCurrentLevel = aNewState;
Resources[aResId].iCurrentClient = iCurrentClientId;
}
else if(Resources[aResId].iCurrentClient == iCurrentClientId)
{
SPowerResourceClientLevel *pCL = NULL;
for(pCL = Resources[aResId].iLevel;pCL != NULL; pCL = pCL->iNextInList)
{
if(pCL->iLevel < aNewState)
{
Resources[aResId].iCurrentLevel = pCL->iLevel;
Resources[aResId].iCurrentClient = pCL->iClientId;
return;
}
}
Resources[aResId].iCurrentLevel = aNewState;
Resources[aResId].iCurrentClient = iCurrentClientId;
}
}
return;
}
//----------------------------------------------------------------------------------------------
//! @SYMTestCaseID KBASE-T_RESCONTROLCLI-0584
//! @SYMTestType UT
//! @SYMPREQ PREQ1398
//! @SYMTestCaseDesc This test case tests change resource state functionality of resource manager
//! by changing the state of the resource to random value between resource minimum
//! and maximum value synchronously.This function will add the client level if required
//! and update resource information and will check notification for correctness.There are
//! postive and negative tests.
//! @SYMTestActions If negative testing is enabled then following tests are done
//! 0 Call the API with invalid client Id
//! 1 Call the API with invalid instance count of client Id.
//! 2 Call the API with invalid resource Id
//! Positive tests
//! 3 Call the API with valid client and resource Id.
//!
//! @SYMTestExpectedResults 0 API should return with KErrAccessDenied, panics otherwise
//! 1 API should return with KErrAccessDenied, panics otherwise
//! 2 API should return with KErrNotFound, panic otherwise.
//! 3 API should return with KErrNone, panic otherwise.
//! This also checks for notifications revceived as a result of this
//! resource change and checks for correctness.
//! @SYMTestPriority High
//! @SYMTestStatus Implemented
//----------------------------------------------------------------------------------------------
void TestRM::ChangeResourceStateSync(TUint aResId)
{
TInt newState = 0;
if(NegativeTesting)
{
//Pass illegial client Id
r = lddChan.ChangeResourceStateSync(434224, Resources[aResId].iResourceId, newState);
test(r == KErrAccessDenied);
//Pass illegal instance count
TUint id = Clients[iCurrentClientId].iClientId;
id = id ^ (1<<16);
r = lddChan.ChangeResourceStateSync(id, Resources[aResId].iResourceId, newState);
test(r == KErrAccessDenied);
//Invalid resource id
r = lddChan.ChangeResourceStateSync(Clients[iCurrentClientId].iClientId, iMaxStaticResources+40, newState);
test(r == KErrNotFound);
r = lddChan.ChangeResourceStateSync(Clients[iCurrentClientId].iClientId, 26, newState);
test(r == KErrNotFound);
}
TInt maxLevel = Resources[aResId].iMaxLevel;
TInt minLevel = Resources[aResId].iNumClients? Resources[aResId].iCurrentLevel : Resources[aResId].iMinLevel;
//Toggle current state for binary resources
if(!Resources[aResId].iType)
newState = !Resources[aResId].iCurrentLevel;
else if (Resources[aResId].iType == EMultiLevel)
{
TInt diff = Abs(maxLevel - minLevel);
if(Resources[aResId].iSense == EPositive)
{
if(minLevel == maxLevel)
newState = maxLevel - Math::Random() % diff;
else
newState = minLevel + Math::Random() % diff;
}
else
{
if(minLevel == maxLevel)
newState = maxLevel + Math::Random() % diff;
else
newState = minLevel - Math::Random() % diff;
}
}
TInt reqState = newState;
r = lddChan.ChangeResourceStateSync(Clients[iCurrentClientId].iClientId, Resources[aResId].iResourceId, newState);
if(r == KErrAccessDenied)
return;
if(r != KErrNone)
test.Printf(_L("Synchronous resource change returned with %d"), r);
test(r == KErrNone);
if(newState != reqState)
test.Printf(_L("NewState = %d, Expected state = %d"), newState, reqState);
if(!Resources[aResId].iUsage)
test(newState == reqState);
CheckNotification(aResId, reqState);
AddClientLevel(aResId, reqState);
UpdateClientInformation(aResId, reqState);
TUint c = 0;
for(c = 0; c< Clients[iCurrentClientId].iNumResources; c++)
{
if(Clients[iCurrentClientId].iResourceIds[c] == Resources[aResId].iResourceId)
return;
}
Clients[iCurrentClientId].iResourceIds[c] = Resources[aResId].iResourceId;
Clients[iCurrentClientId].iNumResources++;
return;
}
//----------------------------------------------------------------------------------------------
//! @SYMTestCaseID KBASE-T_RESCONTROLCLI-0585
//! @SYMTestType UT
//! @SYMPREQ PREQ1398
//! @SYMTestCaseDesc This test case tests change resource state functionality of resource manager
//! by changing the state of the resource to random value between resource minimum
//! and maximum value asynchronously.This function will add the client level if required
//! and update resource information and will check notification for correctness.This
//! also tests the cancellation of asynchronous function by immediately cancelling the
//! operation after requesting resource state change. This is taken care in the driver.
//! There are postive and negative tests.
//! @SYMTestActions If negative testing is enabled then following tests are done
//! 0 Call the API with invalid client Id
//! 1 Call the API with invalid instance count of client Id.
//! 2 Call the API with invalid resource Id
//! Positive tests
//! 3 Call the API with valid client and resource Id.
//!
//! @SYMTestExpectedResults 0 API should return with KErrAccessDenied, panics otherwise
//! 1 API should return with KErrAccessDenied, panics otherwise
//! 2 API should return with KErrNotFound, panic otherwise.
//! 3 API should return with KErrNone or if cancellation of this
//! API is tested then will return with KErrCancel, panic otherwise.
//! This also checks for notifications received as a result of this
//! resource change and checks for correctness.
//! @SYMTestPriority High
//! @SYMTestStatus Implemented
//----------------------------------------------------------------------------------------------
void TestRM::ChangeResourceStateAsync(TUint aResId, TBool aReqCancel)
{
TRequestStatus resChange;
TInt newState = 0;
if(NegativeTesting)
{
//Pass illegial client Id
lddChan.ChangeResourceStateAsync(434224, Resources[aResId].iResourceId, newState, resChange);
User::WaitForRequest(resChange);
test(resChange.Int() == KErrAccessDenied);
//Pass illegal instance count
TUint id = Clients[iCurrentClientId].iClientId;
id = id ^ (1<<16);
lddChan.ChangeResourceStateAsync(id, Resources[aResId].iResourceId, newState, resChange);
User::WaitForRequest(resChange);
test(resChange.Int() == KErrAccessDenied);
//Invalid resource id
lddChan.ChangeResourceStateAsync(Clients[iCurrentClientId].iClientId, iMaxStaticResources+40, newState, resChange);
User::WaitForRequest(resChange);
test(resChange.Int() == KErrNotFound);
lddChan.ChangeResourceStateAsync(Clients[iCurrentClientId].iClientId, 19, newState, resChange);
User::WaitForRequest(resChange);
test(resChange.Int() == KErrNotFound);
}
TInt maxLevel = Resources[aResId].iMaxLevel;
TInt minLevel = (Resources[aResId].iCurrentClient != -1)? Resources[aResId].iCurrentLevel : Resources[aResId].iMinLevel;
//Check if the resource is positive
if(!Resources[aResId].iType)
newState = !Resources[aResId].iCurrentLevel;
else if (Resources[aResId].iType == EMultiLevel)
{
TInt diff = Abs(maxLevel - minLevel);
if( diff == 0)
diff = Abs(Resources[aResId].iMaxLevel - Resources[aResId].iMinLevel);
if(Resources[aResId].iSense == EPositive)
{
if(minLevel == maxLevel)
newState = maxLevel - Math::Random() % diff;
else
newState = minLevel + Math::Random() % diff;
}
else
{
if(minLevel == maxLevel)
newState = maxLevel + Math::Random() % diff;
else
newState = minLevel - Math::Random() % diff;
}
}
TInt reqState = newState;
//Long latency resource
lddChan.ChangeResourceStateAsync(Clients[iCurrentClientId].iClientId, Resources[aResId].iResourceId, newState, resChange, aReqCancel);
User::WaitForRequest(resChange);
if(aReqCancel && (resChange.Int() != KErrNone))
{
test(resChange.Int() == KErrCancel || resChange.Int() == KErrCompletion);
return;
}
if(resChange.Int() == KErrAccessDenied)
return;
if(!Resources[aResId].iUsage)
test(newState == reqState);
CheckNotification(aResId, reqState);
AddClientLevel(aResId, reqState);
UpdateClientInformation(aResId, reqState);
TUint c = 0;
for(c = 0; c< Clients[iCurrentClientId].iNumResources; c++)
{
if(Clients[iCurrentClientId].iResourceIds[c] == Resources[aResId].iResourceId)
return;
}
Clients[iCurrentClientId].iResourceIds[c] = Resources[aResId].iResourceId;
Clients[iCurrentClientId].iNumResources++;
return;
}
//----------------------------------------------------------------------------------------------
//! @SYMTestCaseID KBASE-T_RESCONTROLCLI-0586
//! @SYMTestType UT
//! @SYMPREQ PREQ1398
//! @SYMTestCaseDesc This test case tests synchronous version of get resource state functionality of
//! resource manager by getting the state of the resource checks for correctness.
//! There are positive and negative tests.
//! @SYMTestActions If negative testing is enabled then following tests are done
//! 0 Call the API with invalid client Id
//! 1 Call the API with invalid instance count of client Id.
//! 2 Call the API with invalid resource Id
//! Positive tests
//! 3 Call the API with valid client and resource Id.
//!
//! @SYMTestExpectedResults 0 API should return with KErrAccessDenied, panics otherwise
//! 1 API should return with KErrAccessDenied, panics otherwise
//! 2 API should return with KErrNotFound, panic otherwise.
//! 3 API should return with KErrNone and also the state and Owner Id are checked
//! for correctness, panic otherwise.
//! @SYMTestPriority High
//! @SYMTestStatus Implemented
//----------------------------------------------------------------------------------------------
void TestRM::GetResourceStateSync(TUint aResId)
{
static TBool Cached;
TInt state = 0, levelOwnerId = 0;
if(NegativeTesting)
{
//Pass illegial client Id
r = lddChan.GetResourceStateSync(4342241, Resources[aResId].iResourceId, Cached, state, levelOwnerId);
test(r == KErrAccessDenied);
//Pass illegal instance count
TUint id = Clients[iCurrentClientId].iClientId;
id = id ^ (1<<30);
r = lddChan.GetResourceStateSync(id, Resources[aResId].iResourceId, Cached, state, levelOwnerId);
test(r == KErrAccessDenied);
//Invalid resource id
r = lddChan.GetResourceStateSync(Clients[iCurrentClientId].iClientId, iMaxStaticResources+40, Cached, state, levelOwnerId);
test(r == KErrNotFound);
r = lddChan.GetResourceStateSync(Clients[iCurrentClientId].iClientId, 20, Cached, state, levelOwnerId);
test(r == KErrNotFound);
}
r = lddChan.GetResourceStateSync(Clients[iCurrentClientId].iClientId, Resources[aResId].iResourceId, Cached, state, levelOwnerId);
test(r == KErrNone);
test(state == Resources[aResId].iCurrentLevel);
if(Resources[aResId].iCurrentClient == -1)
test(levelOwnerId == -1);
else if (levelOwnerId != (TInt)Clients[Resources[aResId].iCurrentClient].iClientId)
{
test.Printf(_L("Expected ClientId = 0x%x, Returned ClientId = 0x%x\n"), Resources[aResId].iCurrentClient, levelOwnerId);
test(0);
}
Cached = !Cached;
return;
}
//----------------------------------------------------------------------------------------------
//! @SYMTestCaseID KBASE-T_RESCONTROLCLI-0587
//! @SYMTestType UT
//! @SYMPREQ PREQ1398
//! @SYMTestCaseDesc This test case tests get resource state functionality of resource manager
//! by getting the state of the resource asynchronously and checking for correctness.
//! This also tests the cancellation of asynchronous function by immediately cancelling the
//! operation after requesting get resource state. This is taken care in the driver.
//! There are positive and negative tests.
//! @SYMTestActions If negative testing is enabled then following tests are done
//! 0 Call the API with invalid client Id
//! 1 Call the API with invalid instance count of client Id.
//! 2 Call the API with invalid resource Id
//! Positive tests
//! 3 Call the API with valid client and resource Id.
//!
//! @SYMTestExpectedResults 0 API should return with KErrAccessDenied, panics otherwise
//! 1 API should return with KErrAccessDenied, panics otherwise
//! 2 API should return with KErrNotFound, panic otherwise.
//! 3 API should return with KErrNone or if cancellation of this
//! API is tested then will return with KErrCancel, panic otherwise.
//! This also checks the updated level and owner Id for correctness,
//! panics otherwise.
//! @SYMTestPriority High
//! @SYMTestStatus Implemented
//----------------------------------------------------------------------------------------------
void TestRM::GetResourceStateAsync(TUint aResId, TBool aReqCancel)
{
static TBool Cached;
TRequestStatus resGet;
TInt state, levelOwnerId;
if(NegativeTesting)
{
//Pass illegial client Id
lddChan.GetResourceStateAsync(4342241, Resources[aResId].iResourceId, Cached, resGet, state, levelOwnerId);
User::WaitForRequest(resGet);
test(resGet.Int() == KErrAccessDenied);
//Pass illegal instance count
TUint id = Clients[iCurrentClientId].iClientId;
id = id ^ (1<<30);
lddChan.GetResourceStateAsync(id, Resources[aResId].iResourceId, Cached, resGet, state, levelOwnerId);
User::WaitForRequest(resGet);
test(resGet.Int() == KErrAccessDenied);
//Invalid resource id
lddChan.GetResourceStateAsync(Clients[iCurrentClientId].iClientId, iMaxStaticResources+48, Cached, resGet, state, levelOwnerId);
User::WaitForRequest(resGet);
test(resGet.Int() == KErrNotFound);
lddChan.GetResourceStateAsync(Clients[iCurrentClientId].iClientId, 20, Cached, resGet, state, levelOwnerId);
User::WaitForRequest(resGet);
test(resGet.Int() == KErrNotFound);
}
lddChan.GetResourceStateAsync(Clients[iCurrentClientId].iClientId, Resources[aResId].iResourceId, Cached, resGet, state, levelOwnerId, aReqCancel);
User::WaitForRequest(resGet);
if(aReqCancel && (resGet.Int() != KErrNone))
{
test(resGet.Int() == KErrCancel || resGet.Int() == KErrCompletion);
return;
}
test(state == Resources[aResId].iCurrentLevel);
if(Resources[aResId].iCurrentClient == -1)
test(levelOwnerId == -1);
else if (levelOwnerId != (TInt)Clients[Resources[aResId].iCurrentClient].iClientId)
{
test.Printf(_L("Expected ClientId = 0x%x, Returned ClientId = 0x%x\n"), Resources[aResId].iCurrentClient, levelOwnerId);
test(0);
}
Cached = !Cached;
}
//----------------------------------------------------------------------------------------------
//! @SYMTestCaseID KBASE-T_RESCONTROLCLI-0588
//! @SYMTestType UT
//! @SYMPREQ PREQ1398
//! @SYMTestCaseDesc This test case tests unconditional notification request functionality of resource manager.
//! @SYMTestActions Call the API with valid client and resource Id.
//!
//! @SYMTestExpectedResults API should return with KErrNone, panics otherwise.
//! @SYMTestPriority High
//! @SYMTestStatus Implemented
//----------------------------------------------------------------------------------------------
void TestRM::RequestNotification(TUint aResId)
{
//If unconditional notification is already queued for this client then dont request another one.
for(NotiInfo *pN = Resources[aResId].iUncondNoti; pN != NULL; pN = pN->iNext)
{
if((TInt)pN->iClientId == iCurrentClientId)
return;
}
r = lddChan.RequestNotification(Clients[iCurrentClientId].iClientId, Resources[aResId].iResourceId);
if(r != KErrNone)
test.Printf(_L("Request Notification returned with %d"), r);
test(r == KErrNone);
//Add to resource list
NotiInfo *info = new NotiInfo;
test(info != NULL);
info->iClientId = iCurrentClientId;
LIST_PUSH(Resources[aResId].iUncondNoti, info, iNext);
Resources[aResId].iUnCondNotiCount++;
}
//----------------------------------------------------------------------------------------------
//! @SYMTestCaseID KBASE-T_RESCONTROLCLI-0589
//! @SYMTestType UT
//! @SYMPREQ PREQ1398
//! @SYMTestCaseDesc This test case tests conditional notification request functionality of resource manager.
//! Threshold and direction are chosen randomly for each resource based on the resource information.
//! @SYMTestActions Call the API with valid client and resource Id.
//!
//! @SYMTestExpectedResults API should return with KErrNone, panics otherwise.
//! @SYMTestPriority High
//! @SYMTestStatus Implemented
//----------------------------------------------------------------------------------------------
void TestRM::RequestNotificationCon(TUint aResId)
{
//Allow only one notification per client.
static TBool direction;
TInt threshold = direction;
for(NotiInfo *pN = Resources[aResId].iCondNoti; pN != NULL; pN = pN->iNext)
{
if((TInt)pN->iClientId == iCurrentClientId)
return;
}
if(Resources[aResId].iType)
{
if(Resources[aResId].iSense == EPositive)
{
threshold = Math::Random() % Resources[aResId].iMaxLevel;
if(threshold < Resources[aResId].iMinLevel)
threshold += Resources[aResId].iMinLevel;
}
else if(Resources[aResId].iSense == ENegative)
{
threshold = Math::Random() % Resources[aResId].iMinLevel;
if(threshold < Resources[aResId].iMaxLevel)
threshold += Resources[aResId].iMaxLevel;
}
}
r = lddChan.RequestNotification(Clients[iCurrentClientId].iClientId, Resources[aResId].iResourceId, direction, threshold);
if(r != KErrNone)
test.Printf(_L("Request Notification returned with %d for direction = %d, threshold = %d"), r, direction, threshold);
test(r == KErrNone);
NotiInfo *info = new NotiInfo;
test(info != NULL);
info->iClientId = iCurrentClientId;
info->iThreshold = threshold;
info->iDirection = direction;
info->iPreviousLevel = Resources[aResId].iCurrentLevel;
LIST_PUSH(Resources[aResId].iCondNoti, info, iNext);
direction = !direction;
}
//----------------------------------------------------------------------------------------------
//! @SYMTestCaseID KBASE-T_RESCONTROLCLI-0590
//! @SYMTestType UT
//! @SYMPREQ PREQ1398
//! @SYMTestCaseDesc This test case tests cancellation of notification functionality of resource manager.
//! @SYMTestActions Call the API with valid client and resource Id.
//!
//! @SYMTestExpectedResults API should return with KErrCancel, panics otherwise.
//! @SYMTestPriority High
//! @SYMTestStatus Implemented
//----------------------------------------------------------------------------------------------
void TestRM::CancelNotification(TUint aResId, TBool Cond)
{
RMResInfo *pR = &Resources[aResId];
TBool found = EFalse;
if(Cond)
{
//Remove any conditional notification this client has on resource.
for(NotiInfo* pI = pR->iCondNoti; pI != NULL; pI = pI->iNext)
{
if((TInt)pI->iClientId == iCurrentClientId)
{
LIST_REMOVE(pR->iCondNoti, pI, iNext, NotiInfo);
delete pI;
found = ETrue;
break;
}
}
}
else
{
//Remove any unconditional notification this client has on resource.
for(NotiInfo* pI = pR->iUncondNoti; pI != NULL; pI = pI->iNext)
{
if((TInt)pI->iClientId == iCurrentClientId)
{
LIST_REMOVE(pR->iUncondNoti, pI, iNext, NotiInfo);
pR->iUnCondNotiCount--;
delete pI;
found = ETrue;
break;
}
}
}
if(found)
{
r = lddChan.CancelNotification(Clients[iCurrentClientId].iClientId, Resources[aResId].iResourceId, Cond);
if(r != KErrCancel)
test.Printf(_L("CancelNotification Clients %d, return value = %d"), iCurrentClientId, r);
test(r == KErrCancel);
}
}
//----------------------------------------------------------------------------------------------
//! @SYMTestCaseID KBASE-T_RESCONTROLCLI-0591
//! @SYMTestType UT
//! @SYMPREQ PREQ1398
//! @SYMTestCaseDesc This test case tests client registration and deregistration API of resource manager.
//! There are positive and negative tests.
//! @SYMTestActions 0 Call the client registration API with valid client name to register
//! 1 Call the client name updation API with valid client Id to get the client name
//! 2 Call the client name updation API with invalid client id.
//! 3 Call the client registration API with client name greater than maximum
//! allowable name length (32 characters)
//! 4 Call the client deregistration API by passing invalid client Id.
//! 5 Call the client deregistration API by passing invalid instance count.
//! 6 Call the client deregistration API by passing valid client Id.
//!
//! @SYMTestExpectedResults 0 API should return with KErrNone, panics otherwise.
//! 1 API should return with KErrNone and updated name is checked for
//! correctness, panics otherwise.
//! 2 API should return with KErrAccessDenied, panics otherwise.
//! 3 API should return with KErrTooBig, panics otherwise.
//! 4 API should return with KErrNotFound, panics otherwise.
//! 5 API should return with KErrNotFound, panics otherwise.
//! 6 API should return with KErrNone, panics otherwise.
//! @SYMTestPriority High
//! @SYMTestStatus Implemented
//----------------------------------------------------------------------------------------------
void TestRM::ValidateClient(TUint aNumClients, TOwnerType aContext)
{
TInt r = KErrNone;
TBuf8<32> ClientName;
ClientName.Zero();
ClientName.Append(_L8("Clients?"));
TUint clientId[MAX_CLIENTS];
if(aNumClients > MAX_CLIENTS)
return;
TUint c;
for(c = 0; c < aNumClients; c++)
{
ClientName[7] = (TUint8)('0' + c);
r = lddChan.RegisterClient(clientId[c], (const TDesC*)&ClientName, aContext);
if(r != KErrNone)
{
test.Printf(_L("Client registration failed with %d"), r);
test(0);
}
}
//Validate Client
TBuf8<32> aName;
for(c = 0; c < aNumClients; c++)
{
ClientName[7] = (TUint8)('0' + c);
r = lddChan.GetClientName(clientId[c], clientId[c], (TDes8*)&aName);
if(r != KErrNone)
{
test.Printf(_L("GetClientName API failed with error %d"), r);
test(0);
}
r = aName.Compare(ClientName);
if(r != KErrNone)
{
test.Printf(_L("Client Name is not as expected"));
test(0);
}
}
//Invalid tests
ClientName[7] = (TUint8)('0' + aNumClients+1);
r = lddChan.GetClientName(aNumClients, clientId[0], &aName);
if(r != KErrAccessDenied)
{
test.Printf(_L("RM allows illegal clients"));
test(0);
}
//Long filename
TBuf8<50> name;
name.Zero();
name.Append(_L8("RegisteringClientNameGreaterThan32Characters"));
TUint id =0;
r = lddChan.RegisterClient(id, (const TDesC*)&name, aContext);
if(r != KErrTooBig)
{
test.Printf(_L("RM allows big names !!!"));
test(0);
}
test.Printf(_L("Client Deregistration"));
//Deregistration of non-existing client
id = 0;
r = lddChan.DeRegisterClient(id);
if(r != KErrNotFound)
{
test.Printf(_L("RM allows invalid client ID deregistration!!!"));
test(0);
}
//Get client Name by passing invalid client Id (changing a bit in instance count)
id = clientId[0] ^ (1<<16);
r = lddChan.DeRegisterClient(id);
if(r != KErrNotFound)
{
test.Printf(_L("RM allows invalid client ID deregistation!!!"));
test(0);
}
//Deregister the client registered at the start of this function
for(c = 0; c < aNumClients; c++)
{
r = lddChan.DeRegisterClient(clientId[c]);
if(r != KErrNone)
{
test.Printf(_L("Deregistration of client id 0x%x failed"), clientId[c]);
test(0);
}
}
return;
}
#ifdef PRM_ENABLE_EXTENDED_VERSION
//----------------------------------------------------------------------------------------------
//! @SYMTestCaseID KBASE-T_RESCONTROLCLI-0597
//! @SYMTestType UT
//! @SYMPREQ PREQ1398
//! @SYMTestCaseDesc This test case tests dynamic resources with dependency.
//! @SYMTestActions 0 Register clients
//! 1 Register dynamic resource with dependency
//! 2 Establish dependency between resources
//! 3 Register notifications
//! 4 Check dependency information for correctness
//! 5 Change Resource State of each resource
//! 6 Get state of the resources and verify them for correctness
//! 7 Check notification count for correctness
//! 8 Deregister dependency between resources
//! 9 Deregister client level
//! 10 Deregister dynamic resource with dependency
//! 11 Deregister clients
//!
//! @SYMTestExpectedResults 0 API should return with KErrNone, panics otherwise.
//! 1 API should return with KErrNone, panics otherwise.
//! 2 API should return with KErrNone, panics otherwise.
//! 3 API should return with KErrNone, panics otherwise.
//! 4 API should return with KErrNone, panics otherwise.
//! 5 API should return with KErrNone, panics otherwise.
//! 6 API should return with KErrNone, panics otherwise.
//! 7 API should return with KErrNone, panics otherwise.
//! 8 API should return with KErrNone, panics otherwise.
//! 9 API should return with KErrNone, panics otherwise.
//! 10 API should return with KErrNone, panics otherwise.
//! 11 API should return with KErrNone, panics otherwise.
//! @SYMTestPriority High
//! @SYMTestStatus Implemented
//----------------------------------------------------------------------------------------------
/*This tests dynamic dependency resource. It also creates a dependency between static resource.
Below is the dependency tree
ResourceA <----------------> ResourceD <------------->ResourceE <--------------> ResourceC
| |
| |
| |
| |
| |
| |
ResourceF ResourceG <-------------> Resource H <------->Resource I
¦ (Dynamic) (Dynamic)
¦
¦
¦
Resource J <-------->Resource K
(Dynamic) (Dynamic)
*/
void TestRM::TestDynamicResourceDependency()
{
TInt state;
TRequestStatus req;
SResourceDependencyInfo info1, info2;
SResourceDependencyInfo sResDepInfo;
RArray<SResourceDependencyInfo>depResArray;
TUint dynamicDepResId[4];
test.Next(_L("Testing Dynamic + static resource dependency"));
RmTest.RegisterClient(); /* Register Client 1 */
//Register dependency resource
dynamicDepResId[0] = 5;
r = lddChan.RegisterDynamicResource(Clients[0].iClientId, dynamicDepResId[0]);
test(r == KErrNone);
info1.iResourceId = iStaticDependencyResources[5];
info1.iDependencyPriority = 3;
info2.iResourceId = dynamicDepResId[0];
info2.iDependencyPriority = 2;
r = lddChan.RegisterResourceDependency(Clients[0].iClientId, info1, info2);
test(r == KErrNone);
//Check for correctness of dependency resource information
sResDepInfo.iResourceId = iStaticDependencyResources[3];
sResDepInfo.iDependencyPriority = 1;
depResArray.Append(sResDepInfo);
sResDepInfo.iResourceId = dynamicDepResId[0];
sResDepInfo.iDependencyPriority = 2;
depResArray.Append(sResDepInfo);
RmTest.CheckForDependencyInformation(Clients[0].iClientId, iStaticDependencyResources[5], 2, &depResArray[0]);
depResArray[0].iResourceId = iStaticDependencyResources[5];
depResArray[0].iDependencyPriority = 3;
RmTest.CheckForDependencyInformation(Clients[0].iClientId, dynamicDepResId[0], 1, &depResArray[0]);
//Change Static dependency resource to -50
RmTest.RegisterClient(); /* Register Client 2 */
state = -50;
lddChan.ChangeResourceStateAsync(Clients[1].iClientId, iStaticDependencyResources[0], state, req);
User::WaitForRequest(req);
test(req.Int() == KErrNone);
GetExtendedResStateAsyncAndVerify(iStaticDependencyResources[0], -50, Clients[1].iClientId, EFalse);
GetExtendedResStateAndVerify(iStaticDependencyResources[1], -11, iStaticDependencyResources[0]);
GetExtendedResStateAsyncAndVerify(iStaticDependencyResources[2], 1, iStaticDependencyResources[0], EFalse);
GetExtendedResStateAndVerify(iStaticDependencyResources[3], 13, iStaticDependencyResources[0]);
GetExtendedResStateAsyncAndVerify(iStaticDependencyResources[4], 0, iStaticDependencyResources[3], EFalse);
GetExtendedResStateAndVerify(iStaticDependencyResources[5], 73, iStaticDependencyResources[3]);
GetExtendedResStateAndVerify(dynamicDepResId[0], 80, iStaticDependencyResources[5]);
//Register dynamic dependency resource I
dynamicDepResId[1] = 6;
r = lddChan.RegisterDynamicResource(Clients[0].iClientId, dynamicDepResId[1]);
test(r == KErrNone);
//Register dynamic dependency resource J
dynamicDepResId[2] = 7;
r = lddChan.RegisterDynamicResource(Clients[0].iClientId, dynamicDepResId[2]);
test(r == KErrNone);
//Register dynamic dependency resource K
dynamicDepResId[3] = 8;
r = lddChan.RegisterDynamicResource(Clients[0].iClientId, dynamicDepResId[3]);
test(r == KErrNone);
RmTest.RegisterClient(); /* Register Client3 */
RmTest.RegisterClient(); /* Register Client4 */
//Register notifications
r = lddChan.RequestNotification(Clients[1].iClientId, iStaticDependencyResources[5]);
test(r == KErrNone);
r = lddChan.RequestNotification(Clients[2].iClientId, dynamicDepResId[0]);
test(r == KErrNone);
r = lddChan.RequestNotification(Clients[1].iClientId, dynamicDepResId[1]);
test(r == KErrNone);
r = lddChan.RequestNotification(Clients[2].iClientId, dynamicDepResId[2]);
test(r == KErrNone);
r = lddChan.RequestNotification(Clients[1].iClientId, dynamicDepResId[3]);
test(r == KErrNone);
//Create depedency between H and I
info1.iResourceId = dynamicDepResId[0];
info1.iDependencyPriority = 1;
info2.iResourceId = dynamicDepResId[1];
info2.iDependencyPriority = 1;
//Register dependency between resource H and I
r = lddChan.RegisterResourceDependency(Clients[0].iClientId, info1, info2);
test(r == KErrNone);
//Validate dependency information
depResArray[0].iResourceId = dynamicDepResId[1];
depResArray[0].iDependencyPriority = 1;
depResArray[1].iResourceId = iStaticDependencyResources[5];
depResArray[1].iDependencyPriority = 3;
RmTest.CheckForDependencyInformation(Clients[0].iClientId, dynamicDepResId[0], 2, &depResArray[0]);
depResArray[0].iResourceId = dynamicDepResId[0];
depResArray[0].iDependencyPriority = 1;
RmTest.CheckForDependencyInformation(Clients[0].iClientId, dynamicDepResId[1], 1, &depResArray[0]);
//Create depedency between H and J
info1.iResourceId = dynamicDepResId[0];
info1.iDependencyPriority = 1;
info2.iResourceId = dynamicDepResId[2];
info2.iDependencyPriority = 2;
//Register dependency between resource H and J
r = lddChan.RegisterResourceDependency(Clients[0].iClientId, info1, info2);
test(r == KErrNone);
depResArray[0].iResourceId = dynamicDepResId[1];
depResArray[0].iDependencyPriority = 1;
depResArray[1].iResourceId = dynamicDepResId[2];
depResArray[1].iDependencyPriority = 2;
sResDepInfo.iResourceId = iStaticDependencyResources[5];
sResDepInfo.iDependencyPriority = 3;
depResArray.Append(sResDepInfo);
RmTest.CheckForDependencyInformation(Clients[0].iClientId, dynamicDepResId[0], 3, &depResArray[0]);
depResArray[0].iResourceId = dynamicDepResId[0];
depResArray[0].iDependencyPriority = 1;
RmTest.CheckForDependencyInformation(Clients[0].iClientId, dynamicDepResId[2], 1, &depResArray[0]);
// Check if the priority for a new dependency is already existing.
//Create dependency between J and K
info1.iResourceId = dynamicDepResId[2];
info1.iDependencyPriority = 1;
info2.iResourceId = dynamicDepResId[3];
info2.iDependencyPriority = 1;
//Register dependency between resource J and K
r = lddChan.RegisterResourceDependency(Clients[0].iClientId, info1, info2);
test(r == KErrAlreadyExists);
//Create depedency between J and K
info1.iResourceId = dynamicDepResId[2];
info1.iDependencyPriority = 1;
info2.iResourceId = dynamicDepResId[3];
info2.iDependencyPriority = 2;
//Register dependency between resource J and K
r = lddChan.RegisterResourceDependency(Clients[0].iClientId, info1, info2);
test(r == KErrNone);
depResArray[0].iResourceId = dynamicDepResId[2];
depResArray[0].iDependencyPriority = 1;
RmTest.CheckForDependencyInformation(Clients[0].iClientId, dynamicDepResId[3], 1, &depResArray[0]);
depResArray[0].iResourceId = dynamicDepResId[0];
depResArray[0].iDependencyPriority = 1;
depResArray[1].iResourceId = dynamicDepResId[3];
depResArray[1].iDependencyPriority = 2;
RmTest.CheckForDependencyInformation(Clients[0].iClientId, dynamicDepResId[2], 2, &depResArray[0]);
RmTest.RegisterClient(); /* Client5 registration */
//Change H to 85
r = lddChan.ChangeResourceStateSync(Clients[2].iClientId, dynamicDepResId[0], 85);
test(r == KErrNone);
GetExtendedResStateAsyncAndVerify(iStaticDependencyResources[0], -50, Clients[1].iClientId, EFalse);
GetExtendedResStateAndVerify(iStaticDependencyResources[1], -11, iStaticDependencyResources[0]);
GetExtendedResStateAsyncAndVerify(iStaticDependencyResources[2], 1, iStaticDependencyResources[0], EFalse);
GetExtendedResStateAndVerify(iStaticDependencyResources[3], 13, iStaticDependencyResources[0]);
GetExtendedResStateAsyncAndVerify(iStaticDependencyResources[4], 0, iStaticDependencyResources[3], EFalse);
GetExtendedResStateAndVerify(iStaticDependencyResources[5], 71, dynamicDepResId[0]);
GetExtendedResStateAndVerify(dynamicDepResId[0], 85, Clients[2].iClientId);
GetExtendedResStateAsyncAndVerify(dynamicDepResId[1], 1, dynamicDepResId[0]);
GetExtendedResStateAsyncAndVerify(dynamicDepResId[2], 18, dynamicDepResId[0], EFalse);
GetExtendedResStateAndVerify(dynamicDepResId[3], 1, dynamicDepResId[2]);
//Check notifications
r = lddChan.CheckNotifications(iStaticDependencyResources[5], 1, 0);
test(r == KErrNone);
r = lddChan.CheckNotifications(dynamicDepResId[0], 1, 0);
test(r == KErrNone);
r = lddChan.CheckNotifications(dynamicDepResId[1], 1, 0);
test(r == KErrNone);
r = lddChan.CheckNotifications(dynamicDepResId[2], 1, 0);
test(r == KErrNone);
//Change K to 1
state= 1;
lddChan.ChangeResourceStateAsync(Clients[2].iClientId, dynamicDepResId[3], state, req);
User::WaitForRequest(req);
test(req.Int() == KErrNone);
GetExtendedResStateAsyncAndVerify(dynamicDepResId[2], 18, dynamicDepResId[0], EFalse);
GetExtendedResStateAsyncAndVerify(dynamicDepResId[3], 1, Clients[2].iClientId, EFalse);
//Check notifications
r = lddChan.CheckNotifications(dynamicDepResId[2], 0, 0);
test(r == KErrNone);
r = lddChan.CheckNotifications(dynamicDepResId[3], 0, 0);
test(r == KErrNone);
//Change J to 12
r = lddChan.ChangeResourceStateSync(Clients[2].iClientId, dynamicDepResId[2],12);
test(r == KErrNone);
GetExtendedResStateAsyncAndVerify(dynamicDepResId[2], 12, Clients[2].iClientId, EFalse);
//Check notifications
r = lddChan.CheckNotifications(dynamicDepResId[0], 0, 0);
test(r == KErrNone);
r = lddChan.CheckNotifications(dynamicDepResId[2], 1, 0);
test(r == KErrNone);
r = lddChan.CheckNotifications(dynamicDepResId[3], 0, 0);
test(r == KErrNone);
//Change H to 90
TRequestStatus reqSet;
state = 90;
lddChan.CheckParallelExecutionForChangeResState(Clients[2].iClientId,
dynamicDepResId[0],state,
5, 0, reqSet);
User::WaitForRequest(reqSet);
test(reqSet.Int() == KErrNone);
GetExtendedResStateAsyncAndVerify(iStaticDependencyResources[0], -50, Clients[1].iClientId, EFalse);
GetExtendedResStateAndVerify(iStaticDependencyResources[1], -11, iStaticDependencyResources[0]);
GetExtendedResStateAsyncAndVerify(iStaticDependencyResources[2], 1, iStaticDependencyResources[0], EFalse);
GetExtendedResStateAndVerify(iStaticDependencyResources[3], 13, iStaticDependencyResources[0]);
GetExtendedResStateAsyncAndVerify(iStaticDependencyResources[4], 0, iStaticDependencyResources[3], EFalse);
GetExtendedResStateAndVerify(iStaticDependencyResources[5], 69, dynamicDepResId[0]);
GetExtendedResStateAndVerify(dynamicDepResId[0], 90, Clients[2].iClientId);
GetExtendedResStateAsyncAndVerify(dynamicDepResId[1], 1, dynamicDepResId[0]);
GetExtendedResStateAsyncAndVerify(dynamicDepResId[2], 11, dynamicDepResId[0], EFalse);
GetExtendedResStateAndVerify(dynamicDepResId[3], 1, Clients[2].iClientId);
//Check notifications
r = lddChan.CheckNotifications(iStaticDependencyResources[5], 1, 0);
test(r == KErrNone);
r = lddChan.CheckNotifications(dynamicDepResId[0], 1, 0);
test(r == KErrNone);
r = lddChan.CheckNotifications(dynamicDepResId[1], 0, 0);
test(r == KErrNone);
r = lddChan.CheckNotifications(dynamicDepResId[2], 1, 0);
test(r == KErrNone);
r = lddChan.CheckNotifications(dynamicDepResId[3], 0, 0);
test(r == KErrNone);
state = 9;
lddChan.ChangeResourceStateAsync(Clients[1].iClientId, dynamicDepResId[2], state, req);
User::WaitForRequest(req);
test(req.Int() == KErrNone);
GetExtendedResStateAndVerify(dynamicDepResId[0], 90, Clients[2].iClientId);
GetExtendedResStateAsyncAndVerify(dynamicDepResId[1], 1, dynamicDepResId[0]);
GetExtendedResStateAsyncAndVerify(dynamicDepResId[2], 9, Clients[1].iClientId, EFalse);
GetExtendedResStateAndVerify(dynamicDepResId[3], 1, Clients[2].iClientId);
//Check notifications
r = lddChan.CheckNotifications(dynamicDepResId[0], 0, 0);
test(r == KErrNone);
r = lddChan.CheckNotifications(dynamicDepResId[1], 0, 0);
test(r == KErrNone);
r = lddChan.CheckNotifications(dynamicDepResId[2], 1, 0);
test(r == KErrNone);
r = lddChan.CheckNotifications(dynamicDepResId[3], 0, 0);
test(r == KErrNone);
//Change D to 50
state = 50;
lddChan.ChangeResourceStateAsync(Clients[1].iClientId, iStaticDependencyResources[0], state, req);
User::WaitForRequest(req);
test(req.Int() == KErrNone);
GetExtendedResStateAsyncAndVerify(iStaticDependencyResources[0], 50, Clients[1].iClientId, EFalse);
GetExtendedResStateAsyncAndVerify(iStaticDependencyResources[1], -12, iStaticDependencyResources[0], EFalse);
GetExtendedResStateAsyncAndVerify(iStaticDependencyResources[2], 1, iStaticDependencyResources[0], EFalse);
GetExtendedResStateAsyncAndVerify(iStaticDependencyResources[3], 16, iStaticDependencyResources[0], EFalse);
GetExtendedResStateAsyncAndVerify(iStaticDependencyResources[4], 0, iStaticDependencyResources[3], EFalse);
GetExtendedResStateAsyncAndVerify(iStaticDependencyResources[5], 67, iStaticDependencyResources[3], EFalse);
GetExtendedResStateAndVerify(dynamicDepResId[0], 90, Clients[2].iClientId);
GetExtendedResStateAsyncAndVerify(dynamicDepResId[1], 1, dynamicDepResId[0]);
GetExtendedResStateAsyncAndVerify(dynamicDepResId[2], 9, Clients[1].iClientId, EFalse);
GetExtendedResStateAndVerify(dynamicDepResId[3], 1, Clients[2].iClientId);
//Check notifications
r = lddChan.CheckNotifications(iStaticDependencyResources[5], 1, 0);
test(r == KErrNone);
//DeRegister dependency between J and K
r = lddChan.DeRegisterResourceDependency(Clients[0].iClientId, dynamicDepResId[3], dynamicDepResId[2]);
test(r == KErrNone);
RmTest.CheckForDependencyInformation(Clients[0].iClientId, dynamicDepResId[3], 0, &depResArray[0]);
depResArray[0].iResourceId = dynamicDepResId[0];
depResArray[0].iDependencyPriority = 1;
RmTest.CheckForDependencyInformation(Clients[0].iClientId, dynamicDepResId[2], 1, &depResArray[0]);
//Change J t0 13
r = lddChan.ChangeResourceStateSync(Clients[1].iClientId, dynamicDepResId[2], 13);
test(r == KErrNone);
GetExtendedResStateAsyncAndVerify(iStaticDependencyResources[0], 50, Clients[1].iClientId, EFalse);
GetExtendedResStateAsyncAndVerify(iStaticDependencyResources[1], -12, iStaticDependencyResources[0], EFalse);
GetExtendedResStateAsyncAndVerify(iStaticDependencyResources[2], 1, iStaticDependencyResources[0], EFalse);
GetExtendedResStateAsyncAndVerify(iStaticDependencyResources[3], 16, iStaticDependencyResources[0], EFalse);
GetExtendedResStateAsyncAndVerify(iStaticDependencyResources[4], 0, iStaticDependencyResources[3], EFalse);
GetExtendedResStateAsyncAndVerify(iStaticDependencyResources[5], 67, iStaticDependencyResources[3], EFalse);
GetExtendedResStateAndVerify(dynamicDepResId[0], 90, Clients[2].iClientId);
GetExtendedResStateAsyncAndVerify(dynamicDepResId[1], 1, dynamicDepResId[0]);
GetExtendedResStateAsyncAndVerify(dynamicDepResId[2], 12, Clients[2].iClientId, EFalse);
GetExtendedResStateAndVerify(dynamicDepResId[3], 1, Clients[2].iClientId);
//Check notifications
r = lddChan.CheckNotifications(dynamicDepResId[2], 1, 0);
test(r == KErrNone);
/* Remove client level from resource 7 */
r = lddChan.DeRegisterClientLevelFromResource(Clients[2].iClientId, dynamicDepResId[3]);
test(r == KErrNone);
GetExtendedResStateAndVerify(dynamicDepResId[3], 0, -1);
//Check notifications
r = lddChan.CheckNotifications(dynamicDepResId[3], 1, 0);
test(r == KErrNone);
r = lddChan.DeRegisterDynamicResource(Clients[0].iClientId, dynamicDepResId[3], NULL);
test(r == KErrNone);
//Check notifications
r = lddChan.CheckNotifications(dynamicDepResId[3], 1, 0);
test(r == KErrNone);
//Deregister dependency between H and J
r = lddChan.DeRegisterResourceDependency(Clients[0].iClientId, dynamicDepResId[2], dynamicDepResId[0]);
test(r == KErrNone);
RmTest.CheckForDependencyInformation(Clients[0].iClientId, dynamicDepResId[2], 0, &depResArray[0]);
depResArray[0].iResourceId = dynamicDepResId[1];
depResArray[0].iDependencyPriority = 1;
depResArray[1].iResourceId = iStaticDependencyResources[5];
depResArray[1].iDependencyPriority = 3;
RmTest.CheckForDependencyInformation(Clients[0].iClientId, dynamicDepResId[0], 2, &depResArray[0]);
/* Remove client level from resource 7 */
r = lddChan.DeRegisterClientLevelFromResource(Clients[1].iClientId, dynamicDepResId[2]);
test(r == KErrNone);
GetExtendedResStateAndVerify(dynamicDepResId[2], 12, Clients[2].iClientId);
//Check notifications
r = lddChan.CheckNotifications(dynamicDepResId[2], 0, 0);
test(r == KErrNone);
r = lddChan.DeRegisterClient(Clients[2].iClientId);
test(r == KErrNone);
GetExtendedResStateAsyncAndVerify(dynamicDepResId[2], 19, -1, EFalse);
//Deregister dependency between G and H
r = lddChan.DeRegisterResourceDependency(Clients[1].iClientId, iStaticDependencyResources[5], dynamicDepResId[0]);
test(r == KErrNone);
depResArray[0].iResourceId = dynamicDepResId[1];
depResArray[0].iDependencyPriority = 1;
RmTest.CheckForDependencyInformation(Clients[0].iClientId, dynamicDepResId[0], 1, &depResArray[0]);
depResArray[0].iResourceId = iStaticDependencyResources[3];
depResArray[0].iDependencyPriority = 1;
RmTest.CheckForDependencyInformation(Clients[0].iClientId, iStaticDependencyResources[5], 1, &depResArray[0]);
GetExtendedResStateAndVerify(dynamicDepResId[0], 75, -1);
GetExtendedResStateAsyncAndVerify(dynamicDepResId[1], 0, dynamicDepResId[0]);
GetExtendedResStateAsyncAndVerify(iStaticDependencyResources[5], 67, iStaticDependencyResources[3], EFalse);
//Deregister dependency between I and H
r = lddChan.DeRegisterResourceDependency(Clients[1].iClientId, dynamicDepResId[1], dynamicDepResId[0]);
test(r == KErrNone);
RmTest.CheckForDependencyInformation(Clients[0].iClientId, dynamicDepResId[0], 0, &depResArray[0]);
RmTest.CheckForDependencyInformation(Clients[0].iClientId, dynamicDepResId[1], 0, &depResArray[0]);
GetExtendedResStateAndVerify(dynamicDepResId[0], 75, -1);
GetExtendedResStateAsyncAndVerify(dynamicDepResId[1], 0, -1);
GetExtendedResStateAsyncAndVerify(iStaticDependencyResources[5], 67, iStaticDependencyResources[3], EFalse);
//Check notifications
r = lddChan.CheckNotifications(iStaticDependencyResources[5], 0, 0);
test(r == KErrNone);
r = lddChan.CheckNotifications(dynamicDepResId[1], 1, 0);
test(r == KErrNone);
r = lddChan.DeRegisterDynamicResource(Clients[0].iClientId, dynamicDepResId[2], NULL);
test(r == KErrNone);
r = lddChan.DeRegisterDynamicResource(Clients[0].iClientId, dynamicDepResId[1], NULL);
test(r == KErrNone);
//Check notifications
r = lddChan.CheckNotifications(dynamicDepResId[1], 1, 0);
test(r == KErrNone);
r = lddChan.DeRegisterDynamicResource(Clients[0].iClientId, dynamicDepResId[0], NULL);
test(r == KErrNone);
r = lddChan.DeRegisterClient(Clients[1].iClientId);
test(r == KErrNone);
GetExtendedResStateAsyncAndVerify(iStaticDependencyResources[0], -100, -1, EFalse);
GetExtendedResStateAsyncAndVerify(iStaticDependencyResources[1], -10, iStaticDependencyResources[0], EFalse);
GetExtendedResStateAsyncAndVerify(iStaticDependencyResources[2], 0, iStaticDependencyResources[0], EFalse);
GetExtendedResStateAsyncAndVerify(iStaticDependencyResources[3], 10, iStaticDependencyResources[0], EFalse);
GetExtendedResStateAsyncAndVerify(iStaticDependencyResources[4], 1, iStaticDependencyResources[3], EFalse);
GetExtendedResStateAsyncAndVerify(iStaticDependencyResources[5], 75, iStaticDependencyResources[3], EFalse);
r = lddChan.DeRegisterClient(Clients[3].iClientId);
test(r == KErrNone);
r = lddChan.DeRegisterClient(Clients[0].iClientId);
test(r == KErrNone);
r = lddChan.DeRegisterClient(Clients[4].iClientId);
test(r == KErrNone);
depResArray.Close();
return;
}
//----------------------------------------------------------------------------------------------
//! @SYMTestCaseID KBASE-T_RESCONTROLCLI-0596
//! @SYMTestType UT
//! @SYMPREQ PREQ1398
//! @SYMTestCaseDesc This test case tests dynamic resources which does not support dependency
//! @SYMTestActions 0 Register clients
//! 1 Register dynamic resource
//! 2 Register notifications
//! 3 Change Resource State of each static resource with dependency
//! 4 Get state of the resource and check for correctness
//! 5 Check notification count for correctness
//! 6 Deregister client level
//! 7 Deregister dynamic resource
//! 8 Deregister clients
//!
//! @SYMTestExpectedResults 0 API should return with KErrNone, panics otherwise.
//! 1 API should return with KErrNone, panics otherwise.
//! 2 API should return with KErrNone, panics otherwise.
//! 3 API should return with KErrNone, panics otherwise.
//! 4 API should return with KErrNone, panics otherwise.
//! 5 API should return with KErrNone, panics otherwise.
//! 6 API should return with KErrNone, panics otherwise.
//! 7 API should return with KErrNone, panics otherwise.
//! 8 API should return with KErrNone, panics otherwise.
//! @SYMTestPriority High
//! @SYMTestStatus Implemented
//----------------------------------------------------------------------------------------------
void TestRM::TestDynamicResource()
{
TInt state;
TRequestStatus req;
TUint dynamicResId[4];
test.Next(_L("Testing dynamic resource"));
//Register client 1
RmTest.RegisterClient();
//Register client 2
RmTest.RegisterClient();
//Register client 3
RmTest.RegisterClient();
NegativeTesting = EFalse;
dynamicResId[0] = 1;
//Register dynamic resource 1
r = lddChan.RegisterDynamicResource(Clients[0].iClientId, dynamicResId[0]);
test(r == KErrNone);
//Deregister dynamic resource with different client id
r = lddChan.DeRegisterDynamicResource(Clients[1].iClientId, dynamicResId[0], NULL);
test(r == KErrAccessDenied);
dynamicResId[1] = 2;
//Register dynamic resource 2
r = lddChan.RegisterDynamicResource(Clients[1].iClientId, dynamicResId[1]);
test(r == KErrNone);
RmTest.GetNumResourcesInUseByClient(iCurrentClientId);
RmTest.GetInfoOnResourcesInUseByClient(iCurrentClientId, iMaxStaticResources);
TUint numClients;
r = lddChan.GetNumClientsUsingResource(Clients[0].iClientId, dynamicResId[0], numClients);
test(r == KErrNone);
test(numClients == 0);
r = lddChan.RequestNotification(Clients[1].iClientId, dynamicResId[0]);
test(r == KErrNone);
//Register client 4
RmTest.RegisterClient();
r = lddChan.RequestNotification(Clients[2].iClientId, dynamicResId[0], 1, 1);
test(r == KErrNone);
//Change state of dynamic resource 1 and verify
state = 1;
lddChan.ChangeResourceStateAsync(Clients[0].iClientId, dynamicResId[0], state, req);
User::WaitForRequest(req);
test(req.Int() == KErrNone);
r = lddChan.CheckNotifications(dynamicResId[0], 1, 1);
test(r == KErrNone);
GetExtendedResStateAsyncAndVerify(dynamicResId[0], 1, Clients[0].iClientId, EFalse);
r = lddChan.GetNumClientsUsingResource(Clients[0].iClientId, dynamicResId[0], numClients);
test(r == KErrNone);
test(numClients == 1);
//Change state of dynamic resource 1.
r = lddChan.ChangeResourceStateSync(Clients[1].iClientId, dynamicResId[0], 0);
test(r == KErrAccessDenied);
//Deregister dynamic resource 1 and set the resource to 1.
state = 1;
r = lddChan.DeRegisterDynamicResource(Clients[0].iClientId, dynamicResId[0], &state);
test(r == KErrNone);
r = lddChan.CheckNotifications(dynamicResId[0], 1, 1);
test(r == KErrNone);
r = lddChan.GetNumClientsUsingResource(Clients[0].iClientId, dynamicResId[0], numClients);
test(r == KErrNotFound);
//Register client 5
RmTest.RegisterClient();
GetExtendedResStateAndVerify(dynamicResId[1], -5, -1);
r = lddChan.RequestNotification(Clients[1].iClientId, dynamicResId[1]);
test(r == KErrNone);
r = lddChan.RequestNotification(Clients[2].iClientId, dynamicResId[1], 0, -8);
test(r == KErrNone);
//Change state of dynamic resource 1 and verify
state = -7;
lddChan.ChangeResourceStateAsync(Clients[2].iClientId, dynamicResId[1], state, req);
User::WaitForRequest(req);
test(req.Int() == KErrNone);
r = lddChan.CheckNotifications(dynamicResId[1], 1, 0);
test(r == KErrNone);
GetExtendedResStateAndVerify(dynamicResId[1], -7, Clients[2].iClientId);
//Register client 6
RmTest.RegisterClient();
//Register client 7
RmTest.RegisterClient();
//Change state of dynamic resource 2 and verify
state = -9;
lddChan.ChangeResourceStateAsync(Clients[3].iClientId, dynamicResId[1], state, req);
User::WaitForRequest(req);
test(req.Int() == KErrNone);
r = lddChan.CheckNotifications(dynamicResId[1], 1, 1);
test(r == KErrNone);
GetExtendedResStateAsyncAndVerify(dynamicResId[1], -9, Clients[3].iClientId, EFalse);
//Change state of dynamic resource 1 and verify
state = -10;
lddChan.ChangeResourceStateAsync(Clients[4].iClientId, dynamicResId[1], state, req);
User::WaitForRequest(req);
test(req.Int() == KErrNone);
r = lddChan.CheckNotifications(dynamicResId[1], 1, 0);
test(r == KErrNone);
GetExtendedResStateAsyncAndVerify(dynamicResId[1], -10, Clients[4].iClientId, EFalse);
lddChan.ChangeResourceStateSync(Clients[5].iClientId, dynamicResId[1], state);
test(r == KErrNone);
r = lddChan.CheckNotifications(dynamicResId[1], 0, 0);
test(r == KErrNone);
GetExtendedResStateAsyncAndVerify(dynamicResId[1], -10, Clients[4].iClientId, EFalse);
//Change state of dynamic resource 1 and verify
state = -6;
lddChan.ChangeResourceStateSync(Clients[6].iClientId, dynamicResId[1], state);
test(r == KErrNone);
r = lddChan.CheckNotifications(dynamicResId[1], 0, 0);
test(r == KErrNone);
GetExtendedResStateAsyncAndVerify(dynamicResId[1], -10, Clients[4].iClientId, EFalse);
r = lddChan.DeRegisterClientLevelFromResource(Clients[4].iClientId, dynamicResId[1]);
test(r == KErrNone);
GetExtendedResStateAsyncAndVerify(dynamicResId[1], -10, Clients[5].iClientId, EFalse);
r = lddChan.DeRegisterClientLevelFromResource(Clients[5].iClientId, dynamicResId[1]);
test(r == KErrNone);
r = lddChan.CheckNotifications(dynamicResId[1], 1, 0);
test(r == KErrNone);
GetExtendedResStateAsyncAndVerify(dynamicResId[1], -9, Clients[3].iClientId, EFalse);
//Deregister client 4
r = lddChan.DeRegisterClient(Clients[3].iClientId);
test(r == KErrNone);
r = lddChan.CheckNotifications(dynamicResId[1], 1, 0);
test(r == KErrNone);
GetExtendedResStateAsyncAndVerify(dynamicResId[1], -7, Clients[2].iClientId, EFalse);
r = lddChan.DeRegisterClientLevelFromResource(Clients[2].iClientId, dynamicResId[1]);
test(r == KErrNone);
r = lddChan.CheckNotifications(dynamicResId[1], 1, 0);
test(r == KErrNone);
GetExtendedResStateAsyncAndVerify(dynamicResId[1], -6, Clients[6].iClientId, EFalse);
r = lddChan.DeRegisterClientLevelFromResource(Clients[6].iClientId, dynamicResId[1]);
test(r == KErrNone);
r = lddChan.CheckNotifications(dynamicResId[1], 1, 0);
test(r == KErrNone);
GetExtendedResStateAsyncAndVerify(dynamicResId[1], -5, -1, EFalse);
//Deregister dynamic resource 2
r = lddChan.DeRegisterDynamicResource(Clients[1].iClientId, dynamicResId[1], NULL);
test(r == KErrNone);
r = lddChan.CheckNotifications(dynamicResId[1], 1, 1);
test(r == KErrNone);
//Register dynamic resource 3
dynamicResId[2] = 3;
r = lddChan.RegisterDynamicResource(Clients[2].iClientId, dynamicResId[2]);
test(r == KErrNone);
//Register dynamic resource 4
dynamicResId[3] = 4;
r = lddChan.RegisterDynamicResource(Clients[6].iClientId, dynamicResId[3]);
test(r == KErrNone);
//Change state of dynamic resource 3 to 0
r = lddChan.ChangeResourceStateSync(Clients[4].iClientId, dynamicResId[2], 0);
test(r == KErrNone);
GetExtendedResStateAndVerify(dynamicResId[2], 0, Clients[4].iClientId);
//Change state of dynamic resource 3 to 1
r = lddChan.ChangeResourceStateSync(Clients[5].iClientId, dynamicResId[2], 1);
test(r == KErrNone);
GetExtendedResStateAndVerify(dynamicResId[2], 0, Clients[4].iClientId);
//Deregister client 5
r = lddChan.DeRegisterClient(Clients[4].iClientId);
test(r == KErrNone);
GetExtendedResStateAndVerify(dynamicResId[2], 1, Clients[5].iClientId);
//Deregister dynamic resource 3
r = lddChan.DeRegisterDynamicResource(Clients[2].iClientId, dynamicResId[2], NULL);
test(r == KErrInUse);
//Deregister client 6
r = lddChan.DeRegisterClient(Clients[5].iClientId);
test(r == KErrNone);
GetExtendedResStateAndVerify(dynamicResId[2], 1, -1);
//Deregister dynamic resource 3
r = lddChan.DeRegisterDynamicResource(Clients[2].iClientId, dynamicResId[2], NULL);
test(r == KErrNone);
//Change state of dynamic resource 4 to 15
r = lddChan.ChangeResourceStateSync(Clients[6].iClientId, dynamicResId[3], 15);
test(r == KErrNone);
GetExtendedResStateAndVerify(dynamicResId[3], 15, Clients[6].iClientId);
//Change state of resource and try to deregister the resource while the change is taking place
state = 17;
lddChan.ChangeResStateAndDeRegisterDynamicRes(Clients[6].iClientId, dynamicResId[3], state, req);
User::WaitForRequest(req);
test(req.Int() == KErrNone);
test(state == 17);
GetExtendedResStateAndVerify(dynamicResId[3], 17, Clients[6].iClientId);
//Deregister dynamic resource 4 with some other client which is not owner
r = lddChan.DeRegisterDynamicResource(Clients[2].iClientId, dynamicResId[3], NULL);
test(r == KErrAccessDenied);
//Deregister dynamic resource 4
r = lddChan.DeRegisterDynamicResource(Clients[6].iClientId, dynamicResId[3], NULL);
test(r == KErrNone);
//Deregister client 7
r = lddChan.DeRegisterClient(Clients[6].iClientId);
test(r == KErrNone);
//Deregister client 3
r = lddChan.DeRegisterClient(Clients[2].iClientId);
test(r == KErrNone);
//Deregister client 2
r = lddChan.DeRegisterClient(Clients[1].iClientId);
test(r == KErrNone);
//Deregister client 1
r = lddChan.DeRegisterClient(Clients[0].iClientId);
test(r == KErrNone);
Clients.Close();
}
//This function gets extended resource state synchronously and verifies for correctness
void TestRM::GetExtendedResStateAndVerify(TUint aResId, TInt aState, TInt aLevelOwnerId)
{
static TBool cached = ETrue;
TInt state;
TInt levelOwnerId;
r = lddChan.GetResourceStateSync(Clients[0].iClientId, aResId, cached, state, levelOwnerId);
test(r == KErrNone);
test(state == aState);
test(levelOwnerId == aLevelOwnerId);
return;
}
//This function gets extended resource state asynchronously and verifies for correctness
void TestRM::GetExtendedResStateAsyncAndVerify(TUint aResId, TInt aState, TInt aLevelOwnerId, TBool aReqCancel)
{
static TBool cached = ETrue;
TRequestStatus resGet;
TInt levelOwnerId;
TInt state;
lddChan.GetResourceStateAsync(Clients[0].iClientId, aResId, cached, resGet, state, levelOwnerId, aReqCancel);
User::WaitForRequest(resGet);
if(aReqCancel && (resGet.Int() != KErrNone))
{
test((resGet.Int() == KErrCompletion) || (resGet.Int() == KErrCancel));
return;
}
test(resGet.Int() == KErrNone);
test(state == aState);
test(levelOwnerId == aLevelOwnerId);
}
//This function validates number of dependency resource and their id's for correctness
void TestRM::CheckForDependencyInformation(TUint aClientId, TUint aResourceId, TUint aNumDependents, SResourceDependencyInfo* aDepResIdArray)
{
TUint numDepResources;
//Get the number of dependent's for the resource
r = lddChan.GetNumDependentsForResource(aClientId, aResourceId, numDepResources);
if(r != KErrNone)
test.Printf(_L("GetNumDependentsForResource returned with %d\n"), r);
test(r == KErrNone);
if(aNumDependents != numDepResources)
test.Printf(_L("aNumDependents = %d, numDepResource = %d\n"), aNumDependents, numDepResources);
test(aNumDependents == numDepResources);
if(numDepResources == 0)
return;
//Get the dependent's id
RBuf8 info;
info.Create(aNumDependents * sizeof(SResourceDependencyInfo));
r = lddChan.GetDependentsIdForResource(aClientId, aResourceId, (TAny*)&info, numDepResources);
if(r != KErrNone)
{
test.Printf(_L("GetDependentsIdForResource returned with %d\n"), r);
info.Close();
}
test(r == KErrNone);
if(aNumDependents != numDepResources)
{
test.Printf(_L("aNumDependents = %d, numDepResource = %d\n"), aNumDependents, numDepResources);
info.Close();
}
test(aNumDependents == numDepResources);
SResourceDependencyInfo* sResDepInfoPtr = (SResourceDependencyInfo*)info.Ptr();
for(TUint count = 0; count < aNumDependents; count++, sResDepInfoPtr++)
{
if(sResDepInfoPtr->iResourceId != aDepResIdArray[count].iResourceId)
{
test.Printf(_L("Expected resourceId : %d, Returned ResourceId = %d\n"),sResDepInfoPtr->iResourceId,
aDepResIdArray[count].iResourceId);
info.Close();
test(0);
}
if(sResDepInfoPtr->iDependencyPriority != aDepResIdArray[count].iDependencyPriority)
{
test.Printf(_L("Expected resource priority : %d, Returned resource priority = %d\n"),sResDepInfoPtr->iDependencyPriority,
aDepResIdArray[count].iDependencyPriority);
info.Close();
test(0);
}
}
info.Close();
return;
}
//----------------------------------------------------------------------------------------------
//! @SYMTestCaseID KBASE-T_RESCONTROLCLI-0595
//! @SYMTestType UT
//! @SYMPREQ PREQ1398
//! @SYMTestCaseDesc This test case tests static resources with dependency.
//! @SYMTestActions 0 Register clients
//! 1 Check dependency information of each resource
//! 2 Register notifications
//! 3 Change Resource State of each static resource with dependency
//! 4 Get state of the resources and verify them for correctness
//! 5 Check notification count for correctness
//! 6 Deregister client level
//! 7 Deregister clients
//!
//! @SYMTestExpectedResults 0 API should return with KErrNone, panics otherwise.
//! 1 API should return with KErrNone, panics otherwise.
//! 2 API should return with KErrNone, panics otherwise.
//! 3 API should return with KErrNone, panics otherwise.
//! 4 API should return with KErrNone, panics otherwise.
//! 5 API should return with KErrNone, panics otherwise.
//! 6 API should return with KErrNone, panics otherwise.
//! 7 API should return with KErrNone, panics otherwise.
//! @SYMTestPriority High
//! @SYMTestStatus Implemented
//----------------------------------------------------------------------------------------------
void TestRM::TestStaticResourceWithDependency()
{
TUint count;
RArray<SResourceDependencyInfo>depResArray;
SResourceDependencyInfo sResDepInfo;
TUint numClients; // The maximum no. of dependents in the dependency tree.
//Register client 1.
RmTest.RegisterClient();
iCurrentClientId = -1;
TInt state;
TRequestStatus reqSet;
NegativeTesting = EFalse;
test.Next(_L("\nTesting static resource with dependency...."));
//Check for resource dependency information of Resource D
sResDepInfo.iResourceId = iStaticDependencyResources[1];
sResDepInfo.iDependencyPriority = 1;
depResArray.Append(sResDepInfo);
sResDepInfo.iResourceId = iStaticDependencyResources[3];
sResDepInfo.iDependencyPriority = 2;
depResArray.Append(sResDepInfo);
sResDepInfo.iResourceId = iStaticDependencyResources[2];
sResDepInfo.iDependencyPriority = 3;
depResArray.Append(sResDepInfo);
RmTest.CheckForDependencyInformation(Clients[0].iClientId, iStaticDependencyResources[0], 3, &depResArray[0]);
//Check for resource dependency information of Resource E
depResArray[0].iResourceId = iStaticDependencyResources[4];
depResArray[0].iDependencyPriority = 1;
depResArray[1].iResourceId = iStaticDependencyResources[5];
depResArray[1].iDependencyPriority = 2;
depResArray[2].iResourceId = iStaticDependencyResources[0];
depResArray[2].iDependencyPriority = 3;
RmTest.CheckForDependencyInformation(Clients[0].iClientId, iStaticDependencyResources[3], 3, &depResArray[0]);
//Check for resource dependency information of Resource C
depResArray[0].iResourceId = iStaticDependencyResources[3];
depResArray[0].iDependencyPriority = 1;
RmTest.CheckForDependencyInformation(Clients[0].iClientId, iStaticDependencyResources[4], 1, &depResArray[0]);
//Check for resource dependency information of Resource G
RmTest.CheckForDependencyInformation(Clients[0].iClientId, iStaticDependencyResources[5], 1, &depResArray[0]);
//Check for resource dependency information of Resource F
depResArray[0].iResourceId = iStaticDependencyResources[0];
depResArray[0].iDependencyPriority = 1;
RmTest.CheckForDependencyInformation(Clients[0].iClientId, iStaticDependencyResources[2], 1, &depResArray[0]);
//Check for resource dependency information of Resource A
RmTest.CheckForDependencyInformation(Clients[0].iClientId, iStaticDependencyResources[1], 1, &depResArray[0]);
RmTest.GetNumResourcesInUseByClient(iCurrentClientId);
RmTest.GetInfoOnResourcesInUseByClient(iCurrentClientId, iMaxStaticResources + iMaxStaticDependentResources);
iCurrentClientId = 0;
//Get resource state of all dependent resource and verify
GetExtendedResStateAndVerify(iStaticDependencyResources[0], -50, -1);
GetExtendedResStateAsyncAndVerify(iStaticDependencyResources[1], -11, iStaticDependencyResources[0]);
GetExtendedResStateAndVerify(iStaticDependencyResources[2], 1, iStaticDependencyResources[0]);
GetExtendedResStateAsyncAndVerify(iStaticDependencyResources[3], 13, iStaticDependencyResources[0]);
GetExtendedResStateAsyncAndVerify(iStaticDependencyResources[4], 0, iStaticDependencyResources[3]);
GetExtendedResStateAndVerify(iStaticDependencyResources[5], 73, iStaticDependencyResources[3]);
r = lddChan.GetNumClientsUsingResource(Clients[0].iClientId, iStaticDependencyResources[3], numClients);
test(r == KErrNone);
test(numClients == 0);
//Request notification
for(count = 0; count < iMaxStaticDependentResources; count++)
{
r = lddChan.RequestNotification(Clients[0].iClientId, iStaticDependencyResources[count]);
test(r == KErrNone);
}
//Change state of resource A to -11 and verify
r = lddChan.ChangeResourceStateSync(Clients[0].iClientId, iStaticDependencyResources[1], -11);
test(r == KErrNone);
GetExtendedResStateAsyncAndVerify(iStaticDependencyResources[1], -11, Clients[0].iClientId);
//Change state of resource A to -12 and verify
state = -12;
lddChan.ChangeResourceStateAsync(Clients[0].iClientId, iStaticDependencyResources[1], state, reqSet);
User::WaitForRequest(reqSet);
test(reqSet.Int() == KErrNone);
r = lddChan.CheckNotifications(iStaticDependencyResources[1], 1, 0);
test(r == KErrNone);
//Register client2
RmTest.RegisterClient();
//Change state of resource D to -49 and verify
state = -49;
lddChan.ChangeResourceStateAsync(Clients[1].iClientId, iStaticDependencyResources[0], state, reqSet);
User::WaitForRequest(reqSet);
test(reqSet.Int() == KErrNone);
//Check for notifications
r = lddChan.CheckNotifications(iStaticDependencyResources[0], 1, 0);
test(r == KErrNone);
r = lddChan.CheckNotifications(iStaticDependencyResources[1], 1, 0);
test(r == KErrNone);
r = lddChan.CheckNotifications(iStaticDependencyResources[3], 1, 0);
test(r == KErrNone);
r = lddChan.CheckNotifications(iStaticDependencyResources[5], 1, 0);
test(r == KErrNone);
//Get the state and verify for correctness
GetExtendedResStateAndVerify(iStaticDependencyResources[0], -49, Clients[1].iClientId);
GetExtendedResStateAsyncAndVerify(iStaticDependencyResources[1], -13, iStaticDependencyResources[0]);
GetExtendedResStateAsyncAndVerify(iStaticDependencyResources[2], 1, iStaticDependencyResources[0]);
GetExtendedResStateAndVerify(iStaticDependencyResources[3], 16, iStaticDependencyResources[0]);
GetExtendedResStateAsyncAndVerify(iStaticDependencyResources[4], 0, iStaticDependencyResources[3]);
GetExtendedResStateAndVerify(iStaticDependencyResources[5], 71, iStaticDependencyResources[3]);
//Change state of resource F to 1 and verify
r = lddChan.ChangeResourceStateSync(Clients[1].iClientId, iStaticDependencyResources[2], 1);
test(r == KErrNone);
r = lddChan.CheckNotifications(iStaticDependencyResources[2], 0, 0);
test(r == KErrNone);
GetExtendedResStateAndVerify(iStaticDependencyResources[2], 1, Clients[1].iClientId);
//Register client 3
RmTest.RegisterClient();
//Change state of resource E to 19 and verify
r = lddChan.ChangeResourceStateSync(Clients[2].iClientId, iStaticDependencyResources[3], 19);
test(r == KErrNone);
r = lddChan.CheckNotifications(iStaticDependencyResources[3], 1, 0);
test(r == KErrNone);
r = lddChan.CheckNotifications(iStaticDependencyResources[5], 1, 0);
test(r == KErrNone);
GetExtendedResStateAndVerify(iStaticDependencyResources[0], -49, Clients[1].iClientId);
GetExtendedResStateAsyncAndVerify(iStaticDependencyResources[1], -13, iStaticDependencyResources[0]);
GetExtendedResStateAsyncAndVerify(iStaticDependencyResources[2], 1, Clients[1].iClientId);
GetExtendedResStateAndVerify(iStaticDependencyResources[3], 19, Clients[2].iClientId);
GetExtendedResStateAsyncAndVerify(iStaticDependencyResources[4], 0, iStaticDependencyResources[3]);
GetExtendedResStateAndVerify(iStaticDependencyResources[5], 69, iStaticDependencyResources[3]);
//Register client 4
RmTest.RegisterClient();
//Change state of resource C to 0 and verify
r = lddChan.ChangeResourceStateSync(Clients[3].iClientId, iStaticDependencyResources[4], 0);
test(r == KErrNone);
r = lddChan.CheckNotifications(iStaticDependencyResources[4], 0, 0);
test(r == KErrNone);
GetExtendedResStateAsyncAndVerify(iStaticDependencyResources[4], 0, iStaticDependencyResources[3]);
//Change state of resource C to 1 and verify
r = lddChan.ChangeResourceStateSync(Clients[2].iClientId, iStaticDependencyResources[4], 1);
test(r == KErrNone);
r = lddChan.CheckNotifications(iStaticDependencyResources[4], 0, 0);
test(r == KErrNone);
GetExtendedResStateAsyncAndVerify(iStaticDependencyResources[4], 0, iStaticDependencyResources[3]);
//Change state of resource G to 67 and verify
r = lddChan.ChangeResourceStateSync(Clients[2].iClientId, iStaticDependencyResources[5], 67);
test(r == KErrNone);
r = lddChan.CheckNotifications(iStaticDependencyResources[5], 1, 0);
test(r == KErrNone);
GetExtendedResStateAndVerify(iStaticDependencyResources[0], -49, Clients[1].iClientId);
GetExtendedResStateAsyncAndVerify(iStaticDependencyResources[1], -13, iStaticDependencyResources[0]);
GetExtendedResStateAsyncAndVerify(iStaticDependencyResources[2], 1, Clients[1].iClientId);
GetExtendedResStateAndVerify(iStaticDependencyResources[3], 19, Clients[2].iClientId);
GetExtendedResStateAsyncAndVerify(iStaticDependencyResources[4], 0, iStaticDependencyResources[3]);
GetExtendedResStateAndVerify(iStaticDependencyResources[5], 67, Clients[2].iClientId);
//Change state of resource G to 67 and verify
r = lddChan.ChangeResourceStateSync(Clients[3].iClientId, iStaticDependencyResources[5], 67);
test(r == KErrNone);
r = lddChan.CheckNotifications(iStaticDependencyResources[5], 0, 0);
test(r == KErrNone);
GetExtendedResStateAndVerify(iStaticDependencyResources[0], -49, Clients[1].iClientId);
GetExtendedResStateAsyncAndVerify(iStaticDependencyResources[1], -13, iStaticDependencyResources[0]);
GetExtendedResStateAsyncAndVerify(iStaticDependencyResources[2], 1, Clients[1].iClientId);
GetExtendedResStateAndVerify(iStaticDependencyResources[3], 19, Clients[2].iClientId);
GetExtendedResStateAsyncAndVerify(iStaticDependencyResources[4], 0, iStaticDependencyResources[3]);
GetExtendedResStateAndVerify(iStaticDependencyResources[5], 67, Clients[2].iClientId);
//Change the state of the resource E to 24
state = 24;
//Register client 5
RmTest.RegisterClient();
lddChan.ChangeResourceStateAsync(Clients[4].iClientId, iStaticDependencyResources[3], state, reqSet);
User::WaitForRequest(reqSet);
test(reqSet.Int() == KErrNone);
r = lddChan.CheckNotifications(iStaticDependencyResources[3], 1, 0);
test(r == KErrNone);
r = lddChan.CheckNotifications(iStaticDependencyResources[5], 1, 0);
test(r == KErrNone);
GetExtendedResStateAndVerify(iStaticDependencyResources[0], -49, Clients[1].iClientId);
GetExtendedResStateAsyncAndVerify(iStaticDependencyResources[1], -13, iStaticDependencyResources[0]);
GetExtendedResStateAsyncAndVerify(iStaticDependencyResources[2], 1, Clients[1].iClientId);
GetExtendedResStateAndVerify(iStaticDependencyResources[3], 24, Clients[4].iClientId);
GetExtendedResStateAsyncAndVerify(iStaticDependencyResources[4], 0, iStaticDependencyResources[3]);
GetExtendedResStateAndVerify(iStaticDependencyResources[5], 65, iStaticDependencyResources[3]);
//Change resource state of Resource D to -51
r = lddChan.ChangeResourceStateSync(Clients[2].iClientId, iStaticDependencyResources[0], -51);
test(r == KErrAccessDenied);
GetExtendedResStateAndVerify(iStaticDependencyResources[0], -49, Clients[1].iClientId);
//DeregisterClient 5
r = lddChan.DeRegisterClient(Clients[4].iClientId);
test(r == KErrNone);
r = lddChan.CheckNotifications(iStaticDependencyResources[3], 1, 0);
test(r == KErrNone);
r = lddChan.CheckNotifications(iStaticDependencyResources[5], 1, 0);
test(r == KErrNone);
GetExtendedResStateAndVerify(iStaticDependencyResources[3], 19, Clients[2].iClientId);
GetExtendedResStateAndVerify(iStaticDependencyResources[5], 63, iStaticDependencyResources[3]);
//Change resource state of resource D to 50
state = 50;
lddChan.ChangeResourceStateAsync(Clients[1].iClientId, iStaticDependencyResources[0], state, reqSet);
User::WaitForRequest(reqSet);
test(reqSet.Int() == KErrNone);
r = lddChan.CheckNotifications(iStaticDependencyResources[0], 1, 0);
test(r == KErrNone);
r = lddChan.CheckNotifications(iStaticDependencyResources[1], 1, 0);
test(r == KErrNone);
r = lddChan.CheckNotifications(iStaticDependencyResources[3], 1, 0);
test(r == KErrNone);
r = lddChan.CheckNotifications(iStaticDependencyResources[5], 1, 0);
test(r == KErrNone);
GetExtendedResStateAndVerify(iStaticDependencyResources[0], 50, Clients[1].iClientId);
GetExtendedResStateAsyncAndVerify(iStaticDependencyResources[1], -14, iStaticDependencyResources[0]);
GetExtendedResStateAsyncAndVerify(iStaticDependencyResources[2], 1, Clients[1].iClientId);
GetExtendedResStateAndVerify(iStaticDependencyResources[3], 22, iStaticDependencyResources[0]);
GetExtendedResStateAsyncAndVerify(iStaticDependencyResources[4], 0, iStaticDependencyResources[3]);
GetExtendedResStateAndVerify(iStaticDependencyResources[5], 61, iStaticDependencyResources[3]);
//Change resource state of resource G to 61
r = lddChan.ChangeResourceStateSync(Clients[3].iClientId, iStaticDependencyResources[5], 61);
test(r == KErrNone);
r = lddChan.CheckNotifications(iStaticDependencyResources[5], 0, 0);
test(r == KErrNone);
GetExtendedResStateAndVerify(iStaticDependencyResources[0], 50, Clients[1].iClientId);
GetExtendedResStateAsyncAndVerify(iStaticDependencyResources[1], -14, iStaticDependencyResources[0]);
GetExtendedResStateAsyncAndVerify(iStaticDependencyResources[2], 1, Clients[1].iClientId);
GetExtendedResStateAndVerify(iStaticDependencyResources[3], 22, iStaticDependencyResources[0]);
GetExtendedResStateAsyncAndVerify(iStaticDependencyResources[4], 0, iStaticDependencyResources[3]);
GetExtendedResStateAndVerify(iStaticDependencyResources[5], 61, iStaticDependencyResources[3]);
//Deregister client 4;
r = lddChan.DeRegisterClient(Clients[3].iClientId);
test(r == KErrNone);
r = lddChan.CheckNotifications(iStaticDependencyResources[5], 0, 0);
test(r == KErrNone);
GetExtendedResStateAndVerify(iStaticDependencyResources[0], 50, Clients[1].iClientId);
GetExtendedResStateAsyncAndVerify(iStaticDependencyResources[1], -14, iStaticDependencyResources[0]);
GetExtendedResStateAsyncAndVerify(iStaticDependencyResources[2], 1, Clients[1].iClientId);
GetExtendedResStateAndVerify(iStaticDependencyResources[3], 22, iStaticDependencyResources[0]);
GetExtendedResStateAsyncAndVerify(iStaticDependencyResources[4], 0, iStaticDependencyResources[3]);
GetExtendedResStateAndVerify(iStaticDependencyResources[5], 61, iStaticDependencyResources[3]);
//Deregister client 3.
r = lddChan.DeRegisterClient(Clients[2].iClientId);
test(r == KErrNone);
GetExtendedResStateAndVerify(iStaticDependencyResources[0], 50, Clients[1].iClientId);
GetExtendedResStateAsyncAndVerify(iStaticDependencyResources[1], -14, iStaticDependencyResources[0]);
GetExtendedResStateAsyncAndVerify(iStaticDependencyResources[2], 1, Clients[1].iClientId);
GetExtendedResStateAndVerify(iStaticDependencyResources[3], 22, iStaticDependencyResources[0]);
GetExtendedResStateAsyncAndVerify(iStaticDependencyResources[4], 0, iStaticDependencyResources[3]);
GetExtendedResStateAndVerify(iStaticDependencyResources[5], 61, iStaticDependencyResources[3]);
//Deregister client 0 from Resource A
r = lddChan.DeRegisterClientLevelFromResource(Clients[0].iClientId, iStaticDependencyResources[1]);
test(r == KErrNone);
r = lddChan.CheckNotifications(iStaticDependencyResources[1], 0, 0);
test(r == KErrNone);
GetExtendedResStateAndVerify(iStaticDependencyResources[0], 50, Clients[1].iClientId);
GetExtendedResStateAsyncAndVerify(iStaticDependencyResources[1], -14, iStaticDependencyResources[0]);
GetExtendedResStateAsyncAndVerify(iStaticDependencyResources[2], 1, Clients[1].iClientId);
GetExtendedResStateAndVerify(iStaticDependencyResources[3], 22, iStaticDependencyResources[0]);
GetExtendedResStateAsyncAndVerify(iStaticDependencyResources[4], 0, iStaticDependencyResources[3]);
GetExtendedResStateAndVerify(iStaticDependencyResources[5], 61, iStaticDependencyResources[3]);
//Move Resource D to default
r = lddChan.ChangeResourceStateSync(Clients[1].iClientId, iStaticDependencyResources[0], -100);
test(r == KErrPermissionDenied);
//Deregister client 1 from Resource F
r = lddChan.DeRegisterClientLevelFromResource(Clients[1].iClientId, iStaticDependencyResources[2]);
test(r == KErrNone);
r = lddChan.CheckNotifications(iStaticDependencyResources[1], 0, 0);
test(r == KErrNone);
GetExtendedResStateAndVerify(iStaticDependencyResources[0], 50, Clients[1].iClientId);
GetExtendedResStateAsyncAndVerify(iStaticDependencyResources[1], -14, iStaticDependencyResources[0]);
GetExtendedResStateAsyncAndVerify(iStaticDependencyResources[2], 1, iStaticDependencyResources[0]);
GetExtendedResStateAndVerify(iStaticDependencyResources[3], 22, iStaticDependencyResources[0]);
GetExtendedResStateAsyncAndVerify(iStaticDependencyResources[4], 0, iStaticDependencyResources[3]);
GetExtendedResStateAndVerify(iStaticDependencyResources[5], 61, iStaticDependencyResources[3]);
//Deregister client 2
r = lddChan.DeRegisterClient(Clients[1].iClientId);
test(r == KErrNone);
GetExtendedResStateAndVerify(iStaticDependencyResources[0], -100, -1);
GetExtendedResStateAsyncAndVerify(iStaticDependencyResources[1], -10, iStaticDependencyResources[0]);
GetExtendedResStateAsyncAndVerify(iStaticDependencyResources[2], 0, iStaticDependencyResources[0]);
GetExtendedResStateAndVerify(iStaticDependencyResources[3], 10, iStaticDependencyResources[0]);
GetExtendedResStateAsyncAndVerify(iStaticDependencyResources[4], 1, iStaticDependencyResources[3]);
GetExtendedResStateAndVerify(iStaticDependencyResources[5], 75, iStaticDependencyResources[3]);
//Deregister client 1
r = lddChan.DeRegisterClient(Clients[0].iClientId);
test(r == KErrNone);
Clients.Close(); //Close the array and release memory
//Test parallel execution of RC and Dependency resource DFC's
//Register client 1
RmTest.RegisterClient();
//Register client 2
RmTest.RegisterClient();
state = 50;
/* CheckParallelExecutionForResChageStateWithDependency */
lddChan.CheckParallelExecutionForChangeResState(Clients[1].iClientId,
iStaticDependencyResources[0],state,5,0,reqSet);
User::WaitForRequest(reqSet);
test(reqSet.Int() == KErrNone);
GetExtendedResStateAndVerify(iStaticDependencyResources[0], 50, Clients[1].iClientId);
GetExtendedResStateAsyncAndVerify(iStaticDependencyResources[1], -11, iStaticDependencyResources[0]);
GetExtendedResStateAndVerify(iStaticDependencyResources[2], 1, iStaticDependencyResources[0]);
GetExtendedResStateAsyncAndVerify(iStaticDependencyResources[3], 13, iStaticDependencyResources[0]);
GetExtendedResStateAsyncAndVerify(iStaticDependencyResources[4], 0, iStaticDependencyResources[3]);
GetExtendedResStateAndVerify(iStaticDependencyResources[5], 73, iStaticDependencyResources[3]);
TInt owner;
TBool cached = ETrue;
r = lddChan.GetResourceStateSync(Clients[1].iClientId, 4, cached, state, owner);
test(r == KErrNone);
test(state == 75);
test(owner == -1);
r = lddChan.DeRegisterClient(Clients[1].iClientId);
test(r == KErrNone);
GetExtendedResStateAndVerify(iStaticDependencyResources[0], -100, -1);
GetExtendedResStateAsyncAndVerify(iStaticDependencyResources[1], -10, iStaticDependencyResources[0]);
GetExtendedResStateAsyncAndVerify(iStaticDependencyResources[2], 0, iStaticDependencyResources[0]);
GetExtendedResStateAndVerify(iStaticDependencyResources[3], 10, iStaticDependencyResources[0]);
GetExtendedResStateAsyncAndVerify(iStaticDependencyResources[4], 1, iStaticDependencyResources[3]);
GetExtendedResStateAndVerify(iStaticDependencyResources[5], 75, iStaticDependencyResources[3]);
r = lddChan.GetResourceStateSync(Clients[0].iClientId, 4, cached, state, owner);
test(r == KErrNone);
test(state == 75);
test(owner == -1);
r = lddChan.DeRegisterClient(Clients[0].iClientId);
test(r == KErrNone);
Clients.Close(); //Close the array and release memory
depResArray.Close(); //Close the array and release memory
}
#endif
//This function validates each of the resource manager API's
void TestRM::APIValidationTest()
{
test.Next(_L("\nStarting API validation Test...."));
RmTest.RegisterClient();
r = lddChan.GetResourceControllerVersion(Clients[0].iClientId, iTestingExtendedVersion);
test(r == KErrNone);
if(!iTestingExtendedVersion)
test.Printf(_L("Testing Basic Version only...."));
else
test.Printf(_L("Testing basic & extended version...."));
RmTest.ValidateClient(5, EOwnerProcess);
iCurrentClientId = -1;
RmTest.GetNumResourcesInUseByClient(iCurrentClientId);
RmTest.GetInfoOnResourcesInUseByClient(iCurrentClientId, iMaxStaticResources);
iCurrentClientId = 0;
NegativeTesting = ETrue;
if(Resources[0].iName.Compare(*(const TDesC8*)&SpecialResName))
{
test.Printf(_L("Test runs only on simulated PSL\n"));
RmTest.DeRegisterClient(Clients[0].iClientId);
return;
}
TBuf8<32> PowerController = _L8("PowerController");
r = lddChan.GetClientId(Clients[0].iClientId, (TDesC8&)PowerController, iPowerControllerId);
test(r == KErrNone);
RBuf8 info;
TUint c;
r = info.Create((iMaxStaticResources) * sizeof(SIdleResourceInfo));
test(r == KErrNone);
SIdleResourceInfo* pI = (SIdleResourceInfo*)info.Ptr();
for(c = 0; c < iMaxStaticResources; c++)
{
pI->iResourceId = Resources[c].iResourceId;
pI++;
}
pI = (SIdleResourceInfo*)info.Ptr();
r = lddChan.RegisterForIdleResourcesInfo(iPowerControllerId, iMaxStaticResources, (TAny*)info.Ptr());
test(r == KErrNone);
RmTest.GetClientName(iCurrentClientId);
RmTest.GetClientId(iCurrentClientId);
RmTest.GetResourceId(2);
RmTest.GetResourceInfo(19);
RmTest.GetNumResourcesInUseByClient(iCurrentClientId);
RmTest.GetInfoOnResourcesInUseByClient(iCurrentClientId, 3);
RmTest.GetNumClientsUsingResource(iCurrentClientId, (TUint)-1);
RmTest.GetNumClientsUsingResource(iCurrentClientId, 10);
RmTest.GetInfoOnClientsUsingResource((TUint)-1, 4);
RmTest.GetInfoOnClientsUsingResource(5, 3);
for(c = 0; c < iMaxStaticResources; c++)
{
if(Resources[c].iSense == ECustom)
continue;
RmTest.GetResourceStateAsync(c, ETrue);
}
User::After(2000000); //Add delay to make sure that the asynchronous request is processed in controller thread
for(c = 0; c < iMaxStaticResources; c++)
{
if(Resources[c].iSense == ECustom)
continue;
iCurrentClientId = c;
RmTest.RegisterClient();
RmTest.AllocReserve(c);
RmTest.GetResourceStateAsync(c);
RmTest.RequestNotification(c);
RmTest.RequestNotificationCon(c);
}
for(c=0; c< iMaxStaticResources; c++)
{
if(Resources[c].iSense == ECustom)
continue;
iCurrentClientId = c;
RmTest.ChangeResourceStateAsync(c);
RmTest.GetResourceStateAsync(c);
RmTest.GetResourceStateSync(c);
RmTest.ChangeResourceStateSync(c);
}
for(c = 0; c < iMaxStaticResources; c++)
{
if(Resources[c].iSense == ECustom)
continue;
iCurrentClientId = c;
RmTest.GetClientName(c);
RmTest.GetClientId(c);
RmTest.GetResourceId(c);
RmTest.GetResourceInfo(c);
RmTest.GetNumResourcesInUseByClient(c);
RmTest.GetInfoOnResourcesInUseByClient(c, Clients[c].iNumResources);
RmTest.GetNumClientsUsingResource(c, c);
RmTest.GetInfoOnClientsUsingResource(c, Resources[c].iNumClients);
RmTest.CancelNotification(c, ETrue);
RmTest.CancelNotification(c, EFalse);
}
TInt clientCount = Clients.Count();
for(c = clientCount-1; ((TInt)c) >=0; c--)
{
test.Printf(_L("DeRegister ClientId %d\n"), Clients[c].iClientId);
RmTest.DeRegisterClient(c);
}
Clients.Close();
//Find any shared binary resource
for(c = 0; c < iMaxStaticResources; c++)
{
if(Resources[c].iSense == ECustom)
continue;
if((Resources[c].iUsage == EShared) && (Resources[c].iSense == ENegative))
{
if(Resources[c].iType == 0x0) //Binary Resource
RmTest.SharedBinaryNegativeResourceTesting(c);
else
RmTest.SharedMultilevelNegativeResourceTesting(c);
}
else if((Resources[c].iUsage == EShared) && (Resources[c].iSense == EPositive))
{
if(Resources[c].iType == 0x0) //Binary Resource
RmTest.SharedBinaryPositiveResourceTesting(c);
else
RmTest.SharedMultilevelPositiveResourceTesting(c);
}
}
RmTest.CustomResourceTesting(CUSTOM_RESOURCE_NUMBER);
//Testing of Deregistration of client level for binary resource
RmTest.RegisterClient();
for(c = 0; c < iMaxStaticResources; c++)
{
if(Resources[c].iSense == ECustom)
continue;
RmTest.DeRegisterClientLevelFromResource(-1, c);
}
for(c = 0; c < iMaxStaticResources; c++)
{
iCurrentClientId = 0;
RmTest.ChangeResourceStateSync(c);
RmTest.DeRegisterClientLevelFromResource(0, c);
}
RmTest.RegisterClient();
for(c = 0; c < iMaxStaticResources; c++) //Test valid only for shared resources.
{
if((Resources[c].iSense == ECustom) || (Resources[c].iUsage == ESingle))
continue;
iCurrentClientId = 0;
RmTest.ChangeResourceStateSync(c);
iCurrentClientId = 1;
RmTest.ChangeResourceStateSync(c);
if(Resources[c].iCurrentClient == 0)
{
RmTest.DeRegisterClientLevelFromResource(0, c);
RmTest.DeRegisterClientLevelFromResource(1, c);
}
else
{
RmTest.DeRegisterClientLevelFromResource(1, c);
RmTest.DeRegisterClientLevelFromResource(0, c);
}
}
//Testing of Deregistration of client level for shared resource
for(c = 0; c < iMaxStaticResources; c++)
{
if((Resources[c].iSense == ECustom) || (!Resources[c].iUsage))
continue;
RmTest.DeRegisterClientLevelFromResource(-1, c);
}
RmTest.DeRegisterClient(1);
RmTest.DeRegisterClient(0);
info.Create(15 * sizeof(SIdleResourceInfo));
r = lddChan.GetIdleResourcesInfo(15, (TAny*)(TDes8*)&info);
test(r == KErrNone);
pI = (SIdleResourceInfo*)info.Ptr();
for(c = 0; c< 15; c++)
{
test(Resources[c].iCurrentClient == pI->iLevelOwnerId);
test(Resources[c].iCurrentLevel == pI->iCurrentLevel);
test(Resources[c].iResourceId == pI->iResourceId);
pI++;
}
info.Close();
Clients.Close();
#ifdef PRM_ENABLE_EXTENDED_VERSION
if(iTestingExtendedVersion)
{
TestStaticResourceWithDependency();
TestDynamicResource();
TestDynamicResourceDependency();
}
#endif
Clients.Close();
return;
}
//----------------------------------------------------------------------------------------------
//! @SYMTestCaseID KBASE-T_RESCONTROLCLI-0592
//! @SYMTestType UT
//! @SYMPREQ PREQ1398
//! @SYMTestCaseDesc This test case tests deregistration of client level functionality.
//! @SYMTestActions 0 Register client
//! 1 Change Resource State
//! 2 Deregister client level
//! 3 Deregister client
//!
//! @SYMTestExpectedResults 0 API should return with KErrNone, panics otherwise.
//! 1 API should return with KErrNone, panics otherwise.
//! 2 API should return with KErrNone, panics otherwise.
//! 3 API should return with KErrNone, panics otherwise.
//! @SYMTestPriority High
//! @SYMTestStatus Implemented
//----------------------------------------------------------------------------------------------
void TestRM::DeRegisterClientLevelFromResource(TInt aClientId, TUint aResId)
{
TInt state;
TInt newState;
TInt levelOwnerId;
r = lddChan.GetResourceStateSync(Clients[0].iClientId, Resources[aResId].iResourceId, ETrue, newState, levelOwnerId);
test(r == KErrNone);
if((levelOwnerId != -1) && (levelOwnerId != (TInt)Clients[aClientId].iClientId))
{
test.Printf(_L("Client Id does not match so not testing Deregistration of client level\n"));
return;
}
if(Resources[aResId].iUsage == ESingle) //Single user resource
{
if(levelOwnerId == -1)
{
TUint ClientId;
ClientName[6] = (TUint8)('0' + iMaxClientId+1);
r = lddChan.RegisterClient(ClientId, (const TDesC*)&ClientName);
test(r == KErrNone);
newState = Resources[aResId].iMaxLevel;
r = lddChan.ChangeResourceStateSync(ClientId, Resources[aResId].iResourceId, newState);
test(r == KErrNone);
r = lddChan.GetResourceStateSync(ClientId, Resources[aResId].iResourceId, ETrue, state, levelOwnerId);
test(r == KErrNone);
test(state == newState);
test(levelOwnerId == (TInt)ClientId);
r = lddChan.DeRegisterClientLevelFromResource(ClientId, Resources[aResId].iResourceId);
test(r == KErrNone);
r = lddChan.GetResourceStateSync(ClientId, Resources[aResId].iResourceId, ETrue, state, levelOwnerId);
test(r == KErrNone);
test(levelOwnerId == -1);
r = lddChan.DeRegisterClient(ClientId);
test(r == KErrNone);
return;
}
r = lddChan.DeRegisterClientLevelFromResource(Clients[aClientId].iClientId, Resources[aResId].iResourceId);
test(r == KErrNone);
r = lddChan.GetResourceStateSync(Clients[aClientId].iClientId, Resources[aResId].iResourceId, ETrue, state, levelOwnerId);
test(r == KErrNone);
test(levelOwnerId == -1);
//Update the local
Resources[aResId].iCurrentClient = -1;
Resources[aResId].iCurrentLevel = state;
Resources[aResId].iNumClients = 0;
delete Resources[aResId].iLevel;
Resources[aResId].iLevel = NULL;
return;
}
//Handle for Shared resources
if(levelOwnerId == -1)
{
TUint ClientId[2];
ClientName[6] = (TUint8)('0' + iMaxClientId+1);
r = lddChan.RegisterClient(ClientId[0], (const TDesC*)&ClientName);
test(r == KErrNone);
ClientName[6] = (TUint8)('0' + iMaxClientId+2);
r = lddChan.RegisterClient(ClientId[1], (const TDesC*)&ClientName);
test(r == KErrNone);
newState = Resources[aResId].iMinLevel;
r = lddChan.ChangeResourceStateSync(ClientId[0], Resources[aResId].iResourceId, newState);
test(r == KErrNone);
r = lddChan.GetResourceStateSync(ClientId[0], Resources[aResId].iResourceId, ETrue, state, levelOwnerId);
test(r == KErrNone);
test(levelOwnerId == (TInt)ClientId[0]);
r = lddChan.ChangeResourceStateSync(ClientId[1], Resources[aResId].iResourceId, newState);
test(r == KErrNone);
r = lddChan.DeRegisterClientLevelFromResource(ClientId[0], Resources[aResId].iResourceId);
test(r == KErrNone);
r = lddChan.GetResourceStateSync(ClientId[0], Resources[aResId].iResourceId, ETrue, state, levelOwnerId);
test(r == KErrNone);
test(levelOwnerId == (TInt)ClientId[1]);
r = lddChan.DeRegisterClientLevelFromResource(ClientId[1], Resources[aResId].iResourceId);
test(r == KErrNone);
r = lddChan.GetResourceStateSync(ClientId[0], Resources[aResId].iResourceId, ETrue, state, levelOwnerId);
test(r == KErrNone);
test(levelOwnerId == -1);
r = lddChan.DeRegisterClient(ClientId[0]);
test(r == KErrNone);
r = lddChan.DeRegisterClient(ClientId[1]);
test(r == KErrNone);
return;
}
r = lddChan.DeRegisterClientLevelFromResource(Clients[aClientId].iClientId, Resources[aResId].iResourceId);
test(r == KErrNone);
r = lddChan.GetResourceStateSync(Clients[aClientId].iClientId, Resources[aResId].iResourceId, ETrue, state, levelOwnerId);
test(r == KErrNone);
test(levelOwnerId != (TInt)Clients[aClientId].iClientId);
if(Resources[aResId].iNumClients == 1)
{
Resources[aResId].iNumClients--;
Resources[aResId].iCurrentClient = -1;
r = lddChan.GetResourceStateSync(Clients[aClientId].iClientId, Resources[aResId].iResourceId, ETrue, state, levelOwnerId);
test(r == KErrNone);
Resources[aResId].iCurrentLevel = state;
delete Resources[aResId].iLevel;
Resources[aResId].iLevel = NULL;
}
else
{
Resources[aResId].iNumClients--;
SPowerResourceClientLevel *pCL = NULL;
TInt level = KMinTInt;
TInt clientId = 0;
for(SPowerResourceClientLevel* pL = Resources[aResId].iLevel; pL != NULL; pL = pL->iNextInList)
{
if(pL->iClientId == Clients[aClientId].iClientId)
{
pCL = pL;
continue;
}
if(level == KMinTInt)
{
level = pL->iLevel;
clientId = pL->iClientId;
continue;
}
if(((Resources[aResId].iSense == EPositive) && (pL->iLevel > level)) || ((Resources[aResId].iSense == ENegative) && (pL->iLevel < level)))
{
level = pL->iLevel;
clientId = pL->iClientId;
}
}
delete pCL;
Resources[aResId].iCurrentClient = clientId;
Resources[aResId].iCurrentLevel = level;
}
return;
}
//----------------------------------------------------------------------------------------------
//! @SYMTestCaseID KBASE-T_RESCONTROLCLI-0593
//! @SYMTestType UT
//! @SYMPREQ PREQ1398
//! @SYMTestCaseDesc This test case tests changing resource state of shared positive resource.
//! @SYMTestActions 0 Register client1
//! 1 Register client2
//! 2 Register client3
//! 3 Register client4
//! 4 Client1 change resource state.
//! 5 Client2 change resource state.
//! 6 Client3 change resource state.
//! 7 Client4 change resource state.
//! 8 Client1 change resource state.
//! 9 Client2 change resource state.
//! 10 Deregister client2
//! 11 Client3 change resource state.
//! 12 Deregister client1
//! 13 Deregister client3
//! 14 Deregister client4
//!
//! @SYMTestExpectedResults 0 Client registered
//! 1 Client registered
//! 2 Client registered
//! 3 Client registered
//! 4 Resource state changed
//! 5 Resource state changed
//! 6 Resource state changed
//! 7 Resource state changed
//! 8 Resource state changed
//! 9 Resource state changed
//! 10 Client2 deregistered
//! 11 Resource state changed
//! 12 Client1 deregistered
//! 13 Client3 deregistered
//! 14 Client4 deregistered
//! @SYMTestPriority High
//! @SYMTestStatus Implemented
//----------------------------------------------------------------------------------------------
void TestRM::SharedBinaryPositiveResourceTesting(TUint aResId)
{
TInt newState, levelOwnerId;
TRequestStatus req;
TUint ClientId[5];
ClientName[6] = (TUint8)('0' + iMaxClientId+1);
r = lddChan.RegisterClient(ClientId[0], (const TDesC*)&ClientName);
test(r == KErrNone);
r = lddChan.GetResourceStateSync(ClientId[0], Resources[aResId].iResourceId, ETrue, newState, levelOwnerId);
test(r == KErrNone);
if(levelOwnerId != -1)
{
test.Printf(_L("Not testing the shared resource as some other client is currently holding the resource\n"));
r = lddChan.DeRegisterClient(ClientId[0]);
test(r == KErrNone);
return;
}
ClientName[6] = (TUint8)('0' + iMaxClientId +2);
r = lddChan.RegisterClient(ClientId[1], (const TDesC*)&ClientName);
test(r == KErrNone);
ClientName[6] = (TUint8)('0' + iMaxClientId +3);
r = lddChan.RegisterClient(ClientId[2], (const TDesC*)&ClientName);
test(r == KErrNone);
ClientName[6] = (TUint8)('0' + iMaxClientId +4);
r = lddChan.RegisterClient(ClientId[3], (const TDesC*)&ClientName);
test(r == KErrNone);
ClientName[6] = (TUint8)('0' + iMaxClientId +5);
r = lddChan.RegisterClient(ClientId[4], (const TDesC*)&ClientName);
test(r == KErrNone);
newState = 1;
r = lddChan.ChangeResourceStateSync(ClientId[0], Resources[aResId].iResourceId, newState);
test(r == KErrNone);
r = lddChan.CheckNotifications(Resources[aResId].iResourceId, 0, 0);
test(r == KErrNone);
r = lddChan.RequestNotification(ClientId[1], Resources[aResId].iResourceId);
test(r == KErrNone);
r = lddChan.RequestNotification(ClientId[2], Resources[aResId].iResourceId);
test(r == KErrNone);
r = lddChan.RequestNotification(ClientId[3], Resources[aResId].iResourceId, 1, ETrue);
test(r == KErrNone);
r = lddChan.RequestNotification(ClientId[2], Resources[aResId].iResourceId, 0, EFalse);
test(r == KErrNone);
newState = !newState; //State 0
r = lddChan.ChangeResourceStateSync(ClientId[0], Resources[aResId].iResourceId, newState);
test(r == KErrNone);
r = lddChan.CheckNotifications(Resources[aResId].iResourceId, 2, 1);
test(r == KErrNone);
newState = !newState; //State 1
r = lddChan.ChangeResourceStateSync(ClientId[1], Resources[aResId].iResourceId, newState);
test(r == KErrNone);
r = lddChan.CheckNotifications(Resources[aResId].iResourceId, 2, 1);
test(r == KErrNone);
lddChan.ChangeResourceStateAsync(ClientId[2], Resources[aResId].iResourceId, newState, req);
User::WaitForRequest(req); //State 1
test(req.Int() == KErrNone);
r = lddChan.CheckNotifications(Resources[aResId].iResourceId, 0, 0);
test(r == KErrNone);
newState = !newState; //State 0
r = lddChan.ChangeResourceStateSync(ClientId[3], Resources[aResId].iResourceId, newState);
test(r == KErrNone);
r = lddChan.CheckNotifications(Resources[aResId].iResourceId, 0, 0);
test(r == KErrNone);
newState = !newState; //state 1
r = lddChan.ChangeResourceStateSync(ClientId[0], Resources[aResId].iResourceId, newState);
test(r == KErrNone);
r = lddChan.CheckNotifications(Resources[aResId].iResourceId, 0, 0);
newState = !newState; //state 0
r = lddChan.ChangeResourceStateSync(ClientId[1], Resources[aResId].iResourceId, newState);
test(r == KErrNone);
r = lddChan.CheckNotifications(Resources[aResId].iResourceId, 0,0);
test(r == KErrNone);
r = lddChan.DeRegisterClient(ClientId[1]);
test(r == KErrNone);
newState = 0;
r = lddChan.ChangeResourceStateSync(ClientId[2], Resources[aResId].iResourceId, newState);
test(r == KErrNone);
r = lddChan.CheckNotifications(Resources[aResId].iResourceId, 0,0);
test(r == KErrNone);
r = lddChan.ChangeResourceStateSync(ClientId[0], Resources[aResId].iResourceId, newState);
test(r == KErrNone);
r = lddChan.CheckNotifications(Resources[aResId].iResourceId, 1,1);
test(r == KErrNone);
r = lddChan.CancelNotification(ClientId[2], Resources[aResId].iResourceId, EFalse);
test(r == KErrCancel);
r = lddChan.CancelNotification(ClientId[3], Resources[aResId].iResourceId, ETrue);
test(r == KErrCancel);
newState = 1;
r = lddChan.ChangeResourceStateSync(ClientId[0], Resources[aResId].iResourceId, newState);
test(r == KErrNone);
r = lddChan.CheckNotifications(Resources[aResId].iResourceId, 0, 0);
test(r == KErrNone);
r = lddChan.CancelNotification(ClientId[2], Resources[aResId].iResourceId, ETrue);
test(r == KErrCancel);
newState = 1;
r = lddChan.ChangeResourceStateSync(ClientId[0], Resources[aResId].iResourceId, newState);
test(r == KErrNone);
r = lddChan.CheckNotifications(Resources[aResId].iResourceId, 0, 0);
test(r == KErrNone);
r = lddChan.DeRegisterClient(ClientId[0]);
test(r == KErrNone);
r = lddChan.DeRegisterClient(ClientId[2]);
test(r == KErrNone);
r = lddChan.DeRegisterClient(ClientId[3]);
test(r == KErrNone);
r = lddChan.GetResourceStateSync(ClientId[4], Resources[aResId].iResourceId, ETrue, newState, levelOwnerId);
test(r == KErrNone);
test(levelOwnerId == -1);
r = lddChan.DeRegisterClient(ClientId[4]);
test(r == KErrNone);
return;
}
//----------------------------------------------------------------------------------------------
//! @SYMTestCaseID KBASE-T_RESCONTROLCLI-0594
//! @SYMTestType UT
//! @SYMPREQ PREQ1398
//! @SYMTestCaseDesc This test case tests changing resource state of shared negative resource.
//! @SYMTestActions 0 Register client1
//! 1 Register client2
//! 2 Register client3
//! 3 Register client4
//! 4 Client1 change resource state.
//! 5 Client2 change resource state.
//! 6 Client3 change resource state.
//! 7 Client4 change resource state.
//! 8 Client1 change resource state.
//! 9 Client2 change resource state.
//! 10 Deregister client2
//! 11 Client3 change resource state.
//! 12 Deregister client1
//! 13 Deregister client3
//! 14 Deregister client4
//!
//! @SYMTestExpectedResults 0 Client registered
//! 1 Client registered
//! 2 Client registered
//! 3 Client registered
//! 4 Resource state changed
//! 5 Resource state changed
//! 6 Resource state changed
//! 7 Resource state changed
//! 8 Resource state changed
//! 9 Resource state changed
//! 10 Client2 deregistered
//! 11 Resource state changed
//! 12 Client1 deregistered
//! 13 Client3 deregistered
//! 14 Client4 deregistered
//! @SYMTestPriority High
//! @SYMTestStatus Implemented
//----------------------------------------------------------------------------------------------
void TestRM::SharedBinaryNegativeResourceTesting(TUint aResId)
{
TInt newState;
TInt levelOwnerId;
TRequestStatus req;
TUint ClientId[5];
ClientName[6] = (TUint8)('0' + iMaxClientId+1);
r = lddChan.RegisterClient(ClientId[0], (const TDesC*)&ClientName);
test(r == KErrNone);
r = lddChan.GetResourceStateSync(ClientId[0], Resources[aResId].iResourceId, ETrue, newState, levelOwnerId);
test(r == KErrNone);
if(levelOwnerId != -1)
{
test.Printf(_L("Not testing the shared resource as some other client is currently holding the resource\n"));
r = lddChan.DeRegisterClient(ClientId[0]);
test(r == KErrNone);
return;
}
ClientName[6] = (TUint8)('0' + iMaxClientId +2);
r = lddChan.RegisterClient(ClientId[1], (const TDesC*)&ClientName);
test(r == KErrNone);
ClientName[6] = (TUint8)('0' + iMaxClientId +3);
r = lddChan.RegisterClient(ClientId[2], (const TDesC*)&ClientName);
test(r == KErrNone);
ClientName[6] = (TUint8)('0' + iMaxClientId +4);
r = lddChan.RegisterClient(ClientId[3], (const TDesC*)&ClientName);
test(r == KErrNone);
ClientName[6] = (TUint8)('0' + iMaxClientId +5);
r = lddChan.RegisterClient(ClientId[4], (const TDesC*)&ClientName);
test(r == KErrNone);
newState = 0;
r = lddChan.ChangeResourceStateSync(ClientId[0], Resources[aResId].iResourceId, newState);
test(r == KErrNone);
r = lddChan.CheckNotifications(Resources[aResId].iResourceId, 0, 0);
test(r == KErrNone);
r = lddChan.RequestNotification(ClientId[1], Resources[aResId].iResourceId);
test(r == KErrNone);
r = lddChan.RequestNotification(ClientId[2], Resources[aResId].iResourceId);
test(r == KErrNone);
r = lddChan.RequestNotification(ClientId[3], Resources[aResId].iResourceId, 1, ETrue);
test(r == KErrNone);
r = lddChan.RequestNotification(ClientId[2], Resources[aResId].iResourceId, 0, EFalse);
test(r == KErrNone);
newState = !newState; //State 1
r = lddChan.ChangeResourceStateSync(ClientId[0], Resources[aResId].iResourceId, newState);
test(r == KErrNone);
r = lddChan.CheckNotifications(Resources[aResId].iResourceId, 2, 1);
test(r == KErrNone);
newState = !newState; //State 0
r = lddChan.ChangeResourceStateSync(ClientId[1], Resources[aResId].iResourceId, newState);
test(r == KErrNone);
r = lddChan.CheckNotifications(Resources[aResId].iResourceId, 2, 1);
test(r == KErrNone);
lddChan.ChangeResourceStateAsync(ClientId[2], Resources[aResId].iResourceId, newState, req);
User::WaitForRequest(req); //State 0
test(req.Int() == KErrNone);
r = lddChan.CheckNotifications(Resources[aResId].iResourceId, 0, 0);
test(r == KErrNone);
newState = !newState; //State 1
r = lddChan.ChangeResourceStateSync(ClientId[3], Resources[aResId].iResourceId, newState);
test(r == KErrNone);
r = lddChan.CheckNotifications(Resources[aResId].iResourceId, 0, 0);
test(r == KErrNone);
newState = !newState; //state 0
r = lddChan.ChangeResourceStateSync(ClientId[0], Resources[aResId].iResourceId, newState);
test(r == KErrNone);
r = lddChan.CheckNotifications(Resources[aResId].iResourceId, 0, 0);
newState = !newState; //state 1
r = lddChan.ChangeResourceStateSync(ClientId[1], Resources[aResId].iResourceId, newState);
test(r == KErrNone);
r = lddChan.CheckNotifications(Resources[aResId].iResourceId, 0,0);
test(r == KErrNone);
r = lddChan.DeRegisterClient(ClientId[1]);
test(r == KErrNone);
newState = 1;
r = lddChan.ChangeResourceStateSync(ClientId[2], Resources[aResId].iResourceId, newState);
test(r == KErrNone);
r = lddChan.CheckNotifications(Resources[aResId].iResourceId, 0,0);
test(r == KErrNone);
r = lddChan.ChangeResourceStateSync(ClientId[0], Resources[aResId].iResourceId, newState);
test(r == KErrNone);
r = lddChan.CheckNotifications(Resources[aResId].iResourceId, 1,1);
test(r == KErrNone);
r = lddChan.CancelNotification(ClientId[2], Resources[aResId].iResourceId, EFalse);
test(r == KErrCancel);
r = lddChan.CancelNotification(ClientId[3], Resources[aResId].iResourceId, ETrue);
test(r == KErrCancel);
newState = 1;
r = lddChan.ChangeResourceStateSync(ClientId[0], Resources[aResId].iResourceId, newState);
test(r == KErrNone);
r = lddChan.CheckNotifications(Resources[aResId].iResourceId, 0, 0);
test(r == KErrNone);
r = lddChan.CancelNotification(ClientId[2], Resources[aResId].iResourceId, ETrue);
test(r == KErrCancel);
newState = 1;
r = lddChan.ChangeResourceStateSync(ClientId[0], Resources[aResId].iResourceId, newState);
test(r == KErrNone);
r = lddChan.CheckNotifications(Resources[aResId].iResourceId, 0, 0);
test(r == KErrNone);
r = lddChan.DeRegisterClient(ClientId[0]);
test(r == KErrNone);
r = lddChan.DeRegisterClient(ClientId[2]);
test(r == KErrNone);
r = lddChan.DeRegisterClient(ClientId[3]);
test(r == KErrNone);
r = lddChan.GetResourceStateSync(ClientId[4], Resources[aResId].iResourceId, ETrue, newState, levelOwnerId);
test(r == KErrNone);
test(levelOwnerId == -1);
r = lddChan.DeRegisterClient(ClientId[4]);
test(r == KErrNone);
return;
}
//Test cases to test the shared multilevel negative resources
void TestRM::SharedMultilevelNegativeResourceTesting(TUint aResId)
{
TInt newState;
TInt levelOwnerId;
TRequestStatus req;
TUint ClientId[2];
//Register 1st client
ClientName[6] = (TUint8)('0' + iMaxClientId+1);
r = lddChan.RegisterClient(ClientId[0], (const TDesC*)&ClientName);
test(r == KErrNone);
r = lddChan.GetResourceStateSync(ClientId[0], Resources[aResId].iResourceId, ETrue, newState, levelOwnerId);
test(r == KErrNone);
if(levelOwnerId != -1)
{
test.Printf(_L("Not testing the shared resource as some other client is currently holding the resource\n"));
r = lddChan.DeRegisterClient(ClientId[0]);
test(r == KErrNone);
return;
}
test.Printf(_L("Testing %d Shared Multilevel Negative Resource\n"), Resources[aResId].iResourceId);
//Register 2nd client
ClientName[6] = (TUint8)('0' + iMaxClientId+2);
r = lddChan.RegisterClient(ClientId[1], (const TDesC*)&ClientName);
test(r == KErrNone);
//Change the resource and ClientId[0] becomes the owner of the resource
newState = Resources[aResId].iMaxLevel + 10;
r = lddChan.ChangeResourceStateSync(ClientId[0], Resources[aResId].iResourceId, newState);
test(r == KErrNone);
TInt state;
r = lddChan.GetResourceStateSync(ClientId[0], Resources[aResId].iResourceId, ETrue, state, levelOwnerId);
test(r == KErrNone);
test(state == newState);
test(levelOwnerId = (TInt)ClientId[0]);
//Second client(clientId[1]) trying to change the resource, but still
newState = state +5;
lddChan.ChangeResourceStateAsync(ClientId[1], Resources[aResId].iResourceId, newState, req);
User::WaitForRequest(req);
test(req.Int() == KErrNone);
lddChan.GetResourceStateAsync(ClientId[0], Resources[aResId].iResourceId, EFalse, req, newState, levelOwnerId);
User::WaitForRequest(req);
test(req.Int() == KErrNone);
test(state = newState);
test(levelOwnerId == (TInt)ClientId[0]);
newState = state + 10;
r = lddChan.ChangeResourceStateSync(ClientId[0], Resources[aResId].iResourceId, newState);
test(r == KErrNone);
r = lddChan.GetResourceStateSync(ClientId[0], Resources[aResId].iResourceId, EFalse, state, levelOwnerId);
test(r == KErrNone);
newState = Resources[aResId].iMaxLevel + 15;
test(state == newState);
test(levelOwnerId == (TInt)ClientId[1]);
r = lddChan.DeRegisterClientLevelFromResource(ClientId[1], Resources[aResId].iResourceId);
test(r == KErrNone);
state = Resources[aResId].iMaxLevel + 20;
lddChan.GetResourceStateAsync(ClientId[1], Resources[aResId].iResourceId, ETrue, req, newState, levelOwnerId);
User::WaitForRequest(req);
test(req.Int() == KErrNone);
test(state == newState);
test(levelOwnerId == (TInt)ClientId[0]);
newState = Resources[aResId].iMaxLevel + 10;
lddChan.ChangeResourceStateAsync(ClientId[1], Resources[aResId].iResourceId, newState, req);
User::WaitForRequest(req);
test(req.Int() == KErrNone);
lddChan.GetResourceStateAsync(ClientId[0], Resources[aResId].iResourceId, EFalse, req, state, levelOwnerId);
User::WaitForRequest(req);
test(req.Int() == KErrNone);
test(state == newState);
test(levelOwnerId == (TInt)ClientId[1]);
r = lddChan.DeRegisterClient(ClientId[1]);
test(r == KErrNone);
r = lddChan.DeRegisterClientLevelFromResource(ClientId[0], Resources[aResId].iResourceId);
test(r == KErrNone);
r = lddChan.GetResourceStateSync(ClientId[0], Resources[aResId].iResourceId, EFalse, state, levelOwnerId);
test(r == KErrNone);
test(state == Resources[aResId].iDefaultLevel);
test(levelOwnerId == -1);
r = lddChan.DeRegisterClient(ClientId[0]);
test(r == KErrNone);
return;
}
//Test cases to test the shared multilevel positive resources
void TestRM::SharedMultilevelPositiveResourceTesting(TUint aResId)
{
TInt newState;
TInt levelOwnerId;
TRequestStatus req;
TUint ClientId[2];
//Register 1st client
ClientName[6] = (TUint8)('0' + iMaxClientId+1);
r = lddChan.RegisterClient(ClientId[0], (const TDesC*)&ClientName);
test(r == KErrNone);
r = lddChan.GetResourceStateSync(ClientId[0], Resources[aResId].iResourceId, ETrue, newState, levelOwnerId);
test(r == KErrNone);
if(levelOwnerId != -1)
{
test.Printf(_L("Not testing the shared resource as some other client is currently holding the resource\n"));
r = lddChan.DeRegisterClient(ClientId[0]);
test(r == KErrNone);
return;
}
test.Printf(_L("Testing %d Shared Multilevel positive Resource\n"), Resources[aResId].iResourceId);
//Register 2nd client
ClientName[6] = (TUint8)('0' + iMaxClientId+2);
r = lddChan.RegisterClient(ClientId[1], (const TDesC*)&ClientName);
test(r == KErrNone);
//Change the resource and ClientId[0] becomes the owner of the resource
newState = Resources[aResId].iMinLevel + 20;
r = lddChan.ChangeResourceStateSync(ClientId[0], Resources[aResId].iResourceId, newState);
test(r == KErrNone);
TInt state;
r = lddChan.GetResourceStateSync(ClientId[0], Resources[aResId].iResourceId, ETrue, state, levelOwnerId);
test(r == KErrNone);
test(state == newState);
test(levelOwnerId = (TInt)ClientId[0]);
//Second client(clientId[1]) trying to change the resource, but still
newState = Resources[aResId].iMinLevel +10;
lddChan.ChangeResourceStateAsync(ClientId[1], Resources[aResId].iResourceId, newState, req);
User::WaitForRequest(req);
test(req.Int() == KErrNone);
lddChan.GetResourceStateAsync(ClientId[0], Resources[aResId].iResourceId, EFalse, req, newState, levelOwnerId);
User::WaitForRequest(req);
test(req.Int() == KErrNone);
test(state = newState);
test(levelOwnerId == (TInt)ClientId[0]);
newState = Resources[aResId].iMinLevel + 5;
r = lddChan.ChangeResourceStateSync(ClientId[0], Resources[aResId].iResourceId, newState);
test(r == KErrNone);
r = lddChan.GetResourceStateSync(ClientId[0], Resources[aResId].iResourceId, EFalse, state, levelOwnerId);
test(r == KErrNone);
test(state == Resources[aResId].iMinLevel+10);
test(levelOwnerId == (TInt)ClientId[1]);
r = lddChan.DeRegisterClientLevelFromResource(ClientId[1], Resources[aResId].iResourceId);
test(r == KErrNone);
newState = Resources[aResId].iMinLevel + 5;
lddChan.GetResourceStateAsync(ClientId[1], Resources[aResId].iResourceId, ETrue, req, state, levelOwnerId);
User::WaitForRequest(req);
test(req.Int() == KErrNone);
test(state == newState);
test(levelOwnerId == (TInt)ClientId[0]);
newState = Resources[aResId].iMinLevel + 10;
lddChan.ChangeResourceStateAsync(ClientId[1], Resources[aResId].iResourceId, newState, req);
User::WaitForRequest(req);
test(req.Int() == KErrNone);
lddChan.GetResourceStateAsync(ClientId[0], Resources[aResId].iResourceId, EFalse, req, state, levelOwnerId);
User::WaitForRequest(req);
test(req.Int() == KErrNone);
test(state == newState);
test(levelOwnerId == (TInt)ClientId[1]);
r = lddChan.DeRegisterClient(ClientId[1]);
test(r == KErrNone);
r = lddChan.DeRegisterClientLevelFromResource(ClientId[0], Resources[aResId].iResourceId);
test(r == KErrNone);
r = lddChan.GetResourceStateSync(ClientId[0], Resources[aResId].iResourceId, EFalse, state, levelOwnerId);
test(r == KErrNone);
test(state == Resources[aResId].iDefaultLevel);
test(levelOwnerId == -1);
r = lddChan.DeRegisterClient(ClientId[0]);
test(r == KErrNone);
return;
}
//Custom resource testing. This testing is done only with simulated resources.
//Testing of shared binary positive resource.
//----------------------------------------------------------------------------------------------
//! @SYMTestCaseID KBASE-T_RESCONTROLCLI-0593
//! @SYMTestType UT
//! @SYMPREQ PREQ1398
//! @SYMTestCaseDesc This test case tests changing resource state of shared positive resource.
//! @SYMTestActions 0 Register client1
//! 1 Register client2
//! 2 Register client3
//! 3 Register client4
//! 4 Client1 change resource state.
//! 5 Client2 change resource state.
//! 6 Client3 get resource state.
//! 7 Client4 get resource state.
//! 8 Client1 change resource state.
//! 9 Client2 get resource state.
//! 10 Deregister client2
//! 11 Deregister client1
//! 12 Deregister client3
//! 13 Deregister client4
//!
//! @SYMTestExpectedResults 0 Client registered
//! 1 Client registered
//! 2 Client registered
//! 3 Client registered
//! 4 Resource state changed
//! 5 Resource state changed
//! 6 Resource state read and compared for correctness
//! 7 Resource state read and compared for correctness
//! 8 Resource state changed
//! 9 Resource state read and compared for correctness
//! 10 Client2 deregistered
//! 11 Client1 deregistered
//! 12 Client3 deregistered
//! 13 Client4 deregistered
//! @SYMTestPriority High
//! @SYMTestStatus Implemented
//----------------------------------------------------------------------------------------------
void TestRM::CustomResourceTesting(TUint aResId)
{
test.Printf(_L("Testing custom function\n"));
TInt r = KErrNone;
TRequestStatus req;
TInt state;
TInt newState;
TInt levelOwnerId;
TUint ClientId[4];
ClientName[6] = (TUint8)('0' + iMaxClientId +1);
r = lddChan.RegisterClient(ClientId[0], (const TDesC*)&ClientName);
test(r == KErrNone);
ClientName[6] = (TUint8)('0' + iMaxClientId +2);
r = lddChan.RegisterClient(ClientId[1], (const TDesC*)&ClientName);
test(r == KErrNone);
ClientName[6] = (TUint8)('0' + iMaxClientId +3);
r = lddChan.RegisterClient(ClientId[2], (const TDesC*)&ClientName);
test(r == KErrNone);
ClientName[6] = (TUint8)('0' + iMaxClientId +4);
r = lddChan.RegisterClient(ClientId[3], (const TDesC*)&ClientName);
test(r == KErrNone);
r = lddChan.RequestNotification(ClientId[0], Resources[aResId].iResourceId);
test(r == KErrNone);
r = lddChan.RequestNotification(ClientId[1], Resources[aResId].iResourceId);
test(r == KErrNone);
newState = 1;
state = 1;
lddChan.ChangeResourceStateAsync(ClientId[2], Resources[aResId].iResourceId, state, req);
User::WaitForRequest(req); //State 1
test(req.Int() == KErrNone);
test(state == newState);
test(r == KErrNone);
r = lddChan.CheckNotifications(Resources[aResId].iResourceId, 2, 0);
test(r == KErrNone);
state = 0;
lddChan.ChangeResourceStateAsync(ClientId[1], Resources[aResId].iResourceId, state, req);
User::WaitForRequest(req);
test(req.Int() == KErrNone);
test(state == newState);
r = lddChan.GetResourceStateSync(ClientId[0], Resources[aResId].iResourceId, EFalse, state, levelOwnerId);
test(r == KErrNone);
test(state == 1);
lddChan.ChangeResourceStateAsync(ClientId[0], Resources[aResId].iResourceId, state, req);
User::WaitForRequest(req);
test(req.Int() == KErrNone);
test(state == newState);
r = lddChan.GetResourceStateSync(ClientId[0], Resources[aResId].iResourceId, ETrue, state, levelOwnerId);
test(r == KErrNone);
test((TUint)levelOwnerId == ClientId[2]);
r = lddChan.ChangeResourceStateSync(ClientId[2], Resources[aResId].iResourceId, 0);
test(r == KErrNone);
r = lddChan.GetResourceStateSync(ClientId[0], Resources[aResId].iResourceId, EFalse, state, levelOwnerId);
test(r == KErrNone);
test(state == 1);
test((TUint)levelOwnerId == ClientId[0]);
r = lddChan.DeRegisterClient(ClientId[0]);
test(r == KErrNone);
r = lddChan.DeRegisterClientLevelFromResource(ClientId[1], Resources[aResId].iResourceId);
test(r == KErrNone);
r= lddChan.DeRegisterClient(ClientId[2]);
test(r == KErrNone);
r = lddChan.GetResourceStateSync(ClientId[3], Resources[aResId].iResourceId, ETrue, state, levelOwnerId);
test(r == KErrNone);
test(levelOwnerId == -1);
r = lddChan.DeRegisterClient(ClientId[3]);
test(r == KErrNone);
r = lddChan.DeRegisterClient(ClientId[1]);
test(r == KErrNone);
return;
}
//Resource manager operations are chosen randomly and tested for correctness. This is done only in
//simulated resources. Currently this runs for 500 iteration.
//NOTE: Increasing the iteration to more than 500 may fail due to insufficient internal buffers.
void TestRM::RegressionTest()
{
TUint operation = 0;
TUint resourceId;
TUint count;
NegativeTesting = 0;
iMaxClientId = 0;
iMaxStaticResources = 0;
iMaxStaticDependentResources = 0;
iMaxClients = 0;
RmTest.RegisterClient();
iCurrentClientId = -1;
r = lddChan.GetResourceControllerVersion(Clients[0].iClientId, iTestingExtendedVersion);
if(r != KErrNone)
test.Printf(_L("Return value of GetResourceControllerVersion %d\n"), r);
test(r == KErrNone);
if(!iTestingExtendedVersion)
test.Printf(_L("Testing Basic Version only...."));
else
test.Printf(_L("Testing basic & extended version...."));
RmTest.GetNumResourcesInUseByClient(iCurrentClientId);
RmTest.GetInfoOnResourcesInUseByClient(iCurrentClientId, iMaxStaticResources);
if(!(Resources[0].iName.Compare(*(const TDesC8*)&SpecialResName)))
{
TBuf8<32> PowerController = _L8("PowerController");
r = lddChan.GetClientId(Clients[0].iClientId, (TDesC8&)PowerController, iPowerControllerId);
test(r == KErrNone);
}
else
{
test.Printf(_L("Regression testing is run only on simulator"));
return;
}
for(count = 0; count < 500; count++)
{
operation = Math::Random() % EOperationEnd;
iCurrentClientId = Math::Random() % iMaxClients;
resourceId = Math::Random() % iMaxStaticResources;
if(operation != ERegisterClient)
{
if(Clients[iCurrentClientId].iClientId == 0) //Not a valid client
continue;
}
if(Resources[resourceId].iSense == ECustom)
continue;
test.Printf(_L("\nOperation = %d, ClientId = %d, ResourceId = %d\n"), operation, iCurrentClientId, resourceId);
switch (operation)
{
case ERegisterClient:
RmTest.RegisterClient();
break;
case EGetClientName:
RmTest.GetClientName(iCurrentClientId);
break;
case EGetAllClientName:
RmTest.GetClientName(0);
break;
case EGetClientId:
RmTest.GetClientId(iCurrentClientId);
break;
case EGetResourceId:
RmTest.GetResourceId(resourceId);
break;
case EGetResourceInfo:
RmTest.GetResourceInfo(resourceId);
break;
case EGetNumReosourceInUseByClient:
RmTest.GetNumResourcesInUseByClient(iCurrentClientId);
break;
case EGetInfoOnResourceInUseByClient:
test.Printf(_L("NumResources = %d\n"), Clients[iCurrentClientId].iNumResources);
RmTest.GetInfoOnResourcesInUseByClient(iCurrentClientId, Clients[iCurrentClientId].iNumResources);
break;
case EGetNumClientsUsingResource:
if(resourceId == 0)
{
RmTest.GetNumClientsUsingResource(iCurrentClientId, (TUint)-1);
}
else
{
RmTest.GetNumClientsUsingResource(iCurrentClientId, resourceId);
}
break;
case EGetInfoOnClientsUsingResource:
if(resourceId == 0)
RmTest.GetInfoOnClientsUsingResource((TUint)-1, iMaxClients+1);
else
{
test.Printf(_L("NumResources = %d\n"), Resources[resourceId].iNumClients);
RmTest.GetInfoOnClientsUsingResource(resourceId, Resources[resourceId].iNumClients);
}
break;
case EChangeResourceStateSync:
RmTest.ChangeResourceStateSync(resourceId);
break;
case EChangeResourceStateAsync:
RmTest.ChangeResourceStateAsync(resourceId);
break;
case EGetResourceStateSync:
RmTest.GetResourceStateSync(resourceId);
break;
case EGetResourceStateAsync:
RmTest.GetResourceStateAsync(resourceId);
break;
case ERequestNotificationCond:
RmTest.RequestNotificationCon(resourceId);
break;
case ERequestNotificationUnCond:
RmTest.RequestNotification(resourceId);
break;
case ECancelNotificationCond:
RmTest.CancelNotification(resourceId, ETrue);
break;
case ECancelNotificationUnCond:
RmTest.CancelNotification(resourceId, EFalse);
break;
}
}
//CleanUp
test.Printf(_L("Cleanup of all Clients\n"));
TInt clientCount = Clients.Count();
for(count = clientCount-1; ((TInt)count) >=0; count--)
{
if(Clients[count].iClientId == 0)
continue;
test.Printf(_L("ClientId deregistration of %d\n"), Clients[count].iClientId);
RmTest.DeRegisterClient(count);
}
Clients.Close();
}
void TestClientSettings(TInt aClientToken, TUint aExpectedBase)
{
TUint clientBase = ElementId_ClientSettingBase(aClientToken);
test(clientBase == aExpectedBase);
HCR::TElementId Id;
Id = ElementId_ClientName(aClientToken);
test(Id == aExpectedBase);
Id = ElementId_ClientPropertyFlag(aClientToken);
test(Id == (aExpectedBase + 1));
Id = ElementId_ClientPreallocation(aClientToken);
test(Id == (aExpectedBase + 2));
TInt firstResource = 0;
Id = ElementId_ClientStaticResource(aClientToken, firstResource);
test(Id == (aExpectedBase + 3));
TInt thirdResource = 2;
Id = ElementId_ClientStaticResource(aClientToken, thirdResource);
test(Id == (aExpectedBase + 5));
}
void TestDynamicResourceSettings(TInt aDynamicResource, TUint aExpectedBase)
{
TUint dynamicResourceBase = ElementId_DynamicResourceBase(aDynamicResource);
test(dynamicResourceBase == aExpectedBase);
HCR::TElementId Id;
Id = ElementId_DynamicResourceName(aDynamicResource);
test(Id == aExpectedBase);
Id = ElementId_DynamicResourcePropertyFlag(aDynamicResource);
test(Id == (aExpectedBase + 1));
Id = ElementId_DynamicResourceMaxLevel(aDynamicResource);
test(Id == (aExpectedBase + 2));
Id = ElementId_DynamicResourceMinLevel(aDynamicResource);
test(Id == (aExpectedBase + 3));
Id = ElementId_DynamicResourceDefaultLevel(aDynamicResource);
test(Id == (aExpectedBase + 4));
Id = ElementId_DynamicResourceDependencyMask1(aDynamicResource);
test(Id == (aExpectedBase + 5));
Id = ElementId_DynamicResourceDependencyMask2(aDynamicResource);
test(Id == (aExpectedBase + 6));
Id = ElementId_DynamicResourceDependencyMask3(aDynamicResource);
test(Id == (aExpectedBase + 7));
}
void TestClientHCRSettingMacros()
{
TInt clientToken = 2; // Random token number
TUint expectedBase = 80; // refer resourcecontrol_clientsettings.h for calculations
TestClientSettings(clientToken, expectedBase);
clientToken = 0;
expectedBase = 16; // refer resourcecontrol_clientsettings.h for calculations
TestClientSettings(clientToken, expectedBase);
// Dynamic Resource settings
TUint dynamicResource = 3; // Random token number
expectedBase = 131168; // refer resourcecontrol_clientsettings.h for calculations
TestDynamicResourceSettings(dynamicResource, expectedBase);
test.Printf(_L("Testing HCR client setting Macro's for Resource Manager successful \n"));
}
GLDEF_C TInt E32Main()
{
test.Title();
test.Start(_L("Testing Resource Manager...\n"));
test.Printf(_L("Testing HCR client setting Macro's for Resource Manager \n"));
TestClientHCRSettingMacros();
//
test.Printf(_L("TEST SKIPPED UNTIL FIX FOR DEF145087 IS AVAILABLE TO PREVENT CRASHING\n"));
test(0);
//
test.Next(_L("Load Physical device"));
#ifndef PRM_ENABLE_EXTENDED_VERSION
r = User::LoadPhysicalDevice(KPddFileName);
test(r==KErrNone || r==KErrAlreadyExists);
test.Next(_L("Load Logical Device"));
r=User::LoadLogicalDevice(KLddFileName);
test(r==KErrNone || r==KErrAlreadyExists);
__KHEAP_MARK; //Heap testing is done only for basic version
#else
r = User::LoadPhysicalDevice(KExtPddFileName);
test(r==KErrNone || r==KErrAlreadyExists);
test.Next(_L("Load Logical Device"));
r=User::LoadLogicalDevice(KExtLddFileName);
test(r==KErrNone || r==KErrAlreadyExists);
#endif
r = lddChan.Open();
test(r==KErrNone || r==KErrAlreadyExists);
//Check whether the notifications recieved as a result of postboot level setting is as expected.
r = lddChan.CheckPostBootLevelNotifications();
test(r == KErrNone);
TBool regressionTesting = EFalse;
//Parse the command line arguments.
TBuf<0x50> cmd;
User::CommandLine(cmd);
TLex lex(cmd);
lex.SkipSpace();
if(lex.Get() == '-')
{
TChar letter = lex.Get();
if((letter == 'R') || (letter == 'r'))
regressionTesting = ETrue;
}
if(regressionTesting)
RmTest.RegressionTest();
else
RmTest.APIValidationTest();
test.Printf(_L("Closing the channel\n"));
lddChan.Close();
test.Printf(_L("Freeing logical device\n"));
#ifndef PRM_ENABLE_EXTENDED_VERSION
__KHEAP_MARKEND;
r = User::FreeLogicalDevice(KLddFileName);
test(r==KErrNone);
r = User::FreePhysicalDevice(KPddFileName);
test(r==KErrNone);
#else
r = User::FreeLogicalDevice(KExtLddFileName);
test(r==KErrNone);
r = User::FreePhysicalDevice(KExtPddFileName);
test(r==KErrNone);
#endif
User::After(100000);
test.End();
test.Close();
return KErrNone;
}