2 * PROJECT: ReactOS Kernel
3 * LICENSE: BSD - See COPYING.ARM in the top level directory
4 * FILE: ntoskrnl/mm/ARM3/section.c
5 * PURPOSE: ARM Memory Manager Section Support
6 * PROGRAMMERS: ReactOS Portable Systems Group
9 /* INCLUDES *******************************************************************/
15 #define MODULE_INVOLVED_IN_ARM3
16 #include <mm/ARM3/miarm.h>
18 /* GLOBALS ********************************************************************/
20 ACCESS_MASK MmMakeSectionAccess
[8] =
25 SECTION_MAP_EXECUTE
| SECTION_MAP_READ
,
28 SECTION_MAP_EXECUTE
| SECTION_MAP_WRITE
,
29 SECTION_MAP_EXECUTE
| SECTION_MAP_READ
32 ACCESS_MASK MmMakeFileAccess
[8] =
37 FILE_EXECUTE
| FILE_READ_DATA
,
38 FILE_WRITE_DATA
| FILE_READ_DATA
,
40 FILE_EXECUTE
| FILE_WRITE_DATA
| FILE_READ_DATA
,
41 FILE_EXECUTE
| FILE_READ_DATA
44 CHAR MmUserProtectionToMask1
[16] =
49 (CHAR
)MM_INVALID_PROTECTION
,
51 (CHAR
)MM_INVALID_PROTECTION
,
52 (CHAR
)MM_INVALID_PROTECTION
,
53 (CHAR
)MM_INVALID_PROTECTION
,
55 (CHAR
)MM_INVALID_PROTECTION
,
56 (CHAR
)MM_INVALID_PROTECTION
,
57 (CHAR
)MM_INVALID_PROTECTION
,
58 (CHAR
)MM_INVALID_PROTECTION
,
59 (CHAR
)MM_INVALID_PROTECTION
,
60 (CHAR
)MM_INVALID_PROTECTION
,
61 (CHAR
)MM_INVALID_PROTECTION
64 CHAR MmUserProtectionToMask2
[16] =
69 (CHAR
)MM_INVALID_PROTECTION
,
71 (CHAR
)MM_INVALID_PROTECTION
,
72 (CHAR
)MM_INVALID_PROTECTION
,
73 (CHAR
)MM_INVALID_PROTECTION
,
75 (CHAR
)MM_INVALID_PROTECTION
,
76 (CHAR
)MM_INVALID_PROTECTION
,
77 (CHAR
)MM_INVALID_PROTECTION
,
78 (CHAR
)MM_INVALID_PROTECTION
,
79 (CHAR
)MM_INVALID_PROTECTION
,
80 (CHAR
)MM_INVALID_PROTECTION
,
81 (CHAR
)MM_INVALID_PROTECTION
84 ULONG MmCompatibleProtectionMask
[8] =
88 PAGE_NOACCESS
| PAGE_READONLY
| PAGE_WRITECOPY
,
90 PAGE_NOACCESS
| PAGE_EXECUTE
,
92 PAGE_NOACCESS
| PAGE_READONLY
| PAGE_WRITECOPY
| PAGE_EXECUTE
|
95 PAGE_NOACCESS
| PAGE_READONLY
| PAGE_WRITECOPY
| PAGE_READWRITE
,
97 PAGE_NOACCESS
| PAGE_READONLY
| PAGE_WRITECOPY
,
99 PAGE_NOACCESS
| PAGE_READONLY
| PAGE_WRITECOPY
| PAGE_READWRITE
|
100 PAGE_EXECUTE
| PAGE_EXECUTE_READ
| PAGE_EXECUTE_READWRITE
|
101 PAGE_EXECUTE_WRITECOPY
,
103 PAGE_NOACCESS
| PAGE_READONLY
| PAGE_WRITECOPY
| PAGE_EXECUTE
|
104 PAGE_EXECUTE_READ
| PAGE_EXECUTE_WRITECOPY
108 KGUARDED_MUTEX MmSectionCommitMutex
;
109 MM_AVL_TABLE MmSectionBasedRoot
;
110 KGUARDED_MUTEX MmSectionBasedMutex
;
111 PVOID MmHighSectionBase
;
113 /* PRIVATE FUNCTIONS **********************************************************/
117 MiIsProtectionCompatible(IN ULONG SectionPageProtection
,
118 IN ULONG NewSectionPageProtection
)
120 ULONG ProtectionMask
, CompatibleMask
;
122 /* Calculate the protection mask and make sure it's valid */
123 ProtectionMask
= MiMakeProtectionMask(SectionPageProtection
);
124 if (ProtectionMask
== MM_INVALID_PROTECTION
)
126 DPRINT1("Invalid protection mask\n");
130 /* Calculate the compatible mask */
131 CompatibleMask
= MmCompatibleProtectionMask
[ProtectionMask
& 0x7] |
132 PAGE_GUARD
| PAGE_NOCACHE
| PAGE_WRITECOMBINE
;
134 /* See if the mapping protection is compatible with the create protection */
135 return ((CompatibleMask
| NewSectionPageProtection
) == CompatibleMask
);
140 MiArm3GetCorrectFileAccessMask(IN ACCESS_MASK SectionPageProtection
)
142 ULONG ProtectionMask
;
144 /* Calculate the protection mask and make sure it's valid */
145 ProtectionMask
= MiMakeProtectionMask(SectionPageProtection
);
146 if (ProtectionMask
== MM_INVALID_PROTECTION
)
148 DPRINT1("Invalid protection mask\n");
149 return STATUS_INVALID_PAGE_PROTECTION
;
152 /* Now convert it to the required file access */
153 return MmMakeFileAccess
[ProtectionMask
& 0x7];
158 MiMakeProtectionMask(IN ULONG Protect
)
160 ULONG Mask1
, Mask2
, ProtectMask
;
162 /* PAGE_EXECUTE_WRITECOMBINE is theoretically the maximum */
163 if (Protect
>= (PAGE_WRITECOMBINE
* 2)) return MM_INVALID_PROTECTION
;
166 * Windows API protection mask can be understood as two bitfields, differing
167 * by whether or not execute rights are being requested
169 Mask1
= Protect
& 0xF;
170 Mask2
= (Protect
>> 4) & 0xF;
172 /* Check which field is there */
175 /* Mask2 must be there, use it to determine the PTE protection */
176 if (!Mask2
) return MM_INVALID_PROTECTION
;
177 ProtectMask
= MmUserProtectionToMask2
[Mask2
];
181 /* Mask2 should not be there, use Mask1 to determine the PTE mask */
182 if (Mask2
) return MM_INVALID_PROTECTION
;
183 ProtectMask
= MmUserProtectionToMask1
[Mask1
];
186 /* Make sure the final mask is a valid one */
187 if (ProtectMask
== MM_INVALID_PROTECTION
) return MM_INVALID_PROTECTION
;
189 /* Check for PAGE_GUARD option */
190 if (Protect
& PAGE_GUARD
)
192 /* It's not valid on no-access, nocache, or writecombine pages */
193 if ((ProtectMask
== MM_NOACCESS
) ||
194 (Protect
& (PAGE_NOCACHE
| PAGE_WRITECOMBINE
)))
196 /* Fail such requests */
197 return MM_INVALID_PROTECTION
;
200 /* This actually turns on guard page in this scenario! */
201 ProtectMask
|= MM_GUARDPAGE
;
204 /* Check for nocache option */
205 if (Protect
& PAGE_NOCACHE
)
207 /* The earlier check should've eliminated this possibility */
208 ASSERT((Protect
& PAGE_GUARD
) == 0);
210 /* Check for no-access page or write combine page */
211 if ((ProtectMask
== MM_NOACCESS
) || (Protect
& PAGE_WRITECOMBINE
))
213 /* Such a request is invalid */
214 return MM_INVALID_PROTECTION
;
217 /* Add the PTE flag */
218 ProtectMask
|= MM_NOCACHE
;
221 /* Check for write combine option */
222 if (Protect
& PAGE_WRITECOMBINE
)
224 /* The two earlier scenarios should've caught this */
225 ASSERT((Protect
& (PAGE_GUARD
| PAGE_NOACCESS
)) == 0);
227 /* Don't allow on no-access pages */
228 if (ProtectMask
== MM_NOACCESS
) return MM_INVALID_PROTECTION
;
230 /* This actually turns on write-combine in this scenario! */
231 ProtectMask
|= MM_NOACCESS
;
234 /* Return the final MM PTE protection mask */
240 MiInitializeSystemSpaceMap(IN PMMSESSION InputSession OPTIONAL
)
242 SIZE_T AllocSize
, BitmapSize
, Size
;
246 /* Check if this a session or system space */
249 /* Use the input session */
250 Session
= InputSession
;
251 ViewStart
= MiSessionViewStart
;
252 Size
= MmSessionViewSize
;
256 /* Use the system space "session" */
257 Session
= &MmSession
;
258 ViewStart
= MiSystemViewStart
;
259 Size
= MmSystemViewSize
;
262 /* Initialize the system space lock */
263 Session
->SystemSpaceViewLockPointer
= &Session
->SystemSpaceViewLock
;
264 KeInitializeGuardedMutex(Session
->SystemSpaceViewLockPointer
);
266 /* Set the start address */
267 Session
->SystemSpaceViewStart
= ViewStart
;
269 /* Create a bitmap to describe system space */
270 BitmapSize
= sizeof(RTL_BITMAP
) + ((((Size
/ MI_SYSTEM_VIEW_BUCKET_SIZE
) + 31) / 32) * sizeof(ULONG
));
271 Session
->SystemSpaceBitMap
= ExAllocatePoolWithTag(NonPagedPool
,
274 ASSERT(Session
->SystemSpaceBitMap
);
275 RtlInitializeBitMap(Session
->SystemSpaceBitMap
,
276 (PULONG
)(Session
->SystemSpaceBitMap
+ 1),
277 (ULONG
)(Size
/ MI_SYSTEM_VIEW_BUCKET_SIZE
));
279 /* Set system space fully empty to begin with */
280 RtlClearAllBits(Session
->SystemSpaceBitMap
);
282 /* Set default hash flags */
283 Session
->SystemSpaceHashSize
= 31;
284 Session
->SystemSpaceHashKey
= Session
->SystemSpaceHashSize
- 1;
285 Session
->SystemSpaceHashEntries
= 0;
287 /* Calculate how much space for the hash views we'll need */
288 AllocSize
= sizeof(MMVIEW
) * Session
->SystemSpaceHashSize
;
289 ASSERT(AllocSize
< PAGE_SIZE
);
291 /* Allocate and zero the view table */
292 Session
->SystemSpaceViewTable
= ExAllocatePoolWithTag(Session
== &MmSession
?
297 ASSERT(Session
->SystemSpaceViewTable
!= NULL
);
298 RtlZeroMemory(Session
->SystemSpaceViewTable
, AllocSize
);
306 MiInsertInSystemSpace(IN PMMSESSION Session
,
308 IN PCONTROL_AREA ControlArea
)
311 ULONG Entry
, Hash
, i
, HashSize
;
315 /* Stay within 4GB */
316 ASSERT(Buckets
< MI_SYSTEM_VIEW_BUCKET_SIZE
);
318 /* Lock system space */
319 KeAcquireGuardedMutex(Session
->SystemSpaceViewLockPointer
);
321 /* Check if we're going to exhaust hash entries */
322 if ((Session
->SystemSpaceHashEntries
+ 8) > Session
->SystemSpaceHashSize
)
324 /* Double the hash size */
325 HashSize
= Session
->SystemSpaceHashSize
* 2;
327 /* Save the old table and allocate a new one */
328 OldTable
= Session
->SystemSpaceViewTable
;
329 Session
->SystemSpaceViewTable
= ExAllocatePoolWithTag(Session
==
336 if (!Session
->SystemSpaceViewTable
)
338 /* Failed to allocate a new table, keep the old one for now */
339 Session
->SystemSpaceViewTable
= OldTable
;
343 /* Clear the new table and set the new ahsh and key */
344 RtlZeroMemory(Session
->SystemSpaceViewTable
, HashSize
* sizeof(MMVIEW
));
345 Session
->SystemSpaceHashSize
= HashSize
;
346 Session
->SystemSpaceHashKey
= Session
->SystemSpaceHashSize
- 1;
348 /* Loop the old table */
349 for (i
= 0; i
< Session
->SystemSpaceHashSize
/ 2; i
++)
351 /* Check if the entry was valid */
352 if (OldTable
[i
].Entry
)
354 /* Re-hash the old entry and search for space in the new table */
355 Hash
= (OldTable
[i
].Entry
>> 16) % Session
->SystemSpaceHashKey
;
356 while (Session
->SystemSpaceViewTable
[Hash
].Entry
)
358 /* Loop back at the beginning if we had an overflow */
359 if (++Hash
>= Session
->SystemSpaceHashSize
) Hash
= 0;
362 /* Write the old entry in the new table */
363 Session
->SystemSpaceViewTable
[Hash
] = OldTable
[i
];
367 /* Free the old table */
368 ExFreePool(OldTable
);
372 /* Check if we ran out */
373 if (Session
->SystemSpaceHashEntries
== Session
->SystemSpaceHashSize
)
375 DPRINT1("Ran out of system view hash entries\n");
376 KeReleaseGuardedMutex(Session
->SystemSpaceViewLockPointer
);
380 /* Find space where to map this view */
381 i
= RtlFindClearBitsAndSet(Session
->SystemSpaceBitMap
, Buckets
, 0);
384 /* Out of space, fail */
385 Session
->BitmapFailures
++;
386 DPRINT1("Out of system view space\n");
387 KeReleaseGuardedMutex(Session
->SystemSpaceViewLockPointer
);
391 /* Compute the base address */
392 Base
= (PVOID
)((ULONG_PTR
)Session
->SystemSpaceViewStart
+ (i
* MI_SYSTEM_VIEW_BUCKET_SIZE
));
394 /* Get the hash entry for this allocation */
395 Entry
= ((ULONG_PTR
)Base
& ~(MI_SYSTEM_VIEW_BUCKET_SIZE
- 1)) + Buckets
;
396 Hash
= (Entry
>> 16) % Session
->SystemSpaceHashKey
;
398 /* Loop hash entries until a free one is found */
399 while (Session
->SystemSpaceViewTable
[Hash
].Entry
)
401 /* Unless we overflow, in which case loop back at hash o */
402 if (++Hash
>= Session
->SystemSpaceHashSize
) Hash
= 0;
405 /* Add this entry into the hash table */
406 Session
->SystemSpaceViewTable
[Hash
].Entry
= Entry
;
407 Session
->SystemSpaceViewTable
[Hash
].ControlArea
= ControlArea
;
409 /* Hash entry found, increment total and return the base address */
410 Session
->SystemSpaceHashEntries
++;
411 KeReleaseGuardedMutex(Session
->SystemSpaceViewLockPointer
);
417 MiAddMappedPtes(IN PMMPTE FirstPte
,
418 IN PFN_NUMBER PteCount
,
419 IN PCONTROL_AREA ControlArea
)
422 PMMPTE PointerPte
, ProtoPte
, LastProtoPte
, LastPte
;
423 PSUBSECTION Subsection
;
425 /* ARM3 doesn't support this yet */
426 ASSERT(ControlArea
->u
.Flags
.GlobalOnlyPerSession
== 0);
427 ASSERT(ControlArea
->u
.Flags
.Rom
== 0);
428 ASSERT(ControlArea
->FilePointer
== NULL
);
431 ASSERT(PteCount
!= 0);
432 ASSERT(ControlArea
->NumberOfMappedViews
>= 1);
433 ASSERT(ControlArea
->NumberOfUserReferences
>= 1);
434 ASSERT(ControlArea
->NumberOfSectionReferences
!= 0);
435 ASSERT(ControlArea
->u
.Flags
.BeingCreated
== 0);
436 ASSERT(ControlArea
->u
.Flags
.BeingDeleted
== 0);
437 ASSERT(ControlArea
->u
.Flags
.BeingPurged
== 0);
439 /* Get the PTEs for the actual mapping */
440 PointerPte
= FirstPte
;
441 LastPte
= FirstPte
+ PteCount
;
443 /* Get the prototype PTEs that desribe the section mapping in the subsection */
444 Subsection
= (PSUBSECTION
)(ControlArea
+ 1);
445 ProtoPte
= Subsection
->SubsectionBase
;
446 LastProtoPte
= &Subsection
->SubsectionBase
[Subsection
->PtesInSubsection
];
448 /* Loop the PTEs for the mapping */
449 while (PointerPte
< LastPte
)
451 /* We may have run out of prototype PTEs in this subsection */
452 if (ProtoPte
>= LastProtoPte
)
454 /* But we don't handle this yet */
458 /* The PTE should be completely clear */
459 ASSERT(PointerPte
->u
.Long
== 0);
461 /* Build the prototype PTE and write it */
462 MI_MAKE_PROTOTYPE_PTE(&TempPte
, ProtoPte
);
463 MI_WRITE_INVALID_PTE(PointerPte
, TempPte
);
470 /* No failure path */
471 return STATUS_SUCCESS
;
476 MiFillSystemPageDirectory(IN PVOID Base
,
477 IN SIZE_T NumberOfBytes
)
479 PMMPDE PointerPde
, LastPde
, SystemMapPde
;
481 PFN_NUMBER PageFrameIndex
, ParentPage
;
485 /* Find the PDEs needed for this mapping */
486 PointerPde
= MiAddressToPde(Base
);
487 LastPde
= MiAddressToPde((PVOID
)((ULONG_PTR
)Base
+ NumberOfBytes
- 1));
489 #if (_MI_PAGING_LEVELS == 2)
490 /* Find the system double-mapped PDE that describes this mapping */
491 SystemMapPde
= &MmSystemPagePtes
[((ULONG_PTR
)PointerPde
& (SYSTEM_PD_SIZE
- 1)) / sizeof(MMPTE
)];
493 /* We don't have a double mapping */
494 SystemMapPde
= PointerPde
;
497 /* Use the PDE template and loop the PDEs */
498 TempPde
= ValidKernelPde
;
499 while (PointerPde
<= LastPde
)
501 /* Lock the PFN database */
502 OldIrql
= KeAcquireQueuedSpinLock(LockQueuePfnLock
);
504 /* Check if we don't already have this PDE mapped */
505 if (SystemMapPde
->u
.Hard
.Valid
== 0)
507 /* Grab a page for it */
508 MI_SET_USAGE(MI_USAGE_PAGE_TABLE
);
509 MI_SET_PROCESS2(PsGetCurrentProcess()->ImageFileName
);
510 PageFrameIndex
= MiRemoveZeroPage(MI_GET_NEXT_COLOR());
511 ASSERT(PageFrameIndex
);
512 TempPde
.u
.Hard
.PageFrameNumber
= PageFrameIndex
;
514 #if (_MI_PAGING_LEVELS == 2)
515 ParentPage
= MmSystemPageDirectory
[(PointerPde
- MiAddressToPde(NULL
)) / PDE_COUNT
];
517 ParentPage
= MiPdeToPpe(PointerPde
)->u
.Hard
.PageFrameNumber
;
519 /* Initialize its PFN entry, with the parent system page directory page table */
520 MiInitializePfnForOtherProcess(PageFrameIndex
,
524 /* Make the system PDE entry valid */
525 MI_WRITE_VALID_PDE(SystemMapPde
, TempPde
);
527 /* The system PDE entry might be the PDE itself, so check for this */
528 if (PointerPde
->u
.Hard
.Valid
== 0)
530 /* It's different, so make the real PDE valid too */
531 MI_WRITE_VALID_PDE(PointerPde
, TempPde
);
535 /* Release the lock and keep going with the next PDE */
536 KeReleaseQueuedSpinLock(LockQueuePfnLock
, OldIrql
);
544 MiCheckPurgeAndUpMapCount(IN PCONTROL_AREA ControlArea
,
545 IN BOOLEAN FailIfSystemViews
)
549 /* Flag not yet supported */
550 ASSERT(FailIfSystemViews
== FALSE
);
552 /* Lock the PFN database */
553 OldIrql
= KeAcquireQueuedSpinLock(LockQueuePfnLock
);
555 /* State not yet supported */
556 ASSERT(ControlArea
->u
.Flags
.BeingPurged
== 0);
558 /* Increase the reference counts */
559 ControlArea
->NumberOfMappedViews
++;
560 ControlArea
->NumberOfUserReferences
++;
561 ASSERT(ControlArea
->NumberOfSectionReferences
!= 0);
563 /* Release the PFN lock and return success */
564 KeReleaseQueuedSpinLock(LockQueuePfnLock
, OldIrql
);
565 return STATUS_SUCCESS
;
570 MiLocateSubsection(IN PMMVAD Vad
,
573 PSUBSECTION Subsection
;
574 PCONTROL_AREA ControlArea
;
577 /* Get the control area */
578 ControlArea
= Vad
->ControlArea
;
579 ASSERT(ControlArea
->u
.Flags
.Rom
== 0);
580 ASSERT(ControlArea
->u
.Flags
.Image
== 0);
581 ASSERT(ControlArea
->u
.Flags
.GlobalOnlyPerSession
== 0);
583 /* Get the subsection */
584 Subsection
= (PSUBSECTION
)(ControlArea
+ 1);
586 /* We only support single-subsection segments */
587 ASSERT(Subsection
->SubsectionBase
!= NULL
);
588 ASSERT(Vad
->FirstPrototypePte
>= Subsection
->SubsectionBase
);
589 ASSERT(Vad
->FirstPrototypePte
< &Subsection
->SubsectionBase
[Subsection
->PtesInSubsection
]);
591 /* Compute the PTE offset */
592 PteOffset
= Vpn
- Vad
->StartingVpn
;
593 PteOffset
+= Vad
->FirstPrototypePte
- Subsection
->SubsectionBase
;
595 /* Again, we only support single-subsection segments */
596 ASSERT(PteOffset
< 0xF0000000);
597 ASSERT(PteOffset
< Subsection
->PtesInSubsection
);
599 /* Return the subsection */
605 MiSegmentDelete(IN PSEGMENT Segment
)
607 PCONTROL_AREA ControlArea
;
608 SEGMENT_FLAGS SegmentFlags
;
609 PSUBSECTION Subsection
;
610 PMMPTE PointerPte
, LastPte
, PteForProto
;
612 PFN_NUMBER PageFrameIndex
;
617 SegmentFlags
= Segment
->SegmentFlags
;
618 ControlArea
= Segment
->ControlArea
;
620 /* Make sure control area is on the right delete path */
621 ASSERT(ControlArea
->u
.Flags
.BeingDeleted
== 1);
622 ASSERT(ControlArea
->WritableUserReferences
== 0);
624 /* These things are not supported yet */
625 ASSERT(ControlArea
->DereferenceList
.Flink
== NULL
);
626 ASSERT(!(ControlArea
->u
.Flags
.Image
) && !(ControlArea
->u
.Flags
.File
));
627 ASSERT(ControlArea
->u
.Flags
.GlobalOnlyPerSession
== 0);
628 ASSERT(ControlArea
->u
.Flags
.Rom
== 0);
630 /* Get the subsection and PTEs for this segment */
631 Subsection
= (PSUBSECTION
)(ControlArea
+ 1);
632 PointerPte
= Subsection
->SubsectionBase
;
633 LastPte
= PointerPte
+ Segment
->NonExtendedPtes
;
635 /* Lock the PFN database */
636 OldIrql
= KeAcquireQueuedSpinLock(LockQueuePfnLock
);
638 /* Check if the master PTE is invalid */
639 PteForProto
= MiAddressToPte(PointerPte
);
640 if (!PteForProto
->u
.Hard
.Valid
)
643 MiMakeSystemAddressValidPfn(PointerPte
, OldIrql
);
646 /* Loop all the segment PTEs */
647 while (PointerPte
< LastPte
)
649 /* Check if it's time to switch master PTEs if we passed a PDE boundary */
650 if (!((ULONG_PTR
)PointerPte
& (PD_SIZE
- 1)) &&
651 (PointerPte
!= Subsection
->SubsectionBase
))
653 /* Check if the master PTE is invalid */
654 PteForProto
= MiAddressToPte(PointerPte
);
655 if (!PteForProto
->u
.Hard
.Valid
)
658 MiMakeSystemAddressValidPfn(PointerPte
, OldIrql
);
662 /* This should be a prototype PTE */
663 TempPte
= *PointerPte
;
664 ASSERT(SegmentFlags
.LargePages
== 0);
665 ASSERT(TempPte
.u
.Hard
.Valid
== 0);
667 /* See if we should clean things up */
668 if (!(ControlArea
->u
.Flags
.Image
) && !(ControlArea
->u
.Flags
.File
))
671 * This is a section backed by the pagefile. Now that it doesn't exist anymore,
672 * we can give everything back to the system.
674 ASSERT(TempPte
.u
.Soft
.Prototype
== 0);
676 if (TempPte
.u
.Soft
.Transition
== 1)
678 /* We can give the page back for other use */
679 DPRINT("Releasing page for transition PTE %p\n", PointerPte
);
680 PageFrameIndex
= PFN_FROM_PTE(&TempPte
);
681 Pfn1
= MI_PFN_ELEMENT(PageFrameIndex
);
683 /* As this is a paged-backed section, nobody should reference it anymore (no cache or whatever) */
684 ASSERT(Pfn1
->u3
.ReferenceCount
== 0);
686 /* And it should be in standby or modified list */
687 ASSERT((Pfn1
->u3
.e1
.PageLocation
== ModifiedPageList
) || (Pfn1
->u3
.e1
.PageLocation
== StandbyPageList
));
689 /* Unlink it and put it back in free list */
690 MiUnlinkPageFromList(Pfn1
);
692 /* Temporarily mark this as active and make it free again */
693 Pfn1
->u3
.e1
.PageLocation
= ActiveAndValid
;
694 MI_SET_PFN_DELETED(Pfn1
);
696 MiInsertPageInFreeList(PageFrameIndex
);
698 else if (TempPte
.u
.Soft
.PageFileHigh
!= 0)
700 /* Should not happen for now */
706 /* unsupported for now */
709 /* File-backed section must have prototype PTEs */
710 ASSERT(TempPte
.u
.Soft
.Prototype
== 1);
713 /* Zero the PTE and keep going */
714 PointerPte
->u
.Long
= 0;
718 /* Release the PFN lock */
719 KeReleaseQueuedSpinLock(LockQueuePfnLock
, OldIrql
);
721 /* Free the structures */
722 ExFreePool(ControlArea
);
728 MiCheckControlArea(IN PCONTROL_AREA ControlArea
,
731 BOOLEAN DeleteSegment
= FALSE
;
732 ASSERT(KeGetCurrentIrql() == DISPATCH_LEVEL
);
734 /* Check if this is the last reference or view */
735 if (!(ControlArea
->NumberOfMappedViews
) &&
736 !(ControlArea
->NumberOfSectionReferences
))
738 /* There should be no more user references either */
739 ASSERT(ControlArea
->NumberOfUserReferences
== 0);
741 /* Not yet supported */
742 ASSERT(ControlArea
->FilePointer
== NULL
);
744 /* The control area is being destroyed */
745 ControlArea
->u
.Flags
.BeingDeleted
= TRUE
;
746 DeleteSegment
= TRUE
;
749 /* Release the PFN lock */
750 KeReleaseQueuedSpinLock(LockQueuePfnLock
, OldIrql
);
752 /* Delete the segment if needed */
755 /* No more user write references at all */
756 ASSERT(ControlArea
->WritableUserReferences
== 0);
757 MiSegmentDelete(ControlArea
->Segment
);
763 MiDereferenceControlArea(IN PCONTROL_AREA ControlArea
)
767 /* Lock the PFN database */
768 OldIrql
= KeAcquireQueuedSpinLock(LockQueuePfnLock
);
770 /* Drop reference counts */
771 ControlArea
->NumberOfMappedViews
--;
772 ControlArea
->NumberOfUserReferences
--;
774 /* Check if it's time to delete the CA. This releases the lock */
775 MiCheckControlArea(ControlArea
, OldIrql
);
780 MiRemoveMappedView(IN PEPROCESS CurrentProcess
,
784 PCONTROL_AREA ControlArea
;
785 PETHREAD CurrentThread
= PsGetCurrentThread();
787 /* Get the control area */
788 ControlArea
= Vad
->ControlArea
;
790 /* We only support non-extendable, non-image, pagefile-backed regular sections */
791 ASSERT(Vad
->u
.VadFlags
.VadType
== VadNone
);
792 ASSERT(Vad
->u2
.VadFlags2
.ExtendableFile
== FALSE
);
794 ASSERT(ControlArea
->FilePointer
== NULL
);
796 /* Delete the actual virtual memory pages */
797 MiDeleteVirtualAddresses(Vad
->StartingVpn
<< PAGE_SHIFT
,
798 (Vad
->EndingVpn
<< PAGE_SHIFT
) | (PAGE_SIZE
- 1),
801 /* Release the working set */
802 MiUnlockProcessWorkingSetUnsafe(CurrentProcess
, CurrentThread
);
804 /* Lock the PFN database */
805 OldIrql
= KeAcquireQueuedSpinLock(LockQueuePfnLock
);
807 /* Remove references */
808 ControlArea
->NumberOfMappedViews
--;
809 ControlArea
->NumberOfUserReferences
--;
811 /* Check if it should be destroyed */
812 MiCheckControlArea(ControlArea
, OldIrql
);
817 MiUnmapViewOfSection(IN PEPROCESS Process
,
818 IN PVOID BaseAddress
,
821 PMEMORY_AREA MemoryArea
;
822 BOOLEAN Attached
= FALSE
;
825 PVOID DbgBase
= NULL
;
828 PETHREAD CurrentThread
= PsGetCurrentThread();
829 PEPROCESS CurrentProcess
= PsGetCurrentProcess();
832 /* Check for Mm Region */
833 MemoryArea
= MmLocateMemoryAreaByAddress(&Process
->Vm
, BaseAddress
);
834 if ((MemoryArea
) && (MemoryArea
->Type
!= MEMORY_AREA_OWNED_BY_ARM3
))
837 return MiRosUnmapViewOfSection(Process
, BaseAddress
, Flags
);
840 /* Check if we should attach to the process */
841 if (CurrentProcess
!= Process
)
843 /* The process is different, do an attach */
844 KeStackAttachProcess(&Process
->Pcb
, &ApcState
);
848 /* Check if we need to lock the address space */
849 if (!Flags
) MmLockAddressSpace(&Process
->Vm
);
851 /* Check if the process is already daed */
852 if (Process
->VmDeleted
)
855 DPRINT1("Process died!\n");
856 if (!Flags
) MmUnlockAddressSpace(&Process
->Vm
);
857 Status
= STATUS_PROCESS_IS_TERMINATING
;
861 /* Find the VAD for the address and make sure it's a section VAD */
862 Vad
= MiLocateAddress(BaseAddress
);
863 if (!(Vad
) || (Vad
->u
.VadFlags
.PrivateMemory
))
865 /* Couldn't find it, or invalid VAD, fail */
866 DPRINT1("No VAD or invalid VAD\n");
867 if (!Flags
) MmUnlockAddressSpace(&Process
->Vm
);
868 Status
= STATUS_NOT_MAPPED_VIEW
;
872 /* We should be attached */
873 ASSERT(Process
== PsGetCurrentProcess());
875 /* We need the base address for the debugger message on image-backed VADs */
876 if (Vad
->u
.VadFlags
.VadType
== VadImageMap
)
878 DbgBase
= (PVOID
)(Vad
->StartingVpn
>> PAGE_SHIFT
);
881 /* Compute the size of the VAD region */
882 RegionSize
= PAGE_SIZE
+ ((Vad
->EndingVpn
- Vad
->StartingVpn
) << PAGE_SHIFT
);
884 /* For SEC_NO_CHANGE sections, we need some extra checks */
885 if (Vad
->u
.VadFlags
.NoChange
== 1)
887 /* Are we allowed to mess with this VAD? */
888 Status
= MiCheckSecuredVad(Vad
,
889 (PVOID
)(Vad
->StartingVpn
>> PAGE_SHIFT
),
892 if (!NT_SUCCESS(Status
))
895 DPRINT1("Trying to unmap protected VAD!\n");
896 if (!Flags
) MmUnlockAddressSpace(&Process
->Vm
);
901 /* Not currently supported */
902 ASSERT(Vad
->u
.VadFlags
.VadType
!= VadRotatePhysical
);
904 /* FIXME: Remove VAD charges */
906 /* Lock the working set */
907 MiLockProcessWorkingSetUnsafe(Process
, CurrentThread
);
910 ASSERT(Process
->VadRoot
.NumberGenericTableElements
>= 1);
911 MiRemoveNode((PMMADDRESS_NODE
)Vad
, &Process
->VadRoot
);
913 /* Remove the PTEs for this view, which also releases the working set lock */
914 MiRemoveMappedView(Process
, Vad
);
916 /* FIXME: Remove commitment */
918 /* Update performance counter and release the lock */
919 Process
->VirtualSize
-= RegionSize
;
920 if (!Flags
) MmUnlockAddressSpace(&Process
->Vm
);
922 /* Destroy the VAD and return success */
924 Status
= STATUS_SUCCESS
;
926 /* Failure and success case -- send debugger message, detach, and return */
928 if (DbgBase
) DbgkUnMapViewOfSection(DbgBase
);
929 if (Attached
) KeUnstackDetachProcess(&ApcState
);
935 MiSessionCommitPageTables(IN PVOID StartVa
,
940 PMMPTE StartPde
, EndPde
;
941 MMPTE TempPte
= ValidKernelPdeLocal
;
943 PFN_NUMBER PageCount
= 0, ActualPages
= 0, PageFrameNumber
;
945 /* Windows sanity checks */
946 ASSERT(StartVa
>= (PVOID
)MmSessionBase
);
947 ASSERT(EndVa
< (PVOID
)MiSessionSpaceEnd
);
948 ASSERT(PAGE_ALIGN(EndVa
) == EndVa
);
950 /* Get the start and end PDE, then loop each one */
951 StartPde
= MiAddressToPde(StartVa
);
952 EndPde
= MiAddressToPde((PVOID
)((ULONG_PTR
)EndVa
- 1));
953 Index
= ((ULONG_PTR
)StartVa
- (ULONG_PTR
)MmSessionBase
) >> 22;
954 while (StartPde
<= EndPde
)
957 /* If we don't already have a page table for it, increment count */
958 if (MmSessionSpace
->PageTables
[Index
].u
.Long
== 0) PageCount
++;
960 /* Move to the next one */
965 /* If there's no page tables to create, bail out */
966 if (PageCount
== 0) return STATUS_SUCCESS
;
968 /* Reset the start PDE and index */
969 StartPde
= MiAddressToPde(StartVa
);
970 Index
= ((ULONG_PTR
)StartVa
- (ULONG_PTR
)MmSessionBase
) >> 22;
972 /* Loop each PDE while holding the working set lock */
973 // MiLockWorkingSet(PsGetCurrentThread(),
974 // &MmSessionSpace->GlobalVirtualAddress->Vm);
976 _WARN("MiSessionCommitPageTables halfplemented for amd64")
977 DBG_UNREFERENCED_LOCAL_VARIABLE(OldIrql
);
978 DBG_UNREFERENCED_LOCAL_VARIABLE(Color
);
979 DBG_UNREFERENCED_LOCAL_VARIABLE(TempPte
);
980 DBG_UNREFERENCED_LOCAL_VARIABLE(Pfn1
);
981 DBG_UNREFERENCED_LOCAL_VARIABLE(PageFrameNumber
);
984 while (StartPde
<= EndPde
)
986 /* Check if we already have a page table */
987 if (MmSessionSpace
->PageTables
[Index
].u
.Long
== 0)
989 /* We don't, so the PDE shouldn't be ready yet */
990 ASSERT(StartPde
->u
.Hard
.Valid
== 0);
992 /* ReactOS check to avoid MiEnsureAvailablePageOrWait */
993 ASSERT(MmAvailablePages
>= 32);
995 /* Acquire the PFN lock and grab a zero page */
996 OldIrql
= KeAcquireQueuedSpinLock(LockQueuePfnLock
);
997 Color
= (++MmSessionSpace
->Color
) & MmSecondaryColorMask
;
998 PageFrameNumber
= MiRemoveZeroPage(Color
);
999 TempPte
.u
.Hard
.PageFrameNumber
= PageFrameNumber
;
1000 MI_WRITE_VALID_PTE(StartPde
, TempPte
);
1002 /* Write the page table in session space structure */
1003 ASSERT(MmSessionSpace
->PageTables
[Index
].u
.Long
== 0);
1004 MmSessionSpace
->PageTables
[Index
] = TempPte
;
1006 /* Initialize the PFN */
1007 MiInitializePfnForOtherProcess(PageFrameNumber
,
1009 MmSessionSpace
->SessionPageDirectoryIndex
);
1011 /* And now release the lock */
1012 KeReleaseQueuedSpinLock(LockQueuePfnLock
, OldIrql
);
1014 /* Get the PFN entry and make sure there's no event for it */
1015 Pfn1
= MI_PFN_ELEMENT(PageFrameNumber
);
1016 ASSERT(Pfn1
->u1
.Event
== NULL
);
1018 /* Increment the number of pages */
1022 /* Move to the next PDE */
1028 /* Make sure we didn't do more pages than expected */
1029 ASSERT(ActualPages
<= PageCount
);
1031 /* Release the working set lock */
1032 // MiUnlockWorkingSet(PsGetCurrentThread(),
1033 // &MmSessionSpace->GlobalVirtualAddress->Vm);
1036 /* If we did at least one page... */
1039 /* Update the performance counters! */
1040 InterlockedExchangeAddSizeT(&MmSessionSpace
->NonPageablePages
, ActualPages
);
1041 InterlockedExchangeAddSizeT(&MmSessionSpace
->CommittedPages
, ActualPages
);
1045 return STATUS_SUCCESS
;
1050 MiMapViewInSystemSpace(IN PVOID Section
,
1051 IN PMMSESSION Session
,
1052 OUT PVOID
*MappedBase
,
1053 IN OUT PSIZE_T ViewSize
)
1056 PCONTROL_AREA ControlArea
;
1057 ULONG Buckets
, SectionSize
;
1061 /* Get the control area, check for any flags ARM3 doesn't yet support */
1062 ControlArea
= ((PSECTION
)Section
)->Segment
->ControlArea
;
1063 ASSERT(ControlArea
->u
.Flags
.Image
== 0);
1064 ASSERT(ControlArea
->FilePointer
== NULL
);
1065 ASSERT(ControlArea
->u
.Flags
.GlobalOnlyPerSession
== 0);
1066 ASSERT(ControlArea
->u
.Flags
.Rom
== 0);
1067 ASSERT(ControlArea
->u
.Flags
.WasPurged
== 0);
1069 /* Increase the reference and map count on the control area, no purges yet */
1070 Status
= MiCheckPurgeAndUpMapCount(ControlArea
, FALSE
);
1071 ASSERT(NT_SUCCESS(Status
));
1073 /* Get the section size at creation time */
1074 SectionSize
= ((PSECTION
)Section
)->SizeOfSection
.LowPart
;
1076 /* If the caller didn't specify a view size, assume the whole section */
1077 if (!(*ViewSize
)) *ViewSize
= SectionSize
;
1079 /* Check if the caller wanted a larger section than the view */
1080 if (*ViewSize
> SectionSize
)
1083 DPRINT1("View is too large\n");
1084 MiDereferenceControlArea(ControlArea
);
1085 return STATUS_INVALID_VIEW_SIZE
;
1088 /* Get the number of 64K buckets required for this mapping */
1089 Buckets
= (ULONG
)(*ViewSize
/ MI_SYSTEM_VIEW_BUCKET_SIZE
);
1090 if (*ViewSize
& (MI_SYSTEM_VIEW_BUCKET_SIZE
- 1)) Buckets
++;
1092 /* Check if the view is more than 4GB large */
1093 if (Buckets
>= MI_SYSTEM_VIEW_BUCKET_SIZE
)
1096 DPRINT1("View is too large\n");
1097 MiDereferenceControlArea(ControlArea
);
1098 return STATUS_INVALID_VIEW_SIZE
;
1101 /* Insert this view into system space and get a base address for it */
1102 Base
= MiInsertInSystemSpace(Session
, Buckets
, ControlArea
);
1106 DPRINT1("Out of system space\n");
1107 MiDereferenceControlArea(ControlArea
);
1108 return STATUS_NO_MEMORY
;
1111 /* What's the underlying session? */
1112 if (Session
== &MmSession
)
1114 /* Create the PDEs needed for this mapping, and double-map them if needed */
1115 MiFillSystemPageDirectory(Base
, Buckets
* MI_SYSTEM_VIEW_BUCKET_SIZE
);
1116 Status
= STATUS_SUCCESS
;
1120 /* Create the PDEs needed for this mapping */
1121 Status
= MiSessionCommitPageTables(Base
,
1122 (PVOID
)((ULONG_PTR
)Base
+
1123 Buckets
* MI_SYSTEM_VIEW_BUCKET_SIZE
));
1124 NT_ASSERT(NT_SUCCESS(Status
));
1127 /* Create the actual prototype PTEs for this mapping */
1128 Status
= MiAddMappedPtes(MiAddressToPte(Base
),
1129 BYTES_TO_PAGES(*ViewSize
),
1131 ASSERT(NT_SUCCESS(Status
));
1133 /* Return the base adress of the mapping and success */
1135 return STATUS_SUCCESS
;
1140 MiSetControlAreaSymbolsLoaded(IN PCONTROL_AREA ControlArea
)
1144 ASSERT(KeGetCurrentIrql() <= APC_LEVEL
);
1146 OldIrql
= KeAcquireQueuedSpinLock(LockQueuePfnLock
);
1147 ControlArea
->u
.Flags
.DebugSymbolsLoaded
|= 1;
1149 ASSERT(OldIrql
<= APC_LEVEL
);
1150 KeReleaseQueuedSpinLock(LockQueuePfnLock
, OldIrql
);
1151 ASSERT(KeGetCurrentIrql() <= APC_LEVEL
);
1156 MiLoadUserSymbols(IN PCONTROL_AREA ControlArea
,
1157 IN PVOID BaseAddress
,
1158 IN PEPROCESS Process
)
1161 ANSI_STRING FileNameA
;
1162 PLIST_ENTRY NextEntry
;
1163 PUNICODE_STRING FileName
;
1164 PIMAGE_NT_HEADERS NtHeaders
;
1165 PLDR_DATA_TABLE_ENTRY LdrEntry
;
1167 FileName
= &ControlArea
->FilePointer
->FileName
;
1168 if (FileName
->Length
== 0)
1173 /* Acquire module list lock */
1174 KeEnterCriticalRegion();
1175 ExAcquireResourceExclusiveLite(&PsLoadedModuleResource
, TRUE
);
1177 /* Browse list to try to find current module */
1178 for (NextEntry
= MmLoadedUserImageList
.Flink
;
1179 NextEntry
!= &MmLoadedUserImageList
;
1180 NextEntry
= NextEntry
->Flink
)
1183 LdrEntry
= CONTAINING_RECORD(NextEntry
,
1184 LDR_DATA_TABLE_ENTRY
,
1187 /* If already in the list, increase load count */
1188 if (LdrEntry
->DllBase
== BaseAddress
)
1190 ++LdrEntry
->LoadCount
;
1195 /* Not in the list, we'll add it */
1196 if (NextEntry
== &MmLoadedUserImageList
)
1198 /* Allocate our element, taking to the name string and its null char */
1199 LdrEntry
= ExAllocatePoolWithTag(NonPagedPool
, FileName
->Length
+ sizeof(UNICODE_NULL
) + sizeof(*LdrEntry
), 'bDmM');
1202 memset(LdrEntry
, 0, FileName
->Length
+ sizeof(UNICODE_NULL
) + sizeof(*LdrEntry
));
1206 /* Get image checksum and size */
1207 NtHeaders
= RtlImageNtHeader(BaseAddress
);
1210 LdrEntry
->SizeOfImage
= NtHeaders
->OptionalHeader
.SizeOfImage
;
1211 LdrEntry
->CheckSum
= NtHeaders
->OptionalHeader
.CheckSum
;
1214 _SEH2_EXCEPT(EXCEPTION_EXECUTE_HANDLER
)
1216 ExFreePoolWithTag(LdrEntry
, 'bDmM');
1217 _SEH2_YIELD(return);
1221 /* Fill all the details */
1222 LdrEntry
->DllBase
= BaseAddress
;
1223 LdrEntry
->FullDllName
.Buffer
= (PVOID
)((ULONG_PTR
)LdrEntry
+ sizeof(*LdrEntry
));
1224 LdrEntry
->FullDllName
.Length
= FileName
->Length
;
1225 LdrEntry
->FullDllName
.MaximumLength
= FileName
->Length
+ sizeof(UNICODE_NULL
);
1226 memcpy(LdrEntry
->FullDllName
.Buffer
, FileName
->Buffer
, FileName
->Length
);
1227 LdrEntry
->FullDllName
.Buffer
[LdrEntry
->FullDllName
.Length
/ sizeof(WCHAR
)] = UNICODE_NULL
;
1228 LdrEntry
->LoadCount
= 1;
1231 InsertHeadList(&MmLoadedUserImageList
, &LdrEntry
->InLoadOrderLinks
);
1236 ExReleaseResourceLite(&PsLoadedModuleResource
);
1237 KeLeaveCriticalRegion();
1240 Status
= RtlUnicodeStringToAnsiString(&FileNameA
, FileName
, TRUE
);
1241 if (NT_SUCCESS(Status
))
1243 DbgLoadImageSymbols(&FileNameA
, BaseAddress
, (ULONG_PTR
)Process
->UniqueProcessId
);
1244 RtlFreeAnsiString(&FileNameA
);
1250 MiMapViewOfDataSection(IN PCONTROL_AREA ControlArea
,
1251 IN PEPROCESS Process
,
1252 IN PVOID
*BaseAddress
,
1253 IN PLARGE_INTEGER SectionOffset
,
1254 IN PSIZE_T ViewSize
,
1255 IN PSECTION Section
,
1256 IN SECTION_INHERIT InheritDisposition
,
1257 IN ULONG ProtectionMask
,
1258 IN SIZE_T CommitSize
,
1259 IN ULONG_PTR ZeroBits
,
1260 IN ULONG AllocationType
)
1263 ULONG_PTR StartAddress
;
1264 ULONG_PTR ViewSizeInPages
;
1265 PSUBSECTION Subsection
;
1267 PFN_NUMBER PteOffset
;
1269 ULONG QuotaCharge
= 0, QuotaExcess
= 0;
1270 PMMPTE PointerPte
, LastPte
;
1272 DPRINT("Mapping ARM3 data section\n");
1274 /* Get the segment for this section */
1275 Segment
= ControlArea
->Segment
;
1277 /* One can only reserve a file-based mapping, not shared memory! */
1278 if ((AllocationType
& MEM_RESERVE
) && !(ControlArea
->FilePointer
))
1280 return STATUS_INVALID_PARAMETER_9
;
1283 /* This flag determines alignment, but ARM3 does not yet support it */
1284 ASSERT((AllocationType
& MEM_DOS_LIM
) == 0);
1286 /* First, increase the map count. No purging is supported yet */
1287 Status
= MiCheckPurgeAndUpMapCount(ControlArea
, FALSE
);
1288 if (!NT_SUCCESS(Status
)) return Status
;
1290 /* Check if the caller specified the view size */
1293 /* The caller did not, so pick a 64K aligned view size based on the offset */
1294 SectionOffset
->LowPart
&= ~(_64K
- 1);
1295 *ViewSize
= (SIZE_T
)(Section
->SizeOfSection
.QuadPart
- SectionOffset
->QuadPart
);
1299 /* A size was specified, align it to a 64K boundary */
1300 *ViewSize
+= SectionOffset
->LowPart
& (_64K
- 1);
1302 /* Align the offset as well to make this an aligned map */
1303 SectionOffset
->LowPart
&= ~((ULONG
)_64K
- 1);
1306 /* We must be dealing with a 64KB aligned offset. This is a Windows ASSERT */
1307 ASSERT((SectionOffset
->LowPart
& ((ULONG
)_64K
- 1)) == 0);
1309 /* It's illegal to try to map more than overflows a LONG_PTR */
1310 if (*ViewSize
>= MAXLONG_PTR
)
1312 MiDereferenceControlArea(ControlArea
);
1313 return STATUS_INVALID_VIEW_SIZE
;
1316 /* Windows ASSERTs for this flag */
1317 ASSERT(ControlArea
->u
.Flags
.GlobalOnlyPerSession
== 0);
1319 /* Get the subsection. We don't support LARGE_CONTROL_AREA in ARM3 */
1320 ASSERT(ControlArea
->u
.Flags
.Rom
== 0);
1321 Subsection
= (PSUBSECTION
)(ControlArea
+ 1);
1323 /* Sections with extended segments are not supported in ARM3 */
1324 ASSERT(Segment
->SegmentFlags
.TotalNumberOfPtes4132
== 0);
1326 /* Within this section, figure out which PTEs will describe the view */
1327 PteOffset
= (PFN_NUMBER
)(SectionOffset
->QuadPart
>> PAGE_SHIFT
);
1329 /* The offset must be in this segment's PTE chunk and it must be valid. Windows ASSERTs */
1330 ASSERT(PteOffset
< Segment
->TotalNumberOfPtes
);
1331 ASSERT(((SectionOffset
->QuadPart
+ *ViewSize
+ PAGE_SIZE
- 1) >> PAGE_SHIFT
) >= PteOffset
);
1333 /* In ARM3, only one subsection is used for now. It must contain these PTEs */
1334 ASSERT(PteOffset
< Subsection
->PtesInSubsection
);
1336 /* In ARM3, only page-file backed sections (shared memory) are supported now */
1337 ASSERT(ControlArea
->FilePointer
== NULL
);
1339 /* Windows ASSERTs for this too -- there must be a subsection base address */
1340 ASSERT(Subsection
->SubsectionBase
!= NULL
);
1342 /* Compute how much commit space the segment will take */
1343 if ((CommitSize
) && (Segment
->NumberOfCommittedPages
< Segment
->TotalNumberOfPtes
))
1345 /* Charge for the maximum pages */
1346 QuotaCharge
= BYTES_TO_PAGES(CommitSize
);
1349 /* ARM3 does not currently support large pages */
1350 ASSERT(Segment
->SegmentFlags
.LargePages
== 0);
1352 /* Calculate how many pages the region spans */
1353 ViewSizeInPages
= BYTES_TO_PAGES(*ViewSize
);
1355 /* A VAD can now be allocated. Do so and zero it out */
1356 /* FIXME: we are allocating a LONG VAD for ReactOS compatibility only */
1357 ASSERT((AllocationType
& MEM_RESERVE
) == 0); /* ARM3 does not support this */
1358 Vad
= ExAllocatePoolWithTag(NonPagedPool
, sizeof(MMVAD_LONG
), 'ldaV');
1361 MiDereferenceControlArea(ControlArea
);
1362 return STATUS_INSUFFICIENT_RESOURCES
;
1365 RtlZeroMemory(Vad
, sizeof(MMVAD_LONG
));
1366 Vad
->u4
.Banked
= (PVOID
)0xDEADBABE;
1368 /* Write all the data required in the VAD for handling a fault */
1369 Vad
->ControlArea
= ControlArea
;
1370 Vad
->u
.VadFlags
.CommitCharge
= 0;
1371 Vad
->u
.VadFlags
.Protection
= ProtectionMask
;
1372 Vad
->u2
.VadFlags2
.FileOffset
= (ULONG
)(SectionOffset
->QuadPart
>> 16);
1373 Vad
->u2
.VadFlags2
.Inherit
= (InheritDisposition
== ViewShare
);
1374 if ((AllocationType
& SEC_NO_CHANGE
) || (Section
->u
.Flags
.NoChange
))
1376 /* This isn't really implemented yet, but handle setting the flag */
1377 Vad
->u
.VadFlags
.NoChange
= 1;
1378 Vad
->u2
.VadFlags2
.SecNoChange
= 1;
1381 /* Finally, write down the first and last prototype PTE */
1382 Vad
->FirstPrototypePte
= &Subsection
->SubsectionBase
[PteOffset
];
1383 PteOffset
+= ViewSizeInPages
- 1;
1384 ASSERT(PteOffset
< Subsection
->PtesInSubsection
);
1385 Vad
->LastContiguousPte
= &Subsection
->SubsectionBase
[PteOffset
];
1387 /* Make sure the prototype PTE ranges make sense, this is a Windows ASSERT */
1388 ASSERT(Vad
->FirstPrototypePte
<= Vad
->LastContiguousPte
);
1390 /* FIXME: Should setup VAD bitmap */
1391 Status
= STATUS_SUCCESS
;
1393 /* Check if anything was committed */
1396 /* Set the start and end PTE addresses, and pick the template PTE */
1397 PointerPte
= Vad
->FirstPrototypePte
;
1398 LastPte
= PointerPte
+ BYTES_TO_PAGES(CommitSize
);
1399 TempPte
= Segment
->SegmentPteTemplate
;
1401 /* Acquire the commit lock and loop all prototype PTEs to be committed */
1402 KeAcquireGuardedMutex(&MmSectionCommitMutex
);
1403 while (PointerPte
< LastPte
)
1405 /* Make sure the PTE is already invalid */
1406 if (PointerPte
->u
.Long
== 0)
1408 /* And write the invalid PTE */
1409 MI_WRITE_INVALID_PTE(PointerPte
, TempPte
);
1413 /* The PTE is valid, so skip it */
1417 /* Move to the next PTE */
1421 /* Now check how many pages exactly we committed, and update accounting */
1422 ASSERT(QuotaCharge
>= QuotaExcess
);
1423 QuotaCharge
-= QuotaExcess
;
1424 Segment
->NumberOfCommittedPages
+= QuotaCharge
;
1425 ASSERT(Segment
->NumberOfCommittedPages
<= Segment
->TotalNumberOfPtes
);
1427 /* Now that we're done, release the lock */
1428 KeReleaseGuardedMutex(&MmSectionCommitMutex
);
1431 /* Is it SEC_BASED, or did the caller manually specify an address? */
1432 if (*BaseAddress
!= NULL
)
1434 /* Just align what the caller gave us */
1435 StartAddress
= ROUND_UP((ULONG_PTR
)*BaseAddress
, _64K
);
1437 else if (Section
->Address
.StartingVpn
!= 0)
1439 /* It is a SEC_BASED mapping, use the address that was generated */
1440 StartAddress
= Section
->Address
.StartingVpn
+ SectionOffset
->LowPart
;
1447 /* Insert the VAD */
1448 Status
= MiInsertVadEx((PMMVAD
)Vad
,
1450 ViewSizeInPages
* PAGE_SIZE
,
1451 MAXULONG_PTR
>> ZeroBits
,
1452 MM_VIRTMEM_GRANULARITY
,
1454 if (!NT_SUCCESS(Status
))
1459 /* Windows stores this for accounting purposes, do so as well */
1460 if (!Segment
->u2
.FirstMappedVa
) Segment
->u2
.FirstMappedVa
= (PVOID
)StartAddress
;
1462 /* Finally, let the caller know where, and for what size, the view was mapped */
1463 *ViewSize
= ViewSizeInPages
* PAGE_SIZE
;
1464 *BaseAddress
= (PVOID
)StartAddress
;
1465 DPRINT("Start and region: 0x%p, 0x%p\n", *BaseAddress
, *ViewSize
);
1466 return STATUS_SUCCESS
;
1471 MiSubsectionConsistent(IN PSUBSECTION Subsection
)
1473 /* ReactOS only supports systems with 4K pages and 4K sectors */
1474 ASSERT(Subsection
->u
.SubsectionFlags
.SectorEndOffset
== 0);
1476 /* Therefore, then number of PTEs should be equal to the number of sectors */
1477 if (Subsection
->NumberOfFullSectors
!= Subsection
->PtesInSubsection
)
1479 /* Break and warn if this is inconsistent */
1480 DPRINT1("Mm: Subsection inconsistent (%x vs %x)\n",
1481 Subsection
->NumberOfFullSectors
, Subsection
->PtesInSubsection
);
1488 MiCreateDataFileMap(IN PFILE_OBJECT File
,
1489 OUT PSEGMENT
*Segment
,
1490 IN PSIZE_T MaximumSize
,
1491 IN ULONG SectionPageProtection
,
1492 IN ULONG AllocationAttributes
,
1493 IN ULONG IgnoreFileSizing
)
1495 /* Not yet implemented */
1498 return STATUS_NOT_IMPLEMENTED
;
1503 MiCreatePagingFileMap(OUT PSEGMENT
*Segment
,
1504 IN PSIZE_T MaximumSize
,
1505 IN ULONG ProtectionMask
,
1506 IN ULONG AllocationAttributes
)
1512 PCONTROL_AREA ControlArea
;
1513 PSEGMENT NewSegment
;
1514 PSUBSECTION Subsection
;
1517 /* No large pages in ARM3 yet */
1518 ASSERT((AllocationAttributes
& SEC_LARGE_PAGES
) == 0);
1520 /* Pagefile-backed sections need a known size */
1521 if (!(*MaximumSize
)) return STATUS_INVALID_PARAMETER_4
;
1523 /* Calculate the maximum size possible, given the Prototype PTEs we'll need */
1524 SizeLimit
= MAXULONG_PTR
- sizeof(SEGMENT
);
1525 SizeLimit
/= sizeof(MMPTE
);
1526 SizeLimit
<<= PAGE_SHIFT
;
1528 /* Fail if this size is too big */
1529 if (*MaximumSize
> SizeLimit
) return STATUS_SECTION_TOO_BIG
;
1531 /* Calculate how many Prototype PTEs will be needed */
1532 PteCount
= (PFN_COUNT
)((*MaximumSize
+ PAGE_SIZE
- 1) >> PAGE_SHIFT
);
1534 /* For commited memory, we must have a valid protection mask */
1535 if (AllocationAttributes
& SEC_COMMIT
) ASSERT(ProtectionMask
!= 0);
1537 /* The segment contains all the Prototype PTEs, allocate it in paged pool */
1538 NewSegment
= ExAllocatePoolWithTag(PagedPool
,
1540 sizeof(MMPTE
) * (PteCount
- 1),
1543 *Segment
= NewSegment
;
1545 /* Now allocate the control area, which has the subsection structure */
1546 ControlArea
= ExAllocatePoolWithTag(NonPagedPool
,
1547 sizeof(CONTROL_AREA
) + sizeof(SUBSECTION
),
1549 ASSERT(ControlArea
);
1551 /* And zero it out, filling the basic segmnet pointer and reference fields */
1552 RtlZeroMemory(ControlArea
, sizeof(CONTROL_AREA
) + sizeof(SUBSECTION
));
1553 ControlArea
->Segment
= NewSegment
;
1554 ControlArea
->NumberOfSectionReferences
= 1;
1555 ControlArea
->NumberOfUserReferences
= 1;
1557 /* Convert allocation attributes to control area flags */
1558 if (AllocationAttributes
& SEC_BASED
) ControlArea
->u
.Flags
.Based
= 1;
1559 if (AllocationAttributes
& SEC_RESERVE
) ControlArea
->u
.Flags
.Reserve
= 1;
1560 if (AllocationAttributes
& SEC_COMMIT
) ControlArea
->u
.Flags
.Commit
= 1;
1562 /* The subsection follows, write the mask, PTE count and point back to the CA */
1563 Subsection
= (PSUBSECTION
)(ControlArea
+ 1);
1564 Subsection
->ControlArea
= ControlArea
;
1565 Subsection
->PtesInSubsection
= PteCount
;
1566 Subsection
->u
.SubsectionFlags
.Protection
= ProtectionMask
;
1568 /* Zero out the segment's prototype PTEs, and link it with the control area */
1569 PointerPte
= &NewSegment
->ThePtes
[0];
1570 RtlZeroMemory(NewSegment
, sizeof(SEGMENT
));
1571 NewSegment
->PrototypePte
= PointerPte
;
1572 NewSegment
->ControlArea
= ControlArea
;
1574 /* Save some extra accounting data for the segment as well */
1575 NewSegment
->u1
.CreatingProcess
= PsGetCurrentProcess();
1576 NewSegment
->SizeOfSegment
= PteCount
* PAGE_SIZE
;
1577 NewSegment
->TotalNumberOfPtes
= PteCount
;
1578 NewSegment
->NonExtendedPtes
= PteCount
;
1580 /* The subsection's base address is the first Prototype PTE in the segment */
1581 Subsection
->SubsectionBase
= PointerPte
;
1583 /* Start with an empty PTE, unless this is a commit operation */
1585 if (AllocationAttributes
& SEC_COMMIT
)
1587 /* In which case, write down the protection mask in the Prototype PTEs */
1588 TempPte
.u
.Soft
.Protection
= ProtectionMask
;
1590 /* For accounting, also mark these pages as being committed */
1591 NewSegment
->NumberOfCommittedPages
= PteCount
;
1594 /* The template PTE itself for the segment should also have the mask set */
1595 NewSegment
->SegmentPteTemplate
.u
.Soft
.Protection
= ProtectionMask
;
1597 /* Write out the prototype PTEs, for now they're simply demand zero */
1599 RtlFillMemoryUlonglong(PointerPte
, PteCount
* sizeof(MMPTE
), TempPte
.u
.Long
);
1601 RtlFillMemoryUlong(PointerPte
, PteCount
* sizeof(MMPTE
), TempPte
.u
.Long
);
1603 return STATUS_SUCCESS
;
1608 MmGetFileObjectForSection(IN PVOID SectionObject
)
1610 PSECTION_OBJECT Section
;
1611 ASSERT(KeGetCurrentIrql() == PASSIVE_LEVEL
);
1612 ASSERT(SectionObject
!= NULL
);
1614 /* Check if it's an ARM3, or ReactOS section */
1615 if (MiIsRosSectionObject(SectionObject
) == FALSE
)
1617 /* Return the file pointer stored in the control area */
1618 Section
= SectionObject
;
1619 return Section
->Segment
->ControlArea
->FilePointer
;
1622 /* Return the file object */
1623 return ((PROS_SECTION_OBJECT
)SectionObject
)->FileObject
;
1628 MmGetImageInformation (OUT PSECTION_IMAGE_INFORMATION ImageInformation
)
1630 PSECTION_OBJECT SectionObject
;
1632 /* Get the section object of this process*/
1633 SectionObject
= PsGetCurrentProcess()->SectionObject
;
1634 ASSERT(SectionObject
!= NULL
);
1635 ASSERT(MiIsRosSectionObject(SectionObject
) == TRUE
);
1637 /* Return the image information */
1638 *ImageInformation
= ((PROS_SECTION_OBJECT
)SectionObject
)->ImageSection
->ImageInformation
;
1643 MmGetFileNameForFileObject(IN PFILE_OBJECT FileObject
,
1644 OUT POBJECT_NAME_INFORMATION
*ModuleName
)
1646 POBJECT_NAME_INFORMATION ObjectNameInfo
;
1650 /* Allocate memory for our structure */
1651 ObjectNameInfo
= ExAllocatePoolWithTag(PagedPool
, 1024, TAG_MM
);
1652 if (!ObjectNameInfo
) return STATUS_NO_MEMORY
;
1654 /* Query the name */
1655 Status
= ObQueryNameString(FileObject
,
1659 if (!NT_SUCCESS(Status
))
1661 /* Failed, free memory */
1662 DPRINT1("Name query failed\n");
1663 ExFreePoolWithTag(ObjectNameInfo
, TAG_MM
);
1669 *ModuleName
= ObjectNameInfo
;
1670 return STATUS_SUCCESS
;
1675 MmGetFileNameForSection(IN PVOID Section
,
1676 OUT POBJECT_NAME_INFORMATION
*ModuleName
)
1678 PFILE_OBJECT FileObject
;
1680 /* Make sure it's an image section */
1681 if (MiIsRosSectionObject(Section
) == FALSE
)
1683 /* Check ARM3 Section flag */
1684 if (((PSECTION
)Section
)->u
.Flags
.Image
== 0)
1686 /* It's not, fail */
1687 DPRINT1("Not an image section\n");
1688 return STATUS_SECTION_NOT_IMAGE
;
1691 else if (!(((PROS_SECTION_OBJECT
)Section
)->AllocationAttributes
& SEC_IMAGE
))
1693 /* It's not, fail */
1694 DPRINT1("Not an image section\n");
1695 return STATUS_SECTION_NOT_IMAGE
;
1698 /* Get the file object */
1699 FileObject
= MmGetFileObjectForSection(Section
);
1700 return MmGetFileNameForFileObject(FileObject
, ModuleName
);
1705 MmGetFileNameForAddress(IN PVOID Address
,
1706 OUT PUNICODE_STRING ModuleName
)
1709 PMEMORY_AREA MemoryArea
;
1710 POBJECT_NAME_INFORMATION ModuleNameInformation
;
1713 PFILE_OBJECT FileObject
= NULL
;
1715 PCONTROL_AREA ControlArea
;
1717 /* Lock address space */
1718 AddressSpace
= MmGetCurrentAddressSpace();
1719 MmLockAddressSpace(AddressSpace
);
1721 /* Locate the memory area for the process by address */
1722 MemoryArea
= MmLocateMemoryAreaByAddress(AddressSpace
, Address
);
1725 /* Fail, the address does not exist */
1727 DPRINT1("Invalid address\n");
1728 MmUnlockAddressSpace(AddressSpace
);
1729 return STATUS_INVALID_ADDRESS
;
1732 /* Check if it's a section view (RosMm section) or ARM3 section */
1733 if (MemoryArea
->Type
== MEMORY_AREA_SECTION_VIEW
)
1735 /* Get the section pointer to the SECTION_OBJECT */
1736 Section
= MemoryArea
->Data
.SectionData
.Section
;
1738 /* Unlock address space */
1739 MmUnlockAddressSpace(AddressSpace
);
1741 /* Get the filename of the section */
1742 Status
= MmGetFileNameForSection(Section
, &ModuleNameInformation
);
1744 else if (MemoryArea
->Type
== MEMORY_AREA_OWNED_BY_ARM3
)
1747 Vad
= MiLocateAddress(Address
);
1748 if (!Vad
) goto InvalidAddress
;
1750 /* Make sure it's not a VM VAD */
1751 if (Vad
->u
.VadFlags
.PrivateMemory
== 1)
1754 DPRINT1("Address is not a section\n");
1755 MmUnlockAddressSpace(AddressSpace
);
1756 return STATUS_SECTION_NOT_IMAGE
;
1759 /* Get the control area */
1760 ControlArea
= Vad
->ControlArea
;
1761 if (!(ControlArea
) || !(ControlArea
->u
.Flags
.Image
)) goto NotSection
;
1763 /* Get the file object */
1764 FileObject
= ControlArea
->FilePointer
;
1765 ASSERT(FileObject
!= NULL
);
1766 ObReferenceObject(FileObject
);
1768 /* Unlock address space */
1769 MmUnlockAddressSpace(AddressSpace
);
1771 /* Get the filename of the file object */
1772 Status
= MmGetFileNameForFileObject(FileObject
, &ModuleNameInformation
);
1774 /* Dereference it */
1775 ObDereferenceObject(FileObject
);
1779 /* Trying to access virtual memory or something */
1780 goto InvalidAddress
;
1783 /* Check if we were able to get the file object name */
1784 if (NT_SUCCESS(Status
))
1786 /* Init modulename */
1787 RtlCreateUnicodeString(ModuleName
,
1788 ModuleNameInformation
->Name
.Buffer
);
1790 /* Free temp taged buffer from MmGetFileNameForFileObject() */
1791 ExFreePoolWithTag(ModuleNameInformation
, TAG_MM
);
1792 DPRINT("Found ModuleName %S by address %p\n", ModuleName
->Buffer
, Address
);
1801 MiQueryMemorySectionName(IN HANDLE ProcessHandle
,
1802 IN PVOID BaseAddress
,
1803 OUT PVOID MemoryInformation
,
1804 IN SIZE_T MemoryInformationLength
,
1805 OUT PSIZE_T ReturnLength
)
1809 WCHAR ModuleFileNameBuffer
[MAX_PATH
] = {0};
1810 UNICODE_STRING ModuleFileName
;
1811 PMEMORY_SECTION_NAME SectionName
= NULL
;
1812 KPROCESSOR_MODE PreviousMode
= ExGetPreviousMode();
1814 Status
= ObReferenceObjectByHandle(ProcessHandle
,
1815 PROCESS_QUERY_INFORMATION
,
1821 if (!NT_SUCCESS(Status
))
1823 DPRINT("MiQueryMemorySectionName: ObReferenceObjectByHandle returned %x\n",Status
);
1827 RtlInitEmptyUnicodeString(&ModuleFileName
, ModuleFileNameBuffer
, sizeof(ModuleFileNameBuffer
));
1828 Status
= MmGetFileNameForAddress(BaseAddress
, &ModuleFileName
);
1830 if (NT_SUCCESS(Status
))
1832 SectionName
= MemoryInformation
;
1833 if (PreviousMode
!= KernelMode
)
1837 RtlInitUnicodeString(&SectionName
->SectionFileName
, SectionName
->NameBuffer
);
1838 SectionName
->SectionFileName
.MaximumLength
= (USHORT
)MemoryInformationLength
;
1839 RtlCopyUnicodeString(&SectionName
->SectionFileName
, &ModuleFileName
);
1841 if (ReturnLength
) *ReturnLength
= ModuleFileName
.Length
;
1844 _SEH2_EXCEPT(EXCEPTION_EXECUTE_HANDLER
)
1846 Status
= _SEH2_GetExceptionCode();
1852 RtlInitUnicodeString(&SectionName
->SectionFileName
, SectionName
->NameBuffer
);
1853 SectionName
->SectionFileName
.MaximumLength
= (USHORT
)MemoryInformationLength
;
1854 RtlCopyUnicodeString(&SectionName
->SectionFileName
, &ModuleFileName
);
1856 if (ReturnLength
) *ReturnLength
= ModuleFileName
.Length
;
1860 ObDereferenceObject(Process
);
1866 MiFlushTbAndCapture(IN PMMVAD FoundVad
,
1867 IN PMMPTE PointerPte
,
1868 IN ULONG ProtectionMask
,
1870 IN BOOLEAN CaptureDirtyBit
)
1872 MMPTE TempPte
, PreviousPte
;
1874 BOOLEAN RebuildPte
= FALSE
;
1877 // User for sanity checking later on
1879 PreviousPte
= *PointerPte
;
1882 // Build the PTE and acquire the PFN lock
1884 MI_MAKE_HARDWARE_PTE_USER(&TempPte
,
1887 PreviousPte
.u
.Hard
.PageFrameNumber
);
1888 OldIrql
= KeAcquireQueuedSpinLock(LockQueuePfnLock
);
1891 // We don't support I/O mappings in this path yet
1893 ASSERT(Pfn1
!= NULL
);
1894 ASSERT(Pfn1
->u3
.e1
.CacheAttribute
!= MiWriteCombined
);
1897 // Make sure new protection mask doesn't get in conflict and fix it if it does
1899 if (Pfn1
->u3
.e1
.CacheAttribute
== MiCached
)
1902 // This is a cached PFN
1904 if (ProtectionMask
& (MM_NOCACHE
| MM_NOACCESS
))
1907 ProtectionMask
&= ~(MM_NOCACHE
| MM_NOACCESS
);
1910 else if (Pfn1
->u3
.e1
.CacheAttribute
== MiNonCached
)
1913 // This is a non-cached PFN
1915 if ((ProtectionMask
& (MM_NOCACHE
| MM_NOACCESS
)) != MM_NOCACHE
)
1918 ProtectionMask
&= ~MM_NOACCESS
;
1919 ProtectionMask
|= MM_NOCACHE
;
1925 MI_MAKE_HARDWARE_PTE_USER(&TempPte
,
1928 PreviousPte
.u
.Hard
.PageFrameNumber
);
1932 // Write the new PTE, making sure we are only changing the bits
1934 MI_UPDATE_VALID_PTE(PointerPte
, TempPte
);
1939 ASSERT(PreviousPte
.u
.Hard
.Valid
== 1);
1941 ASSERT(PreviousPte
.u
.Hard
.Valid
== 1);
1944 // Windows updates the relevant PFN1 information, we currently don't.
1946 if (CaptureDirtyBit
) DPRINT1("Warning, not handling dirty bit\n");
1949 // Not supported in ARM3
1951 ASSERT(FoundVad
->u
.VadFlags
.VadType
!= VadWriteWatch
);
1954 // Release the PFN lock, we are done
1956 KeReleaseQueuedSpinLock(LockQueuePfnLock
, OldIrql
);
1960 // NOTE: This function gets a lot more complicated if we want Copy-on-Write support
1964 MiSetProtectionOnSection(IN PEPROCESS Process
,
1966 IN PVOID StartingAddress
,
1967 IN PVOID EndingAddress
,
1968 IN ULONG NewProtect
,
1969 OUT PULONG CapturedOldProtect
,
1970 IN ULONG DontCharge
,
1973 PMMPTE PointerPte
, LastPte
;
1974 MMPTE TempPte
, PteContents
;
1977 ULONG ProtectionMask
, QuotaCharge
= 0;
1978 PETHREAD Thread
= PsGetCurrentThread();
1982 // Tell caller nothing is being locked
1987 // This function should only be used for section VADs. Windows ASSERT */
1989 ASSERT(FoundVad
->u
.VadFlags
.PrivateMemory
== 0);
1992 // We don't support these features in ARM3
1994 ASSERT(FoundVad
->u
.VadFlags
.VadType
!= VadImageMap
);
1995 ASSERT(FoundVad
->u2
.VadFlags2
.CopyOnWrite
== 0);
1998 // Convert and validate the protection mask
2000 ProtectionMask
= MiMakeProtectionMask(NewProtect
);
2001 if (ProtectionMask
== MM_INVALID_PROTECTION
)
2003 DPRINT1("Invalid section protect\n");
2004 return STATUS_INVALID_PAGE_PROTECTION
;
2008 // Get the PTE and PDE for the address, as well as the final PTE
2010 MiLockProcessWorkingSetUnsafe(Process
, Thread
);
2011 PointerPde
= MiAddressToPde(StartingAddress
);
2012 PointerPte
= MiAddressToPte(StartingAddress
);
2013 LastPte
= MiAddressToPte(EndingAddress
);
2016 // Make the PDE valid, and check the status of the first PTE
2018 MiMakePdeExistAndMakeValid(PointerPde
, Process
, MM_NOIRQL
);
2019 if (PointerPte
->u
.Long
)
2022 // Not supported in ARM3
2024 ASSERT(FoundVad
->u
.VadFlags
.VadType
!= VadRotatePhysical
);
2027 // Capture the page protection and make the PDE valid
2029 *CapturedOldProtect
= MiGetPageProtection(PointerPte
);
2030 MiMakePdeExistAndMakeValid(PointerPde
, Process
, MM_NOIRQL
);
2035 // Only pagefile-backed section VADs are supported for now
2037 ASSERT(FoundVad
->u
.VadFlags
.VadType
!= VadImageMap
);
2040 // Grab the old protection from the VAD itself
2042 *CapturedOldProtect
= MmProtectToValue
[FoundVad
->u
.VadFlags
.Protection
];
2046 // Loop all the PTEs now
2048 MiMakePdeExistAndMakeValid(PointerPde
, Process
, MM_NOIRQL
);
2049 while (PointerPte
<= LastPte
)
2052 // Check if we've crossed a PDE boundary and make the new PDE valid too
2054 if ((((ULONG_PTR
)PointerPte
) & (SYSTEM_PD_SIZE
- 1)) == 0)
2056 PointerPde
= MiAddressToPte(PointerPte
);
2057 MiMakePdeExistAndMakeValid(PointerPde
, Process
, MM_NOIRQL
);
2061 // Capture the PTE and see what we're dealing with
2063 PteContents
= *PointerPte
;
2064 if (PteContents
.u
.Long
== 0)
2067 // This used to be a zero PTE and it no longer is, so we must add a
2068 // reference to the pagetable.
2070 MiIncrementPageTableReferences(MiPteToAddress(PointerPte
));
2073 // Create the demand-zero prototype PTE
2075 TempPte
= PrototypePte
;
2076 TempPte
.u
.Soft
.Protection
= ProtectionMask
;
2077 MI_WRITE_INVALID_PTE(PointerPte
, TempPte
);
2079 else if (PteContents
.u
.Hard
.Valid
== 1)
2082 // Get the PFN entry
2084 Pfn1
= MiGetPfnEntry(PFN_FROM_PTE(&PteContents
));
2087 // We don't support these yet
2089 ASSERT((NewProtect
& (PAGE_NOACCESS
| PAGE_GUARD
)) == 0);
2090 ASSERT(Pfn1
->u3
.e1
.PrototypePte
== 0);
2093 // Write the protection mask and write it with a TLB flush
2095 Pfn1
->OriginalPte
.u
.Soft
.Protection
= ProtectionMask
;
2096 MiFlushTbAndCapture(FoundVad
,
2105 // We don't support these cases yet
2107 ASSERT(PteContents
.u
.Soft
.Prototype
== 0);
2108 ASSERT(PteContents
.u
.Soft
.Transition
== 0);
2111 // The PTE is already demand-zero, just update the protection mask
2113 PointerPte
->u
.Soft
.Protection
= ProtectionMask
;
2120 // Unlock the working set and update quota charges if needed, then return
2122 MiUnlockProcessWorkingSetUnsafe(Process
, Thread
);
2123 if ((QuotaCharge
> 0) && (!DontCharge
))
2125 FoundVad
->u
.VadFlags
.CommitCharge
-= QuotaCharge
;
2126 Process
->CommitCharge
-= QuotaCharge
;
2128 return STATUS_SUCCESS
;
2133 MiRemoveMappedPtes(IN PVOID BaseAddress
,
2134 IN ULONG NumberOfPtes
,
2135 IN PCONTROL_AREA ControlArea
,
2138 PMMPTE PointerPte
, ProtoPte
;//, FirstPte;
2139 PMMPDE PointerPde
, SystemMapPde
;
2143 DPRINT("Removing mapped view at: 0x%p\n", BaseAddress
);
2147 /* Get the PTE and loop each one */
2148 PointerPte
= MiAddressToPte(BaseAddress
);
2149 //FirstPte = PointerPte;
2150 while (NumberOfPtes
)
2152 /* Check if the PTE is already valid */
2153 PteContents
= *PointerPte
;
2154 if (PteContents
.u
.Hard
.Valid
== 1)
2156 /* Get the PFN entry */
2157 Pfn1
= MiGetPfnEntry(PFN_FROM_PTE(&PteContents
));
2160 PointerPde
= MiAddressToPte(PointerPte
);
2162 /* Lock the PFN database and make sure this isn't a mapped file */
2163 OldIrql
= KeAcquireQueuedSpinLock(LockQueuePfnLock
);
2164 ASSERT(((Pfn1
->u3
.e1
.PrototypePte
) && (Pfn1
->OriginalPte
.u
.Soft
.Prototype
)) == 0);
2166 /* Mark the page as modified accordingly */
2167 if (PteContents
.u
.Hard
.Dirty
)
2168 Pfn1
->u3
.e1
.Modified
= 1;
2170 /* Was the PDE invalid */
2171 if (PointerPde
->u
.Long
== 0)
2173 #if (_MI_PAGING_LEVELS == 2)
2174 /* Find the system double-mapped PDE that describes this mapping */
2175 SystemMapPde
= &MmSystemPagePtes
[((ULONG_PTR
)PointerPde
& (SYSTEM_PD_SIZE
- 1)) / sizeof(MMPTE
)];
2178 ASSERT(SystemMapPde
->u
.Hard
.Valid
== 1);
2179 MI_WRITE_VALID_PDE(PointerPde
, *SystemMapPde
);
2181 DBG_UNREFERENCED_LOCAL_VARIABLE(SystemMapPde
);
2186 /* Dereference the PDE and the PTE */
2187 Pfn2
= MiGetPfnEntry(PFN_FROM_PTE(PointerPde
));
2188 MiDecrementShareCount(Pfn2
, PFN_FROM_PTE(PointerPde
));
2189 DBG_UNREFERENCED_LOCAL_VARIABLE(Pfn2
);
2190 MiDecrementShareCount(Pfn1
, PFN_FROM_PTE(&PteContents
));
2192 /* Release the PFN lock */
2193 KeReleaseQueuedSpinLock(LockQueuePfnLock
, OldIrql
);
2197 /* Windows ASSERT */
2198 ASSERT((PteContents
.u
.Long
== 0) || (PteContents
.u
.Soft
.Prototype
== 1));
2200 /* Check if this is a prototype pointer PTE */
2201 if (PteContents
.u
.Soft
.Prototype
== 1)
2203 /* Get the prototype PTE */
2204 ProtoPte
= MiProtoPteToPte(&PteContents
);
2206 /* We don't support anything else atm */
2207 ASSERT(ProtoPte
->u
.Long
== 0);
2211 /* Make the PTE into a zero PTE */
2212 PointerPte
->u
.Long
= 0;
2214 /* Move to the next PTE */
2222 /* Acquire the PFN lock */
2223 OldIrql
= KeAcquireQueuedSpinLock(LockQueuePfnLock
);
2225 /* Decrement the accounting counters */
2226 ControlArea
->NumberOfUserReferences
--;
2227 ControlArea
->NumberOfMappedViews
--;
2229 /* Check if we should destroy the CA and release the lock */
2230 MiCheckControlArea(ControlArea
, OldIrql
);
2235 MiRemoveFromSystemSpace(IN PMMSESSION Session
,
2237 OUT PCONTROL_AREA
*ControlArea
)
2239 ULONG Hash
, Size
, Count
= 0;
2243 /* Compute the hash for this entry and loop trying to find it */
2244 Entry
= (ULONG_PTR
)Base
>> 16;
2245 Hash
= Entry
% Session
->SystemSpaceHashKey
;
2246 while ((Session
->SystemSpaceViewTable
[Hash
].Entry
>> 16) != Entry
)
2248 /* Check if we overflew past the end of the hash table */
2249 if (++Hash
>= Session
->SystemSpaceHashSize
)
2251 /* Reset the hash to zero and keep searching from the bottom */
2255 /* But if we overflew twice, then this is not a real mapping */
2256 KeBugCheckEx(DRIVER_UNMAPPING_INVALID_VIEW
,
2265 /* One less entry */
2266 Session
->SystemSpaceHashEntries
--;
2268 /* Extract the size and clear the entry */
2269 Size
= Session
->SystemSpaceViewTable
[Hash
].Entry
& 0xFFFF;
2270 Session
->SystemSpaceViewTable
[Hash
].Entry
= 0;
2272 /* Return the control area and the size */
2273 *ControlArea
= Session
->SystemSpaceViewTable
[Hash
].ControlArea
;
2279 MiUnmapViewInSystemSpace(IN PMMSESSION Session
,
2280 IN PVOID MappedBase
)
2283 PCONTROL_AREA ControlArea
;
2286 /* Remove this mapping */
2287 KeAcquireGuardedMutex(Session
->SystemSpaceViewLockPointer
);
2288 Size
= MiRemoveFromSystemSpace(Session
, MappedBase
, &ControlArea
);
2290 /* Clear the bits for this mapping */
2291 RtlClearBits(Session
->SystemSpaceBitMap
,
2292 (ULONG
)(((ULONG_PTR
)MappedBase
- (ULONG_PTR
)Session
->SystemSpaceViewStart
) >> 16),
2295 /* Convert the size from a bit size into the actual size */
2296 Size
= Size
* (_64K
>> PAGE_SHIFT
);
2298 /* Remove the PTEs now */
2299 MiRemoveMappedPtes(MappedBase
, Size
, ControlArea
, NULL
);
2300 KeReleaseGuardedMutex(Session
->SystemSpaceViewLockPointer
);
2302 /* Return success */
2303 return STATUS_SUCCESS
;
2306 /* PUBLIC FUNCTIONS ***********************************************************/
2313 MmCreateArm3Section(OUT PVOID
*SectionObject
,
2314 IN ACCESS_MASK DesiredAccess
,
2315 IN POBJECT_ATTRIBUTES ObjectAttributes OPTIONAL
,
2316 IN PLARGE_INTEGER InputMaximumSize
,
2317 IN ULONG SectionPageProtection
,
2318 IN ULONG AllocationAttributes
,
2319 IN HANDLE FileHandle OPTIONAL
,
2320 IN PFILE_OBJECT FileObject OPTIONAL
)
2323 PSECTION NewSection
;
2324 PSUBSECTION Subsection
;
2325 PSEGMENT NewSegment
, Segment
;
2327 PCONTROL_AREA ControlArea
;
2328 ULONG ProtectionMask
, ControlAreaSize
, Size
, NonPagedCharge
, PagedCharge
;
2329 KPROCESSOR_MODE PreviousMode
= ExGetPreviousMode();
2330 BOOLEAN FileLock
= FALSE
, KernelCall
= FALSE
;
2333 PVOID PreviousSectionPointer
;
2335 /* Make the same sanity checks that the Nt interface should've validated */
2336 ASSERT((AllocationAttributes
& ~(SEC_COMMIT
| SEC_RESERVE
| SEC_BASED
|
2337 SEC_LARGE_PAGES
| SEC_IMAGE
| SEC_NOCACHE
|
2338 SEC_NO_CHANGE
)) == 0);
2339 ASSERT((AllocationAttributes
& (SEC_COMMIT
| SEC_RESERVE
| SEC_IMAGE
)) != 0);
2340 ASSERT(!((AllocationAttributes
& SEC_IMAGE
) &&
2341 (AllocationAttributes
& (SEC_COMMIT
| SEC_RESERVE
|
2342 SEC_NOCACHE
| SEC_NO_CHANGE
))));
2343 ASSERT(!((AllocationAttributes
& SEC_COMMIT
) && (AllocationAttributes
& SEC_RESERVE
)));
2344 ASSERT(!((SectionPageProtection
& PAGE_NOCACHE
) ||
2345 (SectionPageProtection
& PAGE_WRITECOMBINE
) ||
2346 (SectionPageProtection
& PAGE_GUARD
) ||
2347 (SectionPageProtection
& PAGE_NOACCESS
)));
2349 /* Convert section flag to page flag */
2350 if (AllocationAttributes
& SEC_NOCACHE
) SectionPageProtection
|= PAGE_NOCACHE
;
2352 /* Check to make sure the protection is correct. Nt* does this already */
2353 ProtectionMask
= MiMakeProtectionMask(SectionPageProtection
);
2354 if (ProtectionMask
== MM_INVALID_PROTECTION
) return STATUS_INVALID_PAGE_PROTECTION
;
2356 /* Check if this is going to be a data or image backed file section */
2357 if ((FileHandle
) || (FileObject
))
2359 /* These cannot be mapped with large pages */
2360 if (AllocationAttributes
& SEC_LARGE_PAGES
) return STATUS_INVALID_PARAMETER_6
;
2362 /* For now, only support the mechanism through a file handle */
2363 ASSERT(FileObject
== NULL
);
2365 /* Reference the file handle to get the object */
2366 Status
= ObReferenceObjectByHandle(FileHandle
,
2367 MmMakeFileAccess
[ProtectionMask
],
2372 if (!NT_SUCCESS(Status
)) return Status
;
2374 /* Make sure Cc has been doing its job */
2375 if (!File
->SectionObjectPointer
)
2377 /* This is not a valid file system-based file, fail */
2378 ObDereferenceObject(File
);
2379 return STATUS_INVALID_FILE_FOR_SECTION
;
2382 /* Image-file backed sections are not yet supported */
2383 ASSERT((AllocationAttributes
& SEC_IMAGE
) == 0);
2385 /* Compute the size of the control area, and allocate it */
2386 ControlAreaSize
= sizeof(CONTROL_AREA
) + sizeof(MSUBSECTION
);
2387 ControlArea
= ExAllocatePoolWithTag(NonPagedPool
, ControlAreaSize
, 'aCmM');
2390 ObDereferenceObject(File
);
2391 return STATUS_INSUFFICIENT_RESOURCES
;
2395 RtlZeroMemory(ControlArea
, ControlAreaSize
);
2397 /* Did we get a handle, or an object? */
2400 /* We got a file handle so we have to lock down the file */
2402 Status
= FsRtlAcquireToCreateMappedSection(File
, SectionPageProtection
);
2403 if (!NT_SUCCESS(Status
))
2405 ExFreePool(ControlArea
);
2406 ObDereferenceObject(File
);
2410 /* ReactOS doesn't support this API yet, so do nothing */
2411 Status
= STATUS_SUCCESS
;
2413 /* Update the top-level IRP so that drivers know what's happening */
2414 IoSetTopLevelIrp((PIRP
)FSRTL_FSP_TOP_LEVEL_IRP
);
2418 /* Lock the PFN database while we play with the section pointers */
2419 OldIrql
= KeAcquireQueuedSpinLock(LockQueuePfnLock
);
2421 /* Image-file backed sections are not yet supported */
2422 ASSERT((AllocationAttributes
& SEC_IMAGE
) == 0);
2424 /* There should not already be a control area for this file */
2425 ASSERT(File
->SectionObjectPointer
->DataSectionObject
== NULL
);
2428 /* Write down that this CA is being created, and set it */
2429 ControlArea
->u
.Flags
.BeingCreated
= TRUE
;
2430 PreviousSectionPointer
= File
->SectionObjectPointer
;
2431 File
->SectionObjectPointer
->DataSectionObject
= ControlArea
;
2433 /* We can release the PFN lock now */
2434 KeReleaseQueuedSpinLock(LockQueuePfnLock
, OldIrql
);
2436 /* We don't support previously-mapped file */
2437 ASSERT(NewSegment
== NULL
);
2439 /* Image-file backed sections are not yet supported */
2440 ASSERT((AllocationAttributes
& SEC_IMAGE
) == 0);
2442 /* So we always create a data file map */
2443 Status
= MiCreateDataFileMap(File
,
2445 (PSIZE_T
)InputMaximumSize
,
2446 SectionPageProtection
,
2447 AllocationAttributes
,
2449 ASSERT(PreviousSectionPointer
== File
->SectionObjectPointer
);
2450 ASSERT(NT_SUCCESS(Status
));
2452 /* Check if a maximum size was specified */
2453 if (!InputMaximumSize
->QuadPart
)
2455 /* Nope, use the segment size */
2456 Section
.SizeOfSection
.QuadPart
= (LONGLONG
)Segment
->SizeOfSegment
;
2460 /* Yep, use the entered size */
2461 Section
.SizeOfSection
.QuadPart
= InputMaximumSize
->QuadPart
;
2466 /* A handle must be supplied with SEC_IMAGE, as this is the no-handle path */
2467 if (AllocationAttributes
& SEC_IMAGE
) return STATUS_INVALID_FILE_FOR_SECTION
;
2469 /* Not yet supported */
2470 ASSERT((AllocationAttributes
& SEC_LARGE_PAGES
) == 0);
2472 /* So this must be a pagefile-backed section, create the mappings needed */
2473 Status
= MiCreatePagingFileMap(&NewSegment
,
2474 (PSIZE_T
)InputMaximumSize
,
2476 AllocationAttributes
);
2477 if (!NT_SUCCESS(Status
)) return Status
;
2479 /* Set the size here, and read the control area */
2480 Section
.SizeOfSection
.QuadPart
= NewSegment
->SizeOfSegment
;
2481 ControlArea
= NewSegment
->ControlArea
;
2484 /* Did we already have a segment? */
2487 /* This must be the file path and we created a segment */
2488 NewSegment
= Segment
;
2489 ASSERT(File
!= NULL
);
2491 /* Acquire the PFN lock while we set control area flags */
2492 OldIrql
= KeAcquireQueuedSpinLock(LockQueuePfnLock
);
2494 /* We don't support this race condition yet, so assume no waiters */
2495 ASSERT(ControlArea
->WaitingForDeletion
== NULL
);
2496 ControlArea
->WaitingForDeletion
= NULL
;
2498 /* Image-file backed sections are not yet supported, nor ROM images */
2499 ASSERT((AllocationAttributes
& SEC_IMAGE
) == 0);
2500 ASSERT(Segment
->ControlArea
->u
.Flags
.Rom
== 0);
2502 /* Take off the being created flag, and then release the lock */
2503 ControlArea
->u
.Flags
.BeingCreated
= FALSE
;
2504 KeReleaseQueuedSpinLock(LockQueuePfnLock
, OldIrql
);
2507 /* Check if we locked the file earlier */
2510 /* Reset the top-level IRP and release the lock */
2511 IoSetTopLevelIrp(NULL
);
2512 //FsRtlReleaseFile(File);
2516 /* Set the initial section object data */
2517 Section
.InitialPageProtection
= SectionPageProtection
;
2519 /* The mapping created a control area and segment, save the flags */
2520 Section
.Segment
= NewSegment
;
2521 Section
.u
.LongFlags
= ControlArea
->u
.LongFlags
;
2523 /* Check if this is a user-mode read-write non-image file mapping */
2524 if (!(FileObject
) &&
2525 (SectionPageProtection
& (PAGE_READWRITE
| PAGE_EXECUTE_READWRITE
)) &&
2526 (ControlArea
->u
.Flags
.Image
== 0) &&
2527 (ControlArea
->FilePointer
!= NULL
))
2529 /* Add a reference and set the flag */
2530 Section
.u
.Flags
.UserWritable
= 1;
2531 InterlockedIncrement((PLONG
)&ControlArea
->WritableUserReferences
);
2534 /* Check for image mappings or page file mappings */
2535 if ((ControlArea
->u
.Flags
.Image
== 1) || !(ControlArea
->FilePointer
))
2537 /* Charge the segment size, and allocate a subsection */
2538 PagedCharge
= sizeof(SECTION
) + NewSegment
->TotalNumberOfPtes
* sizeof(MMPTE
);
2539 Size
= sizeof(SUBSECTION
);
2543 /* Charge nothing, and allocate a mapped subsection */
2545 Size
= sizeof(MSUBSECTION
);
2548 /* Check if this is a normal CA */
2549 ASSERT(ControlArea
->u
.Flags
.GlobalOnlyPerSession
== 0);
2550 ASSERT(ControlArea
->u
.Flags
.Rom
== 0);
2552 /* Charge only a CA, and the subsection is right after */
2553 NonPagedCharge
= sizeof(CONTROL_AREA
);
2554 Subsection
= (PSUBSECTION
)(ControlArea
+ 1);
2556 /* We only support single-subsection mappings */
2557 NonPagedCharge
+= Size
;
2558 ASSERT(Subsection
->NextSubsection
== NULL
);
2560 /* Create the actual section object, with enough space for the prototype PTEs */
2561 Status
= ObCreateObject(PreviousMode
,
2562 MmSectionObjectType
,
2569 (PVOID
*)&NewSection
);
2570 ASSERT(NT_SUCCESS(Status
));
2572 /* Now copy the local section object from the stack into this new object */
2573 RtlCopyMemory(NewSection
, &Section
, sizeof(SECTION
));
2574 NewSection
->Address
.StartingVpn
= 0;
2576 /* For now, only user calls are supported */
2577 ASSERT(KernelCall
== FALSE
);
2578 NewSection
->u
.Flags
.UserReference
= TRUE
;
2580 /* Migrate the attribute into a flag */
2581 if (AllocationAttributes
& SEC_NO_CHANGE
) NewSection
->u
.Flags
.NoChange
= TRUE
;
2583 /* If R/W access is not requested, this might eventually become a CoW mapping */
2584 if (!(SectionPageProtection
& (PAGE_READWRITE
| PAGE_EXECUTE_READWRITE
)))
2586 NewSection
->u
.Flags
.CopyOnWrite
= TRUE
;
2589 /* Is this a "based" allocation, in which all mappings are identical? */
2590 if (AllocationAttributes
& SEC_BASED
)
2592 /* Convert the flag, and make sure the section isn't too big */
2593 NewSection
->u
.Flags
.Based
= TRUE
;
2594 if ((ULONGLONG
)NewSection
->SizeOfSection
.QuadPart
>
2595 (ULONG_PTR
)MmHighSectionBase
)
2597 DPRINT1("BASED section is too large\n");
2598 ObDereferenceObject(NewSection
);
2599 return STATUS_NO_MEMORY
;
2602 /* Lock the VAD tree during the search */
2603 KeAcquireGuardedMutex(&MmSectionBasedMutex
);
2605 /* Find an address top-down */
2606 Status
= MiFindEmptyAddressRangeDownBasedTree(NewSection
->SizeOfSection
.LowPart
,
2607 (ULONG_PTR
)MmHighSectionBase
,
2609 &MmSectionBasedRoot
,
2610 &NewSection
->Address
.StartingVpn
);
2611 ASSERT(NT_SUCCESS(Status
));
2613 /* Compute the ending address and insert it into the VAD tree */
2614 NewSection
->Address
.EndingVpn
= NewSection
->Address
.StartingVpn
+
2615 NewSection
->SizeOfSection
.LowPart
-
2617 MiInsertBasedSection(NewSection
);
2619 /* Finally release the lock */
2620 KeReleaseGuardedMutex(&MmSectionBasedMutex
);
2623 /* Write down if this was a kernel call */
2624 ControlArea
->u
.Flags
.WasPurged
|= KernelCall
;
2625 ASSERT(ControlArea
->u
.Flags
.WasPurged
== FALSE
);
2627 /* Make sure the segment and the section are the same size, or the section is smaller */
2628 ASSERT((ULONG64
)NewSection
->SizeOfSection
.QuadPart
<= NewSection
->Segment
->SizeOfSegment
);
2630 /* Return the object and the creation status */
2631 *SectionObject
= (PVOID
)NewSection
;
2640 MmMapViewOfArm3Section(IN PVOID SectionObject
,
2641 IN PEPROCESS Process
,
2642 IN OUT PVOID
*BaseAddress
,
2643 IN ULONG_PTR ZeroBits
,
2644 IN SIZE_T CommitSize
,
2645 IN OUT PLARGE_INTEGER SectionOffset OPTIONAL
,
2646 IN OUT PSIZE_T ViewSize
,
2647 IN SECTION_INHERIT InheritDisposition
,
2648 IN ULONG AllocationType
,
2651 KAPC_STATE ApcState
;
2652 BOOLEAN Attached
= FALSE
;
2654 PCONTROL_AREA ControlArea
;
2655 ULONG ProtectionMask
;
2659 /* Get the segment and control area */
2660 Section
= (PSECTION
)SectionObject
;
2661 ControlArea
= Section
->Segment
->ControlArea
;
2663 /* These flags/states are not yet supported by ARM3 */
2664 ASSERT(Section
->u
.Flags
.Image
== 0);
2665 ASSERT(Section
->u
.Flags
.NoCache
== 0);
2666 ASSERT(Section
->u
.Flags
.WriteCombined
== 0);
2667 ASSERT(ControlArea
->u
.Flags
.PhysicalMemory
== 0);
2670 if ((AllocationType
& MEM_RESERVE
) != 0)
2672 DPRINT1("MmMapViewOfArm3Section called with MEM_RESERVE, this is not implemented yet!!!\n");
2673 return STATUS_NOT_IMPLEMENTED
;
2676 /* Check if the mapping protection is compatible with the create */
2677 if (!MiIsProtectionCompatible(Section
->InitialPageProtection
, Protect
))
2679 DPRINT1("Mapping protection is incompatible\n");
2680 return STATUS_SECTION_PROTECTION
;
2683 /* Check if the offset and size would cause an overflow */
2684 if (((ULONG64
)SectionOffset
->QuadPart
+ *ViewSize
) <
2685 (ULONG64
)SectionOffset
->QuadPart
)
2687 DPRINT1("Section offset overflows\n");
2688 return STATUS_INVALID_VIEW_SIZE
;
2691 /* Check if the offset and size are bigger than the section itself */
2692 if (((ULONG64
)SectionOffset
->QuadPart
+ *ViewSize
) >
2693 (ULONG64
)Section
->SizeOfSection
.QuadPart
)
2695 DPRINT1("Section offset is larger than section\n");
2696 return STATUS_INVALID_VIEW_SIZE
;
2699 /* Check if the caller did not specify a view size */
2702 /* Compute it for the caller */
2703 *ViewSize
= (SIZE_T
)(Section
->SizeOfSection
.QuadPart
- SectionOffset
->QuadPart
);
2705 /* Check if it's larger than 4GB or overflows into kernel-mode */
2706 if ((*ViewSize
> 0xFFFFFFFF) ||
2707 (((ULONG_PTR
)MM_HIGHEST_VAD_ADDRESS
- (ULONG_PTR
)*BaseAddress
) < *ViewSize
))
2709 DPRINT1("Section view won't fit\n");
2710 return STATUS_INVALID_VIEW_SIZE
;
2714 /* Check if the commit size is larger than the view size */
2715 if (CommitSize
> *ViewSize
)
2717 DPRINT1("Attempting to commit more than the view itself\n");
2718 return STATUS_INVALID_PARAMETER_5
;
2721 /* Check if the view size is larger than the section */
2722 if (*ViewSize
> (ULONG64
)Section
->SizeOfSection
.QuadPart
)
2724 DPRINT1("The view is larger than the section\n");
2725 return STATUS_INVALID_VIEW_SIZE
;
2728 /* Compute and validate the protection mask */
2729 ProtectionMask
= MiMakeProtectionMask(Protect
);
2730 if (ProtectionMask
== MM_INVALID_PROTECTION
)
2732 DPRINT1("The protection is invalid\n");
2733 return STATUS_INVALID_PAGE_PROTECTION
;
2736 /* We only handle pagefile-backed sections, which cannot be writecombined */
2737 if (Protect
& PAGE_WRITECOMBINE
)
2739 DPRINT1("Cannot write combine a pagefile-backed section\n");
2740 return STATUS_INVALID_PARAMETER_10
;
2743 /* Start by attaching to the current process if needed */
2744 if (PsGetCurrentProcess() != Process
)
2746 KeStackAttachProcess(&Process
->Pcb
, &ApcState
);
2750 /* Do the actual mapping */
2751 Status
= MiMapViewOfDataSection(ControlArea
,
2763 /* Detatch if needed, then return status */
2764 if (Attached
) KeUnstackDetachProcess(&ApcState
);
2773 MmDisableModifiedWriteOfSection(IN PSECTION_OBJECT_POINTERS SectionObjectPointer
)
2784 MmForceSectionClosed(IN PSECTION_OBJECT_POINTERS SectionObjectPointer
,
2785 IN BOOLEAN DelayClose
)
2796 MmMapViewInSessionSpace(IN PVOID Section
,
2797 OUT PVOID
*MappedBase
,
2798 IN OUT PSIZE_T ViewSize
)
2803 if (MiIsRosSectionObject(Section
))
2805 return MmMapViewInSystemSpace(Section
, MappedBase
, ViewSize
);
2808 /* Process must be in a session */
2809 if (PsGetCurrentProcess()->ProcessInSession
== FALSE
)
2811 DPRINT1("Process is not in session\n");
2812 return STATUS_NOT_MAPPED_VIEW
;
2815 /* Use the system space API, but with the session view instead */
2816 ASSERT(MmIsAddressValid(MmSessionSpace
) == TRUE
);
2817 return MiMapViewInSystemSpace(Section
,
2818 &MmSessionSpace
->Session
,
2828 MmUnmapViewInSessionSpace(IN PVOID MappedBase
)
2833 if (!MI_IS_SESSION_ADDRESS(MappedBase
))
2835 return MmUnmapViewInSystemSpace(MappedBase
);
2838 /* Process must be in a session */
2839 if (PsGetCurrentProcess()->ProcessInSession
== FALSE
)
2841 DPRINT1("Proess is not in session\n");
2842 return STATUS_NOT_MAPPED_VIEW
;
2845 /* Use the system space API, but with the session view instead */
2846 ASSERT(MmIsAddressValid(MmSessionSpace
) == TRUE
);
2847 return MiUnmapViewInSystemSpace(&MmSessionSpace
->Session
,
2856 MmUnmapViewOfSection(IN PEPROCESS Process
,
2857 IN PVOID BaseAddress
)
2859 return MiUnmapViewOfSection(Process
, BaseAddress
, 0);
2867 MmUnmapViewInSystemSpace(IN PVOID MappedBase
)
2869 PMEMORY_AREA MemoryArea
;
2872 /* Was this mapped by RosMm? */
2873 MemoryArea
= MmLocateMemoryAreaByAddress(MmGetKernelAddressSpace(), MappedBase
);
2874 if ((MemoryArea
) && (MemoryArea
->Type
!= MEMORY_AREA_OWNED_BY_ARM3
))
2876 return MiRosUnmapViewInSystemSpace(MappedBase
);
2879 /* It was not, call the ARM3 routine */
2880 return MiUnmapViewInSystemSpace(&MmSession
, MappedBase
);
2888 MmCommitSessionMappedView(IN PVOID MappedBase
,
2891 ULONG_PTR StartAddress
, EndingAddress
, Base
;
2892 ULONG Hash
, Count
= 0, Size
, QuotaCharge
;
2894 PMMPTE LastProtoPte
, PointerPte
, ProtoPte
;
2895 PCONTROL_AREA ControlArea
;
2897 PSUBSECTION Subsection
;
2901 /* Make sure the base isn't past the session view range */
2902 if ((MappedBase
< MiSessionViewStart
) ||
2903 (MappedBase
>= (PVOID
)((ULONG_PTR
)MiSessionViewStart
+ MmSessionViewSize
)))
2905 DPRINT1("Base outside of valid range\n");
2906 return STATUS_INVALID_PARAMETER_1
;
2909 /* Make sure the size isn't past the session view range */
2910 if (((ULONG_PTR
)MiSessionViewStart
+ MmSessionViewSize
-
2911 (ULONG_PTR
)MappedBase
) < ViewSize
)
2913 DPRINT1("Size outside of valid range\n");
2914 return STATUS_INVALID_PARAMETER_2
;
2918 ASSERT(ViewSize
!= 0);
2920 /* Process must be in a session */
2921 if (PsGetCurrentProcess()->ProcessInSession
== FALSE
)
2923 DPRINT1("Process is not in session\n");
2924 return STATUS_NOT_MAPPED_VIEW
;
2927 /* Compute the correctly aligned base and end addresses */
2928 StartAddress
= (ULONG_PTR
)PAGE_ALIGN(MappedBase
);
2929 EndingAddress
= ((ULONG_PTR
)MappedBase
+ ViewSize
- 1) | (PAGE_SIZE
- 1);
2931 /* Sanity check and grab the session */
2932 ASSERT(MmIsAddressValid(MmSessionSpace
) == TRUE
);
2933 Session
= &MmSessionSpace
->Session
;
2935 /* Get the hash entry for this allocation */
2936 Hash
= (StartAddress
>> 16) % Session
->SystemSpaceHashKey
;
2938 /* Lock system space */
2939 KeAcquireGuardedMutex(Session
->SystemSpaceViewLockPointer
);
2941 /* Loop twice so we can try rolling over if needed */
2944 /* Extract the size and base addresses from the entry */
2945 Base
= Session
->SystemSpaceViewTable
[Hash
].Entry
& ~0xFFFF;
2946 Size
= Session
->SystemSpaceViewTable
[Hash
].Entry
& 0xFFFF;
2948 /* Convert the size to bucket chunks */
2949 Size
*= MI_SYSTEM_VIEW_BUCKET_SIZE
;
2951 /* Bail out if this entry fits in here */
2952 if ((StartAddress
>= Base
) && (EndingAddress
< (Base
+ Size
))) break;
2954 /* Check if we overflew past the end of the hash table */
2955 if (++Hash
>= Session
->SystemSpaceHashSize
)
2957 /* Reset the hash to zero and keep searching from the bottom */
2961 /* But if we overflew twice, then this is not a real mapping */
2962 KeBugCheckEx(DRIVER_UNMAPPING_INVALID_VIEW
,
2971 /* Make sure the view being mapped is not file-based */
2972 ControlArea
= Session
->SystemSpaceViewTable
[Hash
].ControlArea
;
2973 if (ControlArea
->FilePointer
!= NULL
)
2975 /* It is, so we have to bail out */
2976 DPRINT1("Only page-filed backed sections can be commited\n");
2977 KeReleaseGuardedMutex(Session
->SystemSpaceViewLockPointer
);
2978 return STATUS_ALREADY_COMMITTED
;
2981 /* Get the subsection. We don't support LARGE_CONTROL_AREA in ARM3 */
2982 ASSERT(ControlArea
->u
.Flags
.GlobalOnlyPerSession
== 0);
2983 ASSERT(ControlArea
->u
.Flags
.Rom
== 0);
2984 Subsection
= (PSUBSECTION
)(ControlArea
+ 1);
2986 /* Get the start and end PTEs -- make sure the end PTE isn't past the end */
2987 ProtoPte
= Subsection
->SubsectionBase
+ ((StartAddress
- Base
) >> PAGE_SHIFT
);
2988 QuotaCharge
= MiAddressToPte(EndingAddress
) - MiAddressToPte(StartAddress
) + 1;
2989 LastProtoPte
= ProtoPte
+ QuotaCharge
;
2990 if (LastProtoPte
>= Subsection
->SubsectionBase
+ Subsection
->PtesInSubsection
)
2992 DPRINT1("PTE is out of bounds\n");
2993 KeReleaseGuardedMutex(Session
->SystemSpaceViewLockPointer
);
2994 return STATUS_INVALID_PARAMETER_2
;
2997 /* Acquire the commit lock and count all the non-committed PTEs */
2998 KeAcquireGuardedMutexUnsafe(&MmSectionCommitMutex
);
2999 PointerPte
= ProtoPte
;
3000 while (PointerPte
< LastProtoPte
)
3002 if (PointerPte
->u
.Long
) QuotaCharge
--;
3006 /* Was everything committed already? */
3009 /* Nothing to do! */
3010 KeReleaseGuardedMutexUnsafe(&MmSectionCommitMutex
);
3011 KeReleaseGuardedMutex(Session
->SystemSpaceViewLockPointer
);
3012 return STATUS_SUCCESS
;
3015 /* Pick the segment and template PTE */
3016 Segment
= ControlArea
->Segment
;
3017 TempPte
= Segment
->SegmentPteTemplate
;
3018 ASSERT(TempPte
.u
.Long
!= 0);
3020 /* Loop all prototype PTEs to be committed */
3021 PointerPte
= ProtoPte
;
3022 while (PointerPte
< LastProtoPte
)
3024 /* Make sure the PTE is already invalid */
3025 if (PointerPte
->u
.Long
== 0)
3027 /* And write the invalid PTE */
3028 MI_WRITE_INVALID_PTE(PointerPte
, TempPte
);
3031 /* Move to the next PTE */
3035 /* Check if we had at least one page charged */
3038 /* Update the accounting data */
3039 Segment
->NumberOfCommittedPages
+= QuotaCharge
;
3040 InterlockedExchangeAddSizeT(&MmSharedCommit
, QuotaCharge
);
3044 KeReleaseGuardedMutexUnsafe(&MmSectionCommitMutex
);
3045 KeReleaseGuardedMutex(Session
->SystemSpaceViewLockPointer
);
3046 return STATUS_SUCCESS
;
3051 MiDeleteARM3Section(PVOID ObjectBody
)
3053 PSECTION SectionObject
;
3054 PCONTROL_AREA ControlArea
;
3057 SectionObject
= (PSECTION
)ObjectBody
;
3059 /* Lock the PFN database */
3060 OldIrql
= KeAcquireQueuedSpinLock(LockQueuePfnLock
);
3062 ASSERT(SectionObject
->Segment
);
3063 ASSERT(SectionObject
->Segment
->ControlArea
);
3065 ControlArea
= SectionObject
->Segment
->ControlArea
;
3068 ControlArea
->NumberOfSectionReferences
--;
3069 ControlArea
->NumberOfUserReferences
--;
3071 ASSERT(ControlArea
->u
.Flags
.BeingDeleted
== 0);
3073 /* Check it. It will delete it if there is no more reference to it */
3074 MiCheckControlArea(ControlArea
, OldIrql
);
3077 /* SYSTEM CALLS ***************************************************************/
3081 NtAreMappedFilesTheSame(IN PVOID File1MappedAsAnImage
,
3082 IN PVOID File2MappedAsFile
)
3085 PMEMORY_AREA MemoryArea1
, MemoryArea2
;
3086 PROS_SECTION_OBJECT Section1
, Section2
;
3088 /* Lock address space */
3089 AddressSpace
= MmGetCurrentAddressSpace();
3090 MmLockAddressSpace(AddressSpace
);
3092 /* Locate the memory area for the process by address */
3093 MemoryArea1
= MmLocateMemoryAreaByAddress(AddressSpace
, File1MappedAsAnImage
);
3096 /* Fail, the address does not exist */
3097 MmUnlockAddressSpace(AddressSpace
);
3098 return STATUS_INVALID_ADDRESS
;
3101 /* Check if it's a section view (RosMm section) or ARM3 section */
3102 if (MemoryArea1
->Type
!= MEMORY_AREA_SECTION_VIEW
)
3104 /* Fail, the address is not a section */
3105 MmUnlockAddressSpace(AddressSpace
);
3106 return STATUS_CONFLICTING_ADDRESSES
;
3109 /* Get the section pointer to the SECTION_OBJECT */
3110 Section1
= MemoryArea1
->Data
.SectionData
.Section
;
3111 if (Section1
->FileObject
== NULL
)
3113 MmUnlockAddressSpace(AddressSpace
);
3114 return STATUS_CONFLICTING_ADDRESSES
;
3117 /* Locate the memory area for the process by address */
3118 MemoryArea2
= MmLocateMemoryAreaByAddress(AddressSpace
, File2MappedAsFile
);
3121 /* Fail, the address does not exist */
3122 MmUnlockAddressSpace(AddressSpace
);
3123 return STATUS_INVALID_ADDRESS
;
3126 /* Check if it's a section view (RosMm section) or ARM3 section */
3127 if (MemoryArea2
->Type
!= MEMORY_AREA_SECTION_VIEW
)
3129 /* Fail, the address is not a section */
3130 MmUnlockAddressSpace(AddressSpace
);
3131 return STATUS_CONFLICTING_ADDRESSES
;
3134 /* Get the section pointer to the SECTION_OBJECT */
3135 Section2
= MemoryArea2
->Data
.SectionData
.Section
;
3136 if (Section2
->FileObject
== NULL
)
3138 MmUnlockAddressSpace(AddressSpace
);
3139 return STATUS_CONFLICTING_ADDRESSES
;
3142 /* The shared cache map seems to be the same if both of these are equal */
3143 if (Section1
->FileObject
->SectionObjectPointer
->SharedCacheMap
==
3144 Section2
->FileObject
->SectionObjectPointer
->SharedCacheMap
)
3146 MmUnlockAddressSpace(AddressSpace
);
3147 return STATUS_SUCCESS
;
3150 /* Unlock address space */
3151 MmUnlockAddressSpace(AddressSpace
);
3152 return STATUS_NOT_SAME_DEVICE
;
3160 NtCreateSection(OUT PHANDLE SectionHandle
,
3161 IN ACCESS_MASK DesiredAccess
,
3162 IN POBJECT_ATTRIBUTES ObjectAttributes OPTIONAL
,
3163 IN PLARGE_INTEGER MaximumSize OPTIONAL
,
3164 IN ULONG SectionPageProtection OPTIONAL
,
3165 IN ULONG AllocationAttributes
,
3166 IN HANDLE FileHandle OPTIONAL
)
3168 LARGE_INTEGER SafeMaximumSize
;
3169 PVOID SectionObject
;
3171 KPROCESSOR_MODE PreviousMode
= ExGetPreviousMode();
3175 /* Check for non-existing flags */
3176 if ((AllocationAttributes
& ~(SEC_COMMIT
| SEC_RESERVE
| SEC_BASED
|
3177 SEC_LARGE_PAGES
| SEC_IMAGE
| SEC_NOCACHE
|
3180 if (!(AllocationAttributes
& 1))
3182 DPRINT1("Bogus allocation attribute: %lx\n", AllocationAttributes
);
3183 return STATUS_INVALID_PARAMETER_6
;
3187 /* Check for no allocation type */
3188 if (!(AllocationAttributes
& (SEC_COMMIT
| SEC_RESERVE
| SEC_IMAGE
)))
3190 DPRINT1("Missing allocation type in allocation attributes\n");
3191 return STATUS_INVALID_PARAMETER_6
;
3194 /* Check for image allocation with invalid attributes */
3195 if ((AllocationAttributes
& SEC_IMAGE
) &&
3196 (AllocationAttributes
& (SEC_COMMIT
| SEC_RESERVE
| SEC_LARGE_PAGES
|
3197 SEC_NOCACHE
| SEC_NO_CHANGE
)))
3199 DPRINT1("Image allocation with invalid attributes\n");
3200 return STATUS_INVALID_PARAMETER_6
;
3203 /* Check for allocation type is both commit and reserve */
3204 if ((AllocationAttributes
& SEC_COMMIT
) && (AllocationAttributes
& SEC_RESERVE
))
3206 DPRINT1("Commit and reserve in the same time\n");
3207 return STATUS_INVALID_PARAMETER_6
;
3210 /* Now check for valid protection */
3211 if ((SectionPageProtection
& PAGE_NOCACHE
) ||
3212 (SectionPageProtection
& PAGE_WRITECOMBINE
) ||
3213 (SectionPageProtection
& PAGE_GUARD
) ||
3214 (SectionPageProtection
& PAGE_NOACCESS
))
3216 DPRINT1("Sections don't support these protections\n");
3217 return STATUS_INVALID_PAGE_PROTECTION
;
3220 /* Use a maximum size of zero, if none was specified */
3221 SafeMaximumSize
.QuadPart
= 0;
3223 /* Check for user-mode caller */
3224 if (PreviousMode
!= KernelMode
)
3229 /* Safely check user-mode parameters */
3230 if (MaximumSize
) SafeMaximumSize
= ProbeForReadLargeInteger(MaximumSize
);
3231 MaximumSize
= &SafeMaximumSize
;
3232 ProbeForWriteHandle(SectionHandle
);
3234 _SEH2_EXCEPT(EXCEPTION_EXECUTE_HANDLER
)
3236 /* Return the exception code */
3237 _SEH2_YIELD(return _SEH2_GetExceptionCode());
3241 else if (!MaximumSize
) MaximumSize
= &SafeMaximumSize
;
3243 /* Check that MaximumSize is valid if backed by paging file */
3244 if ((!FileHandle
) && (!MaximumSize
->QuadPart
))
3245 return STATUS_INVALID_PARAMETER_4
;
3247 /* Create the section */
3248 Status
= MmCreateSection(&SectionObject
,
3252 SectionPageProtection
,
3253 AllocationAttributes
,
3256 if (!NT_SUCCESS(Status
)) return Status
;
3258 /* FIXME: Should zero last page for a file mapping */
3260 /* Now insert the object */
3261 Status
= ObInsertObject(SectionObject
,
3267 if (NT_SUCCESS(Status
))
3272 /* Return the handle safely */
3273 *SectionHandle
= Handle
;
3275 _SEH2_EXCEPT(EXCEPTION_EXECUTE_HANDLER
)
3282 /* Return the status */
3288 NtOpenSection(OUT PHANDLE SectionHandle
,
3289 IN ACCESS_MASK DesiredAccess
,
3290 IN POBJECT_ATTRIBUTES ObjectAttributes
)
3294 KPROCESSOR_MODE PreviousMode
= ExGetPreviousMode();
3297 /* Check for user-mode caller */
3298 if (PreviousMode
!= KernelMode
)
3303 /* Safely check user-mode parameters */
3304 ProbeForWriteHandle(SectionHandle
);
3306 _SEH2_EXCEPT(EXCEPTION_EXECUTE_HANDLER
)
3308 /* Return the exception code */
3309 _SEH2_YIELD(return _SEH2_GetExceptionCode());
3314 /* Try opening the object */
3315 Status
= ObOpenObjectByName(ObjectAttributes
,
3316 MmSectionObjectType
,
3326 /* Return the handle safely */
3327 *SectionHandle
= Handle
;
3329 _SEH2_EXCEPT(EXCEPTION_EXECUTE_HANDLER
)
3335 /* Return the status */
3341 NtMapViewOfSection(IN HANDLE SectionHandle
,
3342 IN HANDLE ProcessHandle
,
3343 IN OUT PVOID
* BaseAddress
,
3344 IN ULONG_PTR ZeroBits
,
3345 IN SIZE_T CommitSize
,
3346 IN OUT PLARGE_INTEGER SectionOffset OPTIONAL
,
3347 IN OUT PSIZE_T ViewSize
,
3348 IN SECTION_INHERIT InheritDisposition
,
3349 IN ULONG AllocationType
,
3352 PVOID SafeBaseAddress
;
3353 LARGE_INTEGER SafeSectionOffset
;
3354 SIZE_T SafeViewSize
;
3355 PROS_SECTION_OBJECT Section
;
3358 ACCESS_MASK DesiredAccess
;
3359 ULONG ProtectionMask
;
3360 KPROCESSOR_MODE PreviousMode
= ExGetPreviousMode();
3362 /* Check for invalid zero bits */
3363 if (ZeroBits
> 21) // per-arch?
3365 DPRINT1("Invalid zero bits\n");
3366 return STATUS_INVALID_PARAMETER_4
;
3369 /* Check for invalid inherit disposition */
3370 if ((InheritDisposition
> ViewUnmap
) || (InheritDisposition
< ViewShare
))
3372 DPRINT1("Invalid inherit disposition\n");
3373 return STATUS_INVALID_PARAMETER_8
;
3376 /* Allow only valid allocation types */
3377 if ((AllocationType
& ~(MEM_TOP_DOWN
| MEM_LARGE_PAGES
| MEM_DOS_LIM
|
3378 SEC_NO_CHANGE
| MEM_RESERVE
)))
3380 DPRINT1("Invalid allocation type\n");
3381 return STATUS_INVALID_PARAMETER_9
;
3384 /* Convert the protection mask, and validate it */
3385 ProtectionMask
= MiMakeProtectionMask(Protect
);
3386 if (ProtectionMask
== MM_INVALID_PROTECTION
)
3388 DPRINT1("Invalid page protection\n");
3389 return STATUS_INVALID_PAGE_PROTECTION
;
3392 /* Check for non-allocation-granularity-aligned BaseAddress */
3393 if (BaseAddress
&& (*BaseAddress
!= ALIGN_DOWN_POINTER_BY(*BaseAddress
, MM_VIRTMEM_GRANULARITY
)))
3395 DPRINT("BaseAddress is not at 64-kilobyte address boundary.");
3396 return STATUS_MAPPED_ALIGNMENT
;
3399 /* Now convert the protection mask into desired section access mask */
3400 DesiredAccess
= MmMakeSectionAccess
[ProtectionMask
& 0x7];
3402 /* Assume no section offset */
3403 SafeSectionOffset
.QuadPart
= 0;
3408 /* Check for unsafe parameters */
3409 if (PreviousMode
!= KernelMode
)
3411 /* Probe the parameters */
3412 ProbeForWritePointer(BaseAddress
);
3413 ProbeForWriteSize_t(ViewSize
);
3416 /* Check if a section offset was given */
3419 /* Check for unsafe parameters and capture section offset */
3420 if (PreviousMode
!= KernelMode
) ProbeForWriteLargeInteger(SectionOffset
);
3421 SafeSectionOffset
= *SectionOffset
;
3424 /* Capture the other parameters */
3425 SafeBaseAddress
= *BaseAddress
;
3426 SafeViewSize
= *ViewSize
;
3428 _SEH2_EXCEPT(EXCEPTION_EXECUTE_HANDLER
)
3430 /* Return the exception code */
3431 _SEH2_YIELD(return _SEH2_GetExceptionCode());
3435 /* Check for kernel-mode address */
3436 if (SafeBaseAddress
> MM_HIGHEST_VAD_ADDRESS
)
3438 DPRINT1("Kernel base not allowed\n");
3439 return STATUS_INVALID_PARAMETER_3
;
3442 /* Check for range entering kernel-mode */
3443 if (((ULONG_PTR
)MM_HIGHEST_VAD_ADDRESS
- (ULONG_PTR
)SafeBaseAddress
) < SafeViewSize
)
3445 DPRINT1("Overflowing into kernel base not allowed\n");
3446 return STATUS_INVALID_PARAMETER_3
;
3449 /* Check for invalid zero bits */
3450 if (((ULONG_PTR
)SafeBaseAddress
+ SafeViewSize
) > (0xFFFFFFFF >> ZeroBits
)) // arch?
3452 DPRINT1("Invalid zero bits\n");
3453 return STATUS_INVALID_PARAMETER_4
;
3456 /* Reference the process */
3457 Status
= ObReferenceObjectByHandle(ProcessHandle
,
3458 PROCESS_VM_OPERATION
,
3463 if (!NT_SUCCESS(Status
)) return Status
;
3465 /* Reference the section */
3466 Status
= ObReferenceObjectByHandle(SectionHandle
,
3468 MmSectionObjectType
,
3472 if (!NT_SUCCESS(Status
))
3474 ObDereferenceObject(Process
);
3478 /* Now do the actual mapping */
3479 Status
= MmMapViewOfSection(Section
,
3490 /* Return data only on success */
3491 if (NT_SUCCESS(Status
))
3493 /* Check if this is an image for the current process */
3494 if ((Section
->AllocationAttributes
& SEC_IMAGE
) &&
3495 (Process
== PsGetCurrentProcess()) &&
3496 (Status
!= STATUS_IMAGE_NOT_AT_BASE
))
3498 /* Notify the debugger */
3499 DbgkMapViewOfSection(Section
,
3501 SafeSectionOffset
.LowPart
,
3508 /* Return parameters to user */
3509 *BaseAddress
= SafeBaseAddress
;
3510 *ViewSize
= SafeViewSize
;
3511 if (SectionOffset
) *SectionOffset
= SafeSectionOffset
;
3513 _SEH2_EXCEPT(EXCEPTION_EXECUTE_HANDLER
)
3520 /* Dereference all objects and return status */
3521 ObDereferenceObject(Section
);
3522 ObDereferenceObject(Process
);
3528 NtUnmapViewOfSection(IN HANDLE ProcessHandle
,
3529 IN PVOID BaseAddress
)
3533 KPROCESSOR_MODE PreviousMode
= ExGetPreviousMode();
3535 /* Don't allowing mapping kernel views */
3536 if ((PreviousMode
== UserMode
) && (BaseAddress
> MM_HIGHEST_USER_ADDRESS
))
3538 DPRINT1("Trying to unmap a kernel view\n");
3539 return STATUS_NOT_MAPPED_VIEW
;
3542 /* Reference the process */
3543 Status
= ObReferenceObjectByHandle(ProcessHandle
,
3544 PROCESS_VM_OPERATION
,
3549 if (!NT_SUCCESS(Status
)) return Status
;
3551 /* Unmap the view */
3552 Status
= MiUnmapViewOfSection(Process
, BaseAddress
, 0);
3554 /* Dereference the process and return status */
3555 ObDereferenceObject(Process
);
3561 NtExtendSection(IN HANDLE SectionHandle
,
3562 IN OUT PLARGE_INTEGER NewMaximumSize
)
3564 LARGE_INTEGER SafeNewMaximumSize
;
3565 PROS_SECTION_OBJECT Section
;
3567 KPROCESSOR_MODE PreviousMode
= ExGetPreviousMode();
3569 /* Check for user-mode parameters */
3570 if (PreviousMode
!= KernelMode
)
3575 /* Probe and capture the maximum size, it's both read and write */
3576 ProbeForWriteLargeInteger(NewMaximumSize
);
3577 SafeNewMaximumSize
= *NewMaximumSize
;
3579 _SEH2_EXCEPT(EXCEPTION_EXECUTE_HANDLER
)
3581 /* Return the exception code */
3582 _SEH2_YIELD(return _SEH2_GetExceptionCode());
3588 /* Just read the size directly */
3589 SafeNewMaximumSize
= *NewMaximumSize
;
3592 /* Reference the section */
3593 Status
= ObReferenceObjectByHandle(SectionHandle
,
3594 SECTION_EXTEND_SIZE
,
3595 MmSectionObjectType
,
3599 if (!NT_SUCCESS(Status
)) return Status
;
3601 /* Really this should go in MmExtendSection */
3602 if (!(Section
->AllocationAttributes
& SEC_FILE
))
3604 DPRINT1("Not extending a file\n");
3605 ObDereferenceObject(Section
);
3606 return STATUS_SECTION_NOT_EXTENDED
;
3609 /* FIXME: Do the work */
3611 /* Dereference the section */
3612 ObDereferenceObject(Section
);
3617 /* Write back the new size */
3618 *NewMaximumSize
= SafeNewMaximumSize
;
3620 _SEH2_EXCEPT(EXCEPTION_EXECUTE_HANDLER
)
3626 /* Return the status */
3627 return STATUS_NOT_IMPLEMENTED
;