Symaptic: os/kernelhwsrv/kerneltest/e32test/defrag/t_ramdefrag.cpp@260cb5ec6c19 (annotated)

sl@0	1	// Copyright (c) 2008-2009 Nokia Corporation and/or its subsidiary(-ies).
sl@0	2	// All rights reserved.
sl@0	3	// This component and the accompanying materials are made available
sl@0	4	// under the terms of the License "Eclipse Public License v1.0"
sl@0	5	// which accompanies this distribution, and is available
sl@0	6	// at the URL "http://www.eclipse.org/legal/epl-v10.html".
sl@0	7	//
sl@0	8	// Initial Contributors:
sl@0	9	// Nokia Corporation - initial contribution.
sl@0	10	//
sl@0	11	// Contributors:
sl@0	12	//
sl@0	13	// Description:
sl@0	14	// e32test\defrag\t_ramdefrag.cpp
sl@0	15	// RAM Defragmentation Functional Tests
sl@0	16	//
sl@0	17	//
sl@0	18
sl@0	19	//#define RUN_ALL_TESTS // Uncomment to ensure that all tests are run regardless of test failures
sl@0	20	//#define DEBUG_VER // Uncomment for information output from tests
sl@0	21
sl@0	22
sl@0	23
sl@0	24	#define __E32TEST_EXTENSION__
sl@0	25	#include <e32test.h>
sl@0	26	RTest test(_L("T_RAMDEFRAG"));
sl@0	27	#include <e32rom.h>
sl@0	28	#include <u32hal.h>
sl@0	29	#include <f32file.h>
sl@0	30	#include <f32dbg.h>
sl@0	31	#include <e32svr.h>
sl@0	32	#include <e32msgqueue.h>
sl@0	33	#include <e32math.h>
sl@0	34	#include <hal.h>
sl@0	35	#include "testdefs.h"
sl@0	36
sl@0	37
sl@0	38	#include <dptest.h>
sl@0	39
sl@0	40	#include "t_ramdefrag.h"
sl@0	41
sl@0	42	#define READ(a) ReadByte((volatile TUint8*)(a))
sl@0	43
sl@0	44
sl@0	45	#ifdef RUN_ALL_TESTS
sl@0	46	#define TEST_FAIL {gTestStepFailed++;}
sl@0	47	#define CLEANUP(a) {}
sl@0	48	#else
sl@0	49	#define TEST_FAIL {TestCleanup(); test(EFalse);}
sl@0	50	#define CLEANUP(a) {if (!gFailPrintPageInfo) \
sl@0	51	{ \
sl@0	52	PrintPageInfo(); \
sl@0	53	gFailPrintPageInfo = ETrue; \
sl@0	54	} \
sl@0	55	a;}
sl@0	56	#endif
sl@0	57
sl@0	58
sl@0	59
sl@0	60	#define TEST_DRIVER_OPEN 1
sl@0	61	#define TEST_DRIVER_CLOSE 0
sl@0	62
sl@0	63	#define BEST_MOVABLE 1
sl@0	64	#define BEST_DISCARDABLE 2
sl@0	65	#define BEST_FIXED 3
sl@0	66
sl@0	67	#define Z_ALLOC_CONTIG 1
sl@0	68	#define Z_ALLOC_DISC 2
sl@0	69
sl@0	70	LOCAL_D TUint gTestStarted = EFalse; // Used to ensure matching TestStart() and TestEnd().
sl@0	71	LOCAL_D TBool gPagedRom = ETrue; // Stores whether or not is a paged ROM
sl@0	72	LOCAL_D TInt gTestStepFailed = 0; // Stores the number of test steps failed
sl@0	73	LOCAL_D TBool gFailPrintPageInfo = EFalse; // Set to ETrue once CLEANUP has been invoked once.
sl@0	74	LOCAL_D TBool gFileCacheRun = EFalse; // Set to ETrue whe FSCaching tests have been run
sl@0	75
sl@0	76	LOCAL_D TInt gRamSize; // The total RAM size in bytes
sl@0	77	LOCAL_D TInt gFreeRam; // The amount of free RAM available in bytes
sl@0	78	LOCAL_D TInt gPageSize; // The number of bytes per page
sl@0	79	LOCAL_D TUint gPageShift;
sl@0	80	#ifdef DEBUG_VER
sl@0	81	LOCAL_D TInt gRamUsed; // The amount of RAM used in bytes
sl@0	82	#endif
sl@0	83	LOCAL_D TInt gInitialRam; // The initial free RAM before a test starts
sl@0	84	LOCAL_D TInt gEndRam; // The end free RAM when a test finishes
sl@0	85	LOCAL_D TUint gOriginalMinCacheSize; // The original DP minSize
sl@0	86	LOCAL_D TUint gOriginalMaxCacheSize; // The original DP maxSize
sl@0	87	LOCAL_D TInt gTotalRamLost; // The total amount of RAM lost during the test
sl@0	88
sl@0	89	LOCAL_D TUint gZoneCount = 0; // Number of zones
sl@0	90	LOCAL_D const TUint KInvalidZoneID = 0xffffffff; // Invalid value for a zone ID
sl@0	91	LOCAL_D STestPageCount gTotalPageCount;
sl@0	92
sl@0	93
sl@0	94	LOCAL_D struct SRamZoneConfig* gZoneConfigArray; // Contains the configurations of all the zones
sl@0	95	LOCAL_D struct SRamZoneUtilisation* gZoneUtilArray; // Contains the utilisations of all the zones
sl@0	96	LOCAL_D struct SRamZoneUtilisation* gOriginalPageCountArray; // Contains the original utilisations of the zones
sl@0	97	LOCAL_D TInt* gPrefArray; // Contains the preference order of the zones
sl@0	98	LOCAL_D TUint8* gOrigFlagArray; // Contains the orignal values for the zone flags
sl@0	99
sl@0	100	LOCAL_D TInt gDefragMaxPages = 0;
sl@0	101
sl@0	102	const TInt KFillAllMovable = -1;
sl@0	103
sl@0	104	LOCAL_D RChunk* gChunkArray1 = NULL; // Stores reference to all the chunks that have been created
sl@0	105	LOCAL_D RChunk* gChunkArray2 = NULL; // Stores reference to all the chunks that have been created
sl@0	106	LOCAL_D TUint gChunkArraySize1 = 0; // The size of the array gChunkArray
sl@0	107	LOCAL_D TUint gChunkArraySize2 = 0; // The size of the array gChunkArray
sl@0	108	const TUint KChunkDefaultSize = 0x300000;
sl@0	109	const TUint KMaxChunks = 14;
sl@0	110	LOCAL_D const TUint KNumAllocChunks = 10; // The number of chunks to be allocd for some tests.
sl@0	111
sl@0	112	LOCAL_D RRamDefragFuncTestLdd Ldd; // Main Ldd used to call into device driver
sl@0	113
sl@0	114	LOCAL_D TBuf<20> gTestThreadName =_L("TestThread");
sl@0	115	LOCAL_D RThread gTestThread;
sl@0	116	LOCAL_D TRequestStatus status;
sl@0	117
sl@0	118	LOCAL_D TInt gDrive; // The removable media drive
sl@0	119	LOCAL_D RFs gTheFs;
sl@0	120	LOCAL_D TFileName gSessionPath;
sl@0	121
sl@0	122	const TInt KNoRemovableDrive = -1; // gDrive is set to this when no suitable drive can be found.
sl@0	123	const TInt KDefaultCacheSize = (128 + 12) * 1024; // The default file system cache size
sl@0	124	const TUint KNumFilesOrig = (32 * 1024 * 1024) / KDefaultCacheSize; // The number of files that are needed to fill the file system cache
sl@0	125	LOCAL_D TInt gFilesNeededToFillCache = KNumFilesOrig ; // Not constant as can change depending on the size of the disk
sl@0	126	LOCAL_D RFile gFile[KNumFilesOrig];
sl@0	127
sl@0	128	LOCAL_D TInt* gCandList1; // Array of zones that have the same preference and the same
sl@0	129	LOCAL_D TInt* gCandList2; // amount of free pages
sl@0	130	const TInt KInvalidCandIndex = -1;
sl@0	131
sl@0	132	//
sl@0	133	// GetDrive
sl@0	134	//
sl@0	135	// Gets the removable drive number
sl@0	136	//
sl@0	137	TInt GetDrive()
sl@0	138	{
sl@0	139	RFs theFs;
sl@0	140	TInt r = theFs.Connect();
sl@0	141	test_KErrNone(r);
sl@0	142
sl@0	143	TInt driveLet = KNoRemovableDrive;
sl@0	144
sl@0	145	TInt i = EDriveA;
sl@0	146	for (; i <= EDriveZ; i++)
sl@0	147	{
sl@0	148	TVolumeInfo volInfo;
sl@0	149	r = theFs.Volume(volInfo, i);
sl@0	150	if (r == KErrNone)
sl@0	151	{// This drive no. exists so determine if it is removable and
sl@0	152	// formattable media.
sl@0	153	if ((volInfo.iDrive.iDriveAtt & KDriveAttRemovable) &&
sl@0	154	(volInfo.iDrive.iMediaAtt & KMediaAttFormattable))
sl@0	155	{
sl@0	156	driveLet = i;
sl@0	157	break;
sl@0	158	}
sl@0	159	}
sl@0	160	}
sl@0	161	theFs.Close();
sl@0	162	return driveLet;
sl@0	163	}
sl@0	164
sl@0	165
sl@0	166	//
sl@0	167	// DeviceDriver
sl@0	168	//
sl@0	169	// Opens or closes the device driver used
sl@0	170	//
sl@0	171	TInt DeviceDriver(TInt aFunctionNum)
sl@0	172	{
sl@0	173	TInt r = 0;
sl@0	174	switch (aFunctionNum)
sl@0	175	{
sl@0	176	case TEST_DRIVER_OPEN:
sl@0	177	{
sl@0	178	r = User::LoadLogicalDevice(KRamDefragFuncTestLddName);
sl@0	179	test(r==KErrNone \|\| r==KErrAlreadyExists);
sl@0	180	r = Ldd.Open();
sl@0	181	test_KErrNone(r);
sl@0	182	}
sl@0	183	break;
sl@0	184
sl@0	185	case TEST_DRIVER_CLOSE:
sl@0	186	{
sl@0	187	Ldd.Close();
sl@0	188	r = User::FreeLogicalDevice(KRamDefragFuncTestLddName);
sl@0	189	test_KErrNone(r);
sl@0	190	}
sl@0	191	break;
sl@0	192
sl@0	193	default:
sl@0	194	break;
sl@0	195
sl@0	196	}
sl@0	197	return r;
sl@0	198	}
sl@0	199
sl@0	200
sl@0	201	//
sl@0	202	// GetOriginalPageCount
sl@0	203	//
sl@0	204	// Obtains the orginal types of pages in each of the zones
sl@0	205	//
sl@0	206	void GetOriginalPageCount()
sl@0	207	{
sl@0	208	TUint index;
sl@0	209	TInt ret = 0;
sl@0	210	TESTDEBUG(test.Printf(_L("ram defrag : Get info about the zones\n")));
sl@0	211	for (index = 0; index < gZoneCount; index ++)
sl@0	212	{
sl@0	213	ret = UserSvr::HalFunction(EHalGroupRam,ERamHalGetZoneUtilisation,(TAny)index, (TAny)&gOriginalPageCountArray[index]);
sl@0	214	test(ret == KErrNone);
sl@0	215	}
sl@0	216	}
sl@0	217
sl@0	218
sl@0	219	//
sl@0	220	// PrintPageInfo
sl@0	221	//
sl@0	222	// Prints various page information to the screen
sl@0	223	//
sl@0	224	void PrintPageInfo()
sl@0	225	{
sl@0	226	test.Printf(_L("\nZONE CONFIGURATIONS:\n"));
sl@0	227	for (TUint index = 0; index < gZoneCount; index ++)
sl@0	228	{
sl@0	229	TInt ret = UserSvr::HalFunction(EHalGroupRam,ERamHalGetZoneConfig,(TAny)index, (TAny)&gZoneConfigArray[index]);
sl@0	230	test(ret == KErrNone);
sl@0	231	test.Printf(_L("config : id=0x%08x index=%-2d base=0x%08x end=0x%08x pages=0x%08x pref=%-2d flags=0x%x\n"),
sl@0	232	gZoneConfigArray[index].iZoneId,gZoneConfigArray[index].iZoneIndex,
sl@0	233	gZoneConfigArray[index].iPhysBase,gZoneConfigArray[index].iPhysEnd,
sl@0	234	gZoneConfigArray[index].iPhysPages,gZoneConfigArray[index].iPref,gZoneConfigArray[index].iFlags);
sl@0	235	}
sl@0	236	test.Printf(_L("\nZONE UTILISATIONS:\n"));
sl@0	237	for (TUint index = 0; index < gZoneCount; index ++)
sl@0	238	{
sl@0	239	TInt ret = UserSvr::HalFunction(EHalGroupRam,ERamHalGetZoneUtilisation,(TAny)index, (TAny)&gZoneUtilArray[index]);
sl@0	240	test(ret == KErrNone);
sl@0	241	test.Printf(_L("usage : id=0x%08x index=%-2d pref=%d pages=0x%08x free=0x%08x unknown=0x%08x fixed=0x%08x move=0x%08x discard=0x%08x other=0x%08x\n"),
sl@0	242	gZoneUtilArray[index].iZoneId,gZoneUtilArray[index].iZoneIndex,gZoneConfigArray[index].iPref,
sl@0	243	gZoneUtilArray[index].iPhysPages,gZoneUtilArray[index].iFreePages,
sl@0	244	gZoneUtilArray[index].iAllocUnknown,gZoneUtilArray[index].iAllocFixed,gZoneUtilArray[index].iAllocMovable,
sl@0	245	gZoneUtilArray[index].iAllocDiscardable,gZoneUtilArray[index].iAllocOther);
sl@0	246	}
sl@0	247	}
sl@0	248
sl@0	249
sl@0	250	//
sl@0	251	// GetAllPageInfo
sl@0	252	//
sl@0	253	// Get various different page information for all zones
sl@0	254	// Also updates the total page count
sl@0	255	//
sl@0	256	void GetAllPageInfo()
sl@0	257	{
sl@0	258	TInt ret = 0;
sl@0	259	gTotalPageCount.iFreePages = 0;
sl@0	260	gTotalPageCount.iUnknownPages = 0;
sl@0	261	gTotalPageCount.iFixedPages = 0;
sl@0	262	gTotalPageCount.iMovablePages = 0;
sl@0	263	gTotalPageCount.iDiscardablePages = 0;
sl@0	264	gTotalPageCount.iOtherPages = 0;
sl@0	265
sl@0	266	// now get the config of each of the zones.
sl@0	267	TUint index;
sl@0	268	TESTDEBUG(test.Printf(_L("ram defrag : Get info about the zones\n")));
sl@0	269	for (index = 0; index < gZoneCount; index ++)
sl@0	270	{
sl@0	271	ret = UserSvr::HalFunction(EHalGroupRam,ERamHalGetZoneConfig,(TAny)index, (TAny)&gZoneConfigArray[index]);
sl@0	272	test(ret == KErrNone);
sl@0	273
sl@0	274	ret = UserSvr::HalFunction(EHalGroupRam,ERamHalGetZoneUtilisation,(TAny)index, (TAny)&gZoneUtilArray[index]);
sl@0	275	test(ret == KErrNone);
sl@0	276
sl@0	277	gTotalPageCount.iFreePages += gZoneUtilArray[index].iFreePages;
sl@0	278	gTotalPageCount.iUnknownPages += gZoneUtilArray[index].iAllocUnknown;
sl@0	279	gTotalPageCount.iFixedPages += gZoneUtilArray[index].iAllocFixed;
sl@0	280	gTotalPageCount.iMovablePages += gZoneUtilArray[index].iAllocMovable;
sl@0	281	gTotalPageCount.iDiscardablePages += gZoneUtilArray[index].iAllocDiscardable;
sl@0	282	gTotalPageCount.iOtherPages += gZoneUtilArray[index].iAllocOther;
sl@0	283	}
sl@0	284	TESTDEBUG(test.Printf(_L("free=0x%x unknown=0x%x fixed=0x%x move=0x%x discard=0x%x other=0x%x\n"),
sl@0	285	gTotalPageCount.iFreePages, gTotalPageCount.iUnknownPages, gTotalPageCount.iFixedPages,
sl@0	286	gTotalPageCount.iMovablePages, gTotalPageCount.iDiscardablePages,gTotalPageCount.iOtherPages));
sl@0	287
sl@0	288	TESTDEBUG(PrintPageInfo());
sl@0	289	}
sl@0	290
sl@0	291	void RestoreRamZoneFlags()
sl@0	292	{
sl@0	293	GetAllPageInfo(); // Update the current set of RAM zone flag data.
sl@0	294	for (TUint index=0; index < gZoneCount; index++)
sl@0	295	{
sl@0	296	TUint zoneDefragID = gZoneConfigArray[index].iZoneId;
sl@0	297	Ldd.SetZoneFlag(zoneDefragID, gZoneConfigArray[index].iFlags, ORIG_FLAG, gOrigFlagArray[index]);
sl@0	298	}
sl@0	299	}
sl@0	300
sl@0	301	void ResetRamZoneFlags()
sl@0	302	{
sl@0	303	GetAllPageInfo(); // Update the current set of RAM zone flag data.
sl@0	304	for (TUint index=0; index < gZoneCount; index++)
sl@0	305	{
sl@0	306	TUint zoneDefragID = gZoneConfigArray[index].iZoneId;
sl@0	307	Ldd.SetZoneFlag(zoneDefragID, gZoneConfigArray[index].iFlags, RESET_FLAG);
sl@0	308	}
sl@0	309	}
sl@0	310
sl@0	311	void RemoveChunkAlloc(RChunk*& aChunkArray, TUint& aChunkArraySize);
sl@0	312	void ResetDPCache();
sl@0	313
sl@0	314	void FSCachCleanUp()
sl@0	315	{
sl@0	316	// If the File System Caching tests have been run,
sl@0	317	// ensure that they are cleaned up
sl@0	318	if (gFileCacheRun)
sl@0	319	{
sl@0	320	TUint i = 0;
sl@0	321	// First close all the open handles to the RFile objects open
sl@0	322	for (i = 0; i < KNumFilesOrig; i++)
sl@0	323	{
sl@0	324	gFile[i].Close();
sl@0	325	}
sl@0	326
sl@0	327	// Now call EmptyRamZone on every zone to ensure that
sl@0	328	// discardable pages are cleaned up
sl@0	329
sl@0	330	GetAllPageInfo();
sl@0	331	for (i = 0; i < gZoneCount; i++)
sl@0	332	{
sl@0	333	TUint zoneID = gZoneConfigArray[i].iZoneId;
sl@0	334	Ldd.CallDefrag(DEFRAG_TYPE_EMPTY, DEFRAG_VER_SYNC, zoneID);
sl@0	335	}
sl@0	336	gFileCacheRun = EFalse;
sl@0	337	}
sl@0	338	}
sl@0	339
sl@0	340	//
sl@0	341	// TestCleanup
sl@0	342	//
sl@0	343	// Cleans up all the allocations made at the beginning of the test
sl@0	344	//
sl@0	345	void TestCleanup()
sl@0	346	{
sl@0	347
sl@0	348	Ldd.ResetDriver();
sl@0	349
sl@0	350	// Revert the cleared flags to their original values before the tests were carried out
sl@0	351	RestoreRamZoneFlags();
sl@0	352
sl@0	353	// Reset the DP cache and remove any allocated chunks and fixed pages.
sl@0	354	RemoveChunkAlloc(gChunkArray1, gChunkArraySize1);
sl@0	355	RemoveChunkAlloc(gChunkArray2, gChunkArraySize2);
sl@0	356	ResetDPCache();
sl@0	357	Ldd.FreeAllFixedPages();
sl@0	358	Ldd.FreeFromAllZones();
sl@0	359	FSCachCleanUp();
sl@0	360
sl@0	361	User::Free(gPrefArray);
sl@0	362	gPrefArray = NULL;
sl@0	363
sl@0	364	User::Free(gOrigFlagArray);
sl@0	365	gOrigFlagArray = NULL;
sl@0	366
sl@0	367	User::Free(gCandList1);
sl@0	368	gCandList1 = NULL;
sl@0	369
sl@0	370	User::Free(gCandList2);
sl@0	371	gCandList2 = NULL;
sl@0	372
sl@0	373	User::Free(gOriginalPageCountArray);
sl@0	374	gOriginalPageCountArray = NULL;
sl@0	375
sl@0	376	// Output the last possible state of memory
sl@0	377	if (!gFailPrintPageInfo)
sl@0	378	PrintPageInfo();
sl@0	379
sl@0	380	User::Free(gZoneConfigArray);
sl@0	381	gZoneConfigArray = NULL;
sl@0	382
sl@0	383	User::Free(gZoneUtilArray);
sl@0	384	gZoneUtilArray = NULL;
sl@0	385
sl@0	386	}
sl@0	387
sl@0	388
sl@0	389	// TestSetup
sl@0	390	//
sl@0	391	// Get the necessary information needed to carry out the tests
sl@0	392	//
sl@0	393	TInt TestSetup()
sl@0	394	{
sl@0	395	// Get the MMC drive
sl@0	396	gDrive = GetDrive();
sl@0	397
sl@0	398	// first get the number of zones
sl@0	399	TInt ret = UserSvr::HalFunction(EHalGroupRam,ERamHalGetZoneCount,&gZoneCount,0);
sl@0	400	if (ret != KErrNone)
sl@0	401	{
sl@0	402	test.Printf(_L("Cannot obtain the number of zones\n"));
sl@0	403	return ret;
sl@0	404	}
sl@0	405	test.Printf(_L("RAM Zones (count=%u)\n"),gZoneCount);
sl@0	406
sl@0	407	// Obtain the size of the RAM and the size of a page
sl@0	408	ret = HAL::Get(HAL::EMemoryRAM, gRamSize);
sl@0	409	if (ret != KErrNone)
sl@0	410	{
sl@0	411	test.Printf(_L("Cannot obtain the size of RAM\n"));
sl@0	412	return ret;
sl@0	413	}
sl@0	414
sl@0	415	// Retrieve the page size and use it to detemine the page shift (assumes 32-bit system).
sl@0	416	ret = HAL::Get(HAL::EMemoryPageSize, gPageSize);
sl@0	417	if (ret != KErrNone)
sl@0	418	{
sl@0	419	test.Printf(_L("Cannot obtain the page size\n"));
sl@0	420	return ret;
sl@0	421	}
sl@0	422
sl@0	423	TUint32 pageMask = gPageSize;
sl@0	424	TUint i = 0;
sl@0	425	for (; i < 32; i++)
sl@0	426	{
sl@0	427	if (pageMask & 1)
sl@0	428	{
sl@0	429	if (pageMask & ~1u)
sl@0	430	{
sl@0	431	test.Printf(_L("ERROR - page size not a power of 2"));
sl@0	432	return KErrNotSupported;
sl@0	433	}
sl@0	434	gPageShift = i;
sl@0	435	break;
sl@0	436	}
sl@0	437	pageMask >>= 1;
sl@0	438	}
sl@0	439
sl@0	440	gZoneConfigArray = (SRamZoneConfig )User::AllocZ(sizeof(SRamZoneConfig) gZoneCount);
sl@0	441	if (gZoneConfigArray == NULL)
sl@0	442	return KErrNoMemory;
sl@0	443	gZoneUtilArray = (SRamZoneUtilisation )User::AllocZ(sizeof(SRamZoneUtilisation) gZoneCount);
sl@0	444	if (gZoneUtilArray == NULL)
sl@0	445	return KErrNoMemory;
sl@0	446	gPrefArray = (TInt )User::AllocZ(sizeof(TInt) gZoneCount);
sl@0	447	if (gPrefArray == NULL)
sl@0	448	return KErrNoMemory;
sl@0	449	gOrigFlagArray = (TUint8 )User::AllocZ(sizeof(TUint8) gZoneCount);
sl@0	450	if (gOrigFlagArray == NULL)
sl@0	451	return KErrNoMemory;
sl@0	452	gOriginalPageCountArray = (SRamZoneUtilisation )User::AllocZ(sizeof(SRamZoneUtilisation) gZoneCount);
sl@0	453	if (gOriginalPageCountArray == NULL)
sl@0	454	return KErrNoMemory;
sl@0	455
sl@0	456	gCandList1 = (TInt )User::AllocZ(sizeof(TInt) gZoneCount);
sl@0	457	if (gCandList1 == NULL)
sl@0	458	return KErrNoMemory;
sl@0	459	gCandList2 = (TInt )User::AllocZ(sizeof(TInt) gZoneCount);
sl@0	460	if (gCandList2 == NULL)
sl@0	461	return KErrNoMemory;
sl@0	462
sl@0	463	GetAllPageInfo();
sl@0	464	PrintPageInfo();
sl@0	465
sl@0	466	// Store the original flags
sl@0	467	for (i=0; i < gZoneCount; i++)
sl@0	468	gOrigFlagArray[i] = gZoneConfigArray[i].iFlags;
sl@0	469
sl@0	470	// Now clear the flags for carrying out tests
sl@0	471	Ldd.ResetDriver();
sl@0	472	ResetRamZoneFlags();
sl@0	473
sl@0	474
sl@0	475	// Check whether the ROM is paged or not
sl@0	476	TRomHeader* romHeader = (TRomHeader*)UserSvr::RomHeaderAddress();
sl@0	477	if(!romHeader->iPageableRomStart)
sl@0	478	{
sl@0	479	test.Printf(_L("Not a Paged ROM - Skipping all discardable page tests.\n"));
sl@0	480	gPagedRom = EFalse;
sl@0	481	}
sl@0	482	else
sl@0	483	{// Save the current state of the DP cache so it can be restored when required and
sl@0	484	// after the test has finished.
sl@0	485	TUint currentCacheSize;
sl@0	486	DPTest::CacheSize(gOriginalMinCacheSize, gOriginalMaxCacheSize, currentCacheSize);
sl@0	487	TESTDEBUG(test.Printf(_L("Original CacheSize: minCacheSize = 0x%x, maxCacheSize = 0x%x, currentCacheSize = 0x%x\n"),
sl@0	488	gOriginalMinCacheSize >> gPageShift, gOriginalMaxCacheSize >> gPageShift,
sl@0	489	currentCacheSize >> gPageShift));
sl@0	490	}
sl@0	491
sl@0	492	return KErrNone;
sl@0	493	}
sl@0	494
sl@0	495
sl@0	496	//
sl@0	497	// UpdateRamInfo
sl@0	498	//
sl@0	499	// Updating the various RAM information
sl@0	500	//
sl@0	501	void UpdateRamInfo()
sl@0	502	{
sl@0	503	HAL::Get(HAL::EMemoryRAMFree, gFreeRam);
sl@0	504	TESTDEBUG(gRamUsed = gRamSize - gFreeRam);
sl@0	505	}
sl@0	506
sl@0	507
sl@0	508	//
sl@0	509	// CheckRamDifference
sl@0	510	//
sl@0	511	// Checks the difference between the initial free RAM and the end free RAM
sl@0	512	//
sl@0	513	void CheckRamDifference()
sl@0	514	{
sl@0	515	if (gInitialRam == gEndRam)
sl@0	516	{
sl@0	517	TESTDEBUG(test.Printf(_L("No RAM was lost during this test\n")));
sl@0	518	}
sl@0	519	else
sl@0	520	{
sl@0	521	TInt diff = gInitialRam - gEndRam;
sl@0	522
sl@0	523
sl@0	524	gTotalRamLost = gTotalRamLost + diff;
sl@0	525	}
sl@0	526	}
sl@0	527
sl@0	528	TInt VerifyMovDisAlloc();
sl@0	529	//
sl@0	530	// TestStart
sl@0	531	//
sl@0	532	// Updates the RAM information at the beginning of a test step
sl@0	533	//
sl@0	534	void TestStart()
sl@0	535	{
sl@0	536	test(!gTestStarted);
sl@0	537	gTestStarted = ETrue;
sl@0	538
sl@0	539	Ldd.ResetDriver();
sl@0	540
sl@0	541	Ldd.CallDefrag(DEFRAG_TYPE_GEN, DEFRAG_VER_SYNC);
sl@0	542	if (VerifyMovDisAlloc() != KErrNone)
sl@0	543	{
sl@0	544	CLEANUP(;);
sl@0	545	TEST_FAIL;
sl@0	546	}
sl@0	547
sl@0	548	UpdateRamInfo();
sl@0	549	gInitialRam = gFreeRam;
sl@0	550	TESTDEBUG(test.Printf(_L("Initial Free RAM = 0x%x, Initial RAM Used = 0x%x\n"), gFreeRam, gRamUsed));
sl@0	551	}
sl@0	552
sl@0	553
sl@0	554	void RemoveChunkAlloc(RChunk*& aChunkArray, TUint& aChunkArraySize);
sl@0	555	//
sl@0	556	// TestEnd
sl@0	557	//
sl@0	558	// Updates RAM information at end of test step and checks the RAM delta
sl@0	559	//
sl@0	560	void TestEnd()
sl@0	561	{
sl@0	562	test(gTestStarted);
sl@0	563	gTestStarted = EFalse;
sl@0	564
sl@0	565	gDefragMaxPages = 0;
sl@0	566
sl@0	567	// Clean up anything that may need to be cleaned.
sl@0	568	ResetRamZoneFlags();
sl@0	569	RemoveChunkAlloc(gChunkArray1, gChunkArraySize1);
sl@0	570	RemoveChunkAlloc(gChunkArray2, gChunkArraySize2);
sl@0	571	ResetDPCache();
sl@0	572	Ldd.FreeAllFixedPages();
sl@0	573	FSCachCleanUp();
sl@0	574
sl@0	575	UpdateRamInfo();
sl@0	576	gEndRam = gFreeRam;
sl@0	577	TESTDEBUG(test.Printf(_L("End RAM Free = 0x%x, End RAM Used = 0x%x\n"), gEndRam, gRamUsed));
sl@0	578	CheckRamDifference();
sl@0	579	test.Printf(_L(" \n"));
sl@0	580	}
sl@0	581
sl@0	582	//
sl@0	583	// CheckZonesSwitchedOff
sl@0	584	//
sl@0	585	// Checks that zones have been switched off
sl@0	586	//
sl@0	587	TBool CheckZonesSwitchedOff()
sl@0	588	{
sl@0	589	GetAllPageInfo();
sl@0	590	for (TUint i = 0; i < gZoneCount; i++)
sl@0	591	{
sl@0	592	if (gOriginalPageCountArray[i].iFreePages != gOriginalPageCountArray[i].iPhysPages &&
sl@0	593	gZoneUtilArray[i].iFreePages == gZoneUtilArray[i].iPhysPages)
sl@0	594	{
sl@0	595	return ETrue;
sl@0	596	}
sl@0	597	}
sl@0	598	return EFalse;
sl@0	599	}
sl@0	600
sl@0	601
sl@0	602	//
sl@0	603	// CheckZoneIsOff
sl@0	604	//
sl@0	605	// Checks if a particular zone is empty
sl@0	606	//
sl@0	607	TBool CheckZoneIsOff(TUint aZoneIndex)
sl@0	608	{
sl@0	609	GetAllPageInfo();
sl@0	610	if (gZoneUtilArray[aZoneIndex].iFreePages == gZoneUtilArray[aZoneIndex].iPhysPages)
sl@0	611	{
sl@0	612	TESTDEBUG(test.Printf(_L("Zone index %d is Empty\n"), aZoneIndex));
sl@0	613	return ETrue;
sl@0	614	}
sl@0	615	else
sl@0	616	{
sl@0	617	TESTDEBUG(test.Printf(_L("Zone index %d is Not empty\n"), aZoneIndex));
sl@0	618	return EFalse;
sl@0	619	}
sl@0	620	}
sl@0	621
sl@0	622
sl@0	623	//
sl@0	624	// GetPrefOrder
sl@0	625	//
sl@0	626	// Go through each zone ordering them in preference order
sl@0	627	//
sl@0	628	void GetPrefOrder()
sl@0	629	{
sl@0	630	GetAllPageInfo();
sl@0	631	TESTDEBUG(PrintPageInfo());
sl@0	632
sl@0	633	for (TUint i=0; i < (TUint)gZoneCount; i++)
sl@0	634	gPrefArray[i] = KErrNotFound;
sl@0	635
sl@0	636	for (TUint curIndex = 0; curIndex < gZoneCount; curIndex++)
sl@0	637	{
sl@0	638	TBool currentEmpty = gZoneUtilArray[curIndex].iPhysPages == gZoneUtilArray[curIndex].iFreePages;
sl@0	639	TUint currentPref = gZoneConfigArray[curIndex].iPref;
sl@0	640	TUint currentImmovPages = gZoneUtilArray[curIndex].iAllocFixed +
sl@0	641	gZoneUtilArray[curIndex].iAllocUnknown;
sl@0	642	TUint morePrefCnt = 0;
sl@0	643	for (TUint index = 0; index < gZoneCount; index++)
sl@0	644	{// A RAM zone with the same iPref is more preferable if it has
sl@0	645	// more immovable pages.
sl@0	646	if (gZoneConfigArray[index].iPref < currentPref \|\|
sl@0	647	(gZoneConfigArray[index].iPref == currentPref &&
sl@0	648	(currentImmovPages < gZoneUtilArray[index].iAllocFixed + gZoneUtilArray[index].iAllocUnknown \|\|
sl@0	649	(currentEmpty &&
sl@0	650	gZoneUtilArray[index].iFreePages != gZoneUtilArray[index].iPhysPages))))
sl@0	651	{
sl@0	652	morePrefCnt++;
sl@0	653	}
sl@0	654	}
sl@0	655
sl@0	656	while (gPrefArray[morePrefCnt] != KErrNotFound)
sl@0	657	{// Zone(s) of this preference and size already exist so
sl@0	658	// place this one after it/them
sl@0	659	morePrefCnt++;
sl@0	660	}
sl@0	661	gPrefArray[morePrefCnt] = curIndex;
sl@0	662	}
sl@0	663	}
sl@0	664
sl@0	665	//
sl@0	666	// ZonesSamePref
sl@0	667	//
sl@0	668	// Return ETrue if the RAM zones are of the same preference.
sl@0	669	//
sl@0	670	// NOTE - This requires GetAllPageInfo() to have already been called.
sl@0	671	//
sl@0	672	TBool ZonesSamePref(TUint aZoneIndex1, TUint aZoneIndex2)
sl@0	673	{
sl@0	674	TBool zoneEmpty1 = gZoneUtilArray[aZoneIndex1].iFreePages == gZoneUtilArray[aZoneIndex1].iPhysPages;
sl@0	675	TBool zoneEmpty2 = gZoneUtilArray[aZoneIndex2].iFreePages == gZoneUtilArray[aZoneIndex2].iPhysPages;
sl@0	676	if (gZoneConfigArray[aZoneIndex1].iPref == gZoneConfigArray[aZoneIndex2].iPref &&
sl@0	677	(gZoneUtilArray[aZoneIndex1].iAllocFixed + gZoneUtilArray[aZoneIndex1].iAllocUnknown ==
sl@0	678	gZoneUtilArray[aZoneIndex2].iAllocFixed + gZoneUtilArray[aZoneIndex2].iAllocUnknown &&
sl@0	679	(zoneEmpty1 == zoneEmpty2)))
sl@0	680	{
sl@0	681	return ETrue;
sl@0	682	}
sl@0	683
sl@0	684	return EFalse;
sl@0	685	}
sl@0	686
sl@0	687	//
sl@0	688	// FindMostPrefEmpty
sl@0	689	//
sl@0	690	// Checks all zones and returns the most preferable RAM zone which
sl@0	691	// is completely emtpy
sl@0	692	//
sl@0	693	// @param aZoneIndex On return this will contain the index into gZoneUtilArray of the most preferable empty RAM zone.
sl@0	694	// @param aPrefIndex On return this will contain the index into gPrefArray of the most preferable empty RAM zone.
sl@0	695	//
sl@0	696	// @return KErrNotFound if a zone cannot be found, else KErrNone
sl@0	697	//
sl@0	698	TInt FindMostPrefEmpty(TUint& aZoneIndex, TUint* aPrefIndex = NULL)
sl@0	699	{
sl@0	700	// Get the most pref zone which is completely free to use as a test zone
sl@0	701	GetPrefOrder();
sl@0	702	TUint prefIndex = 0;
sl@0	703	for (; prefIndex < gZoneCount; prefIndex++)
sl@0	704	{
sl@0	705	TUint zoneIndex = gPrefArray[prefIndex];
sl@0	706	if (gZoneUtilArray[zoneIndex].iFreePages == gZoneUtilArray[zoneIndex].iPhysPages)
sl@0	707	{
sl@0	708	aZoneIndex = zoneIndex;
sl@0	709	if (aPrefIndex)
sl@0	710	{
sl@0	711	*aPrefIndex = prefIndex;
sl@0	712	}
sl@0	713	return KErrNone;
sl@0	714	}
sl@0	715	}
sl@0	716	return KErrNotFound;
sl@0	717	}
sl@0	718
sl@0	719	//
sl@0	720	// FindLeastPrefEmpty
sl@0	721	//
sl@0	722	// Checks all zones and returns the least preferable RAM zone which
sl@0	723	// is completely emtpy
sl@0	724	//
sl@0	725	// @param aZoneIndex On return this will contain the index into gZoneUtilArray of the least preferable empty RAM zone.
sl@0	726	// @param aPrefIndex On return this will contain the index into gPrefArray of the least preferable empty RAM zone.
sl@0	727	//
sl@0	728	// @return KErrNotFound if a zone cannot be found, else KErrNone
sl@0	729	//
sl@0	730	TInt FindLeastPrefEmpty(TUint& aZoneIndex, TUint* aPrefIndex = NULL)
sl@0	731	{
sl@0	732	// Get the most pref zone which is completely free to use as a test zone
sl@0	733	GetPrefOrder();
sl@0	734	TInt prefIndex = gZoneCount - 1;
sl@0	735	for (; prefIndex >= 0; prefIndex--)
sl@0	736	{
sl@0	737	TUint zoneIndex = gPrefArray[prefIndex];
sl@0	738	if (gZoneUtilArray[zoneIndex].iFreePages == gZoneUtilArray[zoneIndex].iPhysPages)
sl@0	739	{
sl@0	740	aZoneIndex = zoneIndex;
sl@0	741	if (aPrefIndex)
sl@0	742	{
sl@0	743	*aPrefIndex = (TUint)prefIndex;
sl@0	744	}
sl@0	745	return KErrNone;
sl@0	746	}
sl@0	747	}
sl@0	748	return KErrNotFound;
sl@0	749	}
sl@0	750
sl@0	751	//
sl@0	752	// FindMostPrefWithFree
sl@0	753	//
sl@0	754	// Checks all zones and returns the most preferable RAM zone which
sl@0	755	// has at least 1 free page
sl@0	756	//
sl@0	757	// @param aZoneIndex On return this will contain the index into gZoneUtilArray of the most preferable RAM zone with free pages.
sl@0	758	// @param aPrefIndex On return this will contain the index into gPrefArray of the most preferable RAM zone with free pages.
sl@0	759	//
sl@0	760	// @return KErrNotFound if a zone cannot be found, else KErrNone
sl@0	761	//
sl@0	762	TInt FindMostPrefWithFree(TUint& aZoneIndex, TUint* aPrefIndex = NULL)
sl@0	763	{
sl@0	764	// Get the most pref zone which has free pages
sl@0	765	GetPrefOrder();
sl@0	766	TUint prefIndex = 0;
sl@0	767	for (; prefIndex < gZoneCount; prefIndex++)
sl@0	768	{
sl@0	769	TUint zoneIndex = gPrefArray[prefIndex];
sl@0	770	if (gZoneUtilArray[zoneIndex].iFreePages)
sl@0	771	{
sl@0	772	aZoneIndex = zoneIndex;
sl@0	773	if (aPrefIndex)
sl@0	774	{
sl@0	775	*aPrefIndex = prefIndex;
sl@0	776	}
sl@0	777	return KErrNone;
sl@0	778	}
sl@0	779	}
sl@0	780	return KErrNotFound;
sl@0	781	}
sl@0	782	//
sl@0	783	// CanGenSucceed
sl@0	784	//
sl@0	785	// Check whether a call to TRamDefragRequest::DefragRam() would be able to
sl@0	786	// succeed or not.
sl@0	787	//
sl@0	788	TBool CanGenSucceed()
sl@0	789	{
sl@0	790	GetPrefOrder();
sl@0	791	TBool genSucceed = EFalse;
sl@0	792	// Work out if general has anything to do
sl@0	793	for(TInt prefIndex = (TInt)gZoneCount-1; prefIndex >= 0; prefIndex--)
sl@0	794	{
sl@0	795	TUint zoneIndex = gPrefArray[prefIndex];
sl@0	796	TESTDEBUG(test.Printf(_L("prefIndex = %d zoneIndex = 0x%x\n"), prefIndex, zoneIndex));
sl@0	797
sl@0	798	TUint samePrefCount = 1;
sl@0	799	TUint samePrefSucceed = 0;
sl@0	800	// The number of zones of this preference that will be skipped by the general defrag
sl@0	801	TUint samePrefEmptyImmovable = 0;
sl@0	802
sl@0	803	// Determine how many zones have the same preference as this one
sl@0	804	TInt prevPrefIndex = (prefIndex != 0)? (prefIndex - 1) : -1;
sl@0	805	for (; prevPrefIndex >= 0; prevPrefIndex--)
sl@0	806	{
sl@0	807	TUint prevIndex = gPrefArray[prevPrefIndex];
sl@0	808	if (ZonesSamePref(zoneIndex, prevIndex))
sl@0	809	{
sl@0	810	samePrefCount++;
sl@0	811	}
sl@0	812	else // no more zones with this preference
sl@0	813	break;
sl@0	814	}
sl@0	815	TESTDEBUG(test.Printf(_L("samePrefCount = %d\n"), samePrefCount));
sl@0	816
sl@0	817	for (TInt l = prefIndex - (samePrefCount-1); l <= prefIndex; l++)
sl@0	818	{
sl@0	819	TUint curPrefIndex = gPrefArray[l];
sl@0	820	TESTDEBUG(test.Printf(_L("curPrefIndex = %d\n"), curPrefIndex));
sl@0	821	if (gZoneUtilArray[curPrefIndex].iFreePages != gZoneConfigArray[curPrefIndex].iPhysPages)
sl@0	822	{
sl@0	823	TBool clearMovable = EFalse;
sl@0	824	TBool clearDiscardable = EFalse;
sl@0	825
sl@0	826	if (gZoneUtilArray[curPrefIndex].iAllocUnknown \|\| gZoneUtilArray[curPrefIndex].iAllocFixed)
sl@0	827	{
sl@0	828	TESTDEBUG(test.Printf(_L("unknown or fixed\n")));
sl@0	829	samePrefEmptyImmovable++;
sl@0	830	continue;
sl@0	831	}
sl@0	832	if (gZoneUtilArray[curPrefIndex].iAllocMovable)
sl@0	833	{// determine if movable can potentially be cleared from this zone
sl@0	834	TUint freeInLower = 0;
sl@0	835	for (TInt j=0; j <= prefIndex; j++)
sl@0	836	{
sl@0	837	TUint idx = gPrefArray[j];
sl@0	838	if (idx == curPrefIndex)
sl@0	839	continue;
sl@0	840	freeInLower += gZoneUtilArray[idx].iFreePages;
sl@0	841	}
sl@0	842	if (gZoneUtilArray[curPrefIndex].iAllocMovable <= freeInLower)
sl@0	843	{
sl@0	844	clearMovable = ETrue;
sl@0	845	TESTDEBUG(test.Printf(_L("Can clear movable, curPrefIndex = %d\n"), curPrefIndex));
sl@0	846	}
sl@0	847	}
sl@0	848	else
sl@0	849	{
sl@0	850	TESTDEBUG(test.Printf(_L("Can clear movable, curPrefIndex = %d\n"), curPrefIndex));
sl@0	851	clearMovable = ETrue;
sl@0	852	}
sl@0	853	if (gZoneUtilArray[curPrefIndex].iAllocDiscardable)
sl@0	854	{
sl@0	855	if (gPagedRom)
sl@0	856	{
sl@0	857	TUint minCacheSize = 0;
sl@0	858	TUint maxCacheSize = 0;
sl@0	859	TUint currentCacheSize = 0;
sl@0	860
sl@0	861	DPTest::CacheSize(minCacheSize,maxCacheSize,currentCacheSize);
sl@0	862	TUint spareCache = currentCacheSize - minCacheSize;
sl@0	863	if (spareCache >= gZoneUtilArray[curPrefIndex].iAllocDiscardable )
sl@0	864	{
sl@0	865	clearDiscardable = ETrue;
sl@0	866	TESTDEBUG(test.Printf(_L("Paged: Can clear discardable\n")));
sl@0	867	}
sl@0	868	else
sl@0	869	{// determine space for discardable in more preferable zones
sl@0	870	TUint freeInLower = 0;
sl@0	871	for (TInt j=0; j <= prefIndex; j++)
sl@0	872	{
sl@0	873	TUint idx = gPrefArray[j];
sl@0	874	if (idx == curPrefIndex)
sl@0	875	continue;
sl@0	876	freeInLower += gZoneUtilArray[idx].iFreePages;
sl@0	877	}
sl@0	878	if (gZoneUtilArray[curPrefIndex].iAllocDiscardable - spareCache <= freeInLower)
sl@0	879	{
sl@0	880	clearDiscardable = ETrue;
sl@0	881	TESTDEBUG(test.Printf(_L("Paged: Can clear discardable curPrefIndex = %d\n"), curPrefIndex));
sl@0	882	}
sl@0	883	}
sl@0	884	}
sl@0	885	else
sl@0	886	{//Should always be OK to discard as no min cache size on non-paged ROMS
sl@0	887	clearDiscardable = ETrue;
sl@0	888	test.Printf(_L("Can clear discardable curPrefIndex = %d\n"), curPrefIndex);
sl@0	889	}
sl@0	890	}
sl@0	891	else
sl@0	892	{
sl@0	893	clearDiscardable = ETrue;
sl@0	894	}
sl@0	895
sl@0	896	if (clearDiscardable && clearMovable)
sl@0	897	{
sl@0	898	samePrefSucceed++;
sl@0	899	TESTDEBUG(test.Printf(_L("General should succeed ID=%x\n"), gZoneConfigArray[curPrefIndex].iZoneId));
sl@0	900	}
sl@0	901	}
sl@0	902	else
sl@0	903	{//zone already empty
sl@0	904	samePrefEmptyImmovable++;
sl@0	905	}
sl@0	906	}
sl@0	907	if (samePrefSucceed == 0 && samePrefEmptyImmovable == 0)
sl@0	908	{// no zones can be defragged and none are already empty/have immovable.
sl@0	909	break;
sl@0	910	}
sl@0	911	if (samePrefEmptyImmovable != samePrefCount)
sl@0	912	{// Have reached some zones with allocated pages in them.
sl@0	913	if (samePrefSucceed + samePrefEmptyImmovable == samePrefCount)
sl@0	914	{// general should definitely succeed as each of the zones of this preference
sl@0	915	// can be emptied or are already empty/have immovable pages allocated.
sl@0	916	TESTDEBUG(test.Printf(_L("General should succeed \n")));
sl@0	917	genSucceed = ETrue;
sl@0	918	}
sl@0	919	break;
sl@0	920	}
sl@0	921	prefIndex -= samePrefCount - 1;
sl@0	922	}
sl@0	923	return genSucceed;
sl@0	924	}
sl@0	925
sl@0	926
sl@0	927	//
sl@0	928	// ReadByte
sl@0	929	//
sl@0	930	// Read a particular byte
sl@0	931	//
sl@0	932	TUint8 ReadByte(volatile TUint8* aPtr)
sl@0	933	{
sl@0	934	return *aPtr;
sl@0	935	}
sl@0	936
sl@0	937
sl@0	938	//
sl@0	939	// AllocDiscardable
sl@0	940	//
sl@0	941	// Allocate Discardable pages in the form of demand paged pages
sl@0	942	//
sl@0	943	// @param aNumDiscardableBytes On return this will contain the number of discardable bytes above the min cache size.
sl@0	944	// @param aMaxBytes The new limit for maximum number of bytes in the DP cache, set to KMaxTUInt64 to fill RAM.
sl@0	945	// @param aMinOffsetBytes When not set to KMaxTUint64, this sets the min cache size to be the max cache size - aMinOffsetBytes.
sl@0	946	//
sl@0	947	TInt AllocDiscardable(TInt& aNumDiscardableBytes, TUint64 aMaxBytes = KMaxTUint64, TUint64 aMinOffsetBytes = KMaxTUint64)
sl@0	948	{
sl@0	949	TUint minCacheSize = 0;
sl@0	950	TUint maxCacheSize = 0;
sl@0	951	TUint currentCacheSize = 0;
sl@0	952	DPTest::CacheSize(minCacheSize,maxCacheSize,currentCacheSize);
sl@0	953	TESTDEBUG(test.Printf(_L("Original CacheSize: minCacheSize = 0x%x, maxCacheSize = 0x%x, currentCacheSize = 0x%x\n"),
sl@0	954	minCacheSize >> gPageShift, maxCacheSize >> gPageShift, currentCacheSize >> gPageShift));
sl@0	955
sl@0	956	TESTDEBUG(test.Printf(_L("SetCacheSize: minCacheSize = 0x%x, maxCacheSize = 0x%x\n"), minCacheSize >> gPageShift, aMaxBytes >> gPageShift));
sl@0	957
sl@0	958	if (aMaxBytes == KMaxTUint64)
sl@0	959	{// Need to fill all of free memory with discardable pages
sl@0	960	UpdateRamInfo();
sl@0	961	maxCacheSize = minCacheSize + gFreeRam;
sl@0	962	if (aMinOffsetBytes != KMaxTUint64)
sl@0	963	{// Set the min cache size relative to the max cache size.
sl@0	964	minCacheSize = maxCacheSize - aMinOffsetBytes;
sl@0	965	}
sl@0	966	TESTDEBUG(test.Printf(_L("free 0x%x max 0x%x min 0x%x\n"), gFreeRam, maxCacheSize, minCacheSize));
sl@0	967	}
sl@0	968	else
sl@0	969	{
sl@0	970	maxCacheSize = aMaxBytes;
sl@0	971	}
sl@0	972
sl@0	973	TInt r = DPTest::SetCacheSize(maxCacheSize, maxCacheSize);
sl@0	974	if (r != KErrNone)
sl@0	975	return r;
sl@0	976	r = DPTest::SetCacheSize(minCacheSize, maxCacheSize);
sl@0	977	if (r != KErrNone)
sl@0	978	return r;
sl@0	979	DPTest::CacheSize(minCacheSize,maxCacheSize,currentCacheSize);
sl@0	980	TESTDEBUG(test.Printf(_L("After CacheSize: minCacheSize = 0x%x, maxCacheSize = 0x%x, currentCacheSize = 0x%x\n"),
sl@0	981	minCacheSize >> gPageShift, maxCacheSize >> gPageShift, currentCacheSize >> gPageShift));
sl@0	982
sl@0	983	aNumDiscardableBytes = currentCacheSize - minCacheSize;
sl@0	984	TESTDEBUG(test.Printf(_L("Number of discardable bytes 0x%x\n"), aNumDiscardableBytes));
sl@0	985
sl@0	986	if (aMaxBytes == KMaxTUint64)
sl@0	987	{
sl@0	988	UpdateRamInfo();
sl@0	989	if (gFreeRam != aNumDiscardableBytes)
sl@0	990	{// The only free RAM should be that of the DP cache.
sl@0	991	test.Printf(_L("gFreeRam 0x%x aNumDiscardableBytes 0x%x\n"), gFreeRam, aNumDiscardableBytes);
sl@0	992	return KErrGeneral;
sl@0	993	}
sl@0	994	}
sl@0	995	return KErrNone;
sl@0	996	}
sl@0	997
sl@0	998
sl@0	999	//
sl@0	1000	// ResetDPCache
sl@0	1001	//
sl@0	1002	// Flush the cache and set the boundaries back to their original values
sl@0	1003	//
sl@0	1004	void ResetDPCache()
sl@0	1005	{
sl@0	1006	if (gPagedRom)
sl@0	1007	{
sl@0	1008	TUint minCacheSize = 0;
sl@0	1009	TUint maxCacheSize = 0;
sl@0	1010	TUint currentCacheSize = 0;
sl@0	1011
sl@0	1012	TESTDEBUG(test.Printf(_L("FlushCache\n")));
sl@0	1013	TInt r = DPTest::FlushCache();
sl@0	1014
sl@0	1015	DPTest::CacheSize(minCacheSize,maxCacheSize,currentCacheSize);
sl@0	1016	TESTDEBUG(test.Printf(_L("After CacheSize: minCacheSize = 0x%x, maxCacheSize = 0x%x, currentCacheSize = 0x%x\n"),
sl@0	1017	minCacheSize >> gPageShift, maxCacheSize >> gPageShift, currentCacheSize >> gPageShift));
sl@0	1018
sl@0	1019
sl@0	1020	r = DPTest::SetCacheSize(gOriginalMinCacheSize, gOriginalMinCacheSize);
sl@0	1021	r = DPTest::SetCacheSize(gOriginalMinCacheSize, gOriginalMaxCacheSize);
sl@0	1022	TESTDEBUG(test.Printf(_L("SetCacheSize returns r = %d\n"), r));
sl@0	1023	DPTest::CacheSize(minCacheSize,maxCacheSize,currentCacheSize);
sl@0	1024	TESTDEBUG(test.Printf(_L("After CacheSize: minCacheSize = 0x%x, maxCacheSize = 0x%x, currentCacheSize = 0x%x\n"),
sl@0	1025	minCacheSize >> gPageShift, maxCacheSize >> gPageShift, currentCacheSize >> gPageShift));
sl@0	1026	}
sl@0	1027	}
sl@0	1028
sl@0	1029	//
sl@0	1030	// WriteToChunk
sl@0	1031	//
sl@0	1032	// Write to a number of chunks
sl@0	1033	//
sl@0	1034	TInt WriteToChunk(RChunk* aChunkArray, TUint aChunkArraySize, TInt aChunk, TUint8 aStart=0)
sl@0	1035	{
sl@0	1036	for (TUint i=0; i<10; i++) // Write to all chunks 10 times
sl@0	1037	{
sl@0	1038	for (TUint j=0; j < aChunkArraySize; j++) //Write to all open chunks except aChunk.
sl@0	1039	{
sl@0	1040	if (aChunkArray[j].Handle() != NULL)
sl@0	1041	{
sl@0	1042	if ((TInt)j == aChunk) // Don't write to specified chunk
sl@0	1043	{
sl@0	1044	continue;
sl@0	1045	}
sl@0	1046	TUint8* base = aChunkArray[j].Base();
sl@0	1047	for (TUint8 k = aStart; k < aStart + 10; k++)
sl@0	1048	{
sl@0	1049	*base++ = k; // write 0 - 9 to the chunk
sl@0	1050	}
sl@0	1051	}
sl@0	1052	}
sl@0	1053	}
sl@0	1054	return KErrNone;
sl@0	1055	}
sl@0	1056
sl@0	1057
sl@0	1058	//
sl@0	1059	// ReadChunk
sl@0	1060	//
sl@0	1061	// Read chunks - If a chunk is specified, that particular chunk is not read
sl@0	1062	//
sl@0	1063	TInt ReadChunk(RChunk* aChunkArray, TUint aChunkArraySize, TInt aChunk=-1)
sl@0	1064	{
sl@0	1065	for (TUint j=0; j < aChunkArraySize; j++) //Read all open chunks
sl@0	1066	{
sl@0	1067	if (aChunkArray[j].Handle() != NULL)
sl@0	1068	{
sl@0	1069	if ((TInt)j == aChunk) // Don't read specified chunk
sl@0	1070	{
sl@0	1071	continue;
sl@0	1072	}
sl@0	1073	TUint8* base = aChunkArray[j].Base();
sl@0	1074	while ((aChunkArray[j].Base() + aChunkArray[j].Size()) != base)
sl@0	1075	{
sl@0	1076	READ(base++);
sl@0	1077	}
sl@0	1078	}
sl@0	1079	}
sl@0	1080	return KErrNone;
sl@0	1081	}
sl@0	1082
sl@0	1083
sl@0	1084	//
sl@0	1085	// RemoveChunkAlloc
sl@0	1086	//
sl@0	1087	// Remove ALL chunks allocated
sl@0	1088	//
sl@0	1089	// @param aChunkArray The array that stores a reference to the chunks created.
sl@0	1090	// @param aChunkArraySize The size of aChunkArray.
sl@0	1091	//
sl@0	1092	void RemoveChunkAlloc(RChunk*& aChunkArray, TUint& aChunkArraySize)
sl@0	1093	{
sl@0	1094	TInt closedChunks = 0;
sl@0	1095
sl@0	1096	if (aChunkArray == NULL)
sl@0	1097	{// The chunk array has already been deleted.
sl@0	1098	return;
sl@0	1099	}
sl@0	1100
sl@0	1101	for (TUint i = 0; i < aChunkArraySize; i++)
sl@0	1102	{
sl@0	1103	if (aChunkArray[i].Handle() != NULL)
sl@0	1104	{
sl@0	1105	aChunkArray[i].Close();
sl@0	1106	closedChunks ++;
sl@0	1107	}
sl@0	1108	}
sl@0	1109	delete[] aChunkArray;
sl@0	1110	aChunkArray = NULL;
sl@0	1111	aChunkArraySize = 0;
sl@0	1112	UpdateRamInfo();
sl@0	1113	test.Printf(_L("Free RAM after closing %d chunks = 0x%x\n"),closedChunks,gFreeRam);
sl@0	1114	}
sl@0	1115
sl@0	1116
sl@0	1117	TBool SpaceAvailForPageTables(TUint aZoneIndex, TInt aNumPages)
sl@0	1118	{
sl@0	1119	// Every 1MB allocated needs a new page table
sl@0	1120	const TUint KDataBytesPerPageTable = 1024 * 1024;
sl@0	1121
sl@0	1122	// 1 Page can fit 4 page tables
sl@0	1123	const TUint KPageTablesPerPage = 4;
sl@0	1124
sl@0	1125
sl@0	1126	GetAllPageInfo();
sl@0	1127	if (aNumPages == KFillAllMovable)
sl@0	1128	{
sl@0	1129	aNumPages = gTotalPageCount.iFreePages;
sl@0	1130	}
sl@0	1131
sl@0	1132	TUint allocBytes = aNumPages << gPageShift;
sl@0	1133
sl@0	1134	// Add 1 as you always require at least 1 page table
sl@0	1135	TUint pageTablesRequired = (allocBytes / KDataBytesPerPageTable) + 1;
sl@0	1136	// Add 1 as the first 1-3 page tables may require a new page.
sl@0	1137	TUint pageTablePagesRequired = (pageTablesRequired / KPageTablesPerPage) + 1;
sl@0	1138
sl@0	1139	// Determine the number of free pages in the other zones
sl@0	1140	TUint freeInOther = 0;
sl@0	1141	for (TUint index = 0; index < gZoneCount; index++)
sl@0	1142	{
sl@0	1143	if (index != aZoneIndex)
sl@0	1144	{
sl@0	1145	freeInOther += gZoneUtilArray[index].iFreePages;
sl@0	1146	}
sl@0	1147	}
sl@0	1148
sl@0	1149	// Need an overhead for the heap to grow (5 pages)
sl@0	1150	const TUint KOverhead = 5;
sl@0	1151	if (freeInOther < pageTablePagesRequired + KOverhead)
sl@0	1152	{// Not enough space in other zones to fit all page tables
sl@0	1153	test.Printf(_L("No space in other zones for page table pages\n"));
sl@0	1154	return EFalse;
sl@0	1155	}
sl@0	1156	// There is space available in the other zones to fit all the page tables
sl@0	1157	return ETrue;
sl@0	1158	}
sl@0	1159	//
sl@0	1160	// AllocMovable
sl@0	1161	//
sl@0	1162	// Allocate movable memory in the form of chunks
sl@0	1163	//
sl@0	1164	// @param aChunkArray The array to store a reference to the chunks created.
sl@0	1165	// @param aChunkArraySize The size of aChunkArray.
sl@0	1166	// @param aNumChunks The number of chunks to create.
sl@0	1167	// @param aNumPages The size of each chunk.
sl@0	1168	//
sl@0	1169	TInt AllocMovable(RChunk*& aChunkArray, TUint& aChunkArraySize, TInt aNumChunks, TUint aChunkSize=KChunkDefaultSize, TBool aForceFill = ETrue)
sl@0	1170	{
sl@0	1171	TUint i = 0;
sl@0	1172	TInt r = 0;
sl@0	1173	TUint chunksAllocd = 0;
sl@0	1174	TBool fillAll = EFalse;
sl@0	1175
sl@0	1176	TInt numChunks = aNumChunks;
sl@0	1177	UpdateRamInfo();
sl@0	1178	// Allocate chunks to take up all of memory with the maximum number of chunks
sl@0	1179	if (aNumChunks == KFillAllMovable)
sl@0	1180	{
sl@0	1181	fillAll = ETrue;
sl@0	1182	if (aChunkSize == KChunkDefaultSize)
sl@0	1183	{
sl@0	1184	numChunks = KMaxChunks;
sl@0	1185	aChunkSize = gFreeRam / numChunks;
sl@0	1186	}
sl@0	1187	else
sl@0	1188	{
sl@0	1189	numChunks = gFreeRam / aChunkSize;
sl@0	1190	}
sl@0	1191	}
sl@0	1192
sl@0	1193	test.Printf(_L("gFreeRam = 0x%x, aChunkSize = 0x%x, numChunks = %d\n"), gFreeRam, aChunkSize, numChunks);
sl@0	1194
sl@0	1195	// Allocate as many chunks as is specified, either with the default chunk size or a specified chunk size
sl@0	1196	if (aChunkArray == NULL)
sl@0	1197	{
sl@0	1198	aChunkArraySize = numChunks;
sl@0	1199	aChunkArray = new RChunk[aChunkArraySize];
sl@0	1200	if (aChunkArray == NULL)
sl@0	1201	return KErrNoMemory;
sl@0	1202	}
sl@0	1203
sl@0	1204	// Create chunks for each RChunk with a NULL handle.
sl@0	1205	for (i = 0; i < aChunkArraySize; i++)
sl@0	1206	{
sl@0	1207	if (aChunkArray[i].Handle() == NULL)
sl@0	1208	{
sl@0	1209	// Keep going even if a chunk creation fails as the flag tests rely
sl@0	1210	// on this.
sl@0	1211	r = aChunkArray[i].CreateLocal(aChunkSize, aChunkSize);
sl@0	1212	if (r != KErrNone && fillAll && aForceFill)
sl@0	1213	{
sl@0	1214	while (aChunkArray[i].CreateLocal(aChunkSize, aChunkSize) != KErrNone)
sl@0	1215	{
sl@0	1216	aChunkSize -= gPageSize;
sl@0	1217	}
sl@0	1218	}
sl@0	1219	if (r == KErrNone)
sl@0	1220	{
sl@0	1221	chunksAllocd++;
sl@0	1222	}
sl@0	1223	}
sl@0	1224	User::After(10); // Wait so that the next chunk gets allocated in the next time slice
sl@0	1225	}
sl@0	1226	test.Printf(_L("Number of chunks allocd = %d\n"),chunksAllocd);
sl@0	1227	return r;
sl@0	1228	}
sl@0	1229
sl@0	1230	//
sl@0	1231	// ZoneAllocMovable
sl@0	1232	//
sl@0	1233	// Allocate the specified number of movable pages to a specific zone
sl@0	1234	// If the number of pages is not specified, then fill the specified zone with
sl@0	1235	// movable pages
sl@0	1236	//
sl@0	1237	// @param aChunkArray The array to store a reference to the chunks created.
sl@0	1238	// @param aChunkArraySize The size of aChunkArray.
sl@0	1239	// @param aZoneIndex The zone index to allocate movable pages to.
sl@0	1240	// @param aNumPages The number of movable pages to allocate.
sl@0	1241	//
sl@0	1242	TInt ZoneAllocMovable(RChunk*& aChunkArray, TUint& aChunkArraySize, TUint aZoneIndex, TUint aNumPages = KMaxTUint)
sl@0	1243	{
sl@0	1244	ResetRamZoneFlags();
sl@0	1245	TInt r = KErrNone;
sl@0	1246	TUint allocBytes = 0;
sl@0	1247
sl@0	1248	if (aNumPages == KMaxTUint)
sl@0	1249	{
sl@0	1250	aNumPages = gZoneUtilArray[aZoneIndex].iFreePages;
sl@0	1251	}
sl@0	1252
sl@0	1253	allocBytes = aNumPages << gPageShift;
sl@0	1254
sl@0	1255	if (!SpaceAvailForPageTables(aZoneIndex, aNumPages))
sl@0	1256	{
sl@0	1257	return KErrGeneral;
sl@0	1258	}
sl@0	1259
sl@0	1260	// Block all other zones from allocation
sl@0	1261	for(TUint index = 0; index < gZoneCount; index++)
sl@0	1262	{
sl@0	1263	if (index == aZoneIndex)
sl@0	1264	{
sl@0	1265	r = Ldd.SetZoneFlag(gZoneConfigArray[index].iZoneId, gZoneConfigArray[index].iFlags, NO_FIXED_FLAG);
sl@0	1266	}
sl@0	1267	else
sl@0	1268	{
sl@0	1269	r = Ldd.SetZoneFlag(gZoneConfigArray[index].iZoneId, gZoneConfigArray[index].iFlags, NO_MOVE_FLAG);
sl@0	1270	}
sl@0	1271	if (r != KErrNone)
sl@0	1272	{
sl@0	1273	test.Printf(_L("Failed to set RAM zone flag on zone %d r = %d\n"), index, r);
sl@0	1274	return r;
sl@0	1275	}
sl@0	1276	}
sl@0	1277
sl@0	1278	// Allocate the movable pages
sl@0	1279	r = AllocMovable(aChunkArray, aChunkArraySize, 1, allocBytes);
sl@0	1280
sl@0	1281	ResetRamZoneFlags();
sl@0	1282	return r;
sl@0	1283	}
sl@0	1284
sl@0	1285	//
sl@0	1286	// ZoneAllocDiscard
sl@0	1287	//
sl@0	1288	// Allocate the specified number of discardable pages to a specific zone
sl@0	1289	//
sl@0	1290	// @param aZoneIndex The zone index to allocate discardable pages to.
sl@0	1291	// @param aNumPages The number of discardable pages to allocate.
sl@0	1292	// @param aDisPages On return this will contain the number of discardable pages allocated
sl@0	1293	//
sl@0	1294	TInt ZoneAllocDiscard(TUint aZoneIndex, TUint aNumPages, TInt& aDisPages)
sl@0	1295	{
sl@0	1296	TInt r = KErrNone;
sl@0	1297	ResetRamZoneFlags();
sl@0	1298
sl@0	1299	for (TUint index = 0; index < gZoneCount; index++)
sl@0	1300	{
sl@0	1301	TUint zoneID = gZoneConfigArray[index].iZoneId;
sl@0	1302	if (index == aZoneIndex)
sl@0	1303	{
sl@0	1304	r = Ldd.SetZoneFlag(zoneID, gZoneConfigArray[index].iFlags, ONLY_DISCARD_FLAG);
sl@0	1305	}
sl@0	1306	else
sl@0	1307	{
sl@0	1308	r = Ldd.SetZoneFlag(zoneID, gZoneConfigArray[index].iFlags, NO_DISCARD_FLAG);
sl@0	1309	}
sl@0	1310
sl@0	1311	if (r != KErrNone)
sl@0	1312	{
sl@0	1313	test.Printf(_L("Failed to set flag r = %d\n"), r);
sl@0	1314	return r;
sl@0	1315	}
sl@0	1316	}
sl@0	1317
sl@0	1318	TUint disBytes = gTotalPageCount.iDiscardablePages + aNumPages << gPageShift;
sl@0	1319	r = AllocDiscardable(aDisPages, disBytes);
sl@0	1320	aDisPages = aDisPages >> gPageShift;
sl@0	1321	if (r != KErrNone)
sl@0	1322	{
sl@0	1323	test.Printf(_L("Discardable pages not allocated r = %d\n"), r);
sl@0	1324	}
sl@0	1325	ResetRamZoneFlags();
sl@0	1326	return r;
sl@0	1327	}
sl@0	1328
sl@0	1329	//
sl@0	1330	// FreeMovable
sl@0	1331	//
sl@0	1332	// Free movable pages by closing chunks.
sl@0	1333	// The function will close every other chunk so that the movable pages are scattered in every zone
sl@0	1334	//
sl@0	1335	// @param aChunkArray The array that stores reference to the chunks created.
sl@0	1336	// @param aChunkArraySize The size of aChunkArray.
sl@0	1337	//
sl@0	1338	TInt FreeMovable(RChunk* aChunkArray, TUint aChunkArraySize)
sl@0	1339	{
sl@0	1340	TUint i;
sl@0	1341	TInt closedChunks = 0;
sl@0	1342
sl@0	1343	for (i=0; i < aChunkArraySize; i+=2) // Close every other chunk
sl@0	1344	{
sl@0	1345	if (aChunkArray[i].Handle() != NULL)
sl@0	1346	{
sl@0	1347	aChunkArray[i].Close();
sl@0	1348	closedChunks ++;
sl@0	1349	}
sl@0	1350	}
sl@0	1351	UpdateRamInfo();
sl@0	1352	test.Printf(_L("Free RAM after closing %d chunks = 0x%x\n"),closedChunks,gFreeRam);
sl@0	1353	return KErrNone;
sl@0	1354	}
sl@0	1355
sl@0	1356	//
sl@0	1357	// GetBestZone
sl@0	1358	//
sl@0	1359	// Obtains the most preferable zone for allocating a specific type of page
sl@0	1360	//
sl@0	1361	// @param aPageType The page type that we are interested in
sl@0	1362	// @param aBestPrefIndex The index into the preference array for the zone.
sl@0	1363	//
sl@0	1364	// @return KErrNotFound if a zone cannot be found, else the zone index into gZoneUtilArray
sl@0	1365	//
sl@0	1366	TInt GetBestZone(TInt aPageType, TUint* aBestPrefIndex = NULL)
sl@0	1367	{
sl@0	1368	GetPrefOrder();
sl@0	1369
sl@0	1370
sl@0	1371	switch (aPageType)
sl@0	1372	{
sl@0	1373	case BEST_MOVABLE:
sl@0	1374	case BEST_DISCARDABLE:
sl@0	1375	{
sl@0	1376	TInt bestIndex = KErrNotFound;
sl@0	1377	TUint bestPrefIndex = 0;
sl@0	1378	TUint curIndex = 0;
sl@0	1379	TInt startIndex = KErrNotFound;
sl@0	1380	TBool zoneFound = EFalse;
sl@0	1381	// Find the least preferable zone that has movable or discardable pages
sl@0	1382	for (TInt prefIndex = gZoneCount - 1; prefIndex >= 0; prefIndex--)
sl@0	1383	{
sl@0	1384	curIndex = gPrefArray[prefIndex];
sl@0	1385	if (gZoneUtilArray[curIndex].iAllocMovable \|\| gZoneUtilArray[curIndex].iAllocDiscardable)
sl@0	1386	{
sl@0	1387	startIndex = prefIndex;
sl@0	1388	break;
sl@0	1389	}
sl@0	1390	}
sl@0	1391	if (startIndex == KErrNotFound)
sl@0	1392	return startIndex;
sl@0	1393
sl@0	1394	// Work up the preference list to look for the best zone
sl@0	1395	for (TInt prefIndex = startIndex; prefIndex >= 0; prefIndex--)
sl@0	1396	{
sl@0	1397	curIndex = gPrefArray[prefIndex];
sl@0	1398	if (gZoneUtilArray[curIndex].iFreePages)
sl@0	1399	{
sl@0	1400	bestIndex = curIndex;
sl@0	1401	bestPrefIndex = prefIndex;
sl@0	1402	zoneFound = ETrue;
sl@0	1403	break;
sl@0	1404	}
sl@0	1405	}
sl@0	1406
sl@0	1407	// If the zone still isn't found, look down the preference list
sl@0	1408	if (!zoneFound)
sl@0	1409	{
sl@0	1410	for (TUint prefIndex = startIndex; prefIndex < gZoneCount; prefIndex++)
sl@0	1411	{
sl@0	1412	curIndex = gPrefArray[prefIndex];
sl@0	1413	if (gZoneUtilArray[curIndex].iFreePages)
sl@0	1414	{
sl@0	1415	bestIndex = curIndex;
sl@0	1416	bestPrefIndex = prefIndex;
sl@0	1417	zoneFound = ETrue;
sl@0	1418	break;
sl@0	1419	}
sl@0	1420	}
sl@0	1421	}
sl@0	1422
sl@0	1423	test.Printf(_L("leastPref = %d\n"), bestIndex);
sl@0	1424	if (aBestPrefIndex)
sl@0	1425	*aBestPrefIndex = bestPrefIndex;
sl@0	1426	return bestIndex;
sl@0	1427	}
sl@0	1428
sl@0	1429	case BEST_FIXED:
sl@0	1430	for (TUint prefIndex = 0; prefIndex < gZoneCount; prefIndex++)
sl@0	1431	{
sl@0	1432	TUint mostPref = gPrefArray[prefIndex];
sl@0	1433	if (gZoneUtilArray[mostPref].iFreePages != 0 \|\|
sl@0	1434	gZoneUtilArray[mostPref].iAllocMovable != 0 \|\|
sl@0	1435	gZoneUtilArray[mostPref].iAllocDiscardable != 0)
sl@0	1436	{
sl@0	1437	test.Printf(_L("mostPref = %d\n"), mostPref);
sl@0	1438	if (aBestPrefIndex)
sl@0	1439	*aBestPrefIndex = prefIndex;
sl@0	1440	return mostPref;
sl@0	1441	}
sl@0	1442	}
sl@0	1443	break;
sl@0	1444	}
sl@0	1445
sl@0	1446	test.Printf(_L("Cannot find zone\n"));
sl@0	1447	return KErrNotFound;
sl@0	1448	}
sl@0	1449
sl@0	1450	void GetCandList1(TInt aIndex);
sl@0	1451	//
sl@0	1452	// VerifyMovDisAlloc
sl@0	1453	//
sl@0	1454	// Checks that all movable and discardable pages are in the correct RAM zones.
sl@0	1455	// Should only be invoked after a general defragmentation or a general
sl@0	1456	// defragmentation followed by an allocation.
sl@0	1457	//
sl@0	1458	// NOTE - This shouldn't be used to verify RAM if a RAM specific allocation or
sl@0	1459	// zone claim operation has been performed.
sl@0	1460	//
sl@0	1461	// @return KErrNone if RAM layout is good, KErrGeneral if not, KErrNotFound if no
sl@0	1462	// movable or discardable pages are allocated.
sl@0	1463	//
sl@0	1464	TInt VerifyMovDisAlloc()
sl@0	1465	{
sl@0	1466	GetPrefOrder();
sl@0	1467	TInt leastInUse = KErrNotFound;
sl@0	1468	TUint requiredMovDis = 0;
sl@0	1469	TUint totalMorePrefInUse = 0;
sl@0	1470	TBool verifySpread = ETrue;
sl@0	1471	TBool prevZoneNotFull = EFalse;
sl@0	1472
sl@0	1473	// Determine which is the least prefable RAM zone in use and how many pages
sl@0	1474	// are allocated of each type.
sl@0	1475	for (TInt prefIndex = gZoneCount - 1; prefIndex >= 0; prefIndex--)
sl@0	1476	{
sl@0	1477	TUint index = gPrefArray[prefIndex];
sl@0	1478	TUint allocMov = gZoneUtilArray[index].iAllocMovable;
sl@0	1479	TUint allocDis = gZoneUtilArray[index].iAllocDiscardable;
sl@0	1480	TUint allocFixed = gZoneUtilArray[index].iAllocFixed;
sl@0	1481	TESTDEBUG(test.Printf(_L("pref ID 0x%x\n"), gZoneConfigArray[index].iZoneId));
sl@0	1482	if (allocMov \|\| allocDis \|\| allocFixed)
sl@0	1483	{
sl@0	1484	TBool zoneNotFull = EFalse;
sl@0	1485	GetCandList1(index);
sl@0	1486	TUint candIndex = 0;
sl@0	1487	for (; candIndex < gZoneCount; candIndex++)
sl@0	1488	{
sl@0	1489	TInt zoneIndexCand = gCandList1[candIndex];
sl@0	1490	if (zoneIndexCand == KInvalidCandIndex)
sl@0	1491	{
sl@0	1492	break;
sl@0	1493	}
sl@0	1494	allocMov += gZoneUtilArray[zoneIndexCand].iAllocMovable;
sl@0	1495	allocDis += gZoneUtilArray[zoneIndexCand].iAllocDiscardable;
sl@0	1496	if (gZoneUtilArray[zoneIndexCand].iFreePages)
sl@0	1497	{
sl@0	1498	zoneNotFull = ETrue;
sl@0	1499	}
sl@0	1500	}
sl@0	1501	prefIndex -= candIndex - 1;
sl@0	1502	if (leastInUse == KErrNotFound)
sl@0	1503	{// Have found least preferable RAM zone that is in use.
sl@0	1504	leastInUse = index;
sl@0	1505	if (allocFixed)
sl@0	1506	{// The least preferable RAM zone has fixed pages in it so
sl@0	1507	// RAM may be more spread out than is necessary.
sl@0	1508	verifySpread = EFalse;
sl@0	1509	}
sl@0	1510	}
sl@0	1511	else
sl@0	1512	{
sl@0	1513	if ((allocMov \|\| allocDis) && prevZoneNotFull)
sl@0	1514	{// The previous least preferable RAM zones were not full so shouldn't
sl@0	1515	// be any movable or discardable pages in the RAM zones of this preference.
sl@0	1516	test.Printf(_L("Movable or discardable pages in more preferable RAM zones unnecessarily\n"));
sl@0	1517	return KErrGeneral;
sl@0	1518	}
sl@0	1519	prevZoneNotFull = zoneNotFull;
sl@0	1520
sl@0	1521	// Not the least preferable RAM zone so add to total allocatable.
sl@0	1522	totalMorePrefInUse += allocMov + allocDis + gZoneUtilArray[index].iFreePages;
sl@0	1523	}
sl@0	1524	requiredMovDis += allocMov + allocDis;
sl@0	1525	}
sl@0	1526	}
sl@0	1527
sl@0	1528	if (leastInUse == KErrNotFound)
sl@0	1529	{// No movable or discardable pages are allocated.
sl@0	1530	test.Printf(_L("No in use RAM zones found????\n"));
sl@0	1531	return KErrNotFound;
sl@0	1532	}
sl@0	1533
sl@0	1534	if (totalMorePrefInUse > requiredMovDis)
sl@0	1535	{// There enough allocatable pages in the RAM zones below the currently
sl@0	1536	// least preferable RAM in use.
sl@0	1537	test.Printf(_L("Memory is spread out totalMorePref 0x%x required 0x%x\n"), totalMorePrefInUse, requiredMovDis);
sl@0	1538	if (verifySpread)
sl@0	1539	return KErrGeneral;
sl@0	1540	}
sl@0	1541	return KErrNone;
sl@0	1542	}
sl@0	1543
sl@0	1544
sl@0	1545	//
sl@0	1546	// GetCandList1
sl@0	1547	//
sl@0	1548	// Populates a list of all zones that have the same preference and the same amount
sl@0	1549	// of immovable pages
sl@0	1550	//
sl@0	1551	void GetCandList1(TInt aIndex)
sl@0	1552	{
sl@0	1553	for (TUint i=0; i<gZoneCount; i++)
sl@0	1554	{
sl@0	1555	gCandList1[i] = KInvalidCandIndex;
sl@0	1556	}
sl@0	1557
sl@0	1558	TInt candListIndex = 0;
sl@0	1559	GetAllPageInfo();
sl@0	1560	for (TUint i=0; i<gZoneCount; i++)
sl@0	1561	{
sl@0	1562	if (ZonesSamePref(aIndex, i))
sl@0	1563	{
sl@0	1564	gCandList1[candListIndex] = i;
sl@0	1565	candListIndex ++;
sl@0	1566	}
sl@0	1567	}
sl@0	1568	}
sl@0	1569
sl@0	1570	//
sl@0	1571	// GetCandList2
sl@0	1572	//
sl@0	1573	// Populates a list of all zones that have the same preference and the same amount
sl@0	1574	// of immovable pages
sl@0	1575	//
sl@0	1576	void GetCandList2(TInt aIndex)
sl@0	1577	{
sl@0	1578	for (TUint i=0; i<gZoneCount; i++)
sl@0	1579	{
sl@0	1580	gCandList2[i] = KInvalidCandIndex;
sl@0	1581	}
sl@0	1582
sl@0	1583	TInt candListIndex = 0;
sl@0	1584	GetAllPageInfo();
sl@0	1585	for (TUint i=0; i<gZoneCount; i++)
sl@0	1586	{
sl@0	1587	if (ZonesSamePref(aIndex, i))
sl@0	1588	{
sl@0	1589	gCandList2[candListIndex] = i;
sl@0	1590	candListIndex ++;
sl@0	1591	}
sl@0	1592	}
sl@0	1593	}
sl@0	1594
sl@0	1595	//
sl@0	1596	// GetCandListFixed1
sl@0	1597	//
sl@0	1598	// Populates a list of all zones that have the same preference and the same
sl@0	1599	// amount of immovable pages, it will ignore RAM zones that are full of
sl@0	1600	// immovable pages as these are the only RAM zones that fixed pages can't be
sl@0	1601	// allocated into.
sl@0	1602	//
sl@0	1603	void GetCandListFixed1(TInt aIndex)
sl@0	1604	{
sl@0	1605	for (TUint i=0; i<gZoneCount; i++)
sl@0	1606	{
sl@0	1607	gCandList1[i] = KInvalidCandIndex;
sl@0	1608	}
sl@0	1609
sl@0	1610	TInt candListIndex = 0;
sl@0	1611	GetAllPageInfo();
sl@0	1612	for (TUint i=0; i<gZoneCount; i++)
sl@0	1613	{
sl@0	1614	if (ZonesSamePref(aIndex, i) &&
sl@0	1615	gZoneUtilArray[i].iAllocFixed + gZoneUtilArray[i].iAllocUnknown !=
sl@0	1616	gZoneConfigArray[i].iPhysPages)
sl@0	1617	{
sl@0	1618	gCandList1[candListIndex] = i;
sl@0	1619	candListIndex ++;
sl@0	1620	}
sl@0	1621	}
sl@0	1622	}
sl@0	1623
sl@0	1624	//
sl@0	1625	// MultiGenDefragThreadFunc
sl@0	1626	//
sl@0	1627	// Called when a general defrag is called to run at the same time as another operation
sl@0	1628	//
sl@0	1629	TInt MultiGenDefragThreadFunc(TAny* /aPtr/)
sl@0	1630	{
sl@0	1631	RRamDefragFuncTestLdd Ldd2;
sl@0	1632	TInt r = Ldd2.Open();
sl@0	1633	if (r != KErrNone)
sl@0	1634	{
sl@0	1635	RDebug::Printf("Unable to open Ldd2 in MultiGenDefragThreadFunc, r = %d\n", r);
sl@0	1636	return r;
sl@0	1637	}
sl@0	1638
sl@0	1639	RThread thisThread = RThread();
sl@0	1640	thisThread.SetPriority(EPriorityLess);
sl@0	1641	r = Ldd2.CallDefrag(DEFRAG_TYPE_GEN, DEFRAG_VER_SYNC);
sl@0	1642	Ldd2.Close();
sl@0	1643	thisThread.Close();
sl@0	1644	return r;
sl@0	1645	}
sl@0	1646
sl@0	1647	TBool gTestLoop = EFalse;
sl@0	1648	//
sl@0	1649	// MultiLoopGenDefragThreadFunc
sl@0	1650	//
sl@0	1651	// Called when a general defrag is called to run at the same time as another operation
sl@0	1652	//
sl@0	1653	TInt MultiLoopGenDefragThreadFunc(TAny* /aPtr/)
sl@0	1654	{
sl@0	1655	RRamDefragFuncTestLdd Ldd2;
sl@0	1656	TInt r = Ldd2.Open();
sl@0	1657	if (r != KErrNone)
sl@0	1658	{
sl@0	1659	RDebug::Printf("Unable to open Ldd2 in MultiLoopGenDefragThreadFunc, r = %d\n", r);
sl@0	1660	return r;
sl@0	1661	}
sl@0	1662
sl@0	1663	RThread thisThread = RThread();
sl@0	1664	thisThread.SetPriority(EPriorityLess);
sl@0	1665	while (gTestLoop)
sl@0	1666	{
sl@0	1667	r = Ldd2.CallDefrag(DEFRAG_TYPE_GEN, DEFRAG_VER_SYNC);
sl@0	1668	if (r != KErrNone)
sl@0	1669	goto threadExit;
sl@0	1670	}
sl@0	1671	threadExit:
sl@0	1672	Ldd2.Close();
sl@0	1673	thisThread.Close();
sl@0	1674	return r;
sl@0	1675	}
sl@0	1676
sl@0	1677	//
sl@0	1678	// MultiEmptyZoneThreadFunc
sl@0	1679	//
sl@0	1680	// Called when a zone defrag is called to run at the same time as another operation
sl@0	1681	//
sl@0	1682	TInt MultiEmptyZoneThreadFunc(TAny* zoneID)
sl@0	1683	{
sl@0	1684	RRamDefragFuncTestLdd Ldd2;
sl@0	1685	TInt r = Ldd2.Open();
sl@0	1686	if (r != KErrNone)
sl@0	1687	{
sl@0	1688	RDebug::Printf("Unable to open Ldd2 in MultiEmptyZoneThreadFunc, r = %d\n", r);
sl@0	1689	return r;
sl@0	1690	}
sl@0	1691
sl@0	1692	RThread thisThread = RThread();
sl@0	1693	thisThread.SetPriority(EPriorityLess);
sl@0	1694	r = Ldd2.CallDefrag(DEFRAG_TYPE_EMPTY, DEFRAG_VER_SYNC, (TUint)zoneID);
sl@0	1695	Ldd2.Close();
sl@0	1696	thisThread.Close();
sl@0	1697	return r;
sl@0	1698	}
sl@0	1699
sl@0	1700
sl@0	1701	//
sl@0	1702	// MultiClaimZoneThreadFunc
sl@0	1703	//
sl@0	1704	// Called when a ClaimRamZone is called to run at the same time as another operation
sl@0	1705	//
sl@0	1706	TInt MultiClaimZoneThreadFunc(TAny* zoneID)
sl@0	1707	{
sl@0	1708	RRamDefragFuncTestLdd Ldd2;
sl@0	1709	TInt r = Ldd2.Open();
sl@0	1710	if (r != KErrNone)
sl@0	1711	{
sl@0	1712	RDebug::Printf("Unable to open Ldd2 in MultiClaimZoneThreadFunc, r = %d\n", r);
sl@0	1713	return r;
sl@0	1714	}
sl@0	1715
sl@0	1716	RThread thisThread = RThread();
sl@0	1717	thisThread.SetPriority(EPriorityLess);
sl@0	1718	r = Ldd2.CallDefrag(DEFRAG_TYPE_CLAIM, DEFRAG_VER_SYNC, (TUint)zoneID);
sl@0	1719	Ldd2.Close();
sl@0	1720	thisThread.Close();
sl@0	1721	return r;
sl@0	1722	}
sl@0	1723
sl@0	1724
sl@0	1725	//
sl@0	1726	// TestAllocStrategies
sl@0	1727	//
sl@0	1728	// Verifying that pages are allocated correctly. All tests rely on a general defragmentation occuring
sl@0	1729	// in TestStart() so that memory is in a defragmented state before the allocations.
sl@0	1730	//
sl@0	1731	//---------------------------------------------------------------------------------------------------------------------
sl@0	1732	//! @SYMTestCaseID KBASE-t_ramdefrag-0525
sl@0	1733	//! @SYMTestCaseDesc Verifying that pages are allocated correctly
sl@0	1734	//! @SYMTestType CIT
sl@0	1735	//! @SYMPREQ PREQ308
sl@0	1736	//! @SYMTestPriority High
sl@0	1737	//! @SYMTestActions
sl@0	1738	//! 1. Allocate one chunk to memory.
sl@0	1739	//! Check which zone the chunk has been allocated to by checking the
sl@0	1740	//! number of movable pages before and after the allocation has taken place.
sl@0	1741	//! 2. Allocate one chunk to memory that is large enough to cause an empty RAM
sl@0	1742	//! zone to be used.
sl@0	1743	//! 3. Allocate a certain number of fixed pages to memory.
sl@0	1744	//! Check which zone the chunk has been allocated to by checking the
sl@0	1745	//! number of fixed pages before and after the allocation has taken place.
sl@0	1746	//! 4. Allocate fixed pages when it is known that discardable pages will need
sl@0	1747	//! to be discarded for the allocation to succeed.
sl@0	1748	//! 5. Allocate fixed pages when it is known that movable pages will need
sl@0	1749	//! to be moved for the allocation to succeed.
sl@0	1750	//! 6. Allocate fixed pages when it is known that movable pages will need
sl@0	1751	//! to be moved for the allocation to succeed, Determine the "best" zone for fixed pages and allocate 1 more
sl@0	1752	//! than that.
sl@0	1753	//! 7. Allocate discardable pages by loading pages that are demand paged.
sl@0	1754	//! Check which zone the memory has been allocated to by checking the number of
sl@0	1755	//! discardable pages before and after the allocation has taken place.
sl@0	1756	//!
sl@0	1757	//! @SYMTestExpectedResults
sl@0	1758	//! 1. The memory has been allocated to the most preferred zone with the least amount of
sl@0	1759	//! space accounting for the zone threshold for movable pages.
sl@0	1760	//! 2. The new RAM zone is used and the movable page are allocated into it first then the other
sl@0	1761	//! more preferable RAM zones.
sl@0	1762	//! 3. The fixed pages are allocated to the most preferred zone
sl@0	1763	//! 4. The fixed pages are allocatted to the most preferred zone with free, movable or discardable pages in it.
sl@0	1764	//! 5. The fixed pages are allocatted to the most preferred zone with free, movable or discardable pages in it.
sl@0	1765	//! 6. Extra page is placed in the next preferable to the "best"zone
sl@0	1766	//! 7. Memory is allocated to the most preferred zone with the least amount of
sl@0	1767	//! space accounting for the zone threshold for discardable pages.
sl@0	1768	//---------------------------------------------------------------------------------------------------------------------
sl@0	1769	TInt TestAllocStrategies()
sl@0	1770	{
sl@0	1771
sl@0	1772	test.Start(_L("Test1: Check which zone a movable page has been allocated to "));
sl@0	1773	TestStart(); //This will perform a general defrag which should tidy up RAM for us
sl@0	1774	gChunkArray1 = new RChunk;
sl@0	1775	gChunkArraySize1 = 1;
sl@0	1776	TBool zoneFound = EFalse;
sl@0	1777
sl@0	1778	// Determine if suitable RAM zone exists for testing
sl@0	1779	TInt best = GetBestZone(BEST_MOVABLE);
sl@0	1780	if (best == KErrNotFound)
sl@0	1781	{
sl@0	1782	test.Printf(_L("Cannot find zone to perform test - Skipping...\n"));
sl@0	1783	}
sl@0	1784	else
sl@0	1785	{
sl@0	1786	test.Printf(_L("best = %d\n"), best);
sl@0	1787	// Populate the candidate list
sl@0	1788	GetCandList2(best);
sl@0	1789	// Allocate 1 movable page
sl@0	1790	GetOriginalPageCount();
sl@0	1791	if (AllocMovable(gChunkArray1, gChunkArraySize1, 1, gPageSize) != KErrNone)
sl@0	1792	{
sl@0	1793	test.Printf(_L("Not enough free RAM for test - Skipping...\n"));
sl@0	1794	}
sl@0	1795	else
sl@0	1796	{
sl@0	1797	GetAllPageInfo();
sl@0	1798	TInt r = VerifyMovDisAlloc();
sl@0	1799	// Need to check all candidates to see if page has gone into any one of them
sl@0	1800	for (TUint i=0; i < gZoneCount; i++)
sl@0	1801	{
sl@0	1802	if (gCandList2[i] == KInvalidCandIndex)
sl@0	1803	{
sl@0	1804	break;
sl@0	1805	}
sl@0	1806	TUint zoneIndex = gCandList2[i];
sl@0	1807	if (gOriginalPageCountArray[zoneIndex].iAllocMovable < gZoneUtilArray[zoneIndex].iAllocMovable)
sl@0	1808	{
sl@0	1809	zoneFound = ETrue;
sl@0	1810	break;
sl@0	1811	}
sl@0	1812	}
sl@0	1813
sl@0	1814	if (r == KErrNone && zoneFound)
sl@0	1815	{
sl@0	1816	test.Printf(_L("Pass: Movable allocated to the zone expected\n"));
sl@0	1817	}
sl@0	1818	else
sl@0	1819	{
sl@0	1820	test.Printf(_L("Fail: Movable allocated to a zone that was not expected, r %d\n"), r);
sl@0	1821	CLEANUP(RemoveChunkAlloc(gChunkArray1, gChunkArraySize1));
sl@0	1822	TEST_FAIL;
sl@0	1823	}
sl@0	1824	}
sl@0	1825	}
sl@0	1826	TestEnd();
sl@0	1827
sl@0	1828	test.Next(_L("Test2: Check that movable pages allocated from least preferable RAM zone to be used\n"));
sl@0	1829	TestStart();
sl@0	1830	gChunkArray1 = new RChunk;
sl@0	1831	gChunkArraySize1 = 1;
sl@0	1832	// Determine if suitable RAM zone exists for testing.
sl@0	1833	TUint bestPrefIndex;
sl@0	1834	best = GetBestZone(BEST_MOVABLE, &bestPrefIndex);
sl@0	1835	TUint morePrefIndex = bestPrefIndex - 1;
sl@0	1836	TUint nextLeastPrefIndex = bestPrefIndex + 1;
sl@0	1837
sl@0	1838
sl@0	1839	// Check number of free pages in the more preferable zones
sl@0	1840	TUint freeInMorePref = 0;
sl@0	1841	for (TUint i = 0; i < bestPrefIndex; i++)
sl@0	1842	{
sl@0	1843	freeInMorePref += gZoneUtilArray[gPrefArray[i]].iFreePages;
sl@0	1844	}
sl@0	1845
sl@0	1846	test.Printf(_L("freeInMorePref = 0x%x\n"), freeInMorePref);
sl@0	1847	const TUint KHeapOverhead = 5; // Room for kernel heap allocations so they don't affect the page count
sl@0	1848	if (best == KErrNotFound \|\| nextLeastPrefIndex >= gZoneCount \|\|
sl@0	1849	(gZoneUtilArray[gPrefArray[nextLeastPrefIndex]].iFreePages < KHeapOverhead &&
sl@0	1850	freeInMorePref < KHeapOverhead)\|\|
sl@0	1851	gZoneConfigArray[gPrefArray[nextLeastPrefIndex]].iPref == gZoneConfigArray[best].iPref \|\|
sl@0	1852	gZoneConfigArray[gPrefArray[morePrefIndex]].iPref == gZoneConfigArray[best].iPref)
sl@0	1853	{// No less preferable RAM zone or there are more or less preferable of
sl@0	1854	// same preference so re-ordering potential makes verification too complex.
sl@0	1855	test.Printf(_L("Cannot find zone to perform test - Skipping...\n"));
sl@0	1856	}
sl@0	1857	else
sl@0	1858	{
sl@0	1859	// Ensure the zone is almost full as chunks will get allocated in blocks
sl@0	1860	// by almost filling the best zone with fixed pages, leaving a space (e.g. 20 pages)
sl@0	1861	const TUint KSpaceNeeded = 20;
sl@0	1862	if (gZoneUtilArray[best].iFreePages > KSpaceNeeded)
sl@0	1863	{
sl@0	1864	TUint zoneID = gZoneUtilArray[best].iZoneId;
sl@0	1865	TUint diffAlloc = gZoneUtilArray[best].iFreePages - KSpaceNeeded;
sl@0	1866	TInt r = Ldd.ZoneAllocDiscontiguous(zoneID, diffAlloc);
sl@0	1867	if (r != KErrNone)
sl@0	1868	{
sl@0	1869	CLEANUP(Ldd.FreeAllFixedPages());
sl@0	1870	TEST_FAIL;
sl@0	1871	}
sl@0	1872	}
sl@0	1873
sl@0	1874
sl@0	1875
sl@0	1876	GetAllPageInfo();
sl@0	1877	// Update the number of free pages in the more preferable zones
sl@0	1878	freeInMorePref = 0;
sl@0	1879	for (TUint i = 0; i < bestPrefIndex; i++)
sl@0	1880	{
sl@0	1881	freeInMorePref += gZoneUtilArray[gPrefArray[i]].iFreePages;
sl@0	1882	}
sl@0	1883	TUint origFixed = gTotalPageCount.iFixedPages;
sl@0	1884
sl@0	1885	GetOriginalPageCount();
sl@0	1886
sl@0	1887	// Allocate enough movable pages that the next least preferable RAM zone
sl@0	1888	// will need to be used.
sl@0	1889	TUint movPages = gZoneUtilArray[best].iFreePages + 1;
sl@0	1890	TUint movBytes = movPages << gPageShift;
sl@0	1891	TInt r = AllocMovable(gChunkArray1, gChunkArraySize1, 1, movBytes);
sl@0	1892	if (r != KErrNone)
sl@0	1893	{
sl@0	1894	CLEANUP(Ldd.FreeAllFixedPages());
sl@0	1895	CLEANUP(RemoveChunkAlloc(gChunkArray1, gChunkArraySize1));
sl@0	1896	TEST_FAIL;
sl@0	1897	}
sl@0	1898
sl@0	1899	GetAllPageInfo();
sl@0	1900	TUint curFixed = gTotalPageCount.iFixedPages;
sl@0	1901	TInt difFixed = curFixed - origFixed;
sl@0	1902
sl@0	1903	// If there is space in the more preferable zones then they should be allocated starting from
sl@0	1904	// the "best" zone to the more preferable zones, else from the next least preferable zone to the more preferable zones
sl@0	1905	TUint prefIndex;
sl@0	1906	if ((TInt)freeInMorePref > difFixed)
sl@0	1907	{//No new zones should be turned on, allocation should have gone into bestPrefIndex then down towards most preferred zones
sl@0	1908	TUint nextIndex = gPrefArray[nextLeastPrefIndex];
sl@0	1909	if (gOriginalPageCountArray[best].iAllocMovable >= gZoneUtilArray[best].iAllocMovable \|\|
sl@0	1910	gOriginalPageCountArray[nextIndex].iAllocMovable < gZoneUtilArray[nextIndex].iAllocMovable)
sl@0	1911	{
sl@0	1912	test.Printf(_L("Movable page allocated incorrectly origFree 0x%x curFree 0x%x nxtPrefFree 0x%x\n"),
sl@0	1913	gOriginalPageCountArray[best].iFreePages, gZoneUtilArray[best].iFreePages,
sl@0	1914	gZoneUtilArray[nextLeastPrefIndex].iFreePages);
sl@0	1915	CLEANUP(Ldd.FreeAllFixedPages());
sl@0	1916	CLEANUP(RemoveChunkAlloc(gChunkArray1, gChunkArraySize1));
sl@0	1917	TEST_FAIL;
sl@0	1918	}
sl@0	1919	prefIndex = morePrefIndex;
sl@0	1920	}
sl@0	1921	else
sl@0	1922	{// If there are enough free pages in "nextIndex" to fit all movable pages allocated then the movable
sl@0	1923	// page count in "best" should stay the same, else they should be allocated between "nextIndex" and "best".
sl@0	1924	TUint nextIndex = gPrefArray[nextLeastPrefIndex];
sl@0	1925	test.Printf(_L("nextIndex = %d\n"), nextIndex);
sl@0	1926	if (gOriginalPageCountArray[nextIndex].iAllocMovable >= gZoneUtilArray[nextIndex].iAllocMovable \|\|
sl@0	1927	(gOriginalPageCountArray[nextIndex].iFreePages >= movPages &&
sl@0	1928	gOriginalPageCountArray[best].iAllocMovable != gZoneUtilArray[best].iAllocMovable) \|\|
sl@0	1929	(gOriginalPageCountArray[nextIndex].iFreePages < movPages &&
sl@0	1930	gOriginalPageCountArray[best].iAllocMovable == gZoneUtilArray[best].iAllocMovable))
sl@0	1931	{
sl@0	1932	test.Printf(_L("Movable page allocated incorrectly origFree 0x%x curFree 0x%x nxtPrefFree 0x%x\n"),
sl@0	1933	gOriginalPageCountArray[nextIndex].iFreePages, gZoneUtilArray[nextIndex].iFreePages,
sl@0	1934	gZoneUtilArray[nextIndex].iFreePages);
sl@0	1935	CLEANUP(Ldd.FreeAllFixedPages());
sl@0	1936	CLEANUP(RemoveChunkAlloc(gChunkArray1, gChunkArraySize1));
sl@0	1937	TEST_FAIL;
sl@0	1938	}
sl@0	1939	prefIndex = bestPrefIndex;
sl@0	1940	}
sl@0	1941
sl@0	1942	// Check that movable pages have only been allocated into the more
sl@0	1943	// preferable RAM zones if the less preferable ram zones in use are full.
sl@0	1944	prefIndex++;
sl@0	1945	do
sl@0	1946	{
sl@0	1947	prefIndex--;
sl@0	1948	TUint indexCurrent = gPrefArray[prefIndex];
sl@0	1949	TUint indexLessPref = gPrefArray[prefIndex+1];
sl@0	1950
sl@0	1951	if (gOriginalPageCountArray[indexCurrent].iAllocMovable < gZoneUtilArray[indexCurrent].iAllocMovable &&
sl@0	1952	gZoneUtilArray[indexLessPref].iFreePages)
sl@0	1953	{// Current in use zone or less preferable than current has free pages so fail
sl@0	1954	test.Printf(_L("Movable page allocated incorrectly origFree 0x%x curFree 0x%x nxtPrefFree 0x%x\n"),
sl@0	1955	gOriginalPageCountArray[best].iFreePages, gZoneUtilArray[best].iFreePages,
sl@0	1956	gZoneUtilArray[nextLeastPrefIndex].iFreePages);
sl@0	1957	CLEANUP(Ldd.FreeAllFixedPages());
sl@0	1958	CLEANUP(RemoveChunkAlloc(gChunkArray1, gChunkArraySize1));
sl@0	1959	TEST_FAIL;
sl@0	1960	}
sl@0	1961	}
sl@0	1962	while(prefIndex);
sl@0	1963	test.Printf(_L("Pass: Pages allocated to the zone expected\n"));
sl@0	1964	}
sl@0	1965	TestEnd();
sl@0	1966
sl@0	1967	test.Next(_L("Test3: Check which zone a fixed page has been allocated to "));
sl@0	1968	for (TUint testStep = 0; testStep < 2; testStep++)
sl@0	1969	{
sl@0	1970	switch (testStep)
sl@0	1971	{
sl@0	1972	case 0:
sl@0	1973	test.Printf(_L("Testing discontiguous allocations\n"));
sl@0	1974	break;
sl@0	1975
sl@0	1976	case 1:
sl@0	1977	test.Printf(_L("Testing contiguous allocations\n"));
sl@0	1978	break;
sl@0	1979	}
sl@0	1980	TestStart();
sl@0	1981	zoneFound = EFalse;
sl@0	1982	GetOriginalPageCount();
sl@0	1983
sl@0	1984	best = GetBestZone(BEST_FIXED);
sl@0	1985	TESTDEBUG(test.Printf(_L("best = %d\n"), best));
sl@0	1986	if (best == KErrNotFound)
sl@0	1987	{
sl@0	1988	test.Printf(_L("Cannot find zone to perform test - Skipping...\n"));
sl@0	1989	}
sl@0	1990	else
sl@0	1991	{
sl@0	1992	GetCandList1(best);
sl@0	1993	TInt allocFixedPages = 1; // Try and allocate just 1 fixed page
sl@0	1994	switch (testStep)
sl@0	1995	{
sl@0	1996	case 0:
sl@0	1997	Ldd.AllocateFixed(allocFixedPages);
sl@0	1998	break;
sl@0	1999
sl@0	2000	case 1:
sl@0	2001	TUint allocFixedBytes = allocFixedPages << gPageShift;
sl@0	2002	Ldd.AllocContiguous(allocFixedBytes);
sl@0	2003	break;
sl@0	2004	}
sl@0	2005
sl@0	2006
sl@0	2007	GetAllPageInfo();
sl@0	2008	for (TUint i=0; i<gZoneCount; i++)
sl@0	2009	{
sl@0	2010	if (gCandList1[i] == KInvalidCandIndex)
sl@0	2011	{
sl@0	2012	break;
sl@0	2013	}
sl@0	2014	TUint zoneIndex = gCandList1[i];
sl@0	2015	if (gOriginalPageCountArray[zoneIndex].iAllocFixed + allocFixedPages <= gZoneUtilArray[zoneIndex].iAllocFixed)
sl@0	2016	{
sl@0	2017	zoneFound = ETrue;
sl@0	2018	break;
sl@0	2019	}
sl@0	2020	}
sl@0	2021
sl@0	2022	if (zoneFound)
sl@0	2023	{
sl@0	2024	test.Printf(_L("Pass: Chunk has been allocated to the zone expected\n"));
sl@0	2025	}
sl@0	2026	else
sl@0	2027	{
sl@0	2028	test.Printf(_L("Fail: Fixed been allocated to a zone that was not expected\n"));
sl@0	2029	CLEANUP(Ldd.FreeAllFixedPages());
sl@0	2030	TEST_FAIL;
sl@0	2031	}
sl@0	2032
sl@0	2033	Ldd.FreeAllFixedPages();
sl@0	2034	}
sl@0	2035	TestEnd();
sl@0	2036	}
sl@0	2037
sl@0	2038	test.Next(_L("Test4: Check fixed page allocations will discard pages"));
sl@0	2039	for (TUint testStep = 0; testStep < 2; testStep++)
sl@0	2040	{
sl@0	2041	switch (testStep)
sl@0	2042	{
sl@0	2043	case 0:
sl@0	2044	test.Printf(_L("Testing discontiguous allocations\n"));
sl@0	2045	break;
sl@0	2046
sl@0	2047	case 1:
sl@0	2048	test.Printf(_L("Testing contiguous allocations\n"));
sl@0	2049	break;
sl@0	2050	}
sl@0	2051	TestStart();
sl@0	2052	TInt discardBytes;
sl@0	2053	TInt r;
sl@0	2054
sl@0	2055	if (!gPagedRom)
sl@0	2056	{
sl@0	2057	test.Printf(_L("Not a paged ROM - Skipping test step\n"));
sl@0	2058	goto SkipTest4;
sl@0	2059	}
sl@0	2060
sl@0	2061	best = GetBestZone(BEST_FIXED);
sl@0	2062	TESTDEBUG(test.Printf(_L("best = %d\n"), best));
sl@0	2063	if (best == KErrNotFound)
sl@0	2064	{
sl@0	2065	test.Printf(_L("Cannot find zone to perform test - Skipping...\n"));
sl@0	2066	goto SkipTest4;
sl@0	2067	}
sl@0	2068	// Ensure discardable pages in the preferred RAM zone.
sl@0	2069	r = AllocDiscardable(discardBytes);
sl@0	2070	if (r != KErrNone)
sl@0	2071	{
sl@0	2072	test.Printf(_L("r = %d, expected = %d\n"), r, KErrNone);
sl@0	2073	TEST_FAIL;
sl@0	2074	}
sl@0	2075	if (discardBytes < gPageSize)
sl@0	2076	{// Can't discard any pages so test can't run.
sl@0	2077	test.Printf(_L("Memory too full to perform test - Skipping...\n"));
sl@0	2078	goto SkipTest4;
sl@0	2079	}
sl@0	2080
sl@0	2081	// Make sure all RAM zones that the fixed page allocation could potentially
sl@0	2082	// go to have discardable pages allocated in it.
sl@0	2083	GetOriginalPageCount();
sl@0	2084	GetCandListFixed1(best);
sl@0	2085	for (TUint i = 0; i < gZoneCount; i++)
sl@0	2086	{
sl@0	2087	if (gCandList1[i] == KInvalidCandIndex)
sl@0	2088	{
sl@0	2089	break;
sl@0	2090	}
sl@0	2091	TUint zoneIndex = gCandList1[i];
sl@0	2092	if (gOriginalPageCountArray[zoneIndex].iAllocDiscardable == 0)
sl@0	2093	{
sl@0	2094	test.Printf(_L("No dicardable pages in one of the candidates RAM zones - Skipping...\n"));
sl@0	2095	goto SkipTest4;
sl@0	2096	}
sl@0	2097	if (gOriginalPageCountArray[zoneIndex].iFreePages != 0)
sl@0	2098	{
sl@0	2099	test.Printf(_L("Some free pages in candidate RAM zone ID%x\n"),
sl@0	2100	gZoneConfigArray[zoneIndex].iZoneId);
sl@0	2101	CLEANUP(ResetDPCache());
sl@0	2102	TEST_FAIL;
sl@0	2103	}
sl@0	2104	}
sl@0	2105
sl@0	2106	// Allocate 1 fixed page and ensure that it discards a page.
sl@0	2107	switch (testStep)
sl@0	2108	{
sl@0	2109	case 0:
sl@0	2110	r = Ldd.AllocateFixed(1);
sl@0	2111	break;
sl@0	2112
sl@0	2113	case 1:
sl@0	2114	r = Ldd.AllocContiguous(gPageSize);
sl@0	2115	break;
sl@0	2116	}
sl@0	2117
sl@0	2118	// Find RAM zone the fixed page was allocated into.
sl@0	2119	GetAllPageInfo();
sl@0	2120	zoneFound = EFalse;
sl@0	2121	for (TUint i = 0; i < gZoneCount; i++)
sl@0	2122	{
sl@0	2123	if (gCandList1[i] == KInvalidCandIndex)
sl@0	2124	{
sl@0	2125	break;
sl@0	2126	}
sl@0	2127	TUint zoneIndex = gCandList1[i];
sl@0	2128	if (gOriginalPageCountArray[zoneIndex].iAllocFixed < gZoneUtilArray[zoneIndex].iAllocFixed)
sl@0	2129	{
sl@0	2130	zoneFound = ETrue;
sl@0	2131	if (gOriginalPageCountArray[zoneIndex].iAllocDiscardable <= gZoneUtilArray[zoneIndex].iAllocDiscardable &&
sl@0	2132	gOriginalPageCountArray[zoneIndex].iAllocMovable <= gZoneUtilArray[zoneIndex].iAllocMovable)
sl@0	2133	{
sl@0	2134	test.Printf(_L("Fixed pages allocated but no pages discarded in RAM zone ID 0x%x\n"),
sl@0	2135	gZoneConfigArray[zoneIndex].iZoneId);
sl@0	2136	CLEANUP(ResetDPCache());
sl@0	2137	TEST_FAIL;
sl@0	2138	}
sl@0	2139	}
sl@0	2140	}
sl@0	2141
sl@0	2142	if (!zoneFound \|\| r != KErrNone)
sl@0	2143	{
sl@0	2144	test.Printf(_L("No fixed pages were allocated r = %d\n"), r);
sl@0	2145	CLEANUP(ResetDPCache());
sl@0	2146	TEST_FAIL;
sl@0	2147	}
sl@0	2148	else
sl@0	2149	{
sl@0	2150	test.Printf(_L("Pass: Pages been allocated to the zone expected\n"));
sl@0	2151	}
sl@0	2152	SkipTest4 :
sl@0	2153	// This will free any DP cache pages and fixed pages allocated.
sl@0	2154	TestEnd();
sl@0	2155	}
sl@0	2156
sl@0	2157
sl@0	2158	for (TUint testIndex = 0; testIndex < 2; testIndex++)
sl@0	2159	{
sl@0	2160	switch (testIndex)
sl@0	2161	{
sl@0	2162	case 0:
sl@0	2163	test.Next(_L("Test5: Check fixed page allocations (discontiguous) will move pages"));
sl@0	2164	break;
sl@0	2165
sl@0	2166	case 1:
sl@0	2167	test.Next(_L("Test6: Check fixed page will only go into a new zone if all other fix page zones are full of fix"));
sl@0	2168	break;
sl@0	2169	}
sl@0	2170
sl@0	2171	TestStart();
sl@0	2172	gChunkArray1 = new RChunk;
sl@0	2173	gChunkArraySize1 = 1;
sl@0	2174	TInt r = KErrNone;
sl@0	2175	TUint freeInOtherZones = 0;
sl@0	2176	TUint allocatablePages;
sl@0	2177	TUint allocImmovPages;
sl@0	2178	TUint bestPrefIndex;
sl@0	2179	TUint nextBestIndex = 0;
sl@0	2180	const TUint KMovAllocOverhead = 5; // need pages for page tables and kernel heap expansion.
sl@0	2181
sl@0	2182	best = GetBestZone(BEST_FIXED, &bestPrefIndex);
sl@0	2183	TESTDEBUG(test.Printf(_L("best = %d\n"), best));
sl@0	2184	GetCandListFixed1(best);
sl@0	2185	TUint candidates = 0;
sl@0	2186	for (TUint i = 0; i < gZoneCount; i++)
sl@0	2187	{
sl@0	2188	if (gCandList1[i] == KInvalidCandIndex)
sl@0	2189	{
sl@0	2190	break;
sl@0	2191	}
sl@0	2192	candidates++;
sl@0	2193	}
sl@0	2194	if (best == KErrNotFound \|\|
sl@0	2195	(gZoneUtilArray[best].iAllocMovable == 0 && gZoneUtilArray[best].iFreePages < KMovAllocOverhead) \|\|
sl@0	2196	candidates != 1)
sl@0	2197	{
sl@0	2198	test.Printf(_L("Cannot find zone or too many equal pref zones to perform test - Skipping...\n"));
sl@0	2199	goto SkipTest5;
sl@0	2200	}
sl@0	2201
sl@0	2202	if (testIndex == 1)
sl@0	2203	{// need to work out what the next best zone would be
sl@0	2204	GetPrefOrder();
sl@0	2205	if (bestPrefIndex + 1 >= gZoneCount)
sl@0	2206	{
sl@0	2207	test.Printf(_L("Cannot find next best zone - Skipping...\n"));
sl@0	2208	goto SkipTest5;
sl@0	2209	}
sl@0	2210	nextBestIndex = gPrefArray[bestPrefIndex + 1];
sl@0	2211	test.Printf(_L("nextBestIndex= %d\n"), nextBestIndex);
sl@0	2212	GetCandListFixed1(nextBestIndex);
sl@0	2213	candidates = 0;
sl@0	2214	for (TUint i = 0; i < gZoneCount; i++)
sl@0	2215	{
sl@0	2216	if (gCandList1[i] == KInvalidCandIndex)
sl@0	2217	{
sl@0	2218	break;
sl@0	2219	}
sl@0	2220	candidates++;
sl@0	2221	}
sl@0	2222	if (gZoneUtilArray[nextBestIndex].iPhysPages == gZoneUtilArray[nextBestIndex].iAllocFixed +
sl@0	2223	gZoneUtilArray[nextBestIndex].iAllocUnknown \|\|
sl@0	2224	candidates != 1)
sl@0	2225	{
sl@0	2226	test.Printf(_L("Cannot find zone or too many equal pref zones to perform test - Skipping...\n"));
sl@0	2227	goto SkipTest5;
sl@0	2228	}
sl@0	2229	}
sl@0	2230
sl@0	2231
sl@0	2232
sl@0	2233	for (TUint i = 0; i < gZoneCount; i++)
sl@0	2234	{
sl@0	2235	if (i != (TUint)best)
sl@0	2236	{
sl@0	2237	freeInOtherZones += gZoneUtilArray[i].iFreePages;
sl@0	2238	}
sl@0	2239	}
sl@0	2240	allocatablePages = gZoneUtilArray[best].iFreePages +
sl@0	2241	gZoneUtilArray[best].iAllocMovable +
sl@0	2242	gZoneUtilArray[best].iAllocDiscardable;
sl@0	2243
sl@0	2244	if (allocatablePages > freeInOtherZones)
sl@0	2245	{
sl@0	2246	test.Printf(_L("Not enough free RAM for test - Skipping...\n"));
sl@0	2247	goto SkipTest5;
sl@0	2248	}
sl@0	2249
sl@0	2250	// Allocate the fixed array before getting any page counts
sl@0	2251	r = Ldd.AllocFixedArray(allocatablePages + 1);
sl@0	2252	if (r != KErrNone)
sl@0	2253	{
sl@0	2254	test.Printf(_L("Failed to allocate fixed array r = %d - Skipping...\n"), r);
sl@0	2255	goto SkipTest5;
sl@0	2256	}
sl@0	2257
sl@0	2258	// Fill the RAM zone with movable pages if none already in it.
sl@0	2259	GetAllPageInfo();
sl@0	2260	if (gZoneUtilArray[best].iAllocMovable == 0)
sl@0	2261	{
sl@0	2262	if (!gZoneUtilArray[best].iFreePages)
sl@0	2263	{
sl@0	2264	test.Printf(_L("RAM zone ID %x too full for test - Skipping...\n"), gZoneConfigArray[best].iZoneId);
sl@0	2265	goto SkipTest5;
sl@0	2266	}
sl@0	2267	// Fill the zone with movable pages
sl@0	2268	r = ZoneAllocMovable(gChunkArray1, gChunkArraySize1, best);
sl@0	2269	if (r != KErrNone)
sl@0	2270	{
sl@0	2271	test.Printf(_L("Failed to fill zone index %d with movable r = %d\n"), best, r);
sl@0	2272	CLEANUP(ResetRamZoneFlags());
sl@0	2273	TEST_FAIL;
sl@0	2274	}
sl@0	2275
sl@0	2276	if (GetBestZone(BEST_FIXED) != best)
sl@0	2277	{
sl@0	2278	test.Printf(_L("Unable to complete test; RAM zone reordering - Skipping...\n"));
sl@0	2279	goto SkipTest5;
sl@0	2280	}
sl@0	2281	}
sl@0	2282	// Allocate fixed pages after reseting the allocation flags.
sl@0	2283	GetAllPageInfo();
sl@0	2284	ResetRamZoneFlags();
sl@0	2285	allocatablePages = gZoneUtilArray[best].iFreePages +
sl@0	2286	gZoneUtilArray[best].iAllocMovable +
sl@0	2287	gZoneUtilArray[best].iAllocDiscardable;
sl@0	2288	switch (testIndex)
sl@0	2289	{
sl@0	2290	case 0:
sl@0	2291	r = Ldd.AllocateFixed2(allocatablePages);
sl@0	2292	GetAllPageInfo();
sl@0	2293	allocImmovPages = gZoneUtilArray[best].iAllocFixed + gZoneUtilArray[best].iAllocUnknown;
sl@0	2294	if (r != KErrNone \|\| gZoneConfigArray[best].iPhysPages != allocImmovPages)
sl@0	2295	{
sl@0	2296	test.Printf(_L("RAM zone ID 0x%x not full of immovable pages\n"), gZoneConfigArray[best].iZoneId);
sl@0	2297	CLEANUP(ResetRamZoneFlags());
sl@0	2298	TEST_FAIL;
sl@0	2299	}
sl@0	2300	else
sl@0	2301	{
sl@0	2302	test.Printf(_L("Pass: Pages allocated to the zone expected\n"));
sl@0	2303	}
sl@0	2304	break;
sl@0	2305
sl@0	2306	case 1:
sl@0	2307	GetOriginalPageCount();
sl@0	2308	r = Ldd.AllocateFixed2(allocatablePages + 1);
sl@0	2309	GetAllPageInfo();
sl@0	2310	allocImmovPages = gZoneUtilArray[best].iAllocFixed + gZoneUtilArray[best].iAllocUnknown;
sl@0	2311	if (r != KErrNone \|\| gZoneUtilArray[best].iPhysPages != allocImmovPages \|\|
sl@0	2312	gZoneUtilArray[nextBestIndex].iAllocFixed <= gOriginalPageCountArray[nextBestIndex].iAllocFixed)
sl@0	2313	{
sl@0	2314	test.Printf(_L("RAM zone ID 0x%x not full of immovable pages or next best ID 0x%x no fix pages\n"),
sl@0	2315	gZoneConfigArray[best].iZoneId, gZoneConfigArray[nextBestIndex].iZoneId);
sl@0	2316	test.Printf(_L("nextBest %d origFix 0x%x curFix 0x%x\n"),
sl@0	2317	nextBestIndex, gOriginalPageCountArray[nextBestIndex].iAllocFixed,
sl@0	2318	gZoneUtilArray[nextBestIndex].iAllocFixed);
sl@0	2319	CLEANUP(ResetRamZoneFlags());
sl@0	2320	TEST_FAIL;
sl@0	2321	}
sl@0	2322	// Go through every other zone and check that fixed pages haven't increased
sl@0	2323	for (TUint i = 0; i < gZoneCount; i++)
sl@0	2324	{
sl@0	2325	if (i != (TUint)best && i != (TUint)nextBestIndex &&
sl@0	2326	gZoneUtilArray[i].iAllocFixed > gOriginalPageCountArray[i].iAllocFixed)
sl@0	2327	{
sl@0	2328	test.Printf(_L("FAIL: Fix page count increased zoneIndex %d orig 0x%x current 0x%x\n"),
sl@0	2329	i, gOriginalPageCountArray[i].iAllocFixed, gZoneUtilArray[i].iAllocFixed);
sl@0	2330	CLEANUP(ResetRamZoneFlags());
sl@0	2331	TEST_FAIL;
sl@0	2332	}
sl@0	2333	}
sl@0	2334
sl@0	2335	test.Printf(_L("Pass: Pages allocated to the zone expected\n"));
sl@0	2336	break;
sl@0	2337	}
sl@0	2338	SkipTest5 :
sl@0	2339	// This will perform any required clean up.
sl@0	2340	ResetRamZoneFlags();
sl@0	2341	TestEnd();
sl@0	2342	}
sl@0	2343
sl@0	2344	test.Next(_L("Test7: Check which zone a discardable page has been allocated to"));
sl@0	2345	TestStart();
sl@0	2346	if (gPagedRom)
sl@0	2347	{
sl@0	2348	GetAllPageInfo();
sl@0	2349
sl@0	2350	// Try to allocate just one more discardable page
sl@0	2351	TUint allocBytes = (gTotalPageCount.iDiscardablePages + 1) << gPageShift;
sl@0	2352	TInt discardablePages;
sl@0	2353
sl@0	2354	best = GetBestZone(BEST_DISCARDABLE);
sl@0	2355	if (best == KErrNotFound)
sl@0	2356	{
sl@0	2357	test.Printf(_L("Cannot find zone to perform test - Skipping...\n"));
sl@0	2358	}
sl@0	2359	else
sl@0	2360	{
sl@0	2361	// Populate the candidate list
sl@0	2362	GetCandList2(best);
sl@0	2363	zoneFound = EFalse;
sl@0	2364	GetOriginalPageCount();
sl@0	2365	TInt r = AllocDiscardable(discardablePages, allocBytes);
sl@0	2366	if (r != KErrNone)
sl@0	2367	{
sl@0	2368	test.Printf(_L("Fail: r %d\n"), r);
sl@0	2369	CLEANUP(ResetDPCache());
sl@0	2370	TEST_FAIL;
sl@0	2371	}
sl@0	2372
sl@0	2373	r = VerifyMovDisAlloc();
sl@0	2374	// Need to check all candidates to see if page has gone into any one of them
sl@0	2375	for (TUint i=0; i < gZoneCount; i++)
sl@0	2376	{
sl@0	2377	if (gCandList2[i] == KInvalidCandIndex)
sl@0	2378	{
sl@0	2379	break;
sl@0	2380	}
sl@0	2381	TUint zoneIndex = gCandList2[i];
sl@0	2382	if (gOriginalPageCountArray[zoneIndex].iAllocDiscardable < gZoneUtilArray[zoneIndex].iAllocDiscardable)
sl@0	2383	{
sl@0	2384	zoneFound = ETrue;
sl@0	2385	break;
sl@0	2386	}
sl@0	2387	}
sl@0	2388
sl@0	2389	if (r == KErrNone && zoneFound)
sl@0	2390	{
sl@0	2391	test.Printf(_L("Pass: Discardable allocated to the zone expected\n"));
sl@0	2392	}
sl@0	2393	else
sl@0	2394	{
sl@0	2395	test.Printf(_L("Fail: Discardable been allocated to a zone that was not expected r %d\n"), r);
sl@0	2396	CLEANUP(ResetDPCache());
sl@0	2397	TEST_FAIL;
sl@0	2398	}
sl@0	2399	}
sl@0	2400	}
sl@0	2401	else
sl@0	2402	{
sl@0	2403	test.Printf(_L("Not a paged ROM - Skipping test step\n"));
sl@0	2404	}
sl@0	2405	TestEnd();
sl@0	2406
sl@0	2407	test.Next(_L("Test8: Check fixed page allocations (contiguous) will move pages"));
sl@0	2408	TestStart();
sl@0	2409	gChunkArray1 = new RChunk;
sl@0	2410	gChunkArraySize1 = 1;
sl@0	2411
sl@0	2412	TInt r = KErrNone;
sl@0	2413	TUint testZoneIndex = 0;
sl@0	2414
sl@0	2415	// Get the most pref zone which is completely free to use as a test zone
sl@0	2416	r = FindMostPrefEmpty(testZoneIndex);
sl@0	2417	if (r != KErrNone)
sl@0	2418	{
sl@0	2419	test.Printf(_L("Cannot find empty zone - Skipping...\n"));
sl@0	2420	goto skipTest8;
sl@0	2421	}
sl@0	2422
sl@0	2423
sl@0	2424	// fill the test zone with movable pages
sl@0	2425	r = ZoneAllocMovable(gChunkArray1, gChunkArraySize1, testZoneIndex);
sl@0	2426	GetAllPageInfo();
sl@0	2427	if (r != KErrNone \|\|
sl@0	2428	gZoneUtilArray[testZoneIndex].iAllocMovable != gZoneUtilArray[testZoneIndex].iPhysPages)
sl@0	2429	{
sl@0	2430	test.Printf(_L("Failed to allocate movable r = %d - Skipping...\n"), r);
sl@0	2431	goto skipTest8;
sl@0	2432	}
sl@0	2433
sl@0	2434	if (gTotalPageCount.iFreePages < 1)
sl@0	2435	{
sl@0	2436	test.Printf(_L("Insufficient memory - totalFreePages = 0x%x - Skipping...\n"), gTotalPageCount.iFreePages);
sl@0	2437	goto skipTest8;
sl@0	2438	}
sl@0	2439
sl@0	2440	for (TUint zoneIndex = 0; zoneIndex < gZoneCount; zoneIndex++)
sl@0	2441	{
sl@0	2442	TUint zoneId = gZoneConfigArray[zoneIndex].iZoneId;
sl@0	2443	if (zoneIndex != testZoneIndex)
sl@0	2444	{
sl@0	2445	r = Ldd.SetZoneFlag(zoneId, gZoneConfigArray[zoneIndex].iFlags, NO_FIXED_FLAG);
sl@0	2446	if (r != KErrNone)
sl@0	2447	{
sl@0	2448	test.Printf(_L("Failed to set flag on zone index %d r = %d- Skipping...\n"), zoneIndex, r);
sl@0	2449	goto skipTest8;
sl@0	2450	}
sl@0	2451	}
sl@0	2452	}
sl@0	2453
sl@0	2454	//attempt to alloc 1 contiguous fixed page
sl@0	2455	r = Ldd.AllocContiguous(gPageSize);
sl@0	2456	GetAllPageInfo();
sl@0	2457	if (r != KErrNone \|\|
sl@0	2458	!gZoneUtilArray[testZoneIndex].iAllocFixed)
sl@0	2459	{
sl@0	2460	test.Printf(_L("FAIL: no fixed pages in testZoneIndex(%d) r = %d\n"), testZoneIndex, r);
sl@0	2461	CLEANUP(Ldd.FreeAllFixedPages());
sl@0	2462	TEST_FAIL;
sl@0	2463	}
sl@0	2464	else
sl@0	2465	{
sl@0	2466	test.Printf(_L("Passed...\n"));
sl@0	2467	}
sl@0	2468
sl@0	2469	skipTest8:
sl@0	2470	TestEnd();
sl@0	2471
sl@0	2472	test.End();
sl@0	2473	return KErrNone;
sl@0	2474	}
sl@0	2475
sl@0	2476
sl@0	2477	//
sl@0	2478	// TestMovingPages
sl@0	2479	//
sl@0	2480	//---------------------------------------------------------------------------------------------------------------------
sl@0	2481	//! @SYMTestCaseID KBASE-t_ramdefrag-0526
sl@0	2482	//! @SYMTestType CIT
sl@0	2483	//! @SYMTestCaseDesc Verifying that pages are moved correctly
sl@0	2484	//! @SYMPREQ PREQ308
sl@0	2485	//! @SYMTestPriority High
sl@0	2486	//! @SYMTestActions
sl@0	2487	//! 1. Fragment the memory. Write to all chunks apart from chunk 9.
sl@0	2488	//! Following this start a RAM defrag and whilst defrag is running write to chunk 9.
sl@0	2489	//! 2. Fragment the memory. Start a RAM defrag and whilst defrag is running
sl@0	2490	//! continuously write different values to the chunks.
sl@0	2491	//! 3. Fragment the memory. Following this start a RAM defrag and whilst this
sl@0	2492	//! is happening, continuously read from all chunks.
sl@0	2493	//! 4. Allocate some movable pages. Call a device driver that will allocate fixed
sl@0	2494	//! pages and write values to these fixed pages.
sl@0	2495	//! Close every other chunk so that only 5 chunks are now still open.
sl@0	2496	//! Following this perform a RAM defrag.
sl@0	2497	//! Read from the fixed pages that were originally written to, ensuring
sl@0	2498	//! that they have not changed.
sl@0	2499	//! 5. Without starting any processes, allocate discardable pages by loading
sl@0	2500	//! pages that are demand paged.
sl@0	2501	//! Read each of the constants from beginning to end.
sl@0	2502	//! Following this perform a RAM defrag.
sl@0	2503	//!
sl@0	2504	//! @SYMTestExpectedResults
sl@0	2505	//! 1. Zones are emptied
sl@0	2506	//! 2. Zones are emptied
sl@0	2507	//! 3. Zones are emptied
sl@0	2508	//! 4. The values written to the fixed pages have not changed.
sl@0	2509	//! 5. Zones are emptied
sl@0	2510	//---------------------------------------------------------------------------------------------------------------------
sl@0	2511	TInt TestMovingPages()
sl@0	2512	{
sl@0	2513	const TInt KAllChunks = -1; // Specifies that all chunks should be written to
sl@0	2514
sl@0	2515	test.Start(_L("Test1: Whilst moving page, change the usage "));
sl@0	2516	TestStart();
sl@0	2517
sl@0	2518	AllocMovable(gChunkArray1, gChunkArraySize1, KNumAllocChunks, KChunkDefaultSize);
sl@0	2519	FreeMovable(gChunkArray1, gChunkArraySize1);
sl@0	2520
sl@0	2521	// Find a chunk that exists
sl@0	2522	TInt chunkIndex = gChunkArraySize1 - 1;
sl@0	2523	for (; chunkIndex >= 0 && gChunkArray1[chunkIndex].Handle() == NULL; chunkIndex--);
sl@0	2524	if (chunkIndex < 0)
sl@0	2525	{
sl@0	2526	test.Printf(_L("No chunks were allocated\n"));
sl@0	2527	CLEANUP(RemoveChunkAlloc(gChunkArray1, gChunkArraySize1));
sl@0	2528	TEST_FAIL;
sl@0	2529	}
sl@0	2530
sl@0	2531	WriteToChunk(gChunkArray1, gChunkArraySize1, chunkIndex);
sl@0	2532
sl@0	2533	TInt r = gTestThread.Create(gTestThreadName,MultiGenDefragThreadFunc,KDefaultStackSize,0x1000,0x1000,NULL);
sl@0	2534	if (r != KErrNone)
sl@0	2535	{
sl@0	2536	test.Printf(_L("r = %d, expected = %d\n"), r, KErrNone);
sl@0	2537	CLEANUP(RemoveChunkAlloc(gChunkArray1, gChunkArraySize1));
sl@0	2538	TEST_FAIL;
sl@0	2539	}
sl@0	2540	gTestThread.Logon(status);
sl@0	2541	gTestThread.Resume();
sl@0	2542
sl@0	2543	TUint8* base = gChunkArray1[chunkIndex].Base();
sl@0	2544	while (status.Int() == KRequestPending)
sl@0	2545	{
sl@0	2546	User::After(10000);
sl@0	2547	for (TInt8 k = 0; k < 10; k ++)
sl@0	2548	{
sl@0	2549	if (base == gChunkArray1[chunkIndex].Base() + gChunkArray1[chunkIndex].Size())
sl@0	2550	{
sl@0	2551	base = gChunkArray1[chunkIndex].Base();
sl@0	2552	}
sl@0	2553	*base++ = k; // write 0 - 9 to the chunk
sl@0	2554	}
sl@0	2555	}
sl@0	2556
sl@0	2557	User::WaitForRequest(status);
sl@0	2558	r = status.Int();
sl@0	2559	TESTDEBUG(test.Printf(_L("defrag running on another thread returns %d\n"), r));
sl@0	2560
sl@0	2561	RemoveChunkAlloc(gChunkArray1, gChunkArraySize1);
sl@0	2562
sl@0	2563	if (r == KErrNone)
sl@0	2564	{
sl@0	2565	test.Printf(_L("Correct return value\n"));
sl@0	2566	test.Printf(_L("Passed...\n"));
sl@0	2567	}
sl@0	2568	else
sl@0	2569	{
sl@0	2570	test.Printf(_L("Fail: r = %d, expected = %d\n"), r, KErrNone);
sl@0	2571	TEST_FAIL;
sl@0	2572	}
sl@0	2573
sl@0	2574	gTestThread.Close();
sl@0	2575	TestEnd();
sl@0	2576
sl@0	2577
sl@0	2578	test.Next(_L("Test2: Whilst moving page, change the contents of the page"));
sl@0	2579	TestStart();
sl@0	2580
sl@0	2581	AllocMovable(gChunkArray1, gChunkArraySize1, KNumAllocChunks, KChunkDefaultSize);
sl@0	2582	FreeMovable(gChunkArray1, gChunkArraySize1);
sl@0	2583	WriteToChunk(gChunkArray1, gChunkArraySize1, KAllChunks);
sl@0	2584
sl@0	2585	r = gTestThread.Create(gTestThreadName,MultiGenDefragThreadFunc,KDefaultStackSize,0x1000,0x1000,NULL);
sl@0	2586	if (r != KErrNone)
sl@0	2587	{
sl@0	2588	test.Printf(_L("r = %d, expected = %d\n"), r, KErrNone);
sl@0	2589	CLEANUP(RemoveChunkAlloc(gChunkArray1, gChunkArraySize1));
sl@0	2590	TEST_FAIL;
sl@0	2591	}
sl@0	2592	gTestThread.Logon(status);
sl@0	2593	gTestThread.Resume();
sl@0	2594
sl@0	2595	TUint8 startValue = 0;
sl@0	2596	while (status.Int() == KRequestPending)
sl@0	2597	{
sl@0	2598	User::After(10000);
sl@0	2599	WriteToChunk(gChunkArray1, gChunkArraySize1, KAllChunks, startValue);
sl@0	2600	if (++startValue > 245)
sl@0	2601	{
sl@0	2602	startValue = 0;
sl@0	2603	}
sl@0	2604	}
sl@0	2605
sl@0	2606	User::WaitForRequest(status);
sl@0	2607	r = status.Int();
sl@0	2608	TESTDEBUG(test.Printf(_L("defrag running on another thread returns %d\n"), r));
sl@0	2609
sl@0	2610	RemoveChunkAlloc(gChunkArray1, gChunkArraySize1);
sl@0	2611
sl@0	2612	if (r == KErrNone)
sl@0	2613	{
sl@0	2614	test.Printf(_L("Correct return value\n"));
sl@0	2615	test.Printf(_L("Passed...\n"));
sl@0	2616	}
sl@0	2617	else
sl@0	2618	{
sl@0	2619	test.Printf(_L("Fail: r = %d, expected = %d\n"), r, KErrNone);
sl@0	2620	TEST_FAIL;
sl@0	2621	}
sl@0	2622
sl@0	2623	gTestThread.Close();
sl@0	2624	TestEnd();
sl@0	2625
sl@0	2626
sl@0	2627	test.Next(_L("Test3: Whilst moving page, read pages"));
sl@0	2628	TestStart();
sl@0	2629
sl@0	2630	AllocMovable(gChunkArray1, gChunkArraySize1, KNumAllocChunks, KChunkDefaultSize);
sl@0	2631	FreeMovable(gChunkArray1, gChunkArraySize1);
sl@0	2632	WriteToChunk(gChunkArray1, gChunkArraySize1, KAllChunks);
sl@0	2633
sl@0	2634	r = gTestThread.Create(gTestThreadName,MultiGenDefragThreadFunc,KDefaultStackSize,0x1000,0x1000,NULL);
sl@0	2635	if (r != KErrNone)
sl@0	2636	{
sl@0	2637	test.Printf(_L("r = %d, expected = %d\n"), r, KErrNone);
sl@0	2638	CLEANUP(RemoveChunkAlloc(gChunkArray1, gChunkArraySize1));
sl@0	2639	TEST_FAIL;
sl@0	2640	}
sl@0	2641	gTestThread.Logon(status);
sl@0	2642	gTestThread.Resume();
sl@0	2643
sl@0	2644	while (status.Int() == KRequestPending)
sl@0	2645	{
sl@0	2646	User::After(100000000);
sl@0	2647	ReadChunk(gChunkArray1, gChunkArraySize1);
sl@0	2648	}
sl@0	2649
sl@0	2650	User::WaitForRequest(status);
sl@0	2651	r = status.Int();
sl@0	2652	TESTDEBUG(test.Printf(_L("defrag running on another thread returns %d\n"), r));
sl@0	2653
sl@0	2654	RemoveChunkAlloc(gChunkArray1, gChunkArraySize1);
sl@0	2655
sl@0	2656	if (r == KErrNone)
sl@0	2657	{
sl@0	2658	test.Printf(_L("Correct return value\n"));
sl@0	2659	test.Printf(_L("Passed...\n"));
sl@0	2660	}
sl@0	2661	else
sl@0	2662	{
sl@0	2663	test.Printf(_L("r = %d, expected = %d\n"), r, KErrNone);
sl@0	2664	TEST_FAIL;
sl@0	2665	}
sl@0	2666
sl@0	2667	gTestThread.Close();
sl@0	2668	TestEnd();
sl@0	2669
sl@0	2670	test.Next(_L("Test4: Allocate fixed pages and then perform a defrag"));
sl@0	2671	TestStart();
sl@0	2672
sl@0	2673	AllocMovable(gChunkArray1, gChunkArraySize1, KNumAllocChunks);
sl@0	2674	FreeMovable(gChunkArray1, gChunkArraySize1);
sl@0	2675
sl@0	2676	Ldd.AllocateFixedWrite(FILL_ALL_FIXED);
sl@0	2677
sl@0	2678	GetOriginalPageCount();
sl@0	2679	r = Ldd.CallDefrag(DEFRAG_TYPE_GEN, DEFRAG_VER_SYNC);
sl@0	2680	test.Printf(_L("defrag returns %d\n"), r);
sl@0	2681
sl@0	2682	if (CheckZonesSwitchedOff() != EFalse)
sl@0	2683	{
sl@0	2684	test.Printf(_L("Fail: Zones were switched off when they shouldn't have been\n"));
sl@0	2685	CLEANUP(r = Ldd.FreeAllFixedPagesRead());
sl@0	2686	CLEANUP(RemoveChunkAlloc(gChunkArray1, gChunkArraySize1));
sl@0	2687	TEST_FAIL;
sl@0	2688	}
sl@0	2689	else
sl@0	2690	{
sl@0	2691	test.Printf(_L("Passed...\n"));
sl@0	2692	}
sl@0	2693	r = Ldd.FreeAllFixedPagesRead();
sl@0	2694	RemoveChunkAlloc(gChunkArray1, gChunkArraySize1);
sl@0	2695	TestEnd();
sl@0	2696
sl@0	2697	test.Next(_L("Test5: Allocate discardable pages and then perform a defrag"));
sl@0	2698	TestStart();
sl@0	2699	if (gPagedRom)
sl@0	2700	{
sl@0	2701	TInt discardablePages;
sl@0	2702
sl@0	2703	UpdateRamInfo();
sl@0	2704	r = AllocDiscardable(discardablePages);
sl@0	2705	if (r != KErrNone)
sl@0	2706	{
sl@0	2707	test.Printf(_L("r = %d, expected = %d\n"), r, KErrNone);
sl@0	2708	TEST_FAIL;
sl@0	2709	}
sl@0	2710	TESTDEBUG(test.Printf(_L("Number of discardable pages = 0x%x\n"), discardablePages >> gPageShift));
sl@0	2711
sl@0	2712	GetOriginalPageCount();
sl@0	2713	TBool genSucceed = CanGenSucceed();
sl@0	2714	r = Ldd.CallDefrag(DEFRAG_TYPE_GEN, DEFRAG_VER_SYNC);
sl@0	2715
sl@0	2716	TESTDEBUG(test.Printf(_L("defrag returns %d\n"), r));
sl@0	2717
sl@0	2718	if (genSucceed && CheckZonesSwitchedOff() == EFalse)
sl@0	2719	{
sl@0	2720	test.Printf(_L("Fail: Zones were not switched off when they should have been\n"));
sl@0	2721	CLEANUP(ResetDPCache());
sl@0	2722	TEST_FAIL;
sl@0	2723	}
sl@0	2724	else
sl@0	2725	{
sl@0	2726	test.Printf(_L("Passed...\n"));
sl@0	2727	}
sl@0	2728	ResetDPCache();
sl@0	2729
sl@0	2730	}
sl@0	2731	else
sl@0	2732	{
sl@0	2733	test.Printf(_L("Not a paged ROM - Skipping test step\n"));
sl@0	2734	}
sl@0	2735	TestEnd();
sl@0	2736
sl@0	2737	test.End();
sl@0	2738	return 0;
sl@0	2739	}
sl@0	2740
sl@0	2741
sl@0	2742	//
sl@0	2743	// TestMovPgsDefrag
sl@0	2744	//
sl@0	2745	//---------------------------------------------------------------------------------------------------------------------
sl@0	2746	//! @SYMTestCaseID KBASE-t_ramdefrag-0527
sl@0	2747	//! @SYMTestType CIT
sl@0	2748	//! @SYMTestCaseDesc Verifying the moving of pages in the defrag implmentation
sl@0	2749	//! @SYMPREQ PREQ308
sl@0	2750	//! @SYMTestPriority High
sl@0	2751	//! @SYMTestActions
sl@0	2752	//! 1. Fragment the memory. Following this perform a RAM defrag.
sl@0	2753	//! Now that all movable memory has now been moved and the relevant source
sl@0	2754	//! zones have been switched off, again attempt to perform a RAM defrag.
sl@0	2755	//! 2. Fragment the memory. Following this perform a RAM defrag and whilst
sl@0	2756	//! this is happening, continuously create more chunks.
sl@0	2757	//! 3. Set up memory so that there are a mix of movable and free pages in a low preference zone, with there
sl@0	2758	//! being movable pages in the higher preference zones. Following this call a general defrag
sl@0	2759	//! 4. Set up memory so that there are a mix of movable and free pages and a couple of free pages
sl@0	2760	//! in a low preference zone, with there being enough free pages in the higher preference zones for the
sl@0	2761	//! pages to be moved to. Following this call a general defrag
sl@0	2762	//! 5. Set up memory so that there is a fixed page and a movable page in an empty zone (testZone). Also ensure that
sl@0	2763	//! there are movable and free pages in more preferable zones than the test zone. Following this call a general
sl@0	2764	//! defrag
sl@0	2765	//! 6. Set up memory so that the mostPrefZone contains movable and free pages. Allocate 1 movable and 1 fixed
sl@0	2766	//! page into an empty zone (testZone). Following this call a general defrag.
sl@0	2767	//!
sl@0	2768	//! @SYMTestExpectedResults
sl@0	2769	//! 1. Second defrag does not empty any zones
sl@0	2770	//! 2. No zones have been emptied
sl@0	2771	//! 3. Zones are emptied if the general defrag can succeed
sl@0	2772	//! 4. Defrag fills up the less preferable zones first
sl@0	2773	//! 5. movable pages are moved from the testZone
sl@0	2774	//! 6. testZone is not emptied
sl@0	2775	//---------------------------------------------------------------------------------------------------------------------
sl@0	2776	TInt TestMovPgsDefrag()
sl@0	2777	{
sl@0	2778	TInt r = KErrNone;
sl@0	2779
sl@0	2780	test.Start(_L("Test1: Performing a defrag twice"));
sl@0	2781	TestStart();
sl@0	2782
sl@0	2783	AllocMovable(gChunkArray1, gChunkArraySize1, KNumAllocChunks);
sl@0	2784	FreeMovable(gChunkArray1, gChunkArraySize1);
sl@0	2785
sl@0	2786	r = Ldd.CallDefrag(DEFRAG_TYPE_GEN, DEFRAG_VER_SYNC);
sl@0	2787	TESTDEBUG(test.Printf(_L("After calling general defrag r = %d\n"), r));
sl@0	2788
sl@0	2789	r = VerifyMovDisAlloc();
sl@0	2790	// The first defrag should empty zones if the general can succeed
sl@0	2791	if (r != KErrNone)
sl@0	2792	{
sl@0	2793	test.Printf(_L("Fail: r = %d, memory is not laid out as expected\n"), r);
sl@0	2794	CLEANUP(RemoveChunkAlloc(gChunkArray1, gChunkArraySize1));
sl@0	2795	TEST_FAIL;
sl@0	2796	}
sl@0	2797
sl@0	2798	GetOriginalPageCount();
sl@0	2799	r = Ldd.CallDefrag(DEFRAG_TYPE_GEN, DEFRAG_VER_SYNC);
sl@0	2800
sl@0	2801	TESTDEBUG(test.Printf(_L("After calling general defrag again r = %d\n"), r));
sl@0	2802
sl@0	2803	// The second call to general defrag should have nothing further to do
sl@0	2804	if (r != KErrNone \|\| CheckZonesSwitchedOff() != EFalse)
sl@0	2805	{
sl@0	2806	test.Printf(_L("Fail: r = %d, expected = %d, or zones have been switched off \n"),
sl@0	2807	r, KErrNone);
sl@0	2808	CLEANUP(RemoveChunkAlloc(gChunkArray1, gChunkArraySize1));
sl@0	2809	TEST_FAIL;
sl@0	2810	}
sl@0	2811	else
sl@0	2812	{
sl@0	2813	test.Printf(_L("Passed...\n"));
sl@0	2814	}
sl@0	2815
sl@0	2816	RemoveChunkAlloc(gChunkArray1, gChunkArraySize1);
sl@0	2817	TestEnd();
sl@0	2818
sl@0	2819
sl@0	2820
sl@0	2821	test.Next(_L("Test2: Ensure new memory allocations can occur successfully during a general defrag"));
sl@0	2822	TestStart();
sl@0	2823
sl@0	2824	// Create a thread to call Defrag continuously and resume it
sl@0	2825	r = gTestThread.Create(gTestThreadName,MultiLoopGenDefragThreadFunc,KDefaultStackSize,0x1000,0x1000,NULL);
sl@0	2826	if (r != KErrNone)
sl@0	2827	{
sl@0	2828	test.Printf(_L("r = %d, expected = %d\n"), r, KErrNone);
sl@0	2829	TEST_FAIL;
sl@0	2830	}
sl@0	2831	gTestThread.Logon(status);
sl@0	2832	gTestLoop = ETrue;
sl@0	2833	gTestThread.Resume();
sl@0	2834
sl@0	2835	// Whilst the defrag loop is taking place, continuously allocate and free memory
sl@0	2836	for (TInt i = 0; i < 100; i++)
sl@0	2837	{
sl@0	2838	r = AllocMovable(gChunkArray1, gChunkArraySize1, KNumAllocChunks);
sl@0	2839	if (r != KErrNone)
sl@0	2840	break;
sl@0	2841	RemoveChunkAlloc(gChunkArray1, gChunkArraySize1);
sl@0	2842	}
sl@0	2843	gTestLoop = EFalse;
sl@0	2844	User::WaitForRequest(status);
sl@0	2845	TESTDEBUG(test.Printf(_L("defrag running on another thread returns %d\n"), r));
sl@0	2846
sl@0	2847	if (r != KErrNone \|\| status.Int() != KErrNone)
sl@0	2848	{
sl@0	2849	test.Printf(_L("Fail: r = %d, status.Int() = %d\n"), r, status.Int());
sl@0	2850	CLEANUP(RemoveChunkAlloc(gChunkArray1, gChunkArraySize1));
sl@0	2851	TEST_FAIL;
sl@0	2852	}
sl@0	2853	else
sl@0	2854	{
sl@0	2855	test.Printf(_L("Passed...\n"));
sl@0	2856	}
sl@0	2857
sl@0	2858	RemoveChunkAlloc(gChunkArray1, gChunkArraySize1);
sl@0	2859	RemoveChunkAlloc(gChunkArray2, gChunkArraySize2);
sl@0	2860	gTestThread.Close();
sl@0	2861	TestEnd();
sl@0	2862
sl@0	2863
sl@0	2864	test.Next(_L("Test3: Check whether RAM defrag switches off any zones"));
sl@0	2865	TestStart();
sl@0	2866
sl@0	2867	AllocMovable(gChunkArray1, gChunkArraySize1, KNumAllocChunks);
sl@0	2868	FreeMovable(gChunkArray1, gChunkArraySize1);
sl@0	2869
sl@0	2870	GetOriginalPageCount();
sl@0	2871	TBool genSucceed = CanGenSucceed();
sl@0	2872	r = Ldd.CallDefrag(DEFRAG_TYPE_GEN, DEFRAG_VER_SYNC);
sl@0	2873
sl@0	2874	TESTDEBUG(test.Printf(_L("After calling zone defrag r = %d\n"), r));
sl@0	2875
sl@0	2876	if (r != KErrNone \|\| (genSucceed && CheckZonesSwitchedOff() == EFalse))
sl@0	2877	{
sl@0	2878	test.Printf(_L("Fail: No zones were switched off or r = %d, expected = %d\n"), r, KErrNone);
sl@0	2879	CLEANUP(RemoveChunkAlloc(gChunkArray1, gChunkArraySize1));
sl@0	2880	TEST_FAIL;
sl@0	2881	}
sl@0	2882	else
sl@0	2883	{
sl@0	2884	test.Printf(_L("Passed...\n"));
sl@0	2885	}
sl@0	2886
sl@0	2887	RemoveChunkAlloc(gChunkArray1, gChunkArraySize1);
sl@0	2888	TestEnd();
sl@0	2889
sl@0	2890
sl@0	2891	test.Next(_L("Test4: Verify that a general defrag moves pages to the least preferable RAM zone in use"));
sl@0	2892	TestStart();
sl@0	2893	gChunkArray1 = new RChunk;
sl@0	2894	gChunkArraySize1 = 1;
sl@0	2895	// Get the preference order
sl@0	2896	GetPrefOrder();
sl@0	2897
sl@0	2898	TUint mostPrefIndex = 0;
sl@0	2899	TUint mostPrefArrayIndex = 0;
sl@0	2900	TUint totMov = 0;
sl@0	2901	TUint lastPrefIndex = 0;
sl@0	2902	TUint lastPrefArrayIndex = 0;
sl@0	2903	TUint movPages = 0;
sl@0	2904	TUint movBytes = 0;
sl@0	2905	TUint totFreeInTestZones = 0;
sl@0	2906	TBool zoneNotEmptyOrFull = EFalse;
sl@0	2907
sl@0	2908
sl@0	2909	// Find the first most pref zone that has free pages in it
sl@0	2910	r = FindMostPrefWithFree(mostPrefIndex, &mostPrefArrayIndex);
sl@0	2911	if (r != KErrNone)
sl@0	2912	{
sl@0	2913	test.Printf(_L("Cannot find zone to perform test - Skipping...\n"));
sl@0	2914	goto skipTest4;
sl@0	2915	}
sl@0	2916
sl@0	2917	// Find the next most preferable free zone
sl@0	2918	lastPrefArrayIndex = mostPrefArrayIndex + 1;
sl@0	2919
sl@0	2920	while (lastPrefArrayIndex < gZoneCount &&
sl@0	2921	gZoneUtilArray[gPrefArray[lastPrefArrayIndex]].iFreePages != gZoneUtilArray[gPrefArray[lastPrefArrayIndex]].iPhysPages)
sl@0	2922	{
sl@0	2923	lastPrefArrayIndex++;
sl@0	2924	}
sl@0	2925
sl@0	2926	if (lastPrefArrayIndex >= gZoneCount)
sl@0	2927	{
sl@0	2928	test.Printf(_L("Skipping...\n"));
sl@0	2929	goto skipTest4;
sl@0	2930	}
sl@0	2931
sl@0	2932	// Block all other zones
sl@0	2933	for (TUint prefIndex = lastPrefArrayIndex + 1; prefIndex < gZoneCount; prefIndex++)
sl@0	2934	{
sl@0	2935	TUint zoneIndex = gPrefArray[prefIndex];
sl@0	2936	Ldd.SetZoneFlag(gZoneConfigArray[zoneIndex].iZoneId, gZoneConfigArray[zoneIndex].iFlags, NO_ALLOC_FLAG);
sl@0	2937	}
sl@0	2938
sl@0	2939
sl@0	2940	// Zone alloc to fill half of the last zone under test
sl@0	2941	GetAllPageInfo();
sl@0	2942	lastPrefIndex = gPrefArray[lastPrefArrayIndex];
sl@0	2943	r = Ldd.ZoneAllocDiscontiguous(gZoneConfigArray[lastPrefIndex].iZoneId, gZoneUtilArray[lastPrefIndex].iFreePages >> 1);
sl@0	2944	if (r != KErrNone)
sl@0	2945	{
sl@0	2946	test.Printf(_L("Failed to allocate fixed pages r = %d - Skipping...\n"), r);
sl@0	2947	goto skipTest4;
sl@0	2948	}
sl@0	2949
sl@0	2950
sl@0	2951	// Go through the zones under test and determine the number of free pages
sl@0	2952	GetAllPageInfo();
sl@0	2953	for(TUint prefIndex = mostPrefArrayIndex; prefIndex <= lastPrefArrayIndex; prefIndex++)
sl@0	2954	{
sl@0	2955	TUint zoneIndex = gPrefArray[prefIndex];
sl@0	2956	totFreeInTestZones += gZoneUtilArray[zoneIndex].iFreePages;
sl@0	2957	}
sl@0	2958
sl@0	2959	// Allocate movable pages to almost fill zones under test
sl@0	2960	movPages = totFreeInTestZones;
sl@0	2961	movBytes = movPages << gPageShift;
sl@0	2962	while (movBytes && AllocMovable(gChunkArray1, gChunkArraySize1, 1, movBytes) != KErrNone)
sl@0	2963	{
sl@0	2964	movBytes -= gPageSize;
sl@0	2965	movPages--;
sl@0	2966	}
sl@0	2967	if (!movBytes)
sl@0	2968	{
sl@0	2969	test.Printf(_L("Failed to allocate 0x%x movable pages - Skipping...\n"), movPages);
sl@0	2970	goto skipTest4;
sl@0	2971	}
sl@0	2972
sl@0	2973
sl@0	2974	// Free the allocated fixed pages
sl@0	2975	Ldd.FreeAllFixedPages();
sl@0	2976
sl@0	2977	// Reset all the flags
sl@0	2978	ResetRamZoneFlags();
sl@0	2979
sl@0	2980	// Check that the most preferable zone still has movable pages in it
sl@0	2981	// and also check that the last zone under test has free pages in it
sl@0	2982	GetAllPageInfo();
sl@0	2983	if (gTotalPageCount.iMovablePages < movPages \|\|
sl@0	2984	gZoneUtilArray[mostPrefIndex].iAllocMovable == 0 \|\|
sl@0	2985	gZoneUtilArray[lastPrefIndex].iFreePages == 0)
sl@0	2986	{
sl@0	2987	test.Printf(_L("Setup failed - Skipping...\n"));
sl@0	2988	goto skipTest4;
sl@0	2989	}
sl@0	2990
sl@0	2991	r = Ldd.CallDefrag(DEFRAG_TYPE_GEN, DEFRAG_VER_SYNC);
sl@0	2992	// Check that defrag allocated the movable from the less preferable to the more preferable
sl@0	2993	GetPrefOrder();
sl@0	2994	totMov = gTotalPageCount.iMovablePages;
sl@0	2995	for(TInt prefIndex = gZoneCount - 1; prefIndex >= 0 ; prefIndex--)
sl@0	2996	{
sl@0	2997	TUint zoneIndex = gPrefArray[prefIndex];
sl@0	2998	GetCandList1(zoneIndex);
sl@0	2999	TUint candIndex = 0;
sl@0	3000	for (; candIndex < gZoneCount; candIndex++)
sl@0	3001	{// Check all the zones of this preference
sl@0	3002	TInt zoneIndexCand = gCandList1[candIndex];
sl@0	3003	if (zoneIndexCand == KInvalidCandIndex)
sl@0	3004	{
sl@0	3005	break;
sl@0	3006	}
sl@0	3007	totMov -= gZoneUtilArray[zoneIndexCand].iAllocMovable;
sl@0	3008	if (gZoneUtilArray[zoneIndexCand].iFreePages != gZoneUtilArray[zoneIndexCand].iPhysPages &&
sl@0	3009	gZoneUtilArray[zoneIndexCand].iFreePages != 0)
sl@0	3010	{
sl@0	3011	zoneNotEmptyOrFull = ETrue;
sl@0	3012	}
sl@0	3013	}
sl@0	3014	prefIndex -= candIndex - 1 ;
sl@0	3015
sl@0	3016	if (zoneNotEmptyOrFull && totMov != 0)
sl@0	3017	{
sl@0	3018	test.Printf(_L("FAIL: index = %d free = 0x%x totMov = 0x%x\n"),
sl@0	3019	zoneIndex, gZoneUtilArray[zoneIndex].iFreePages, totMov);
sl@0	3020	CLEANUP(RemoveChunkAlloc(gChunkArray1, gChunkArraySize1));
sl@0	3021	CLEANUP(RemoveChunkAlloc(gChunkArray2, gChunkArraySize2));
sl@0	3022	TEST_FAIL;
sl@0	3023	}
sl@0	3024	}
sl@0	3025
sl@0	3026	skipTest4:
sl@0	3027	TestEnd();
sl@0	3028
sl@0	3029
sl@0	3030	test.Next(_L("Test5: Verify that a general defrag tidies up if RAM zone to be emptied contains fixed pages"));
sl@0	3031	TestStart();
sl@0	3032	gChunkArray1 = new RChunk;
sl@0	3033	gChunkArraySize1 = 1;
sl@0	3034	gChunkArray2 = new RChunk;
sl@0	3035	gChunkArraySize2 = 1;
sl@0	3036
sl@0	3037	// find 2 empty zones - put 1 movable in 1 of them and 1 movable and 1 fixed in the other
sl@0	3038	TUint testZoneIndex1;
sl@0	3039	TUint testZoneIndex2;
sl@0	3040	TUint testZoneID2;
sl@0	3041	TUint numFreeInUse = 0;
sl@0	3042
sl@0	3043	r = FindMostPrefEmpty(testZoneIndex1);
sl@0	3044	if (r != KErrNone)
sl@0	3045	{
sl@0	3046	test.Printf(_L("Skipping...\n"));
sl@0	3047	goto skipTest5;
sl@0	3048	}
sl@0	3049	// Allocate 1 movable page to the test zone
sl@0	3050	r = ZoneAllocMovable(gChunkArray1, gChunkArraySize1, testZoneIndex1, 1);
sl@0	3051	if (r != KErrNone)
sl@0	3052	{
sl@0	3053	test.Printf(_L("Failed to allocate 1 movable page to zone index %d, r = %d - Skipping...\n"), testZoneIndex1, r);
sl@0	3054	goto skipTest5;
sl@0	3055	}
sl@0	3056
sl@0	3057	r = FindMostPrefEmpty(testZoneIndex2);
sl@0	3058	if (r != KErrNone)
sl@0	3059	{
sl@0	3060	test.Printf(_L("Skipping...\n"));
sl@0	3061	goto skipTest5;
sl@0	3062	}
sl@0	3063	// Allocate 1 movable page to the test zone
sl@0	3064	r = ZoneAllocMovable(gChunkArray2, gChunkArraySize2, testZoneIndex2, 1);
sl@0	3065	if (r != KErrNone)
sl@0	3066	{
sl@0	3067	test.Printf(_L("Failed to allocate 1 movable page to zone index %d, r = %d - Skipping...\n"), testZoneIndex2, r);
sl@0	3068	goto skipTest5;
sl@0	3069	}
sl@0	3070
sl@0	3071	// Zone alloc to put 1 fixed page last zone under test
sl@0	3072	testZoneID2 = gZoneConfigArray[testZoneIndex2].iZoneId;
sl@0	3073	r = Ldd.ZoneAllocContiguous(testZoneID2, gPageSize);
sl@0	3074	if (r != KErrNone)
sl@0	3075	{
sl@0	3076	test.Printf(_L("Failed to allocate 1 fixed page to zone %d index, r = %d - Skipping...\n"), testZoneIndex2, r);
sl@0	3077	goto skipTest5;
sl@0	3078	}
sl@0	3079
sl@0	3080	// Allocate 2 fixed (as there is 1 in our test zone) to prevent reordering
sl@0	3081	GetAllPageInfo();
sl@0	3082	for (TUint index = 0; index < gZoneCount; index++)
sl@0	3083	{
sl@0	3084	TUint totImmovable = gZoneUtilArray[index].iAllocFixed + gZoneUtilArray[index].iAllocUnknown ;
sl@0	3085	if (index != testZoneIndex1 &&
sl@0	3086	index != testZoneIndex2 &&
sl@0	3087	gZoneUtilArray[index].iFreePages != gZoneUtilArray[index].iPhysPages &&
sl@0	3088	totImmovable < 2)
sl@0	3089	{
sl@0	3090	r = Ldd.ZoneAllocToMany(index, 2 - totImmovable);
sl@0	3091	if (r != KErrNone)
sl@0	3092	{
sl@0	3093	test.Printf(_L("Failed to alloc 0x%x fixed to zone index %d r = %d - Skipping...\n"),
sl@0	3094	2, index, r);
sl@0	3095	goto skipTest5;
sl@0	3096	}
sl@0	3097	}
sl@0	3098	}
sl@0	3099
sl@0	3100	// Check that the number of free pages in the other in-use zones >= movable pages in test zone
sl@0	3101	GetAllPageInfo();
sl@0	3102	for (TUint index = 0; index < gZoneCount; index++)
sl@0	3103	{
sl@0	3104	if (index != testZoneIndex1 &&
sl@0	3105	index != testZoneIndex2 &&
sl@0	3106	gZoneUtilArray[index].iFreePages != gZoneUtilArray[index].iPhysPages)
sl@0	3107	{
sl@0	3108	numFreeInUse += gZoneUtilArray[index].iFreePages;
sl@0	3109	}
sl@0	3110	}
sl@0	3111	if (gZoneUtilArray[testZoneIndex1].iAllocMovable + gZoneUtilArray[testZoneIndex1].iAllocDiscardable +
sl@0	3112	gZoneUtilArray[testZoneIndex2].iAllocMovable + gZoneUtilArray[testZoneIndex2].iAllocDiscardable > numFreeInUse \|\|
sl@0	3113	gZoneUtilArray[testZoneIndex2].iAllocFixed == 0)
sl@0	3114	{
sl@0	3115	test.Printf(_L("Setup failed - Skipping...\n"));
sl@0	3116	goto skipTest5;
sl@0	3117	}
sl@0	3118
sl@0	3119	// Added extra tracing to debug random failures
sl@0	3120	PrintPageInfo();
sl@0	3121
sl@0	3122	// Call a general defrag
sl@0	3123	GetOriginalPageCount();
sl@0	3124	r = Ldd.CallDefrag(DEFRAG_TYPE_GEN, DEFRAG_VER_SYNC);
sl@0	3125
sl@0	3126	// Check that the defrag tidies up
sl@0	3127	GetAllPageInfo();
sl@0	3128	if(gZoneUtilArray[testZoneIndex1].iAllocMovable \|\|
sl@0	3129	gZoneUtilArray[testZoneIndex2].iAllocMovable)
sl@0	3130	{
sl@0	3131	test.Printf(_L("FAIL: testZoneIndex1(%d): mov orig 0x%x cur 0x%x, testZoneIndex2(%d) mov orig 0x%x cur 0x%x \n"),
sl@0	3132	testZoneIndex1, gOriginalPageCountArray[testZoneIndex1].iAllocMovable, gZoneUtilArray[testZoneIndex1].iAllocMovable,
sl@0	3133	testZoneIndex2, gOriginalPageCountArray[testZoneIndex2].iAllocMovable, gZoneUtilArray[testZoneIndex2].iAllocMovable);
sl@0	3134	CLEANUP(RemoveChunkAlloc(gChunkArray1, gChunkArraySize1));
sl@0	3135	CLEANUP(RemoveChunkAlloc(gChunkArray2, gChunkArraySize2));
sl@0	3136	CLEANUP(Ldd.FreeAllFixedPages());
sl@0	3137	TEST_FAIL;
sl@0	3138	}
sl@0	3139
sl@0	3140	skipTest5:
sl@0	3141	TestEnd();
sl@0	3142
sl@0	3143
sl@0	3144	test.Next(_L("Test6: Verify that a general defrag will not move pages if RAM zone to be emptied contains fixed pages"));
sl@0	3145	TestStart();
sl@0	3146	gChunkArray1 = new RChunk;
sl@0	3147	gChunkArraySize1 = 1;
sl@0	3148	// Find the first most pref zone that has free pages in it
sl@0	3149	r = FindMostPrefWithFree(mostPrefIndex, &mostPrefArrayIndex);
sl@0	3150	if (r != KErrNone)
sl@0	3151	{
sl@0	3152	test.Printf(_L("Cannot find zone to perform test - Skipping...\n"));
sl@0	3153	goto skipTest6;
sl@0	3154	}
sl@0	3155
sl@0	3156	// Find the next most preferable free zone
sl@0	3157	lastPrefArrayIndex = mostPrefArrayIndex + 1;
sl@0	3158	while (lastPrefArrayIndex < gZoneCount &&
sl@0	3159	gZoneUtilArray[gPrefArray[lastPrefArrayIndex]].iFreePages != gZoneUtilArray[gPrefArray[lastPrefArrayIndex]].iPhysPages)
sl@0	3160	{
sl@0	3161	lastPrefArrayIndex++;
sl@0	3162	}
sl@0	3163	if (lastPrefArrayIndex >= gZoneCount)
sl@0	3164	{
sl@0	3165	test.Printf(_L("Skipping...\n"));
sl@0	3166	goto skipTest6;
sl@0	3167	}
sl@0	3168
sl@0	3169
sl@0	3170	// Zone alloc to put 1 fixed page last zone under test
sl@0	3171	lastPrefIndex = gPrefArray[lastPrefArrayIndex];
sl@0	3172	r = Ldd.ZoneAllocDiscontiguous(gZoneConfigArray[lastPrefIndex].iZoneId, 1);
sl@0	3173	if (r != KErrNone)
sl@0	3174	{
sl@0	3175	test.Printf(_L("Failed to allocate 1 fixed page to zone index %d r = %d - Skipping...\n"), lastPrefIndex, r);
sl@0	3176	goto skipTest6;
sl@0	3177	}
sl@0	3178
sl@0	3179	GetAllPageInfo();
sl@0	3180	if (!gZoneUtilArray[mostPrefIndex].iFreePages)
sl@0	3181	{
sl@0	3182	test.Printf(_L("Not enough space in zone under test mostPrefIndex = %d - Skipping...\n"), mostPrefIndex);
sl@0	3183	goto skipTest6;
sl@0	3184	}
sl@0	3185
sl@0	3186	// Block all zones apart from the last zone under test from allocation
sl@0	3187	for (TUint prefIndex = 0; prefIndex < gZoneCount; prefIndex++)
sl@0	3188	{
sl@0	3189	TUint zoneIndex = gPrefArray[prefIndex];
sl@0	3190	if (zoneIndex != lastPrefIndex)
sl@0	3191	{
sl@0	3192	Ldd.SetZoneFlag(gZoneConfigArray[zoneIndex].iZoneId, gZoneConfigArray[zoneIndex].iFlags, NO_ALLOC_FLAG);
sl@0	3193	}
sl@0	3194	}
sl@0	3195
sl@0	3196	TESTDEBUG(test.Printf(_L("mostPrefIndex = %d lastPrefIndex = %d\n"), mostPrefIndex, lastPrefIndex));
sl@0	3197
sl@0	3198	// Allocate movable pages to the lastPrefZone that will fit into the most pref zone
sl@0	3199	movPages = gZoneUtilArray[mostPrefIndex].iFreePages;
sl@0	3200	movBytes = movPages << gPageShift;
sl@0	3201	while (movBytes && AllocMovable(gChunkArray1, gChunkArraySize1, 1, movBytes) != KErrNone)
sl@0	3202	{
sl@0	3203	movBytes -= gPageSize;
sl@0	3204	}
sl@0	3205	if (!movBytes)
sl@0	3206	{
sl@0	3207	test.Printf(_L("Failed to allocate 0x%x movable pages r = %d - Skipping...\n"), movPages, r);
sl@0	3208	goto skipTest6;
sl@0	3209	}
sl@0	3210
sl@0	3211	// Reset all the flags
sl@0	3212	ResetRamZoneFlags();
sl@0	3213
sl@0	3214
sl@0	3215	// Check that the number of movable pages in the least pref will fit
sl@0	3216	// into the most preferable zone
sl@0	3217	GetAllPageInfo();
sl@0	3218	if (gZoneUtilArray[lastPrefIndex].iAllocMovable > gZoneUtilArray[mostPrefIndex].iFreePages)
sl@0	3219	{
sl@0	3220	test.Printf(_L("Setup failed - Skipping...\n"));
sl@0	3221	PrintPageInfo();
sl@0	3222	goto skipTest6;
sl@0	3223	}
sl@0	3224
sl@0	3225	// Added extra tracing to debug random failures
sl@0	3226	PrintPageInfo();
sl@0	3227
sl@0	3228	// Call a general defrag
sl@0	3229	GetOriginalPageCount();
sl@0	3230	r = Ldd.CallDefrag(DEFRAG_TYPE_GEN, DEFRAG_VER_SYNC);
sl@0	3231
sl@0	3232	// Check that the defrag didn't move any pages from the least pref zone
sl@0	3233	GetAllPageInfo();
sl@0	3234	if(gOriginalPageCountArray[lastPrefIndex].iAllocMovable > gZoneUtilArray[lastPrefIndex].iAllocMovable)
sl@0	3235	{
sl@0	3236	test.Printf(_L("FAIL: mostPref(index %d): origMov = 0x%x curMov = 0x%x, lastPref(index %d): origMov = 0x%x curMov = 0x%x \n"),
sl@0	3237	mostPrefIndex, gOriginalPageCountArray[mostPrefIndex].iAllocMovable, gZoneUtilArray[mostPrefIndex].iAllocMovable,
sl@0	3238	lastPrefIndex, gOriginalPageCountArray[lastPrefIndex].iAllocMovable, gZoneUtilArray[lastPrefIndex].iAllocMovable);
sl@0	3239	CLEANUP(RemoveChunkAlloc(gChunkArray1, gChunkArraySize1));
sl@0	3240	CLEANUP(RemoveChunkAlloc(gChunkArray2, gChunkArraySize2));
sl@0	3241	CLEANUP(Ldd.FreeAllFixedPages());
sl@0	3242	TEST_FAIL;
sl@0	3243	}
sl@0	3244
sl@0	3245	skipTest6:
sl@0	3246	TestEnd();
sl@0	3247
sl@0	3248	test.End();
sl@0	3249	return KErrNone;
sl@0	3250	}
sl@0	3251
sl@0	3252	//
sl@0	3253	// GenDefragTest123Setup
sl@0	3254	//
sl@0	3255	// Used to set up the memory ready for testing in TestGenDefrag, Test Steps 1, 2, 3 and 4
sl@0	3256	//
sl@0	3257	// @param aMovAlloc The number of movable pages to allocate.
sl@0	3258	// @param aFixAlloc The number of fixed pages to allocate.
sl@0	3259	// @param aDisAlloc The number of discardable pages to allocate.
sl@0	3260	// @param aMovIndex On return contains the test zone index.
sl@0	3261	// @param aNumFreeInUse On return contains the number of free pages in the inuse zones.
sl@0	3262	// @param aTestNo The test number that is using this setup.
sl@0	3263	//
sl@0	3264	TInt GenDefragTest123Setup(TUint aMovAlloc, TUint aFixAlloc, TUint aDisAlloc, TUint& aMovIndex, TUint& aNumFreeInUse, TUint aTestNo)
sl@0	3265	{
sl@0	3266	TInt r = KErrNone;
sl@0	3267	aNumFreeInUse = 0;
sl@0	3268	const TUint KFillUpTo = 5; // Rough estimate of how full the in-use zones should be
sl@0	3269	const TUint KSpaceNeeded = 2;
sl@0	3270	TUint movPrefIndex = 0;
sl@0	3271	if (aTestNo == 4)
sl@0	3272	{// Test 4 we need to look for the LEAST preferable RAM zone which is empty
sl@0	3273	TUint mostPrefIndex;
sl@0	3274	r = FindLeastPrefEmpty(aMovIndex, &movPrefIndex);
sl@0	3275	TInt r2 = FindMostPrefEmpty(mostPrefIndex);
sl@0	3276	if (r != KErrNone \|\| r2 != KErrNone \|\| !gPagedRom \|\|
sl@0	3277	gZoneConfigArray[aMovIndex].iPref == gZoneConfigArray[mostPrefIndex].iPref)
sl@0	3278	{
sl@0	3279	test.Printf(_L("r %d r2 %d or not a paged ROM or Equal zone preferences- Skipping test step...\n"),
sl@0	3280	r, r2);
sl@0	3281	return KErrGeneral;
sl@0	3282	}
sl@0	3283	}
sl@0	3284	else
sl@0	3285	{// All other tests look the MOST preferable RAM zone which is empty
sl@0	3286	r = FindMostPrefEmpty(aMovIndex, &movPrefIndex);
sl@0	3287	if (r != KErrNone \|\| !gPagedRom)
sl@0	3288	{
sl@0	3289	test.Printf(_L("No suitable RAM zone found or not a paged ROM - Skipping test step...\n"));
sl@0	3290	return KErrGeneral;
sl@0	3291	}
sl@0	3292	}
sl@0	3293
sl@0	3294	// Go through all the in-use zones and check how many free pages there are
sl@0	3295	// Allocate fixed so there is only KFillUpTo pages in each in-use zone to
sl@0	3296	// ensure that the total number of free pages in the in-use zones can fit into
sl@0	3297	// the zone under test
sl@0	3298	GetAllPageInfo();
sl@0	3299	for (TUint index = 0; index < gZoneCount; index++)
sl@0	3300	{
sl@0	3301	if (gZoneUtilArray[index].iFreePages != gZoneUtilArray[index].iPhysPages &&
sl@0	3302	gZoneUtilArray[index].iFreePages > KFillUpTo)
sl@0	3303	{
sl@0	3304	r = Ldd.ZoneAllocToMany(index, gZoneUtilArray[index].iFreePages - KFillUpTo);
sl@0	3305	if (r != KErrNone)
sl@0	3306	{
sl@0	3307	test.Printf(_L("Failed to alloc 0x%x fixed to zone index %d r = %d - Ending setup...\n"),
sl@0	3308	gZoneUtilArray[index].iFreePages - KFillUpTo, index, r);
sl@0	3309	return KErrGeneral;
sl@0	3310	}
sl@0	3311	}
sl@0	3312	}
sl@0	3313
sl@0	3314	GetAllPageInfo();
sl@0	3315	// If any of the in-use zones doesn't contain any fixed and unknown pages allocate one fixed
sl@0	3316	for (TUint index = 0; index < gZoneCount; index++)
sl@0	3317	{
sl@0	3318	if (gZoneUtilArray[index].iFreePages != gZoneUtilArray[index].iPhysPages &&
sl@0	3319	!gZoneUtilArray[index].iAllocFixed && !gZoneUtilArray[index].iAllocUnknown)
sl@0	3320	{
sl@0	3321	r = Ldd.ZoneAllocToMany(index, 1);
sl@0	3322	if (r != KErrNone)
sl@0	3323	{
sl@0	3324	test.Printf(_L("Failed to alloc 0x%x fixed to zone index %d r = %d - Ending setup...\n"),
sl@0	3325	1, index, r);
sl@0	3326	return KErrGeneral;
sl@0	3327	}
sl@0	3328	}
sl@0	3329	}
sl@0	3330
sl@0	3331	GetAllPageInfo();
sl@0	3332	// Check the total number of free pages in the in-use zones
sl@0	3333	for (TUint index = 0; index < gZoneCount; index++)
sl@0	3334	{
sl@0	3335	if (gZoneUtilArray[index].iFreePages != gZoneUtilArray[index].iPhysPages)
sl@0	3336	{
sl@0	3337	aNumFreeInUse += gZoneUtilArray[index].iFreePages;
sl@0	3338	}
sl@0	3339	}
sl@0	3340	TESTDEBUG(test.Printf(_L("aNumFreeInUse = 0x%x\n"), aNumFreeInUse));
sl@0	3341
sl@0	3342	test.Printf(_L("aMovIndex = %d\n"), aMovIndex);
sl@0	3343	if (aNumFreeInUse < KSpaceNeeded)
sl@0	3344	{
sl@0	3345	test.Printf(_L("RAM zone to be tested is too full - Skipping test step...\n"));
sl@0	3346	return KErrGeneral;
sl@0	3347	}
sl@0	3348
sl@0	3349
sl@0	3350	// Ensure that there are movable pages in the zone under test
sl@0	3351	// ensuring that there is also room for discardable pages
sl@0	3352	GetAllPageInfo();
sl@0	3353	if (aMovAlloc != 0 && gZoneUtilArray[aMovIndex].iAllocMovable == 0)
sl@0	3354	{
sl@0	3355	// Allocate just aMovAlloc movable pages
sl@0	3356	TUint movPagesAlloc = aMovAlloc;
sl@0	3357	if (aTestNo == 2 \|\| aTestNo == 4)
sl@0	3358	{// Tests 2 and 4 require that movable pages can't be moved from zone
sl@0	3359	movPagesAlloc = aNumFreeInUse + 1;
sl@0	3360	if (movPagesAlloc > gZoneUtilArray[aMovIndex].iFreePages)
sl@0	3361	{
sl@0	3362	test.Printf(_L("Insufficiant space in zone %d to allocate 0x%x pages - Ending setup...\n"),
sl@0	3363	aMovIndex, movPagesAlloc);
sl@0	3364	return KErrGeneral;
sl@0	3365	}
sl@0	3366	}
sl@0	3367
sl@0	3368	r = ZoneAllocMovable(gChunkArray1, gChunkArraySize1, aMovIndex, movPagesAlloc);
sl@0	3369	if (gZoneUtilArray[aMovIndex].iAllocMovable != movPagesAlloc \|\|
sl@0	3370	gZoneUtilArray[aMovIndex].iFreePages == 0 \|\|
sl@0	3371	r != KErrNone)
sl@0	3372	{// Movable page didn't go into RAM, or RAM zone is full.
sl@0	3373	test.Printf(_L("Can't complete test with current RAM layout. - Skipping...\n"));
sl@0	3374	test.Printf(_L("zone mov 0x%x free 0x%x r=%d\n"),
sl@0	3375	gZoneUtilArray[aMovIndex].iAllocMovable,
sl@0	3376	gZoneUtilArray[aMovIndex].iFreePages, r);
sl@0	3377	return KErrGeneral;
sl@0	3378	}
sl@0	3379	}
sl@0	3380
sl@0	3381	// Block all other zones from allocation
sl@0	3382	for(TUint i = 0; i < gZoneCount; i++)
sl@0	3383	{
sl@0	3384	if (i != aMovIndex)
sl@0	3385	{
sl@0	3386	r = Ldd.SetZoneFlag(gZoneConfigArray[i].iZoneId, gZoneConfigArray[i].iFlags, NO_ALLOC_FLAG);
sl@0	3387	if (r != KErrNone)
sl@0	3388	{
sl@0	3389	test.Printf(_L("Failed to set flag on zone index %d r = %d- Ending setup...\n"), i, r);
sl@0	3390	return KErrGeneral;
sl@0	3391	}
sl@0	3392	}
sl@0	3393	}
sl@0	3394
sl@0	3395	// Now ensure that there are fixed pages in the zone under test
sl@0	3396	// ensuring that there is also room for discardable pages
sl@0	3397	GetAllPageInfo();
sl@0	3398	if (aFixAlloc != 0 && gZoneUtilArray[aMovIndex].iAllocFixed == 0)
sl@0	3399	{//Allocate just aFixAlloc fixed pages
sl@0	3400	r = Ldd.ZoneAllocToMany(aMovIndex, aFixAlloc);
sl@0	3401	GetAllPageInfo();
sl@0	3402	if (gZoneUtilArray[aMovIndex].iAllocMovable == 0 \|\|
sl@0	3403	gZoneUtilArray[aMovIndex].iFreePages == 0 \|\|
sl@0	3404	gZoneUtilArray[aMovIndex].iAllocFixed == 0 \|\|
sl@0	3405	r != KErrNone)
sl@0	3406	{// Fixed page didn't go into RAM or RAM zone is full.
sl@0	3407	test.Printf(_L("Can't complete test with current RAM layout. - Skipping...\n"));
sl@0	3408	test.Printf(_L("zone mov 0x%x fixed 0x%x free 0x%x r=%d\n"),
sl@0	3409	gZoneUtilArray[aMovIndex].iAllocMovable,
sl@0	3410	gZoneUtilArray[aMovIndex].iAllocFixed,
sl@0	3411	gZoneUtilArray[aMovIndex].iFreePages, r);
sl@0	3412	return KErrGeneral;
sl@0	3413	}
sl@0	3414	}
sl@0	3415
sl@0	3416
sl@0	3417
sl@0	3418	// Allocate aDisAlloc number of discardable pages
sl@0	3419	if (aDisAlloc != 0 && gZoneUtilArray[aMovIndex].iAllocDiscardable == 0)
sl@0	3420	{//Allocate just aDisAlloc discardable pages
sl@0	3421	TInt discard;
sl@0	3422	r = ZoneAllocDiscard(aMovIndex, aDisAlloc, discard);
sl@0	3423	GetAllPageInfo();
sl@0	3424	if (r != KErrNone \|\| gZoneUtilArray[aMovIndex].iAllocDiscardable == 0)
sl@0	3425	{// Discardable page didn't go into RAM or RAM zone is full.
sl@0	3426	test.Printf(_L("Can't complete test with current RAM layout. - Skipping...\n"));
sl@0	3427	test.Printf(_L("zone mov 0x%x discardable 0x%x free 0x%x r=%d\n"),
sl@0	3428	gZoneUtilArray[aMovIndex].iAllocDiscardable,
sl@0	3429	gZoneUtilArray[aMovIndex].iAllocFixed,
sl@0	3430	gZoneUtilArray[aMovIndex].iFreePages, r);
sl@0	3431	return KErrGeneral;
sl@0	3432	}
sl@0	3433	}
sl@0	3434
sl@0	3435	// Update the total number of free pages in the in-use zones
sl@0	3436	aNumFreeInUse = 0;
sl@0	3437	for (TUint index = 0; index < gZoneCount; index++)
sl@0	3438	{
sl@0	3439	if (gZoneUtilArray[index].iFreePages != gZoneUtilArray[index].iPhysPages &&
sl@0	3440	index != aMovIndex)
sl@0	3441	{
sl@0	3442	aNumFreeInUse += gZoneUtilArray[index].iFreePages;
sl@0	3443	}
sl@0	3444	}
sl@0	3445	TESTDEBUG(test.Printf(_L("aNumFreeInUse = 0x%x\n"), aNumFreeInUse));
sl@0	3446
sl@0	3447	// now reset all the flags
sl@0	3448	ResetRamZoneFlags();
sl@0	3449
sl@0	3450	return KErrNone;
sl@0	3451	}
sl@0	3452	//
sl@0	3453	// TestGenDefrag
sl@0	3454	//
sl@0	3455	//---------------------------------------------------------------------------------------------------------------------
sl@0	3456	//! @SYMTestCaseID KBASE-t_ramdefrag-0528
sl@0	3457	//! @SYMTestType CIT
sl@0	3458	//! @SYMTestCaseDesc Verifying general scenarios when RAM defrag would take place
sl@0	3459	//! @SYMPREQ PREQ308
sl@0	3460	//! @SYMTestPriority High
sl@0	3461	//! @SYMTestActions
sl@0	3462	//! 1. Allocate 1 movable, 1 fixed and 1 discardable pages into the most preferable empty RAM zone
sl@0	3463	//! ensuring that there is enough free space in the more preferable RAM zones for the
sl@0	3464	//! movable pages in the RAM zone under test. Following this call a general defrag.
sl@0	3465	//! 2. Allocate 1 movable and 1 discardable page into into the most preferable empty RAM zone
sl@0	3466	//! ensuring that there is not enough free space in the more preferable RAM zones for the
sl@0	3467	//! movable pages in the RAM zone under test. Following this call a general defrag.
sl@0	3468	//! 3. Allocate 1 movable and 1 discardable and 1 fixed page into the most preferable empty RAM zone(a).
sl@0	3469	//! Following this, place 1 movable page in an empty zone(b) ensuring that there is enough free space in
sl@0	3470	//! the more preferable RAM zones for the movable pages in both zones (a) and (b).
sl@0	3471	//! Following this call a general defrag.
sl@0	3472	//! 4. Allocate 1 movable and 1 discardable page into the least preferable empty RAM zone
sl@0	3473	//! ensuring that there is not enough free space in the more preferable RAM zones for the
sl@0	3474	//! movable pages in the RAM zone under test. Following this call a general defrag.
sl@0	3475	//! 5. Fragment the memory.
sl@0	3476	//! Following this allocate discardable pages by loading pages that are demand paged.
sl@0	3477	//! Read each of the constants from beginning to end.
sl@0	3478	//! Following this perform a RAM defrag.
sl@0	3479	//! 6. Call a device driver that will continuously allocate fixed pages to the
sl@0	3480	//! memory until it reports out of memory. Following this perform a RAM defrag.
sl@0	3481	//! 7. Defrag memory filled with discardable pages when the min cache size is reached
sl@0	3482	//! 8. Fragment the memory. Following this, continuously call a general defrag, each time
sl@0	3483	//! reducing the size of the chunks that are allocated
sl@0	3484	//!
sl@0	3485	//! @SYMTestExpectedResults
sl@0	3486	//! 1. The RAM zone under test is not emptied and all the discardable pages contained in it
sl@0	3487	//! have not been discarded.
sl@0	3488	//! 2. The RAM zone under test is not emptied and all the discardable pages contained in it
sl@0	3489	//! have not been discarded.
sl@0	3490	//! 3. RAM zones (a) and (b) have been emptied and all the discardable pages contained in them
sl@0	3491	//! have not been discarded.
sl@0	3492	//! 4. The RAM zone under test is emptied
sl@0	3493	//! 5. Pages are discarded
sl@0	3494	//! 6. No zones are emptied
sl@0	3495	//! 7. The least preferable zone is skipped but the other zones are defragmented as required.
sl@0	3496	//! 8. Zones are emptied if the general defrag can succeed
sl@0	3497	//---------------------------------------------------------------------------------------------------------------------
sl@0	3498	TInt TestGenDefrag()
sl@0	3499	{
sl@0	3500	TInt r = KErrNone;
sl@0	3501
sl@0	3502	test.Start(_L("Test1: Test General Defrag doesn't discard pages when fixed page in zone to be emptied"));
sl@0	3503	TestStart();
sl@0	3504	gChunkArray1 = new RChunk;
sl@0	3505	gChunkArraySize1 = 1;
sl@0	3506	TUint numFreeInUse = 0;
sl@0	3507	TUint testNo = 1;
sl@0	3508
sl@0	3509	// We just need 1 movable, 1 discardable and 1 fixed in the zone to ensure it cannot be emptied
sl@0	3510	// as the fixed should block the defrag
sl@0	3511	TInt movAllocPages = 1;
sl@0	3512	TInt fixAllocPages = 1;
sl@0	3513	TInt disAllocPages = 1;
sl@0	3514	TUint zoneIndex;
sl@0	3515
sl@0	3516	if (GenDefragTest123Setup(movAllocPages, fixAllocPages, disAllocPages, zoneIndex, numFreeInUse, testNo) != KErrNone)
sl@0	3517	{
sl@0	3518	test.Printf(_L("Setup failed - Skipping..\n"));
sl@0	3519	goto skipTest1;
sl@0	3520	}
sl@0	3521
sl@0	3522	// Call a general defrag and check that no discardable pages were freed.
sl@0	3523	GetOriginalPageCount();
sl@0	3524	r = Ldd.CallDefrag(DEFRAG_TYPE_GEN, DEFRAG_VER_SYNC);
sl@0	3525	GetAllPageInfo();
sl@0	3526	if (r != KErrNone \|\|
sl@0	3527	gZoneUtilArray[zoneIndex].iAllocMovable < gOriginalPageCountArray[zoneIndex].iAllocMovable \|\|
sl@0	3528	gOriginalPageCountArray[zoneIndex].iAllocDiscardable > gZoneUtilArray[zoneIndex].iAllocDiscardable)
sl@0	3529	{
sl@0	3530	test.Printf(_L("Fail: r = %d zoneIndex %d origMov 0x%x curMov 0x%x origDis 0x%x curDis 0x%x\n"), r, zoneIndex,
sl@0	3531	gOriginalPageCountArray[zoneIndex].iAllocMovable, gZoneUtilArray[zoneIndex].iAllocMovable,
sl@0	3532	gOriginalPageCountArray[zoneIndex].iAllocDiscardable, gZoneUtilArray[zoneIndex].iAllocDiscardable);
sl@0	3533	CLEANUP(Ldd.FreeAllFixedPages());
sl@0	3534	TEST_FAIL;
sl@0	3535	}
sl@0	3536	else
sl@0	3537	{
sl@0	3538	test.Printf(_L("Passed...\n"));
sl@0	3539	}
sl@0	3540
sl@0	3541	skipTest1:
sl@0	3542	// TestEnd() will perform any required clean up.
sl@0	3543	TestEnd();
sl@0	3544
sl@0	3545	test.Next(_L("Test2: Test General Defrag doesn't discard pages when zone can't be emptied"));
sl@0	3546	TestStart();
sl@0	3547	gChunkArray1 = new RChunk;
sl@0	3548	gChunkArraySize1 = 1;
sl@0	3549	testNo++;
sl@0	3550	// No fixed, but there should be no space for the movable to go to
sl@0	3551	// GenDefragTest123Setup(), will ensure that this is the case
sl@0	3552	// by allocating 1 more movable page than there is free in the in-use zones
sl@0	3553	movAllocPages = 1;
sl@0	3554	fixAllocPages = 0;
sl@0	3555	disAllocPages = 1;
sl@0	3556
sl@0	3557	if (GenDefragTest123Setup(movAllocPages, fixAllocPages, disAllocPages, zoneIndex, numFreeInUse, testNo) != KErrNone)
sl@0	3558	{
sl@0	3559	test.Printf(_L("Setup failed - Skipping..\n"));
sl@0	3560	goto skipTest2;
sl@0	3561	}
sl@0	3562
sl@0	3563	// Call a general defrag and check that no discardable pages were freed.
sl@0	3564	GetOriginalPageCount();
sl@0	3565	r = Ldd.CallDefrag(DEFRAG_TYPE_GEN, DEFRAG_VER_SYNC);
sl@0	3566
sl@0	3567	GetAllPageInfo();
sl@0	3568	if (r != KErrNone \|\|
sl@0	3569	gZoneUtilArray[zoneIndex].iAllocMovable < gOriginalPageCountArray[zoneIndex].iAllocMovable \|\|
sl@0	3570	gOriginalPageCountArray[zoneIndex].iAllocDiscardable > gZoneUtilArray[zoneIndex].iAllocDiscardable)
sl@0	3571	{
sl@0	3572	test.Printf(_L("Fail: r = %d zoneIndex %d origMov 0x%x curMov 0x%x origDis 0x%x curDis 0x%x\n"), r, zoneIndex,
sl@0	3573	gOriginalPageCountArray[zoneIndex].iAllocMovable, gZoneUtilArray[zoneIndex].iAllocMovable,
sl@0	3574	gOriginalPageCountArray[zoneIndex].iAllocDiscardable, gZoneUtilArray[zoneIndex].iAllocDiscardable);
sl@0	3575	CLEANUP(Ldd.FreeAllFixedPages());
sl@0	3576	TEST_FAIL;
sl@0	3577	}
sl@0	3578	else
sl@0	3579	{
sl@0	3580	test.Printf(_L("Passed...\n"));
sl@0	3581	}
sl@0	3582
sl@0	3583	skipTest2:
sl@0	3584	// TestEnd() will perform any required clean up.
sl@0	3585	TestEnd();
sl@0	3586
sl@0	3587	test.Next(_L("Test3: Test General Defrag tidies when fixed page in zone to be emptied but other can be emptied"));
sl@0	3588	TestStart();
sl@0	3589	gChunkArray1 = new RChunk;
sl@0	3590	gChunkArraySize1 = 1;
sl@0	3591	gChunkArray2 = new RChunk;
sl@0	3592	gChunkArraySize2 = 1;
sl@0	3593	TUint totalToMove;
sl@0	3594	testNo++;
sl@0	3595
sl@0	3596	// First use GenDefragTest123Setup() to ensure we place 1 fixed, 1 movable and 1 discardable
sl@0	3597	// in the least preferable zone
sl@0	3598	movAllocPages = 1;
sl@0	3599	fixAllocPages = 1;
sl@0	3600	disAllocPages = 1;
sl@0	3601	TBool zoneFound = EFalse;
sl@0	3602	TUint emptyZoneIndex = 0;
sl@0	3603
sl@0	3604	if (GenDefragTest123Setup(movAllocPages, fixAllocPages, disAllocPages, zoneIndex, numFreeInUse, testNo) != KErrNone)
sl@0	3605	{
sl@0	3606	test.Printf(_L("Setup failed - Skipping..\n"));
sl@0	3607	goto skipTest3;
sl@0	3608	}
sl@0	3609
sl@0	3610	// Find an empty zone and place a movable page in it
sl@0	3611	GetAllPageInfo();
sl@0	3612	for (TUint i = 0; i < gZoneCount; i++)
sl@0	3613	{
sl@0	3614	if (gZoneUtilArray[i].iFreePages == gZoneUtilArray[i].iPhysPages)
sl@0	3615	{
sl@0	3616	zoneFound = ETrue;
sl@0	3617	emptyZoneIndex = i;
sl@0	3618	break;
sl@0	3619	}
sl@0	3620	}
sl@0	3621	if (!zoneFound)
sl@0	3622	{
sl@0	3623	test.Printf(_L("Can't find empty zone - Skipping..\n"));
sl@0	3624	goto skipTest3;
sl@0	3625	}
sl@0	3626
sl@0	3627	// Allocate 1 movable page into the empty zone
sl@0	3628	r = ZoneAllocMovable(gChunkArray2, gChunkArraySize2, emptyZoneIndex, 1);
sl@0	3629	GetAllPageInfo();
sl@0	3630	if (r != KErrNone \|\|
sl@0	3631	gZoneUtilArray[emptyZoneIndex].iAllocMovable == 0 \|\|
sl@0	3632	gZoneUtilArray[emptyZoneIndex].iAllocFixed != 0)
sl@0	3633	{
sl@0	3634	test.Printf(_L("Movable pages not allocated or fixed pages allocated. - Skipping...\n"));
sl@0	3635	test.Printf(_L("zone mov 0x%x free 0x%x r =% d\n"),
sl@0	3636	gZoneUtilArray[emptyZoneIndex].iAllocMovable,
sl@0	3637	gZoneUtilArray[emptyZoneIndex].iFreePages, r);
sl@0	3638	goto skipTest3;
sl@0	3639	}
sl@0	3640
sl@0	3641	// Check that the amount we are allocating can actually be moved into the in-use zones
sl@0	3642	totalToMove = gZoneUtilArray[zoneIndex].iAllocMovable + gZoneUtilArray[zoneIndex].iAllocDiscardable +
sl@0	3643	gZoneUtilArray[emptyZoneIndex].iAllocMovable + gZoneUtilArray[emptyZoneIndex].iAllocDiscardable;
sl@0	3644
sl@0	3645	// Check the total number of free pages in the in-use zones
sl@0	3646	numFreeInUse = 0;
sl@0	3647	for (TUint index = 0; index < gZoneCount; index++)
sl@0	3648	{
sl@0	3649	if (gZoneUtilArray[index].iFreePages != gZoneUtilArray[index].iPhysPages &&
sl@0	3650	index != zoneIndex && index != emptyZoneIndex)
sl@0	3651	{
sl@0	3652	numFreeInUse += gZoneUtilArray[index].iFreePages;
sl@0	3653	}
sl@0	3654	}
sl@0	3655	if(numFreeInUse < totalToMove)
sl@0	3656	{
sl@0	3657	test.Printf(_L("No space to move pages numFreeInUse = 0x%x totalToMove = 0x%x - Skipping..\n"),
sl@0	3658	numFreeInUse, totalToMove);
sl@0	3659	goto skipTest3;
sl@0	3660	}
sl@0	3661
sl@0	3662	// Call a general defrag and check that zone is emptied.
sl@0	3663	GetOriginalPageCount();
sl@0	3664	r = Ldd.CallDefrag(DEFRAG_TYPE_GEN, DEFRAG_VER_SYNC);
sl@0	3665
sl@0	3666	GetAllPageInfo();
sl@0	3667	if (r != KErrNone \|\|
sl@0	3668	gZoneUtilArray[zoneIndex].iAllocMovable \|\|
sl@0	3669	gZoneUtilArray[zoneIndex].iAllocDiscardable \|\|
sl@0	3670	gZoneUtilArray[emptyZoneIndex].iAllocMovable)
sl@0	3671	{
sl@0	3672	test.Printf(_L("Fail: r = %d zoneIndex %d origMov 0x%x curMov 0x%x origDis 0x%x curDis 0x%x\n"), r, zoneIndex,
sl@0	3673	gOriginalPageCountArray[zoneIndex].iAllocMovable, gZoneUtilArray[zoneIndex].iAllocMovable,
sl@0	3674	gOriginalPageCountArray[zoneIndex].iAllocDiscardable, gZoneUtilArray[zoneIndex].iAllocDiscardable);
sl@0	3675	CLEANUP(Ldd.FreeAllFixedPages());
sl@0	3676	TEST_FAIL;
sl@0	3677	}
sl@0	3678	else
sl@0	3679	{
sl@0	3680	test.Printf(_L("Passed...\n"));
sl@0	3681	}
sl@0	3682
sl@0	3683	skipTest3:
sl@0	3684	// TestEnd() will perform any required clean up.
sl@0	3685	TestEnd();
sl@0	3686
sl@0	3687	test.Next(_L("Test4: Test General Defrag moves pages into the next most pref if they don't fit into the most pref"));
sl@0	3688	TestStart();
sl@0	3689	gChunkArray1 = new RChunk;
sl@0	3690	gChunkArraySize1 = 1;
sl@0	3691	testNo++;
sl@0	3692
sl@0	3693	// No fixed, but there should be no space for the movable to go to
sl@0	3694	// GenDefragTest123Setup(), will ensure that this is the case
sl@0	3695	// by allocating 1 more movable page than there is free in the in-use zones
sl@0	3696	movAllocPages = 1;
sl@0	3697	fixAllocPages = 0;
sl@0	3698	disAllocPages = 1;
sl@0	3699
sl@0	3700	if (GenDefragTest123Setup(movAllocPages, fixAllocPages, disAllocPages, zoneIndex, numFreeInUse, testNo) != KErrNone)
sl@0	3701	{
sl@0	3702	test.Printf(_L("Setup failed - Skipping..\n"));
sl@0	3703	goto skipTest4;
sl@0	3704	}
sl@0	3705
sl@0	3706	// Call a general defrag and check that the test zone is emptied.
sl@0	3707	GetOriginalPageCount();
sl@0	3708	r = Ldd.CallDefrag(DEFRAG_TYPE_GEN, DEFRAG_VER_SYNC);
sl@0	3709
sl@0	3710	GetAllPageInfo();
sl@0	3711	if (r != KErrNone \|\|
sl@0	3712	gZoneUtilArray[zoneIndex].iFreePages != gZoneUtilArray[zoneIndex].iPhysPages)
sl@0	3713	{
sl@0	3714	test.Printf(_L("Fail: r = %d zoneIndex %d origMov 0x%x curMov 0x%x origDis 0x%x curDis 0x%x\n"), r, zoneIndex,
sl@0	3715	gOriginalPageCountArray[zoneIndex].iAllocMovable, gZoneUtilArray[zoneIndex].iAllocMovable,
sl@0	3716	gOriginalPageCountArray[zoneIndex].iAllocDiscardable, gZoneUtilArray[zoneIndex].iAllocDiscardable);
sl@0	3717	CLEANUP(Ldd.FreeAllFixedPages());
sl@0	3718	TEST_FAIL;
sl@0	3719	}
sl@0	3720	else
sl@0	3721	{
sl@0	3722	test.Printf(_L("Passed...\n"));
sl@0	3723	}
sl@0	3724
sl@0	3725	skipTest4:
sl@0	3726	// TestEnd() will perform any required clean up.
sl@0	3727	TestEnd();
sl@0	3728
sl@0	3729	test.Next(_L("Test5: Defrag memory filled with discardable pages\n"));
sl@0	3730	TestStart();
sl@0	3731	if (gPagedRom)
sl@0	3732	{
sl@0	3733	AllocMovable(gChunkArray1, gChunkArraySize1, KNumAllocChunks);
sl@0	3734	FreeMovable(gChunkArray1, gChunkArraySize1);
sl@0	3735
sl@0	3736	GetAllPageInfo();
sl@0	3737	TInt discardablePages;
sl@0	3738	UpdateRamInfo();
sl@0	3739
sl@0	3740	r = AllocDiscardable(discardablePages);
sl@0	3741	if (r != KErrNone)
sl@0	3742	{
sl@0	3743	test.Printf(_L("r = %d, expected = %d\n"), r, KErrNone);
sl@0	3744	CLEANUP(RemoveChunkAlloc(gChunkArray1, gChunkArraySize1));
sl@0	3745	TEST_FAIL;
sl@0	3746	}
sl@0	3747	TESTDEBUG(test.Printf(_L("Number of discardable pages = 0x%x\n"), discardablePages >> gPageShift));
sl@0	3748
sl@0	3749	GetOriginalPageCount();
sl@0	3750	TBool genSucceed = CanGenSucceed();
sl@0	3751	r = Ldd.CallDefrag(DEFRAG_TYPE_GEN, DEFRAG_VER_SYNC);
sl@0	3752	TESTDEBUG(test.Printf(_L("After calling defrag r = %d\n"), r));
sl@0	3753
sl@0	3754	if (r != KErrNone)
sl@0	3755	{
sl@0	3756	test.Printf(_L("Fail: r = %d, expected = %d\n"),r,KErrNone);
sl@0	3757	CLEANUP(RemoveChunkAlloc(gChunkArray1, gChunkArraySize1));
sl@0	3758	TEST_FAIL;
sl@0	3759	}
sl@0	3760	else if (genSucceed && CheckZonesSwitchedOff() == EFalse)
sl@0	3761	{
sl@0	3762	test.Printf(_L("No Zones Switched off and should have been\n"));
sl@0	3763	CLEANUP(RemoveChunkAlloc(gChunkArray1, gChunkArraySize1));
sl@0	3764	TEST_FAIL;
sl@0	3765	}
sl@0	3766	else
sl@0	3767	{
sl@0	3768	test.Printf(_L("Passed...\n"));
sl@0	3769	}
sl@0	3770
sl@0	3771	RemoveChunkAlloc(gChunkArray1, gChunkArraySize1);
sl@0	3772	ResetDPCache();
sl@0	3773	}
sl@0	3774	else
sl@0	3775	{
sl@0	3776	test.Printf(_L("Not a paged ROM - Skipping test step\n"));
sl@0	3777	}
sl@0	3778	TestEnd();
sl@0	3779
sl@0	3780
sl@0	3781	test.Next(_L("Test6: Defrag memory filled with fixed pages"));
sl@0	3782	TestStart();
sl@0	3783
sl@0	3784	TESTDEBUG(test.Printf(_L("Filling memory with fixed pages, r = %d\n")));
sl@0	3785	r = Ldd.AllocateFixed(FILL_ALL_FIXED);
sl@0	3786
sl@0	3787	GetOriginalPageCount();
sl@0	3788	TBool genSucceed = CanGenSucceed();
sl@0	3789	r = Ldd.CallDefrag(DEFRAG_TYPE_GEN, DEFRAG_VER_SYNC);
sl@0	3790	TESTDEBUG(test.Printf(_L("After calling defrag r = %d\n"), r));
sl@0	3791
sl@0	3792	// The zones should be full of fixed pages so the general should do nothing.
sl@0	3793	if (r != KErrNone \|\|
sl@0	3794	genSucceed \|\|
sl@0	3795	CheckZonesSwitchedOff())
sl@0	3796	{
sl@0	3797	test.Printf(_L("Fail: r = %d, expected = %d, or zone have been emptied\n"), r, KErrNone);
sl@0	3798	CLEANUP(Ldd.FreeAllFixedPages());
sl@0	3799	TEST_FAIL;
sl@0	3800	}
sl@0	3801	else
sl@0	3802	{
sl@0	3803	test.Printf(_L("Passed...\n"));
sl@0	3804	}
sl@0	3805	Ldd.FreeAllFixedPages();
sl@0	3806	TestEnd();
sl@0	3807
sl@0	3808	test.Next(_L("Test7: Defrag memory filled with discardable pages when the min cache size is reached\n"));
sl@0	3809	TestStart();
sl@0	3810	if (gPagedRom)
sl@0	3811	{
sl@0	3812	AllocMovable(gChunkArray1, gChunkArraySize1, KNumAllocChunks);
sl@0	3813	FreeMovable(gChunkArray1, gChunkArraySize1);
sl@0	3814
sl@0	3815	GetAllPageInfo();
sl@0	3816	TInt discardablePages;
sl@0	3817	UpdateRamInfo();
sl@0	3818
sl@0	3819	r = AllocDiscardable(discardablePages);
sl@0	3820	if (r != KErrNone)
sl@0	3821	{
sl@0	3822	test.Printf(_L("r = %d, expected = %d\n"), r, KErrNone);
sl@0	3823	CLEANUP(RemoveChunkAlloc(gChunkArray1, gChunkArraySize1));
sl@0	3824	TEST_FAIL;
sl@0	3825	}
sl@0	3826	TESTDEBUG(test.Printf(_L("Number of discardable pages = 0x%x\n"), discardablePages >> gPageShift));
sl@0	3827
sl@0	3828	TUint minCacheSize = 0;
sl@0	3829	TUint maxCacheSize = 0;
sl@0	3830	TUint currentCacheSize = 0;
sl@0	3831
sl@0	3832	DPTest::CacheSize(minCacheSize,maxCacheSize,currentCacheSize);
sl@0	3833
sl@0	3834	TUint setMin = maxCacheSize;
sl@0	3835	TUint64 setMax = maxCacheSize;
sl@0	3836	TInt r = DPTest::SetCacheSize(setMin, setMax);
sl@0	3837	if (r != KErrNone)
sl@0	3838	{
sl@0	3839	test.Printf(_L("r = %d, expected = %d\n"), r, KErrNone);
sl@0	3840	CLEANUP(RemoveChunkAlloc(gChunkArray1, gChunkArraySize1));
sl@0	3841	CLEANUP(ResetDPCache());
sl@0	3842	TEST_FAIL;
sl@0	3843	}
sl@0	3844	TESTDEBUG(test.Printf(_L("After SetCacheSize: minCacheSize = 0x%x, maxCacheSize = 0x%x\n"),
sl@0	3845	setMin >> gPageShift, setMax >> gPageShift));
sl@0	3846
sl@0	3847	GetOriginalPageCount();
sl@0	3848	genSucceed = CanGenSucceed();
sl@0	3849	r = Ldd.CallDefrag(DEFRAG_TYPE_GEN, DEFRAG_VER_SYNC);
sl@0	3850	TESTDEBUG(test.Printf(_L("After calling defrag r = %d\n"), r));
sl@0	3851
sl@0	3852	if (r != KErrNone)
sl@0	3853	{
sl@0	3854	test.Printf(_L("Fail: r = %d, expected = %d\n"),r,KErrNone);
sl@0	3855	CLEANUP(RemoveChunkAlloc(gChunkArray1, gChunkArraySize1));
sl@0	3856	CLEANUP(ResetDPCache());
sl@0	3857	TEST_FAIL;
sl@0	3858	}
sl@0	3859	else if (genSucceed && CheckZonesSwitchedOff() == EFalse)
sl@0	3860	{
sl@0	3861	test.Printf(_L("No Zones Switched off and should have been\n"));
sl@0	3862	CLEANUP(RemoveChunkAlloc(gChunkArray1, gChunkArraySize1));
sl@0	3863	CLEANUP(ResetDPCache());
sl@0	3864	TEST_FAIL;
sl@0	3865	}
sl@0	3866	else
sl@0	3867	{
sl@0	3868	test.Printf(_L("Passed...\n"));
sl@0	3869	}
sl@0	3870
sl@0	3871	RemoveChunkAlloc(gChunkArray1, gChunkArraySize1);
sl@0	3872	ResetDPCache();
sl@0	3873
sl@0	3874
sl@0	3875	}
sl@0	3876	else
sl@0	3877	{
sl@0	3878	test.Printf(_L("Not a paged ROM - Skipping test step\n"));
sl@0	3879	}
sl@0	3880	TestEnd();
sl@0	3881
sl@0	3882	test.Next(_L("Test8: Defrag fragmented memory for various smaller chunk sizes"));
sl@0	3883	TInt chunkSize = 0x80000;
sl@0	3884	while (chunkSize >= 0x4000)
sl@0	3885	{
sl@0	3886	test.Printf(_L("chunkSize = %dKB\n"), chunkSize/1024);
sl@0	3887	TestStart();
sl@0	3888	r = AllocMovable(gChunkArray1, gChunkArraySize1, KFillAllMovable, chunkSize, EFalse);
sl@0	3889	r = FreeMovable(gChunkArray1, gChunkArraySize1);
sl@0	3890
sl@0	3891	GetOriginalPageCount();
sl@0	3892	TBool genSucceed = CanGenSucceed();
sl@0	3893	r = Ldd.CallDefrag(DEFRAG_TYPE_GEN, DEFRAG_VER_SYNC);
sl@0	3894	TESTDEBUG(test.Printf(_L("After calling defrag r = %d\n"), r));
sl@0	3895
sl@0	3896	if (r != KErrNone)
sl@0	3897	{
sl@0	3898	test.Printf(_L("Fail: r = %d, expected = %d\n"),r,KErrNone);
sl@0	3899	CLEANUP(RemoveChunkAlloc(gChunkArray1, gChunkArraySize1));
sl@0	3900	TEST_FAIL;
sl@0	3901	}
sl@0	3902	else if (genSucceed && CheckZonesSwitchedOff() == EFalse)
sl@0	3903	{
sl@0	3904	test.Printf(_L("No Zones Switched off and should have been\n"));
sl@0	3905	CLEANUP(RemoveChunkAlloc(gChunkArray1, gChunkArraySize1));
sl@0	3906	TEST_FAIL;
sl@0	3907	}
sl@0	3908	else
sl@0	3909	{
sl@0	3910	test.Printf(_L("Passed...\n"));
sl@0	3911	}
sl@0	3912
sl@0	3913	RemoveChunkAlloc(gChunkArray1, gChunkArraySize1);
sl@0	3914	TestEnd();
sl@0	3915	chunkSize = chunkSize>>1;
sl@0	3916	}
sl@0	3917
sl@0	3918	test.Next(_L("Test9: Defrag fragmented memory "));
sl@0	3919	TestStart();
sl@0	3920
sl@0	3921	r = AllocMovable(gChunkArray1, gChunkArraySize1, KFillAllMovable);
sl@0	3922	r = FreeMovable(gChunkArray1, gChunkArraySize1);
sl@0	3923
sl@0	3924	GetOriginalPageCount();
sl@0	3925	genSucceed = CanGenSucceed();
sl@0	3926	r = Ldd.CallDefrag(DEFRAG_TYPE_GEN, DEFRAG_VER_SYNC);
sl@0	3927	TESTDEBUG(test.Printf(_L("After calling defrag r = %d\n"), r));
sl@0	3928
sl@0	3929	if (r != KErrNone)
sl@0	3930	{
sl@0	3931	test.Printf(_L("Fail: r = %d, expected = %d\n"),r,KErrNone);
sl@0	3932	CLEANUP(RemoveChunkAlloc(gChunkArray1, gChunkArraySize1));
sl@0	3933	TEST_FAIL;
sl@0	3934	}
sl@0	3935	else if (genSucceed && CheckZonesSwitchedOff() == EFalse)
sl@0	3936	{
sl@0	3937	test.Printf(_L("No Zones Switched off and should have been\n"));
sl@0	3938	CLEANUP(RemoveChunkAlloc(gChunkArray1, gChunkArraySize1));
sl@0	3939	TEST_FAIL;
sl@0	3940	}
sl@0	3941	else
sl@0	3942	{
sl@0	3943	test.Printf(_L("Passed...\n"));
sl@0	3944	}
sl@0	3945
sl@0	3946	RemoveChunkAlloc(gChunkArray1, gChunkArraySize1);
sl@0	3947	TestEnd();
sl@0	3948
sl@0	3949	test.End();
sl@0	3950	return KErrNone;
sl@0	3951	}
sl@0	3952
sl@0	3953
sl@0	3954	//
sl@0	3955	// TestGetRamZonePageCount
sl@0	3956	//
sl@0	3957	//---------------------------------------------------------------------------------------------------------------------
sl@0	3958	//! @SYMTestCaseID KBASE-t_ramdefrag-0529
sl@0	3959	//! @SYMTestType CIT
sl@0	3960	//! @SYMTestCaseDesc Verifying the implementation of the function GetRamZonePageCount()
sl@0	3961	//! @SYMPREQ PREQ308
sl@0	3962	//! @SYMTestPriority High
sl@0	3963	//! @SYMTestActions
sl@0	3964	//! 1. Fragment the memory. Following this, call GetRamZonePageCount() on every zone and verify
sl@0	3965	//! the values with the test HAL functions.
sl@0	3966	//! 2. Fragment the memory. Following this, call function with an valid aID
sl@0	3967	//!
sl@0	3968	//! @SYMTestExpectedResults
sl@0	3969	//! 1. KErrNone
sl@0	3970	//! 2. KErrArgument
sl@0	3971	//---------------------------------------------------------------------------------------------------------------------
sl@0	3972	TInt TestGetRamZonePageCount()
sl@0	3973	{
sl@0	3974	test.Start(_L("Test1: Call GetRamZonePageCount() on every zone one after the other"));
sl@0	3975	TestStart();
sl@0	3976
sl@0	3977	AllocMovable(gChunkArray1, gChunkArraySize1, KNumAllocChunks);
sl@0	3978	FreeMovable(gChunkArray1, gChunkArraySize1);
sl@0	3979
sl@0	3980	for (TUint index = 0; index < gZoneCount; index++)
sl@0	3981	{
sl@0	3982	GetAllPageInfo();
sl@0	3983	TUint zoneID = gZoneConfigArray[index].iZoneId;
sl@0	3984
sl@0	3985	STestUserSidePageCount pageData;
sl@0	3986	TInt r = Ldd.PageCount(zoneID, &pageData);
sl@0	3987	TESTDEBUG(test.Printf(_L("Page count function r = %d\n"), r));
sl@0	3988	if (r != KErrNone)
sl@0	3989	{
sl@0	3990	test.Printf(_L("Fail: r = %d, expected = %d\n"), r, KErrNone);
sl@0	3991	CLEANUP(RemoveChunkAlloc(gChunkArray1, gChunkArraySize1));
sl@0	3992	TEST_FAIL;
sl@0	3993	}
sl@0	3994
sl@0	3995	if (pageData.iFreePages != gZoneUtilArray[index].iFreePages \|\|
sl@0	3996	pageData.iFixedPages != gZoneUtilArray[index].iAllocFixed \|\|
sl@0	3997	pageData.iMovablePages != gZoneUtilArray[index].iAllocMovable \|\|
sl@0	3998	pageData.iDiscardablePages != gZoneUtilArray[index].iAllocDiscardable)
sl@0	3999	{
sl@0	4000	test.Printf(_L("RAM zone page count does not match test HAL page count, Zone %d\n"), zoneID);
sl@0	4001	test.Printf(_L("PgCnt: free = 0x%x, fixed = 0x%x, movable= 0x%x, discard = 0x%x\n"),
sl@0	4002	pageData.iFreePages, pageData.iFixedPages, pageData.iMovablePages, pageData.iDiscardablePages);
sl@0	4003	test.Printf(_L("HalFunc: free = 0x%x, fixed = 0x%x, movable= 0x%x, discard = 0x%x\n"),
sl@0	4004	gZoneUtilArray[index].iFreePages, gZoneUtilArray[index].iAllocFixed,
sl@0	4005	gZoneUtilArray[index].iAllocMovable, gZoneUtilArray[index].iAllocDiscardable);
sl@0	4006	CLEANUP(RemoveChunkAlloc(gChunkArray1, gChunkArraySize1));
sl@0	4007	TEST_FAIL;
sl@0	4008	}
sl@0	4009	else
sl@0	4010	{
sl@0	4011	test.Printf(_L("Zone %d Passed...\n"), zoneID);
sl@0	4012	}
sl@0	4013	TESTDEBUG(test.Printf(_L("iFreePages = 0x%x, iFixedPages = 0x%x, iMovablePages = 0x%x, iDiscardablePages = 0x%x\n"),
sl@0	4014	pageData.iFreePages, pageData.iFixedPages, pageData.iMovablePages, pageData.iDiscardablePages));
sl@0	4015	}
sl@0	4016	RemoveChunkAlloc(gChunkArray1, gChunkArraySize1);
sl@0	4017	TestEnd();
sl@0	4018
sl@0	4019	test.Next(_L("Test2: Call GetRamZonePageCount() with an invalid aID "));
sl@0	4020	TestStart();
sl@0	4021
sl@0	4022	TUint zoneID = KInvalidZoneID;
sl@0	4023	STestUserSidePageCount pageData;
sl@0	4024	TInt r = Ldd.PageCount(zoneID, &pageData);
sl@0	4025	TESTDEBUG(test.Printf(_L("Page count function r = %d\n"), r));
sl@0	4026	if (r != KErrArgument)
sl@0	4027	{
sl@0	4028	test.Printf(_L("Fail: r = %d, expected = %d\n"), r, KErrArgument);
sl@0	4029	TEST_FAIL;
sl@0	4030	}
sl@0	4031	else
sl@0	4032	{
sl@0	4033	test.Printf(_L("Passed...\n"));
sl@0	4034	}
sl@0	4035	TestEnd();
sl@0	4036
sl@0	4037	test.End();
sl@0	4038	return 0;
sl@0	4039	}
sl@0	4040
sl@0	4041	const TUint KIndex2Alloc = 10;
sl@0	4042	const TUint KTestMaxPages = 6;
sl@0	4043
sl@0	4044	//
sl@0	4045	// DefragMaxPagesSetup
sl@0	4046	//
sl@0	4047	// Arranges the memory layout in preparation for TestDefragRamMaxPages()
sl@0	4048	//
sl@0	4049	// WARNING THIS WILL BE UNRELIABLE IF aMaxPages > KIndex2Alloc
sl@0	4050	//
sl@0	4051	TInt DefragMaxPagesSetup(TInt aPageType, TUint aMaxPages, TUint& aIndex, TUint& aIndex2)
sl@0	4052	{
sl@0	4053	TInt r = KErrNoMemory;
sl@0	4054
sl@0	4055	// Get the preference order and determine the 2 most preferable zones
sl@0	4056	// that are currently not in use.
sl@0	4057	GetPrefOrder();
sl@0	4058	TUint freeInUsePages = 0;
sl@0	4059	TBool zonesFound = EFalse;
sl@0	4060	for (TUint i = 1; i < gZoneCount; i++)
sl@0	4061	{
sl@0	4062	aIndex = gPrefArray[i];
sl@0	4063	aIndex2 = gPrefArray[i-1];
sl@0	4064	TUint indexFree = gZoneUtilArray[aIndex].iFreePages;
sl@0	4065	TUint index2Free = gZoneUtilArray[aIndex2].iFreePages;
sl@0	4066	if (indexFree == gZoneUtilArray[aIndex].iPhysPages &&
sl@0	4067	index2Free == gZoneUtilArray[aIndex2].iPhysPages &&
sl@0	4068	indexFree >= aMaxPages && index2Free >= KIndex2Alloc &&
sl@0	4069	freeInUsePages >= KIndex2Alloc + aMaxPages)
sl@0	4070	{
sl@0	4071	zonesFound = ETrue;
sl@0	4072	break;
sl@0	4073	}
sl@0	4074	freeInUsePages += index2Free;
sl@0	4075	}
sl@0	4076
sl@0	4077	// Could suitable RAM zones be found.
sl@0	4078	if (!zonesFound)
sl@0	4079	{
sl@0	4080	test.Printf(_L("Insufficient memory - Skipping test...\n"));
sl@0	4081	return KErrNoMemory;
sl@0	4082	}
sl@0	4083
sl@0	4084	if (aPageType == BEST_MOVABLE)
sl@0	4085	{
sl@0	4086	// Allocate KIndex2Alloc movable pages to aIndex2
sl@0	4087	r = ZoneAllocMovable(gChunkArray1, gChunkArraySize1, aIndex2, KIndex2Alloc);
sl@0	4088	if (r != KErrNone)
sl@0	4089	{
sl@0	4090	test.Printf(_L("Insufficient memory - Skipping test...\n"));
sl@0	4091	r = KErrNoMemory;
sl@0	4092	goto error;
sl@0	4093	}
sl@0	4094
sl@0	4095
sl@0	4096
sl@0	4097	// Now allow movable pages to be allocated into the least preferable RAM zone under test only.
sl@0	4098	GetAllPageInfo();
sl@0	4099	if (aMaxPages >= gZoneUtilArray[aIndex].iFreePages)
sl@0	4100	{
sl@0	4101	test.Printf(_L("Insufficient memory available - Skipping test...\n"));
sl@0	4102	r = KErrNoMemory;
sl@0	4103	goto error;
sl@0	4104	}
sl@0	4105	// Allocate aMaxPages movable pages to aIndex
sl@0	4106	r = ZoneAllocMovable(gChunkArray2, gChunkArraySize2, aIndex, aMaxPages);
sl@0	4107	if (r != KErrNone)
sl@0	4108	{
sl@0	4109	test.Printf(_L("Insufficient memory - Skipping test...\n"));
sl@0	4110	r = KErrNoMemory;
sl@0	4111	goto error;
sl@0	4112	}
sl@0	4113
sl@0	4114	// Determine how many free pages there are in the RAM zones more preferable
sl@0	4115	// than the RAM zones under test.
sl@0	4116	GetPrefOrder();
sl@0	4117	freeInUsePages = 0;
sl@0	4118	for (TUint i = 0; i < gZoneCount; i++)
sl@0	4119	{
sl@0	4120	TUint tmpIndex = gPrefArray[i];
sl@0	4121	if (tmpIndex == aIndex2)
sl@0	4122	break;
sl@0	4123	freeInUsePages += gZoneUtilArray[tmpIndex].iFreePages;
sl@0	4124	}
sl@0	4125	// Verify that the RAM layout is still suitable for the test.
sl@0	4126	if (gZoneUtilArray[aIndex].iAllocMovable != aMaxPages \|\|
sl@0	4127	gZoneUtilArray[aIndex2].iAllocMovable != KIndex2Alloc \|\|
sl@0	4128	gZoneUtilArray[aIndex].iAllocDiscardable \|\| gZoneUtilArray[aIndex].iAllocFixed \|\|
sl@0	4129	gZoneUtilArray[aIndex2].iAllocDiscardable \|\| gZoneUtilArray[aIndex2].iAllocFixed \|\|
sl@0	4130	freeInUsePages < KIndex2Alloc + aMaxPages)
sl@0	4131	{
sl@0	4132	test.Printf(_L("Insufficient memory - Skipping test...\n"));
sl@0	4133	r = KErrNoMemory;
sl@0	4134	goto error;
sl@0	4135	}
sl@0	4136
sl@0	4137	// now reset all the flags
sl@0	4138	ResetRamZoneFlags();
sl@0	4139
sl@0	4140	// Perform a general defrag
sl@0	4141	r = Ldd.CallDefrag(DEFRAG_TYPE_GEN, DEFRAG_VER_SYNC, 0, KTestMaxPages);
sl@0	4142	goto exit;
sl@0	4143	}
sl@0	4144
sl@0	4145	if (aPageType == BEST_DISCARDABLE)
sl@0	4146	{
sl@0	4147
sl@0	4148	TUint minCacheSize = 0;
sl@0	4149	TUint maxCacheSize = 0;
sl@0	4150	TUint currentCacheSize = 0;
sl@0	4151	DPTest::CacheSize(minCacheSize,maxCacheSize,currentCacheSize);
sl@0	4152	test.Printf(_L("Original CacheSize: minCacheSize = 0x%x, maxCacheSize = 0x%x, currentCacheSize = 0x%x\n"),
sl@0	4153	minCacheSize >> gPageShift, maxCacheSize >> gPageShift, currentCacheSize >> gPageShift);
sl@0	4154
sl@0	4155
sl@0	4156
sl@0	4157	// Allocate a number of discardable pages to the 2nd least preferable zone under test
sl@0	4158	TInt disPages;
sl@0	4159	r = ZoneAllocDiscard(aIndex2, KIndex2Alloc, disPages);
sl@0	4160	if (r != KErrNone)
sl@0	4161	{
sl@0	4162	test.Printf(_L("ZoneAllocDiscard() r = %d KIndex2Alloc = 0x%x disPages = 0x%x aIndex2 = %d - Skipping test...\n"),
sl@0	4163	r, KIndex2Alloc, disPages, aIndex2);
sl@0	4164	GetAllPageInfo();
sl@0	4165	PrintPageInfo();
sl@0	4166	r = KErrNoMemory;
sl@0	4167	goto error;
sl@0	4168	}
sl@0	4169	TUint discFillBytes = KIndex2Alloc << gPageShift;
sl@0	4170	r = DPTest::SetCacheSize(currentCacheSize + discFillBytes, currentCacheSize + discFillBytes);
sl@0	4171	if (r != KErrNone)
sl@0	4172	{
sl@0	4173	test.Printf(_L("SetCacheSize r = 0x%x currentCacheSize + discFillBytes = 0x%x - Skipping test...\n"),
sl@0	4174	r, currentCacheSize + discFillBytes);
sl@0	4175	GetAllPageInfo();
sl@0	4176	PrintPageInfo();
sl@0	4177	r = KErrNoMemory;
sl@0	4178	goto error;
sl@0	4179	}
sl@0	4180
sl@0	4181
sl@0	4182	// Allocate a discardable pages equal to aMaxPages to the least preferable zone under test
sl@0	4183	GetAllPageInfo();
sl@0	4184	if(aMaxPages >= gTotalPageCount.iFreePages)
sl@0	4185	{
sl@0	4186	test.Printf(_L("Insufficient memory available - Skipping test...\n"));
sl@0	4187	r = KErrNoMemory;
sl@0	4188	goto error;
sl@0	4189	}
sl@0	4190	TUint allocPages = aMaxPages + KIndex2Alloc;
sl@0	4191	r = ZoneAllocDiscard(aIndex, aMaxPages, disPages);
sl@0	4192	if (r != KErrNone)
sl@0	4193	{
sl@0	4194	test.Printf(_L("ZoneAllocDiscard() r = %d aMaxPages = 0x%x disPages = 0x%x aIndex = %d - Skipping test...\n"),
sl@0	4195	r, aMaxPages, disPages, aIndex);
sl@0	4196	GetAllPageInfo();
sl@0	4197	PrintPageInfo();
sl@0	4198	r = KErrNoMemory;
sl@0	4199	goto error;
sl@0	4200	}
sl@0	4201	discFillBytes = allocPages << gPageShift;
sl@0	4202	r = DPTest::SetCacheSize(currentCacheSize + discFillBytes, currentCacheSize + discFillBytes);
sl@0	4203	if (r != KErrNone)
sl@0	4204	{
sl@0	4205	test.Printf(_L("SetCacheSize r = %d currentCacheSize + discFillBytes = 0x%x - Skipping test...\n"),
sl@0	4206	r, currentCacheSize + discFillBytes);
sl@0	4207	GetAllPageInfo();
sl@0	4208	PrintPageInfo();
sl@0	4209	r = KErrNoMemory;
sl@0	4210	goto error;
sl@0	4211	}
sl@0	4212
sl@0	4213
sl@0	4214	// Determine how many free pages there are in the RAM zones more preferable
sl@0	4215	// than the RAM zones under test.
sl@0	4216	GetPrefOrder();
sl@0	4217	freeInUsePages = 0;
sl@0	4218	for (TUint i = 0; i < gZoneCount; i++)
sl@0	4219	{
sl@0	4220	TUint tmpIndex = gPrefArray[i];
sl@0	4221	if (tmpIndex == aIndex2)
sl@0	4222	break;
sl@0	4223	freeInUsePages += gZoneUtilArray[tmpIndex].iFreePages;
sl@0	4224	}
sl@0	4225	// Verify that the RAM layout is still suitable for the test.
sl@0	4226	if (r != KErrNone \|\| gZoneUtilArray[aIndex].iAllocDiscardable != aMaxPages \|\|
sl@0	4227	gZoneUtilArray[aIndex2].iAllocDiscardable != KIndex2Alloc \|\|
sl@0	4228	gZoneUtilArray[aIndex].iAllocMovable \|\| gZoneUtilArray[aIndex].iAllocFixed \|\|
sl@0	4229	gZoneUtilArray[aIndex2].iAllocMovable \|\| gZoneUtilArray[aIndex2].iAllocFixed \|\|
sl@0	4230	freeInUsePages < KIndex2Alloc + aMaxPages)
sl@0	4231	{
sl@0	4232	test.Printf(_L("Insufficient memory - Skipping test...\n"));
sl@0	4233	r = KErrNoMemory;
sl@0	4234	goto error;
sl@0	4235	}
sl@0	4236
sl@0	4237	// now reset all the flags
sl@0	4238	ResetRamZoneFlags();
sl@0	4239
sl@0	4240	// Perform a general defrag with maxPages = KTestMaxPages
sl@0	4241	r = Ldd.CallDefrag(DEFRAG_TYPE_GEN, DEFRAG_VER_SYNC, 0, KTestMaxPages);
sl@0	4242	goto exit;
sl@0	4243
sl@0	4244	}
sl@0	4245	error:
sl@0	4246	// Reset all the flags
sl@0	4247	ResetRamZoneFlags();
sl@0	4248	exit:
sl@0	4249	return r;
sl@0	4250	}
sl@0	4251
sl@0	4252	//
sl@0	4253	// TestDefragRamMaxPages
sl@0	4254	//
sl@0	4255	//---------------------------------------------------------------------------------------------------------------------
sl@0	4256	//! @SYMTestCaseID KBASE-t_ramdefrag-0530
sl@0	4257	//! @SYMTestType CIT
sl@0	4258	//! @SYMTestCaseDesc Verifying the implementation of the function TRamDefragRequest::DefragRam()
sl@0	4259	//! @SYMPREQ PREQ308
sl@0	4260	//! @SYMTestPriority High
sl@0	4261	//! @SYMTestActions
sl@0	4262	//! 1. Call function with invalid aMaxPages
sl@0	4263	//! 2. Call DefragRam when aMaxPages < number of movable pages in least preferable zone
sl@0	4264	//! 3. Call DefragRam when aMaxPages > number of movable pages in least preferable zone
sl@0	4265	//! 4. Call DefragRam when aMaxPages = number of movable pages in least preferable zone
sl@0	4266	//! 5. Call DefragRam when aMaxPages < number of discardable pages in least preferable zone
sl@0	4267	//! 6. Call DefragRam when aMaxPages > number of discardable pages in least preferable zone
sl@0	4268	//! 7. Call DefragRam when aMaxPages = number of discardable pages in least preferable zone
sl@0	4269	//!
sl@0	4270	//! @SYMTestExpectedResults
sl@0	4271	//! 1. KErrArgument
sl@0	4272	//! 2. Least preferable zone and 2nd least preferable zone have not been emptied
sl@0	4273	//! 3. Least preferable zone has been emptied and 2nd least preferable zone has not been emptied
sl@0	4274	//! 4. Least preferable zone has been emptied and 2nd least preferable zone not not been emptied
sl@0	4275	//! 5. Least preferable zone and 2nd least preferable zone have not been emptied
sl@0	4276	//! 6. Least preferable zone has been emptied and 2nd least preferable zone has not been emptied
sl@0	4277	//! 7. Least preferable zone has been emptied and 2nd least preferable zone not not been emptied
sl@0	4278	//---------------------------------------------------------------------------------------------------------------------
sl@0	4279	TInt TestDefragRamMaxPages()
sl@0	4280	{
sl@0	4281	test.Start(_L("Test1: Call DefragRam with invalid aMaxPages "));
sl@0	4282	TestStart();
sl@0	4283
sl@0	4284	gDefragMaxPages = -1;
sl@0	4285
sl@0	4286	TInt r = Ldd.CallDefrag(DEFRAG_TYPE_GEN, DEFRAG_VER_SYNC, 0, gDefragMaxPages);
sl@0	4287	TESTDEBUG(test.Printf(_L("After calling defrag r = %d\n"), r));
sl@0	4288	if (r != KErrArgument)
sl@0	4289	{
sl@0	4290	test.Printf(_L("Fail: r = %d, expected = %d\n"), r, KErrArgument);
sl@0	4291	TEST_FAIL;
sl@0	4292	}
sl@0	4293	else
sl@0	4294	{
sl@0	4295	test.Printf(_L("Passed...\n"));
sl@0	4296	}
sl@0	4297	TestEnd();
sl@0	4298
sl@0	4299	test.Next(_L("Test2: Call DefragRam aMaxPages < number of movable pages in least preferable zone "));
sl@0	4300	TestStart();
sl@0	4301	gChunkArray1 = new RChunk;
sl@0	4302	gChunkArraySize1 = 1;
sl@0	4303	gChunkArray2 = new RChunk;
sl@0	4304	gChunkArraySize2 = 1;
sl@0	4305	TUint index = 0;
sl@0	4306	TUint index2 = 0;
sl@0	4307	r = DefragMaxPagesSetup(BEST_MOVABLE, KTestMaxPages + 1, index, index2);
sl@0	4308	if (gZoneUtilArray[index].iAllocFixed > 0 \|\| gZoneUtilArray[index2].iAllocFixed > 0)
sl@0	4309	{// Cannot perform test with fixed pages in least preferable zones
sl@0	4310	test.Printf(_L("Fixed pages in least preferable zone - Skipping...\n"));
sl@0	4311	}
sl@0	4312	else
sl@0	4313	{
sl@0	4314	if (r == KErrNone)
sl@0	4315	{
sl@0	4316	GetAllPageInfo();
sl@0	4317	if (gZoneUtilArray[index].iAllocMovable < KTestMaxPages + 1 \|\|
sl@0	4318	gZoneUtilArray[index2].iAllocMovable < KIndex2Alloc)
sl@0	4319	{
sl@0	4320	test.Printf(_L("Fail: index = %d, expected = 0x%x, index2 = %d, expected = 0x%x\n"),
sl@0	4321	index, KTestMaxPages + 1, index2, KIndex2Alloc);
sl@0	4322	CLEANUP(RemoveChunkAlloc(gChunkArray1, gChunkArraySize1));
sl@0	4323	CLEANUP(RemoveChunkAlloc(gChunkArray2, gChunkArraySize2));
sl@0	4324	CLEANUP(Ldd.FreeFromAllZones());
sl@0	4325	TEST_FAIL;
sl@0	4326	}
sl@0	4327
sl@0	4328	// Double check that if DefragRam is called with maxPages = 0, these zones are emptied
sl@0	4329	// if there is free space elsewhere
sl@0	4330	r = Ldd.CallDefrag(DEFRAG_TYPE_GEN, DEFRAG_VER_SYNC, 0, gDefragMaxPages);
sl@0	4331	GetAllPageInfo();
sl@0	4332	if (gTotalPageCount.iFreePages > KIndex2Alloc + KTestMaxPages + 1 &&
sl@0	4333	(gZoneUtilArray[index].iAllocMovable != 0 \|\| gZoneUtilArray[index2].iAllocMovable != 0))
sl@0	4334	{
sl@0	4335	test.Printf(_L("Fail: index = %d, expected = 0x%x, index2 = %d, expected = 0x%x\n"),
sl@0	4336	index, 0, index2, 0);
sl@0	4337	CLEANUP(RemoveChunkAlloc(gChunkArray1, gChunkArraySize1));
sl@0	4338	CLEANUP(RemoveChunkAlloc(gChunkArray2, gChunkArraySize2));
sl@0	4339	CLEANUP(Ldd.FreeFromAllZones());
sl@0	4340	TEST_FAIL;
sl@0	4341	}
sl@0	4342	else
sl@0	4343	{
sl@0	4344	test.Printf(_L("Passed...\n"));
sl@0	4345	}
sl@0	4346	}
sl@0	4347	else
sl@0	4348	{
sl@0	4349	test.Printf(_L("DefragMaxPagesSetup failed r = %d\n"), r);
sl@0	4350	}
sl@0	4351	RemoveChunkAlloc(gChunkArray1, gChunkArraySize1);
sl@0	4352	RemoveChunkAlloc(gChunkArray2, gChunkArraySize2);
sl@0	4353	}
sl@0	4354	Ldd.FreeFromAllZones();
sl@0	4355	TestEnd();
sl@0	4356
sl@0	4357
sl@0	4358	test.Next(_L("Test3: Call DefragRam aMaxPages > number of movable pages in least preferable zone "));
sl@0	4359	TestStart();
sl@0	4360	gChunkArray1 = new RChunk;
sl@0	4361	gChunkArraySize1 = 1;
sl@0	4362	gChunkArray2 = new RChunk;
sl@0	4363	gChunkArraySize2 = 1;
sl@0	4364	r = DefragMaxPagesSetup(BEST_MOVABLE, KTestMaxPages - 1, index, index2);
sl@0	4365	if (gZoneUtilArray[index].iAllocFixed > 0 \|\| gZoneUtilArray[index2].iAllocFixed > 0)
sl@0	4366	{// Cannot perform test with fixed pages in least preferable zones
sl@0	4367	test.Printf(_L("Fixed pages in least preferable zone - Skipping...\n"));
sl@0	4368	}
sl@0	4369	else
sl@0	4370	{
sl@0	4371	if (r == KErrNone)
sl@0	4372	{
sl@0	4373	GetAllPageInfo();
sl@0	4374	if (gZoneUtilArray[index].iAllocMovable != 0)
sl@0	4375	{
sl@0	4376	test.Printf(_L("Fail: index = %d, expected = 0x%x, index2 = %d, expected = 0x%x\n"),
sl@0	4377	index, 0, index2, KIndex2Alloc);
sl@0	4378	CLEANUP(RemoveChunkAlloc(gChunkArray1, gChunkArraySize1));
sl@0	4379	CLEANUP(RemoveChunkAlloc(gChunkArray2, gChunkArraySize2));
sl@0	4380	CLEANUP(Ldd.FreeFromAllZones());
sl@0	4381	TEST_FAIL;
sl@0	4382	}
sl@0	4383
sl@0	4384	// Double check that if DefragRam is called with maxPages = 0, these zones are emptied
sl@0	4385	// if there is free space elsewhere
sl@0	4386	r = Ldd.CallDefrag(DEFRAG_TYPE_GEN, DEFRAG_VER_SYNC, 0, gDefragMaxPages);
sl@0	4387
sl@0	4388	GetAllPageInfo();
sl@0	4389	if (gTotalPageCount.iFreePages > KIndex2Alloc + KTestMaxPages - 1 &&
sl@0	4390	(gZoneUtilArray[index].iAllocMovable != 0 \|\| gZoneUtilArray[index2].iAllocMovable != 0))
sl@0	4391	{
sl@0	4392	test.Printf(_L("Fail: index = %d, expected = 0x%x, index2 = %d, expected = 0x%x\n"),
sl@0	4393	index, 0, index2, 0);
sl@0	4394	CLEANUP(RemoveChunkAlloc(gChunkArray1, gChunkArraySize1));
sl@0	4395	CLEANUP(RemoveChunkAlloc(gChunkArray2, gChunkArraySize2));
sl@0	4396	CLEANUP(Ldd.FreeFromAllZones());
sl@0	4397	TEST_FAIL;
sl@0	4398	}
sl@0	4399	else
sl@0	4400	{
sl@0	4401	test.Printf(_L("Passed...\n"));
sl@0	4402	}
sl@0	4403	}
sl@0	4404	else
sl@0	4405	{
sl@0	4406	test.Printf(_L("DefragMaxPagesSetup failed r = %d\n"), r);
sl@0	4407	}
sl@0	4408
sl@0	4409	RemoveChunkAlloc(gChunkArray1, gChunkArraySize1);
sl@0	4410	RemoveChunkAlloc(gChunkArray2, gChunkArraySize2);
sl@0	4411	}
sl@0	4412	Ldd.FreeFromAllZones();
sl@0	4413	TestEnd();
sl@0	4414
sl@0	4415
sl@0	4416	test.Next(_L("Test4: Call DefragRam aMaxPages = number of movable pages in least preferable zone "));
sl@0	4417	TestStart();
sl@0	4418	gChunkArray1 = new RChunk;
sl@0	4419	gChunkArraySize1 = 1;
sl@0	4420	gChunkArray2 = new RChunk;
sl@0	4421	gChunkArraySize2 = 1;
sl@0	4422	r = DefragMaxPagesSetup(BEST_MOVABLE, KTestMaxPages, index, index2);
sl@0	4423	if (gZoneUtilArray[index].iAllocFixed > 0 \|\| gZoneUtilArray[index2].iAllocFixed > 0)
sl@0	4424	{// Cannot perform test with fixed pages in least preferable zones
sl@0	4425	test.Printf(_L("Fixed pages in least preferable zone - Skipping...\n"));
sl@0	4426	}
sl@0	4427	else
sl@0	4428	{
sl@0	4429	if (r == KErrNone)
sl@0	4430	{
sl@0	4431	GetAllPageInfo();
sl@0	4432	if (gZoneUtilArray[index].iAllocMovable != 0)
sl@0	4433	{
sl@0	4434	test.Printf(_L("Fail: index = %d, expected = 0x%x, index2 = %d, expected = 0x%x\n"),
sl@0	4435	index, 0, index2, KIndex2Alloc);
sl@0	4436	CLEANUP(RemoveChunkAlloc(gChunkArray1, gChunkArraySize1));
sl@0	4437	CLEANUP(RemoveChunkAlloc(gChunkArray2, gChunkArraySize2));
sl@0	4438	CLEANUP(Ldd.FreeFromAllZones());
sl@0	4439	TEST_FAIL;
sl@0	4440	}
sl@0	4441
sl@0	4442	// Double check that if DefragRam is called with maxPages = 0, these zones are emptied
sl@0	4443	// if there is free space elsewhere
sl@0	4444	r = Ldd.CallDefrag(DEFRAG_TYPE_GEN, DEFRAG_VER_SYNC, 0, gDefragMaxPages);
sl@0	4445
sl@0	4446	GetAllPageInfo();
sl@0	4447	if (gTotalPageCount.iFreePages > KIndex2Alloc + KTestMaxPages &&
sl@0	4448	(gZoneUtilArray[index].iAllocMovable != 0 \|\| gZoneUtilArray[index2].iAllocMovable != 0))
sl@0	4449	{
sl@0	4450	test.Printf(_L("Fail: index = %d, expected = 0x%x, index2 = %d, expected = 0x%x\n"),
sl@0	4451	index, 0, index2, 0);
sl@0	4452	CLEANUP(RemoveChunkAlloc(gChunkArray1, gChunkArraySize1));
sl@0	4453	CLEANUP(RemoveChunkAlloc(gChunkArray2, gChunkArraySize2));
sl@0	4454	CLEANUP(Ldd.FreeFromAllZones());
sl@0	4455	TEST_FAIL;
sl@0	4456	}
sl@0	4457	else
sl@0	4458	{
sl@0	4459	test.Printf(_L("Passed...\n"));
sl@0	4460	}
sl@0	4461	}
sl@0	4462	else
sl@0	4463	{
sl@0	4464	test.Printf(_L("DefragMaxPagesSetup failed r = %d\n"), r);
sl@0	4465	}
sl@0	4466	RemoveChunkAlloc(gChunkArray1, gChunkArraySize1);
sl@0	4467	RemoveChunkAlloc(gChunkArray2, gChunkArraySize2);
sl@0	4468	}
sl@0	4469	Ldd.FreeFromAllZones();
sl@0	4470	TestEnd();
sl@0	4471
sl@0	4472	test.Next(_L("Test5: Call DefragRam aMaxPages < number of discardable pages in least preferable zone "));
sl@0	4473	TestStart();
sl@0	4474	if (gPagedRom)
sl@0	4475	{
sl@0	4476	r = DefragMaxPagesSetup(BEST_DISCARDABLE, KTestMaxPages + 1, index, index2);
sl@0	4477	if (gZoneUtilArray[index].iAllocFixed > 0 \|\| gZoneUtilArray[index2].iAllocFixed > 0)
sl@0	4478	{// Cannot perform test with fixed pages in least preferable zones
sl@0	4479	test.Printf(_L("Fixed pages in least preferable zone - Skipping...\n"));
sl@0	4480	}
sl@0	4481	else
sl@0	4482	{
sl@0	4483	if (r == KErrNone)
sl@0	4484	{
sl@0	4485	GetAllPageInfo();
sl@0	4486	if (gZoneUtilArray[index].iAllocDiscardable < KTestMaxPages + 1 \|\|
sl@0	4487	gZoneUtilArray[index2].iAllocDiscardable < KIndex2Alloc)
sl@0	4488	{
sl@0	4489	test.Printf(_L("Fail: index = %d, expected = 0x%x, index2 = %d, expected = 0x%x\n"),
sl@0	4490	index, KTestMaxPages + 1, index2, KIndex2Alloc);
sl@0	4491	CLEANUP(ResetDPCache());
sl@0	4492	CLEANUP(Ldd.FreeFromAllZones());
sl@0	4493	TEST_FAIL;
sl@0	4494	}
sl@0	4495
sl@0	4496	// Double check that if DefragRam is called with maxPages = 0, these zones are emptied
sl@0	4497	r = Ldd.CallDefrag(DEFRAG_TYPE_GEN, DEFRAG_VER_SYNC, 0, gDefragMaxPages);
sl@0	4498
sl@0	4499	GetAllPageInfo();
sl@0	4500	if (gZoneUtilArray[index].iAllocDiscardable != 0 \|\|
sl@0	4501	gZoneUtilArray[index2].iAllocDiscardable != 0)
sl@0	4502	{
sl@0	4503	test.Printf(_L("Fail: index = %d, expected = 0x%x, index2 = %d, expected = 0x%x\n"),
sl@0	4504	index, 0, index2, 0);
sl@0	4505	CLEANUP(ResetDPCache());
sl@0	4506	CLEANUP(Ldd.FreeFromAllZones());
sl@0	4507	TEST_FAIL;
sl@0	4508	}
sl@0	4509	else
sl@0	4510	{
sl@0	4511	test.Printf(_L("Passed...\n"));
sl@0	4512	}
sl@0	4513	}
sl@0	4514	else
sl@0	4515	{
sl@0	4516	test.Printf(_L("DefragMaxPagesSetup failed r = %d\n"), r);
sl@0	4517	}
sl@0	4518	ResetDPCache();
sl@0	4519	}
sl@0	4520	Ldd.FreeFromAllZones();
sl@0	4521	}
sl@0	4522	else
sl@0	4523	{
sl@0	4524	test.Printf(_L("Not a Paged Rom - Skipping...\n"));
sl@0	4525	}
sl@0	4526	TestEnd();
sl@0	4527
sl@0	4528	test.Next(_L("Test6: Call DefragRam aMaxPages > number of discardable pages in least preferable zone "));
sl@0	4529	TestStart();
sl@0	4530
sl@0	4531	if (gPagedRom)
sl@0	4532	{
sl@0	4533	r = DefragMaxPagesSetup(BEST_DISCARDABLE, KTestMaxPages - 1, index, index2);
sl@0	4534
sl@0	4535	if (gZoneUtilArray[index].iAllocFixed > 0 \|\| gZoneUtilArray[index2].iAllocFixed > 0)
sl@0	4536	{// Cannot perform test with fixed pages in least preferable zones
sl@0	4537	test.Printf(_L("Fixed pages in least preferable zone - Skipping...\n"));
sl@0	4538	}
sl@0	4539	else
sl@0	4540	{
sl@0	4541	if (r == KErrNone)
sl@0	4542	{
sl@0	4543	GetAllPageInfo();
sl@0	4544	if (gZoneUtilArray[index].iAllocDiscardable != 0\|\|
sl@0	4545	gZoneUtilArray[index2].iAllocDiscardable != KIndex2Alloc)
sl@0	4546	{
sl@0	4547	test.Printf(_L("Fail: index = %d, expected = 0x%x, index2 = %d, expected = 0x%x\n"),
sl@0	4548	index, 0, index2, KIndex2Alloc);
sl@0	4549	CLEANUP(ResetDPCache());
sl@0	4550	CLEANUP(Ldd.FreeFromAllZones());
sl@0	4551	TEST_FAIL;
sl@0	4552	}
sl@0	4553
sl@0	4554	// Double check that if DefragRam is called with maxPages = 0, these zones are emptied
sl@0	4555	r = Ldd.CallDefrag(DEFRAG_TYPE_GEN, DEFRAG_VER_SYNC, 0, gDefragMaxPages);
sl@0	4556	GetAllPageInfo();
sl@0	4557	if (gZoneUtilArray[index].iAllocDiscardable != 0\|\|
sl@0	4558	gZoneUtilArray[index2].iAllocDiscardable != 0)
sl@0	4559	{
sl@0	4560	test.Printf(_L("Fail: index = %d, expected = 0x%x, index2 = %d, expected = 0x%x\n"),
sl@0	4561	index, 0, index2, 0);
sl@0	4562	CLEANUP(ResetDPCache());
sl@0	4563	CLEANUP(Ldd.FreeFromAllZones());
sl@0	4564	TEST_FAIL;
sl@0	4565	}
sl@0	4566	else
sl@0	4567	{
sl@0	4568	test.Printf(_L("Passed...\n"));
sl@0	4569	}
sl@0	4570	}
sl@0	4571	else
sl@0	4572	{
sl@0	4573	test.Printf(_L("DefragMaxPagesSetup failed r = %d\n"), r);
sl@0	4574	}
sl@0	4575	ResetDPCache();
sl@0	4576	}
sl@0	4577	Ldd.FreeFromAllZones();
sl@0	4578	}
sl@0	4579	else
sl@0	4580	{
sl@0	4581	test.Printf(_L("Not a Paged Rom - Skipping...\n"));
sl@0	4582	}
sl@0	4583	TestEnd();
sl@0	4584
sl@0	4585
sl@0	4586	test.Next(_L("Test4: Call DefragRam aMaxPages = number of discardable pages in least preferable zone "));
sl@0	4587	TestStart();
sl@0	4588
sl@0	4589	if(gPagedRom)
sl@0	4590	{
sl@0	4591	r = DefragMaxPagesSetup(BEST_DISCARDABLE, KTestMaxPages, index, index2);
sl@0	4592
sl@0	4593	if (gZoneUtilArray[index].iAllocFixed > 0 \|\| gZoneUtilArray[index2].iAllocFixed > 0)
sl@0	4594	{// Cannot perform test with fixed pages in least preferable zones
sl@0	4595	test.Printf(_L("Fixed pages in least preferable zone - Skipping...\n"));
sl@0	4596	}
sl@0	4597	else
sl@0	4598	{
sl@0	4599	if (r == KErrNone)
sl@0	4600	{
sl@0	4601	GetAllPageInfo();
sl@0	4602	if (gZoneUtilArray[index].iAllocDiscardable != 0\|\|
sl@0	4603	gZoneUtilArray[index2].iAllocDiscardable != KIndex2Alloc)
sl@0	4604	{
sl@0	4605	test.Printf(_L("Fail: index = %d, expected = 0x%x, index2 = %d, expected = 0x%x\n"),
sl@0	4606	index, 0, index2, KIndex2Alloc);
sl@0	4607	CLEANUP(ResetDPCache());
sl@0	4608	CLEANUP(Ldd.FreeFromAllZones());
sl@0	4609	TEST_FAIL;
sl@0	4610	}
sl@0	4611
sl@0	4612	// Double check that if DefragRam is called with maxPages = 0, these zones are emptied
sl@0	4613	r = Ldd.CallDefrag(DEFRAG_TYPE_GEN, DEFRAG_VER_SYNC, 0, gDefragMaxPages);
sl@0	4614	GetAllPageInfo();
sl@0	4615	if (gZoneUtilArray[index].iAllocDiscardable != 0\|\|
sl@0	4616	gZoneUtilArray[index2].iAllocDiscardable != 0)
sl@0	4617	{
sl@0	4618	test.Printf(_L("Fail: index = %d, expected = 0x%x, index2 = %d, expected = 0x%x\n"),
sl@0	4619	index, 0, index2, 0);
sl@0	4620	CLEANUP(ResetDPCache());
sl@0	4621	CLEANUP(Ldd.FreeFromAllZones());
sl@0	4622	TEST_FAIL;
sl@0	4623	}
sl@0	4624	else
sl@0	4625	{
sl@0	4626	test.Printf(_L("Passed...\n"));
sl@0	4627	}
sl@0	4628	}
sl@0	4629	else
sl@0	4630	{
sl@0	4631	test.Printf(_L("DefragMaxPagesSetup failed r = %d\n"), r);
sl@0	4632	}
sl@0	4633	ResetDPCache();
sl@0	4634	}
sl@0	4635	Ldd.FreeFromAllZones();
sl@0	4636	}
sl@0	4637	else
sl@0	4638	{
sl@0	4639	test.Printf(_L("Not a Paged Rom - Skipping...\n"));
sl@0	4640	}
sl@0	4641	TestEnd();
sl@0	4642
sl@0	4643	test.End();
sl@0	4644	return KErrNone;
sl@0	4645	}
sl@0	4646
sl@0	4647
sl@0	4648	//
sl@0	4649	// TestEmptyRamZone
sl@0	4650	//
sl@0	4651	//---------------------------------------------------------------------------------------------------------------------
sl@0	4652	//! @SYMTestCaseID KBASE-t_ramdefrag-0531
sl@0	4653	//! @SYMTestType CIT
sl@0	4654	//! @SYMTestCaseDesc Verifying the implementation of the function TRamDefragRequest::EmptyRamZone()
sl@0	4655	//! @SYMPREQ PREQ308
sl@0	4656	//! @SYMTestPriority High
sl@0	4657	//! @SYMTestActions
sl@0	4658	//! 1. Fragment the memory. Call function with a valid aID,
sl@0	4659	//! i.e. a zone which lies within the range of zones.
sl@0	4660	//! 2. Fragment the memory. Call function with an invalid aID
sl@0	4661	//! i.e. a zone which does not exist within the range of zones.
sl@0	4662	//! 3. Fragment the memory. Following this, call a zone specific defrag on a particular zone.
sl@0	4663	//! Call the zone specific defrag again on the same zone whilst the other defrag is still
sl@0	4664	//! running on that zone.
sl@0	4665	//! 4. Fragment the memory. Following this, call the TRamDefragRequest::DefragRam() to perform general defrag.
sl@0	4666	//! Following this call zone specific defrag whilst the general defrag is still running.
sl@0	4667	//! 5. Fragment the memory. Following this, call a zone specific defrag on a particular zone.
sl@0	4668	//! Whilst the zone defrag is running, call a general defrag
sl@0	4669	//! 6: Fragment the memory. Following this, call the function on specifc zone and
sl@0	4670	//! at the same time allocate pages to the zone
sl@0	4671	//! 7. Fragment the memory. Call EmptyRamZone() on every zone one after the other.
sl@0	4672	//! 8. Fragment the memory. Allocate a couple of fixed pages to a zone that contains movable pages.
sl@0	4673	//! Following this, Call EmptyRamZone() on that zone.
sl@0	4674	//!
sl@0	4675	//! @SYMTestExpectedResults
sl@0	4676	//! 1. KErrNone
sl@0	4677	//! 2. KErrArgument
sl@0	4678	//! 3. KErrNone and the zone has been emptied
sl@0	4679	//! 4. Zone has not been emptied, as the general defrag has already placed pages in the zone
sl@0	4680	//! 5. Zone has been emptied
sl@0	4681	//! 6. KErrNone and pages have been allocated in the zone
sl@0	4682	//! 7. One of the following scenarios should occur:
sl@0	4683	//! a. If the cache has not reached its minimum size, then all the movable pages should
sl@0	4684	//! be moved from the zone if there are enough free pages in the other zones.
sl@0	4685	//! However, when demand paging is off, all movable pages should be moved from the zone, again if there
sl@0	4686	//! are enough free pages in the other zones.
sl@0	4687	//! b. If the current size of the cache minus the number of discardable pages in the zone being emptied is
sl@0	4688	//! not less than the minimum cache size, then all the discardable pages should be discarded of.
sl@0	4689	//! However, when demand paging is off, all discardable pages should be removed from
sl@0	4690	//! the zone.
sl@0	4691	//! 8. KErrNoMemory, however all movable and discardable pages have been moved from the zone
sl@0	4692	//---------------------------------------------------------------------------------------------------------------------
sl@0	4693	TInt TestEmptyRamZone()
sl@0	4694	{
sl@0	4695	TInt r = KErrNone;
sl@0	4696	TInt r2 = KErrNone;
sl@0	4697
sl@0	4698	test.Start(_L("Test1: Call EmptyRamZone with valid aID "));
sl@0	4699	TestStart();
sl@0	4700
sl@0	4701	AllocMovable(gChunkArray1, gChunkArraySize1, KNumAllocChunks);
sl@0	4702	FreeMovable(gChunkArray1, gChunkArraySize1);
sl@0	4703
sl@0	4704	GetAllPageInfo();
sl@0	4705	TUint index = gZoneCount - 1;
sl@0	4706	while (index > 0 && (gZoneUtilArray[index].iAllocFixed != 0 \|\| gZoneUtilArray[index].iAllocUnknown != 0))
sl@0	4707	{
sl@0	4708	-- index;
sl@0	4709	}
sl@0	4710	TUint defragZoneID = gZoneConfigArray[index].iZoneId;
sl@0	4711	test.Printf(_L("Zone ID = %d\n"), defragZoneID);
sl@0	4712	if (index == 0 && (gZoneUtilArray[index].iAllocFixed != 0 \|\| gZoneUtilArray[index].iAllocUnknown != 0))
sl@0	4713	{
sl@0	4714	test.Printf(_L("Cannot find zone to perform test, Skipping test step...\n"));
sl@0	4715	}
sl@0	4716	else
sl@0	4717	{
sl@0	4718	r = Ldd.CallDefrag(DEFRAG_TYPE_EMPTY, DEFRAG_VER_SYNC, defragZoneID);
sl@0	4719	GetAllPageInfo();
sl@0	4720	TUint freeInOthers = gTotalPageCount.iFreePages - gZoneUtilArray[index].iFreePages;
sl@0	4721	if (freeInOthers && (r != KErrNone \|\| !CheckZoneIsOff(index)))
sl@0	4722	{
sl@0	4723	test.Printf(_L("Fail: r = %d, expected = %d\n"), r, KErrNone);
sl@0	4724	CLEANUP(RemoveChunkAlloc(gChunkArray1, gChunkArraySize1));
sl@0	4725	TEST_FAIL;
sl@0	4726	}
sl@0	4727	else
sl@0	4728	{
sl@0	4729	test.Printf(_L("Passed...\n"));
sl@0	4730	}
sl@0	4731	}
sl@0	4732
sl@0	4733	RemoveChunkAlloc(gChunkArray1, gChunkArraySize1);
sl@0	4734	TestEnd();
sl@0	4735
sl@0	4736
sl@0	4737	test.Next(_L("Test2: Call EmptyRamZone with invalid aID "));
sl@0	4738	TestStart();
sl@0	4739	gChunkArray1 = new RChunk;
sl@0	4740	gChunkArraySize1 = 1;
sl@0	4741	defragZoneID = KInvalidZoneID;
sl@0	4742
sl@0	4743	r = Ldd.CallDefrag(DEFRAG_TYPE_EMPTY, DEFRAG_VER_SYNC, defragZoneID);
sl@0	4744
sl@0	4745	if (r != KErrArgument)
sl@0	4746	{
sl@0	4747	test.Printf(_L("Fail: r = %d, expected = %d\n"), r, KErrArgument);
sl@0	4748	TEST_FAIL;
sl@0	4749	}
sl@0	4750	else
sl@0	4751	{
sl@0	4752	test.Printf(_L("Passed...\n"));
sl@0	4753	}
sl@0	4754
sl@0	4755	TestEnd();
sl@0	4756
sl@0	4757
sl@0	4758	test.Next(_L("Test3: Call EmptyRamZone twice at the same time "));
sl@0	4759	TestStart();
sl@0	4760
sl@0	4761	AllocMovable(gChunkArray1, gChunkArraySize1, KNumAllocChunks);
sl@0	4762	FreeMovable(gChunkArray1, gChunkArraySize1);
sl@0	4763
sl@0	4764	GetAllPageInfo();
sl@0	4765	index = gZoneCount - 1;
sl@0	4766	while (index > 0 && (gZoneUtilArray[index].iAllocFixed != 0 \|\| gZoneUtilArray[index].iAllocUnknown != 0))
sl@0	4767	{
sl@0	4768	-- index;
sl@0	4769	}
sl@0	4770	defragZoneID = gZoneConfigArray[index].iZoneId;
sl@0	4771
sl@0	4772	if (index == 0 && (gZoneUtilArray[index].iAllocFixed != 0 \|\| gZoneUtilArray[index].iAllocUnknown != 0))
sl@0	4773	{
sl@0	4774	test.Printf(_L("Cannot find zone to perform test, Skipping test step...\n"));
sl@0	4775	}
sl@0	4776	else
sl@0	4777	{
sl@0	4778	r = gTestThread.Create(gTestThreadName,MultiEmptyZoneThreadFunc,KDefaultStackSize,0x1000,0x1000,(TAny *)defragZoneID);
sl@0	4779	if (r != KErrNone)
sl@0	4780	{
sl@0	4781	test.Printf(_L("r = %d, expected = %d\n"), r, KErrNone);
sl@0	4782	CLEANUP(RemoveChunkAlloc(gChunkArray1, gChunkArraySize1));
sl@0	4783	TEST_FAIL;
sl@0	4784	}
sl@0	4785
sl@0	4786	gTestThread.Logon(status);
sl@0	4787	gTestThread.Resume();
sl@0	4788
sl@0	4789	User::After(10);
sl@0	4790
sl@0	4791	r = Ldd.CallDefrag(DEFRAG_TYPE_EMPTY, DEFRAG_VER_SYNC, defragZoneID);
sl@0	4792
sl@0	4793	User::WaitForRequest(status);
sl@0	4794	r2 = status.Int();
sl@0	4795
sl@0	4796	GetAllPageInfo();
sl@0	4797	TUint freeInOthers = gTotalPageCount.iFreePages - gZoneUtilArray[index].iFreePages;
sl@0	4798	if (r != r2 \|\|
sl@0	4799	(freeInOthers && (r != KErrNone \|\| r2 != KErrNone \|\| !CheckZoneIsOff(index))))
sl@0	4800	{
sl@0	4801	test.Printf(_L("Fail: r = %d, r2 = %d, expected = %d, or zone %d has not been emptied\n"),
sl@0	4802	r, r2, KErrNone, defragZoneID);
sl@0	4803	CLEANUP(RemoveChunkAlloc(gChunkArray1, gChunkArraySize1));
sl@0	4804	TEST_FAIL;
sl@0	4805	}
sl@0	4806	else
sl@0	4807	{
sl@0	4808	test.Printf(_L("Passed...\n"));
sl@0	4809	}
sl@0	4810
sl@0	4811	gTestThread.Close();
sl@0	4812	}
sl@0	4813
sl@0	4814	RemoveChunkAlloc(gChunkArray1, gChunkArraySize1);
sl@0	4815	TestEnd();
sl@0	4816
sl@0	4817
sl@0	4818	test.Next(_L("Test4: Call general defrag and zone defrag at the same time "));
sl@0	4819	TestStart();
sl@0	4820
sl@0	4821	TInt waitTime = 10000;
sl@0	4822
sl@0	4823	AllocMovable(gChunkArray1, gChunkArraySize1, KNumAllocChunks);
sl@0	4824	FreeMovable(gChunkArray1, gChunkArraySize1);
sl@0	4825
sl@0	4826	GetAllPageInfo();
sl@0	4827	index = gZoneCount - 1;
sl@0	4828	while (index > 0 && gZoneUtilArray[index].iAllocFixed > 0)
sl@0	4829	{
sl@0	4830	index--;
sl@0	4831	}
sl@0	4832	defragZoneID = gZoneConfigArray[index].iZoneId;
sl@0	4833
sl@0	4834	if (index == 0 && gZoneUtilArray[index].iAllocFixed > 0)
sl@0	4835	{
sl@0	4836	test.Printf(_L("Cannot find zone to perform test, Skipping test step...\n"));
sl@0	4837	}
sl@0	4838	else
sl@0	4839	{
sl@0	4840	r = gTestThread.Create(gTestThreadName,MultiGenDefragThreadFunc,KDefaultStackSize,0x1000,0x1000,NULL);
sl@0	4841	if (r != KErrNone)
sl@0	4842	{
sl@0	4843	test.Printf(_L("r = %d, expected = %d\n"), r, KErrNone);
sl@0	4844	CLEANUP(RemoveChunkAlloc(gChunkArray1, gChunkArraySize1));
sl@0	4845	TEST_FAIL;
sl@0	4846	}
sl@0	4847	gTestThread.Logon(status);
sl@0	4848
sl@0	4849	gTestThread.Resume();
sl@0	4850	User::After(waitTime);
sl@0	4851
sl@0	4852	TESTDEBUG(test.Printf(_L("Zone defrag running on main thread\n")));
sl@0	4853
sl@0	4854	r = Ldd.CallDefrag(DEFRAG_TYPE_EMPTY, DEFRAG_VER_SYNC, defragZoneID);
sl@0	4855
sl@0	4856	User::WaitForRequest(status);
sl@0	4857	r2 = status.Int();
sl@0	4858
sl@0	4859	GetAllPageInfo();
sl@0	4860	TUint freeInOthers = gTotalPageCount.iFreePages - gZoneUtilArray[index].iFreePages;
sl@0	4861	if (r2 != KErrNone \|\|
sl@0	4862	(freeInOthers && (r != KErrNone \|\| !CheckZoneIsOff(index))))
sl@0	4863	{
sl@0	4864	test.Printf(_L("Fail: r = %d, r2 = %d, expected = %d, or zone %d is on unexpectedly\n"),
sl@0	4865	r, r2, KErrNone, defragZoneID);
sl@0	4866	CLEANUP(RemoveChunkAlloc(gChunkArray1, gChunkArraySize1));
sl@0	4867	TEST_FAIL;
sl@0	4868	}
sl@0	4869	else
sl@0	4870	{
sl@0	4871	test.Printf(_L("Passed...\n"));
sl@0	4872	}
sl@0	4873
sl@0	4874	gTestThread.Close();
sl@0	4875	}
sl@0	4876
sl@0	4877	RemoveChunkAlloc(gChunkArray1, gChunkArraySize1);
sl@0	4878	TestEnd();
sl@0	4879
sl@0	4880
sl@0	4881	test.Next(_L("Test5: Call zone defrag and general defrag at the same time "));
sl@0	4882	TestStart();
sl@0	4883
sl@0	4884	AllocMovable(gChunkArray1, gChunkArraySize1, KNumAllocChunks);
sl@0	4885	FreeMovable(gChunkArray1, gChunkArraySize1);
sl@0	4886
sl@0	4887	GetAllPageInfo();
sl@0	4888	index = gZoneCount - 1;
sl@0	4889	while (index > 0 && (gZoneUtilArray[index].iAllocFixed != 0 \|\| gZoneUtilArray[index].iAllocUnknown != 0))
sl@0	4890	{
sl@0	4891	-- index;
sl@0	4892	}
sl@0	4893	defragZoneID = gZoneConfigArray[index].iZoneId;
sl@0	4894
sl@0	4895	if (index == 0 && (gZoneUtilArray[index].iAllocFixed != 0 \|\| gZoneUtilArray[index].iAllocUnknown != 0))
sl@0	4896	{
sl@0	4897	test.Printf(_L("Cannot find zone to perform test, Skipping test step...\n"));
sl@0	4898	}
sl@0	4899	else
sl@0	4900	{
sl@0	4901	r = gTestThread.Create(gTestThreadName,MultiEmptyZoneThreadFunc,KDefaultStackSize,0x1000,0x1000,(TAny*)defragZoneID);
sl@0	4902	if (r != KErrNone)
sl@0	4903	{
sl@0	4904	test.Printf(_L("r = %d, expected = %d\n"), r, KErrNone);
sl@0	4905	CLEANUP(RemoveChunkAlloc(gChunkArray1, gChunkArraySize1));
sl@0	4906	TEST_FAIL;
sl@0	4907	}
sl@0	4908	gTestThread.Logon(status);
sl@0	4909
sl@0	4910	gTestThread.Resume();
sl@0	4911	User::After(0);
sl@0	4912
sl@0	4913	TESTDEBUG(test.Printf(_L("Zone defrag running on main thread\n")));
sl@0	4914
sl@0	4915	r = Ldd.CallDefrag(DEFRAG_TYPE_GEN, DEFRAG_VER_SYNC, 0, gDefragMaxPages);
sl@0	4916
sl@0	4917	User::WaitForRequest(status);
sl@0	4918	r2 = status.Int();
sl@0	4919
sl@0	4920	GetAllPageInfo();
sl@0	4921	TUint freeInOthers = gTotalPageCount.iFreePages - gZoneUtilArray[index].iFreePages;
sl@0	4922	if (r != KErrNone \|\|
sl@0	4923	(freeInOthers && (r2 != KErrNone \|\| !CheckZoneIsOff(index))))
sl@0	4924	{
sl@0	4925	test.Printf(_L("Fail: r = %d, r2 = %d, expected = %d, or zone 0x%x is on unexpectedly\n"),
sl@0	4926	r, r2, KErrNone, defragZoneID);
sl@0	4927	CLEANUP(RemoveChunkAlloc(gChunkArray1, gChunkArraySize1));
sl@0	4928	TEST_FAIL;
sl@0	4929	}
sl@0	4930	else
sl@0	4931	{
sl@0	4932	test.Printf(_L("Passed...\n"));
sl@0	4933	}
sl@0	4934
sl@0	4935	gTestThread.Close();
sl@0	4936	}
sl@0	4937
sl@0	4938	RemoveChunkAlloc(gChunkArray1, gChunkArraySize1);
sl@0	4939	TestEnd();
sl@0	4940
sl@0	4941
sl@0	4942	test.Next(_L("Test6: Call function TRamDefragRequest::EmptyRamZone on specifc zone and at the same time allocate pages to the zone"));
sl@0	4943	TestStart();
sl@0	4944
sl@0	4945	TInt pagesAlloc = 1; // Try and allocate just one page whilst trying to empty the zone.
sl@0	4946
sl@0	4947	AllocMovable(gChunkArray1, gChunkArraySize1, KNumAllocChunks);
sl@0	4948	FreeMovable(gChunkArray1, gChunkArraySize1);
sl@0	4949
sl@0	4950	GetAllPageInfo();
sl@0	4951	index = gZoneCount - 1;
sl@0	4952	while (index > 0 && (gZoneUtilArray[index].iAllocFixed != 0 \|\| gZoneUtilArray[index].iAllocUnknown != 0))
sl@0	4953	{
sl@0	4954	-- index;
sl@0	4955	}
sl@0	4956	defragZoneID = gZoneConfigArray[index].iZoneId;
sl@0	4957
sl@0	4958	if (index == 0 && (gZoneUtilArray[index].iAllocFixed != 0 \|\| gZoneUtilArray[index].iAllocUnknown != 0))
sl@0	4959	{
sl@0	4960	test.Printf(_L("Cannot find zone to perform test, Skipping test step...\n"));
sl@0	4961	}
sl@0	4962	else
sl@0	4963	{
sl@0	4964	TInt numPassed = 0;
sl@0	4965	for (waitTime = 1000; waitTime > 0; waitTime-=10)
sl@0	4966	{
sl@0	4967	r = gTestThread.Create(gTestThreadName,MultiEmptyZoneThreadFunc,KDefaultStackSize,0x1000,0x1000,(TAny*)defragZoneID);
sl@0	4968	if (r != KErrNone)
sl@0	4969	{
sl@0	4970	test.Printf(_L("r = %d, expected = %d\n"), r, KErrNone);
sl@0	4971	CLEANUP(RemoveChunkAlloc(gChunkArray1, gChunkArraySize1));
sl@0	4972	TEST_FAIL;
sl@0	4973	}
sl@0	4974	gTestThread.Logon(status);
sl@0	4975
sl@0	4976	gTestThread.Resume();
sl@0	4977	User::After(waitTime);
sl@0	4978
sl@0	4979	r = Ldd.ZoneAllocDiscontiguous(defragZoneID, pagesAlloc);
sl@0	4980
sl@0	4981	User::WaitForRequest(status);
sl@0	4982	r2 = status.Int();
sl@0	4983
sl@0	4984	if (r2 != KErrNone)
sl@0	4985	{
sl@0	4986	test.Printf(_L("Empty was unsuccsessful: r2 = %d, expected = %d\n"), r2, KErrNone);
sl@0	4987	}
sl@0	4988	else if (r != KErrNone)
sl@0	4989	{
sl@0	4990	test.Printf(_L("Fail: r = %d, expected = %d, r2 = %d, expected = %d, zone = 0x%x\n"),
sl@0	4991	r, KErrNone, r2, KErrNone, defragZoneID);
sl@0	4992	CLEANUP(RemoveChunkAlloc(gChunkArray1, gChunkArraySize1));
sl@0	4993	CLEANUP(Ldd.FreeAllFixedPages());
sl@0	4994	TEST_FAIL;
sl@0	4995	}
sl@0	4996	else
sl@0	4997	{
sl@0	4998	numPassed ++;
sl@0	4999	}
sl@0	5000
sl@0	5001	Ldd.FreeAllFixedPages();
sl@0	5002
sl@0	5003	gTestThread.Close();
sl@0	5004	}
sl@0	5005	if (numPassed > 0)
sl@0	5006	{
sl@0	5007	test.Printf(_L("Passed...\n"));
sl@0	5008	}
sl@0	5009	}
sl@0	5010
sl@0	5011	RemoveChunkAlloc(gChunkArray1, gChunkArraySize1);
sl@0	5012	TestEnd();
sl@0	5013
sl@0	5014
sl@0	5015	test.Next(_L("Test7: Call function TRamDefragRequest::EmptyRamZone on every zone one after the other"));
sl@0	5016	TestStart();
sl@0	5017
sl@0	5018	Ldd.ResetDriver();
sl@0	5019
sl@0	5020	for (index = 0; index < gZoneCount; index ++)
sl@0	5021	{
sl@0	5022	// Variables for DP ROM cache sizes
sl@0	5023	TUint minCacheSize = 0;
sl@0	5024	TUint maxCacheSize = 0;
sl@0	5025	TUint currentCacheSize = 0;
sl@0	5026
sl@0	5027	if (gPagedRom)
sl@0	5028	{
sl@0	5029	DPTest::CacheSize(minCacheSize,maxCacheSize,currentCacheSize);
sl@0	5030	TESTDEBUG(test.Printf(_L("Original CacheSize: minCacheSize = 0x%x, maxCacheSize = 0x%x, currentCacheSize = 0x%x\n"),
sl@0	5031	minCacheSize >> gPageShift, maxCacheSize >> gPageShift, currentCacheSize >> gPageShift));
sl@0	5032	// Calculate the maximum size available for the DP cache.
sl@0	5033	TUint minZoneFree = KMaxTUint;
sl@0	5034	TUint maxDisFillBytes = 0;
sl@0	5035	GetAllPageInfo();
sl@0	5036	for (TUint i = 0; i < gZoneCount; i++)
sl@0	5037	{
sl@0	5038	maxDisFillBytes += gZoneUtilArray[i].iFreePages;
sl@0	5039	maxDisFillBytes += gZoneUtilArray[i].iAllocDiscardable;
sl@0	5040	if (minZoneFree > gZoneUtilArray[i].iFreePages)
sl@0	5041	minZoneFree = gZoneUtilArray[i].iFreePages;
sl@0	5042	}
sl@0	5043	test.Printf(_L("Free pages 0x%x maxDisFillBytes 0x%x\n"), gTotalPageCount.iFreePages, maxDisFillBytes);
sl@0	5044	maxDisFillBytes <<= gPageShift;
sl@0	5045
sl@0	5046	r = DPTest::SetCacheSize(maxDisFillBytes, maxDisFillBytes);
sl@0	5047	if (r != KErrNone)
sl@0	5048	{
sl@0	5049	test.Printf(_L("r = %d, expected = %d\n"), r, KErrNone);
sl@0	5050	CLEANUP(ResetDPCache());
sl@0	5051	TEST_FAIL;
sl@0	5052	}
sl@0	5053
sl@0	5054	DPTest::CacheSize(minCacheSize,maxCacheSize,currentCacheSize);
sl@0	5055	TESTDEBUG(test.Printf(_L("CacheSize2: minCacheSize = 0x%x, maxCacheSize = 0x%x, currentCacheSize = 0x%x\n"),
sl@0	5056	minCacheSize >> gPageShift, maxCacheSize >> gPageShift, currentCacheSize >> gPageShift));
sl@0	5057	if (currentCacheSize != maxDisFillBytes)
sl@0	5058	{
sl@0	5059	test.Printf(_L("r = %d, expected = %d\n"), r, KErrNone);
sl@0	5060	CLEANUP(ResetDPCache());
sl@0	5061	TEST_FAIL;
sl@0	5062	}
sl@0	5063
sl@0	5064	GetAllPageInfo();
sl@0	5065	test.Printf(_L("Free pages after alloc discardable1 = 0x%x\n"), gTotalPageCount.iFreePages);
sl@0	5066
sl@0	5067	r = DPTest::SetCacheSize(minZoneFree << gPageShift, maxDisFillBytes);
sl@0	5068	if (r != KErrNone)
sl@0	5069	{
sl@0	5070	test.Printf(_L("r = %d, expected = %d\n"), r, KErrNone);
sl@0	5071	CLEANUP(ResetDPCache());
sl@0	5072	TEST_FAIL;
sl@0	5073	}
sl@0	5074
sl@0	5075	// Check all zones have no free pages.
sl@0	5076	GetAllPageInfo();
sl@0	5077	for (TUint i = 0; i < gZoneCount; i++)
sl@0	5078	{
sl@0	5079	if (gZoneUtilArray[i].iFreePages != 0)
sl@0	5080	{
sl@0	5081	test.Printf(_L("r = %d, expected = %d\n"), r, KErrNone);
sl@0	5082	CLEANUP(ResetDPCache());
sl@0	5083	TEST_FAIL;
sl@0	5084	}
sl@0	5085	}
sl@0	5086	}
sl@0	5087	else
sl@0	5088	{
sl@0	5089	// Fragment the RAM with some movable pages
sl@0	5090	AllocMovable(gChunkArray1, gChunkArraySize1, KFillAllMovable);
sl@0	5091	FreeMovable(gChunkArray1, gChunkArraySize1);
sl@0	5092	}
sl@0	5093
sl@0	5094	TUint zoneID = gZoneConfigArray[index].iZoneId;
sl@0	5095
sl@0	5096	GetAllPageInfo();
sl@0	5097	TUint origUnknownInZone = gZoneUtilArray[index].iAllocUnknown;
sl@0	5098	TUint origMovInZone = gZoneUtilArray[index].iAllocMovable;
sl@0	5099	TUint origFreeInZone = gZoneUtilArray[index].iFreePages;
sl@0	5100
sl@0	5101	test.Printf(_L("Zone ID 0x%x - fixedPages = 0x%x, unknownPages = 0x%x, discardablePages = 0x%x movable = 0x%x free = 0x%x\n"),
sl@0	5102	zoneID, gZoneUtilArray[index].iAllocFixed, origUnknownInZone, gZoneUtilArray[index].iAllocDiscardable,
sl@0	5103	origMovInZone, origFreeInZone);
sl@0	5104
sl@0	5105
sl@0	5106	r = Ldd.CallDefrag(DEFRAG_TYPE_EMPTY, DEFRAG_VER_SYNC, zoneID);
sl@0	5107
sl@0	5108	GetAllPageInfo();
sl@0	5109	TUint unknownPages = gZoneUtilArray[index].iAllocUnknown;
sl@0	5110	TUint discPages = gZoneUtilArray[index].iAllocDiscardable;
sl@0	5111	TUint movablePages = gZoneUtilArray[index].iAllocMovable;
sl@0	5112
sl@0	5113	TUint freeInOtherZones = gTotalPageCount.iFreePages - gZoneUtilArray[index].iFreePages;
sl@0	5114	if(movablePages && freeInOtherZones)
sl@0	5115	{
sl@0	5116	test.Printf(_L("Fail: Zone ID %x all the movable pages haven't been moved\n"), zoneID);
sl@0	5117	CLEANUP(RemoveChunkAlloc(gChunkArray1, gChunkArraySize1));
sl@0	5118	CLEANUP(ResetDPCache());
sl@0	5119	TEST_FAIL;
sl@0	5120	}
sl@0	5121
sl@0	5122	if (origUnknownInZone != unknownPages)
sl@0	5123	{
sl@0	5124	test.Printf(_L("Fail: Zone ID %x unknown pages before and after are not equal\n"), zoneID);
sl@0	5125	CLEANUP(RemoveChunkAlloc(gChunkArray1, gChunkArraySize1));
sl@0	5126	CLEANUP(ResetDPCache());
sl@0	5127	TEST_FAIL;
sl@0	5128	}
sl@0	5129
sl@0	5130	if (!gPagedRom)
sl@0	5131	{
sl@0	5132	if (discPages && freeInOtherZones)
sl@0	5133	{
sl@0	5134	test.Printf(_L("Fail: Zone ID %x all the discardable pages haven't been moved\n"), zoneID);
sl@0	5135	CLEANUP(RemoveChunkAlloc(gChunkArray1, gChunkArraySize1));
sl@0	5136	CLEANUP(ResetDPCache());
sl@0	5137	TEST_FAIL;
sl@0	5138	}
sl@0	5139	}
sl@0	5140	else
sl@0	5141	{
sl@0	5142	DPTest::CacheSize(minCacheSize, maxCacheSize, currentCacheSize);
sl@0	5143	TESTDEBUG(test.Printf(_L("CacheSize3: minCacheSize = 0x%x, maxCacheSize = 0x%x, currentCacheSize = 0x%x\n"),
sl@0	5144	minCacheSize >> gPageShift, maxCacheSize >> gPageShift, currentCacheSize >> gPageShift));
sl@0	5145	// The the discardable pages should have been discarded or moved unless
sl@0	5146	// there is no room in the other zones and the cache size is already at its minimum
sl@0	5147	if (discPages && (freeInOtherZones \|\| currentCacheSize != minCacheSize))
sl@0	5148	{
sl@0	5149	test.Printf(_L("Fail: Zone 0x%x all the discardable pages haven't been moved\n"), zoneID);
sl@0	5150	CLEANUP(RemoveChunkAlloc(gChunkArray1, gChunkArraySize1));
sl@0	5151	CLEANUP(ResetDPCache());
sl@0	5152	TEST_FAIL;
sl@0	5153	}
sl@0	5154	}
sl@0	5155	test.Printf(_L("Passed...\n"));
sl@0	5156	}
sl@0	5157	// TestEnd() willl cleanup what's required
sl@0	5158	TestEnd();
sl@0	5159
sl@0	5160	test.Next(_L("Test8: Call function TRamDefragRequest::EmptyRamZone on a zone that contains fixed and movable pages"));
sl@0	5161	TestStart();
sl@0	5162
sl@0	5163	AllocMovable(gChunkArray1, gChunkArraySize1, KNumAllocChunks);
sl@0	5164	FreeMovable(gChunkArray1, gChunkArraySize1);
sl@0	5165
sl@0	5166	GetAllPageInfo();
sl@0	5167	index = gZoneCount - 1;
sl@0	5168	while (index > 0 && (gZoneUtilArray[index].iAllocMovable < 10 \|\| gZoneUtilArray[index].iFreePages < 3))
sl@0	5169	{
sl@0	5170	-- index;
sl@0	5171	}
sl@0	5172	defragZoneID = gZoneConfigArray[index].iZoneId;
sl@0	5173
sl@0	5174	if (index == 0 && (gZoneUtilArray[index].iAllocMovable < 10 \|\| gZoneUtilArray[index].iFreePages < 3))
sl@0	5175	{
sl@0	5176	test.Printf(_L("Cannot find zone to perform test, Skipping test step...\n"));
sl@0	5177	}
sl@0	5178	else
sl@0	5179	{
sl@0	5180	test.Printf(_L("defragZoneID = 0x%x\n"), defragZoneID);
sl@0	5181	test.Printf(_L("movable = 0x%x discardable = 0x%x\n"),
sl@0	5182	gZoneUtilArray[index].iAllocMovable, gZoneUtilArray[index].iAllocDiscardable);
sl@0	5183
sl@0	5184
sl@0	5185	Ldd.ZoneAllocDiscontiguous(defragZoneID, 2); // Allocated 2 fixed pages to ensure that zone cannot be emptied
sl@0	5186
sl@0	5187	r = Ldd.CallDefrag(DEFRAG_TYPE_EMPTY, DEFRAG_VER_SYNC, defragZoneID);
sl@0	5188
sl@0	5189	GetAllPageInfo();
sl@0	5190	TUint freeInOthers = gTotalPageCount.iFreePages - gZoneUtilArray[index].iFreePages;
sl@0	5191	if (r != KErrNoMemory \|\|
sl@0	5192	(freeInOthers &&
sl@0	5193	(gZoneUtilArray[index].iAllocMovable \|\|
sl@0	5194	gZoneUtilArray[index].iAllocDiscardable)))
sl@0	5195	{
sl@0	5196	test.Printf(_L("r = %d, expected = %d, or all movable/discardable pages have not been moved"),
sl@0	5197	r, KErrNoMemory);
sl@0	5198	CLEANUP(Ldd.FreeAllFixedPages());
sl@0	5199	CLEANUP(RemoveChunkAlloc(gChunkArray1, gChunkArraySize1));
sl@0	5200	TEST_FAIL;
sl@0	5201	}
sl@0	5202	else
sl@0	5203	{
sl@0	5204	test.Printf(_L("Passed..."));
sl@0	5205	}
sl@0	5206
sl@0	5207	Ldd.FreeAllFixedPages();
sl@0	5208	}
sl@0	5209
sl@0	5210	RemoveChunkAlloc(gChunkArray1, gChunkArraySize1);
sl@0	5211	TestEnd();
sl@0	5212
sl@0	5213	test.End();
sl@0	5214	return r;
sl@0	5215	}
sl@0	5216
sl@0	5217
sl@0	5218	//
sl@0	5219	// TestClaimRamZone
sl@0	5220	//
sl@0	5221	//---------------------------------------------------------------------------------------------------------------------
sl@0	5222	//! @SYMTestCaseID KBASE-t_ramdefrag-0532
sl@0	5223	//! @SYMTestType CIT
sl@0	5224	//! @SYMTestCaseDesc Verifying the implemntation of the function TRamDefragRequest::ClaimRamZone()
sl@0	5225	//! @SYMPREQ PREQ308
sl@0	5226	//! @SYMTestPriority High
sl@0	5227	//! @SYMTestActions
sl@0	5228	//! 1. Fragment the memory. Following this, call function with a valid aID
sl@0	5229	//! 2. Fragment the memory. Following this, call function with an invalid aID
sl@0	5230	//! 3. Fragment the memory. Following this, start a zone defrag and whilst this
sl@0	5231	//! is running, call function on the same zone.
sl@0	5232	//! 4. Fragment the memory. Following this, start a general defrag and whilst this
sl@0	5233	//! is running, call function on the same zone.
sl@0	5234	//! 5. Fragment the memory. Following this, call ClaimRamZone() on a specific zone, whilst at the
sl@0	5235	//! same time calling ClaimRamZone() on another zone.
sl@0	5236	//! 6: Fragment the memory. Call function TRamDefragRequest::ClaimRamZone on specifc zone and at the
sl@0	5237	//! same time allocate pages to the zone
sl@0	5238	//! 7. Fragment the memory. Following this allocate fixed pages to a zone and attempt to claim
sl@0	5239	//! the zone.
sl@0	5240	//! 8. Fragment the memory. Following this call ClaimRamZone() on every zone, one after the other
sl@0	5241	//!
sl@0	5242	//! @SYMTestExpectedResults
sl@0	5243	//! 1. KErrNone
sl@0	5244	//! 2. KErrArgument
sl@0	5245	//! 3. KErrNone and the zone has been claimed
sl@0	5246	//! 4. KErrNone and the zone has been claimed
sl@0	5247	//! 5. KErrNone and both zones have been claimed
sl@0	5248	//! 6. KErrNoMemory
sl@0	5249	//! 7. KErrNoMemory, all movable and discardable pages have been moved
sl@0	5250	//! 8. One of the following scenarios should occur:
sl@0	5251	//! a. If the cache has not reached its minimum size and there are no unknown pages in
sl@0	5252	//! the zone, then all the movable pages should be moved from the zone if there are enough free pages
sl@0	5253	//! in the other zones.
sl@0	5254	//! However, when demand paging is off, all movable pages should be moved from the zone, again if there
sl@0	5255	//! are enough free pages in the other zones and if there are no unknown pages in the zone.
sl@0	5256	//! b. If the current size of the cache minus the number of discardable pages in the zone being emptied is not
sl@0	5257	//! less than the minimum cache size and there are no unknown pages in the zone,
sl@0	5258	//! then all the discardable pages should be discarded of.
sl@0	5259	//! However, when demand paging is off, all discardable pages should be removed from
sl@0	5260	//! the zone if there are no unknown pages in the zone.
sl@0	5261	//---------------------------------------------------------------------------------------------------------------------
sl@0	5262	TInt TestClaimRamZone()
sl@0	5263	{
sl@0	5264	TInt r = 0;
sl@0	5265	TInt r2 = 0;
sl@0	5266	TUint32 addr = 0;
sl@0	5267	TInt waitTime = 1000;
sl@0	5268
sl@0	5269	test.Start(_L("Test1: Call function TRamDefragRequest::ClaimRamZone with a valid aID"));
sl@0	5270	TestStart();
sl@0	5271
sl@0	5272	AllocMovable(gChunkArray1, gChunkArraySize1, KNumAllocChunks);
sl@0	5273	FreeMovable(gChunkArray1, gChunkArraySize1);
sl@0	5274
sl@0	5275	GetAllPageInfo();
sl@0	5276	TUint index = gZoneCount - 1;
sl@0	5277	while (index > 0 && (gZoneUtilArray[index].iAllocFixed != 0 \|\| gZoneUtilArray[index].iAllocUnknown != 0))
sl@0	5278	{
sl@0	5279	-- index;
sl@0	5280	}
sl@0	5281	TUint defragZoneID = gZoneConfigArray[index].iZoneId;
sl@0	5282
sl@0	5283	if (index == 0 && (gZoneUtilArray[index].iAllocFixed != 0 \|\| gZoneUtilArray[index].iAllocUnknown != 0))
sl@0	5284	{
sl@0	5285	test.Printf(_L("Cannot find zone to perform test, Skipping test step...\n"));
sl@0	5286	}
sl@0	5287	else
sl@0	5288	{
sl@0	5289	r = Ldd.CallDefrag(DEFRAG_TYPE_CLAIM, DEFRAG_VER_SYNC, defragZoneID);
sl@0	5290	GetAllPageInfo();
sl@0	5291	TUint freeInOthers = gTotalPageCount.iFreePages - gZoneUtilArray[index].iFreePages;
sl@0	5292	if (freeInOthers && r != KErrNone &&
sl@0	5293	gZoneUtilArray[index].iAllocFixed != gZoneUtilArray[index].iPhysPages)
sl@0	5294	{
sl@0	5295	test.Printf(_L("Fail: Zone 0x%x has not been claimed r %d expected %d\n"), defragZoneID, r, KErrNone);
sl@0	5296	CLEANUP(RemoveChunkAlloc(gChunkArray1, gChunkArraySize1));
sl@0	5297	TEST_FAIL;
sl@0	5298	}
sl@0	5299	else
sl@0	5300	{
sl@0	5301	test.Printf(_L("Passed...\n"));
sl@0	5302	}
sl@0	5303
sl@0	5304	addr = gZoneConfigArray[index].iPhysBase;
sl@0	5305	if (r == KErrNone)
sl@0	5306	{
sl@0	5307	r = Ldd.FreeAllFixedPages();
sl@0	5308	}
sl@0	5309	}
sl@0	5310
sl@0	5311	RemoveChunkAlloc(gChunkArray1, gChunkArraySize1);
sl@0	5312	TestEnd();
sl@0	5313
sl@0	5314
sl@0	5315	test.Next(_L("Test2: Call function TRamDefragRequest::ClaimRamZone with an invalid aID"));
sl@0	5316	TestStart();
sl@0	5317	gChunkArray1 = new RChunk;
sl@0	5318	gChunkArraySize1 = 1;
sl@0	5319	defragZoneID = KInvalidZoneID;
sl@0	5320
sl@0	5321	r = Ldd.CallDefrag(DEFRAG_TYPE_CLAIM, DEFRAG_VER_SYNC, defragZoneID);
sl@0	5322	if (r != KErrArgument)
sl@0	5323	{
sl@0	5324	test.Printf(_L("Fail: r = %d, expected = %d\n"), r, KErrArgument);
sl@0	5325	TEST_FAIL;
sl@0	5326	}
sl@0	5327	else
sl@0	5328	{
sl@0	5329	test.Printf(_L("Passed...\n"));
sl@0	5330	}
sl@0	5331
sl@0	5332	TestEnd();
sl@0	5333
sl@0	5334
sl@0	5335	test.Next(_L("Test3: Call function TRamDefragRequest::ClaimRamZone when a EmptyRamZone is already running"));
sl@0	5336	TestStart();
sl@0	5337
sl@0	5338	AllocMovable(gChunkArray1, gChunkArraySize1, KNumAllocChunks);
sl@0	5339	FreeMovable(gChunkArray1, gChunkArraySize1);
sl@0	5340
sl@0	5341	GetAllPageInfo();
sl@0	5342	index = gZoneCount - 1;
sl@0	5343	while (index > 0 && (gZoneUtilArray[index].iAllocFixed != 0 \|\| gZoneUtilArray[index].iAllocUnknown != 0))
sl@0	5344	{
sl@0	5345	-- index;
sl@0	5346	}
sl@0	5347	defragZoneID = gZoneConfigArray[index].iZoneId;
sl@0	5348
sl@0	5349	if (index == 0 && (gZoneUtilArray[index].iAllocFixed != 0 \|\| gZoneUtilArray[index].iAllocUnknown != 0))
sl@0	5350	{
sl@0	5351	test.Printf(_L("Cannot find zone to perform test, Skipping test step...\n"));
sl@0	5352	}
sl@0	5353	else
sl@0	5354	{
sl@0	5355	TInt numPassed = 0;
sl@0	5356	for (waitTime = 1000; waitTime > 0; waitTime-=10)
sl@0	5357	{
sl@0	5358	r = gTestThread.Create(gTestThreadName,MultiEmptyZoneThreadFunc,KDefaultStackSize,0x1000,0x1000,(TAny*)defragZoneID);
sl@0	5359	if (r != KErrNone)
sl@0	5360	{
sl@0	5361	test.Printf(_L("r = %d, expected = %d\n"), r, KErrNone);
sl@0	5362	CLEANUP(RemoveChunkAlloc(gChunkArray1, gChunkArraySize1));
sl@0	5363	TEST_FAIL;
sl@0	5364	}
sl@0	5365
sl@0	5366	gTestThread.Logon(status);
sl@0	5367	gTestThread.Resume();
sl@0	5368	User::After(waitTime);
sl@0	5369
sl@0	5370	r = Ldd.CallDefrag(DEFRAG_TYPE_CLAIM, DEFRAG_VER_SYNC, defragZoneID);
sl@0	5371
sl@0	5372	User::WaitForRequest(status);
sl@0	5373	r2 = status.Int();
sl@0	5374
sl@0	5375	GetAllPageInfo();
sl@0	5376	TUint freeInOthers = gTotalPageCount.iFreePages - gZoneUtilArray[index].iFreePages;
sl@0	5377	if (freeInOthers && r != KErrNone && r2 != KErrNone)
sl@0	5378	{
sl@0	5379	test.Printf(_L("Fail: r = %d, r2 = %d, expected = %d, or zone ID 0x%x has not been claimed\n"),
sl@0	5380	r, r2, KErrNone, defragZoneID);
sl@0	5381	if (r == KErrNone)
sl@0	5382	{
sl@0	5383	CLEANUP(r = Ldd.FreeAllFixedPages());
sl@0	5384	}
sl@0	5385	CLEANUP(RemoveChunkAlloc(gChunkArray1, gChunkArraySize1));
sl@0	5386	TEST_FAIL;
sl@0	5387	}
sl@0	5388	else
sl@0	5389	{
sl@0	5390	numPassed ++;
sl@0	5391	}
sl@0	5392
sl@0	5393	if (r == KErrNone)
sl@0	5394	{
sl@0	5395	r = Ldd.FreeAllFixedPages();
sl@0	5396	}
sl@0	5397
sl@0	5398	gTestThread.Close();
sl@0	5399	}
sl@0	5400	if (numPassed > 0)
sl@0	5401	{
sl@0	5402	test.Printf(_L("Passed...\n"));
sl@0	5403	}
sl@0	5404	}
sl@0	5405	RemoveChunkAlloc(gChunkArray1, gChunkArraySize1);
sl@0	5406	TestEnd();
sl@0	5407
sl@0	5408
sl@0	5409	test.Next(_L("Test4: Call function TRamDefragRequest::ClaimRamZone when a general defrag is already running"));
sl@0	5410	TestStart();
sl@0	5411
sl@0	5412	AllocMovable(gChunkArray1, gChunkArraySize1, KNumAllocChunks);
sl@0	5413	FreeMovable(gChunkArray1, gChunkArraySize1);
sl@0	5414
sl@0	5415	GetAllPageInfo();
sl@0	5416	index = gZoneCount - 1;
sl@0	5417	while (index > 0 && (gZoneUtilArray[index].iAllocFixed != 0 \|\| gZoneUtilArray[index].iAllocUnknown != 0))
sl@0	5418	{
sl@0	5419	-- index;
sl@0	5420	}
sl@0	5421
sl@0	5422	if (index == 0 && (gZoneUtilArray[index].iAllocFixed != 0 \|\| gZoneUtilArray[index].iAllocUnknown != 0))
sl@0	5423	{
sl@0	5424	test.Printf(_L("Cannot find zone to perform test, Skipping test step...\n"));
sl@0	5425	}
sl@0	5426	else
sl@0	5427	{
sl@0	5428	defragZoneID = gZoneConfigArray[index].iZoneId;
sl@0	5429
sl@0	5430	r = gTestThread.Create(gTestThreadName,MultiGenDefragThreadFunc,KDefaultStackSize,0x1000,0x1000,NULL);
sl@0	5431	if (r != KErrNone)
sl@0	5432	{
sl@0	5433	test.Printf(_L("r = %d, expected = %d\n"), r, KErrNone);
sl@0	5434	CLEANUP(RemoveChunkAlloc(gChunkArray1, gChunkArraySize1));
sl@0	5435	TEST_FAIL;
sl@0	5436	}
sl@0	5437
sl@0	5438	gTestThread.Logon(status);
sl@0	5439	gTestThread.Resume();
sl@0	5440	User::After(waitTime);
sl@0	5441
sl@0	5442	r = Ldd.CallDefrag(DEFRAG_TYPE_CLAIM, DEFRAG_VER_SYNC, defragZoneID);
sl@0	5443
sl@0	5444	User::WaitForRequest(status);
sl@0	5445	r2 = status.Int();
sl@0	5446
sl@0	5447	if (r != KErrNone)
sl@0	5448	{
sl@0	5449	test.Printf(_L("ClaimZone: r = %d, expected = %d\n"), r, KErrNone);
sl@0	5450	}
sl@0	5451
sl@0	5452	if (r2 != KErrNone)
sl@0	5453	{
sl@0	5454	test.Printf(_L("General: r2 = %d, expected = %d\n"), r, KErrNone);
sl@0	5455	}
sl@0	5456
sl@0	5457	GetAllPageInfo();
sl@0	5458	TUint freeInOthers = gTotalPageCount.iFreePages - gZoneUtilArray[index].iFreePages;
sl@0	5459	if (freeInOthers && gZoneUtilArray[index].iAllocFixed != gZoneUtilArray[index].iPhysPages)
sl@0	5460	{
sl@0	5461	test.Printf(_L("Fail: Zone ID 0x%x has not been claimed, r = %d, r2 = %d, expected = %d\n"),
sl@0	5462	defragZoneID, r, r2, KErrNone);
sl@0	5463	CLEANUP(RemoveChunkAlloc(gChunkArray1, gChunkArraySize1));
sl@0	5464	TEST_FAIL;
sl@0	5465	}
sl@0	5466	else
sl@0	5467	{
sl@0	5468	test.Printf(_L("Passed...\n"));
sl@0	5469	}
sl@0	5470
sl@0	5471	if (r == KErrNone)
sl@0	5472	{
sl@0	5473	r = Ldd.FreeAllFixedPages();
sl@0	5474	}
sl@0	5475
sl@0	5476	gTestThread.Close();
sl@0	5477	}
sl@0	5478
sl@0	5479	RemoveChunkAlloc(gChunkArray1, gChunkArraySize1);
sl@0	5480	TestEnd();
sl@0	5481
sl@0	5482
sl@0	5483
sl@0	5484	test.Next(_L("Test5: Call function TRamDefragRequest::ClaimRamZone on specifc zone at the same time as calling on another zone"));
sl@0	5485	TestStart();
sl@0	5486
sl@0	5487	AllocMovable(gChunkArray1, gChunkArraySize1, KNumAllocChunks);
sl@0	5488	FreeMovable(gChunkArray1, gChunkArraySize1);
sl@0	5489
sl@0	5490	GetAllPageInfo();
sl@0	5491	index = gZoneCount - 1;
sl@0	5492	while (index > 0 && (gZoneUtilArray[index].iAllocFixed != 0 \|\| gZoneUtilArray[index].iAllocUnknown != 0))
sl@0	5493	{
sl@0	5494	-- index;
sl@0	5495	}
sl@0	5496	defragZoneID = gZoneConfigArray[index].iZoneId;
sl@0	5497	test.Printf(_L("index = 0x%x "), index);
sl@0	5498
sl@0	5499	TUint index2 = gZoneCount - 1;
sl@0	5500	while ( index2 > 0 &&
sl@0	5501	(index == index2 \|\| gZoneUtilArray[index2].iAllocFixed != 0 \|\| gZoneUtilArray[index2].iAllocUnknown != 0))
sl@0	5502	{
sl@0	5503	-- index2;
sl@0	5504	}
sl@0	5505	TUint defragZoneID2 = gZoneConfigArray[index2].iZoneId;
sl@0	5506	test.Printf(_L("index2 = %d\n"), index2);
sl@0	5507
sl@0	5508	if ((index == 0 && (gZoneUtilArray[index].iAllocFixed != 0 \|\| gZoneUtilArray[index].iAllocUnknown != 0)) \|\|
sl@0	5509	(index2 == 0 && (index == index2 \|\| gZoneUtilArray[index2].iAllocFixed != 0 \|\| gZoneUtilArray[index2].iAllocUnknown != 0)))
sl@0	5510	{
sl@0	5511	test.Printf(_L("Cannot find zone to perform test, Skipping test step...\n"));
sl@0	5512	}
sl@0	5513	else
sl@0	5514	{
sl@0	5515	r = gTestThread.Create(gTestThreadName,MultiClaimZoneThreadFunc,KDefaultStackSize,0x1000,0x1000,(TAny*)(defragZoneID2));
sl@0	5516	if (r != KErrNone)
sl@0	5517	{
sl@0	5518	test.Printf(_L("r = %d, expected = %d\n"), r, KErrNone);
sl@0	5519	CLEANUP(RemoveChunkAlloc(gChunkArray1, gChunkArraySize1));
sl@0	5520	TEST_FAIL;
sl@0	5521	}
sl@0	5522
sl@0	5523	gTestThread.Logon(status);
sl@0	5524	gTestThread.Resume();
sl@0	5525	User::After(waitTime);
sl@0	5526
sl@0	5527	r = Ldd.CallDefrag(DEFRAG_TYPE_CLAIM, DEFRAG_VER_SYNC, defragZoneID);
sl@0	5528	TESTDEBUG(test.Printf(_L("r = %d\n"), r));
sl@0	5529
sl@0	5530	User::WaitForRequest(status);
sl@0	5531	r2 = status.Int();
sl@0	5532
sl@0	5533	GetAllPageInfo();
sl@0	5534	TUint freeInOthers = gTotalPageCount.iFreePages - gZoneUtilArray[index].iFreePages;
sl@0	5535	TUint freeInOthers2 = gTotalPageCount.iFreePages - gZoneUtilArray[index2].iFreePages;
sl@0	5536	if ((freeInOthers && r != KErrNone &&
sl@0	5537	gZoneUtilArray[index].iAllocFixed != gZoneUtilArray[index].iPhysPages) \|\|
sl@0	5538	(freeInOthers2 && r != KErrNone &&
sl@0	5539	gZoneUtilArray[index2].iAllocFixed != gZoneUtilArray[index2].iPhysPages))
sl@0	5540	{
sl@0	5541	test.Printf(_L("Fail: Zone ID 0x%x or Zone ID 0x%x has not been claimed, r = %d, r2 = %d, expected = %d\n"),
sl@0	5542	defragZoneID, defragZoneID2, r, r2, KErrNone);
sl@0	5543	CLEANUP(RemoveChunkAlloc(gChunkArray1, gChunkArraySize1));
sl@0	5544	TEST_FAIL;
sl@0	5545	}
sl@0	5546	else
sl@0	5547	{
sl@0	5548	test.Printf(_L("Passed...\n"));
sl@0	5549	}
sl@0	5550
sl@0	5551	if (r == KErrNone)
sl@0	5552	{
sl@0	5553	r = Ldd.FreeAllFixedPages();
sl@0	5554	}
sl@0	5555
sl@0	5556	if (r2 == KErrNone)
sl@0	5557	{// Have to free from specific address as RAM zone claimed by other channel.
sl@0	5558	addr = gZoneConfigArray[index2].iPhysBase;
sl@0	5559	r = Ldd.FreeFromAddr(gZoneUtilArray[index2].iAllocFixed, addr);
sl@0	5560	}
sl@0	5561
sl@0	5562	gTestThread.Close();
sl@0	5563	}
sl@0	5564
sl@0	5565	RemoveChunkAlloc(gChunkArray1, gChunkArraySize1);
sl@0	5566	TestEnd();
sl@0	5567
sl@0	5568
sl@0	5569	test.Next(_L("Test6: Call function TRamDefragRequest::ClaimRamZone on specifc zone and at the same time allocate pages to the zone"));
sl@0	5570	TestStart();
sl@0	5571
sl@0	5572	TInt pagesAlloc = 1; // Try and allocate just one page whilst attempting to claim the zone
sl@0	5573
sl@0	5574	AllocMovable(gChunkArray1, gChunkArraySize1, KNumAllocChunks);
sl@0	5575	FreeMovable(gChunkArray1, gChunkArraySize1);
sl@0	5576
sl@0	5577	GetAllPageInfo();
sl@0	5578	index = gZoneCount - 1;
sl@0	5579	while (index > 0 && (gZoneUtilArray[index].iAllocFixed != 0 \|\| gZoneUtilArray[index].iAllocUnknown != 0))
sl@0	5580	{
sl@0	5581	-- index;
sl@0	5582	}
sl@0	5583	if (index == 0 && (gZoneUtilArray[index].iAllocFixed != 0 \|\| gZoneUtilArray[index].iAllocUnknown != 0))
sl@0	5584	{
sl@0	5585	test.Printf(_L("Cannot find zone to perform test, Skipping test step...\n"));
sl@0	5586	}
sl@0	5587	else
sl@0	5588	{
sl@0	5589	GetAllPageInfo();
sl@0	5590	defragZoneID = gZoneConfigArray[index].iZoneId;
sl@0	5591	TInt numPassed = 0;
sl@0	5592	for (waitTime = 1000; waitTime > 0; waitTime-=10)
sl@0	5593	{
sl@0	5594	r = gTestThread.Create(gTestThreadName,MultiClaimZoneThreadFunc,KDefaultStackSize,0x1000,0x1000,(TAny*)defragZoneID);
sl@0	5595	if (r != KErrNone)
sl@0	5596	{
sl@0	5597	test.Printf(_L("r = %d, expected = %d\n"), r, KErrNone);
sl@0	5598	CLEANUP(RemoveChunkAlloc(gChunkArray1, gChunkArraySize1));
sl@0	5599	TEST_FAIL;
sl@0	5600	}
sl@0	5601
sl@0	5602	gTestThread.Logon(status);
sl@0	5603	gTestThread.Resume();
sl@0	5604	test(status.Int() == KRequestPending);
sl@0	5605	User::After(waitTime);
sl@0	5606
sl@0	5607	r = Ldd.ZoneAllocDiscontiguous(defragZoneID, pagesAlloc);
sl@0	5608
sl@0	5609	TESTDEBUG(test.Printf(_L("r = %d\n"), r));
sl@0	5610
sl@0	5611	User::WaitForRequest(status);
sl@0	5612	r2 = status.Int();
sl@0	5613
sl@0	5614	GetAllPageInfo();
sl@0	5615	TUint freeInOthers = gTotalPageCount.iFreePages - gZoneUtilArray[index].iFreePages;
sl@0	5616	if (freeInOthers && r2 != KErrNone)
sl@0	5617	{
sl@0	5618	test.Printf(_L("Claim was unsuccsessful: r2 = %d, expected = %d\n"), r2, KErrNone);
sl@0	5619	}
sl@0	5620	else if (r2 == KErrNone && r != KErrNoMemory)
sl@0	5621	{
sl@0	5622	test.Printf(_L("Fail: r = %d, expected = %d, r2 = %d, expected = %d, zone ID = 0x%x\n"),
sl@0	5623	r, KErrNoMemory, r2, KErrNone, defragZoneID);
sl@0	5624	CLEANUP(RemoveChunkAlloc(gChunkArray1, gChunkArraySize1));
sl@0	5625	CLEANUP(Ldd.FreeAllFixedPages());
sl@0	5626	// Free from address as a different channel claimed the RAM zone.
sl@0	5627	addr = gZoneConfigArray[index].iPhysBase;
sl@0	5628	CLEANUP(Ldd.FreeFromAddr(gZoneUtilArray[index].iAllocFixed, addr));
sl@0	5629	TEST_FAIL;
sl@0	5630	}
sl@0	5631	else
sl@0	5632	{
sl@0	5633	numPassed ++;
sl@0	5634	}
sl@0	5635
sl@0	5636	Ldd.FreeAllFixedPages();
sl@0	5637
sl@0	5638	GetAllPageInfo();
sl@0	5639	if (r2 == KErrNone)
sl@0	5640	{// Free from address as a different channel claimed the RAM zone.
sl@0	5641	addr = gZoneConfigArray[index].iPhysBase;
sl@0	5642	r = Ldd.FreeFromAddr(gZoneUtilArray[index].iAllocFixed, addr);
sl@0	5643	}
sl@0	5644	gTestThread.Close();
sl@0	5645	}
sl@0	5646	if (numPassed > 0)
sl@0	5647	{
sl@0	5648	test.Printf(_L("Passed...\n"));
sl@0	5649	}
sl@0	5650	}
sl@0	5651
sl@0	5652	RemoveChunkAlloc(gChunkArray1, gChunkArraySize1);
sl@0	5653	TestEnd();
sl@0	5654
sl@0	5655
sl@0	5656
sl@0	5657	test.Next(_L("Test7: Call function TRamDefragRequest::ClaimRamZone on a zone that contains fixed and movable pages"));
sl@0	5658	TestStart();
sl@0	5659
sl@0	5660	AllocMovable(gChunkArray1, gChunkArraySize1, KNumAllocChunks);
sl@0	5661	FreeMovable(gChunkArray1, gChunkArraySize1);
sl@0	5662
sl@0	5663	GetAllPageInfo();
sl@0	5664	index = gZoneCount - 1;
sl@0	5665	while (index > 0 && (gZoneUtilArray[index].iAllocFixed != 0 \|\| gZoneUtilArray[index].iAllocUnknown != 0) &&
sl@0	5666	(gZoneUtilArray[index].iAllocMovable < 10 \|\| gZoneUtilArray[index].iFreePages < 3))
sl@0	5667	{
sl@0	5668	-- index;
sl@0	5669	}
sl@0	5670
sl@0	5671	if (index == 0 && ((gZoneUtilArray[index].iAllocFixed != 0 \|\| gZoneUtilArray[index].iAllocUnknown != 0) &&
sl@0	5672	(gZoneUtilArray[index].iAllocMovable < 10 \|\| gZoneUtilArray[index].iFreePages < 3)))
sl@0	5673	{
sl@0	5674	test.Printf(_L("Cannot find zone to perform test, Skipping test step...\n"));
sl@0	5675	}
sl@0	5676	else
sl@0	5677	{
sl@0	5678	defragZoneID = gZoneConfigArray[index].iZoneId;
sl@0	5679	TESTDEBUG(test.Printf(_L("defragZoneID = 0x%x\n"), defragZoneID));
sl@0	5680	TESTDEBUG(test.Printf(_L("movable = 0x%x discardable = 0x%x\n"),
sl@0	5681	gZoneUtilArray[index].iAllocMovable, gZoneUtilArray[index].iAllocDiscardable));
sl@0	5682
sl@0	5683
sl@0	5684	Ldd.ZoneAllocDiscontiguous(defragZoneID, 2); // Allocated 2 fixed pages to ensure that zone cannot be emptied
sl@0	5685
sl@0	5686	r = Ldd.CallDefrag(DEFRAG_TYPE_CLAIM, DEFRAG_VER_SYNC, defragZoneID);
sl@0	5687	GetAllPageInfo();
sl@0	5688	TUint freeInOthers = gTotalPageCount.iFreePages - gZoneUtilArray[index].iFreePages;
sl@0	5689	if (r != KErrNoMemory \|\|
sl@0	5690	(freeInOthers &&
sl@0	5691	(gZoneUtilArray[index].iAllocMovable \|\|
sl@0	5692	gZoneUtilArray[index].iAllocDiscardable)))
sl@0	5693	{
sl@0	5694	test.Printf(_L("r = %d, expected = %d, or all movable/discardable pages have not been moved"),
sl@0	5695	r, KErrNoMemory);
sl@0	5696	CLEANUP(Ldd.FreeAllFixedPages());
sl@0	5697	CLEANUP(RemoveChunkAlloc(gChunkArray1, gChunkArraySize1));
sl@0	5698	TEST_FAIL;
sl@0	5699	}
sl@0	5700	else
sl@0	5701	{
sl@0	5702	test.Printf(_L("Passed...\n"));
sl@0	5703	}
sl@0	5704
sl@0	5705	Ldd.FreeAllFixedPages();
sl@0	5706	}
sl@0	5707
sl@0	5708	RemoveChunkAlloc(gChunkArray1, gChunkArraySize1);
sl@0	5709	TestEnd();
sl@0	5710
sl@0	5711	test.Next(_L("Test8: Call function TRamDefragRequest::ClaimRamZone on every zone one after the other"));
sl@0	5712	TestStart();
sl@0	5713
sl@0	5714	Ldd.ResetDriver();
sl@0	5715
sl@0	5716	for (index = 0; index < gZoneCount; index ++)
sl@0	5717	{
sl@0	5718	// Variables for DP ROM cache sizes
sl@0	5719	TUint minCacheSize = 0;
sl@0	5720	TUint maxCacheSize = 0;
sl@0	5721	TUint currentCacheSize = 0;
sl@0	5722
sl@0	5723	if (gPagedRom)
sl@0	5724	{
sl@0	5725	DPTest::CacheSize(minCacheSize,maxCacheSize,currentCacheSize);
sl@0	5726	TESTDEBUG(test.Printf(_L("Original CacheSize: minCacheSize = 0x%x, maxCacheSize = 0x%x, currentCacheSize = 0x%x\n"),
sl@0	5727	minCacheSize >> gPageShift, maxCacheSize >> gPageShift, currentCacheSize >> gPageShift));
sl@0	5728	// Calculate the maximum size of the DP cache
sl@0	5729	TUint minZoneFree = KMaxTUint;
sl@0	5730	TUint maxDisFillBytes = 0;
sl@0	5731	GetAllPageInfo();
sl@0	5732	for (TUint i = 0; i < gZoneCount; i++)
sl@0	5733	{
sl@0	5734	maxDisFillBytes += gZoneUtilArray[i].iFreePages;
sl@0	5735	maxDisFillBytes += gZoneUtilArray[i].iAllocDiscardable;
sl@0	5736	if (minZoneFree > gZoneUtilArray[i].iFreePages)
sl@0	5737	minZoneFree = gZoneUtilArray[i].iFreePages;
sl@0	5738	}
sl@0	5739	test.Printf(_L("Free pages 0x%x maxDisFillBytes 0x%x\n"), gTotalPageCount.iFreePages, maxDisFillBytes);
sl@0	5740	maxDisFillBytes <<= gPageShift;
sl@0	5741
sl@0	5742	r = DPTest::SetCacheSize(maxDisFillBytes, maxDisFillBytes);
sl@0	5743	if (r != KErrNone)
sl@0	5744	{
sl@0	5745	test.Printf(_L("r = %d, expected = %d\n"), r, KErrNone);
sl@0	5746	CLEANUP(ResetDPCache());
sl@0	5747	TEST_FAIL;
sl@0	5748	}
sl@0	5749
sl@0	5750	DPTest::CacheSize(minCacheSize,maxCacheSize,currentCacheSize);
sl@0	5751	TESTDEBUG(test.Printf(_L("CacheSize2: minCacheSize = 0x%x, maxCacheSize = 0x%x, currentCacheSize = 0x%x\n"),
sl@0	5752	minCacheSize >> gPageShift, maxCacheSize >> gPageShift, currentCacheSize >> gPageShift));
sl@0	5753	if (currentCacheSize != maxDisFillBytes)
sl@0	5754	{
sl@0	5755	test.Printf(_L("r = %d, expected = %d\n"), r, KErrNone);
sl@0	5756	CLEANUP(ResetDPCache());
sl@0	5757	TEST_FAIL;
sl@0	5758	}
sl@0	5759
sl@0	5760	GetAllPageInfo();
sl@0	5761	test.Printf(_L("Free pages after alloc discardable1 = 0x%x\n"), gTotalPageCount.iFreePages);
sl@0	5762
sl@0	5763	r = DPTest::SetCacheSize(minZoneFree << gPageShift, maxDisFillBytes);
sl@0	5764	if (r != KErrNone)
sl@0	5765	{
sl@0	5766	test.Printf(_L("r = %d, expected = %d\n"), r, KErrNone);
sl@0	5767	CLEANUP(ResetDPCache());
sl@0	5768	TEST_FAIL;
sl@0	5769	}
sl@0	5770
sl@0	5771	// Check all zones have no free pages.
sl@0	5772	GetAllPageInfo();
sl@0	5773	for (TUint i = 0; i < gZoneCount; i++)
sl@0	5774	{
sl@0	5775	if (gZoneUtilArray[i].iFreePages != 0)
sl@0	5776	{
sl@0	5777	test.Printf(_L("r = %d, expected = %d\n"), r, KErrNone);
sl@0	5778	CLEANUP(ResetDPCache());
sl@0	5779	TEST_FAIL;
sl@0	5780	}
sl@0	5781	}
sl@0	5782	}
sl@0	5783	else
sl@0	5784	{
sl@0	5785	// Fragment the RAM with some movable pages
sl@0	5786	AllocMovable(gChunkArray1, gChunkArraySize1, KFillAllMovable);
sl@0	5787	FreeMovable(gChunkArray1, gChunkArraySize1);
sl@0	5788	}
sl@0	5789
sl@0	5790	TUint zoneID = gZoneConfigArray[index].iZoneId;
sl@0	5791
sl@0	5792	GetAllPageInfo();
sl@0	5793	TUint origUnknownInZone = gZoneUtilArray[index].iAllocUnknown;
sl@0	5794	TUint origMovInZone = gZoneUtilArray[index].iAllocMovable;
sl@0	5795	TUint origFreeInZone = gZoneUtilArray[index].iFreePages;
sl@0	5796
sl@0	5797	test.Printf(_L("Zone ID 0x%x - fixedPages = 0x%x, unknownPages = 0x%x, discardablePages = 0x%x movable = 0x%x free = 0x%x\n"),
sl@0	5798	zoneID, gZoneUtilArray[index].iAllocFixed, origUnknownInZone, gZoneUtilArray[index].iAllocDiscardable,
sl@0	5799	origMovInZone, origFreeInZone);
sl@0	5800
sl@0	5801
sl@0	5802	r = Ldd.CallDefrag(DEFRAG_TYPE_CLAIM, DEFRAG_VER_SYNC, zoneID);
sl@0	5803
sl@0	5804	GetAllPageInfo();
sl@0	5805	TUint unknownPages = gZoneUtilArray[index].iAllocUnknown;
sl@0	5806	TUint discPages = gZoneUtilArray[index].iAllocDiscardable;
sl@0	5807	TUint movablePages = gZoneUtilArray[index].iAllocMovable;
sl@0	5808
sl@0	5809	if (r == KErrNone)
sl@0	5810	{
sl@0	5811	r = Ldd.FreeAllFixedPages();
sl@0	5812	}
sl@0	5813	TUint freeInOtherZones = gTotalPageCount.iFreePages - gZoneUtilArray[index].iFreePages;
sl@0	5814	if (!unknownPages && movablePages && freeInOtherZones)
sl@0	5815	{
sl@0	5816	test.Printf(_L("Fail: Zone ID %x all the movable pages haven't been moved\n"), zoneID);
sl@0	5817	CLEANUP(RemoveChunkAlloc(gChunkArray1, gChunkArraySize1));
sl@0	5818	CLEANUP(ResetDPCache());
sl@0	5819	TEST_FAIL;
sl@0	5820	}
sl@0	5821
sl@0	5822	if (origUnknownInZone != unknownPages)
sl@0	5823	{
sl@0	5824	test.Printf(_L("Fail: Zone ID %x unknown pages before and after are not equal\n"), zoneID);
sl@0	5825	CLEANUP(RemoveChunkAlloc(gChunkArray1, gChunkArraySize1));
sl@0	5826	CLEANUP(ResetDPCache());
sl@0	5827	TEST_FAIL;
sl@0	5828	}
sl@0	5829
sl@0	5830	if (!gPagedRom)
sl@0	5831	{
sl@0	5832	if (!unknownPages && freeInOtherZones && discPages)
sl@0	5833	{
sl@0	5834	test.Printf(_L("Fail: Zone ID %x all the discardable pages haven't been moved\n"), zoneID);
sl@0	5835	CLEANUP(RemoveChunkAlloc(gChunkArray1, gChunkArraySize1));
sl@0	5836	CLEANUP(ResetDPCache());
sl@0	5837	TEST_FAIL;
sl@0	5838	}
sl@0	5839	}
sl@0	5840	else
sl@0	5841	{
sl@0	5842	DPTest::CacheSize(minCacheSize, maxCacheSize, currentCacheSize);
sl@0	5843	TESTDEBUG(test.Printf(_L("CacheSize3: minCacheSize = 0x%x, maxCacheSize = 0x%x, currentCacheSize = 0x%x\n"),
sl@0	5844	minCacheSize >> gPageShift, maxCacheSize >> gPageShift, currentCacheSize >> gPageShift));
sl@0	5845	// The the discardable pages should have been discarded or moved unless
sl@0	5846	// there is no room in the other zones and the cache size is already at its minimum
sl@0	5847	if (!unknownPages && discPages && (freeInOtherZones \|\| currentCacheSize != minCacheSize))
sl@0	5848	{
sl@0	5849	test.Printf(_L("Fail: Zone ID 0x%x all the discardable pages haven't been moved\n"), zoneID);
sl@0	5850	CLEANUP(RemoveChunkAlloc(gChunkArray1, gChunkArraySize1));
sl@0	5851	CLEANUP(ResetDPCache());
sl@0	5852	TEST_FAIL;
sl@0	5853	}
sl@0	5854	}
sl@0	5855	test.Printf(_L("Passed...\n"));
sl@0	5856	}
sl@0	5857	// TestEnd() will cleanup what's required.
sl@0	5858	TestEnd();
sl@0	5859	test.End();
sl@0	5860	return 0;
sl@0	5861	}
sl@0	5862
sl@0	5863
sl@0	5864	//
sl@0	5865	// TestCancelDefrag
sl@0	5866	//
sl@0	5867	//-----------------------------------------------------------------------------------------------------------------------------------------
sl@0	5868	//! @SYMTestCaseID KBASE-t_ramdefrag-0533
sl@0	5869	//! @SYMTestType CIT
sl@0	5870	//! @SYMTestCaseDesc Verifying the implementation of the function TRamDefragRequest::CancelDefrag()
sl@0	5871	//! @SYMPREQ PREQ308
sl@0	5872	//! @SYMTestPriority High
sl@0	5873	//! @SYMTestActions
sl@0	5874	//! 1. Fragment the memory. Following this, start a general defrag and cancel it
sl@0	5875	//! 2. Fragment the memory. Following this, start a zone defrag and cancel it
sl@0	5876	//! 3. Fragment the memory. Following this, start a claim zone and cancel it
sl@0	5877	//!
sl@0	5878	//! @SYMTestExpectedResults
sl@0	5879	//! 1. KErrCancel
sl@0	5880	//! 2. KErrCancel
sl@0	5881	//! 3. KErrCancel
sl@0	5882	//-----------------------------------------------------------------------------------------------------------------------------------------
sl@0	5883	TInt TestCancelDefrag()
sl@0	5884	{
sl@0	5885	TInt r = 0;
sl@0	5886	TUint defragZoneID = 0;
sl@0	5887
sl@0	5888	test.Start(_L("Test1: Call general defrag and cancel it"));
sl@0	5889	TestStart();
sl@0	5890
sl@0	5891	AllocMovable(gChunkArray1, gChunkArraySize1, KNumAllocChunks);
sl@0	5892	FreeMovable(gChunkArray1, gChunkArraySize1);
sl@0	5893
sl@0	5894	r = Ldd.CheckCancel(DEFRAG_TYPE_GEN);
sl@0	5895
sl@0	5896	TESTDEBUG(test.Printf(_L("r = %d\n"), r));
sl@0	5897	if (r != KErrCancel)
sl@0	5898	{
sl@0	5899	test.Printf(_L("Fail: r = %d, expected = %d\n"), r, KErrCancel);
sl@0	5900	CLEANUP(RemoveChunkAlloc(gChunkArray1, gChunkArraySize1));
sl@0	5901	TEST_FAIL;
sl@0	5902	}
sl@0	5903	else
sl@0	5904	{
sl@0	5905	test.Printf(_L("Passed...\n"));
sl@0	5906	}
sl@0	5907	RemoveChunkAlloc(gChunkArray1, gChunkArraySize1);
sl@0	5908	TestEnd();
sl@0	5909
sl@0	5910
sl@0	5911	test.Next(_L("Test2: Call zone defrag and cancel it"));
sl@0	5912	TestStart();
sl@0	5913
sl@0	5914	AllocMovable(gChunkArray1, gChunkArraySize1, KNumAllocChunks);
sl@0	5915	FreeMovable(gChunkArray1, gChunkArraySize1);
sl@0	5916
sl@0	5917	GetAllPageInfo();
sl@0	5918	TUint index = gZoneCount - 1;
sl@0	5919	while (index > 0 &&
sl@0	5920	(gZoneUtilArray[index].iFreePages == gZoneUtilArray[index].iPhysPages \|\|
sl@0	5921	gZoneUtilArray[index].iAllocFixed !=0 \|\|
sl@0	5922	gZoneUtilArray[index].iAllocUnknown !=0))
sl@0	5923	{
sl@0	5924	-- index;
sl@0	5925	}
sl@0	5926	if (index == 0 &&
sl@0	5927	(gZoneUtilArray[index].iFreePages == gZoneUtilArray[index].iPhysPages \|\|
sl@0	5928	gZoneUtilArray[index].iAllocFixed !=0 \|\|
sl@0	5929	gZoneUtilArray[index].iAllocUnknown !=0))
sl@0	5930	{
sl@0	5931	test.Printf(_L("Cannot find zone to perform test, Skipping test step...\n"));
sl@0	5932	}
sl@0	5933	else
sl@0	5934	{
sl@0	5935	defragZoneID = gZoneConfigArray[index].iZoneId;
sl@0	5936	TESTDEBUG(test.Printf(_L("defragZoneID = 0x%x\n"),defragZoneID));
sl@0	5937
sl@0	5938	r = Ldd.CheckCancel(DEFRAG_TYPE_EMPTY, defragZoneID);
sl@0	5939
sl@0	5940	TESTDEBUG(test.Printf(_L("r = %d\n"), r));
sl@0	5941	if (r != KErrCancel)
sl@0	5942	{
sl@0	5943	test.Printf(_L("Fail: r = %d, expected = %d\n"), r, KErrCancel);
sl@0	5944	CLEANUP(RemoveChunkAlloc(gChunkArray1, gChunkArraySize1));
sl@0	5945	TEST_FAIL;
sl@0	5946	}
sl@0	5947	else
sl@0	5948	{
sl@0	5949	test.Printf(_L("Passed...\n"));
sl@0	5950	}
sl@0	5951	}
sl@0	5952
sl@0	5953	RemoveChunkAlloc(gChunkArray1, gChunkArraySize1);
sl@0	5954	TestEnd();
sl@0	5955
sl@0	5956
sl@0	5957	test.Next(_L("Test3: Call Claim RAM Zone and cancel it"));
sl@0	5958	TestStart();
sl@0	5959
sl@0	5960	AllocMovable(gChunkArray1, gChunkArraySize1, KNumAllocChunks);
sl@0	5961	FreeMovable(gChunkArray1, gChunkArraySize1);
sl@0	5962
sl@0	5963	GetAllPageInfo();
sl@0	5964	index = gZoneCount - 1;
sl@0	5965	while (index > 0 &&
sl@0	5966	(gZoneUtilArray[index].iFreePages == gZoneUtilArray[index].iPhysPages \|\|
sl@0	5967	gZoneUtilArray[index].iAllocFixed !=0 \|\|
sl@0	5968	gZoneUtilArray[index].iAllocUnknown !=0))
sl@0	5969	{
sl@0	5970	-- index;
sl@0	5971	}
sl@0	5972	defragZoneID = gZoneConfigArray[index].iZoneId;
sl@0	5973	TESTDEBUG(test.Printf(_L("defragZoneID = 0x%x\n"),defragZoneID));
sl@0	5974
sl@0	5975	if (index == 0 &&
sl@0	5976	(gZoneUtilArray[index].iFreePages == gZoneUtilArray[index].iPhysPages \|\|
sl@0	5977	gZoneUtilArray[index].iAllocFixed !=0 \|\|
sl@0	5978	gZoneUtilArray[index].iAllocUnknown !=0))
sl@0	5979	{
sl@0	5980	test.Printf(_L("Cannot find zone to perform test, Skipping test step...\n"));
sl@0	5981	}
sl@0	5982	else
sl@0	5983	{
sl@0	5984	r = Ldd.CheckCancel(DEFRAG_TYPE_CLAIM, defragZoneID);
sl@0	5985
sl@0	5986	TESTDEBUG(test.Printf(_L("r = %d\n"), r));
sl@0	5987	if (r != KErrCancel)
sl@0	5988	{
sl@0	5989	test.Printf(_L("Fail: r = %d, expected = %d\n"), r, KErrCancel);
sl@0	5990	CLEANUP(RemoveChunkAlloc(gChunkArray1, gChunkArraySize1));
sl@0	5991	TEST_FAIL;
sl@0	5992	}
sl@0	5993	else
sl@0	5994	{
sl@0	5995	test.Printf(_L("Passed...\n"));
sl@0	5996	}
sl@0	5997	}
sl@0	5998
sl@0	5999	RemoveChunkAlloc(gChunkArray1, gChunkArraySize1);
sl@0	6000	TestEnd();
sl@0	6001
sl@0	6002	test.End();
sl@0	6003	return 0;
sl@0	6004	}
sl@0	6005
sl@0	6006	//
sl@0	6007	// TestZoneAllocNoAffect
sl@0	6008	//
sl@0	6009	// Ensures that fixed page allocations do not affect the movable
sl@0	6010	// or discardable page allocations
sl@0	6011	//
sl@0	6012	TInt TestZoneAllocNoAffect(TInt aZoneAllocType, TInt aPageType)
sl@0	6013	{
sl@0	6014	TInt retVal = KErrNone;
sl@0	6015	TInt r = KErrNone;
sl@0	6016	TInt mostPrefIndex = 0;
sl@0	6017	TUint leastPrefIndex = 0;
sl@0	6018	TUint leastPrefZoneID = 0;
sl@0	6019
sl@0	6020	TestStart();
sl@0	6021	gChunkArray1 = new RChunk;
sl@0	6022	gChunkArraySize1 = 1;
sl@0	6023	switch(aPageType)
sl@0	6024	{
sl@0	6025	case BEST_MOVABLE:
sl@0	6026	test.Printf(_L("Test Epoc::ZoneAllocPhysicalRam() doesn't affect the allocation of movable pages\n"));
sl@0	6027	break;
sl@0	6028
sl@0	6029	case BEST_DISCARDABLE:
sl@0	6030	test.Printf(_L("Test Epoc::ZoneAllocPhysicalRam() doesn't affect the allocation of discardable pages\n"));
sl@0	6031	if (!gPagedRom)
sl@0	6032	{
sl@0	6033	test.Printf(_L("Not a paged ROM - Skipping...\n"));
sl@0	6034	goto skipSetup;
sl@0	6035	}
sl@0	6036	break;
sl@0	6037	}
sl@0	6038	// Fist find the zone that movable page allocations should go into
sl@0	6039	// Getting the best movable will be the same for discardable as well
sl@0	6040	mostPrefIndex = GetBestZone(aPageType);
sl@0	6041	if (mostPrefIndex == KErrNotFound)
sl@0	6042	{
sl@0	6043	test.Printf(_L("Cannot find zone to perform test - Skipping test step...\n"));
sl@0	6044	goto skipSetup;
sl@0	6045	}
sl@0	6046
sl@0	6047	// Get the least pref zone to zone alloc into and ensure it has free pages
sl@0	6048	GetPrefOrder();
sl@0	6049	leastPrefIndex = gPrefArray[gZoneCount - 1];
sl@0	6050	if (gZoneConfigArray[mostPrefIndex].iPref == gZoneConfigArray[leastPrefIndex].iPref)
sl@0	6051	{
sl@0	6052	test.Printf(_L("Zones with same preference - Skipping...\n"));
sl@0	6053	goto skipSetup;
sl@0	6054	}
sl@0	6055	if (leastPrefIndex == (TUint)mostPrefIndex \|\|
sl@0	6056	gZoneUtilArray[leastPrefIndex].iFreePages == 0)
sl@0	6057	{
sl@0	6058	test.Printf(_L("leastPrefIndex = mostPrefIndex or leastPrefIndex(%d) / mostPrefIndex(%d) has 0 free - Skipping test step...\n"),
sl@0	6059	leastPrefIndex, mostPrefIndex);
sl@0	6060	goto skipSetup;
sl@0	6061	}
sl@0	6062
sl@0	6063
sl@0	6064	// Zone alloc 1 fixed page into the least preferable zone
sl@0	6065	leastPrefZoneID = gZoneConfigArray[leastPrefIndex].iZoneId;
sl@0	6066	GetOriginalPageCount();
sl@0	6067	switch(aZoneAllocType)
sl@0	6068	{
sl@0	6069	case Z_ALLOC_DISC:
sl@0	6070	{
sl@0	6071	r = Ldd.ZoneAllocDiscontiguous(leastPrefZoneID, 1);
sl@0	6072	break;
sl@0	6073	}
sl@0	6074
sl@0	6075	case Z_ALLOC_CONTIG:
sl@0	6076	{
sl@0	6077	r = Ldd.ZoneAllocContiguous(leastPrefZoneID, gPageSize);
sl@0	6078	break;
sl@0	6079	}
sl@0	6080	}
sl@0	6081	GetAllPageInfo();
sl@0	6082	if (r != KErrNone \|\|
sl@0	6083	gZoneUtilArray[leastPrefIndex].iAllocFixed <= gOriginalPageCountArray[leastPrefIndex].iAllocFixed)
sl@0	6084	{
sl@0	6085	test.Printf(_L("Failed to allocate 1 fixed page to zone index %d r = %d\n"), leastPrefIndex, r);
sl@0	6086	goto skipSetup;
sl@0	6087	}
sl@0	6088	test.Printf(_L("leastPrefIndex = %d mostPrefIndex = %d\n"), leastPrefIndex, mostPrefIndex);
sl@0	6089	switch(aPageType)
sl@0	6090	{
sl@0	6091	case BEST_MOVABLE:
sl@0	6092	// now allocate 1 movable page
sl@0	6093	r = AllocMovable(gChunkArray1, gChunkArraySize1, 1, gPageSize);
sl@0	6094	if (r != KErrNone)
sl@0	6095	{
sl@0	6096	test.Printf(_L("Failed to allocate 1 movable page r = %d\n"), r);
sl@0	6097	goto skipSetup;
sl@0	6098	}
sl@0	6099	break;
sl@0	6100
sl@0	6101	case BEST_DISCARDABLE:
sl@0	6102	// now allocate 1 discardable page
sl@0	6103	TInt disPages;
sl@0	6104	TUint disBytes = (gTotalPageCount.iDiscardablePages + 1) << gPageShift;
sl@0	6105	r = AllocDiscardable(disPages, disBytes);
sl@0	6106	if (r != KErrNone)
sl@0	6107	{
sl@0	6108	test.Printf(_L("Failed to allocate 1 discardable page r = %d\n"), r);
sl@0	6109	goto skipSetup;
sl@0	6110	}
sl@0	6111	break;
sl@0	6112	}
sl@0	6113
sl@0	6114	GetAllPageInfo();
sl@0	6115	switch(aPageType)
sl@0	6116	{
sl@0	6117	case BEST_MOVABLE:
sl@0	6118	if (gOriginalPageCountArray[mostPrefIndex].iAllocMovable >= gZoneUtilArray[mostPrefIndex].iAllocMovable \|\|
sl@0	6119	gOriginalPageCountArray[leastPrefIndex].iAllocMovable < gZoneUtilArray[leastPrefIndex].iAllocMovable)
sl@0	6120	{
sl@0	6121	test.Printf(_L("FAIL: mostPrefIndex(%d) origMov 0x%x curMov 0x%x leastPrefIndex(%d) origMov 0x%x curMov 0x%x\n"),
sl@0	6122	mostPrefIndex, gOriginalPageCountArray[mostPrefIndex].iAllocMovable, gZoneUtilArray[mostPrefIndex].iAllocMovable,
sl@0	6123	leastPrefIndex, gOriginalPageCountArray[leastPrefIndex].iAllocMovable, gZoneUtilArray[leastPrefIndex].iAllocMovable);
sl@0	6124	CLEANUP(Ldd.FreeAllFixedPages());
sl@0	6125	retVal = KErrGeneral;
sl@0	6126	}
sl@0	6127	else
sl@0	6128	{
sl@0	6129	test.Printf(_L("Passed...\n"));
sl@0	6130	}
sl@0	6131	break;
sl@0	6132
sl@0	6133
sl@0	6134	case BEST_DISCARDABLE:
sl@0	6135	if (gOriginalPageCountArray[mostPrefIndex].iAllocDiscardable >= gZoneUtilArray[mostPrefIndex].iAllocDiscardable \|\|
sl@0	6136	gOriginalPageCountArray[leastPrefIndex].iAllocDiscardable < gZoneUtilArray[leastPrefIndex].iAllocDiscardable)
sl@0	6137	{
sl@0	6138	test.Printf(_L("FAIL: mostPrefIndex(%d) origDis 0x%x curDis 0x%x leastPrefIndex(%d) origDis 0x%x curDis 0x%x\n"),
sl@0	6139	mostPrefIndex, gOriginalPageCountArray[mostPrefIndex].iAllocDiscardable, gZoneUtilArray[mostPrefIndex].iAllocDiscardable,
sl@0	6140	leastPrefIndex, gOriginalPageCountArray[leastPrefIndex].iAllocDiscardable, gZoneUtilArray[leastPrefIndex].iAllocDiscardable);
sl@0	6141	CLEANUP(Ldd.FreeAllFixedPages());
sl@0	6142	retVal = KErrGeneral;
sl@0	6143	}
sl@0	6144	else
sl@0	6145	{
sl@0	6146	test.Printf(_L("Passed...\n"));
sl@0	6147	}
sl@0	6148	break;
sl@0	6149	}
sl@0	6150
sl@0	6151	// This will clean up any fixed pages allocated.
sl@0	6152	skipSetup:
sl@0	6153	TestEnd();
sl@0	6154	return retVal;
sl@0	6155	}
sl@0	6156
sl@0	6157	//
sl@0	6158	// TestZoneAllocContiguous
sl@0	6159	//
sl@0	6160	//---------------------------------------------------------------------------------------------------------------------
sl@0	6161	//! @SYMTestCaseID KBASE-t_ramdefrag-0535
sl@0	6162	//! @SYMTestType CIT
sl@0	6163	//! @SYMTestCaseDesc Verifying the contiguous overload of Epoc::ZoneAllocPhysicalRam().
sl@0	6164	//! @SYMPREQ PREQ308
sl@0	6165	//! @SYMTestPriority High
sl@0	6166	//! @SYMTestActions
sl@0	6167	//! 1. Call function with a valid aZoneID.
sl@0	6168	//! 2. Call function with an invalid aZoneID
sl@0	6169	//! 3. Call function with aSize > zone size
sl@0	6170	//! 4. Call multiple RAM zone overload of the function with a mix of valid and invalid IDs.
sl@0	6171	//! 5. Call multiple RAM zone overload of the function with contiguous RAM zones and attempt
sl@0	6172	//! to allocate over both RAM zones.
sl@0	6173	//! 6. Call function on a RAM zone that has some non-DP pages allocated into it and ask
sl@0	6174	//! for the whole RAM zone to be filled with fixed pages.
sl@0	6175	//! 7. Get the most preferable zone for movable page allocations (mostPref). Allocate 1 contiguous fixed page
sl@0	6176	//! in the least preferable zone. Following this allocate 1 movable page
sl@0	6177	//! 8. Get the most preferable zone for discardable page allocations (mostPref). Allocate 1 contiguous fixed
sl@0	6178	//! page in the least preferable zone. Following this allocate 1 discardable page
sl@0	6179	//!
sl@0	6180	//! @SYMTestExpectedResults
sl@0	6181	//! 1. KErrNone
sl@0	6182	//! 2. KErrArgument
sl@0	6183	//! 3. KErrArgument
sl@0	6184	//! 4. KErrArgument
sl@0	6185	//! 5. KErrNone
sl@0	6186	//! 6. KErrNoMemory
sl@0	6187	//! 7. Movable pages are allocated into zone mostPref.
sl@0	6188	//! 8. Discardable pages are allocated into zone mostPref
sl@0	6189	//---------------------------------------------------------------------------------------------------------------------
sl@0	6190	TInt TestZoneAllocContiguous()
sl@0	6191	{
sl@0	6192	TInt r = 0;
sl@0	6193	test.Start(_L("Test1: Call function Epoc::ZoneAllocPhysicalRam() with a valid aZoneID"));
sl@0	6194	TestStart();
sl@0	6195
sl@0	6196	const TUint KAllocPages = 2;
sl@0	6197
sl@0	6198	GetOriginalPageCount();
sl@0	6199	GetAllPageInfo();
sl@0	6200	TUint index = gZoneCount - 1;
sl@0	6201	while (index > 0 && gZoneUtilArray[index].iFreePages < KAllocPages)
sl@0	6202	{
sl@0	6203	-- index;
sl@0	6204	}
sl@0	6205	TUint zoneID = gZoneConfigArray[index].iZoneId;
sl@0	6206	if (index == 0 && gZoneUtilArray[index].iFreePages < KAllocPages)
sl@0	6207	{
sl@0	6208	test.Printf(_L("Cannot find zone to perform test, Skipping test step...\n"));
sl@0	6209	}
sl@0	6210	else
sl@0	6211	{
sl@0	6212	TUint allocBytes = KAllocPages << gPageShift;
sl@0	6213	r = Ldd.ZoneAllocContiguous(zoneID, allocBytes);
sl@0	6214	GetAllPageInfo();
sl@0	6215	if (r == KErrNone &&
sl@0	6216	gZoneUtilArray[index].iAllocFixed - gOriginalPageCountArray[index].iAllocFixed == KAllocPages)
sl@0	6217	{
sl@0	6218	test.Printf(_L("Pass: Correct number of fixed pages allocated to zone ID 0x%x\n"),zoneID);
sl@0	6219	}
sl@0	6220	else
sl@0	6221	{
sl@0	6222	test.Printf(_L("Fail: r = %d, expected = %d, or number of pages allocated is not expected\n"),
sl@0	6223	r, KErrNone);
sl@0	6224	CLEANUP(Ldd.FreeAllFixedPages());
sl@0	6225	TEST_FAIL;
sl@0	6226	}
sl@0	6227
sl@0	6228	Ldd.FreeAllFixedPages();
sl@0	6229	}
sl@0	6230	TestEnd();
sl@0	6231
sl@0	6232
sl@0	6233	test.Next(_L("Test2: Call function Epoc::ZoneAllocPhysicalRam() with an invalid aZoneID"));
sl@0	6234	TestStart();
sl@0	6235
sl@0	6236	zoneID = KInvalidZoneID;
sl@0	6237
sl@0	6238	TESTDEBUG(test.Printf(_L("zoneID = 0x%x\n"), zoneID));
sl@0	6239
sl@0	6240	r = Ldd.ZoneAllocContiguous(zoneID, gPageSize);
sl@0	6241	GetAllPageInfo();
sl@0	6242	if (r == KErrArgument)
sl@0	6243	{
sl@0	6244	test.Printf(_L("Pass: Correct return value\n"));
sl@0	6245	}
sl@0	6246	else
sl@0	6247	{
sl@0	6248	test.Printf(_L("Fail: r = %d, expected = %d\n"), r, KErrArgument);
sl@0	6249	CLEANUP(Ldd.FreeAllFixedPages());
sl@0	6250	TEST_FAIL;
sl@0	6251	}
sl@0	6252	Ldd.FreeAllFixedPages();
sl@0	6253	TestEnd();
sl@0	6254
sl@0	6255
sl@0	6256	test.Next(_L("Test3: Call function Epoc::ZoneAllocPhysicalRam() with aSize > zone size"));
sl@0	6257	TestStart();
sl@0	6258
sl@0	6259	index = gZoneCount - 1;
sl@0	6260	zoneID = gZoneConfigArray[index].iZoneId;
sl@0	6261
sl@0	6262	TUint allocBytes = (gZoneUtilArray[index].iPhysPages + 5) << gPageShift;
sl@0	6263
sl@0	6264	r = Ldd.ZoneAllocContiguous(zoneID, allocBytes);
sl@0	6265	GetAllPageInfo();
sl@0	6266	if (r == KErrArgument)
sl@0	6267	{
sl@0	6268	test.Printf(_L("Pass: Correct return value and number of pages allocated is correct\n"));
sl@0	6269	}
sl@0	6270	else
sl@0	6271	{
sl@0	6272	test.Printf(_L("Fail: r = %d, expected = %d\n"), r, KErrArgument);
sl@0	6273	CLEANUP(Ldd.FreeAllFixedPages());
sl@0	6274	TEST_FAIL;
sl@0	6275	}
sl@0	6276	Ldd.FreeAllFixedPages();
sl@0	6277	TestEnd();
sl@0	6278
sl@0	6279	const TUint KMultiZoneIds = 10;
sl@0	6280	TUint* zoneIdArray = new TUint[KMultiZoneIds];
sl@0	6281	test_NotNull(zoneIdArray);
sl@0	6282
sl@0	6283	test.Next(_L("Test4: Test Epoc::ZoneAllocPhysicaRam() always fails when at least one ID is invalid"));
sl@0	6284	TestStart();
sl@0	6285
sl@0	6286	index = gZoneCount - 1;
sl@0	6287	while (index > 0 && gZoneUtilArray[index].iFreePages < KAllocPages)
sl@0	6288	{
sl@0	6289	-- index;
sl@0	6290	}
sl@0	6291	if (index == 0 && gZoneUtilArray[index].iFreePages < KAllocPages)
sl@0	6292	{
sl@0	6293	test.Printf(_L("Cannot find zone to perform test, Skipping test step...\n"));
sl@0	6294	}
sl@0	6295	else
sl@0	6296	{
sl@0	6297	TUint zoneIdSize = 2;
sl@0	6298	zoneIdArray[0] = gZoneConfigArray[index].iZoneId;
sl@0	6299	zoneIdArray[1] = KInvalidZoneID;
sl@0	6300	TUint allocBytes = KAllocPages << gPageShift;
sl@0	6301	r = Ldd.MultiZoneAllocContiguous(zoneIdArray, zoneIdSize, allocBytes);
sl@0	6302	if (r != KErrArgument)
sl@0	6303	{
sl@0	6304	CLEANUP(Ldd.FreeAllFixedPages());
sl@0	6305	TEST_FAIL;
sl@0	6306	}
sl@0	6307	else
sl@0	6308	{
sl@0	6309	test.Printf(_L("Pass: Correct return value\n"));
sl@0	6310	}
sl@0	6311	}
sl@0	6312
sl@0	6313	TestEnd();
sl@0	6314
sl@0	6315	test.Next(_L("Test5: Test Epoc::ZoneAllocPhysicalRam() can span multiple RAM zones"));
sl@0	6316	TestStart();
sl@0	6317	// Attempt to find to physically contiguous RAM zones where higher addressed
sl@0	6318	// one is empty, relies on RAM zones are returned by HAL functions in
sl@0	6319	// ascending physical address order.
sl@0	6320	GetAllPageInfo();
sl@0	6321	TBool zonesFound = EFalse;
sl@0	6322	index = gZoneCount - 1;
sl@0	6323	for (; index > 1; index--)
sl@0	6324	{
sl@0	6325	if (gZoneUtilArray[index].iFreePages == gZoneUtilArray[index].iPhysPages &&
sl@0	6326	gZoneUtilArray[index-1].iFreePages == gZoneUtilArray[index-1].iPhysPages &&
sl@0	6327	gZoneConfigArray[index].iPhysBase - 1 == gZoneConfigArray[index-1].iPhysEnd)
sl@0	6328	{
sl@0	6329	zonesFound = ETrue;
sl@0	6330	break;
sl@0	6331	}
sl@0	6332	}
sl@0	6333
sl@0	6334	if (!zonesFound)
sl@0	6335	{
sl@0	6336	test.Printf(_L("Cannot find RAM zones to perform test, Skipping test step...\n"));
sl@0	6337	}
sl@0	6338	else
sl@0	6339	{
sl@0	6340	// Allocate one page more than the first RAM zone to force the allocation
sl@0	6341	// to spread over both RAM zones.
sl@0	6342	TUint allocPages = gZoneUtilArray[index-1].iPhysPages + 1;
sl@0	6343	TUint allocBytes = allocPages << gPageShift;
sl@0	6344
sl@0	6345	// Attempt to find a zone that has less free pages than the allocation
sl@0	6346	// size so we can test that the method continues past too full RAM zones.
sl@0	6347	zonesFound = EFalse;
sl@0	6348	TUint noAllocZone = 0;
sl@0	6349	for (; noAllocZone < gZoneCount; noAllocZone++)
sl@0	6350	{
sl@0	6351	if (allocPages > gZoneUtilArray[noAllocZone].iFreePages &&
sl@0	6352	noAllocZone != index && noAllocZone != index-1)
sl@0	6353	{
sl@0	6354	zonesFound = ETrue;
sl@0	6355	break;
sl@0	6356	}
sl@0	6357	}
sl@0	6358	TUint zoneIds = 2;
sl@0	6359	if (!zonesFound)
sl@0	6360	{
sl@0	6361	zoneIdArray[0] = gZoneConfigArray[index-1].iZoneId;
sl@0	6362	zoneIdArray[1] = gZoneConfigArray[index].iZoneId;
sl@0	6363	}
sl@0	6364	else
sl@0	6365	{// Have a zone that won't meet the allocation so use it
sl@0	6366	TESTDEBUG(test.Printf(_L("noAllocZone ID %x\n"), gZoneConfigArray[noAllocZone].iZoneId));
sl@0	6367	zoneIds++;
sl@0	6368	zoneIdArray[0] = gZoneConfigArray[noAllocZone].iZoneId;
sl@0	6369	zoneIdArray[1] = gZoneConfigArray[index-1].iZoneId;
sl@0	6370	zoneIdArray[2] = gZoneConfigArray[index].iZoneId;
sl@0	6371	}
sl@0	6372
sl@0	6373	r = Ldd.MultiZoneAllocContiguous(zoneIdArray, zoneIds, allocBytes);
sl@0	6374
sl@0	6375	GetAllPageInfo();
sl@0	6376	if (r != KErrNone \|\|
sl@0	6377	gZoneUtilArray[index].iFreePages == gZoneUtilArray[index].iPhysPages \|\|
sl@0	6378	gZoneUtilArray[index-1].iFreePages == gZoneUtilArray[index-1].iPhysPages)
sl@0	6379	{// The allocation failed.
sl@0	6380	CLEANUP(Ldd.FreeAllFixedPages());
sl@0	6381	TEST_FAIL;
sl@0	6382	}
sl@0	6383	else
sl@0	6384	{
sl@0	6385	test.Printf(_L("Passed...\n"));
sl@0	6386	}
sl@0	6387	}
sl@0	6388	// TestEnd() will free the allocation of fixed pages.
sl@0	6389	TestEnd();
sl@0	6390
sl@0	6391	test.Next(_L("Test6: Test Epoc::ZoneAllocPhysicalRam() returns KErrNoMemory when appropriate"));
sl@0	6392	TestStart();
sl@0	6393	// Attempt to find a RAM zone with some non-discarable pages allocated into it.
sl@0	6394	// (At time of writing discardable pages wouldn't be discarded on demand by
sl@0	6395	// this function but this may be changed in the future as discontiguous case does that).
sl@0	6396	GetAllPageInfo();
sl@0	6397	zonesFound = EFalse;
sl@0	6398	index = gZoneCount - 1;
sl@0	6399	for (; index > 0; index--)
sl@0	6400	{
sl@0	6401	if (gZoneUtilArray[index].iFreePages &&
sl@0	6402	(gZoneUtilArray[index].iAllocMovable \|\| gZoneUtilArray[index].iAllocFixed))
sl@0	6403	{
sl@0	6404	zonesFound = ETrue;
sl@0	6405	break;
sl@0	6406	}
sl@0	6407	}
sl@0	6408
sl@0	6409	if (!zonesFound)
sl@0	6410	{
sl@0	6411	test.Printf(_L("Cannot find RAM zones to perform test, Skipping test step...\n"));
sl@0	6412	}
sl@0	6413	else
sl@0	6414	{
sl@0	6415	// Attempt to allocate the whole of the RAM zone.
sl@0	6416	GetOriginalPageCount();
sl@0	6417	TUint allocBytes = gZoneConfigArray[index].iPhysPages << gPageShift;
sl@0	6418	r = Ldd.ZoneAllocContiguous(gZoneConfigArray[index].iZoneId, allocBytes);
sl@0	6419
sl@0	6420	// The allocation should have failed and no pages should have
sl@0	6421	// been allocated.
sl@0	6422	GetAllPageInfo();
sl@0	6423	if (r != KErrNoMemory \|\|
sl@0	6424	gOriginalPageCountArray[index].iFreePages > gZoneUtilArray[index].iFreePages)
sl@0	6425	{
sl@0	6426	CLEANUP(Ldd.FreeAllFixedPages());
sl@0	6427	TEST_FAIL;
sl@0	6428	}
sl@0	6429	else
sl@0	6430	{
sl@0	6431	test.Printf(_L("Pass: Correct return value\n"));
sl@0	6432	}
sl@0	6433	}
sl@0	6434	// TestEnd() will free the allocation of fixed pages.
sl@0	6435	TestEnd();
sl@0	6436	delete[] zoneIdArray;
sl@0	6437
sl@0	6438
sl@0	6439	test.Next(_L("Test7: Test Epoc::ZoneAllocPhysicalRam() (Contiguous) doesn't affect the allocation of movable pages"));
sl@0	6440	r = TestZoneAllocNoAffect(Z_ALLOC_CONTIG, BEST_MOVABLE);
sl@0	6441	if (r != KErrNone)
sl@0	6442	{
sl@0	6443	TEST_FAIL;
sl@0	6444	}
sl@0	6445
sl@0	6446	test.Next(_L("Test8: Test Epoc::ZoneAllocPhysicalRam() (Contiguous) doesn't affect the allocation of discardable pages"));
sl@0	6447	r = TestZoneAllocNoAffect(Z_ALLOC_CONTIG, BEST_DISCARDABLE);
sl@0	6448	if (r != KErrNone)
sl@0	6449	{
sl@0	6450	TEST_FAIL;
sl@0	6451	}
sl@0	6452
sl@0	6453	test.End();
sl@0	6454	return KErrNone;
sl@0	6455	}
sl@0	6456
sl@0	6457
sl@0	6458	//
sl@0	6459	// TestZoneAllocDiscontiguous
sl@0	6460	//
sl@0	6461	//---------------------------------------------------------------------------------------------------------------------
sl@0	6462	//! @SYMTestCaseID KBASE-t_ramdefrag-0536
sl@0	6463	//! @SYMTestType CIT
sl@0	6464	//! @SYMTestCaseDesc Verifying the discontiguous overload of Epoc::ZoneAllocPhysicalRam().
sl@0	6465	//! @SYMPREQ PREQ308
sl@0	6466	//! @SYMTestPriority High
sl@0	6467	//! @SYMTestActions
sl@0	6468	//! 1. Call function with a valid aZoneID.
sl@0	6469	//! 2. Call function with an invalid aZoneID
sl@0	6470	//! 3. Call function with aNumPages > zone size
sl@0	6471	//! 4. Call multiple RAM zone overload of function with a mix of valid and invalid IDs
sl@0	6472	//! 5. Call multiple RAM zone overload of function so that the allocation will have to
sl@0	6473	//! span multiple RAM zones.
sl@0	6474	//! 6. Call function with memory full with DP cache that has reached it's
sl@0	6475	//! minimum cache size.
sl@0	6476	//! 7. Call function with memory not quite full with DP cache that has reached it's
sl@0	6477	//! minimum cache size and with the specified RAM zone full.
sl@0	6478	//! 8. Call function to allocate a whole RAM zone on a RAM zone that has non-discardable
sl@0	6479	//! pages already allocated into it.
sl@0	6480	//! 9. Call function to allocate one less than the whole RAM zone on a RAM zone that has movable
sl@0	6481	//! pages allocated.
sl@0	6482	//! 10. Get the most preferable zone for movable page allocations (mostPref). Allocate 1 discontiguous fixed page
sl@0	6483	//! in the least preferable zone. Following this allocate 1 movable page
sl@0	6484	//! 11. Get the most preferable zone for discardable page allocations (mostPref). Allocate 1 discontiguous fixed
sl@0	6485	//! page in the least preferable zone. Following this allocate 1 discardable page
sl@0	6486	//!
sl@0	6487	//! @SYMTestExpectedResults
sl@0	6488	//! 1. KErrNone
sl@0	6489	//! 2. KErrArgument
sl@0	6490	//! 3. KErrArgument
sl@0	6491	//! 4. KErrArgument
sl@0	6492	//! 5. KErrNone
sl@0	6493	//! 6. KErrNoMemory
sl@0	6494	//! 7. KErrNone
sl@0	6495	//! 8. KErrNoMemory
sl@0	6496	//! 9. KErrNone (i.e. the movable pages are shifted out of the way but only those that need to be moved).
sl@0	6497	//! 10. Movable pages are allocated into zone mostPref.
sl@0	6498	//! 11. Discardable pages are allocated into zone mostPref
sl@0	6499	//---------------------------------------------------------------------------------------------------------------------
sl@0	6500	TInt TestZoneAllocDiscontiguous()
sl@0	6501	{
sl@0	6502	TInt r = KErrNone;
sl@0	6503	test.Start(_L("Test1: Call function Epoc::ZoneAllocPhysicalRam() with a valid aZoneID"));
sl@0	6504	TestStart();
sl@0	6505
sl@0	6506	const TUint KAllocPages = 5;
sl@0	6507	// Detemine how many extra pages the kernel heap may grow by
sl@0	6508	// as these may need to be accounted for.
sl@0	6509	TUint fixedOverhead = Ldd.GetAllocDiff(KAllocPages);
sl@0	6510
sl@0	6511	GetOriginalPageCount();
sl@0	6512	GetAllPageInfo();
sl@0	6513	TUint index = gZoneCount - 1;
sl@0	6514	while (index > 0 && gZoneUtilArray[index].iFreePages < KAllocPages)
sl@0	6515	{
sl@0	6516	-- index;
sl@0	6517	}
sl@0	6518
sl@0	6519	if (gZoneUtilArray[index].iFreePages < KAllocPages \|\| gTotalPageCount.iFreePages < KAllocPages + fixedOverhead)
sl@0	6520	{
sl@0	6521	test.Printf(_L("Cannot find zone to perform test, Skipping test step...\n"));
sl@0	6522	}
sl@0	6523	else
sl@0	6524	{
sl@0	6525	// Allocate KAllocPages discontiguous fixed pages into RAM zone zoneID
sl@0	6526	// and verfiy that the pages were allocated to the correct zone, allow for
sl@0	6527	// extra fixed pages to be allocated as the kernel heap may grow.
sl@0	6528	TUint zoneID = gZoneConfigArray[index].iZoneId;
sl@0	6529	r = Ldd.ZoneAllocDiscontiguous(zoneID, KAllocPages);
sl@0	6530
sl@0	6531	GetAllPageInfo();
sl@0	6532	if ((r == KErrNone) &&
sl@0	6533	(gZoneUtilArray[index].iAllocFixed >= gOriginalPageCountArray[index].iAllocFixed + KAllocPages))
sl@0	6534	{
sl@0	6535	test.Printf(_L("Pass: Correct return value and number of pages allocated is correct\n"));
sl@0	6536	}
sl@0	6537	else
sl@0	6538	{
sl@0	6539	test.Printf(_L("Fail: r = %d, expected = %d\n"), r, KErrNone);
sl@0	6540	CLEANUP(Ldd.FreeAllFixedPages());
sl@0	6541	TEST_FAIL;
sl@0	6542	}
sl@0	6543	Ldd.FreeAllFixedPages();
sl@0	6544	}
sl@0	6545	TestEnd();
sl@0	6546
sl@0	6547
sl@0	6548	test.Next(_L("Test2: Call function Epoc::ZoneAllocPhysicalRam() with an invalid aZoneID"));
sl@0	6549	TestStart();
sl@0	6550
sl@0	6551	TUint zoneID = KInvalidZoneID;
sl@0	6552
sl@0	6553	r = Ldd.ZoneAllocDiscontiguous(zoneID, KAllocPages);
sl@0	6554	GetAllPageInfo();
sl@0	6555	if (r == KErrArgument)
sl@0	6556	{
sl@0	6557	test.Printf(_L("Pass: Correct return value\n"));
sl@0	6558	}
sl@0	6559	else
sl@0	6560	{
sl@0	6561	test.Printf(_L("Fail: r = %d, expected = %d\n"), r, KErrArgument);
sl@0	6562	CLEANUP(Ldd.FreeAllFixedPages());
sl@0	6563	TEST_FAIL;
sl@0	6564	}
sl@0	6565	Ldd.FreeAllFixedPages();
sl@0	6566	TestEnd();
sl@0	6567
sl@0	6568	test.Next(_L("Test3: Call function Epoc::ZoneAllocPhysicalRam() when aNumPages > zone size"));
sl@0	6569	TestStart();
sl@0	6570
sl@0	6571	GetAllPageInfo();
sl@0	6572	index = gZoneCount - 1;
sl@0	6573	zoneID = gZoneConfigArray[index].iZoneId;
sl@0	6574
sl@0	6575	TUint allocPages = gZoneUtilArray[index].iPhysPages + 1;
sl@0	6576	r = Ldd.ZoneAllocDiscontiguous(zoneID, allocPages);
sl@0	6577
sl@0	6578	GetAllPageInfo();
sl@0	6579	if (r == KErrArgument)
sl@0	6580	{
sl@0	6581	test.Printf(_L("Pass: Correct return value and number of pages allocated is correct\n"));
sl@0	6582	}
sl@0	6583	else
sl@0	6584	{
sl@0	6585	test.Printf(_L("Fail: r = %d, expected = %d\n"), r, KErrArgument);
sl@0	6586	CLEANUP(Ldd.FreeAllFixedPages());
sl@0	6587	TEST_FAIL;
sl@0	6588	}
sl@0	6589	Ldd.FreeAllFixedPages();
sl@0	6590	TestEnd();
sl@0	6591
sl@0	6592	const TUint KMultiZoneIds = 10;
sl@0	6593	TUint* zoneIdArray = new TUint[KMultiZoneIds];
sl@0	6594	test_NotNull(zoneIdArray);
sl@0	6595
sl@0	6596	test.Next(_L("Test4: Test Epoc::ZoneAllocPhysicaRam() always fails when at least one ID is invalid"));
sl@0	6597	TestStart();
sl@0	6598
sl@0	6599	TBool zonesFound = EFalse;
sl@0	6600	index = gZoneCount - 1;
sl@0	6601	for (; index > 0; index--)
sl@0	6602	{
sl@0	6603	if (gZoneUtilArray[index].iFreePages >= KAllocPages)
sl@0	6604	{
sl@0	6605	zonesFound = ETrue;
sl@0	6606	break;
sl@0	6607	}
sl@0	6608	}
sl@0	6609	if (!zonesFound)
sl@0	6610	{
sl@0	6611	test.Printf(_L("Cannot find zone to perform test, Skipping test step...\n"));
sl@0	6612	}
sl@0	6613	else
sl@0	6614	{
sl@0	6615	TUint zoneIdSize = 2;
sl@0	6616	zoneIdArray[0] = gZoneConfigArray[index].iZoneId;
sl@0	6617	zoneIdArray[1] = KInvalidZoneID;
sl@0	6618	r = Ldd.MultiZoneAllocDiscontiguous(zoneIdArray, zoneIdSize, KAllocPages);
sl@0	6619	if (r != KErrArgument)
sl@0	6620	{// Make sure we cleanup.
sl@0	6621	CLEANUP(Ldd.FreeAllFixedPages());
sl@0	6622	TEST_FAIL;
sl@0	6623	}
sl@0	6624	else
sl@0	6625	{
sl@0	6626	test.Printf(_L("Passed...\n"));
sl@0	6627	}
sl@0	6628	}
sl@0	6629
sl@0	6630	TestEnd();
sl@0	6631
sl@0	6632	test.Next(_L("Test5: Test Epoc::ZoneAllocPhysicalRam() can span multiple RAM zones"));
sl@0	6633	TestStart();
sl@0	6634	zonesFound = EFalse;
sl@0	6635	TUint zonesCount = 0;
sl@0	6636	const TUint KTest5Zones = 2;
sl@0	6637	TUint zoneIndices[KTest5Zones];
sl@0	6638	allocPages = 0;
sl@0	6639
sl@0	6640	// Attempt to find KTest5Zones RAM zones with some free pages,
sl@0	6641	// search in reverse preference order to reduce chances of kernel heap pages
sl@0	6642	// being allocated into the RAM zones under test.
sl@0	6643	GetPrefOrder();
sl@0	6644	index = gZoneCount - 1;
sl@0	6645	for (; index > 0; index--)
sl@0	6646	{
sl@0	6647	TUint prefIndex = gPrefArray[index];
sl@0	6648	if (gZoneUtilArray[prefIndex].iFreePages != 0)
sl@0	6649	{
sl@0	6650	allocPages += gZoneUtilArray[prefIndex].iFreePages;
sl@0	6651	zoneIndices[zonesCount++] = prefIndex;
sl@0	6652	if (zonesCount == KTest5Zones)
sl@0	6653	{
sl@0	6654	zonesFound = ETrue;
sl@0	6655	break;
sl@0	6656	}
sl@0	6657	}
sl@0	6658	}
sl@0	6659
sl@0	6660	if (!zonesFound)
sl@0	6661	{
sl@0	6662	test.Printf(_L("Cannot find RAM zones to perform test, Skipping test step...\n"));
sl@0	6663	}
sl@0	6664	else
sl@0	6665	{
sl@0	6666	// Attempt to find a zone that has less free pages than the allocation
sl@0	6667	// size so we can test that the method continues past too full RAM zones.
sl@0	6668	zonesFound = EFalse;
sl@0	6669	TUint noAllocZone = 0;
sl@0	6670	for (; noAllocZone < gZoneCount; noAllocZone++)
sl@0	6671	{
sl@0	6672	if (allocPages > gZoneUtilArray[noAllocZone].iFreePages &&
sl@0	6673	noAllocZone != zoneIndices[0] && noAllocZone != zoneIndices[1])
sl@0	6674	{
sl@0	6675	zonesFound = ETrue;
sl@0	6676	break;
sl@0	6677	}
sl@0	6678	}
sl@0	6679
sl@0	6680	if (gPagedRom)
sl@0	6681	{// Fill memory with DP pages to test the allocation will discard
sl@0	6682	// pages when necessary.
sl@0	6683	TInt discard;
sl@0	6684	r = AllocDiscardable(discard);
sl@0	6685	GetAllPageInfo();
sl@0	6686	if (r != KErrNone \|\|
sl@0	6687	gZoneUtilArray[zoneIndices[0]].iFreePages != 0 \|\|
sl@0	6688	gZoneUtilArray[zoneIndices[1]].iFreePages != 0)
sl@0	6689	{
sl@0	6690	test.Printf(_L("r %d\n"), r);
sl@0	6691	CLEANUP(ResetDPCache());
sl@0	6692	TEST_FAIL;
sl@0	6693	}
sl@0	6694	}
sl@0	6695
sl@0	6696	TUint zoneIds = KTest5Zones;
sl@0	6697	if (!zonesFound)
sl@0	6698	{
sl@0	6699	zoneIdArray[0] = gZoneConfigArray[zoneIndices[0]].iZoneId;
sl@0	6700	zoneIdArray[1] = gZoneConfigArray[zoneIndices[1]].iZoneId;
sl@0	6701	}
sl@0	6702	else
sl@0	6703	{// Have a zone that won't meet the allocation so use it
sl@0	6704	TESTDEBUG(test.Printf(_L("noAllocZone ID %x\n"), gZoneConfigArray[noAllocZone].iZoneId));
sl@0	6705	zoneIds++;
sl@0	6706	zoneIdArray[0] = gZoneConfigArray[noAllocZone].iZoneId;
sl@0	6707	zoneIdArray[1] = gZoneConfigArray[zoneIndices[0]].iZoneId;
sl@0	6708	zoneIdArray[2] = gZoneConfigArray[zoneIndices[1]].iZoneId;
sl@0	6709	}
sl@0	6710
sl@0	6711	// Adjust the allocation size for any kernel heap pages that may be
sl@0	6712	// required as they may get allocated into the RAM zones under test.
sl@0	6713	allocPages -= Ldd.GetAllocDiff(allocPages);
sl@0	6714
sl@0	6715	GetOriginalPageCount();
sl@0	6716	r = Ldd.MultiZoneAllocDiscontiguous(zoneIdArray, zoneIds, allocPages);
sl@0	6717
sl@0	6718	GetAllPageInfo();
sl@0	6719	if (r != KErrNone \|\|
sl@0	6720	gZoneUtilArray[zoneIndices[0]].iAllocFixed <= gOriginalPageCountArray[zoneIndices[0]].iAllocFixed \|\|
sl@0	6721	gZoneUtilArray[zoneIndices[1]].iAllocFixed <= gOriginalPageCountArray[zoneIndices[1]].iAllocFixed)
sl@0	6722	{// The allocation failed.
sl@0	6723	CLEANUP(Ldd.FreeAllFixedPages());
sl@0	6724	TEST_FAIL;
sl@0	6725	}
sl@0	6726	else
sl@0	6727	{
sl@0	6728	test.Printf(_L("Passed...\n"));
sl@0	6729	}
sl@0	6730	}
sl@0	6731	// TestEnd() will free the allocation of fixed pages.
sl@0	6732	TestEnd();
sl@0	6733
sl@0	6734
sl@0	6735	if (gPagedRom)
sl@0	6736	{
sl@0	6737	test.Next(_L("Test6: Test Epoc::ZoneAllocPhysicalRam() returns KErrNoMemory when DP minimum cache size is hit"));
sl@0	6738	TestStart();
sl@0	6739	GetPrefOrder();
sl@0	6740	TUint zoneFreePages = 0;
sl@0	6741	index = gZoneCount - 1;
sl@0	6742	for (; index > 0; index--)
sl@0	6743	{
sl@0	6744	TUint prefIndex = gPrefArray[index];
sl@0	6745	zoneFreePages = gZoneUtilArray[prefIndex].iFreePages;
sl@0	6746	if (zoneFreePages > 2)
sl@0	6747	{
sl@0	6748	index = prefIndex;
sl@0	6749	zonesFound = ETrue;
sl@0	6750	break;
sl@0	6751	}
sl@0	6752	}
sl@0	6753
sl@0	6754	if (!zonesFound)
sl@0	6755	{
sl@0	6756	test.Printf(_L("Cannot find RAM zones to perform test, Skipping test step...\n"));
sl@0	6757	}
sl@0	6758	else
sl@0	6759	{
sl@0	6760	// Fill the RAM with DP cache pages and up the minimum cache size so
sl@0	6761	// that the allocation will fail.
sl@0	6762	TInt discardBytes;
sl@0	6763	TInt r = AllocDiscardable(discardBytes, KMaxTUint64, (zoneFreePages - 1) << gPageShift);
sl@0	6764	test_KErrNone(r);
sl@0	6765
sl@0	6766	// Ensure that the RAM zone under test is full.
sl@0	6767	GetAllPageInfo();
sl@0	6768	if (gZoneUtilArray[index].iFreePages != 0)
sl@0	6769	{
sl@0	6770	CLEANUP(ResetDPCache());
sl@0	6771	TEST_FAIL;
sl@0	6772	}
sl@0	6773
sl@0	6774	r = Ldd.ZoneAllocDiscontiguous(gZoneConfigArray[index].iZoneId, zoneFreePages);
sl@0	6775
sl@0	6776	if (r != KErrNoMemory)
sl@0	6777	{
sl@0	6778	CLEANUP(Ldd.FreeAllFixedPages());
sl@0	6779	TEST_FAIL;
sl@0	6780	}
sl@0	6781	else
sl@0	6782	{
sl@0	6783	test.Printf(_L("Passed...\n"));
sl@0	6784	}
sl@0	6785	}
sl@0	6786	TestEnd();
sl@0	6787
sl@0	6788	test.Next(_L("Test7: Test Epoc::ZoneAllocPhysicalRam() replaces DP cache when DP minimum cache size is hit"));
sl@0	6789	TestStart();
sl@0	6790	gChunkArray1 = new RChunk;
sl@0	6791	gChunkArraySize1 = 1;
sl@0	6792	GetPrefOrder();
sl@0	6793	zonesFound = EFalse;
sl@0	6794	for (index = gZoneCount - 1; index > 0 && !zonesFound; index--)
sl@0	6795	{
sl@0	6796	TUint prefIndex = gPrefArray[index];
sl@0	6797	zoneFreePages = gZoneUtilArray[prefIndex].iFreePages;
sl@0	6798	if (zoneFreePages > 1)
sl@0	6799	{
sl@0	6800	// Check there is at least one free page in the other RAM zones.
sl@0	6801	TUint i = 0;
sl@0	6802	for (; i < gZoneCount; i++)
sl@0	6803	{
sl@0	6804	if (i != prefIndex && gZoneUtilArray[i].iFreePages != 0)
sl@0	6805	{
sl@0	6806	index = prefIndex;
sl@0	6807	zonesFound = ETrue;
sl@0	6808	break;
sl@0	6809	}
sl@0	6810	}
sl@0	6811	}
sl@0	6812	}
sl@0	6813	if (!zonesFound)
sl@0	6814	{
sl@0	6815	test.Printf(_L("Cannot find RAM zones to perform test, Skipping test step...\n"));
sl@0	6816	}
sl@0	6817	else
sl@0	6818	{
sl@0	6819	index++;
sl@0	6820	// Attempt to allocate a movable page to create a gap for the DP cache
sl@0	6821	// page to be replaced with.
sl@0	6822	GetOriginalPageCount();
sl@0	6823	r = AllocMovable(gChunkArray1, gChunkArraySize1, 1, gPageSize);
sl@0	6824
sl@0	6825	GetAllPageInfo();
sl@0	6826	TESTDEBUG(test.Printf(_L("index %d prev free 0x%x cur free 0x%x\n"),
sl@0	6827	index, gOriginalPageCountArray[index].iFreePages, gZoneUtilArray[index].iFreePages));
sl@0	6828
sl@0	6829	if (r != KErrNone \|\|
sl@0	6830	gOriginalPageCountArray[index].iFreePages != gZoneUtilArray[index].iFreePages)
sl@0	6831	{// The gap was allocated into the RAM zone under test so can't continue as
sl@0	6832	// the DP cache will attempt to be reallocated into the same RAM zone.
sl@0	6833	test.Printf(_L("Cannot find RAM zones to perform test, Skipping test step...\n"));
sl@0	6834	}
sl@0	6835	else
sl@0	6836	{
sl@0	6837	// Get the ldd to create the array for the fixed page addresses here
sl@0	6838	// so that any kernel heap allocations have already occurred before
sl@0	6839	// memory is filled etc. Make allocation really large so it will always be enough.
sl@0	6840	r = Ldd.AllocFixedArray(50);
sl@0	6841
sl@0	6842	// Fill RAM with DP cache pages and free the gap.
sl@0	6843	TInt discardBytes;
sl@0	6844	r = AllocDiscardable(discardBytes, KMaxTUint64, 0);
sl@0	6845	if (r != KErrNone)
sl@0	6846	{
sl@0	6847	CLEANUP(ResetDPCache());
sl@0	6848	TEST_FAIL;
sl@0	6849	}
sl@0	6850	UpdateRamInfo();
sl@0	6851	TInt prevFreeBytes = gFreeRam;
sl@0	6852	RemoveChunkAlloc(gChunkArray1, gChunkArraySize1);
sl@0	6853	UpdateRamInfo();
sl@0	6854	TInt freedPages = (gFreeRam - prevFreeBytes) >> gPageShift;
sl@0	6855	if (freedPages < 1)
sl@0	6856	{// Something went wrong as should have freed at least one page
sl@0	6857	CLEANUP(ResetDPCache());
sl@0	6858	TEST_FAIL;
sl@0	6859	}
sl@0	6860	TUint extraFreePages = freedPages - 1;
sl@0	6861
sl@0	6862	// Ensure that the RAM zone under test is full.
sl@0	6863	GetAllPageInfo();
sl@0	6864	if (gZoneUtilArray[index].iFreePages != 0)
sl@0	6865	{
sl@0	6866	CLEANUP(ResetDPCache());
sl@0	6867	TEST_FAIL;
sl@0	6868	}
sl@0	6869
sl@0	6870	// Allocate from the RAM zone which should force a DP cache
sl@0	6871	// page to be allocated.
sl@0	6872	GetOriginalPageCount();
sl@0	6873	TUint fixedAllocPages = 1 + extraFreePages;
sl@0	6874	r = Ldd.ZoneAllocDiscontiguous2(gZoneConfigArray[index].iZoneId, fixedAllocPages);
sl@0	6875
sl@0	6876	GetAllPageInfo();
sl@0	6877	if (r != KErrNone \|\|
sl@0	6878	gOriginalPageCountArray[index].iAllocFixed + fixedAllocPages != gZoneUtilArray[index].iAllocFixed)
sl@0	6879	{
sl@0	6880	test.Printf(_L("r %d index %d alloc 0x%x prevFixed 0x%x curFixed 0x%x\n"), r, index, fixedAllocPages,
sl@0	6881	gOriginalPageCountArray[index].iAllocFixed, gZoneUtilArray[index].iAllocFixed);
sl@0	6882	CLEANUP(Ldd.FreeAllFixedPages());
sl@0	6883	TEST_FAIL;
sl@0	6884	}
sl@0	6885	else
sl@0	6886	{
sl@0	6887	test.Printf(_L("Passed...\n"));
sl@0	6888	}
sl@0	6889	}
sl@0	6890	}
sl@0	6891	// This should cleanup any fixed pages allocated.
sl@0	6892	TestEnd();
sl@0	6893	}
sl@0	6894
sl@0	6895	test.Next(_L("Test8: Test Epoc::ZoneAllocPhysicalRam() return KErrNoMemory when appropriate"));
sl@0	6896	TestStart();
sl@0	6897	// Search for a RAM zone that has some immovable pages allocated into
sl@0	6898	// it but isn't totally full.
sl@0	6899	GetAllPageInfo();
sl@0	6900	zonesFound = EFalse;
sl@0	6901	for (index = 0; index < gZoneCount; index++)
sl@0	6902	{
sl@0	6903	if (gZoneUtilArray[index].iFreePages &&
sl@0	6904	(gZoneUtilArray[index].iAllocUnknown \|\| gZoneUtilArray[index].iAllocFixed))
sl@0	6905	{
sl@0	6906	zonesFound = ETrue;
sl@0	6907	break;
sl@0	6908	}
sl@0	6909	}
sl@0	6910	if (!zonesFound)
sl@0	6911	{
sl@0	6912	test.Printf(_L("Cannot find RAM zones to perform test, Skipping test step...\n"));
sl@0	6913	}
sl@0	6914	else
sl@0	6915	{
sl@0	6916	// Attempt to allocate the whole RAM zone.
sl@0	6917	r = Ldd.ZoneAllocDiscontiguous(gZoneConfigArray[index].iZoneId, gZoneUtilArray[index].iPhysPages);
sl@0	6918
sl@0	6919	if (r != KErrNoMemory)
sl@0	6920	{
sl@0	6921	test.Printf(_L("FAIL: r %d index %d\n"), r, index);
sl@0	6922	CLEANUP(Ldd.FreeAllFixedPages());
sl@0	6923	TEST_FAIL;
sl@0	6924	}
sl@0	6925	else
sl@0	6926	{
sl@0	6927	test.Printf(_L("Passed...\n"));
sl@0	6928	}
sl@0	6929	}
sl@0	6930	TestEnd();
sl@0	6931
sl@0	6932	test.Next(_L("Test9: Test Epoc::ZoneAllocPhysicalRam() moves the required number of movable pages"));
sl@0	6933	TestStart();
sl@0	6934	TUint allocFixedPages;
sl@0	6935	// Search for a RAM zone that has at least 2 movable pages allocated into it.
sl@0	6936	// Need 2 so that we can move one and leave one.
sl@0	6937	GetAllPageInfo();
sl@0	6938	zonesFound = EFalse;
sl@0	6939	for (index = 0; index < gZoneCount; index++)
sl@0	6940	{
sl@0	6941	if (gZoneUtilArray[index].iAllocMovable > 1)
sl@0	6942	{
sl@0	6943	// Only use this zone if the other RAM zones have enough free space for
sl@0	6944	// the movable page in this zone to be moved to.
sl@0	6945	TUint freeInOther = 0;
sl@0	6946	for (TUint i = 0; i < gZoneCount && !zonesFound; i++)
sl@0	6947	{
sl@0	6948	if (i != index)
sl@0	6949	{
sl@0	6950	freeInOther += gZoneUtilArray[i].iFreePages;
sl@0	6951	}
sl@0	6952	}
sl@0	6953	if (freeInOther >= gZoneUtilArray[index].iAllocMovable)
sl@0	6954	{
sl@0	6955	zonesFound = ETrue;
sl@0	6956	break;
sl@0	6957	}
sl@0	6958	}
sl@0	6959	}
sl@0	6960
sl@0	6961	if (!zonesFound)
sl@0	6962	{
sl@0	6963	test.Printf(_L("No suitable RAM zone could be found - Skipping...\n"));
sl@0	6964	goto skipTest9;
sl@0	6965	}
sl@0	6966
sl@0	6967	// Allocate up to one less than the RAM zone size. Do 2 stage fixed allocation
sl@0	6968	// to avoid kernel heap allocations spoiling test setup.
sl@0	6969	r = Ldd.AllocFixedArray(gZoneConfigArray[index].iPhysPages);
sl@0	6970	if (r != KErrNone)
sl@0	6971	{
sl@0	6972	test.Printf(_L("Not enough free RAM to perform test - Skipping...\n"));
sl@0	6973	goto skipTest9;
sl@0	6974	}
sl@0	6975
sl@0	6976	GetAllPageInfo();
sl@0	6977	if (gZoneUtilArray[index].iAllocMovable < 2)
sl@0	6978	{
sl@0	6979	test.Printf(_L("Expanding kernel heap for phys address array spoiled RAM zone - Skipping...\n"));
sl@0	6980	goto skipTest9;
sl@0	6981	}
sl@0	6982	allocFixedPages = gZoneUtilArray[index].iAllocMovable +
sl@0	6983	gZoneUtilArray[index].iAllocDiscardable +
sl@0	6984	gZoneUtilArray[index].iFreePages - 1;
sl@0	6985	r = Ldd.ZoneAllocDiscontiguous2(gZoneConfigArray[index].iZoneId, allocFixedPages);
sl@0	6986
sl@0	6987	if (r != KErrNone \|\| !gZoneUtilArray[index].iAllocMovable)
sl@0	6988	{
sl@0	6989	test.Printf(_L("Fixed not allocated or too many movable moved RAM zone ID%x\n"),
sl@0	6990	gZoneConfigArray[index].iZoneId);
sl@0	6991	CLEANUP(Ldd.FreeAllFixedPages());
sl@0	6992	TEST_FAIL;
sl@0	6993	}
sl@0	6994
sl@0	6995	skipTest9 :
sl@0	6996	// This will clean up any fixed pages allocated.
sl@0	6997	TestEnd();
sl@0	6998
sl@0	6999	delete[] zoneIdArray;
sl@0	7000
sl@0	7001	test.Next(_L("Test10: Test Epoc::ZoneAllocPhysicalRam() (Discontiguous) doesn't affect the allocation of movable pages"));
sl@0	7002	r = TestZoneAllocNoAffect(Z_ALLOC_DISC, BEST_MOVABLE);
sl@0	7003	if (r != KErrNone)
sl@0	7004	{
sl@0	7005	TEST_FAIL;
sl@0	7006	}
sl@0	7007
sl@0	7008	test.Next(_L("Test11: Test Epoc::ZoneAllocPhysicalRam() (Discontiguous) doesn't affect the allocation of discardable pages"));
sl@0	7009	r = TestZoneAllocNoAffect(Z_ALLOC_DISC, BEST_DISCARDABLE);
sl@0	7010	if (r != KErrNone)
sl@0	7011	{
sl@0	7012	TEST_FAIL;
sl@0	7013	}
sl@0	7014
sl@0	7015	test.End();
sl@0	7016	return KErrNone;
sl@0	7017	}
sl@0	7018
sl@0	7019
sl@0	7020	//
sl@0	7021	// TestFreeZone
sl@0	7022	//
sl@0	7023	//---------------------------------------------------------------------------------------------------------------------
sl@0	7024	//! @SYMTestCaseID KBASE-t_ramdefrag-0537
sl@0	7025	//! @SYMTestType CIT
sl@0	7026	//! @SYMTestCaseDesc Verifying the function Epoc::FreePhysicalRam()
sl@0	7027	//! @SYMPREQ PREQ308
sl@0	7028	//! @SYMTestPriority High
sl@0	7029	//! @SYMTestActions
sl@0	7030	//! 1. Allocate fixed pages and call function to free all fixed pages allocated.
sl@0	7031	//!
sl@0	7032	//! @SYMTestExpectedResults
sl@0	7033	//! 1. KErrNone
sl@0	7034	//---------------------------------------------------------------------------------------------------------------------
sl@0	7035	TInt TestFreeZone()
sl@0	7036	{
sl@0	7037	TInt r = 0;
sl@0	7038	TUint zoneID = 0;
sl@0	7039	test.Start(_L("Test1: Free allocated pages"));
sl@0	7040	TestStart();
sl@0	7041
sl@0	7042	TInt pages = 50;
sl@0	7043
sl@0	7044	GetAllPageInfo();
sl@0	7045	TUint index = gZoneCount - 1;
sl@0	7046	while (index > 0 &&
sl@0	7047	(gZoneUtilArray[index].iAllocFixed != 0 \|\|
sl@0	7048	gZoneUtilArray[index].iAllocUnknown != 0 \|\|
sl@0	7049	(TInt)gZoneUtilArray[index].iFreePages < pages))
sl@0	7050	{
sl@0	7051	-- index;
sl@0	7052	}
sl@0	7053	zoneID = gZoneConfigArray[index].iZoneId;
sl@0	7054
sl@0	7055	if (index == 0 &&
sl@0	7056	(gZoneUtilArray[index].iAllocFixed != 0 \|\|
sl@0	7057	gZoneUtilArray[index].iAllocUnknown != 0 \|\|
sl@0	7058	(TInt)gZoneUtilArray[index].iFreePages < pages))
sl@0	7059	{
sl@0	7060	test.Printf(_L("Cannot find zone to perform test, Skipping test step...\n"));
sl@0	7061	}
sl@0	7062	else
sl@0	7063	{
sl@0	7064	TESTDEBUG(test.Printf(_L("Allocating 0x%x pages to zone ID 0x%x\n"), pages, zoneID));
sl@0	7065	r = Ldd.ZoneAllocDiscontiguous(zoneID, pages);
sl@0	7066	GetAllPageInfo();
sl@0	7067
sl@0	7068	TESTDEBUG(test.Printf(_L("Freeing 0x%x fixed pages\n"), pages));
sl@0	7069	if (r == KErrNone)
sl@0	7070	{
sl@0	7071	r = Ldd.FreeZone(pages);
sl@0	7072	}
sl@0	7073	TESTDEBUG(test.Printf(_L("r = %d\n"), r));
sl@0	7074	if (r == KErrNone)
sl@0	7075	{
sl@0	7076	test.Printf(_L("Pass: Correct return value\n"));
sl@0	7077	}
sl@0	7078	else
sl@0	7079	{
sl@0	7080	test.Printf(_L("Fail: r = %d, expected = %d\n"), r, KErrNone);
sl@0	7081	TEST_FAIL;
sl@0	7082	}
sl@0	7083	}
sl@0	7084	TestEnd();
sl@0	7085
sl@0	7086	test.End();
sl@0	7087	return KErrNone;
sl@0	7088	}
sl@0	7089
sl@0	7090
sl@0	7091	//
sl@0	7092	// TestDefragSemMethod
sl@0	7093	//
sl@0	7094	//---------------------------------------------------------------------------------------------------------------------
sl@0	7095	//! @SYMTestCaseID KBASE-t_ramdefrag-0538
sl@0	7096	//! @SYMTestType CIT
sl@0	7097	//! @SYMTestCaseDesc Verifying the semaphore versions of the various defrag methods
sl@0	7098	//! @SYMPREQ PREQ308
sl@0	7099	//! @SYMTestPriority High
sl@0	7100	//! @SYMTestActions
sl@0	7101	//! 1. Fragment the memory. Following this, call the semaphore variation of DefragRam.
sl@0	7102	//! 2. Fragment the memory. Following this, call the semaphore variation of EmptyRamZone
sl@0	7103	//! 3. Fragment the memory. Following this, call the semaphore variation of ClaimRamZone
sl@0	7104	//!
sl@0	7105	//! @SYMTestExpectedResults
sl@0	7106	//! 1. 1 or more zones have been emptied
sl@0	7107	//! 2. Zone specified has been emptied
sl@0	7108	//! 3. Zone has been claimed
sl@0	7109	//---------------------------------------------------------------------------------------------------------------------
sl@0	7110	TInt TestDefragSemMethod()
sl@0	7111	{
sl@0	7112	TInt r = 0;
sl@0	7113
sl@0	7114	test.Start(_L("Test1: Call semaphore method of DefragRam"));
sl@0	7115	TestStart();
sl@0	7116
sl@0	7117	AllocMovable(gChunkArray1, gChunkArraySize1, KNumAllocChunks);
sl@0	7118	FreeMovable(gChunkArray1, gChunkArraySize1);
sl@0	7119
sl@0	7120	GetOriginalPageCount();
sl@0	7121	TBool genSucceed = CanGenSucceed();
sl@0	7122	r = Ldd.CallDefrag(DEFRAG_TYPE_GEN, DEFRAG_VER_SEM);
sl@0	7123
sl@0	7124
sl@0	7125	if (r != KErrNone \|\|(genSucceed && CheckZonesSwitchedOff() == EFalse))
sl@0	7126	{
sl@0	7127	test.Printf(_L("Fail: r = %d, or zones have not been swtiched off\n"), r);
sl@0	7128	CLEANUP(RemoveChunkAlloc(gChunkArray1, gChunkArraySize1));
sl@0	7129	TEST_FAIL;
sl@0	7130	}
sl@0	7131	else
sl@0	7132	{
sl@0	7133	test.Printf(_L("Passed...\n"));
sl@0	7134	}
sl@0	7135	RemoveChunkAlloc(gChunkArray1, gChunkArraySize1);
sl@0	7136	TestEnd();
sl@0	7137
sl@0	7138
sl@0	7139	test.Next(_L("Test2: Call semaphore method of EmptyRamZone"));
sl@0	7140	TestStart();
sl@0	7141
sl@0	7142	AllocMovable(gChunkArray1, gChunkArraySize1, KNumAllocChunks);
sl@0	7143	FreeMovable(gChunkArray1, gChunkArraySize1);
sl@0	7144
sl@0	7145	GetAllPageInfo();
sl@0	7146	TUint index = gZoneCount - 1;
sl@0	7147	while (index > 0 && (gZoneUtilArray[index].iAllocFixed != 0 \|\| gZoneUtilArray[index].iAllocUnknown != 0))
sl@0	7148	{
sl@0	7149	-- index;
sl@0	7150	}
sl@0	7151	TUint defragZoneID = gZoneConfigArray[index].iZoneId;
sl@0	7152
sl@0	7153	if (index == 0 && (gZoneUtilArray[index].iAllocFixed != 0 \|\| gZoneUtilArray[index].iAllocUnknown != 0))
sl@0	7154	{
sl@0	7155	test.Printf(_L("Cannot find zone to perform test, Skipping test step...\n"));
sl@0	7156	}
sl@0	7157	else
sl@0	7158	{
sl@0	7159	r = Ldd.CallDefrag(DEFRAG_TYPE_EMPTY, DEFRAG_VER_SEM, defragZoneID);
sl@0	7160
sl@0	7161	GetAllPageInfo();
sl@0	7162	TUint freeInOthers = gTotalPageCount.iFreePages - gZoneUtilArray[index].iFreePages;
sl@0	7163	if (freeInOthers && (r != KErrNone \|\| !CheckZoneIsOff(index)))
sl@0	7164	{
sl@0	7165	test.Printf(_L("Fail: r = %d, or zones has not been swtiched off\n"), r);
sl@0	7166	CLEANUP(RemoveChunkAlloc(gChunkArray1, gChunkArraySize1));
sl@0	7167	TEST_FAIL;
sl@0	7168	}
sl@0	7169	else
sl@0	7170	{
sl@0	7171	test.Printf(_L("Passed...\n"));
sl@0	7172	}
sl@0	7173	}
sl@0	7174	// This will free any allocated memory.
sl@0	7175	TestEnd();
sl@0	7176
sl@0	7177	test.Next(_L("Test3: Call semaphore method of ClaimRamZone"));
sl@0	7178	TestStart();
sl@0	7179
sl@0	7180	AllocMovable(gChunkArray1, gChunkArraySize1, KNumAllocChunks);
sl@0	7181	FreeMovable(gChunkArray1, gChunkArraySize1);
sl@0	7182
sl@0	7183	GetAllPageInfo();
sl@0	7184	index = gZoneCount - 2;
sl@0	7185	while (index > 0 && (gZoneUtilArray[index].iAllocFixed != 0 \|\| gZoneUtilArray[index].iAllocUnknown != 0))
sl@0	7186	{
sl@0	7187	-- index;
sl@0	7188	}
sl@0	7189	defragZoneID = gZoneConfigArray[index].iZoneId;
sl@0	7190
sl@0	7191	if (index == 0 && (gZoneUtilArray[index].iAllocFixed != 0 \|\| gZoneUtilArray[index].iAllocUnknown != 0))
sl@0	7192	{
sl@0	7193	test.Printf(_L("Cannot find zone to perform test, Skipping test step...\n"));
sl@0	7194	}
sl@0	7195	else
sl@0	7196	{
sl@0	7197	r = Ldd.CallDefrag(DEFRAG_TYPE_CLAIM, DEFRAG_VER_SEM, defragZoneID);
sl@0	7198
sl@0	7199	GetAllPageInfo();
sl@0	7200	TUint freeInOthers = gTotalPageCount.iFreePages - gZoneUtilArray[index].iFreePages;
sl@0	7201	if (CheckZoneIsOff(index) \|\|
sl@0	7202	(freeInOthers && ( r != KErrNone \|\|
sl@0	7203	gZoneUtilArray[index].iAllocFixed != gZoneConfigArray[index].iPhysPages)))
sl@0	7204	{
sl@0	7205	test.Printf(_L("Fail: r = %d, or zone ID 0x%x has not been claimed\n"), r, defragZoneID);
sl@0	7206	CLEANUP(RemoveChunkAlloc(gChunkArray1, gChunkArraySize1));
sl@0	7207	TEST_FAIL;
sl@0	7208	}
sl@0	7209	else
sl@0	7210	{
sl@0	7211	test.Printf(_L("Passed...\n"));
sl@0	7212	}
sl@0	7213
sl@0	7214	r = Ldd.FreeAllFixedPages();
sl@0	7215	}
sl@0	7216
sl@0	7217	RemoveChunkAlloc(gChunkArray1, gChunkArraySize1);
sl@0	7218	TestEnd();
sl@0	7219
sl@0	7220	test.End();
sl@0	7221	return KErrNone;
sl@0	7222
sl@0	7223	}
sl@0	7224
sl@0	7225
sl@0	7226	//
sl@0	7227	// TestDefragDfcMethod
sl@0	7228	//
sl@0	7229	//---------------------------------------------------------------------------------------------------------------------
sl@0	7230	//! @SYMTestCaseID KBASE-t_ramdefrag-0539
sl@0	7231	//! @SYMTestType CIT
sl@0	7232	//! @SYMTestCaseDesc Verifying the Dfc versions of the various defrag methods
sl@0	7233	//! @SYMPREQ PREQ308
sl@0	7234	//! @SYMTestPriority High
sl@0	7235	//! @SYMTestActions
sl@0	7236	//! 1. Fragment the memory. Following this, call the Dfc variation of DefragRam.
sl@0	7237	//! 2. Fragment the memory. Following this, call the Dfc variation of EmptyRamZone
sl@0	7238	//! 3. Fragment the memory. Following this, call the Dfc variation of ClaimRamZone
sl@0	7239	//!
sl@0	7240	//! @SYMTestExpectedResults
sl@0	7241	//! 1. 1 or more zones have been emptied
sl@0	7242	//! 2. Zone specified has been emptied
sl@0	7243	//! 3. Zone has been claimed
sl@0	7244	//---------------------------------------------------------------------------------------------------------------------
sl@0	7245	TInt TestDefragDfcMethod()
sl@0	7246	{
sl@0	7247	TInt r = 0;
sl@0	7248	TRequestStatus req;
sl@0	7249	test.Start(_L("Test1: Call Dfc method of DefragRam"));
sl@0	7250	TestStart();
sl@0	7251
sl@0	7252	GetAllPageInfo();
sl@0	7253
sl@0	7254	AllocMovable(gChunkArray1, gChunkArraySize1, KNumAllocChunks);
sl@0	7255	FreeMovable(gChunkArray1, gChunkArraySize1);
sl@0	7256
sl@0	7257	GetOriginalPageCount();
sl@0	7258	TBool genSucceed = CanGenSucceed();
sl@0	7259	r = Ldd.CallDefrag(DEFRAG_TYPE_GEN, DEFRAG_VER_DFC, 0, 0, -1, &req);
sl@0	7260	TESTDEBUG(test.Printf(_L("After queueing defrag r = %d\n"), r));
sl@0	7261	User::WaitForRequest(req);
sl@0	7262	r = req.Int();
sl@0	7263
sl@0	7264	if (r != KErrNone \|\| (genSucceed && CheckZonesSwitchedOff() == EFalse))
sl@0	7265	{
sl@0	7266	test.Printf(_L("Fail: r = %d, or zones have not been swtiched off\n"), r);
sl@0	7267	CLEANUP(RemoveChunkAlloc(gChunkArray1, gChunkArraySize1));
sl@0	7268	TEST_FAIL;
sl@0	7269	}
sl@0	7270	else
sl@0	7271	{
sl@0	7272	test.Printf(_L("Passed...\n"));
sl@0	7273	}
sl@0	7274	RemoveChunkAlloc(gChunkArray1, gChunkArraySize1);
sl@0	7275	TestEnd();
sl@0	7276
sl@0	7277
sl@0	7278	test.Next(_L("Test2: Call Dfc method of EmptyRamZone"));
sl@0	7279	TestStart();
sl@0	7280
sl@0	7281	AllocMovable(gChunkArray1, gChunkArraySize1, KNumAllocChunks);
sl@0	7282	FreeMovable(gChunkArray1, gChunkArraySize1);
sl@0	7283
sl@0	7284	GetAllPageInfo();
sl@0	7285	TUint index = gZoneCount - 1;
sl@0	7286	while (index > 0 &&
sl@0	7287	(gZoneUtilArray[index].iAllocMovable < 10 \|\|
sl@0	7288	gZoneUtilArray[index].iAllocFixed != 0 \|\|
sl@0	7289	gZoneUtilArray[index].iAllocUnknown != 0))
sl@0	7290	{
sl@0	7291	-- index;
sl@0	7292	}
sl@0	7293
sl@0	7294	TUint defragZoneID = gZoneConfigArray[index].iZoneId;
sl@0	7295	test.Printf(_L("zone ID = 0x%x\n"), defragZoneID);
sl@0	7296	if (index == 0 &&
sl@0	7297	(gZoneUtilArray[index].iAllocMovable < 10 \|\|
sl@0	7298	gZoneUtilArray[index].iAllocFixed != 0 \|\|
sl@0	7299	gZoneUtilArray[index].iAllocUnknown != 0))
sl@0	7300	{
sl@0	7301	test.Printf(_L("Cannot find zone to perform test, Skipping test step...\n"));
sl@0	7302	}
sl@0	7303	else
sl@0	7304	{
sl@0	7305	r = Ldd.CallDefrag(DEFRAG_TYPE_EMPTY, DEFRAG_VER_DFC, defragZoneID, 0, -1, &req);
sl@0	7306
sl@0	7307	User::WaitForRequest(req);
sl@0	7308	r = req.Int();
sl@0	7309
sl@0	7310	GetAllPageInfo();
sl@0	7311	TUint freeInOthers = gTotalPageCount.iFreePages - gZoneUtilArray[index].iFreePages;
sl@0	7312	if (freeInOthers && (r != KErrNone \|\| CheckZoneIsOff(index) == EFalse))
sl@0	7313	{
sl@0	7314	test.Printf(_L("Fail: r = %d, or zones have not been swtiched off\n"), r);
sl@0	7315	CLEANUP(RemoveChunkAlloc(gChunkArray1, gChunkArraySize1));
sl@0	7316	TEST_FAIL;
sl@0	7317	}
sl@0	7318	else
sl@0	7319	{
sl@0	7320	test.Printf(_L("Passed...\n"));
sl@0	7321	}
sl@0	7322	}
sl@0	7323	// This will free any allocated memory
sl@0	7324	TestEnd();
sl@0	7325
sl@0	7326
sl@0	7327	test.Next(_L("Test3: Call Dfc method of ClaimRamZone"));
sl@0	7328	TestStart();
sl@0	7329
sl@0	7330	AllocMovable(gChunkArray1, gChunkArraySize1, KNumAllocChunks);
sl@0	7331	FreeMovable(gChunkArray1, gChunkArraySize1);
sl@0	7332
sl@0	7333	GetAllPageInfo();
sl@0	7334	index = gZoneCount - 1;
sl@0	7335	while (index > 0 && (gZoneUtilArray[index].iAllocFixed != 0 \|\| gZoneUtilArray[index].iAllocUnknown != 0))
sl@0	7336	{
sl@0	7337	-- index;
sl@0	7338	}
sl@0	7339	defragZoneID = gZoneConfigArray[index].iZoneId;
sl@0	7340
sl@0	7341	if (index == 0 && (gZoneUtilArray[index].iAllocFixed != 0 \|\| gZoneUtilArray[index].iAllocUnknown != 0))
sl@0	7342	{
sl@0	7343	test.Printf(_L("Cannot find zone to perform test, Skipping test step...\n"));
sl@0	7344	}
sl@0	7345	else
sl@0	7346	{
sl@0	7347	r = Ldd.CallDefrag(DEFRAG_TYPE_CLAIM, DEFRAG_VER_DFC, defragZoneID, 0, -1, &req);
sl@0	7348	User::WaitForRequest(req);
sl@0	7349	r = req.Int();
sl@0	7350
sl@0	7351	GetAllPageInfo();
sl@0	7352	TUint freeInOthers = gTotalPageCount.iFreePages - gZoneUtilArray[index].iFreePages;
sl@0	7353	if (CheckZoneIsOff(index) \|\|
sl@0	7354	(freeInOthers && (r != KErrNone \|\|
sl@0	7355	gZoneUtilArray[index].iAllocFixed != gZoneConfigArray[index].iPhysPages)))
sl@0	7356	{
sl@0	7357	test.Printf(_L("Fail: r = %d, or zone ID 0x%x has not been claimed\n"), r, defragZoneID);
sl@0	7358	CLEANUP(RemoveChunkAlloc(gChunkArray1, gChunkArraySize1));
sl@0	7359	if (r == KErrNone)
sl@0	7360	{
sl@0	7361	CLEANUP(Ldd.FreeFromAddr( gZoneUtilArray[index].iAllocFixed,
sl@0	7362	gZoneConfigArray[index].iPhysBase));
sl@0	7363	}
sl@0	7364	TEST_FAIL;
sl@0	7365	}
sl@0	7366	else
sl@0	7367	{
sl@0	7368	test.Printf(_L("Passed...\n"));
sl@0	7369	}
sl@0	7370
sl@0	7371	if (r == KErrNone)
sl@0	7372	{
sl@0	7373	Ldd.FreeFromAddr( gZoneUtilArray[index].iAllocFixed,
sl@0	7374	gZoneConfigArray[index].iPhysBase);
sl@0	7375	}
sl@0	7376	}
sl@0	7377	RemoveChunkAlloc(gChunkArray1, gChunkArraySize1);
sl@0	7378	TestEnd();
sl@0	7379
sl@0	7380	test.End();
sl@0	7381	return KErrNone;
sl@0	7382	}
sl@0	7383
sl@0	7384
sl@0	7385	//
sl@0	7386	// TestPriorities
sl@0	7387	//
sl@0	7388	//---------------------------------------------------------------------------------------------------------------------
sl@0	7389	//! @SYMTestCaseID KBASE-t_ramdefrag-0540
sl@0	7390	//! @SYMTestType CIT
sl@0	7391	//! @SYMTestCaseDesc Verifying the priorities of the defrag methods
sl@0	7392	//! @SYMPREQ PREQ308
sl@0	7393	//! @SYMTestPriority High
sl@0	7394	//! @SYMTestActions
sl@0	7395	//! 1. Call DefragRam with a lower invalid priority value, e.g. -2
sl@0	7396	//! 2. Call DefragRam with a lower invalid priority value, e.g. 100
sl@0	7397	//! 3. Queue three asynchronous defrags using the Dfc method:
sl@0	7398	//! a. First one with the lowest priority, this will start the straight away
sl@0	7399	//! and will busy the defrag method, causing any other defrag requests to
sl@0	7400	//! be queued.
sl@0	7401	//! b. Queue a defrag with a relatively low priority
sl@0	7402	//! c. Queue a defrag with a higher priority than the one queued in (b)
sl@0	7403	//! Record the order in which the defrags are completed
sl@0	7404	//!
sl@0	7405	//! @SYMTestExpectedResults
sl@0	7406	//! 1. KErrArgument
sl@0	7407	//! 2. KErrArgument
sl@0	7408	//! 3. (a) will complete first as it started straight away.
sl@0	7409	//! (b) and (c) were both queued whilst (a) was running,
sl@0	7410	//! however as (c) has a higher priority, it will complete first -
sl@0	7411	//! therefore the order returned would be "a,c,b"
sl@0	7412	//---------------------------------------------------------------------------------------------------------------------
sl@0	7413	TInt TestPriorities()
sl@0	7414	{
sl@0	7415	test.Start(_L("Test1: Call defrag with an invalid lower priority"));
sl@0	7416	TestStart();
sl@0	7417
sl@0	7418	TInt r = Ldd.CallDefrag(DEFRAG_TYPE_GEN, DEFRAG_VER_SYNC, 0, 0, -2);
sl@0	7419	TESTDEBUG(test.Printf(_L("r = %d\n"), r));
sl@0	7420	if (r != KErrArgument)
sl@0	7421	{
sl@0	7422	test.Printf(_L("Fail: r = %d, not expected\n"), r);
sl@0	7423	TEST_FAIL;
sl@0	7424	}
sl@0	7425	else
sl@0	7426	{
sl@0	7427	test.Printf(_L("Passed...\n"));
sl@0	7428	}
sl@0	7429
sl@0	7430	TestEnd();
sl@0	7431
sl@0	7432	test.Next(_L("Test2: Call defrag with an invalid higher priority"));
sl@0	7433	TestStart();
sl@0	7434
sl@0	7435	r = Ldd.CallDefrag(DEFRAG_TYPE_GEN, DEFRAG_VER_SYNC, 0, 0, 100);
sl@0	7436	TESTDEBUG(test.Printf(_L("r = %d\n"), r));
sl@0	7437	if (r != KErrArgument)
sl@0	7438	{
sl@0	7439	test.Printf(_L("Fail: r = %d, not expected\n"), r);
sl@0	7440	TEST_FAIL;
sl@0	7441	}
sl@0	7442	else
sl@0	7443	{
sl@0	7444	test.Printf(_L("Passed...\n"));
sl@0	7445	}
sl@0	7446	TestEnd();
sl@0	7447
sl@0	7448	if (UserSvr::HalFunction(EHalGroupKernel, EKernelHalNumLogicalCpus, 0, 0) == 1)
sl@0	7449	{// Only test priorities on single core system as this test is not smp safe.
sl@0	7450	test.Next(_L("Test3: Call Dfc method of EmptyRamZone to test priorities"));
sl@0	7451	TestStart();
sl@0	7452
sl@0	7453
sl@0	7454	TRequestStatus req;
sl@0	7455	TRequestStatus req2;
sl@0	7456	TRequestStatus req3;
sl@0	7457	TInt expectedOrder = 132; // Priorities set in Device driver
sl@0	7458
sl@0	7459	AllocMovable(gChunkArray1, gChunkArraySize1, KNumAllocChunks);
sl@0	7460	FreeMovable(gChunkArray1, gChunkArraySize1);
sl@0	7461
sl@0	7462	TUint index = (gZoneCount + 1) / 2;
sl@0	7463	TUint defragZoneID = gZoneConfigArray[index].iZoneId;
sl@0	7464
sl@0	7465	r = Ldd.CheckPriorities(DEFRAG_TYPE_EMPTY, defragZoneID, &req, &req2, &req3);
sl@0	7466
sl@0	7467	User::WaitForRequest(req);
sl@0	7468	User::WaitForRequest(req2);
sl@0	7469	User::WaitForRequest(req3);
sl@0	7470
sl@0	7471	TInt order = Ldd.GetDefragOrder();
sl@0	7472	if (order != expectedOrder)
sl@0	7473	{
sl@0	7474	test.Printf(_L("Fail: order = %d. expected = %d\n"), order, expectedOrder);
sl@0	7475	CLEANUP(RemoveChunkAlloc(gChunkArray1, gChunkArraySize1));
sl@0	7476	TEST_FAIL;
sl@0	7477	}
sl@0	7478	else
sl@0	7479	{
sl@0	7480	test.Printf(_L("Passed...\n"));
sl@0	7481	}
sl@0	7482	// This will free any allocated memory
sl@0	7483	TestEnd();
sl@0	7484	}
sl@0	7485
sl@0	7486	test.End();
sl@0	7487	return KErrNone;
sl@0	7488	}
sl@0	7489
sl@0	7490
sl@0	7491	//
sl@0	7492	// TestFlags
sl@0	7493	//
sl@0	7494	//---------------------------------------------------------------------------------------------------------------------
sl@0	7495	//! @SYMTestCaseID KBASE-t_ramdefrag-0541
sl@0	7496	//! @SYMTestType CIT
sl@0	7497	//! @SYMTestCaseDesc Verifying that when certain flags are set,
sl@0	7498	//! only certain types of pages can be allocated to the zone.
sl@0	7499	//! @SYMPREQ PREQ308
sl@0	7500	//! @SYMTestPriority High
sl@0	7501	//! @SYMTestActions
sl@0	7502	//! 1. Set the NoFixed flag in a zone and allocate movable pages
sl@0	7503	//! 2. Set the NoFixed flag in a zone and allocate fixed pages
sl@0	7504	//! 3. Set the NoFixed flag in a zone and allocate discardable pages
sl@0	7505	//! 4. Set the NoFixed flag in a zone and allocate fixed pages to that zone using Epoc::ZoneAllocPhysicalRam()
sl@0	7506	//! 5. Set the NoFixed flag in a zone and allocate fixed pages by calling TRamDefragRequest::ClaimRamZone()
sl@0	7507	//! 6. Set the NoMovable flag in a zone and allocate movable pages
sl@0	7508	//! 7. Set the NoMovable flag in a zone and allocate fixed pages
sl@0	7509	//! 8. Set the NoMovable flag in a zone and allocate discardable pages
sl@0	7510	//! 9. Set the NoDiscardable flag in a zone and allocate movable pages
sl@0	7511	//! 10. Set the NoDiscardable flag in a zone and allocate fixed pages
sl@0	7512	//! 11. Set the NoDiscardable flag in a zone and allocate discardable pages
sl@0	7513	//! 12. Set the OnlyDiscardable flag in a zone and allocate movable pages
sl@0	7514	//! 13. Set the OnlyDiscardable flag in a zone and allocate fixed pages
sl@0	7515	//! 14. Set the OnlyDiscardable flag in a zone and allocate discardable pages
sl@0	7516	//! 15. Set the OnlyDiscardable flag in a zone and allocate fixed pages to that zone using Epoc::ZoneAllocPhysicalRam()
sl@0	7517	//! 16. Set the OnlyDiscardable flag in a zone and allocate fixed pages by calling TRamDefragRequest::ClaimRamZone()
sl@0	7518	//! 17. Set the NoFurtherAlloc flag in a zone and allocate movable pages
sl@0	7519	//! 18. Set the NoFurtherAlloc flag in a zone and allocate fixed pages
sl@0	7520	//! 19. Set the NoFurtherAlloc flag in a zone and allocate discardable pages
sl@0	7521	//! 20. Set the NoFurtherAlloc flag in a zone and allocate fixed pages to that zone using Epoc::ZoneAllocPhysicalRam()
sl@0	7522	//! 21. Set the NoFurtherAlloc flag in a zone and allocate fixed pages by calling TRamDefragRequest::ClaimRamZone()
sl@0	7523	//! 22. Set up memory so that the least preferable RAM zone has movable pages + discardable pages > free pages in the most
sl@0	7524	//! preferable zone. Ensure that the discardable pages cannot be discarded and so must be moved. Now set the flag on
sl@0	7525	//! all zones barring the most preferable zone to KRamZoneFlagNoMovable, ensuring that most pref has no flags set.
sl@0	7526	//! Following this call a general defrag.
sl@0	7527	//! 23. Set up memory so that the least preferable RAM zone has movable pages + discardable pages > free pages in the most
sl@0	7528	//! preferable RAM zone. Ensure that the discardable pages cannot be discarded and so must be moved.
sl@0	7529	//! Now set the flag on all zones barring the most preferable zone to KRamZoneFlagNoDiscard, ensuring that
sl@0	7530	//! most preferable RAM zone has no flags set. Following this call a general defrag.
sl@0	7531	//! 24. Set up memory so that the least preferable RAM zone has movable pages and discardable pages. Set all the zone
sl@0	7532	//! flags to KRamZoneFlagNoMovable. Following this call a general defrag.
sl@0	7533	//!
sl@0	7534	//! @SYMTestExpectedResults
sl@0	7535	//! 1. Movable pages are allocated and no fixed pages allocated
sl@0	7536	//! 2. No fixed pages have been allocated
sl@0	7537	//! 3. Discardable pages are allocated and no fixed pages allocated
sl@0	7538	//! 4. KErrNone, flag is ignored with zone specific allocation
sl@0	7539	//! 5. KErrNone, flag is ignored when claiming a zone
sl@0	7540	//! 6. No movable pages have been allocated
sl@0	7541	//! 7. Fixed pages allocated, no movable allocated
sl@0	7542	//! 8. Discardable pages allocated, no movable pages allocated
sl@0	7543	//! 9. Movable pages allocated, no discardable pages allocated
sl@0	7544	//! 10. Fixed pages allocated, no discardable allocated
sl@0	7545	//! 11. No discardable pages allocated
sl@0	7546	//! 12. No movable pages allocated
sl@0	7547	//! 13. No fixed pages allocated
sl@0	7548	//! 14. Discardable pages allocated, no movable or fixed allocated
sl@0	7549	//! 15. KErrNone, flag is ignored with zone specific allocation
sl@0	7550	//! 16. KErrNone, flag is ignored when claiming a zone
sl@0	7551	//! 17. No moving, fixed or discardable pages allocated
sl@0	7552	//! 18. No moving, fixed or discardable pages allocated
sl@0	7553	//! 19. No moving, fixed or discardable pages allocated
sl@0	7554	//! 20. KErrNoMemory, flag is obeyed with zone specific allocation
sl@0	7555	//! 21. KErrNone, flag is ignored when claiming a zone
sl@0	7556	//! 22. Movable pages moved to the most preferable zone, discardable pages moved to next most preferable zone
sl@0	7557	//! 23. Discardable pages moved to most preferable zone, movable pages moved to next next most preferable zone
sl@0	7558	//! 24. No pages are moved from the least preferable zone zone
sl@0	7559	//---------------------------------------------------------------------------------------------------------------------
sl@0	7560	TInt TestFlags()
sl@0	7561	{
sl@0	7562	TInt r = 0;
sl@0	7563	TUint zoneDefragID = 0;
sl@0	7564
sl@0	7565	test.Start(_L("Test1: No Fixed Flag, Alloc Movable"));
sl@0	7566	TestStart();
sl@0	7567
sl@0	7568	TInt index = GetBestZone(BEST_MOVABLE);
sl@0	7569
sl@0	7570	if (index == KErrNotFound)
sl@0	7571	{
sl@0	7572	test.Printf(_L("Cannot find zone to perform test - Skipping test step...\n"));
sl@0	7573	}
sl@0	7574	else
sl@0	7575	{
sl@0	7576	zoneDefragID = gZoneConfigArray[index].iZoneId;
sl@0	7577	if (SpaceAvailForPageTables(index, KFillAllMovable))
sl@0	7578	{
sl@0	7579	GetOriginalPageCount();
sl@0	7580	r = Ldd.SetZoneFlag(zoneDefragID, gZoneConfigArray[index].iFlags, NO_FIXED_FLAG);
sl@0	7581	test_KErrNone(r);
sl@0	7582
sl@0	7583	AllocMovable(gChunkArray1, gChunkArraySize1, KFillAllMovable);
sl@0	7584	GetAllPageInfo();
sl@0	7585	if (gZoneUtilArray[index].iAllocMovable == gOriginalPageCountArray[index].iAllocMovable \|\|
sl@0	7586	gZoneUtilArray[index].iAllocFixed > gOriginalPageCountArray[index].iAllocFixed)
sl@0	7587	{
sl@0	7588	test.Printf(_L("Fail: Either fixed pages have been allocated or movable pages have not been allocated to zone ID %x\n"), gZoneConfigArray[index].iZoneId);
sl@0	7589	CLEANUP(RemoveChunkAlloc(gChunkArray1, gChunkArraySize1));
sl@0	7590	TEST_FAIL;
sl@0	7591	}
sl@0	7592	else
sl@0	7593	{
sl@0	7594	test.Printf(_L("Passed...\n"));
sl@0	7595	}
sl@0	7596	}
sl@0	7597	else
sl@0	7598	{
sl@0	7599	test.Printf(_L("Skipping...\n"));
sl@0	7600	}
sl@0	7601	}
sl@0	7602	TestEnd();
sl@0	7603
sl@0	7604
sl@0	7605	test.Next(_L("Test2: No Fixed Flag, Alloc Fixed"));
sl@0	7606	TestStart();
sl@0	7607
sl@0	7608	if(gPagedRom)
sl@0	7609	{
sl@0	7610	r = DPTest::SetCacheSize(gOriginalMinCacheSize, gOriginalMinCacheSize);
sl@0	7611	test_KErrNone(r);
sl@0	7612	}
sl@0	7613
sl@0	7614	// find a zone that has free pages in it to block it
sl@0	7615	GetAllPageInfo();
sl@0	7616	TUint i = 0;
sl@0	7617	for (; i < gZoneCount; i++)
sl@0	7618	{
sl@0	7619	if (gZoneUtilArray[i].iFreePages > 0)
sl@0	7620	{
sl@0	7621	index = i;
sl@0	7622	break;
sl@0	7623	}
sl@0	7624	}
sl@0	7625
sl@0	7626	if (i == gZoneCount)
sl@0	7627	{
sl@0	7628	test.Printf(_L("Cannot find zone to perform test - Skipping test step...\n"));
sl@0	7629	}
sl@0	7630	else
sl@0	7631	{
sl@0	7632	zoneDefragID = gZoneConfigArray[index].iZoneId;
sl@0	7633
sl@0	7634	r = Ldd.SetZoneFlag(zoneDefragID, gZoneConfigArray[index].iFlags, NO_FIXED_FLAG);
sl@0	7635	test_KErrNone(r);
sl@0	7636
sl@0	7637	GetOriginalPageCount();
sl@0	7638	r = Ldd.AllocateFixed(FILL_ALL_FIXED);
sl@0	7639
sl@0	7640	GetAllPageInfo();
sl@0	7641	// Ensure that either zone does not contain extra fixed pages
sl@0	7642	if (gZoneUtilArray[index].iAllocFixed > gOriginalPageCountArray[index].iAllocFixed)
sl@0	7643	{
sl@0	7644	test.Printf(_L("Fail: Fixed pages have been allocated into the zone ID 0x%x r = %d\n"), zoneDefragID, r);
sl@0	7645	CLEANUP(Ldd.FreeAllFixedPages());
sl@0	7646	TEST_FAIL;
sl@0	7647	}
sl@0	7648	else
sl@0	7649	{
sl@0	7650	test.Printf(_L("Passed...\n"));
sl@0	7651	}
sl@0	7652	}
sl@0	7653	TestEnd();
sl@0	7654
sl@0	7655
sl@0	7656	test.Next(_L("Test3: No Fixed Flag, Alloc Discardable"));
sl@0	7657	TestStart();
sl@0	7658	if (gPagedRom)
sl@0	7659	{
sl@0	7660	index = GetBestZone(BEST_DISCARDABLE);
sl@0	7661
sl@0	7662	if (index == KErrNotFound)
sl@0	7663	{
sl@0	7664	test.Printf(_L("Cannot find zone to perform test - Skipping test step...\n"));
sl@0	7665	}
sl@0	7666	else
sl@0	7667	{
sl@0	7668	zoneDefragID = gZoneConfigArray[index].iZoneId;
sl@0	7669	GetOriginalPageCount();
sl@0	7670
sl@0	7671	r = Ldd.SetZoneFlag(zoneDefragID, gZoneConfigArray[index].iFlags, NO_FIXED_FLAG);
sl@0	7672	test_KErrNone(r);
sl@0	7673
sl@0	7674	UpdateRamInfo();
sl@0	7675	TInt discardablePages;
sl@0	7676	r = AllocDiscardable(discardablePages);
sl@0	7677	if (r != KErrNone)
sl@0	7678	{
sl@0	7679	test.Printf(_L("r = %d, expected = %d\n"), r, KErrNone);
sl@0	7680	TEST_FAIL;
sl@0	7681	}
sl@0	7682
sl@0	7683	GetAllPageInfo();
sl@0	7684	if (gZoneUtilArray[index].iAllocFixed > gOriginalPageCountArray[index].iAllocFixed)
sl@0	7685	{
sl@0	7686	test.Printf(_L("Fail: Fixed pages have been allocated\n"));
sl@0	7687	CLEANUP(ResetDPCache());
sl@0	7688	TEST_FAIL;
sl@0	7689	}
sl@0	7690	else
sl@0	7691	{
sl@0	7692	test.Printf(_L("Passed...\n"));
sl@0	7693	}
sl@0	7694	}
sl@0	7695	}
sl@0	7696	else
sl@0	7697	{
sl@0	7698	test.Printf(_L("Not a paged ROM - Skipping test step\n"));
sl@0	7699	}
sl@0	7700	TestEnd();
sl@0	7701
sl@0	7702	test.Next(_L("Test4: No Fixed Flag, Alloc Fixed using ZoneAllocPhyicalRam"));
sl@0	7703	TestStart();
sl@0	7704
sl@0	7705	index = GetBestZone(BEST_FIXED);
sl@0	7706
sl@0	7707	if (index == KErrNotFound)
sl@0	7708	{
sl@0	7709	test.Printf(_L("Cannot find zone to perform test - Skipping test step...\n"));
sl@0	7710	}
sl@0	7711	else
sl@0	7712	{
sl@0	7713	zoneDefragID = gZoneConfigArray[index].iZoneId;
sl@0	7714
sl@0	7715	GetOriginalPageCount();
sl@0	7716	r = Ldd.SetZoneFlag(zoneDefragID, gZoneConfigArray[index].iFlags, NO_FIXED_FLAG);
sl@0	7717	test_KErrNone(r);
sl@0	7718
sl@0	7719	// Just need to try and allocate one page
sl@0	7720	r = Ldd.ZoneAllocDiscontiguous(zoneDefragID, 1);
sl@0	7721
sl@0	7722	GetAllPageInfo();
sl@0	7723	if (r != KErrNone)
sl@0	7724	{
sl@0	7725	test.Printf(_L("Fail: Fixed pages have not been allocated into the zone\n"));
sl@0	7726	CLEANUP(Ldd.FreeAllFixedPages());
sl@0	7727	TEST_FAIL;
sl@0	7728	}
sl@0	7729	else
sl@0	7730	{
sl@0	7731	test.Printf(_L("Passed...\n"));
sl@0	7732	}
sl@0	7733	}
sl@0	7734	TestEnd();
sl@0	7735
sl@0	7736	test.Next(_L("Test5: No Fixed Flag, Alloc Fixed by attempting to claim zone"));
sl@0	7737	TestStart();
sl@0	7738
sl@0	7739	GetAllPageInfo();
sl@0	7740	index = 0;
sl@0	7741	while ((TUint)index < gZoneCount && (gZoneUtilArray[index].iAllocFixed != 0 \|\| gZoneUtilArray[index].iAllocUnknown != 0))
sl@0	7742	{
sl@0	7743	index++;
sl@0	7744	}
sl@0	7745
sl@0	7746	if ((TUint)index == gZoneCount)
sl@0	7747	{
sl@0	7748	test.Printf(_L("Cannot find zone to perform test - Skipping test step...\n"));
sl@0	7749	}
sl@0	7750	else
sl@0	7751	{
sl@0	7752	zoneDefragID = gZoneConfigArray[index].iZoneId;
sl@0	7753	r = Ldd.SetZoneFlag(zoneDefragID, gZoneConfigArray[index].iFlags, NO_FIXED_FLAG);
sl@0	7754	test_KErrNone(r);
sl@0	7755
sl@0	7756	r = Ldd.CallDefrag(DEFRAG_TYPE_CLAIM, DEFRAG_VER_SYNC, zoneDefragID);
sl@0	7757	GetAllPageInfo();
sl@0	7758	TUint freeInOthers = gTotalPageCount.iFreePages - gZoneUtilArray[index].iFreePages;
sl@0	7759	if (freeInOthers && r != KErrNone)
sl@0	7760	{
sl@0	7761	test.Printf(_L("Fail: Claim zone ID 0x%x was unsuccessful, r = %d\n"), zoneDefragID, r);
sl@0	7762	TEST_FAIL;
sl@0	7763	}
sl@0	7764	else
sl@0	7765	{
sl@0	7766	test.Printf(_L("Passed...\n"));
sl@0	7767	}
sl@0	7768	}
sl@0	7769	TestEnd();
sl@0	7770
sl@0	7771
sl@0	7772
sl@0	7773	//------------------------------------------------------------
sl@0	7774	test.Next(_L("Test6: No Movable Flag, Alloc Movable"));
sl@0	7775	TestStart();
sl@0	7776
sl@0	7777	index = GetBestZone(BEST_MOVABLE);
sl@0	7778
sl@0	7779	if (index == KErrNotFound)
sl@0	7780	{
sl@0	7781	test.Printf(_L("Cannot find zone to perform test - Skipping test step...\n"));
sl@0	7782	}
sl@0	7783	else
sl@0	7784	{
sl@0	7785	zoneDefragID = gZoneConfigArray[index].iZoneId;
sl@0	7786
sl@0	7787	GetOriginalPageCount();
sl@0	7788	r = Ldd.SetZoneFlag(zoneDefragID, gZoneConfigArray[index].iFlags, NO_MOVE_FLAG);
sl@0	7789	test_KErrNone(r);
sl@0	7790
sl@0	7791	AllocMovable(gChunkArray1, gChunkArraySize1, KFillAllMovable, KChunkDefaultSize, EFalse);
sl@0	7792
sl@0	7793	GetAllPageInfo();
sl@0	7794	if (gZoneUtilArray[index].iAllocMovable > gOriginalPageCountArray[index].iAllocMovable)
sl@0	7795	{
sl@0	7796	test.Printf(_L("Fail: Movable pages have been allocated in the zone\n"));
sl@0	7797	CLEANUP(RemoveChunkAlloc(gChunkArray1, gChunkArraySize1));
sl@0	7798	TEST_FAIL;
sl@0	7799	}
sl@0	7800	else
sl@0	7801	{
sl@0	7802	test.Printf(_L("Passed...\n"));
sl@0	7803	}
sl@0	7804	}
sl@0	7805	TestEnd();
sl@0	7806
sl@0	7807
sl@0	7808	test.Next(_L("Test7: No Movable Flag, Alloc Fixed"));
sl@0	7809	TestStart();
sl@0	7810
sl@0	7811	if(gPagedRom)
sl@0	7812	{
sl@0	7813	r = DPTest::SetCacheSize(gOriginalMinCacheSize, gOriginalMinCacheSize);
sl@0	7814	test_KErrNone(r);
sl@0	7815	}
sl@0	7816
sl@0	7817	index = GetBestZone(BEST_FIXED);
sl@0	7818
sl@0	7819	if (index == KErrNotFound)
sl@0	7820	{
sl@0	7821	test.Printf(_L("Cannot find zone to perform test - Skipping test step...\n"));
sl@0	7822	}
sl@0	7823	else
sl@0	7824	{
sl@0	7825	zoneDefragID = gZoneConfigArray[index].iZoneId;
sl@0	7826
sl@0	7827	r = Ldd.SetZoneFlag(zoneDefragID, gZoneConfigArray[index].iFlags, NO_MOVE_FLAG);
sl@0	7828	test_KErrNone(r);
sl@0	7829
sl@0	7830	GetOriginalPageCount();
sl@0	7831	// Fill up all of RAM with fixed pages.
sl@0	7832	r = Ldd.AllocateFixed(FILL_ALL_FIXED);
sl@0	7833	test.Printf(_L("r = %d\n"), r);
sl@0	7834
sl@0	7835	GetAllPageInfo();
sl@0	7836	if (gZoneUtilArray[index].iAllocMovable > gOriginalPageCountArray[index].iAllocMovable \|\|
sl@0	7837	gZoneUtilArray[index].iAllocFixed <= gOriginalPageCountArray[index].iAllocFixed)
sl@0	7838	{
sl@0	7839	test.Printf(_L("Fail: orig mov 0x%x fix 0x%x current mov 0x%x fix 0x%x\n"), gOriginalPageCountArray[index].iAllocMovable,
sl@0	7840	gOriginalPageCountArray[index].iAllocFixed, gZoneUtilArray[index].iAllocMovable, gZoneUtilArray[index].iAllocFixed);
sl@0	7841	CLEANUP(Ldd.FreeAllFixedPages());
sl@0	7842	TEST_FAIL;
sl@0	7843	}
sl@0	7844	else
sl@0	7845	{
sl@0	7846	test.Printf(_L("Passed...\n"));
sl@0	7847	}
sl@0	7848	}
sl@0	7849	TestEnd();
sl@0	7850
sl@0	7851
sl@0	7852	test.Next(_L("Test8: No Movable Flag, Alloc Discardable"));
sl@0	7853	TestStart();
sl@0	7854	if (gPagedRom)
sl@0	7855	{
sl@0	7856	index = GetBestZone(BEST_DISCARDABLE);
sl@0	7857
sl@0	7858	if (index == KErrNotFound)
sl@0	7859	{
sl@0	7860	test.Printf(_L("Cannot find zone to perform test - Skipping test step...\n"));
sl@0	7861	}
sl@0	7862	else
sl@0	7863	{
sl@0	7864	zoneDefragID = gZoneConfigArray[index].iZoneId;
sl@0	7865
sl@0	7866	GetOriginalPageCount();
sl@0	7867	r = Ldd.SetZoneFlag(zoneDefragID, gZoneConfigArray[index].iFlags, NO_MOVE_FLAG);
sl@0	7868	test_KErrNone(r)
sl@0	7869	UpdateRamInfo();
sl@0	7870	TInt discardablePages;
sl@0	7871	r = AllocDiscardable(discardablePages);
sl@0	7872	if (r != KErrNone)
sl@0	7873	{
sl@0	7874	test.Printf(_L("r = %d, expected = %d\n"), r, KErrNone);
sl@0	7875	TEST_FAIL;
sl@0	7876	}
sl@0	7877
sl@0	7878	GetAllPageInfo();
sl@0	7879	if (gZoneUtilArray[index].iAllocMovable > gOriginalPageCountArray[index].iAllocMovable)
sl@0	7880	{
sl@0	7881	test.Printf(_L("Fail: Movable pages have been allocated into the zone \n"));
sl@0	7882	CLEANUP(ResetDPCache());
sl@0	7883	TEST_FAIL;
sl@0	7884	}
sl@0	7885	else
sl@0	7886	{
sl@0	7887	test.Printf(_L("Passed...\n"));
sl@0	7888	}
sl@0	7889	}
sl@0	7890	}
sl@0	7891	else
sl@0	7892	{
sl@0	7893	test.Printf(_L("Not a paged ROM - Skipping test step\n"));
sl@0	7894	}
sl@0	7895	TestEnd();
sl@0	7896
sl@0	7897	//-----------------------------------------------------------------------------------------------
sl@0	7898
sl@0	7899	test.Next(_L("Test9: No Discardable Flag, Alloc Movable"));
sl@0	7900	TestStart();
sl@0	7901
sl@0	7902	index = GetBestZone(BEST_MOVABLE);
sl@0	7903
sl@0	7904	if (index == KErrNotFound)
sl@0	7905	{
sl@0	7906	test.Printf(_L("Cannot find zone to perform test - Skipping test step...\n"));
sl@0	7907	}
sl@0	7908	else
sl@0	7909	{
sl@0	7910	zoneDefragID = gZoneConfigArray[index].iZoneId;
sl@0	7911
sl@0	7912	GetOriginalPageCount();
sl@0	7913	r = Ldd.SetZoneFlag(zoneDefragID, gZoneConfigArray[index].iFlags, NO_DISCARD_FLAG);
sl@0	7914	test_KErrNone(r);
sl@0	7915
sl@0	7916	AllocMovable(gChunkArray1, gChunkArraySize1, KFillAllMovable);
sl@0	7917	GetAllPageInfo();
sl@0	7918
sl@0	7919	if (gZoneUtilArray[index].iAllocDiscardable > gOriginalPageCountArray[index].iAllocDiscardable \|\|
sl@0	7920	(gZoneUtilArray[index].iAllocMovable <= gOriginalPageCountArray[index].iAllocMovable &&
sl@0	7921	gZoneUtilArray[index].iAllocFixed == gOriginalPageCountArray[index].iAllocFixed))
sl@0	7922	{
sl@0	7923	test.Printf(_L("Fail: Either discardable pages have been allocated or movable pages have not been allocated\n"));
sl@0	7924	CLEANUP(RemoveChunkAlloc(gChunkArray1, gChunkArraySize1));
sl@0	7925	TEST_FAIL;
sl@0	7926	}
sl@0	7927	else
sl@0	7928	{
sl@0	7929	test.Printf(_L("Passed...\n"));
sl@0	7930	}
sl@0	7931	}
sl@0	7932	TestEnd();
sl@0	7933
sl@0	7934
sl@0	7935	test.Next(_L("Test10: No Discardable Flag, Alloc Fixed"));
sl@0	7936	TestStart();
sl@0	7937
sl@0	7938	if(gPagedRom)
sl@0	7939	{
sl@0	7940	r = DPTest::SetCacheSize(gOriginalMinCacheSize, gOriginalMinCacheSize);
sl@0	7941	test_KErrNone(r);
sl@0	7942	}
sl@0	7943
sl@0	7944	index = GetBestZone(BEST_FIXED);
sl@0	7945
sl@0	7946	if (index == KErrNotFound)
sl@0	7947	{
sl@0	7948	test.Printf(_L("Cannot find zone to perform test - Skipping test step...\n"));
sl@0	7949	}
sl@0	7950	else
sl@0	7951	{
sl@0	7952	zoneDefragID = gZoneConfigArray[index].iZoneId;
sl@0	7953
sl@0	7954	GetOriginalPageCount();
sl@0	7955	r = Ldd.SetZoneFlag(zoneDefragID, gZoneConfigArray[index].iFlags, NO_DISCARD_FLAG);
sl@0	7956	test_KErrNone(r);
sl@0	7957	// Fill up all of RAM with fixed pages.
sl@0	7958	r = Ldd.AllocateFixed(FILL_ALL_FIXED);
sl@0	7959
sl@0	7960	GetAllPageInfo();
sl@0	7961	if (gZoneUtilArray[index].iAllocDiscardable > gOriginalPageCountArray[index].iAllocDiscardable \|\|
sl@0	7962	gZoneUtilArray[index].iAllocFixed <= gOriginalPageCountArray[index].iAllocFixed)
sl@0	7963	{
sl@0	7964	test.Printf(_L("Fail: Discardable pages have been allocated or fixed pages have not been allocated\n"));
sl@0	7965	CLEANUP(Ldd.FreeAllFixedPages());
sl@0	7966	TEST_FAIL;
sl@0	7967	}
sl@0	7968	else
sl@0	7969	{
sl@0	7970	test.Printf(_L("Passed...\n"));
sl@0	7971	}
sl@0	7972	}
sl@0	7973	TestEnd();
sl@0	7974
sl@0	7975
sl@0	7976	test.Next(_L("Test11: No Discardable Flag, Alloc Discardable"));
sl@0	7977	TestStart();
sl@0	7978	if (gPagedRom)
sl@0	7979	{
sl@0	7980	index = GetBestZone(BEST_DISCARDABLE);
sl@0	7981
sl@0	7982	if (index == KErrNotFound)
sl@0	7983	{
sl@0	7984	test.Printf(_L("Cannot find zone to perform test - Skipping test step...\n"));
sl@0	7985	}
sl@0	7986	else
sl@0	7987	{
sl@0	7988	zoneDefragID = gZoneConfigArray[index].iZoneId;
sl@0	7989	GetOriginalPageCount();
sl@0	7990	r = Ldd.SetZoneFlag(zoneDefragID, gZoneConfigArray[index].iFlags, NO_DISCARD_FLAG);
sl@0	7991	test_KErrNone(r);
sl@0	7992	UpdateRamInfo();
sl@0	7993
sl@0	7994	TInt discardablePages;
sl@0	7995	r = AllocDiscardable(discardablePages);
sl@0	7996	if (r != KErrNoMemory)
sl@0	7997	{// Allocation should fail as no dis flag is set
sl@0	7998	test.Printf(_L("r = %d, expected = %d\n"), r, KErrNone);
sl@0	7999	TEST_FAIL;
sl@0	8000	}
sl@0	8001	GetAllPageInfo();
sl@0	8002
sl@0	8003	if (gZoneUtilArray[index].iAllocDiscardable > gOriginalPageCountArray[index].iAllocDiscardable)
sl@0	8004	{
sl@0	8005	test.Printf(_L("Fail: Discardable pages have been allocated into the zone\n"));
sl@0	8006	CLEANUP(ResetDPCache());
sl@0	8007	TEST_FAIL;
sl@0	8008	}
sl@0	8009	else
sl@0	8010	{
sl@0	8011	test.Printf(_L("Passed...\n"));
sl@0	8012	}
sl@0	8013	}
sl@0	8014	}
sl@0	8015	else
sl@0	8016	{
sl@0	8017	test.Printf(_L("Not a paged ROM - Skipping test step\n"));
sl@0	8018	}
sl@0	8019	TestEnd();
sl@0	8020
sl@0	8021	//-----------------------------------------------------------------------------------------------
sl@0	8022
sl@0	8023	test.Next(_L("Test12: Only Discardable Flag, Alloc Movable"));
sl@0	8024	TestStart();
sl@0	8025
sl@0	8026	index = GetBestZone(BEST_MOVABLE);
sl@0	8027
sl@0	8028	if (index == KErrNotFound)
sl@0	8029	{
sl@0	8030	test.Printf(_L("Cannot find zone to perform test - Skipping test step...\n"));
sl@0	8031	}
sl@0	8032	else
sl@0	8033	{
sl@0	8034	zoneDefragID = gZoneConfigArray[index].iZoneId;
sl@0	8035
sl@0	8036	GetOriginalPageCount();
sl@0	8037	r = Ldd.SetZoneFlag(zoneDefragID, gZoneConfigArray[index].iFlags, ONLY_DISCARD_FLAG);
sl@0	8038	test_KErrNone(r);
sl@0	8039	AllocMovable(gChunkArray1, gChunkArraySize1, KFillAllMovable, KChunkDefaultSize, EFalse);
sl@0	8040	GetAllPageInfo();
sl@0	8041
sl@0	8042	if (gZoneUtilArray[index].iAllocMovable > gOriginalPageCountArray[index].iAllocMovable)
sl@0	8043	{
sl@0	8044	test.Printf(_L("Fail: Movable pages have been allocated\n"));
sl@0	8045	CLEANUP(RemoveChunkAlloc(gChunkArray1, gChunkArraySize1));
sl@0	8046	TEST_FAIL;
sl@0	8047	}
sl@0	8048	else
sl@0	8049	{
sl@0	8050	test.Printf(_L("Passed...\n"));
sl@0	8051	}
sl@0	8052	}
sl@0	8053	TestEnd();
sl@0	8054
sl@0	8055
sl@0	8056	test.Next(_L("Test13: Only Discardable Flag, Alloc Fixed"));
sl@0	8057	TestStart();
sl@0	8058
sl@0	8059	if(gPagedRom)
sl@0	8060	{
sl@0	8061	r = DPTest::SetCacheSize(gOriginalMinCacheSize, gOriginalMinCacheSize);
sl@0	8062	test_KErrNone(r);
sl@0	8063	}
sl@0	8064
sl@0	8065	index = GetBestZone(BEST_FIXED);
sl@0	8066
sl@0	8067	if (index == KErrNotFound)
sl@0	8068	{
sl@0	8069	test.Printf(_L("Cannot find zone to perform test - Skipping test step...\n"));
sl@0	8070	}
sl@0	8071	else
sl@0	8072	{
sl@0	8073	zoneDefragID = gZoneConfigArray[index].iZoneId;
sl@0	8074
sl@0	8075	GetOriginalPageCount();
sl@0	8076	r = Ldd.SetZoneFlag(zoneDefragID, gZoneConfigArray[index].iFlags, ONLY_DISCARD_FLAG);
sl@0	8077	test_KErrNone(r);
sl@0	8078
sl@0	8079	// Fill up all of RAM with fixed pages.
sl@0	8080	r = Ldd.AllocateFixed(FILL_ALL_FIXED);
sl@0	8081
sl@0	8082	GetAllPageInfo();
sl@0	8083	if (gZoneUtilArray[index].iAllocFixed > gOriginalPageCountArray[index].iAllocFixed)
sl@0	8084	{
sl@0	8085	test.Printf(_L("Fail: Fixed pages have been allocated\n"));
sl@0	8086	CLEANUP(Ldd.FreeAllFixedPages());
sl@0	8087	TEST_FAIL;
sl@0	8088	}
sl@0	8089	else
sl@0	8090	{
sl@0	8091	test.Printf(_L("Passed...\n"));
sl@0	8092	}
sl@0	8093	}
sl@0	8094	TestEnd();
sl@0	8095
sl@0	8096
sl@0	8097	test.Next(_L("Test14: Only Discardable Flag, Alloc Discardable"));
sl@0	8098	TestStart();
sl@0	8099	if (gPagedRom)
sl@0	8100	{
sl@0	8101	index = GetBestZone(BEST_DISCARDABLE);
sl@0	8102
sl@0	8103	if (index == KErrNotFound)
sl@0	8104	{
sl@0	8105	test.Printf(_L("Cannot find zone to perform test - Skipping test step...\n"));
sl@0	8106	}
sl@0	8107	else
sl@0	8108	{
sl@0	8109	zoneDefragID = gZoneConfigArray[index].iZoneId;
sl@0	8110
sl@0	8111	GetOriginalPageCount();
sl@0	8112	r = Ldd.SetZoneFlag(zoneDefragID, gZoneConfigArray[index].iFlags, ONLY_DISCARD_FLAG);
sl@0	8113	test_KErrNone(r);
sl@0	8114	UpdateRamInfo();
sl@0	8115
sl@0	8116	TInt discardablePages;
sl@0	8117	r = AllocDiscardable(discardablePages);
sl@0	8118	if (r != KErrNone)
sl@0	8119	{
sl@0	8120	test.Printf(_L("r = %d, expected = %d\n"), r, KErrNone);
sl@0	8121	TEST_FAIL;
sl@0	8122	}
sl@0	8123	GetAllPageInfo();
sl@0	8124
sl@0	8125	if (gZoneUtilArray[index].iAllocMovable > gOriginalPageCountArray[index].iAllocMovable \|\|
sl@0	8126	gZoneUtilArray[index].iAllocFixed > gOriginalPageCountArray[index].iAllocFixed)
sl@0	8127	{
sl@0	8128	test.Printf(_L("Fail: Pages other than discardable have been allocated\n"));
sl@0	8129	CLEANUP(ResetDPCache());
sl@0	8130	TEST_FAIL;
sl@0	8131	}
sl@0	8132	else
sl@0	8133	{
sl@0	8134	test.Printf(_L("Passed...\n"));
sl@0	8135	}
sl@0	8136	}
sl@0	8137	}
sl@0	8138	else
sl@0	8139	{
sl@0	8140	test.Printf(_L("Not a paged ROM - Skipping test step\n"));
sl@0	8141	}
sl@0	8142	TestEnd();
sl@0	8143
sl@0	8144	test.Next(_L("Test15: Only Discardable Flag, Alloc Fixed using ZoneAllocPhyicalRam"));
sl@0	8145	TestStart();
sl@0	8146
sl@0	8147	index = GetBestZone(BEST_FIXED);
sl@0	8148
sl@0	8149	if (index == KErrNotFound)
sl@0	8150	{
sl@0	8151	test.Printf(_L("Cannot find zone to perform test - Skipping test step...\n"));
sl@0	8152	}
sl@0	8153	else
sl@0	8154	{
sl@0	8155	zoneDefragID = gZoneConfigArray[index].iZoneId;
sl@0	8156
sl@0	8157	GetOriginalPageCount();
sl@0	8158	r = Ldd.SetZoneFlag(zoneDefragID, gZoneConfigArray[index].iFlags, ONLY_DISCARD_FLAG);
sl@0	8159	test_KErrNone(r);
sl@0	8160
sl@0	8161	// Just need to try and allocate one page
sl@0	8162	r = Ldd.ZoneAllocDiscontiguous(zoneDefragID, 1);
sl@0	8163
sl@0	8164	GetAllPageInfo();
sl@0	8165	if (r != KErrNone)
sl@0	8166	{
sl@0	8167	test.Printf(_L("Fail: Fixed pages have not been allocated into zone ID 0x%x\n"), zoneDefragID);
sl@0	8168	CLEANUP(Ldd.FreeAllFixedPages());
sl@0	8169	TEST_FAIL;
sl@0	8170	}
sl@0	8171	else
sl@0	8172	{
sl@0	8173	test.Printf(_L("Passed...\n"));
sl@0	8174	}
sl@0	8175	}
sl@0	8176	TestEnd();
sl@0	8177
sl@0	8178	test.Next(_L("Test16: Only Discardable Flag, Alloc Fixed by attempting to claim zone"));
sl@0	8179	TestStart();
sl@0	8180
sl@0	8181	GetAllPageInfo();
sl@0	8182	index = 0;
sl@0	8183	while ((TUint)index < gZoneCount && (gZoneUtilArray[index].iAllocFixed != 0 \|\| gZoneUtilArray[index].iAllocUnknown != 0))
sl@0	8184	{
sl@0	8185	index++;
sl@0	8186	}
sl@0	8187
sl@0	8188	if ((TUint)index == gZoneCount)
sl@0	8189	{
sl@0	8190	test.Printf(_L("Cannot find zone to perform test - Skipping test step...\n"));
sl@0	8191	}
sl@0	8192	else
sl@0	8193	{
sl@0	8194	zoneDefragID = gZoneConfigArray[index].iZoneId;
sl@0	8195	r = Ldd.SetZoneFlag(zoneDefragID, gZoneConfigArray[index].iFlags, ONLY_DISCARD_FLAG);
sl@0	8196	test_KErrNone(r);
sl@0	8197
sl@0	8198	r = Ldd.CallDefrag(DEFRAG_TYPE_CLAIM, DEFRAG_VER_SYNC, zoneDefragID);
sl@0	8199	GetAllPageInfo();
sl@0	8200	TUint freeInOthers = gTotalPageCount.iFreePages - gZoneUtilArray[index].iFreePages;
sl@0	8201	if (freeInOthers && r != KErrNone)
sl@0	8202	{
sl@0	8203	test.Printf(_L("Fail: Claim zone ID 0x%x was unsuccessful, r = %d\n"), zoneDefragID, r);
sl@0	8204	TEST_FAIL;
sl@0	8205	}
sl@0	8206	else
sl@0	8207	{
sl@0	8208	test.Printf(_L("Passed...\n"));
sl@0	8209	}
sl@0	8210	}
sl@0	8211	TestEnd();
sl@0	8212	//-----------------------------------------------------------------------------------------------
sl@0	8213
sl@0	8214	test.Next(_L("Test17: No further alloc Flag, Alloc Movable"));
sl@0	8215	TestStart();
sl@0	8216
sl@0	8217	index = GetBestZone(BEST_MOVABLE);
sl@0	8218
sl@0	8219
sl@0	8220	if (index == KErrNotFound)
sl@0	8221	{
sl@0	8222	test.Printf(_L("Cannot find zone to perform test - Skipping test step...\n"));
sl@0	8223	}
sl@0	8224	else
sl@0	8225	{
sl@0	8226	zoneDefragID = gZoneConfigArray[index].iZoneId;
sl@0	8227
sl@0	8228	GetOriginalPageCount();
sl@0	8229	r = Ldd.SetZoneFlag(zoneDefragID, gZoneConfigArray[index].iFlags, NO_ALLOC_FLAG);
sl@0	8230	test_KErrNone(r);
sl@0	8231	AllocMovable(gChunkArray1, gChunkArraySize1, KFillAllMovable, KChunkDefaultSize, EFalse);
sl@0	8232	GetAllPageInfo();
sl@0	8233
sl@0	8234	if (gZoneUtilArray[index].iAllocDiscardable > gOriginalPageCountArray[index].iAllocDiscardable \|\|
sl@0	8235	gZoneUtilArray[index].iAllocMovable > gOriginalPageCountArray[index].iAllocMovable \|\|
sl@0	8236	gZoneUtilArray[index].iAllocFixed > gOriginalPageCountArray[index].iAllocFixed)
sl@0	8237	{
sl@0	8238	test.Printf(_L("Fail: Pages been allocated\n"));
sl@0	8239	CLEANUP(RemoveChunkAlloc(gChunkArray1, gChunkArraySize1));
sl@0	8240	TEST_FAIL;
sl@0	8241	}
sl@0	8242	else
sl@0	8243	{
sl@0	8244	test.Printf(_L("Passed...\n"));
sl@0	8245	}
sl@0	8246	}
sl@0	8247	TestEnd();
sl@0	8248
sl@0	8249
sl@0	8250	test.Next(_L("Test18: No further alloc Flag, Alloc Fixed"));
sl@0	8251	TestStart();
sl@0	8252
sl@0	8253	if(gPagedRom)
sl@0	8254	{
sl@0	8255	r = DPTest::SetCacheSize(gOriginalMinCacheSize, gOriginalMinCacheSize);
sl@0	8256	test_KErrNone(r);
sl@0	8257	}
sl@0	8258
sl@0	8259	// Find a zone with free pages and set the flag on this zone
sl@0	8260	// as it will ensure that you cannot fill all of free RAM with fixed pages
sl@0	8261	index = KErrNotFound;
sl@0	8262	GetAllPageInfo();
sl@0	8263	for (TUint i = 0; i < gZoneCount; i++)
sl@0	8264	{
sl@0	8265	if (gZoneUtilArray[i].iFreePages != 0)
sl@0	8266	{
sl@0	8267	index = i;
sl@0	8268	break;
sl@0	8269	}
sl@0	8270	}
sl@0	8271	if (index == KErrNotFound)
sl@0	8272	{
sl@0	8273	test.Printf(_L("Cannot find zone to perform test - Skipping test step...\n"));
sl@0	8274	}
sl@0	8275	else
sl@0	8276	{
sl@0	8277	zoneDefragID = gZoneConfigArray[index].iZoneId;
sl@0	8278
sl@0	8279	r = Ldd.SetZoneFlag(zoneDefragID, gZoneConfigArray[index].iFlags, NO_ALLOC_FLAG);
sl@0	8280	test_KErrNone(r);
sl@0	8281
sl@0	8282	GetOriginalPageCount();
sl@0	8283	r = Ldd.AllocateFixed(FILL_ALL_FIXED);
sl@0	8284
sl@0	8285	// Ensure memory wasn't filled as it should have hit the blocked zone.
sl@0	8286	GetAllPageInfo();
sl@0	8287	if (r != KErrNoMemory \|\| gZoneUtilArray[index].iAllocFixed > gOriginalPageCountArray[index].iAllocFixed)
sl@0	8288	{
sl@0	8289	test.Printf(_L("Fail: orig fix 0x%x current fix 0x%x\n"), gOriginalPageCountArray[index].iAllocFixed, gZoneUtilArray[index].iAllocFixed);
sl@0	8290	CLEANUP(Ldd.FreeAllFixedPages());
sl@0	8291	TEST_FAIL;
sl@0	8292	}
sl@0	8293	else
sl@0	8294	{
sl@0	8295	test.Printf(_L("Passed...\n"));
sl@0	8296	}
sl@0	8297	}
sl@0	8298	TestEnd();
sl@0	8299
sl@0	8300
sl@0	8301	test.Next(_L("Test19: No further alloc Flag, Alloc Discardable"));
sl@0	8302	TestStart();
sl@0	8303	if (gPagedRom)
sl@0	8304	{
sl@0	8305	index = GetBestZone(BEST_DISCARDABLE);
sl@0	8306
sl@0	8307	if (index == KErrNotFound)
sl@0	8308	{
sl@0	8309	test.Printf(_L("Cannot find zone to perform test - Skipping test step...\n"));
sl@0	8310	}
sl@0	8311	else
sl@0	8312	{
sl@0	8313	zoneDefragID = gZoneConfigArray[index].iZoneId;
sl@0	8314
sl@0	8315	GetOriginalPageCount();
sl@0	8316	r = Ldd.SetZoneFlag(zoneDefragID, gZoneConfigArray[index].iFlags, NO_ALLOC_FLAG);
sl@0	8317	test_KErrNone(r);
sl@0	8318	UpdateRamInfo();
sl@0	8319	TInt discardablePages;
sl@0	8320	r = AllocDiscardable(discardablePages);
sl@0	8321	if (r != KErrNoMemory)
sl@0	8322	{// Allocation should fail as no alloc flag is set
sl@0	8323	test.Printf(_L("r = %d, expected = %d\n"), r, KErrNone);
sl@0	8324	TEST_FAIL;
sl@0	8325	}
sl@0	8326	GetAllPageInfo();
sl@0	8327
sl@0	8328	if (gZoneUtilArray[index].iAllocDiscardable > gOriginalPageCountArray[index].iAllocDiscardable \|\|
sl@0	8329	gZoneUtilArray[index].iAllocMovable > gOriginalPageCountArray[index].iAllocMovable \|\|
sl@0	8330	gZoneUtilArray[index].iAllocFixed > gOriginalPageCountArray[index].iAllocFixed)
sl@0	8331	{
sl@0	8332	test.Printf(_L("Fail: Pages have been allocated into the zone\n"));
sl@0	8333	CLEANUP(ResetDPCache());
sl@0	8334	TEST_FAIL;
sl@0	8335	}
sl@0	8336	else
sl@0	8337	{
sl@0	8338	test.Printf(_L("Passed...\n"));
sl@0	8339	}
sl@0	8340	}
sl@0	8341	}
sl@0	8342	else
sl@0	8343	{
sl@0	8344	test.Printf(_L("Not a paged ROM - Skipping test step\n"));
sl@0	8345	}
sl@0	8346	TestEnd();
sl@0	8347
sl@0	8348
sl@0	8349	test.Next(_L("Test20: No Further Alloc Flag, Alloc Fixed using ZoneAllocPhyicalRam"));
sl@0	8350	TestStart();
sl@0	8351
sl@0	8352	GetAllPageInfo();
sl@0	8353	index = 0;
sl@0	8354	while ((TUint)index < gZoneCount && (gZoneUtilArray[index].iFreePages == 0 \|\|
sl@0	8355	gZoneUtilArray[index].iAllocFixed != 0 \|\| gZoneUtilArray[index].iAllocUnknown != 0))
sl@0	8356	{
sl@0	8357	index++;
sl@0	8358	}
sl@0	8359
sl@0	8360	if ((TUint)index == gZoneCount)
sl@0	8361	{
sl@0	8362	test.Printf(_L("Cannot find zone to perform test - Skipping test step...\n"));
sl@0	8363	}
sl@0	8364	else
sl@0	8365	{
sl@0	8366	zoneDefragID = gZoneConfigArray[index].iZoneId;
sl@0	8367
sl@0	8368	GetOriginalPageCount();
sl@0	8369	r = Ldd.SetZoneFlag(zoneDefragID, gZoneConfigArray[index].iFlags, NO_ALLOC_FLAG);
sl@0	8370	test_KErrNone(r);
sl@0	8371
sl@0	8372	// Just need to try and allocate one page
sl@0	8373	r = Ldd.ZoneAllocDiscontiguous(zoneDefragID, 1);
sl@0	8374
sl@0	8375	GetAllPageInfo();
sl@0	8376	if (r != KErrNoMemory)
sl@0	8377	{
sl@0	8378	test.Printf(_L("Fail: Fixed pages have been allocated into zone ID 0x%x\n"), zoneDefragID);
sl@0	8379	CLEANUP(Ldd.FreeAllFixedPages());
sl@0	8380	TEST_FAIL;
sl@0	8381	}
sl@0	8382	else
sl@0	8383	{
sl@0	8384	test.Printf(_L("Passed...\n"));
sl@0	8385	}
sl@0	8386	}
sl@0	8387	TestEnd();
sl@0	8388
sl@0	8389	test.Next(_L("Test21: No Further Alloc Flag, Alloc Fixed by attempting to claim zone"));
sl@0	8390	TestStart();
sl@0	8391
sl@0	8392	GetAllPageInfo();
sl@0	8393	index = 0;
sl@0	8394	while ((TUint)index < gZoneCount && (gZoneUtilArray[index].iAllocFixed != 0 \|\| gZoneUtilArray[index].iAllocUnknown != 0))
sl@0	8395	{
sl@0	8396	index++;
sl@0	8397	}
sl@0	8398
sl@0	8399	if ((TUint)index == gZoneCount)
sl@0	8400	{
sl@0	8401	test.Printf(_L("Cannot find zone to perform test - Skipping test step...\n"));
sl@0	8402	}
sl@0	8403	else
sl@0	8404	{
sl@0	8405	zoneDefragID = gZoneConfigArray[index].iZoneId;
sl@0	8406	r = Ldd.SetZoneFlag(zoneDefragID, gZoneConfigArray[index].iFlags, NO_ALLOC_FLAG);
sl@0	8407	test_KErrNone(r);
sl@0	8408
sl@0	8409	r = Ldd.CallDefrag(DEFRAG_TYPE_CLAIM, DEFRAG_VER_SYNC, zoneDefragID);
sl@0	8410	GetAllPageInfo();
sl@0	8411	TUint freeInOthers = gTotalPageCount.iFreePages - gZoneUtilArray[index].iFreePages;
sl@0	8412	if (freeInOthers && r != KErrNone)
sl@0	8413	{
sl@0	8414	test.Printf(_L("Fail: Claim zone ID 0x%x was unsuccessful, r = %d\n"), zoneDefragID, r);
sl@0	8415	CLEANUP(ResetRamZoneFlags());
sl@0	8416	TEST_FAIL;
sl@0	8417	}
sl@0	8418	else
sl@0	8419	{
sl@0	8420	test.Printf(_L("Passed...\n"));
sl@0	8421	}
sl@0	8422	}
sl@0	8423	TestEnd();
sl@0	8424
sl@0	8425	TUint mostPrefArrayIndex = 0;
sl@0	8426	TUint mostPrefIndex = 0;
sl@0	8427	TUint leastPrefIndex = 0;
sl@0	8428	const TUint KFreeMostPref = 10;
sl@0	8429	TUint flag = 0;
sl@0	8430	TUint prefIndex;
sl@0	8431	TUint totalFree;
sl@0	8432
sl@0	8433
sl@0	8434	for (TUint testStep = 0; testStep < 2; testStep++)
sl@0	8435	{
sl@0	8436	switch(testStep)
sl@0	8437	{
sl@0	8438	case 0:
sl@0	8439	test.Next(_L("Test22: Ensure that the General Defrag looks at the flags 1"));
sl@0	8440	break;
sl@0	8441
sl@0	8442	case 1:
sl@0	8443	test.Next(_L("Test23: Ensure that the General Defrag looks at the flags 2"));
sl@0	8444	break;
sl@0	8445	}
sl@0	8446
sl@0	8447	TestStart();
sl@0	8448	gChunkArray1 = new RChunk;
sl@0	8449	gChunkArraySize1 = 1;
sl@0	8450	TUint minCacheSize = 0;
sl@0	8451	TUint maxCacheSize = 0;
sl@0	8452	TUint currentCacheSize = 0;
sl@0	8453	TUint freeNeededInMostPref = 0;
sl@0	8454	if (!gPagedRom)
sl@0	8455	{
sl@0	8456	test.Printf(_L("Not a paged ROM - Skipping...\n"));
sl@0	8457	goto skipTest22;
sl@0	8458	}
sl@0	8459
sl@0	8460	// Find the most pref zone with free pages
sl@0	8461	r = FindMostPrefWithFree(mostPrefIndex, &mostPrefArrayIndex);
sl@0	8462	if (r != KErrNone)
sl@0	8463	{
sl@0	8464	test.Printf(_L("Cannot find zone with free pages - Skipping...\n"));
sl@0	8465	goto skipTest22;
sl@0	8466	}
sl@0	8467
sl@0	8468	// Ensure that the least pref zone is empty
sl@0	8469	leastPrefIndex = gPrefArray[gZoneCount - 1];
sl@0	8470	if (gZoneUtilArray[leastPrefIndex].iFreePages != gZoneUtilArray[leastPrefIndex].iPhysPages)
sl@0	8471	{
sl@0	8472	test.Printf(_L("Least pref zone is not empty - Skipping...\n"));
sl@0	8473	goto skipTest22;
sl@0	8474	}
sl@0	8475
sl@0	8476	// Allocate 1 movable page to the least preferable zone
sl@0	8477	r = ZoneAllocMovable(gChunkArray1, gChunkArraySize1, leastPrefIndex, 1);
sl@0	8478	if (r != KErrNone)
sl@0	8479	{
sl@0	8480	test.Printf(_L("Failed to allocate movable r = %d - Skipping...\n"), r);
sl@0	8481	goto skipTest22;
sl@0	8482	}
sl@0	8483
sl@0	8484	// Allocate 1 discardable page to the least preferable zone
sl@0	8485	if (gZoneUtilArray[leastPrefIndex].iFreePages != 0)
sl@0	8486	{
sl@0	8487	TInt disPages;
sl@0	8488	r = ZoneAllocDiscard(leastPrefIndex, 1, disPages);
sl@0	8489	if (r != KErrNone)
sl@0	8490	{
sl@0	8491	test.Printf(_L("Failed to allocate discardable pages r = %d - Skipping...\n"), r);
sl@0	8492	goto skipTest22;
sl@0	8493	}
sl@0	8494
sl@0	8495	// up the minimum cache size so that the pages have to be moved - not discarded
sl@0	8496	DPTest::CacheSize(minCacheSize,maxCacheSize,currentCacheSize);
sl@0	8497	r = DPTest::SetCacheSize(currentCacheSize, currentCacheSize);
sl@0	8498	if (r != KErrNone)
sl@0	8499	{
sl@0	8500	test.Printf(_L("Failed to set cache size r = %d - Skipping...\n"), r);
sl@0	8501	goto skipTest22;
sl@0	8502	}
sl@0	8503	}
sl@0	8504	else
sl@0	8505	{
sl@0	8506	test.Printf(_L("Least pref zone has no free pages - Skipping...\n"));
sl@0	8507	goto skipTest22;
sl@0	8508	}
sl@0	8509
sl@0	8510	// Check that the least pref zone has movable and discardable pages in it
sl@0	8511	GetAllPageInfo();
sl@0	8512	if (gZoneUtilArray[leastPrefIndex].iAllocMovable == 0 \|\|
sl@0	8513	gZoneUtilArray[leastPrefIndex].iAllocDiscardable == 0)
sl@0	8514	{
sl@0	8515	test.Printf(_L("No movable or discardable in least pref zone\n"));
sl@0	8516	PrintPageInfo();
sl@0	8517	goto skipTest22;
sl@0	8518	}
sl@0	8519
sl@0	8520	ResetRamZoneFlags();
sl@0	8521	// if most pref zone has too many free pages fill up with fixed
sl@0	8522	if (gZoneUtilArray[mostPrefIndex].iFreePages > KFreeMostPref)
sl@0	8523	{
sl@0	8524	TUint allocPages = gZoneUtilArray[mostPrefIndex].iFreePages - KFreeMostPref;
sl@0	8525	r = Ldd.ZoneAllocToMany(mostPrefIndex, allocPages);
sl@0	8526	if (r != KErrNone)
sl@0	8527	{
sl@0	8528	test.Printf(_L("Failed allocate 0x%x fixed to index %d r = %d - Skipping...\n"),
sl@0	8529	allocPages, mostPrefIndex,r);
sl@0	8530	PrintPageInfo();
sl@0	8531	goto skipTest22;
sl@0	8532	}
sl@0	8533	}
sl@0	8534
sl@0	8535
sl@0	8536	// if the no. of discardable pages is less than free in most pref increase the min cache size
sl@0	8537	GetAllPageInfo();
sl@0	8538	if (gZoneUtilArray[leastPrefIndex].iAllocDiscardable < gZoneUtilArray[mostPrefIndex].iFreePages)
sl@0	8539	{
sl@0	8540	TUint discDiff = gZoneUtilArray[mostPrefIndex].iFreePages - gZoneUtilArray[leastPrefIndex].iAllocDiscardable;
sl@0	8541	test.Printf(_L("discDiff = 0x%x\n"), discDiff);
sl@0	8542	TInt disPages;
sl@0	8543	if (ZoneAllocDiscard(leastPrefIndex, discDiff, disPages) != KErrNone)
sl@0	8544	{
sl@0	8545	test.Printf(_L("Failed allocate discardable to zone index %d- Skipping...\n"), leastPrefIndex);
sl@0	8546	goto skipTest22;
sl@0	8547	}
sl@0	8548	// up the minimum cache size by the difference as we don't want these pages to be discarded
sl@0	8549	DPTest::CacheSize(minCacheSize,maxCacheSize,currentCacheSize);
sl@0	8550	r = DPTest::SetCacheSize(currentCacheSize, currentCacheSize);
sl@0	8551	test.Printf(_L("r = %d\n"), r);
sl@0	8552	if (r != KErrNone)
sl@0	8553	{
sl@0	8554	test.Printf(_L("Failed to set cache size r = %d - Skipping...\n"), r);
sl@0	8555	goto skipTest22;
sl@0	8556	}
sl@0	8557	}
sl@0	8558	ResetRamZoneFlags();
sl@0	8559
sl@0	8560	// if the rest of the zones are either full or empty put a fixed page into the next most pref empty zone
sl@0	8561	GetPrefOrder();
sl@0	8562	prefIndex = 0;
sl@0	8563	totalFree = 0;
sl@0	8564	for (; prefIndex < gZoneCount && totalFree < gZoneUtilArray[leastPrefIndex].iAllocDiscardable; prefIndex++)
sl@0	8565	{// Look for zone that has enough free pages to fit all the discardable
sl@0	8566	TUint zoneIndex = gPrefArray[prefIndex];
sl@0	8567	if (zoneIndex != mostPrefIndex && zoneIndex != leastPrefIndex)
sl@0	8568	{
sl@0	8569	if (gZoneUtilArray[zoneIndex].iFreePages != gZoneUtilArray[zoneIndex].iPhysPages)
sl@0	8570	{
sl@0	8571	totalFree += gZoneUtilArray[zoneIndex].iFreePages;
sl@0	8572	}
sl@0	8573	else
sl@0	8574	{
sl@0	8575	r = Ldd.ZoneAllocToMany(zoneIndex, 1);
sl@0	8576	if (r != KErrNone)
sl@0	8577	{
sl@0	8578	test.Printf(_L("Couldn't alloc fixed to zone index %d - r = %d\n"), zoneIndex, r);
sl@0	8579	goto skipTest22;
sl@0	8580	}
sl@0	8581	GetAllPageInfo();
sl@0	8582	totalFree += gZoneUtilArray[zoneIndex].iFreePages;
sl@0	8583	}
sl@0	8584	}
sl@0	8585	}
sl@0	8586
sl@0	8587	if (prefIndex >= gZoneCount)
sl@0	8588	{
sl@0	8589	test.Printf(_L("Couldn't find zone\n"));
sl@0	8590	goto skipTest22;
sl@0	8591	}
sl@0	8592
sl@0	8593
sl@0	8594
sl@0	8595	// If the most preferable zone does not have enough free pages, skip
sl@0	8596	freeNeededInMostPref = (testStep == 0) ? gZoneUtilArray[leastPrefIndex].iAllocMovable : gZoneUtilArray[leastPrefIndex].iAllocDiscardable;
sl@0	8597	if (gZoneUtilArray[mostPrefIndex].iFreePages < freeNeededInMostPref)
sl@0	8598	{
sl@0	8599	test.Printf(_L("Free needed in mostPref(%d) = %d, Free available in mostPref = %d - skipping...\n"),
sl@0	8600	mostPrefIndex,freeNeededInMostPref,gZoneUtilArray[mostPrefIndex].iFreePages);
sl@0	8601	goto skipTest22;
sl@0	8602	}
sl@0	8603
sl@0	8604	GetAllPageInfo();
sl@0	8605	// Set up the RAM zone flags for the test
sl@0	8606	flag = (testStep == 0)? NO_MOVE_FLAG: NO_DISCARD_FLAG;
sl@0	8607	// Set all zones except most pref to KRamZoneFlagNoMovable or KRamZoneFlagNoDiscard
sl@0	8608	for (TUint index = 0; index < gZoneCount; index++)
sl@0	8609	{
sl@0	8610	TUint zoneID = gZoneConfigArray[index].iZoneId;
sl@0	8611	if (index != mostPrefIndex)
sl@0	8612	{
sl@0	8613	r = Ldd.SetZoneFlag(zoneID, gZoneConfigArray[index].iFlags, flag);
sl@0	8614	if (r != KErrNone)
sl@0	8615	{
sl@0	8616	test.Printf(_L("Failed to set flag r = %d - Skipping...\n"), r);
sl@0	8617	goto skipTest22;
sl@0	8618	}
sl@0	8619	}
sl@0	8620	}
sl@0	8621
sl@0	8622	GetOriginalPageCount();
sl@0	8623	r = Ldd.CallDefrag(DEFRAG_TYPE_GEN, DEFRAG_VER_SYNC);
sl@0	8624
sl@0	8625	GetAllPageInfo();
sl@0	8626	switch(testStep)
sl@0	8627	{
sl@0	8628	case 0:
sl@0	8629	if (r != KErrNone \|\|
sl@0	8630	gOriginalPageCountArray[mostPrefIndex].iAllocMovable >= gZoneUtilArray[mostPrefIndex].iAllocMovable \|\|
sl@0	8631	gZoneUtilArray[leastPrefIndex].iFreePages != gZoneUtilArray[leastPrefIndex].iPhysPages)
sl@0	8632	{
sl@0	8633	test.Printf(_L("FAIL:r=%d MostPref(%d): origMov 0x%x curMov 0x%x LeastPref(%d): origMov 0x%x curMov 0x%x origDis 0x%x curDis 0x%x\n"),
sl@0	8634	r, mostPrefIndex, gOriginalPageCountArray[mostPrefIndex].iAllocMovable, gZoneUtilArray[mostPrefIndex].iAllocMovable,
sl@0	8635	leastPrefIndex, gOriginalPageCountArray[leastPrefIndex].iAllocMovable, gZoneUtilArray[leastPrefIndex].iAllocMovable,
sl@0	8636	gOriginalPageCountArray[leastPrefIndex].iAllocDiscardable, gZoneUtilArray[leastPrefIndex].iAllocDiscardable);
sl@0	8637	CLEANUP(Ldd.FreeAllFixedPages());
sl@0	8638	TEST_FAIL;
sl@0	8639	}
sl@0	8640	else
sl@0	8641	{
sl@0	8642	test.Printf(_L("Passed...\n"));
sl@0	8643	}
sl@0	8644	break;
sl@0	8645
sl@0	8646	case 1:
sl@0	8647	if (r != KErrNone \|\|
sl@0	8648	gOriginalPageCountArray[mostPrefIndex].iAllocDiscardable >= gZoneUtilArray[mostPrefIndex].iAllocDiscardable \|\|
sl@0	8649	gZoneUtilArray[leastPrefIndex].iFreePages != gZoneUtilArray[leastPrefIndex].iPhysPages)
sl@0	8650	{
sl@0	8651	test.Printf(_L("FAIL:r=%d MostPref(%d): origMov 0x%x curMov 0x%x LeastPref(%d): origMov 0x%x curMov 0x%x origDis 0x%x curDis 0x%x\n"),
sl@0	8652	r, mostPrefIndex, gOriginalPageCountArray[mostPrefIndex].iAllocMovable, gZoneUtilArray[mostPrefIndex].iAllocMovable,
sl@0	8653	leastPrefIndex, gOriginalPageCountArray[leastPrefIndex].iAllocMovable, gZoneUtilArray[leastPrefIndex].iAllocMovable,
sl@0	8654	gOriginalPageCountArray[leastPrefIndex].iAllocDiscardable, gZoneUtilArray[leastPrefIndex].iAllocDiscardable);
sl@0	8655	CLEANUP(Ldd.FreeAllFixedPages());
sl@0	8656	TEST_FAIL;
sl@0	8657	}
sl@0	8658	else
sl@0	8659	{
sl@0	8660	test.Printf(_L("Passed...\n"));
sl@0	8661	}
sl@0	8662	break;
sl@0	8663	}
sl@0	8664
sl@0	8665	skipTest22:
sl@0	8666	TestEnd();
sl@0	8667	}
sl@0	8668
sl@0	8669	test.Next(_L("Test24: Ensure that the General Defrag doesnt move or discard pages if KRamZoneFlagNoMovable set on all zones "));
sl@0	8670	TestStart();
sl@0	8671	gChunkArray1 = new RChunk;
sl@0	8672	gChunkArraySize1 = 1;
sl@0	8673	// Find the most pref zone with free pages
sl@0	8674	GetPrefOrder();
sl@0	8675	TInt disPages = 0;
sl@0	8676	if (FindMostPrefWithFree(mostPrefIndex, &mostPrefArrayIndex) != KErrNone)
sl@0	8677	{
sl@0	8678	test.Printf(_L("Cannot find zone with free pages - Skipping...\n"));
sl@0	8679	goto skipTest24;
sl@0	8680	}
sl@0	8681
sl@0	8682	// Ensure that the least pref zone has free pages in it
sl@0	8683	leastPrefIndex = gPrefArray[gZoneCount-1];
sl@0	8684	if (gZoneUtilArray[leastPrefIndex].iFreePages == 0)
sl@0	8685	{
sl@0	8686	test.Printf(_L("Least pref zone has no free pages - Skipping...\n"));
sl@0	8687	goto skipTest24;
sl@0	8688	}
sl@0	8689
sl@0	8690	// Allocate 1 movable page to the least preferable zone
sl@0	8691	r = ZoneAllocMovable(gChunkArray1, gChunkArraySize1, leastPrefIndex, 1);
sl@0	8692	if (r != KErrNone)
sl@0	8693	{
sl@0	8694	test.Printf(_L("Failed to allocate movable page r = %d - Skipping...\n"), r);
sl@0	8695	goto skipTest24;
sl@0	8696	}
sl@0	8697
sl@0	8698	if (gPagedRom)
sl@0	8699	{
sl@0	8700
sl@0	8701	TUint minCacheSize = 0;
sl@0	8702	TUint maxCacheSize = 0;
sl@0	8703	TUint currentCacheSize = 0;
sl@0	8704
sl@0	8705	// Allocate 1 discardable page to the least preferable zone
sl@0	8706	if (gZoneUtilArray[leastPrefIndex].iFreePages != 0)
sl@0	8707	{
sl@0	8708	r = ZoneAllocDiscard(leastPrefIndex, 1, disPages);
sl@0	8709	if (r != KErrNone)
sl@0	8710	{
sl@0	8711	test.Printf(_L("Discardable pages not allocated r= %d\n"), r);
sl@0	8712	}
sl@0	8713
sl@0	8714	DPTest::CacheSize(minCacheSize,maxCacheSize,currentCacheSize);
sl@0	8715	r = DPTest::SetCacheSize(currentCacheSize, currentCacheSize);
sl@0	8716	if (r != KErrNone)
sl@0	8717	{
sl@0	8718	test.Printf(_L("Failed to set cache size r = %d - Skipping...\n"), r);
sl@0	8719	goto skipTest24;
sl@0	8720	}
sl@0	8721	}
sl@0	8722	}
sl@0	8723
sl@0	8724
sl@0	8725	// Check that the least pref zone has movable and discardable (if allocated) pages in it
sl@0	8726	GetAllPageInfo();
sl@0	8727	if (gZoneUtilArray[leastPrefIndex].iAllocMovable == 0 \|\|
sl@0	8728	gZoneUtilArray[leastPrefIndex].iAllocDiscardable < (TUint)disPages \|\|
sl@0	8729	gZoneUtilArray[leastPrefIndex].iAllocMovable > gTotalPageCount.iFreePages - gZoneUtilArray[leastPrefIndex].iFreePages)
sl@0	8730	{
sl@0	8731	test.Printf(_L("No movable in least pref zone or no space for moveable pages to be moved to\n"));
sl@0	8732	PrintPageInfo();
sl@0	8733	goto skipTest24;
sl@0	8734	}
sl@0	8735
sl@0	8736	ResetRamZoneFlags();
sl@0	8737	GetAllPageInfo();
sl@0	8738	// Now set all zones to KRamZoneFlagNoMovable
sl@0	8739	for (TUint index = 0; index < gZoneCount; index++)
sl@0	8740	{
sl@0	8741	TUint zoneID = gZoneConfigArray[index].iZoneId;
sl@0	8742	r = Ldd.SetZoneFlag(zoneID, gZoneConfigArray[index].iFlags, NO_MOVE_FLAG);
sl@0	8743	if (r != KErrNone)
sl@0	8744	{
sl@0	8745	test.Printf(_L("Failed to set cache size r = %d - Skipping...\n"), r);
sl@0	8746	goto skipTest24;
sl@0	8747	}
sl@0	8748	}
sl@0	8749
sl@0	8750	GetOriginalPageCount();
sl@0	8751	r = Ldd.CallDefrag(DEFRAG_TYPE_GEN, DEFRAG_VER_SYNC);
sl@0	8752	GetAllPageInfo();
sl@0	8753	if (r != KErrNone \|\|
sl@0	8754	gOriginalPageCountArray[leastPrefIndex].iAllocMovable != gZoneUtilArray[leastPrefIndex].iAllocMovable \|\|
sl@0	8755	gZoneUtilArray[leastPrefIndex].iAllocDiscardable < gOriginalPageCountArray[leastPrefIndex].iAllocDiscardable)
sl@0	8756	{
sl@0	8757	test.Printf(_L("FAIL:r=%d LeastPref(%d): origMov 0x%x curMov 0x%x origDis 0x%x curDis 0x%x\n"),
sl@0	8758	r,leastPrefIndex, gOriginalPageCountArray[leastPrefIndex].iAllocMovable, gZoneUtilArray[leastPrefIndex].iAllocMovable,
sl@0	8759	gOriginalPageCountArray[leastPrefIndex].iAllocDiscardable, gZoneUtilArray[leastPrefIndex].iAllocDiscardable);
sl@0	8760	CLEANUP(ResetRamZoneFlags());
sl@0	8761	TEST_FAIL;
sl@0	8762	}
sl@0	8763	else
sl@0	8764	{
sl@0	8765	test.Printf(_L("Passed...\n"));
sl@0	8766	}
sl@0	8767	skipTest24:
sl@0	8768	TestEnd();
sl@0	8769
sl@0	8770	test.End();
sl@0	8771	return KErrNone;
sl@0	8772	}
sl@0	8773
sl@0	8774
sl@0	8775	//
sl@0	8776	// Template functions encapsulating ControlIo magic
sl@0	8777	//
sl@0	8778	template <class C>
sl@0	8779	TInt controlIo(RFs &fs, TInt drv, TInt fkn, C &c)
sl@0	8780	{
sl@0	8781	TPtr8 ptrC((TUint8 *)&c, sizeof(C), sizeof(C));
sl@0	8782
sl@0	8783	TInt r = fs.ControlIo(drv, fkn, ptrC);
sl@0	8784
sl@0	8785	return r;
sl@0	8786	}
sl@0	8787
sl@0	8788	//
sl@0	8789	// FormatMMC
sl@0	8790	//
sl@0	8791	// Formats the MMC card
sl@0	8792	//
sl@0	8793	void FormatMMC()
sl@0	8794	{
sl@0	8795	test.Printf(_L("Formatting MMC...\n"));
sl@0	8796
sl@0	8797	RFs theFs;
sl@0	8798	TBuf<4> driveBuf = _L("D:\\");
sl@0	8799	RFormat format;
sl@0	8800	TInt count;
sl@0	8801	TChar driveLet;
sl@0	8802
sl@0	8803	TInt r = theFs.Connect();
sl@0	8804	test_KErrNone(r);
sl@0	8805
sl@0	8806	r = theFs.DriveToChar(gDrive, driveLet);
sl@0	8807	test_KErrNone(r);
sl@0	8808
sl@0	8809	driveBuf[0] = driveLet;
sl@0	8810	test.Printf(_L("Formatting Drive: %C\n"),(TInt)driveLet);
sl@0	8811
sl@0	8812	r = format.Open(theFs,driveBuf,EFullFormat,count);
sl@0	8813	test_KErrNone(r);
sl@0	8814
sl@0	8815	while(count)
sl@0	8816	{
sl@0	8817	TInt r = format.Next(count);
sl@0	8818	test_KErrNone(r);
sl@0	8819	}
sl@0	8820	format.Close();
sl@0	8821	theFs.Close();
sl@0	8822	}
sl@0	8823
sl@0	8824
sl@0	8825	//
sl@0	8826	// FileNameGen
sl@0	8827	//
sl@0	8828	// Generates file names to create the files
sl@0	8829	//
sl@0	8830	void FileNameGen(TDes16& aBuffer, TInt aLong, TInt aPos)
sl@0	8831	{
sl@0	8832	TInt padding;
sl@0	8833	TInt i = 0;
sl@0	8834	TBuf16<10> tempbuf;
sl@0	8835
sl@0	8836	_LIT(KNumber,"%d");
sl@0	8837	tempbuf.Format(KNumber,aPos);
sl@0	8838
sl@0	8839	padding = aLong-tempbuf.Size()/2;
sl@0	8840	aBuffer = _L("");
sl@0	8841
sl@0	8842	while(i < padding)
sl@0	8843	{
sl@0	8844	aBuffer.Append('F');
sl@0	8845	i++;
sl@0	8846	}
sl@0	8847	aBuffer.Append(tempbuf);
sl@0	8848
sl@0	8849	_LIT(KExtension1, ".TXT");
sl@0	8850	aBuffer.Append(KExtension1);
sl@0	8851	}
sl@0	8852
sl@0	8853
sl@0	8854	//
sl@0	8855	// CreateFiles
sl@0	8856	//
sl@0	8857	// Creates the files to fill part of the read cache
sl@0	8858	//
sl@0	8859	void CreateFiles(TInt aFiles, TInt aFileSize)
sl@0	8860	{
sl@0	8861	TInt i = 0, r = 0;
sl@0	8862	RFile file;
sl@0	8863	TBuf16<50> directory;
sl@0	8864
sl@0	8865	TBuf16<50> path;
sl@0	8866	TBuf16<50> buffer(50);
sl@0	8867
sl@0	8868	directory = gSessionPath;
sl@0	8869
sl@0	8870	test.Printf(_L("Creating %d files for filling the cache (size %d)\n"), aFiles, aFileSize);
sl@0	8871
sl@0	8872	// create a big buffer to speed things up
sl@0	8873	HBufC8* bigBuf = NULL;
sl@0	8874	const TInt KBigBufferSize = 32 * 1024;
sl@0	8875	TRAPD(res,bigBuf = HBufC8::NewL(KBigBufferSize));
sl@0	8876	test(res == KErrNone && bigBuf != NULL);
sl@0	8877
sl@0	8878	TPtr8 bigBufWritePtr(NULL, 0);
sl@0	8879	bigBufWritePtr.Set(bigBuf->Des());
sl@0	8880
sl@0	8881	// Fill the buffer
sl@0	8882	TChar aC = 'A';
sl@0	8883	for(i = 0; i < KBigBufferSize; i++)
sl@0	8884	{
sl@0	8885	bigBufWritePtr.Append((i%32) + aC);
sl@0	8886	}
sl@0	8887
sl@0	8888
sl@0	8889	i = 0;
sl@0	8890	while(i < aFiles)
sl@0	8891	{
sl@0	8892	if (i % 10 == 0)
sl@0	8893	test.Printf(_L("Creating file %d of %d...\r"), i, aFiles);
sl@0	8894	FileNameGen(buffer, 8, i+3) ;
sl@0	8895	path = directory;
sl@0	8896	path.Append(buffer);
sl@0	8897
sl@0	8898	// delete file first to ensure it's contents are not in the cache (file may be on the closed file queue)
sl@0	8899	r = gTheFs.Delete(path);
sl@0	8900	test(r == KErrNone \|\| r == KErrNotFound);
sl@0	8901
sl@0	8902	r = file.Create(gTheFs,path,EFileShareAny\|EFileWrite\|EFileReadDirectIO\|EFileWriteDirectIO);
sl@0	8903	if(r == KErrAlreadyExists)
sl@0	8904	r = file.Open(gTheFs,path,EFileShareAny\|EFileWrite\|EFileReadDirectIO\|EFileWriteDirectIO);
sl@0	8905	TInt j = 0;
sl@0	8906	i++;
sl@0	8907	while(j < aFileSize)
sl@0	8908	{
sl@0	8909	bigBufWritePtr.SetLength(Min(KBigBufferSize, aFileSize - j));
sl@0	8910	r = file.Write(bigBufWritePtr);
sl@0	8911	// Running out of disk space is expected for the last file.
sl@0	8912	// Premature "disk full" conditions need to abort.
sl@0	8913	if (r == KErrDiskFull)
sl@0	8914	{
sl@0	8915	test(i == aFiles);
sl@0	8916	break;
sl@0	8917	}
sl@0	8918	test_KErrNone(r);
sl@0	8919	j += bigBufWritePtr.Length();
sl@0	8920	}
sl@0	8921
sl@0	8922	file.Close();
sl@0	8923	}
sl@0	8924	test.Printf(_L("\nFiles created\n"));
sl@0	8925	delete bigBuf;
sl@0	8926	}
sl@0	8927
sl@0	8928
sl@0	8929	//
sl@0	8930	// FillCache
sl@0	8931	//
sl@0	8932	// Allocate discardable pages using file system caching
sl@0	8933	//
sl@0	8934	TInt FillCache(TInt aFiles, TInt aFileSize)
sl@0	8935	{
sl@0	8936	// Fail if files already open
sl@0	8937	test(!gFileCacheRun);
sl@0	8938
sl@0	8939
sl@0	8940	TInt i = 0, r = 0;
sl@0	8941	TBuf16<50> directory;
sl@0	8942
sl@0	8943	TBuf16<50> path;
sl@0	8944	TBuf16<50> buffer(50);
sl@0	8945	HBufC8* buf = NULL;
sl@0	8946	TPtr8 bufPtr(NULL, 0);
sl@0	8947
sl@0	8948	TRAPD(res,buf = HBufC8::NewL(2));
sl@0	8949	test(res == KErrNone && buf != NULL);
sl@0	8950	bufPtr.Set(buf->Des());
sl@0	8951
sl@0	8952	TESTDEBUG(test.Printf(_L("Filling the cache\n")));
sl@0	8953
sl@0	8954	directory = gSessionPath;
sl@0	8955
sl@0	8956	i = 0;
sl@0	8957
sl@0	8958	GetAllPageInfo();
sl@0	8959	TESTDEBUG(test.Printf(_L("total disc pages = %d\n"), gTotalPageCount.iDiscardablePages));
sl@0	8960
sl@0	8961
sl@0	8962	while(i < aFiles)
sl@0	8963	{
sl@0	8964	FileNameGen(buffer, 8, i+3) ;
sl@0	8965	path = directory;
sl@0	8966	path.Append(buffer);
sl@0	8967	r = gFile[i].Open(gTheFs,path,EFileShareAny\|EFileRead\|EFileReadBuffered\|EFileReadAheadOff);
sl@0	8968	test_KErrNone(r);
sl@0	8969
sl@0	8970	TInt j = 0;
sl@0	8971	while(j < aFileSize)
sl@0	8972	{
sl@0	8973	r = gFile[i].Read(j,bufPtr);
sl@0	8974	test_KErrNone(r);
sl@0	8975	j += 4 * 1024;
sl@0	8976	}
sl@0	8977	i++;
sl@0	8978	}
sl@0	8979	gFileCacheRun = ETrue;
sl@0	8980	GetAllPageInfo();
sl@0	8981	TESTDEBUG(test.Printf(_L("after - total disc pages = %d\n"), gTotalPageCount.iDiscardablePages));
sl@0	8982	delete buf;
sl@0	8983	TESTDEBUG(test.Printf(_L("Cache filled\n")));
sl@0	8984
sl@0	8985	#if defined(_DEBUG) \|\| defined(_DEBUG_RELEASE)
sl@0	8986	// get number of items on Page Cache
sl@0	8987	TFileCacheStats startPageCacheStats;
sl@0	8988
sl@0	8989	r = controlIo(gTheFs,gDrive, KControlIoFileCacheStats, startPageCacheStats);
sl@0	8990	test.Printf(_L("control stats r= %d\n"), r);
sl@0	8991	test(r==KErrNone \|\| r == KErrNotSupported);
sl@0	8992
sl@0	8993	TESTDEBUG(test.Printf(_L("Allocated segment count=%d\n"),startPageCacheStats.iAllocatedSegmentCount));
sl@0	8994	#endif
sl@0	8995	// if we do not have any discardable pages then something went
sl@0	8996	// wrong with file caching
sl@0	8997	if (gTotalPageCount.iDiscardablePages == 0)
sl@0	8998	return KErrNotSupported;
sl@0	8999
sl@0	9000	return KErrNone;
sl@0	9001	}
sl@0	9002
sl@0	9003
sl@0	9004
sl@0	9005	//
sl@0	9006	// SetUpMMC
sl@0	9007	//
sl@0	9008	// Sets up the MMC to be used by the test by creating files on the MMC
sl@0	9009	//
sl@0	9010	void SetUpMMC()
sl@0	9011	{
sl@0	9012	FormatMMC();
sl@0	9013
sl@0	9014	TInt r = 0;
sl@0	9015
sl@0	9016	TChar driveToTest;
sl@0	9017
sl@0	9018	TVolumeInfo volInfo;
sl@0	9019
sl@0	9020	r = gTheFs.DriveToChar(gDrive, driveToTest);
sl@0	9021	test_KErrNone(r);
sl@0	9022
sl@0	9023	r = gTheFs.CharToDrive(driveToTest,gDrive);
sl@0	9024	test_KErrNone(r);
sl@0	9025
sl@0	9026	gSessionPath = _L("?:\\F32-TST\\");
sl@0	9027	gSessionPath[0] = (TUint16) driveToTest;
sl@0	9028	test.Printf(_L("Drive Letter=%C\n"),(TInt)driveToTest);
sl@0	9029
sl@0	9030	TDriveInfo info;
sl@0	9031	r = gTheFs.Drive(info,gDrive);
sl@0	9032	test_KErrNone(r);
sl@0	9033	r = gTheFs.SetSessionPath(gSessionPath);
sl@0	9034	test_KErrNone(r);
sl@0	9035	r = gTheFs.MkDirAll(gSessionPath);
sl@0	9036	if (r != KErrNone && r != KErrAlreadyExists)
sl@0	9037	{
sl@0	9038	test_KErrNone(r);
sl@0	9039	}
sl@0	9040
sl@0	9041	r = gTheFs.Volume(volInfo, gDrive);
sl@0	9042	test_KErrNone(r);
sl@0	9043	TInt64 gMediaSize = volInfo.iSize;
sl@0	9044
sl@0	9045	// This calculation is approximate because the client cannot know
sl@0	9046	// internal allocation mechanisms of the filesystem, i.e. how much
sl@0	9047	// metadata is associated with a file of name X / size Y, whether
sl@0	9048	// space used by such metadata is reflected in TDriveInfo::iSize and
sl@0	9049	// what block/clustersize the filesystem will round filesizes to.
sl@0	9050	// The last file that fills up the drive may therefore be partial
sl@0	9051	// (smaller than this calculation predicts).
sl@0	9052	TInt maxPossibleFiles = gFilesNeededToFillCache;
sl@0	9053	test.Printf(_L("Original files needed = %d\n"), maxPossibleFiles);
sl@0	9054	if(gMediaSize < (KDefaultCacheSize * maxPossibleFiles))
sl@0	9055	{
sl@0	9056	maxPossibleFiles = (gMediaSize - 10) / KDefaultCacheSize;
sl@0	9057	test.Printf(_L("Disk size is smaller - files needed = %d\n"), maxPossibleFiles);
sl@0	9058	}
sl@0	9059	gFilesNeededToFillCache = maxPossibleFiles;
sl@0	9060	CreateFiles(gFilesNeededToFillCache, KDefaultCacheSize);
sl@0	9061	}
sl@0	9062
sl@0	9063
sl@0	9064	//
sl@0	9065	// TestFileCaching
sl@0	9066	//
sl@0	9067	//---------------------------------------------------------------------------------------------------------------------
sl@0	9068	//! @SYMTestCaseID KBASE-t_ramdefrag-0599
sl@0	9069	//! @SYMTestType CIT
sl@0	9070	//! @SYMTestCaseDesc Verifying that when File System Caching allocates dicardable pages,
sl@0	9071	//! Defrag and allocation of fixed pages happens correctly.
sl@0	9072	//! @SYMPREQ PREQ308
sl@0	9073	//! @SYMTestPriority High
sl@0	9074	//! @SYMTestActions
sl@0	9075	//! 1. Fill the file system cache to allocate discardable pages
sl@0	9076	//! following this call EmptyRamZone() in a zone with discardable pages.
sl@0	9077	//! 2. Fill the file system cache to allocate discardable pages
sl@0	9078	//! folling this allocate discontiguous fixed pages to a zone
sl@0	9079	//! 3. Fill the file system cache to allocate discardable pages
sl@0	9080	//! . following this allocate discontuguous fixed pages
sl@0	9081	//! 4. Fill the file system cache to allocate discardable pages
sl@0	9082	//! following this allocate less than 16 contiguous fixed pages
sl@0	9083	//! 5. Fill the file system cache to allocate discardable pages
sl@0	9084	//! following this allocate more than 16 contiguous fixed pages
sl@0	9085	//!
sl@0	9086	//! @SYMTestExpectedResults
sl@0	9087	//! 1. Discardable pages are removed
sl@0	9088	//! 2. KErrNone
sl@0	9089	//! 3. KErrNone
sl@0	9090	//! 4. KErrNone and numDiscardablePages != 0
sl@0	9091	//! 5. KErrNone and numDiscardablePages = 0
sl@0	9092	//---------------------------------------------------------------------------------------------------------------------
sl@0	9093	TInt TestFileCaching()
sl@0	9094	{
sl@0	9095	const TUint KDisPagesReq = 1;
sl@0	9096	TInt r = KErrNone;
sl@0	9097	TInt allocSize = 0;
sl@0	9098	TUint zoneID = 0;
sl@0	9099	TUint index = 0;
sl@0	9100	TUint minDiscardPages = 0;
sl@0	9101	if (gDrive == KNoRemovableDrive)
sl@0	9102	{
sl@0	9103	test.Start(_L("Cannot find drive to write files to - Skipping FS Caching Tests\n"));
sl@0	9104	test.End();
sl@0	9105	return 0;
sl@0	9106	}
sl@0	9107
sl@0	9108	r = gTheFs.Connect();
sl@0	9109	test_KErrNone(r);
sl@0	9110
sl@0	9111	SetUpMMC();
sl@0	9112
sl@0	9113	RRamDefragFuncTestLdd Ldd2;
sl@0	9114	r = Ldd2.Open();
sl@0	9115	test_KErrNone(r);
sl@0	9116
sl@0	9117	test.Start(_L("Test1: Test EmptyRamZone() clears file server cache pages"));
sl@0	9118	TestStart();
sl@0	9119
sl@0	9120	AllocMovable(gChunkArray1, gChunkArraySize1, KNumAllocChunks);
sl@0	9121	FreeMovable(gChunkArray1, gChunkArraySize1);
sl@0	9122
sl@0	9123	r = FillCache(gFilesNeededToFillCache, KDefaultCacheSize);
sl@0	9124	if (r != KErrNone)
sl@0	9125	{
sl@0	9126	test.Printf(_L("File system caching failed - Skipping all file caching tests...\n"));
sl@0	9127	goto skipFileCacheTests;
sl@0	9128	}
sl@0	9129	RemoveChunkAlloc(gChunkArray1, gChunkArraySize1);
sl@0	9130
sl@0	9131	GetAllPageInfo();
sl@0	9132	while (index < gZoneCount && gZoneUtilArray[index].iAllocDiscardable < KDisPagesReq)
sl@0	9133	{
sl@0	9134	++ index;
sl@0	9135	}
sl@0	9136
sl@0	9137	if (index == gZoneCount)
sl@0	9138	{
sl@0	9139	test.Printf(_L("Cannot find zone to perform test on - Skipping test step...\n"));
sl@0	9140	}
sl@0	9141	else
sl@0	9142	{
sl@0	9143	zoneID = gZoneConfigArray[index].iZoneId;
sl@0	9144
sl@0	9145	r = Ldd.CallDefrag(DEFRAG_TYPE_EMPTY, DEFRAG_VER_SYNC, zoneID);
sl@0	9146
sl@0	9147	GetAllPageInfo();
sl@0	9148	if (gZoneUtilArray[index].iAllocDiscardable != 0)
sl@0	9149	{
sl@0	9150	test.Printf(_L("Fail: Zone ID 0x%x has 0x%x discardable pages\n"), zoneID, gZoneUtilArray[index].iAllocDiscardable);
sl@0	9151	TEST_FAIL;
sl@0	9152	}
sl@0	9153	else
sl@0	9154	{
sl@0	9155	test.Printf(_L("Passed...\n"));
sl@0	9156	}
sl@0	9157	}
sl@0	9158	TestEnd();
sl@0	9159
sl@0	9160	test.Next(_L("Test2: Filling the FS Cache and allocating fixed pages to a zone"));
sl@0	9161	TestStart();
sl@0	9162
sl@0	9163	AllocMovable(gChunkArray1, gChunkArraySize1, KNumAllocChunks);
sl@0	9164	FreeMovable(gChunkArray1, gChunkArraySize1);
sl@0	9165
sl@0	9166	r = FillCache(gFilesNeededToFillCache, KDefaultCacheSize);
sl@0	9167	if (r != KErrNone)
sl@0	9168	{
sl@0	9169	test.Printf(_L("File system caching failed - Skipping all file caching tests...\n"));
sl@0	9170	goto skipFileCacheTests;
sl@0	9171	}
sl@0	9172	RemoveChunkAlloc(gChunkArray1, gChunkArraySize1);
sl@0	9173
sl@0	9174	GetAllPageInfo();
sl@0	9175	index = 0;
sl@0	9176	while (index < gZoneCount && gZoneUtilArray[index].iAllocDiscardable < KDisPagesReq)
sl@0	9177	{
sl@0	9178	++ index;
sl@0	9179	}
sl@0	9180
sl@0	9181	if (index == gZoneCount)
sl@0	9182	{
sl@0	9183	test.Printf(_L("Cannot find zone to perform test on - Skipping test step...\n"));
sl@0	9184	}
sl@0	9185	else
sl@0	9186	{
sl@0	9187	zoneID = gZoneConfigArray[index].iZoneId;
sl@0	9188
sl@0	9189	// Just need to attempt to allocate one more page than there is free in the zone
sl@0	9190	allocSize = gZoneUtilArray[index].iFreePages + 1;
sl@0	9191
sl@0	9192	test.Printf(_L("Allocating 0x%x fixed pages to zone ID 0x%x.....\n"), allocSize, zoneID);
sl@0	9193	r = Ldd.ZoneAllocDiscontiguous(zoneID, allocSize);
sl@0	9194	test.Printf(_L("r = %d\n"), r);
sl@0	9195
sl@0	9196	GetAllPageInfo();
sl@0	9197	if (r != KErrNone)
sl@0	9198	{
sl@0	9199	test.Printf(_L("Fail: Fixed pages have not been allocated, r = %d, expected = %d\n"), r, KErrNone);
sl@0	9200	TEST_FAIL;
sl@0	9201	}
sl@0	9202	else
sl@0	9203	{
sl@0	9204	test.Printf(_L("Passed...\n"));
sl@0	9205	}
sl@0	9206	TESTDEBUG(test.Printf(_L("Freeing all Fixed Pages.....\n")));
sl@0	9207	Ldd.FreeAllFixedPages();
sl@0	9208	}
sl@0	9209	TestEnd();
sl@0	9210
sl@0	9211
sl@0	9212	test.Next(_L("Test3: Filling the FS Cache and allocating fixed pages"));
sl@0	9213	TestStart();
sl@0	9214	r = FillCache(gFilesNeededToFillCache, KDefaultCacheSize);
sl@0	9215	if (r != KErrNone)
sl@0	9216	{
sl@0	9217	test.Printf(_L("File system caching failed - Skipping all file caching tests...\n"));
sl@0	9218	goto skipFileCacheTests;
sl@0	9219	}
sl@0	9220
sl@0	9221	GetAllPageInfo();
sl@0	9222	index = 0;
sl@0	9223	while (index < gZoneCount && gZoneUtilArray[index].iAllocDiscardable < KDisPagesReq)
sl@0	9224	{
sl@0	9225	++ index;
sl@0	9226	}
sl@0	9227
sl@0	9228	if (index == gZoneCount)
sl@0	9229	{
sl@0	9230	test.Printf(_L("Cannot find zone to perform test on - Skipping test step...\n"));
sl@0	9231	}
sl@0	9232	else
sl@0	9233	{
sl@0	9234	zoneID = gZoneConfigArray[index].iZoneId;
sl@0	9235
sl@0	9236	allocSize = 14;
sl@0	9237
sl@0	9238	TESTDEBUG(test.Printf(_L("Filling the remaining free pages with fixed pages.....\n")));
sl@0	9239	Ldd.AllocateFixed(gTotalPageCount.iFreePages);
sl@0	9240
sl@0	9241	test.Printf(_L("Allocating 0x%x fixed pages to zone ID 0x%x.....\n"), allocSize, zoneID);
sl@0	9242	r = Ldd2.AllocateFixed(allocSize);
sl@0	9243
sl@0	9244	TESTDEBUG(test.Printf(_L("r = %d\n"), r));
sl@0	9245
sl@0	9246	GetAllPageInfo();
sl@0	9247	if (r != KErrNone)
sl@0	9248	{
sl@0	9249	test.Printf(_L("Fail: Fixed pages have not been allocated, r = %d, expected = %d\n"), r, KErrNone);
sl@0	9250	CLEANUP(Ldd.FreeAllFixedPages());
sl@0	9251	CLEANUP(Ldd2.FreeAllFixedPages());
sl@0	9252	TEST_FAIL;
sl@0	9253	}
sl@0	9254	else
sl@0	9255	{
sl@0	9256	test.Printf(_L("Passed...\n"));
sl@0	9257	}
sl@0	9258	TESTDEBUG(test.Printf(_L("Freeing all Fixed Pages.....\n")));
sl@0	9259	Ldd2.FreeAllFixedPages();
sl@0	9260	}
sl@0	9261	TestEnd();
sl@0	9262
sl@0	9263	test.Next(_L("Test4: Filling the FS Cache and allocating less than 16 contiguous fixed pages"));
sl@0	9264	TestStart();
sl@0	9265
sl@0	9266	r = FillCache(gFilesNeededToFillCache, KDefaultCacheSize);
sl@0	9267	if (r != KErrNone)
sl@0	9268	{
sl@0	9269	test.Printf(_L("File system caching failed - Skipping all file caching tests...\n"));
sl@0	9270	goto skipFileCacheTests;
sl@0	9271	}
sl@0	9272	allocSize = 14 << gPageShift;
sl@0	9273
sl@0	9274	TESTDEBUG(test.Printf(_L("Filling the remaining free pages with fixed pages.....\n")));
sl@0	9275	GetAllPageInfo();
sl@0	9276	// Allocate the fixed array before getting any page counts
sl@0	9277	for (TUint index = 0; index < gZoneCount; index++)
sl@0	9278	{
sl@0	9279	GetAllPageInfo();
sl@0	9280	if (gZoneUtilArray[index].iFreePages)
sl@0	9281	{
sl@0	9282	r = Ldd.ZoneAllocToManyArray(index, gZoneUtilArray[index].iFreePages);
sl@0	9283	if (r != KErrNone)
sl@0	9284	{
sl@0	9285	test.Printf(_L("Failed to allocate fixed array Zone %d r = %d - Skipping...\n"), index, r);
sl@0	9286	goto SkipTest4;
sl@0	9287	}
sl@0	9288	}
sl@0	9289	}
sl@0	9290
sl@0	9291	// Now fill all zones with fixed pages, 1 zone at a time
sl@0	9292	// to avoid the discardable pages being disturbed
sl@0	9293	for (TUint index = 0; index < gZoneCount; index++)
sl@0	9294	{
sl@0	9295	GetAllPageInfo();
sl@0	9296	if (gZoneUtilArray[index].iFreePages)
sl@0	9297	{
sl@0	9298	r = Ldd.ZoneAllocToMany2(index, gZoneUtilArray[index].iFreePages);
sl@0	9299	if (r != KErrNone)
sl@0	9300	{
sl@0	9301	test.Printf(_L("Failed to allocate %d fixed to Zone %d r = %d - Skipping...\n"),
sl@0	9302	gZoneUtilArray[index].iFreePages, index, r);
sl@0	9303	goto SkipTest4;
sl@0	9304	}
sl@0	9305	}
sl@0	9306	}
sl@0	9307
sl@0	9308	GetAllPageInfo();
sl@0	9309	test.Printf(_L("number of free pages = 0x%x\n"), gTotalPageCount.iFreePages);
sl@0	9310	if (gTotalPageCount.iFreePages \|\|
sl@0	9311	gTotalPageCount.iDiscardablePages <= (TUint)(allocSize >> gPageShift))
sl@0	9312	{
sl@0	9313	test.Printf(_L("Setup failed - Skipping...\n"));
sl@0	9314	goto SkipTest4;
sl@0	9315	}
sl@0	9316
sl@0	9317	test.Printf(_L("Allocating 0x%x fixed pages.....\n"), allocSize >> gPageShift);
sl@0	9318	r = Ldd2.AllocContiguous(allocSize);
sl@0	9319	TESTDEBUG(test.Printf(_L("r = %d\n"), r));
sl@0	9320
sl@0	9321	GetAllPageInfo();
sl@0	9322	if (r != KErrNone \|\| !gTotalPageCount.iDiscardablePages)
sl@0	9323	{
sl@0	9324	test.Printf(_L("Fail: Fixed pages have not been allocated, r = %d, expected = %d\n"), r, KErrNone);
sl@0	9325	CLEANUP(Ldd.FreeAllFixedPages());
sl@0	9326	CLEANUP(Ldd2.FreeAllFixedPages());
sl@0	9327	TEST_FAIL;
sl@0	9328	}
sl@0	9329	else
sl@0	9330	{
sl@0	9331	test.Printf(_L("Passed...\n"));
sl@0	9332	}
sl@0	9333
sl@0	9334	SkipTest4:
sl@0	9335	TESTDEBUG(test.Printf(_L("Freeing all Fixed Pages.....\n")));
sl@0	9336	Ldd2.FreeAllFixedPages();
sl@0	9337	TestEnd();
sl@0	9338
sl@0	9339	test.Next(_L("Test5: Filling the FS Cache and allocating more than 16 contiguous fixed pages"));
sl@0	9340	TestStart();
sl@0	9341	// TestEnd() will have reduced any cache pages to minimum so just get current
sl@0	9342	// count of discardable pages.
sl@0	9343	GetAllPageInfo();
sl@0	9344	minDiscardPages = gTotalPageCount.iDiscardablePages;
sl@0	9345
sl@0	9346	r = FillCache(gFilesNeededToFillCache, KDefaultCacheSize);
sl@0	9347	if (r != KErrNone)
sl@0	9348	{
sl@0	9349	test.Printf(_L("File system caching failed - Skipping all file caching tests...\n"));
sl@0	9350	goto skipFileCacheTests;
sl@0	9351	}
sl@0	9352
sl@0	9353	allocSize = 18 << gPageShift;
sl@0	9354
sl@0	9355	TESTDEBUG(test.Printf(_L("Filling the remaining free pages with fixed pages.....\n")));
sl@0	9356	GetAllPageInfo();
sl@0	9357
sl@0	9358	// Allocate the fixed array before getting any page counts
sl@0	9359	for (TUint index = 0; index < gZoneCount; index++)
sl@0	9360	{
sl@0	9361	GetAllPageInfo();
sl@0	9362	if (gZoneUtilArray[index].iFreePages)
sl@0	9363	{
sl@0	9364	r = Ldd.ZoneAllocToManyArray(index, gZoneUtilArray[index].iFreePages);
sl@0	9365	if (r != KErrNone)
sl@0	9366	{
sl@0	9367	test.Printf(_L("Failed to allocate fixed array Zone %d r = %d - Skipping...\n"), index, r);
sl@0	9368	goto SkipTest5;
sl@0	9369	}
sl@0	9370	}
sl@0	9371	}
sl@0	9372
sl@0	9373	// Now fill all zones with fixed pages, 1 zone at a time
sl@0	9374	// to avoid the discardable pages being disturbed
sl@0	9375	for (TUint index = 0; index < gZoneCount; index++)
sl@0	9376	{
sl@0	9377	GetAllPageInfo();
sl@0	9378	if (gZoneUtilArray[index].iFreePages)
sl@0	9379	{
sl@0	9380	r = Ldd.ZoneAllocToMany2(index, gZoneUtilArray[index].iFreePages);
sl@0	9381	if (r != KErrNone)
sl@0	9382	{
sl@0	9383	test.Printf(_L("Failed to allocate %d fixed to Zone %d r = %d - Skipping...\n"),
sl@0	9384	gZoneUtilArray[index].iFreePages, index, r);
sl@0	9385	goto SkipTest5;
sl@0	9386	}
sl@0	9387	}
sl@0	9388	}
sl@0	9389
sl@0	9390	GetAllPageInfo();
sl@0	9391	test.Printf(_L("number of free pages = 0x%x\n"), gTotalPageCount.iFreePages);
sl@0	9392	if (gTotalPageCount.iFreePages)
sl@0	9393	{
sl@0	9394	test.Printf(_L("Setup failed - Skipping...\n"));
sl@0	9395	goto SkipTest5;
sl@0	9396	}
sl@0	9397
sl@0	9398	test.Printf(_L("Allocating 0x%x fixed pages.....\n"), allocSize >> gPageShift);
sl@0	9399	r = Ldd2.AllocContiguous(allocSize);
sl@0	9400	TESTDEBUG(test.Printf(_L("r = %d\n"), r));
sl@0	9401
sl@0	9402	GetAllPageInfo();
sl@0	9403	if (r != KErrNone \|\| gTotalPageCount.iDiscardablePages != minDiscardPages)
sl@0	9404	{
sl@0	9405	test.Printf(_L("Fail: r = %d, expected = %d - Discardable Pages = 0x%x, expected = %d\n"),
sl@0	9406	r, KErrNone, gTotalPageCount.iDiscardablePages, minDiscardPages);
sl@0	9407	CLEANUP(Ldd.FreeAllFixedPages());
sl@0	9408	CLEANUP(Ldd2.FreeAllFixedPages());
sl@0	9409	TEST_FAIL;
sl@0	9410	}
sl@0	9411	else
sl@0	9412	{
sl@0	9413	test.Printf(_L("Passed...\n"));
sl@0	9414	}
sl@0	9415	SkipTest5:
sl@0	9416
sl@0	9417	skipFileCacheTests:
sl@0	9418	TestEnd();
sl@0	9419	TESTDEBUG(test.Printf(_L("Freeing all Fixed Pages.....\n")));
sl@0	9420	Ldd2.FreeAllFixedPages();
sl@0	9421	Ldd2.Close();
sl@0	9422	gTheFs.Close();
sl@0	9423	FormatMMC();
sl@0	9424	test.End();
sl@0	9425	return KErrNone;
sl@0	9426
sl@0	9427	}
sl@0	9428
sl@0	9429
sl@0	9430	//
sl@0	9431	// TestOneZoneConfig
sl@0	9432	//
sl@0	9433	//---------------------------------------------------------------------------------------------------------------------
sl@0	9434	//! @SYMTestCaseID KBASE-t_ramdefrag-0600
sl@0	9435	//! @SYMTestType CIT
sl@0	9436	//! @SYMTestCaseDesc Verifying that when only 1 zone is cofigured in the variant, that
sl@0	9437	//! the defrag and allocation of fixed pages happend correctly
sl@0	9438	//! @SYMPREQ PREQ308
sl@0	9439	//! @SYMTestPriority High
sl@0	9440	//! @SYMTestActions
sl@0	9441	//! 1. Fragment the memory and perform a DefragRam
sl@0	9442	//! 2. Fragment the memory and perform an EmptyZone
sl@0	9443	//! 3. Fragment the memory and perform a ClaimZone
sl@0	9444	//! 4. Call ZoneAllocPhysicalRam to allocate discontiguous fixed pages
sl@0	9445	//! 5. Call ZoneAllocPhysicalRam to allocate contiguous fixed pages
sl@0	9446	//!
sl@0	9447	//! @SYMTestExpectedResults
sl@0	9448	//! 1. Number of pages does not differ from the original
sl@0	9449	//! 2. KErrNoMemroy and discardable pages are discarded of
sl@0	9450	//! 3. KErrNoMemory
sl@0	9451	//! 4. KErrNone
sl@0	9452	//! 5. KErrNone
sl@0	9453	//---------------------------------------------------------------------------------------------------------------------
sl@0	9454	TInt TestOneZoneConfig()
sl@0	9455	{
sl@0	9456	TInt r = gTheFs.Connect();
sl@0	9457	test_KErrNone(r);
sl@0	9458
sl@0	9459	if (gDrive != KNoRemovableDrive)
sl@0	9460	{
sl@0	9461	SetUpMMC();
sl@0	9462	}
sl@0	9463
sl@0	9464	TUint index = 0;
sl@0	9465	GetAllPageInfo();
sl@0	9466	TUint zoneID = gZoneConfigArray[index].iZoneId;
sl@0	9467	test.Printf(_L("Zone ID = 0x%x\n"), zoneID);
sl@0	9468	TUint minCacheSize = 0;
sl@0	9469	TUint maxCacheSize = 0;
sl@0	9470	TUint currentCacheSize = 0;
sl@0	9471
sl@0	9472
sl@0	9473	TUint origFree = 0;
sl@0	9474	TUint origUnknown = 0;
sl@0	9475	TUint origFixed = 0;
sl@0	9476	TUint origMovable = 0;
sl@0	9477	TUint origDiscard = 0;
sl@0	9478	TUint origOther = 0;
sl@0	9479
sl@0	9480	if (gPagedRom)
sl@0	9481	{
sl@0	9482	DPTest::CacheSize(minCacheSize,maxCacheSize,currentCacheSize);
sl@0	9483	TESTDEBUG(test.Printf(_L("Original CacheSize: minCacheSize = 0x%x, maxCacheSize = 0x%x, currentCacheSize = 0x%x\n"),
sl@0	9484	minCacheSize >> gPageShift, maxCacheSize >> gPageShift, currentCacheSize >> gPageShift));
sl@0	9485
sl@0	9486	TUint setMin = 60 << gPageShift;
sl@0	9487	TInt setMax = -1;
sl@0	9488	TInt r = DPTest::SetCacheSize(setMin, setMax);
sl@0	9489	if (r != KErrNone)
sl@0	9490	{
sl@0	9491	test.Printf(_L("r = %d, expected = %d\n"), r, KErrNone);
sl@0	9492	CLEANUP(ResetDPCache());
sl@0	9493	TEST_FAIL;
sl@0	9494	}
sl@0	9495	DPTest::CacheSize(minCacheSize,maxCacheSize,currentCacheSize);
sl@0	9496	TESTDEBUG(test.Printf(_L("Original CacheSize: minCacheSize = 0x%x, maxCacheSize = 0x%x, currentCacheSize = 0x%x\n"),
sl@0	9497	minCacheSize >> gPageShift, maxCacheSize >> gPageShift, currentCacheSize >> gPageShift));
sl@0	9498	}
sl@0	9499
sl@0	9500	test.Start(_L("Test1: Fragmenting the memory and performing a general defrag"));
sl@0	9501	TestStart();
sl@0	9502
sl@0	9503	AllocMovable(gChunkArray1, gChunkArraySize1, KNumAllocChunks);
sl@0	9504	FreeMovable(gChunkArray1, gChunkArraySize1);
sl@0	9505
sl@0	9506	if (gDrive != KNoRemovableDrive)
sl@0	9507	{
sl@0	9508	FillCache(gFilesNeededToFillCache, KDefaultCacheSize);
sl@0	9509	}
sl@0	9510	else
sl@0	9511	{
sl@0	9512	test.Printf(_L("Cannot find drive to write files to - Not allocating discardable pages through FS Caching\n"));
sl@0	9513	}
sl@0	9514
sl@0	9515	GetAllPageInfo();
sl@0	9516	origFree = gTotalPageCount.iFreePages;
sl@0	9517	origUnknown = gTotalPageCount.iUnknownPages;
sl@0	9518	origFixed = gTotalPageCount.iFixedPages;
sl@0	9519	origMovable = gTotalPageCount.iMovablePages;
sl@0	9520	origDiscard = gTotalPageCount.iDiscardablePages;
sl@0	9521	origOther = gTotalPageCount.iOtherPages;
sl@0	9522
sl@0	9523	r = Ldd.CallDefrag(DEFRAG_TYPE_GEN, DEFRAG_VER_SYNC);
sl@0	9524
sl@0	9525	GetAllPageInfo();
sl@0	9526
sl@0	9527	if ((origUnknown != gTotalPageCount.iUnknownPages) \|\|
sl@0	9528	(origFixed != gTotalPageCount.iFixedPages) \|\|
sl@0	9529	(origMovable != gTotalPageCount.iMovablePages) \|\|
sl@0	9530	(origDiscard != gTotalPageCount.iDiscardablePages) \|\|
sl@0	9531	(origOther != gTotalPageCount.iOtherPages))
sl@0	9532	{
sl@0	9533	test.Printf(_L("Fail: Pages after defrag are not equal to those before"));
sl@0	9534	CLEANUP(RemoveChunkAlloc(gChunkArray1, gChunkArraySize1));
sl@0	9535	TEST_FAIL;
sl@0	9536	}
sl@0	9537	else
sl@0	9538	{
sl@0	9539	test.Printf(_L("Passed..."));
sl@0	9540	}
sl@0	9541	// This will free any allocated memory
sl@0	9542	TestEnd();
sl@0	9543
sl@0	9544
sl@0	9545	test.Next(_L("Test2: Fragmenting the memory and performing an EmptyZone"));
sl@0	9546	TestStart();
sl@0	9547
sl@0	9548	AllocMovable(gChunkArray1, gChunkArraySize1, KNumAllocChunks);
sl@0	9549	FreeMovable(gChunkArray1, gChunkArraySize1);
sl@0	9550
sl@0	9551	if (gDrive != KNoRemovableDrive)
sl@0	9552	{
sl@0	9553	FillCache(gFilesNeededToFillCache, KDefaultCacheSize);
sl@0	9554	}
sl@0	9555	else
sl@0	9556	{
sl@0	9557	test.Printf(_L("Cannot find drive to write files to - Not allocating discardable pages through FS Caching\n"));
sl@0	9558	}
sl@0	9559	r = Ldd.CallDefrag(DEFRAG_TYPE_EMPTY, DEFRAG_VER_SYNC, zoneID);
sl@0	9560
sl@0	9561	if (r != KErrNoMemory \|\| CheckZoneIsOff(index))
sl@0	9562	{
sl@0	9563	test.Printf(_L("Fail: r = %d, expected = -4"), r);
sl@0	9564	CLEANUP(RemoveChunkAlloc(gChunkArray1, gChunkArraySize1));
sl@0	9565	TEST_FAIL;
sl@0	9566	}
sl@0	9567	else
sl@0	9568	{
sl@0	9569	test.Printf(_L("Passed..."));
sl@0	9570	}
sl@0	9571	// This will free any allocated memory
sl@0	9572	TestEnd();
sl@0	9573
sl@0	9574	test.Next(_L("Test3: Fragmenting the memory and performing a ClaimZone"));
sl@0	9575	TestStart();
sl@0	9576
sl@0	9577	AllocMovable(gChunkArray1, gChunkArraySize1, KNumAllocChunks);
sl@0	9578	FreeMovable(gChunkArray1, gChunkArraySize1);
sl@0	9579
sl@0	9580	if (gDrive != KNoRemovableDrive)
sl@0	9581	{
sl@0	9582	FillCache(gFilesNeededToFillCache, KDefaultCacheSize);
sl@0	9583	}
sl@0	9584	else
sl@0	9585	{
sl@0	9586	test.Printf(_L("Cannot find drive to write files to - Not allocating discardable pages through FS Caching\n"));
sl@0	9587	}
sl@0	9588
sl@0	9589	GetAllPageInfo();
sl@0	9590	origMovable = gTotalPageCount.iMovablePages;
sl@0	9591
sl@0	9592	r = Ldd.CallDefrag(DEFRAG_TYPE_CLAIM, DEFRAG_VER_SYNC, zoneID);
sl@0	9593
sl@0	9594	GetAllPageInfo();
sl@0	9595	if (r != KErrNoMemory \|\| origMovable != gTotalPageCount.iMovablePages)
sl@0	9596	{
sl@0	9597	test.Printf(_L("Fail: r = %d, expected = -4"), r);
sl@0	9598	CLEANUP(RemoveChunkAlloc(gChunkArray1, gChunkArraySize1));
sl@0	9599	TEST_FAIL;
sl@0	9600	}
sl@0	9601	else
sl@0	9602	{
sl@0	9603	test.Printf(_L("Passed..."));
sl@0	9604	}
sl@0	9605	// This will free any allocated memory.
sl@0	9606	TestEnd();
sl@0	9607
sl@0	9608	test.Next(_L("Test4: Calling ZoneAllocPhysicalRam to allocate discontiguous fixed pages"));
sl@0	9609	TestStart();
sl@0	9610
sl@0	9611	AllocMovable(gChunkArray1, gChunkArraySize1, KNumAllocChunks);
sl@0	9612	FreeMovable(gChunkArray1, gChunkArraySize1);
sl@0	9613
sl@0	9614	GetAllPageInfo();
sl@0	9615	origFree = gTotalPageCount.iFreePages;
sl@0	9616	origUnknown = gTotalPageCount.iUnknownPages;
sl@0	9617	origFixed = gTotalPageCount.iFixedPages;
sl@0	9618	origMovable = gTotalPageCount.iMovablePages;
sl@0	9619	origDiscard = gTotalPageCount.iDiscardablePages;
sl@0	9620	origOther = gTotalPageCount.iOtherPages;
sl@0	9621
sl@0	9622	r = Ldd.ZoneAllocDiscontiguous(zoneID, (TInt)(origFree / 2));
sl@0	9623
sl@0	9624	GetAllPageInfo();
sl@0	9625	if (gTotalPageCount.iFixedPages < (origFixed + (origFree / 2)))
sl@0	9626	{
sl@0	9627	test.Printf(_L("Fail: fixed pages = 0x%x, expected >= 0x%x\n"),
sl@0	9628	gTotalPageCount.iFixedPages, (origFixed + (origFree / 2)));
sl@0	9629	CLEANUP(Ldd.FreeAllFixedPages());
sl@0	9630	CLEANUP(RemoveChunkAlloc(gChunkArray1, gChunkArraySize1));
sl@0	9631	TEST_FAIL;
sl@0	9632	}
sl@0	9633	else
sl@0	9634	{
sl@0	9635	test.Printf(_L("Passed..."));
sl@0	9636	}
sl@0	9637	Ldd.FreeAllFixedPages();
sl@0	9638	RemoveChunkAlloc(gChunkArray1, gChunkArraySize1);
sl@0	9639	TestEnd();
sl@0	9640
sl@0	9641
sl@0	9642	test.Next(_L("Test5: Calling ZoneAllocPhysicalRam to allocate contiguous fixed pages"));
sl@0	9643	TestStart();
sl@0	9644
sl@0	9645	AllocMovable(gChunkArray1, gChunkArraySize1, KNumAllocChunks);
sl@0	9646	FreeMovable(gChunkArray1, gChunkArraySize1);
sl@0	9647
sl@0	9648	GetAllPageInfo();
sl@0	9649	origFree = gTotalPageCount.iFreePages;
sl@0	9650	origUnknown = gTotalPageCount.iUnknownPages;
sl@0	9651	origFixed = gTotalPageCount.iFixedPages;
sl@0	9652	origMovable = gTotalPageCount.iMovablePages;
sl@0	9653	origDiscard = gTotalPageCount.iDiscardablePages;
sl@0	9654	origOther = gTotalPageCount.iOtherPages;
sl@0	9655
sl@0	9656	TInt allocSize = 50 << gPageShift;
sl@0	9657
sl@0	9658	r = Ldd.ZoneAllocContiguous(zoneID, allocSize);
sl@0	9659
sl@0	9660	GetAllPageInfo();
sl@0	9661	if (gTotalPageCount.iFixedPages < (origFixed + (allocSize >> gPageShift)))
sl@0	9662	{
sl@0	9663	test.Printf(_L("Fail: fixed pages = 0x%x, expected >= 0x%x\n"),
sl@0	9664	gTotalPageCount.iFixedPages, (origFixed + (allocSize >> gPageShift)));
sl@0	9665	CLEANUP(Ldd.FreeAllFixedPages());
sl@0	9666	CLEANUP(RemoveChunkAlloc(gChunkArray1, gChunkArraySize1));
sl@0	9667	TEST_FAIL;
sl@0	9668	}
sl@0	9669	else
sl@0	9670	{
sl@0	9671	test.Printf(_L("Passed..."));
sl@0	9672	}
sl@0	9673	Ldd.FreeAllFixedPages();
sl@0	9674	RemoveChunkAlloc(gChunkArray1, gChunkArraySize1);
sl@0	9675	TestEnd();
sl@0	9676
sl@0	9677	if (gPagedRom)
sl@0	9678	{
sl@0	9679	test_KErrNone(DPTest::FlushCache());
sl@0	9680	ResetDPCache();
sl@0	9681	}
sl@0	9682
sl@0	9683	gTheFs.Close();
sl@0	9684	if (gDrive != KNoRemovableDrive)
sl@0	9685	{
sl@0	9686	FormatMMC();
sl@0	9687	}
sl@0	9688
sl@0	9689	test.End();
sl@0	9690	return KErrNone;
sl@0	9691	}
sl@0	9692
sl@0	9693
sl@0	9694	//
sl@0	9695	// RunDefragTests
sl@0	9696	//
sl@0	9697	// List of defrag tests to be run
sl@0	9698	//
sl@0	9699	void RunDefragTests()
sl@0	9700	{
sl@0	9701	test.Start(_L("Testing the moving of pages in a defrag"));
sl@0	9702	TestMovPgsDefrag();
sl@0	9703
sl@0	9704	test.Next(_L("Verifying the implementation of the function TRamDefragRequest::DefragRam() arg aMaxPages"));
sl@0	9705	TestDefragRamMaxPages();
sl@0	9706
sl@0	9707	test.Next(_L("Verifying the implementation of the function TRamDefragRequest::EmptyRamZone()"));
sl@0	9708	TestEmptyRamZone();
sl@0	9709
sl@0	9710	test.Next(_L("Verifying the implementation of the function Epoc::GetRamZonePageCount()"));
sl@0	9711	TestGetRamZonePageCount();
sl@0	9712
sl@0	9713	test.Next(_L("Verifying the implementation of the function TRamDefragRequest::ClaimRamZone()"));
sl@0	9714	TestClaimRamZone();
sl@0	9715
sl@0	9716	test.Next(_L("Verifying the implementation of the function TRamDefragRequest::Cancel()"));
sl@0	9717	TestCancelDefrag();
sl@0	9718
sl@0	9719	test.Next(_L("Verifying that pages are moved correctly"));
sl@0	9720	TestMovingPages();
sl@0	9721
sl@0	9722	test.Next(_L("Verifying Semaphore Methods of the Defrag"));
sl@0	9723	TestDefragSemMethod();
sl@0	9724
sl@0	9725	test.Next(_L("Verifying Dfc Methods of the Defrag"));
sl@0	9726	TestDefragDfcMethod();
sl@0	9727
sl@0	9728	test.Next(_L("Testing priorities"));
sl@0	9729	TestPriorities();
sl@0	9730
sl@0	9731	test.Next(_L("Testing File System Caching"));
sl@0	9732	if (!gPagedRom)
sl@0	9733	{
sl@0	9734	TestFileCaching();
sl@0	9735	}
sl@0	9736	else
sl@0	9737	{
sl@0	9738	test.Printf(_L("Skipping... \n"));
sl@0	9739	}
sl@0	9740
sl@0	9741	test.Next(_L("Testing general RAM defrag implementation"));
sl@0	9742	TestGenDefrag();
sl@0	9743
sl@0	9744	test.End();
sl@0	9745	}
sl@0	9746
sl@0	9747
sl@0	9748	//
sl@0	9749	// RunAllocTests
sl@0	9750	//
sl@0	9751	// List of allocating tests to be run
sl@0	9752	// These tests only need to be executed once
sl@0	9753	//
sl@0	9754	void RunAllocTests()
sl@0	9755	{
sl@0	9756	test.Start(_L("Verifying the allocating strategies"));
sl@0	9757	TestAllocStrategies();
sl@0	9758
sl@0	9759	test.Next(_L("Verifying the contiguous overload of Epoc::ZoneAllocPhysicalRam()"));
sl@0	9760	TestZoneAllocContiguous();
sl@0	9761
sl@0	9762	test.Next(_L("Verifying the discontiguous overload of Epoc::ZoneAllocPhysicalRam()"));
sl@0	9763	TestZoneAllocDiscontiguous();
sl@0	9764
sl@0	9765	test.Next(_L("Test Free Zone"));
sl@0	9766	TestFreeZone();
sl@0	9767
sl@0	9768	test.Next(_L("Testing zone flags"));
sl@0	9769	TestFlags();
sl@0	9770
sl@0	9771	test.End();
sl@0	9772	}
sl@0	9773
sl@0	9774
sl@0	9775	//
sl@0	9776	// E32Main
sl@0	9777	//
sl@0	9778	// Main entry point.
sl@0	9779	//
sl@0	9780	TInt E32Main()
sl@0	9781	{
sl@0	9782	test.Title();
sl@0	9783	DeviceDriver(TEST_DRIVER_OPEN);
sl@0	9784	gTotalRamLost = 0;
sl@0	9785
sl@0	9786	TInt r = TestSetup();
sl@0	9787	if (r != KErrNone)
sl@0	9788	{
sl@0	9789	test.Printf(_L("Test Setup failed, r = %d\n"), r);
sl@0	9790	TestCleanup();
sl@0	9791	return r;
sl@0	9792	}
sl@0	9793
sl@0	9794	if (gZoneCount == 1)
sl@0	9795	{
sl@0	9796	GetAllPageInfo();
sl@0	9797
sl@0	9798	test.Start(_L("Zone Count 1..."));
sl@0	9799	TestOneZoneConfig();
sl@0	9800	}
sl@0	9801	else
sl@0	9802	{
sl@0	9803	test.Start(_L("Running Alloc tests"));
sl@0	9804	RunAllocTests();
sl@0	9805
sl@0	9806	Ldd.ResetDriver();
sl@0	9807	Ldd.CallDefrag(DEFRAG_TYPE_GEN, DEFRAG_VER_SYNC);
sl@0	9808
sl@0	9809
sl@0	9810	test.Next(_L("Running Defrag tests"));
sl@0	9811	RunDefragTests();
sl@0	9812
sl@0	9813	Ldd.ResetDriver();
sl@0	9814	Ldd.CallDefrag(DEFRAG_TYPE_GEN, DEFRAG_VER_SYNC);
sl@0	9815	}
sl@0	9816
sl@0	9817
sl@0	9818	test.Printf(_L("The total number of test steps failed = %d\n"), gTestStepFailed);
sl@0	9819	test_Equal(KErrNone, gTestStepFailed);
sl@0	9820
sl@0	9821	TestCleanup();
sl@0	9822
sl@0	9823	DeviceDriver(TEST_DRIVER_CLOSE);
sl@0	9824	test.End();
sl@0	9825	test.Close();
sl@0	9826
sl@0	9827	return 0;
sl@0	9828	}

author	sl
	Tue, 10 Jun 2014 14:32:02 +0200
changeset 1	260cb5ec6c19
permissions	-rw-r--r--