1 // Copyright (c) 2008-2009 Nokia Corporation and/or its subsidiary(-ies).

     2 // All rights reserved.

     3 // This component and the accompanying materials are made available

     4 // under the terms of the License "Eclipse Public License v1.0"

     5 // which accompanies this distribution, and is available

     6 // at the URL "http://www.eclipse.org/legal/epl-v10.html".

     7 //

     8 // Initial Contributors:

     9 // Nokia Corporation - initial contribution.

    10 //

    11 // Contributors:

    12 //

    13 // Description:

    14 // f32\sfile\sf_memory_man.cpp

    15 // 

    16 //

    17 

    18 /**

    19  @file

    20  @internalTechnology

    21 */

    22 

    23 

    24 #include <e32std.h>

    25 #include <e32std_private.h>

    26 #include "sf_std.h"

    27 #include <e32uid.h>

    28 #include <e32wins.h>

    29 #include <f32file.h>

    30 #include <hal.h>

    31 #include "sf_memory_man.h"

    32 #include "sf_memory_client.h"

    33 

    34 /**

    35 Destructor of the CCacheMemoryManager, need to destroy all registered clients.

    36 */

    37 CCacheMemoryManager::~CCacheMemoryManager()

    38 	{

    39 	for (TInt i = 0; i < iRegisteredClients.Count(); i++)

    40 		{

    41 		iRegisteredClients[i]->Reset();

    42 		delete iRegisteredClients[i];

    43 		}

    44 	iRegisteredClients.Close();

    45 	}

    46 

    47 /**

    48 Static factory function of CCacheMemoryManager

    49 @param	aCacheSize	the total size of the virtual address space

    50 */

    51 CCacheMemoryManager* CCacheMemoryManager::NewL(TInt aCacheSize)

    52 	{

    53 	CCacheMemoryManager* cacheMemoryManager = new (ELeave) CCacheMemoryManager(aCacheSize);

    54 

    55 	CleanupStack::PushL(cacheMemoryManager);

    56 	cacheMemoryManager->ConstructL();

    57 	CleanupStack::Pop(1, cacheMemoryManager);

    58 

    59 	return cacheMemoryManager;

    60 	}

    61 

    62 /**

    63 Constructor of CCacheMemoryManager

    64 @param	aMaxSize	the total size of the virtual address space

    65 */

    66 CCacheMemoryManager::CCacheMemoryManager(TUint32 aMaxSize)

    67 :iBase(NULL),

    68 iSizeInBytes(aMaxSize),

    69 iCurrentOffsetMark(0)

    70 	{

    71 	}

    72 

    73 /**

    74 Second phase constructor of CCacheMemoryManager.

    75 Creates RChunk object and sets low memory threshold.

    76 */

    77 void CCacheMemoryManager::ConstructL()

    78 	{

    79 	// calculate the low-memory threshold below which we fail any attempt to allocate memory

    80 	TMemoryInfoV1Buf meminfo;

    81 	TInt r = UserHal::MemoryInfo(meminfo);

    82 	ASSERT(r==KErrNone);

    83 	User::LeaveIfError(r);

    84 	iLowMemoryThreshold = (meminfo().iTotalRamInBytes * TGlobalCacheMemorySettings::LowMemoryThreshold()) / 100;

    85 	TChunkCreateInfo createInfo;

    86 	createInfo.SetCache(iSizeInBytes);

    87 	createInfo.SetOwner(EOwnerProcess);

    88 	r = iChunk.Create(createInfo);

    89 	ASSERT(r==KErrNone);

    90 	User::LeaveIfError(r);

    91 	UserSvr::RegisterTrustedChunk(iChunk.Handle());

    92 	iBase = iChunk.Base();

    93 	iRegisteredClients.ReserveL(10);

    94 	__PRINT3(_L("CCacheMemoryManager::ConstructL(lowMem=%d, iSize=%d, base=0x%lx)"), iLowMemoryThreshold, iSizeInBytes, iBase);

    95 	}

    96 

    97 /**

    98 Connect or register a client.

    99 Note: callers of this function should be constructor of various caches, it is their resposibility

   100 	to make sure that parameters are sensible when calling this function

   101 

   102 @internalTechnology

   103 @released

   104 

   105 @param	aClientName	an identifier of the client to be connected

   106 @param	aMinSizeInSegs	minimum client size in segments

   107 @param	aMaxSizeInSegs	maximum client size in segments

   108 @return	CCacheMemoryClient*	pointer to the client that connected, or NULL if parameters are not valid.

   109 @leave	if no memory

   110 */

   111 EXPORT_C CCacheMemoryClient* CCacheMemoryManager::ConnectClientL(const TDesC& aClientName, TUint32 aMinSizeInSegs, TUint32 aMaxSizeInSegs)

   112 	{

   113 	__PRINT3(_L("CCacheMemoryManager::ConnectClientL: [%S], minSeg=%d, maxSeg=%d"), &aClientName, aMinSizeInSegs, aMaxSizeInSegs);

   114 	for (TInt i = 0; i < iRegisteredClients.Count(); i++)

   115 		{

   116 		if (aClientName.Compare(iRegisteredClients[i]->Name()) == 0)

   117 			{

   118 			ASSERT(iRegisteredClients[i]->iTouchedRegionFlag == 0);

   119 			__PRINT1(_L("CCacheMemoryManager::ConnectClientL: [%S] found!"), &aClientName);

   120 			return iRegisteredClients[i];

   121 			}

   122 		}

   123 

   124 	// parameter validation

   125 	ASSERT(iSizeInBytes > iCurrentOffsetMark + (aMaxSizeInSegs << SegmentSizeInBytesLog2()));

   126 	if (iSizeInBytes < iCurrentOffsetMark + (aMaxSizeInSegs << SegmentSizeInBytesLog2()))

   127 		{

   128 		ASSERT(0);

   129 		return NULL;

   130 		}

   131 	

   132 	// if not found in registered clients, creates new

   133 	// this may leave under OOM condition

   134 	CCacheMemoryClient* client = CCacheMemoryClient::NewL(*this, aClientName, iCurrentOffsetMark, aMinSizeInSegs, aMaxSizeInSegs);

   135 

   136 	// if error happens during client registration, the client will be deleted

   137 	// this may leave under OOM condition

   138 	TInt err = iRegisteredClients.Append(client);

   139 	if (err != KErrNone)

   140 		{

   141 		ASSERT(0);

   142 		delete client;

   143 		client = NULL;

   144 		User::Leave(err);

   145 		}

   146 

   147 	// record current offset mark for next client

   148 	iCurrentOffsetMark += (aMaxSizeInSegs << SegmentSizeInBytesLog2());

   149 	return client;

   150 	}

   151 

   152 /**

   153 Commit a contiguous set of segments.

   154 @param	aStartRamAddr	the start ram address of the region to be committed.

   155 @param	aSegmentCount	the segment number of the contiguous region to be committed.

   156 @return	TInt	KErrNone if succeeded, KErrNoMemory if passed low memory threshold, otherwise a system-wide error code.

   157 */

   158 TInt CCacheMemoryManager::AllocateAndLockSegments(TUint8* aStartRamAddr, TInt aSegmentCount)

   159 	{

   160 	__PRINT2(_L("CCacheMemoryManager::AllocateAndLockSegments: base=0x%x, seg=%d"), aStartRamAddr, aSegmentCount);

   161 	TMemoryInfoV1Buf meminfo;

   162 	TInt r = UserHal::MemoryInfo(meminfo);

   163 	__ASSERT_DEBUG(r==KErrNone,Fault(EMemoryInfoFailed));

   164 	if (r != KErrNone)

   165 		{

   166 		return r;

   167 		}

   168 

   169 	if (isMemoryLow || (meminfo().iFreeRamInBytes < iLowMemoryThreshold))

   170 		{

   171 		__PRINT(_L("CCacheMemoryManager: free RAM below threshold !!!"));

   172 		return KErrNoMemory;

   173 		}

   174 	return Commit(aStartRamAddr, aSegmentCount);

   175 	}

   176 

   177 /**

   178 Notify the change of memory status

   179 @param	aIsMemoryLow	the flag that sets current memory status

   180 */

   181 void CCacheMemoryManager::FreeMemoryChanged(TBool aIsMemoryLow)

   182 	{

   183 	isMemoryLow = aIsMemoryLow;

   184 	}

   185 

   186 /**

   187 Decommit a contiguous set of segments.

   188 @param	aStartRamAddr	the start ram address of the region to be decommitted.

   189 @param	aSegmentCount	the segment number of the contiguous region to be decommitted.

   190 @return	TInt	KErrNone if succeeded, otherwise a system-wide error code.

   191 */

   192 TInt CCacheMemoryManager::DecommitSegments(TUint8* aStartRamAddr, TUint32 aSegmentCount)

   193 	{

   194 	return Decommit(aStartRamAddr, aSegmentCount);

   195 	}

   196 

   197 /**

   198 Lock a contiguous set of segments.

   199 @param	aStartRamAddr	the start ram address of the region to be locked.

   200 @param	aSegmentCount	the segment number of the contiguous region to be locked.

   201 @return	TInt	KErrNone if succeeded, otherwise a system-wide error code.

   202 */

   203 TInt CCacheMemoryManager::LockSegments(TUint8* aStartRamAddr, TUint32 aSegmentCount)

   204 	{

   205 	return Lock(aStartRamAddr, aSegmentCount);

   206 	}

   207 

   208 /**

   209 Unlock a contiguous set of segments.

   210 @param	aStartRamAddr	the start ram address of the region to be unlocked.

   211 @param	aSegmentCount	the segment number of the contiguous region to be unlocked.

   212 @return	TInt	KErrNone if succeeded, otherwise a system-wide error code.

   213 */

   214 TInt CCacheMemoryManager::UnlockSegments(TUint8* aStartRamAddr, TUint32 aSegmentCount)

   215 	{

   216 	return Unlock(aStartRamAddr, aSegmentCount);

   217 	}

   218 

   219 /**

   220 Commit a contiguous set of segments.

   221 @param	aStartRamAddr	the start ram address of the region to be committed.

   222 @param	aSegmentCount	the segment number of the contiguous region to be committed.

   223 @return	TInt	KErrNone if succeeded, otherwise a system-wide error code.

   224 */

   225 TInt CCacheMemoryManager::Commit(TUint8* aStartRamAddr, TInt aSegmentCount)

   226 	{

   227 	TInt offset = aStartRamAddr - iBase;

   228 	TInt r = iChunk.Commit(offset, aSegmentCount << KSegmentSizeLog2);

   229 	return r;

   230 	}

   231 

   232 /**

   233 Actual implementation of DecommitSegments().

   234 @see CCacheMemoryManager::DecommitSegments().

   235 */

   236 TInt CCacheMemoryManager::Decommit(TUint8* aStartRamAddr, TInt aSegmentCount)

   237 	{

   238 	return iChunk.Decommit(aStartRamAddr - iBase, aSegmentCount << KSegmentSizeLog2);

   239 	}

   240 

   241 /**

   242 Actual implementation of UnlockSegments().

   243 @see CCacheMemoryManager::UnlockSegments().

   244 */

   245 TInt CCacheMemoryManager::Unlock(TUint8* aStartRamAddr, TInt aSegmentCount)

   246 	{

   247 	TInt r = iChunk.Unlock(aStartRamAddr - iBase, aSegmentCount << KSegmentSizeLog2);

   248 	return r;

   249 	}

   250 

   251 /**

   252 Actual implementation of LockSegments().

   253 @see CCacheMemoryManager::LockSegments().

   254 */

   255 TInt CCacheMemoryManager::Lock(TUint8* aStartRamAddr, TInt aSegmentCount)

   256 	{

   257 	return iChunk.Lock(aStartRamAddr - iBase, aSegmentCount << KSegmentSizeLog2);

   258 	}

   259 

   260 

   261 //=====================================================================

   262 TUint8* CCacheMemoryManager::Base()

   263 	{

   264 	return iChunk.Base();

   265 	}

   266 

   267 /**

   268 Get function, returns log2 value of a segment size in bytes.

   269 

   270 @internalTechnology

   271 @released

   272 */

   273 EXPORT_C TUint CCacheMemoryManager::SegmentSizeInBytesLog2() const

   274 	{

   275 	return KSegmentSizeLog2;

   276 	}

   277 

   278 

   279 //=============================================================================

   280 /**

   281 The singleton of global cache memory manager

   282 */

   283 CCacheMemoryManager* CCacheMemoryManagerFactory::iCacheMemoryManager = NULL;

   284 

   285 /**

   286 Global factory function of CCacheMemoryManager. 

   287 */

   288 void CCacheMemoryManagerFactory::CreateL()

   289 	{

   290 	iCacheMemoryManager = CCacheMemoryManager::NewL(TGlobalCacheMemorySettings::CacheSize());

   291 	}

   292 

   293 /**

   294 Global get function of CCacheMemoryManager. 

   295 

   296 @internalTechnology

   297 @released

   298 */

   299 EXPORT_C CCacheMemoryManager* CCacheMemoryManagerFactory::CacheMemoryManager()

   300 	{

   301 	return iCacheMemoryManager;

   302 	}

   303 

   304 /**

   305 Global destroy function of CCacheMemoryManager. 

   306 */

   307 void CCacheMemoryManagerFactory::Destroy()

   308 	{

   309 	delete iCacheMemoryManager;

   310 	iCacheMemoryManager = NULL;

   311 	}

   312 

   313 //=============================================================================

   314 const TInt KByteToByteShift = 10;

   315 TInt32 TGlobalCacheMemorySettings::iCacheSizeInBytes	= KDefaultGlobalCacheMemorySize << KByteToByteShift;

   316 TInt32 TGlobalCacheMemorySettings::iLowMemoryThreshold  = KDefaultLowMemoryThreshold;

   317 _LIT8(KLitSectionNameCacheMemory,"CacheMemory");

   318 

   319 /**

   320 Read ESTART.TXT file for global cache memory settings 

   321 */

   322 void TGlobalCacheMemorySettings::ReadPropertiesFile()

   323 	{

   324 	// Get size of cache in kilobytes

   325 	TInt32 cacheSizeInKBytes;

   326 	if (F32Properties::GetInt(KLitSectionNameCacheMemory, _L8("GlobalCacheMemorySize"), cacheSizeInKBytes))

   327 		{

   328 		iCacheSizeInBytes = cacheSizeInKBytes << KByteToByteShift;

   329 		}

   330 

   331 	// Get low memory threshold

   332 	TInt32 lowMemoryThreshold;

   333 	if (F32Properties::GetInt(KLitSectionNameCacheMemory, _L8("LowMemoryThreshold"), lowMemoryThreshold))

   334 		iLowMemoryThreshold = lowMemoryThreshold;

   335 	}

   336 

   337 TInt TGlobalCacheMemorySettings::CacheSize()

   338 	{

   339 	return iCacheSizeInBytes;

   340 	}

   341 

   342 TInt TGlobalCacheMemorySettings::LowMemoryThreshold()

   343 	{

   344 	return iLowMemoryThreshold;

   345 	}

   346 

   347