// 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:
// e32\include\drivers\resourcecontrol.inl
//
// WARNING: This file contains some APIs which are internal and are subject
// to change without noticed. Such APIs should therefore not be used
// outside the Kernel and Hardware Services package.
//
/* The Driver's Version */
inline TVersion DResConPddFactory::VersionRequired()
{
const TInt KResConMajorVersionNumber=1;
const TInt KResConMinorVersionNumber=0;
const TInt KResConBuildVersionNumber=KE32BuildVersionNumber;
return TVersion(KResConMajorVersionNumber,KResConMinorVersionNumber,KResConBuildVersionNumber);
}
/** Second stage constructor
Allocates the specified size in kernel heap and creates a virtual link */
template <class T>
inline TInt DResourceCon<T>::Initialise(TInt aInitialSize)
{
__KTRACE_OPT(KRESMANAGER, Kern::Printf(">DResourceCon<T>::Initialise"));
__KTRACE_OPT(KRESMANAGER, Kern::Printf("aInitialSize %d", aInitialSize));
//Allocate memory for size specified.
if(aInitialSize != 0)
{
iArray = (T**) new (T*[aInitialSize]);
if((!iArray))
{
__KTRACE_OPT(KRESMANAGER, Kern::Printf("No Sufficient memory for iArray allocation"));
return KErrNoMemory;
}
//Create a virtual link by storing in each array position the index of next higher free location
for(TInt c = 0; c < aInitialSize; c++)
iArray[c] = (T*)(c+1);
}
iAllocated = (TUint16)aInitialSize;
iGrowBy = (TUint16) (aInitialSize < 2 ? aInitialSize : aInitialSize/2);
iCount = 0;
iInstanceCount = 0;
iFreeLoc = 0;
__KTRACE_OPT(KRESMANAGER, Kern::Printf("<DResourceCon<T>::Initialise"));
#ifdef PRM_INSTRUMENTATION_MACRO
if(aInitialSize)
{
TUint size = aInitialSize * 4;
PRM_MEMORY_USAGE_TRACE
}
#endif
return KErrNone;
}
/** Resize the array */
template <class T>
inline TInt DResourceCon<T>::ReSize(TInt aGrowBy)
{
__KTRACE_OPT(KRESMANAGER, Kern::Printf(">DResourceCon<T>::ReSize"));
__KTRACE_OPT(KRESMANAGER, Kern::Printf("aGrowBy %d\n", aGrowBy));
// Allocate memory for already existing + new required size.
TInt r = Kern::SafeReAlloc((TAny*&)iArray, iAllocated * sizeof(T*), (iAllocated+aGrowBy)*sizeof(T*));
if(r != KErrNone)
return r;
TInt c = iAllocated;
//Virtually link the free ones
while(c<(iAllocated+aGrowBy))
{
iArray[c]=(T*)(c+1);
c++;
}
iAllocated = TUint16(iAllocated + aGrowBy);
#ifdef PRM_INSTRUMENTATION_MACRO
TUint size = aGrowBy*4;
PRM_MEMORY_USAGE_TRACE
#endif
__KTRACE_OPT(KRESMANAGER, Kern::Printf("< DResourceCon<T>::ReSize, iAllocated = %d", iAllocated));
return KErrNone;
}
/** Delete the allocated array */
template <class T>
inline void DResourceCon<T>::Delete()
{
delete []iArray;
iArray = NULL;
}
/** Find the object at the specified location */
template <class T>
inline T* DResourceCon<T>::operator[](TInt anIndex)
{
__KTRACE_OPT(KRESMANAGER, Kern::Printf(">DResourceCon<T>::operator[], anIndex = %d", anIndex));
// Check if passed index is inside allocated range and is not free.
if(anIndex>=iAllocated || (((TUint)iArray[anIndex])<=iAllocated))
return NULL;
return iArray[anIndex];
}
/** Remove the specified object from the container */
template <class T>
inline TInt DResourceCon<T>::Remove(T* /*aObj */, TInt aIndex)
{
__KTRACE_OPT(KRESMANAGER, Kern::Printf(">DResourceCon<T>::Remove"));
if(aIndex>=(TInt)iAllocated)
{
__KTRACE_OPT(KRESMANAGER, Kern::Printf("Object not found, iAllocated = %d, index = %d", iAllocated, aIndex));
DPowerResourceController::Panic(DPowerResourceController::EObjectNotFoundInList);
}
// Add the entry to the free location
iArray[aIndex] = (T*)iFreeLoc;
iFreeLoc = (TUint16)aIndex;
iCount--; //Decrement valid client count
__KTRACE_OPT(KRESMANAGER, Kern::Printf(">DResourceCon<T>::Remove"));
return KErrNone;
}
/** Add the specified object into the container */
template <class T>
inline TInt DResourceCon<T>::Add(T* aObj, TUint &aId)
{
__KTRACE_OPT(KRESMANAGER, Kern::Printf(">DResourceCon<T>::Add"));
//Check for array full
if(iFreeLoc == iAllocated)
return KErrNoMemory;
//Update in the array in the free location
aId = ((++iInstanceCount & INSTANCE_COUNT_BIT_MASK) << INSTANCE_COUNT_POS); //Instance count
aId |= (iFreeLoc & ID_INDEX_BIT_MASK); //Array index
TUint nextFreeLoc = (TUint)iArray[iFreeLoc];
iArray[iFreeLoc] = aObj;
iFreeLoc = (TUint16)nextFreeLoc;
__KTRACE_OPT(KRESMANAGER, Kern::Printf("iFreeLoc %d", iFreeLoc));
iCount++; //Increment the valid client count
return KErrNone;
}
/** Find the entry with specified name and update in anEntry */
template <class T>
inline TInt DResourceCon<T>::Find(T*& anEntry, TDesC8& aName)
{
__KTRACE_OPT(KRESMANAGER, Kern::Printf(">DResourceCon<T>::Find, aName %S", &aName));
anEntry = NULL;
T* pC=anEntry;
for(TInt count = 0; count < (TInt)iAllocated; count++)
{
/* Check whether the location is free */
if(((TUint)iArray[count]) <= iAllocated)
continue;
pC=(T*)iArray[count];
if(!aName.Compare(*(const TDesC8*)pC->iName))
{
anEntry=pC;
__KTRACE_OPT(KRESMANAGER, Kern::Printf("<DResourceCon<T>::Find, Entry Found"));
return KErrNone;
}
}
__KTRACE_OPT(KRESMANAGER, Kern::Printf("<DResourceCon<T>::Find, Entry Not Found"));
return KErrNotFound;
}