1 // Copyright (c) 1995-2009 Nokia Corporation and/or its subsidiary(-ies).

     2 // All rights reserved.

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

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

     5 // which accompanies this distribution, and is available

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

     7 //

     8 // Initial Contributors:

     9 // Nokia Corporation - initial contribution.

    10 //

    11 // Contributors:

    12 //

    13 // Description:

    14 // e32\include\u32std.h

    15 //

    16 //

    17 

    18 /**

    19  @file

    20  @internalComponent

    21  @released

    22 */

    23 

    24 #ifndef __U32STD_H__

    25 #define __U32STD_H__

    26 #include <e32cmn.h>

    27 #ifndef SYMBIAN_ENABLE_SPLIT_HEADERS

    28 #include <e32cmn_private.h>

    29 #endif

    30 #include <e32hal.h>

    31 #include <e32lmsg.h>

    32 #include <e32event.h>

    33 #include <e32ldr.h>

    34 #include <e32power.h>

    35 #include <e32shbufcmn.h>

    36 #include <e32property.h>

    37 #include <u32property.h>

    38 #include <u32hal.h>

    39 

    40 #include <cpudefs.h>

    41 

    42 #ifdef __MARM__

    43 #define	EKA2_ENTRY_POINT_VERSION_IDENTIFIER	\

    44 	asm("tst pc, #%a0" : : "i" ((TInt)0) )

    45 #endif

    46 

    47 struct TUnicodeDataSet;                 // forward declaration

    48 struct TCollationDataSet;               // forward declaration

    49 

    50 /*

    51 The LCharSet structure is used in Unicode builds to supply locale-specific

    52 character attribute and collation data.

    53 

    54 The structure is defined in both builds to avoid having to have a dummy ExecHandler::GetLocaleCharSet function

    55 with a different signature in the 8-bit build.

    56 */

    57 struct LCharSet

    58 	{

    59 	const TUnicodeDataSet* iCharDataSet;			// if non-null, character data overriding standard Unicode data

    60 	const TCollationDataSet* iCollationDataSet;		// if non-null, locale-specific collation data

    61 	};

    62 

    63 extern const LCharSet* GetLocaleCharSet();

    64 

    65 /** @internalTechnology */

    66 const TInt KNumLocaleExports = 22;

    67 

    68 //

    69 // The bits in the type table (non-Unicode build only)

    70 //

    71 #ifndef _UNICODE

    72 

    73 /** @internalTechnology */

    74 const TUint __U=0x01; // Uppercase letter

    75 

    76 /** @internalTechnology */

    77 const TUint __L=0x02; // Lowercase letter

    78 

    79 /** @internalTechnology */

    80 const TUint __D=0x04; // Decimal digit

    81 

    82 /** @internalTechnology */

    83 const TUint __S=0x08; // Space

    84 

    85 /** @internalTechnology */

    86 const TUint __P=0x10; // Punctuation

    87 

    88 /** @internalTechnology */

    89 const TUint __C=0x20; // Control character

    90 

    91 /** @internalTechnology */

    92 const TUint __X=0x40; // Hex digit

    93 

    94 /** @internalTechnology */

    95 const TUint __B=0x80; // A blank character

    96 

    97 #endif

    98 

    99 //

   100 // Time set mode parameters for setting system time and offset

   101 //

   102 enum TTimeSetMode

   103 	{

   104 	ETimeSetTime = 1,    // set the time to the value given, else leave it unchanged

   105 	ETimeSetOffset = 2,  // set the offset to the value given, else leave it unchanged

   106 	ETimeSetAllowTimeReversal = 4,  // allow time to go backwards

   107 	ETimeSetNoTimeUpdate = 8,       // Don't restart second queue or notify changes - not valid with ESetTime, used early in boot only

   108 	ETimeSetLocalTime = 16,			// Set time in local time, instead of UTC

   109 	ETimeSetSecure = 32,  // use when setting the secure hardware clock

   110 	};

   111 

   112 //

   113 enum TMatchType {EMatchNormal,EMatchFolded,EMatchCollated};

   114 

   115 //

   116 // Constants for descriptor implementation code

   117 //

   118 enum TDesType {EBufC,EPtrC,EPtr,EBuf,EBufCPtr};

   119 const TUint KMaskDesLength=0xfffffff;

   120 const TInt KShiftDesType=28;

   121 

   122 //

   123 // Constants for iFlags in DProcess and DThread

   124 //

   125 const TUint KThreadFlagProcessCritical		= 0x00000001;	// thread panic panics process

   126 const TUint KThreadFlagProcessPermanent		= 0x00000002;	// thread exit of any kind causes process to exit (=main)

   127 const TUint KThreadFlagSystemCritical		= 0x00000004;	// thread panic reboots entire system

   128 const TUint KThreadFlagSystemPermanent		= 0x00000008;	// thread exit of any kind reboots entire system

   129 const TUint KThreadFlagOriginal				= 0x00000010;

   130 const TUint KThreadFlagLastChance			= 0x00000020;

   131 const TUint KThreadFlagRealtime				= 0x00000040;	// thread will be panicked when using some non-realtime functions

   132 const TUint KThreadFlagRealtimeTest			= 0x00000080;	// non-realtime functions only warn rather than panic

   133 const TUint KThreadFlagLocalThreadDataValid	= 0x00000100;	// thread has valid local thread data

   134 const TUint KProcessFlagPriorityControl		= 0x40000000;

   135 const TUint KProcessFlagJustInTime			= 0x80000000;

   136 const TUint KProcessFlagSystemCritical		= KThreadFlagSystemCritical;	// process panic reboots entire system

   137 const TUint KProcessFlagSystemPermanent		= KThreadFlagSystemPermanent;	// process exit of any kind reboots entire system

   138 //

   139 const TUint KThreadHandle=0x40000000;

   140 //

   141 struct SPtrC8 {TInt length;const TUint8 *ptr;};

   142 struct SBufC8 {TInt length;TUint8 buf[1];};

   143 struct SPtr8 {TInt length;TInt maxLength;TUint8 *ptr;};

   144 struct SBuf8 {TInt length;TInt maxLength;TUint8 buf[1];};

   145 struct SBufCPtr8 {TInt length;TInt maxLength;SBufC8 *ptr;};

   146 

   147 struct SPtrC16 {TInt length;const TUint16 *ptr;};

   148 struct SBufC16 {TInt length;TUint16 buf[1];};

   149 struct SPtr16 {TInt length;TInt maxLength;TUint16 *ptr;};

   150 struct SBuf16 {TInt length;TInt maxLength;TUint16 buf[1];};

   151 struct SBufCPtr16 {TInt length;TInt maxLength;SBufC16 *ptr;};

   152 

   153 //

   154 // Flags used for IPC copy functions

   155 //

   156 const TInt KChunkShiftBy0=0;

   157 const TInt KChunkShiftBy1=KMinTInt;

   158 const TInt KIpcDirRead=0;

   159 const TInt KIpcDirWrite=0x10000000;

   160 

   161 class TChunkCreate

   162 	{

   163 public:

   164 	// Attributes for chunk creation that are used by both euser and the kernel

   165 	// by classes TChunkCreateInfo and SChunkCreateInfo, respectively.

   166 	enum TChunkCreateAtt

   167 		{

   168 		ENormal				= 0x00000000,

   169 		EDoubleEnded		= 0x00000001,

   170 		EDisconnected		= 0x00000002,

   171 		ECache				= 0x00000003,

   172 		EMappingMask		= 0x0000000f,

   173 		ELocal				= 0x00000000,

   174 		EGlobal				= 0x00000010,

   175 		EData				= 0x00000000,

   176 		ECode				= 0x00000020,

   177 		EMemoryNotOwned		= 0x00000040,

   178 

   179 		// Force local chunk to be named.  Only required for thread heap

   180 		// chunks, all other local chunks should be nameless.

   181 		ELocalNamed 		= 0x000000080,

   182 

   183 		// Paging attributes for chunks.

   184 		EPagingUnspec		= 0x00000000,

   185 		EPaged				= 0x80000000,

   186 		EUnpaged			= 0x40000000,

   187 		EPagingMask 		= EPaged | EUnpaged,

   188 

   189 		EChunkCreateAttMask =	EMappingMask | EGlobal | ECode |

   190 								ELocalNamed | EPagingMask,

   191 		};

   192 public:

   193 	TUint iAtt;

   194 	TBool iForceFixed;

   195 	TInt iInitialBottom;

   196 	TInt iInitialTop;

   197 	TInt iMaxSize;

   198 	TUint8 iClearByte;

   199 	};

   200 

   201 enum TChunkRestrictions

   202 	{

   203 	// Keep this in sync with definitions in RChunk

   204 	EChunkPreventAdjust = 0x01,  // Disallow Adjust, Commit, Allocate and Decommit

   205 	};

   206 

   207 class TChannelDoCreate

   208 	{

   209 public:

   210 	TVersion iVer;

   211 	const TDesC *iName;

   212 	const TDesC *iPhysicalDevice;

   213 	const TDesC8 *iInfo;

   214 	};

   215 

   216 class TCreateSession

   217 	{

   218 public:

   219 	TVersion iVer;

   220 	TInt iMessageSlots;

   221 	};

   222 

   223 enum TObjectType

   224 	{

   225 	EThread=0,

   226 	EProcess,

   227 	EChunk,

   228 	ELibrary,

   229 	ESemaphore,

   230 	EMutex,

   231 	ETimer,

   232 	EServer,

   233 	ESession,

   234 	ELogicalDevice,

   235 	EPhysicalDevice,

   236 	ELogicalChannel,

   237 	EChangeNotifier,

   238 	EUndertaker,

   239 	EMsgQueue,

   240 	EPropertyRef,

   241 	ECondVar,

   242 	EShPool,

   243 	EShBuf,

   244 	ENumObjectTypes,	// number of DObject-derived types

   245 	EObjectTypeAny=-1,

   246 

   247 	EIpcMessageD=0x20,	// lookup IPC message handle, allow disconnect

   248 	EIpcMessage=0x21,	// lookup IPC message handle, don't allow disconnect

   249 	EIpcClient=0x22,	// lookup IPC message client, don't allow disconnect

   250 	};

   251 

   252 class TObjectOpenInfo

   253 	{

   254 public:

   255 	TObjectType iObjType;

   256 	TBool isReadOnly;

   257 	};

   258 

   259 class TChannelCreateInfo

   260 	{

   261 public:

   262 	TVersion iVersion;

   263 	TInt iUnit;

   264 	const TDesC* iPhysicalDevice;

   265 	const TDesC8* iInfo;

   266 	};

   267 

   268 #if defined(_UNICODE) && !defined(__KERNEL_MODE__)

   269 class TChannelCreateInfo8

   270 	{

   271 public:

   272 	TVersion iVersion;

   273 	TInt iUnit;

   274 	const TDesC8* iPhysicalDevice;

   275 	const TDesC8* iInfo;

   276 	};

   277 #else

   278 typedef TChannelCreateInfo TChannelCreateInfo8;

   279 #endif

   280 

   281 const TInt KMaxThreadCreateInfo = 256;

   282 struct SThreadCreateInfo

   283 	{

   284 	TAny* iHandle;

   285 	TInt iType;

   286 	TThreadFunction iFunction;

   287 	TAny* iPtr;

   288 	TAny* iSupervisorStack;

   289 	TInt iSupervisorStackSize;

   290 	TAny* iUserStack;

   291 	TInt iUserStackSize;

   292 	TInt iInitialThreadPriority;

   293 	TPtrC iName;

   294 	TInt iTotalSize;	// Size including any extras (must be a multiple of 8 bytes)

   295 	};

   296 

   297 enum TThreadCreationFlags

   298 	{

   299 	ETraceHeapAllocs 				= 0x00000001,

   300 	EMonitorHeapMemory				= 0x00000002,

   301 

   302 	EThreadCreateFlagPaged			= 0x00000004,

   303 	EThreadCreateFlagUnpaged		= 0x00000008,

   304 	EThreadCreateFlagPagingUnspec	= 0x00000000,

   305 	EThreadCreateFlagPagingMask	= EThreadCreateFlagPaged | EThreadCreateFlagUnpaged,

   306 

   307 	EThreadCreateFlagMask = ETraceHeapAllocs | EMonitorHeapMemory | EThreadCreateFlagPagingMask,

   308 	};

   309 

   310 struct SStdEpocThreadCreateInfo : public SThreadCreateInfo

   311 	{

   312 	SStdEpocThreadCreateInfo()

   313 		: iFlags(0)	// Must be clear on creation.

   314 		{

   315 		};

   316 	RAllocator* iAllocator;

   317 	TInt iHeapInitialSize;

   318 	TInt iHeapMaxSize;

   319 	TUint iFlags;

   320 	};

   321 

   322 #if defined(_UNICODE) && !defined(__KERNEL_MODE__)

   323 struct SThreadCreateInfo8

   324 	{

   325 	TAny* iHandle;

   326 	TInt iType;

   327 	TThreadFunction iFunction;

   328 	TAny* iPtr;

   329 	TAny* iSupervisorStack;

   330 	TInt iSupervisorStackSize;

   331 	TAny* iUserStack;

   332 	TInt iUserStackSize;

   333 	TInt iInitialThreadPriority;

   334 	TPtrC8 iName;

   335 	TInt iTotalSize;	// size including any extras

   336 	};

   337 

   338 struct SStdEpocThreadCreateInfo8 : public SThreadCreateInfo8

   339 	{

   340 	SStdEpocThreadCreateInfo8()

   341 		: iFlags(0) // Must be clear on creation.

   342 		{

   343 		};

   344 	RAllocator* iAllocator;

   345 	TInt iHeapInitialSize;

   346 	TInt iHeapMaxSize;

   347 	TUint iFlags;

   348 	};

   349 #else

   350 typedef SThreadCreateInfo SThreadCreateInfo8;

   351 typedef SStdEpocThreadCreateInfo SStdEpocThreadCreateInfo8;

   352 #endif

   353 

   354 struct SIpcCopyInfo

   355 	{

   356 	TUint8* iLocalPtr;

   357 	TInt iLocalLen;

   358 	TInt iFlags;

   359 	};

   360 

   361 enum TChunkAdjust

   362 	{

   363 	EChunkAdjust=0,

   364 	EChunkAdjustDoubleEnded=1,

   365 	EChunkCommit=2,

   366 	EChunkDecommit=3,

   367 	EChunkAllocate=4,

   368 	EChunkUnlock=5,

   369 	EChunkLock=6

   370 	};

   371 

   372 enum TMemModelAttributes

   373 	{

   374 	EMemModelTypeMask=0xf,					// bottom 4 bits give type of memory model

   375 	EMemModelTypeDirect=0,					// direct memory model on hardware

   376 	EMemModelTypeMoving=1,					// moving memory model on hardware

   377 	EMemModelTypeMultiple=2,				// multiple memory model on hardware

   378 	EMemModelTypeEmul=3,					// emulation using single host process

   379 	EMemModelTypeFlexible=4,				// flexible memory model on hardware

   380 

   381 	EMemModelAttrRomPaging=0x10,			// Demand paging of XIP ROM

   382 	EMemModelAttrCodePaging=0x20,			// Demand paging of RAM loaded code

   383 	EMemModelAttrDataPaging=0x40,			// Demand paging of all RAM

   384 	EMemModelAttrPagingMask=0xf0,			// Mask for demand paging attributes

   385 

   386 	EMemModelAttrNonExProt=(TInt)0x80000000,// accesses to nonexistent addresses are trapped

   387 	EMemModelAttrKernProt=0x40000000,		// accesses to kernel memory from user mode are trapped

   388 	EMemModelAttrWriteProt=0x20000000,		// addresses can be marked as read-only; writes to these are trapped

   389 	EMemModelAttrVA=0x10000000,				// system supports virtual addresses

   390 	EMemModelAttrProcessProt=0x08000000,	// accesses to other processes' memory are trapped

   391 	EMemModelAttrSameVA=0x04000000,			// different processes map the same virtual address to different physical addresses

   392 	EMemModelAttrSupportFixed=0x02000000,	// 'fixed' processes are supported

   393 	EMemModelAttrSvKernProt=0x01000000,		// unexpected accesses to kernel memory within an executive call are trapped

   394 	EMemModelAttrIPCKernProt=0x00800000,	// accesses to kernel memory via IPC are trapped

   395 	EMemModelAttrIPCFullProt=0x00400000,	// accesses via IPC have same protection as user mode

   396 	EMemModelAttrRamCodeProt=0x00200000,	// RAM-loaded code is only visible to processes which have loaded it

   397 	};

   398 

   399 /** @test */

   400 enum TKernelHeapDebugFunction {EDbgMarkStart,EDbgMarkCheck,EDbgMarkEnd,EDbgSetAllocFail,EDbgSetBurstAllocFail,EDbgCheckFailure};

   401 

   402 /** @test */

   403 class TKernelHeapMarkCheckInfo

   404 	{

   405 public:

   406 	TBool iCountAll;

   407 	const TDesC8* iFileName;

   408 	TInt iLineNum;

   409 	};

   410 //

   411 class TTrapHandler;

   412 class CActiveScheduler;

   413 class TLocale;

   414 

   415 //

   416 //

   417 //

   418 // Handler below is used by test prints to trucate rather than panic the caller.

   419 //

   420 #if defined(_UNICODE) && !defined(__KERNEL_MODE__)

   421 NONSHARABLE_CLASS(TestOverflowTruncate) : public TDes16Overflow

   422 	{

   423 public:

   424 	virtual void Overflow(TDes16 &aDes);

   425 	};

   426 #else

   427 NONSHARABLE_CLASS(TestOverflowTruncate) : public TDes8Overflow

   428 	{

   429 public:

   430 	virtual void Overflow(TDes8 &aDes);

   431 	};

   432 #endif

   433 //

   434 

   435 /********************************************

   436  * Thread local storage entry

   437  ********************************************/

   438 struct STls

   439 	{

   440 	TInt	iHandle;

   441 	TInt	iDllUid;

   442 	TAny*	iPtr;

   443 	};

   444 

   445 const TInt KDllUid_Default = 0;		// for ROM DLLs and direct calls to UserSvr::DllTls

   446 const TInt KDllUid_Special = -1;	// used on emulator to instruct the kernel to get the DLL UID from the module handle

   447 

   448 /********************************************

   449  * Entry point call values

   450  ********************************************/

   451 const TInt	KModuleEntryReasonProcessInit		=0;		// Process start

   452 const TInt	KModuleEntryReasonThreadInit		=1;		// Start new thread

   453 const TInt	KModuleEntryReasonProcessAttach		=2;		// Process attach (init static data)

   454 const TInt	KModuleEntryReasonProcessDetach		=3;		// Process detach (destroy static data)

   455 const TInt	KModuleEntryReasonException			=4;		// Handle exception

   456 const TInt	KModuleEntryReasonVariantInit0		=-3;	// Call variant static constructors

   457 

   458 /** @publishedPartner

   459 	@released

   460 */

   461 const TInt	KModuleEntryReasonExtensionInit0	=-2;	// Extension early initialisation check

   462 

   463 /** @publishedPartner

   464 	@released

   465 */

   466 const TInt	KModuleEntryReasonExtensionInit1	=-1;	// Extension initialisation

   467 

   468 /**

   469 	Flags returned by Exec::KernelConfigFlags()

   470 */

   471 enum TKernelConfigFlags

   472 	{

   473 	EKernelConfigIpcV1Available = 1<<0,

   474 	EKernelConfigPlatSecEnforcement = 1<<1,

   475 	EKernelConfigPlatSecDiagnostics = 1<<2,

   476 	EKernelConfigPlatSecProcessIsolation = 1<<3,

   477 	EKernelConfigPlatSecEnforceSysBin = 1<<4,

   478 

   479 	// paging policy values use by 2-bit code and data paging policy enums...

   480 	EKernelConfigPagingPolicyNoPaging = 0,

   481 	EKernelConfigPagingPolicyAlwaysPage = 1,

   482 	EKernelConfigPagingPolicyDefaultUnpaged = 2,

   483 	EKernelConfigPagingPolicyDefaultPaged = 3,

   484 

   485 	EKernelConfigCodePagingPolicyShift			= 5,

   486 	EKernelConfigCodePagingPolicyMask			= 3<<5,

   487 	EKernelConfigCodePagingPolicyNoPaging		= EKernelConfigPagingPolicyNoPaging<<5,

   488 	EKernelConfigCodePagingPolicyAlwaysPage		= EKernelConfigPagingPolicyAlwaysPage<<5,

   489 	EKernelConfigCodePagingPolicyDefaultUnpaged	= EKernelConfigPagingPolicyDefaultUnpaged<<5,

   490 	EKernelConfigCodePagingPolicyDefaultPaged	= EKernelConfigPagingPolicyDefaultPaged<<5,

   491 

   492 	EKernelConfigPlatSecLocked = 1<<7,					// Primarily used by __PLATSEC_UNLOCKED__ (q.v.) test code

   493 

   494 	EKernelConfigCrazyScheduling = 1<<8,				// Enables thread priority/timeslice craziness

   495 

   496 	EKernelConfigDataPagingPolicyShift			= 9,

   497 	EKernelConfigDataPagingPolicyMask			= 3<<9,

   498 	EKernelConfigDataPagingPolicyNoPaging		= EKernelConfigPagingPolicyNoPaging<<9,

   499 	EKernelConfigDataPagingPolicyAlwaysPage		= EKernelConfigPagingPolicyAlwaysPage<<9,

   500 	EKernelConfigDataPagingPolicyDefaultUnpaged	= EKernelConfigPagingPolicyDefaultUnpaged<<9,

   501 	EKernelConfigDataPagingPolicyDefaultPaged	= EKernelConfigPagingPolicyDefaultPaged<<9,

   502 

   503 	EKernelConfigSMPUnsafeCompat = 1<<12,				// Enables compatibility mode for SMP-unsafe processes

   504 	EKernelConfigSMPUnsafeCPU0   = 1<<13,				// Slow compatibility mode: all SMP-unsafe processes run on CPU 0 only

   505 	EKernelConfigSMPCrazyInterrupts = 1<<14,			// Enables CPU target rotation for HW Interrupts.

   506 

   507 	EKernelConfigDisableAPs = 1u<<30,

   508 

   509 	EKernelConfigTest = 1u<<31,							// Only used by test code for __PLATSEC_UNLOCKED__

   510 	};

   511 

   512 /**

   513 	If __PLATSEC_UNLOCKED__ is not defined, these flags must always

   514 	be considered to be set.  See KernelConfigFlags() in kern_priv.h.

   515 

   516 	@see KernelConfigFlags()

   517 

   518 	@internalTechnology

   519 */

   520 #ifdef __PLATSEC_UNLOCKED__

   521 #define __PLATSEC_FORCED_FLAGS__	 0

   522 #else

   523 #define __PLATSEC_FORCED_FLAGS__	(EKernelConfigPlatSecEnforcement|EKernelConfigPlatSecProcessIsolation|EKernelConfigPlatSecEnforceSysBin)

   524 #endif

   525 

   526 /**

   527 @internalTechnology

   528 */

   529 enum TGlobalUserData

   530 	{

   531 	ELocaleDefaultCharSet,

   532 	ELocalePreferredCharSet,

   533 	EMaxGlobalUserData

   534 	};

   535 

   536 typedef void (*TGlobalDestructorFunc)(void);

   537 

   538 // This must not conflict with any possible valid TLS keys

   539 const TInt KGlobalDestructorTlsKey = -1;

   540 

   541 GLREF_C void ExitCurrentThread(TExitType, TInt, const TDesC8*);

   542 

   543 #ifndef __REMOVE_PLATSEC_DIAGNOSTICS__

   544 /**

   545 @internalTechnology

   546 */

   547 class TPlatSecDiagnostic

   548 	{

   549 public:

   550 	enum TType

   551 		{

   552 		ELoaderCapabilityViolation1,

   553 		ELoaderCapabilityViolation2,

   554 		EThreadCapabilityCheckFail,

   555 		EProcessCapabilityCheckFail,

   556 		EKernelSecureIdCheckFail,

   557 		EKernelObjectPolicyCheckFail,

   558 		EHandleCapabilityCheckFail,

   559 		ECreatorCapabilityCheckFail,

   560 		EMessageCapabilityCheckFail,

   561 		EKernelProcessIsolationFail,

   562 		EKernelProcessIsolationIPCFail,

   563 		ECreatorPolicyCheckFail,

   564 		};

   565 public:

   566 	inline TPlatSecDiagnostic();

   567 	inline TPlatSecDiagnostic(TType aType);

   568 	inline TPlatSecDiagnostic(TType aType, TInt aInt1, TInt aInt2, const SCapabilitySet& aCaps);

   569 	inline TPlatSecDiagnostic(TType aType, TInt aInt1, const SSecurityInfo& aCaps);

   570 	inline TPlatSecDiagnostic(TType aType, TInt aInt, const TDesC8& aString, const SCapabilitySet& aCaps);

   571 	inline TPlatSecDiagnostic(TType aType, const TDesC8& aString1, const TDesC8& aString2, const SCapabilitySet& aCaps);

   572 	inline TPlatSecDiagnostic(TType aType, TInt aInt1, TInt aInt2);

   573 	inline TPlatSecDiagnostic(TType aType, TInt aInt1);

   574 	inline const TDesC8* String1();

   575 	inline const TDesC8* String2();

   576 public:

   577 	TType iType;

   578 	TInt iArg1;

   579 	TInt iArg2;

   580 	const char* iContextText;

   581 	TInt iContextTextLength;

   582 	SSecurityInfo iSecurityInfo;

   583 	};

   584 

   585 inline TPlatSecDiagnostic::TPlatSecDiagnostic()

   586 	{}

   587 

   588 inline TPlatSecDiagnostic::TPlatSecDiagnostic(TType aType)

   589 	: iType(aType)

   590 	{}

   591 

   592 inline TPlatSecDiagnostic::TPlatSecDiagnostic(TType aType,TInt aInt1)

   593 	: iType(aType), iArg1(aInt1)

   594 	{}

   595 

   596 inline TPlatSecDiagnostic::TPlatSecDiagnostic(TType aType, TInt aInt1, TInt aInt2, const SCapabilitySet& aCaps)

   597 	: iType(aType), iArg1(aInt1), iArg2(aInt2), iContextText(0)

   598 	{

   599 	iSecurityInfo.iSecureId = 0;

   600 	iSecurityInfo.iVendorId = 0;

   601 	iSecurityInfo.iCaps = aCaps;

   602 	};

   603 inline TPlatSecDiagnostic::TPlatSecDiagnostic(TType aType, TInt aInt1, const SSecurityInfo& aInfo)

   604 	: iType(aType), iArg1(aInt1), iArg2(ECapability_None), iContextText(0), iSecurityInfo(aInfo)

   605 	{

   606 	};

   607 

   608 inline TPlatSecDiagnostic::TPlatSecDiagnostic(TType aType, TInt aInt, const TDesC8& aString, const SCapabilitySet& aCaps)

   609 	: iType(aType), iArg1(aInt), iArg2((TInt)&aString), iContextText(0)

   610 	{

   611 	iSecurityInfo.iSecureId = 0;

   612 	iSecurityInfo.iVendorId = 0;

   613 	iSecurityInfo.iCaps = aCaps;

   614 	};

   615 

   616 inline TPlatSecDiagnostic::TPlatSecDiagnostic(TType aType, const TDesC8& aString1, const TDesC8& aString2, const SCapabilitySet& aCaps)

   617 	: iType(aType), iArg1((TInt)&aString1), iArg2((TInt)&aString2), iContextText(0)

   618 	{

   619 	iSecurityInfo.iSecureId = 0;

   620 	iSecurityInfo.iVendorId = 0;

   621 	iSecurityInfo.iCaps = aCaps;

   622 	};

   623 

   624 inline TPlatSecDiagnostic::TPlatSecDiagnostic(TType aType, TInt aInt1, TInt aInt2)

   625 	: iType(aType), iArg1(aInt1), iArg2(aInt2)

   626 	{

   627 	iSecurityInfo.iSecureId = 0;

   628 	iSecurityInfo.iVendorId = 0;

   629 	iSecurityInfo.iCaps[0] = 0;

   630 	iSecurityInfo.iCaps[1] = 0;

   631 	};

   632 

   633 inline const TDesC8* TPlatSecDiagnostic::String1()

   634 	{ return (const TDesC8*)iArg1; }

   635 

   636 inline const TDesC8* TPlatSecDiagnostic::String2()

   637 	{ return (const TDesC8*)iArg2; }

   638 

   639 inline TInt PlatSec::LoaderCapabilityViolation(const TDesC8& aImporterName, const TDesC8& aFileName, const SCapabilitySet& aMissingCaps)

   640 	{

   641 	TPlatSecDiagnostic d(TPlatSecDiagnostic::ELoaderCapabilityViolation2,aImporterName,aFileName,aMissingCaps);

   642 	return EmitDiagnostic(d, NULL);

   643 	}

   644 

   645 #ifdef __KERNEL_MODE__

   646 

   647 inline TInt PlatSec::CapabilityCheckFail(const DProcess* aViolatingProcess, TCapability aCapability, const char* aContextText)

   648 	{

   649 	TPlatSecDiagnostic d(TPlatSecDiagnostic::EProcessCapabilityCheckFail,(TInt)aViolatingProcess,(TInt)aCapability);

   650 	return EmitDiagnostic(d,aContextText);

   651 	}

   652 

   653 inline TInt PlatSec::CapabilityCheckFail(const DThread* aViolatingThread, TCapability aCapability, const char* aContextText)

   654 	{

   655 	TPlatSecDiagnostic d(TPlatSecDiagnostic::EThreadCapabilityCheckFail,(TInt)aViolatingThread,(TInt)aCapability);

   656 	return EmitDiagnostic(d,aContextText);

   657 	}

   658 

   659 inline TInt PlatSec::SecureIdCheckFail(const DProcess* aViolatingProcess, TSecureId aSid, const char* aContextText)

   660 	{

   661 	TPlatSecDiagnostic d(TPlatSecDiagnostic::EKernelSecureIdCheckFail,(TInt)aViolatingProcess,(TInt)aSid);

   662 	return EmitDiagnostic(d,aContextText);

   663 	}

   664 

   665 inline TInt PlatSec::PolicyCheckFail(const DProcess* aProcess, const SSecurityInfo& aMissingSecurityInfo, const char* aContextText)

   666 	{

   667 	TPlatSecDiagnostic d(TPlatSecDiagnostic::EKernelObjectPolicyCheckFail,(TInt)aProcess,(const SSecurityInfo&)aMissingSecurityInfo);

   668 	return EmitDiagnostic(d,aContextText);

   669 	}

   670 

   671 inline TInt PlatSec::PolicyCheckFail(const DThread* aThread, const SSecurityInfo& aMissingSecurityInfo, const char* aContextText)

   672 	{

   673 	TPlatSecDiagnostic d(TPlatSecDiagnostic::EKernelObjectPolicyCheckFail,(TInt)aThread,(const SSecurityInfo&)aMissingSecurityInfo);

   674 	return EmitDiagnostic(d,aContextText);

   675 	}

   676 

   677 inline TInt PlatSec::ProcessIsolationFail(const char* aContextText)

   678 	{

   679 	TPlatSecDiagnostic d(TPlatSecDiagnostic::EKernelProcessIsolationFail);

   680 	return EmitDiagnostic(d,aContextText);

   681 	}

   682 

   683 inline TInt PlatSec::ProcessIsolationIPCFail(RMessageK* aMessage, const char* aContextText)

   684 	{

   685 	TPlatSecDiagnostic d(TPlatSecDiagnostic::EKernelProcessIsolationIPCFail,(TInt)aMessage);

   686 	return EmitDiagnostic(d,aContextText);

   687 	}

   688 

   689 #else // !__KERNEL_MODE__

   690 

   691 inline TInt PlatSec::LoaderCapabilityViolation(RProcess aLoadingProcess, const TDesC8& aFileName, const SCapabilitySet& aMissingCaps)

   692 	{

   693 	TPlatSecDiagnostic d(TPlatSecDiagnostic::ELoaderCapabilityViolation1,aLoadingProcess.Handle(),aFileName,aMissingCaps);

   694 	return EmitDiagnostic(d, NULL);

   695 	}

   696 

   697 inline TInt PlatSec::CreatorCapabilityCheckFail(TCapability aCapability, const char* aContextText)

   698 	{

   699 	TPlatSecDiagnostic d(TPlatSecDiagnostic::ECreatorCapabilityCheckFail,(TInt)0,aCapability);

   700 	return EmitDiagnostic(d,aContextText);

   701 	}

   702 

   703 inline TInt PlatSec::CreatorCapabilityCheckFail(const TCapabilitySet& aMissingCaps, const char* aContextText)

   704 	{

   705 	TPlatSecDiagnostic d(TPlatSecDiagnostic::ECreatorCapabilityCheckFail,(TInt)0,ECapability_None,(const SCapabilitySet&)aMissingCaps);

   706 	return EmitDiagnostic(d,aContextText);

   707 	}

   708 

   709 inline TInt PlatSec::CapabilityCheckFail(TInt aHandle, TCapability aCapability, const char* aContextText)

   710 	{

   711 	TPlatSecDiagnostic d(TPlatSecDiagnostic::EHandleCapabilityCheckFail,aHandle,aCapability);

   712 	return EmitDiagnostic(d,aContextText);

   713 	}

   714 

   715 inline TInt PlatSec::CapabilityCheckFail(TInt aHandle, const TCapabilitySet& aMissingCaps, const char* aContextText)

   716 	{

   717 	TPlatSecDiagnostic d(TPlatSecDiagnostic::EHandleCapabilityCheckFail,aHandle,ECapability_None,(const SCapabilitySet&)aMissingCaps);

   718 	return EmitDiagnostic(d,aContextText);

   719 	}

   720 

   721 inline TInt PlatSec::PolicyCheckFail(TInt aHandle, const SSecurityInfo& aMissingSecurityInfo, const char* aContextText)

   722 	{

   723 	TPlatSecDiagnostic d(TPlatSecDiagnostic::EHandleCapabilityCheckFail,aHandle,(const SSecurityInfo&)aMissingSecurityInfo);

   724 	return EmitDiagnostic(d,aContextText);

   725 	}

   726 

   727 inline TInt PlatSec::CapabilityCheckFail(RMessagePtr2 aMessage, TCapability aCapability, const char* aContextText)

   728 	{

   729 	TPlatSecDiagnostic d(TPlatSecDiagnostic::EMessageCapabilityCheckFail,(TInt)aMessage.Handle(),aCapability);

   730 	return EmitDiagnostic(d,aContextText);

   731 	}

   732 

   733 inline TInt PlatSec::CapabilityCheckFail(RMessagePtr2 aMessage, const TCapabilitySet& aMissingCaps, const char* aContextText)

   734 	{

   735 	TPlatSecDiagnostic d(TPlatSecDiagnostic::EMessageCapabilityCheckFail,(TInt)aMessage.Handle(),ECapability_None,(const SCapabilitySet&)aMissingCaps);

   736 	return EmitDiagnostic(d,aContextText);

   737 	}

   738 

   739 inline TInt PlatSec::PolicyCheckFail(RMessagePtr2 aMessage, const SSecurityInfo& aMissing, const char* aContextText)

   740 	{

   741 	TPlatSecDiagnostic d(TPlatSecDiagnostic::EMessageCapabilityCheckFail,(TInt)aMessage.Handle(),(const SSecurityInfo&)aMissing);

   742 	return EmitDiagnostic(d,aContextText);

   743 	}

   744 

   745 inline TInt PlatSec::CreatorPolicyCheckFail(const SSecurityInfo& aMissing, const char* aContextText)

   746 	{

   747 	TPlatSecDiagnostic d(TPlatSecDiagnostic::ECreatorPolicyCheckFail,(TInt)0,(const SSecurityInfo&)aMissing);

   748 	return EmitDiagnostic(d,aContextText);

   749 	}

   750 

   751 #endif //__KERNEL_MODE__

   752 #endif // !__REMOVE_PLATSEC_DIAGNOSTICS__

   753 

   754 const TInt KTlsArrayGranularity=2;

   755 

   756 #ifdef __CPU_HAS_CP15_THREAD_ID_REG

   757 

   758 #define __USERSIDE_THREAD_DATA__

   759 

   760 class TLocalThreadData

   761 	{

   762 public:

   763 	void Close();

   764 #ifndef __KERNEL_MODE__

   765 	TAny* DllTls(TInt aHandle, TInt aDllUid);

   766 	TInt DllSetTls(TInt aHandle, TInt aDllUid, TAny* aPtr);

   767 	void DllFreeTls(TInt aHandle);

   768 #endif

   769 public:

   770 	RAllocator* iHeap;				///< The thread's current heap

   771 	CActiveScheduler* iScheduler;	///< The thread's current active scheduler

   772 	TTrapHandler* iTrapHandler;		///< The thread's current trap handler

   773 private:

   774 	RAllocator* iTlsHeap; 			///< The heap that the DLL TLS data is stored on

   775 	RArray<STls> iTls; 				///< DLL TLS data

   776 	};

   777 

   778 const TInt KLocalThreadDataSize = _ALIGN_UP(sizeof(TLocalThreadData), 8);

   779 

   780 #endif

   781 

   782 #ifdef __WINS__

   783 

   784 enum TWin32RuntimeReason

   785 	{

   786 	// Same values as passed to DllMain

   787 	EWin32RuntimeProcessAttach = 1,

   788 	EWin32RuntimeThreadAttach = 2,

   789 	EWin32RuntimeThreadDetach = 3,

   790 	EWin32RuntimeProcessDetach = 4,

   791 	};

   792 

   793 typedef TBool (*TWin32RuntimeHook)(TWin32RuntimeReason);

   794 

   795 #endif

   796 

   797 struct SAtomicOpInfo64

   798 	{

   799 	TAny*		iA;

   800 	TAny*		iQ;

   801 	TUint64		i1;

   802 	TUint64		i2;

   803 	TUint64		i3;

   804 	};

   805 

   806 struct SAtomicOpInfo32

   807 	{

   808 	TAny*		iA;

   809 	union

   810 		{

   811 		TAny*	iQ;

   812 		TUint32	i0;

   813 		};

   814 	TUint32		i1;

   815 	TUint32		i2;

   816 	};

   817 

   818 #endif //__U32STD_H__