2 * COPYRIGHT: See COPYING in the top level directory
3 * PROJECT: ReactOS kernel
4 * FILE: ntoskrnl/rtl/libsupp.c
5 * PURPOSE: RTL Support Routines
6 * PROGRAMMERS: Alex Ionescu (alex@relsoft.net)
10 /* INCLUDES ******************************************************************/
16 #define TAG_ATMT 'TotA' /* Atom table */
18 extern ULONG NtGlobalFlag
;
20 typedef struct _RTL_RANGE_ENTRY
24 } RTL_RANGE_ENTRY
, *PRTL_RANGE_ENTRY
;
26 PAGED_LOOKASIDE_LIST RtlpRangeListEntryLookasideList
;
27 SIZE_T RtlpAllocDeallocQueryBufferSize
= 128;
29 /* FUNCTIONS *****************************************************************/
33 RtlInitializeRangeListPackage(VOID
)
35 /* Setup the lookaside list for allocations (not used yet) */
36 ExInitializePagedLookasideList(&RtlpRangeListEntryLookasideList
,
40 sizeof(RTL_RANGE_ENTRY
),
47 RtlpCheckForActiveDebugger(VOID
)
49 /* This check is meaningless in kernel-mode */
55 RtlpSetInDbgPrint(VOID
)
57 /* Nothing to set in kernel mode */
63 RtlpClearInDbgPrint(VOID
)
65 /* Nothing to clear in kernel mode */
77 RtlpAllocateMemory(ULONG Bytes
,
80 return ExAllocatePoolWithTag(PagedPool
,
86 #define TAG_USTR 'RTSU'
87 #define TAG_ASTR 'RTSA'
88 #define TAG_OSTR 'RTSO'
91 RtlpFreeMemory(PVOID Mem
,
94 if (Tag
== TAG_ASTR
|| Tag
== TAG_OSTR
|| Tag
== TAG_USTR
)
97 ExFreePoolWithTag(Mem
, Tag
);
104 RtlAcquirePebLock(VOID
)
113 RtlReleasePebLock(VOID
)
120 LdrShutdownThread(VOID
)
122 return STATUS_SUCCESS
;
128 RtlGetCurrentPeb(VOID
)
130 return ((PEPROCESS
)(KeGetCurrentThread()->ApcState
.Process
))->Peb
;
136 PRTL_CRITICAL_SECTION CriticalSection
)
139 return STATUS_SUCCESS
;
145 PRTL_CRITICAL_SECTION CriticalSection
)
148 return STATUS_SUCCESS
;
153 RtlInitializeHeapLock(
154 PRTL_CRITICAL_SECTION CriticalSection
)
157 return STATUS_SUCCESS
;
163 PRTL_CRITICAL_SECTION CriticalSection
)
166 return STATUS_SUCCESS
;
171 CHECK_PAGED_CODE_RTL(char *file
, int line
)
173 if(KeGetCurrentIrql() > APC_LEVEL
)
175 DbgPrint("%s:%i: Pagable code called at IRQL > APC_LEVEL (%d)\n", file
, line
, KeGetCurrentIrql());
183 RtlpCheckLogException(IN PEXCEPTION_RECORD ExceptionRecord
,
184 IN PCONTEXT ContextRecord
,
185 IN PVOID ContextData
,
188 /* Check the global flag */
189 if (NtGlobalFlag
& FLG_ENABLE_EXCEPTION_LOGGING
)
191 /* FIXME: Log this exception */
197 RtlpHandleDpcStackException(IN PEXCEPTION_REGISTRATION_RECORD RegistrationFrame
,
198 IN ULONG_PTR RegistrationFrameEnd
,
199 IN OUT PULONG_PTR StackLow
,
200 IN OUT PULONG_PTR StackHigh
)
205 /* Check if we are at DISPATCH or higher */
206 if (KeGetCurrentIrql() >= DISPATCH_LEVEL
)
208 /* Get the PRCB and DPC Stack */
209 Prcb
= KeGetCurrentPrcb();
210 DpcStack
= (ULONG_PTR
)Prcb
->DpcStack
;
212 /* Check if we are in a DPC and the stack matches */
213 if ((Prcb
->DpcRoutineActive
) &&
214 (RegistrationFrameEnd
<= DpcStack
) &&
215 ((ULONG_PTR
)RegistrationFrame
>= DpcStack
- KERNEL_STACK_SIZE
))
217 /* Update the limits to the DPC Stack's */
218 *StackHigh
= DpcStack
;
219 *StackLow
= DpcStack
- KERNEL_STACK_SIZE
;
224 /* Not in DPC stack */
232 RtlpCaptureStackLimits(IN ULONG_PTR Ebp
,
233 IN ULONG_PTR
*StackBegin
,
234 IN ULONG_PTR
*StackEnd
)
236 PKTHREAD Thread
= KeGetCurrentThread();
238 /* Don't even try at ISR level or later */
239 if (KeGetCurrentIrql() > DISPATCH_LEVEL
) return FALSE
;
241 /* Start with defaults */
242 *StackBegin
= Thread
->StackLimit
;
243 *StackEnd
= (ULONG_PTR
)Thread
->StackBase
;
245 /* Check if EBP is inside the stack */
246 if ((*StackBegin
<= Ebp
) && (Ebp
<= *StackEnd
))
248 /* Then make the stack start at EBP */
253 /* Now we're going to assume we're on the DPC stack */
254 *StackEnd
= (ULONG_PTR
)(KeGetPcr()->Prcb
->DpcStack
);
255 *StackBegin
= *StackEnd
- KERNEL_STACK_SIZE
;
257 /* Check if we seem to be on the DPC stack */
258 if ((*StackEnd
) && (*StackBegin
< Ebp
) && (Ebp
<= *StackEnd
))
260 /* We're on the DPC stack */
265 /* We're somewhere else entirely... use EBP for safety */
267 *StackEnd
= (ULONG_PTR
)PAGE_ALIGN(*StackBegin
);
280 RtlWalkFrameChain(OUT PVOID
*Callers
,
284 ULONG_PTR Stack
, NewStack
, StackBegin
, StackEnd
= 0;
286 BOOLEAN Result
, StopSearch
= FALSE
;
288 PETHREAD Thread
= PsGetCurrentThread();
290 PKTRAP_FRAME TrapFrame
;
292 /* Get current EBP */
295 __asm__("mov %%ebp, %0" : "=r" (Stack
) : );
296 #elif defined(_MSC_VER)
299 #elif defined(_M_MIPS)
300 __asm__("move $sp, %0" : "=r" (Stack
) : );
301 #elif defined(_M_PPC)
302 __asm__("mr %0,1" : "=r" (Stack
) : );
303 #elif defined(_M_ARM)
304 __asm__("mov sp, %0" : "=r"(Stack
) : );
306 #error Unknown architecture
309 /* Set it as the stack begin limit as well */
310 StackBegin
= (ULONG_PTR
)Stack
;
312 /* Check if we're called for non-logging mode */
315 /* Get the actual safe limits */
316 Result
= RtlpCaptureStackLimits((ULONG_PTR
)Stack
,
319 if (!Result
) return 0;
322 /* Use a SEH block for maximum protection */
325 /* Check if we want the user-mode stack frame */
328 /* Get the trap frame and TEB */
329 TrapFrame
= KeGetTrapFrame(&Thread
->Tcb
);
330 Teb
= Thread
->Tcb
.Teb
;
332 /* Make sure we can trust the TEB and trap frame */
334 (KeIsAttachedProcess()) ||
335 (KeGetCurrentIrql() >= DISPATCH_LEVEL
))
337 /* Invalid or unsafe attempt to get the stack */
338 _SEH2_YIELD(return 0;)
341 /* Get the stack limits */
342 StackBegin
= (ULONG_PTR
)Teb
->NtTib
.StackLimit
;
343 StackEnd
= (ULONG_PTR
)Teb
->NtTib
.StackBase
;
345 Stack
= TrapFrame
->Ebp
;
346 #elif defined(_M_PPC)
347 Stack
= TrapFrame
->Gpr1
;
349 #error Unknown architecture
353 if (StackEnd
<= StackBegin
) return 0;
354 ProbeForRead((PVOID
)StackBegin
,
355 StackEnd
- StackBegin
,
359 /* Loop the frames */
360 for (i
= 0; i
< Count
; i
++)
363 * Leave if we're past the stack,
364 * if we're before the stack,
365 * or if we've reached ourselves.
367 if ((Stack
>= StackEnd
) ||
368 (!i
? (Stack
< StackBegin
) : (Stack
<= StackBegin
)) ||
369 ((StackEnd
- Stack
) < (2 * sizeof(ULONG_PTR
))))
371 /* We're done or hit a bad address */
375 /* Get new stack and EIP */
376 NewStack
= *(PULONG_PTR
)Stack
;
377 Eip
= *(PULONG_PTR
)(Stack
+ sizeof(ULONG_PTR
));
379 /* Check if the new pointer is above the oldone and past the end */
380 if (!((Stack
< NewStack
) && (NewStack
< StackEnd
)))
382 /* Stop searching after this entry */
386 /* Also make sure that the EIP isn't a stack address */
387 if ((StackBegin
< Eip
) && (Eip
< StackEnd
)) break;
389 /* Check if we reached a user-mode address */
390 if (!(Flags
) && !(Eip
& 0x80000000)) break; // FIXME: 3GB breakage
392 /* Save this frame */
393 Callers
[i
] = (PVOID
)Eip
;
395 /* Check if we should continue */
398 /* Return the next index */
403 /* Move to the next stack */
407 _SEH2_EXCEPT(EXCEPTION_EXECUTE_HANDLER
)
414 /* Return frames parsed */
420 /* RTL Atom Tables ************************************************************/
423 RtlpInitAtomTableLock(PRTL_ATOM_TABLE AtomTable
)
425 ExInitializeFastMutex(&AtomTable
->FastMutex
);
427 return STATUS_SUCCESS
;
432 RtlpDestroyAtomTableLock(PRTL_ATOM_TABLE AtomTable
)
438 RtlpLockAtomTable(PRTL_ATOM_TABLE AtomTable
)
440 ExAcquireFastMutex(&AtomTable
->FastMutex
);
445 RtlpUnlockAtomTable(PRTL_ATOM_TABLE AtomTable
)
447 ExReleaseFastMutex(&AtomTable
->FastMutex
);
451 RtlpCreateAtomHandleTable(PRTL_ATOM_TABLE AtomTable
)
453 AtomTable
->ExHandleTable
= ExCreateHandleTable(NULL
);
454 return (AtomTable
->ExHandleTable
!= NULL
);
458 RtlpDestroyAtomHandleTable(PRTL_ATOM_TABLE AtomTable
)
460 if (AtomTable
->ExHandleTable
)
462 ExSweepHandleTable(AtomTable
->ExHandleTable
,
465 ExDestroyHandleTable(AtomTable
->ExHandleTable
, NULL
);
466 AtomTable
->ExHandleTable
= NULL
;
471 RtlpAllocAtomTable(ULONG Size
)
473 PRTL_ATOM_TABLE Table
= ExAllocatePool(NonPagedPool
,
485 RtlpFreeAtomTable(PRTL_ATOM_TABLE AtomTable
)
487 ExFreePool(AtomTable
);
490 PRTL_ATOM_TABLE_ENTRY
491 RtlpAllocAtomTableEntry(ULONG Size
)
493 PRTL_ATOM_TABLE_ENTRY Entry
;
495 Entry
= ExAllocatePoolWithTag(NonPagedPool
, Size
, TAG_ATMT
);
498 RtlZeroMemory(Entry
, Size
);
505 RtlpFreeAtomTableEntry(PRTL_ATOM_TABLE_ENTRY Entry
)
507 ExFreePoolWithTag(Entry
, TAG_ATMT
);
511 RtlpFreeAtomHandle(PRTL_ATOM_TABLE AtomTable
, PRTL_ATOM_TABLE_ENTRY Entry
)
513 ExDestroyHandle(AtomTable
->ExHandleTable
,
514 (HANDLE
)((ULONG_PTR
)Entry
->HandleIndex
<< 2),
519 RtlpCreateAtomHandle(PRTL_ATOM_TABLE AtomTable
, PRTL_ATOM_TABLE_ENTRY Entry
)
521 HANDLE_TABLE_ENTRY ExEntry
;
525 /* Initialize ex handle table entry */
526 ExEntry
.Object
= Entry
;
527 ExEntry
.GrantedAccess
= 0x1; /* FIXME - valid handle */
529 /* Create ex handle */
530 Handle
= ExCreateHandle(AtomTable
->ExHandleTable
,
532 if (!Handle
) return FALSE
;
534 /* Calculate HandleIndex (by getting rid of the first two bits) */
535 HandleIndex
= (USHORT
)((ULONG_PTR
)Handle
>> 2);
537 /* Index must be less than 0xC000 */
538 if (HandleIndex
>= 0xC000)
540 /* Destroy ex handle */
541 ExDestroyHandle(AtomTable
->ExHandleTable
,
549 /* Initialize atom table entry */
550 Entry
->HandleIndex
= HandleIndex
;
551 Entry
->Atom
= 0xC000 + HandleIndex
;
557 PRTL_ATOM_TABLE_ENTRY
558 RtlpGetAtomEntry(PRTL_ATOM_TABLE AtomTable
, ULONG Index
)
560 PHANDLE_TABLE_ENTRY ExEntry
;
561 PRTL_ATOM_TABLE_ENTRY Entry
= NULL
;
563 /* NOTE: There's no need to explicitly enter a critical region because it's
564 guaranteed that we're in a critical region right now (as we hold
565 the atom table lock) */
567 ExEntry
= ExMapHandleToPointer(AtomTable
->ExHandleTable
,
568 (HANDLE
)((ULONG_PTR
)Index
<< 2));
571 Entry
= ExEntry
->Object
;
573 ExUnlockHandleTableEntry(AtomTable
->ExHandleTable
,
581 * Ldr Resource support code
584 IMAGE_RESOURCE_DIRECTORY
*find_entry_by_name( IMAGE_RESOURCE_DIRECTORY
*dir
,
585 LPCWSTR name
, void *root
,
587 IMAGE_RESOURCE_DIRECTORY
*find_entry_by_id( IMAGE_RESOURCE_DIRECTORY
*dir
,
588 USHORT id
, void *root
, int want_dir
);
589 IMAGE_RESOURCE_DIRECTORY
*find_first_entry( IMAGE_RESOURCE_DIRECTORY
*dir
,
590 void *root
, int want_dir
);
592 /**********************************************************************
595 * Find a resource entry
597 NTSTATUS
find_entry( PVOID BaseAddress
, LDR_RESOURCE_INFO
*info
,
598 ULONG level
, void **ret
, int want_dir
)
602 IMAGE_RESOURCE_DIRECTORY
*resdirptr
;
604 root
= RtlImageDirectoryEntryToData( BaseAddress
, TRUE
, IMAGE_DIRECTORY_ENTRY_RESOURCE
, &size
);
605 if (!root
) return STATUS_RESOURCE_DATA_NOT_FOUND
;
608 if (!level
--) goto done
;
609 if (!(*ret
= find_entry_by_name( resdirptr
, (LPCWSTR
)info
->Type
, root
, want_dir
|| level
)))
610 return STATUS_RESOURCE_TYPE_NOT_FOUND
;
611 if (!level
--) return STATUS_SUCCESS
;
614 if (!(*ret
= find_entry_by_name( resdirptr
, (LPCWSTR
)info
->Name
, root
, want_dir
|| level
)))
615 return STATUS_RESOURCE_NAME_NOT_FOUND
;
616 if (!level
--) return STATUS_SUCCESS
;
617 if (level
) return STATUS_INVALID_PARAMETER
; /* level > 3 */
621 if ((*ret
= find_first_entry( resdirptr
, root
, want_dir
))) return STATUS_SUCCESS
;
623 return STATUS_RESOURCE_DATA_NOT_FOUND
;
627 return STATUS_SUCCESS
;