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reactos/ntoskrnl/mm/ARM3/section.c
Ratin Gao ffb20d3330
[REACTOS] Fix typos (#6198) 
- Adress -> Address
- Currupted -> Corrupted

3rd-party files are not modified.
2023-12-23 21:37:08 +01:00

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/*
* PROJECT: ReactOS Kernel
* LICENSE: BSD - See COPYING.ARM in the top level directory
* FILE: ntoskrnl/mm/ARM3/section.c
* PURPOSE: ARM Memory Manager Section Support
* PROGRAMMERS: ReactOS Portable Systems Group
*/
/* INCLUDES *******************************************************************/
#include <ntoskrnl.h>
#define NDEBUG
#include <debug.h>
#define MODULE_INVOLVED_IN_ARM3
#include <mm/ARM3/miarm.h>
/* GLOBALS ********************************************************************/
ACCESS_MASK MmMakeSectionAccess[8] =
{
SECTION_MAP_READ,
SECTION_MAP_READ,
SECTION_MAP_EXECUTE,
SECTION_MAP_EXECUTE | SECTION_MAP_READ,
SECTION_MAP_WRITE,
SECTION_MAP_READ,
SECTION_MAP_EXECUTE | SECTION_MAP_WRITE,
SECTION_MAP_EXECUTE | SECTION_MAP_READ
};
ACCESS_MASK MmMakeFileAccess[8] =
{
FILE_READ_DATA,
FILE_READ_DATA,
FILE_EXECUTE,
FILE_EXECUTE | FILE_READ_DATA,
FILE_WRITE_DATA | FILE_READ_DATA,
FILE_READ_DATA,
FILE_EXECUTE | FILE_WRITE_DATA | FILE_READ_DATA,
FILE_EXECUTE | FILE_READ_DATA
};
CHAR MmUserProtectionToMask1[16] =
{
0,
MM_NOACCESS,
MM_READONLY,
(CHAR)MM_INVALID_PROTECTION,
MM_READWRITE,
(CHAR)MM_INVALID_PROTECTION,
(CHAR)MM_INVALID_PROTECTION,
(CHAR)MM_INVALID_PROTECTION,
MM_WRITECOPY,
(CHAR)MM_INVALID_PROTECTION,
(CHAR)MM_INVALID_PROTECTION,
(CHAR)MM_INVALID_PROTECTION,
(CHAR)MM_INVALID_PROTECTION,
(CHAR)MM_INVALID_PROTECTION,
(CHAR)MM_INVALID_PROTECTION,
(CHAR)MM_INVALID_PROTECTION
};
CHAR MmUserProtectionToMask2[16] =
{
0,
MM_EXECUTE,
MM_EXECUTE_READ,
(CHAR)MM_INVALID_PROTECTION,
MM_EXECUTE_READWRITE,
(CHAR)MM_INVALID_PROTECTION,
(CHAR)MM_INVALID_PROTECTION,
(CHAR)MM_INVALID_PROTECTION,
MM_EXECUTE_WRITECOPY,
(CHAR)MM_INVALID_PROTECTION,
(CHAR)MM_INVALID_PROTECTION,
(CHAR)MM_INVALID_PROTECTION,
(CHAR)MM_INVALID_PROTECTION,
(CHAR)MM_INVALID_PROTECTION,
(CHAR)MM_INVALID_PROTECTION,
(CHAR)MM_INVALID_PROTECTION
};
ULONG MmCompatibleProtectionMask[8] =
{
PAGE_NOACCESS,
PAGE_NOACCESS | PAGE_READONLY | PAGE_WRITECOPY,
PAGE_NOACCESS | PAGE_EXECUTE,
PAGE_NOACCESS | PAGE_READONLY | PAGE_WRITECOPY | PAGE_EXECUTE |
PAGE_EXECUTE_READ,
PAGE_NOACCESS | PAGE_READONLY | PAGE_WRITECOPY | PAGE_READWRITE,
PAGE_NOACCESS | PAGE_READONLY | PAGE_WRITECOPY,
PAGE_NOACCESS | PAGE_READONLY | PAGE_WRITECOPY | PAGE_READWRITE |
PAGE_EXECUTE | PAGE_EXECUTE_READ | PAGE_EXECUTE_READWRITE |
PAGE_EXECUTE_WRITECOPY,
PAGE_NOACCESS | PAGE_READONLY | PAGE_WRITECOPY | PAGE_EXECUTE |
PAGE_EXECUTE_READ | PAGE_EXECUTE_WRITECOPY
};
MMSESSION MmSession;
KGUARDED_MUTEX MmSectionCommitMutex;
MM_AVL_TABLE MmSectionBasedRoot;
KGUARDED_MUTEX MmSectionBasedMutex;
PVOID MmHighSectionBase;
/* PRIVATE FUNCTIONS **********************************************************/
BOOLEAN
NTAPI
MiIsProtectionCompatible(IN ULONG SectionPageProtection,
IN ULONG NewSectionPageProtection)
{
ULONG ProtectionMask, CompatibleMask;
/* Calculate the protection mask and make sure it's valid */
ProtectionMask = MiMakeProtectionMask(SectionPageProtection);
if (ProtectionMask == MM_INVALID_PROTECTION)
{
DPRINT1("Invalid protection mask\n");
return FALSE;
}
/* Calculate the compatible mask */
CompatibleMask = MmCompatibleProtectionMask[ProtectionMask & 0x7] |
PAGE_GUARD | PAGE_NOCACHE | PAGE_WRITECOMBINE;
/* See if the mapping protection is compatible with the create protection */
return ((CompatibleMask | NewSectionPageProtection) == CompatibleMask);
}
ULONG
NTAPI
MiMakeProtectionMask(IN ULONG Protect)
{
ULONG Mask1, Mask2, ProtectMask;
/* PAGE_EXECUTE_WRITECOMBINE is theoretically the maximum */
if (Protect >= (PAGE_WRITECOMBINE * 2)) return MM_INVALID_PROTECTION;
/*
* Windows API protection mask can be understood as two bitfields, differing
* by whether or not execute rights are being requested
*/
Mask1 = Protect & 0xF;
Mask2 = (Protect >> 4) & 0xF;
/* Check which field is there */
if (!Mask1)
{
/* Mask2 must be there, use it to determine the PTE protection */
if (!Mask2) return MM_INVALID_PROTECTION;
ProtectMask = MmUserProtectionToMask2[Mask2];
}
else
{
/* Mask2 should not be there, use Mask1 to determine the PTE mask */
if (Mask2) return MM_INVALID_PROTECTION;
ProtectMask = MmUserProtectionToMask1[Mask1];
}
/* Make sure the final mask is a valid one */
if (ProtectMask == MM_INVALID_PROTECTION) return MM_INVALID_PROTECTION;
/* Check for PAGE_GUARD option */
if (Protect & PAGE_GUARD)
{
/* It's not valid on no-access, nocache, or writecombine pages */
if ((ProtectMask == MM_NOACCESS) ||
(Protect & (PAGE_NOCACHE | PAGE_WRITECOMBINE)))
{
/* Fail such requests */
return MM_INVALID_PROTECTION;
}
/* This actually turns on guard page in this scenario! */
ProtectMask |= MM_GUARDPAGE;
}
/* Check for nocache option */
if (Protect & PAGE_NOCACHE)
{
/* The earlier check should've eliminated this possibility */
ASSERT((Protect & PAGE_GUARD) == 0);
/* Check for no-access page or write combine page */
if ((ProtectMask == MM_NOACCESS) || (Protect & PAGE_WRITECOMBINE))
{
/* Such a request is invalid */
return MM_INVALID_PROTECTION;
}
/* Add the PTE flag */
ProtectMask |= MM_NOCACHE;
}
/* Check for write combine option */
if (Protect & PAGE_WRITECOMBINE)
{
/* The two earlier scenarios should've caught this */
ASSERT((Protect & (PAGE_GUARD | PAGE_NOACCESS)) == 0);
/* Don't allow on no-access pages */
if (ProtectMask == MM_NOACCESS) return MM_INVALID_PROTECTION;
/* This actually turns on write-combine in this scenario! */
ProtectMask |= MM_NOACCESS;
}
/* Return the final MM PTE protection mask */
return ProtectMask;
}
BOOLEAN
NTAPI
MiInitializeSystemSpaceMap(IN PMMSESSION InputSession OPTIONAL)
{
SIZE_T AllocSize, BitmapSize, Size;
PVOID ViewStart;
PMMSESSION Session;
/* Check if this a session or system space */
if (InputSession)
{
/* Use the input session */
Session = InputSession;
ViewStart = MiSessionViewStart;
Size = MmSessionViewSize;
}
else
{
/* Use the system space "session" */
Session = &MmSession;
ViewStart = MiSystemViewStart;
Size = MmSystemViewSize;
}
/* Initialize the system space lock */
Session->SystemSpaceViewLockPointer = &Session->SystemSpaceViewLock;
KeInitializeGuardedMutex(Session->SystemSpaceViewLockPointer);
/* Set the start address */
Session->SystemSpaceViewStart = ViewStart;
/* Create a bitmap to describe system space */
BitmapSize = sizeof(RTL_BITMAP) + ((((Size / MI_SYSTEM_VIEW_BUCKET_SIZE) + 31) / 32) * sizeof(ULONG));
Session->SystemSpaceBitMap = ExAllocatePoolWithTag(NonPagedPool,
BitmapSize,
TAG_MM);
ASSERT(Session->SystemSpaceBitMap);
RtlInitializeBitMap(Session->SystemSpaceBitMap,
(PULONG)(Session->SystemSpaceBitMap + 1),
(ULONG)(Size / MI_SYSTEM_VIEW_BUCKET_SIZE));
/* Set system space fully empty to begin with */
RtlClearAllBits(Session->SystemSpaceBitMap);
/* Set default hash flags */
Session->SystemSpaceHashSize = 31;
Session->SystemSpaceHashKey = Session->SystemSpaceHashSize - 1;
Session->SystemSpaceHashEntries = 0;
/* Calculate how much space for the hash views we'll need */
AllocSize = sizeof(MMVIEW) * Session->SystemSpaceHashSize;
ASSERT(AllocSize < PAGE_SIZE);
/* Allocate and zero the view table */
Session->SystemSpaceViewTable = ExAllocatePoolWithTag(Session == &MmSession ?
NonPagedPool :
PagedPool,
AllocSize,
TAG_MM);
ASSERT(Session->SystemSpaceViewTable != NULL);
RtlZeroMemory(Session->SystemSpaceViewTable, AllocSize);
/* Success */
return TRUE;
}
PVOID
NTAPI
MiInsertInSystemSpace(IN PMMSESSION Session,
IN ULONG Buckets,
IN PCONTROL_AREA ControlArea)
{
PVOID Base;
ULONG Entry, Hash, i, HashSize;
PMMVIEW OldTable;
PAGED_CODE();
/* Stay within 4GB */
ASSERT(Buckets < MI_SYSTEM_VIEW_BUCKET_SIZE);
/* Lock system space */
KeAcquireGuardedMutex(Session->SystemSpaceViewLockPointer);
/* Check if we're going to exhaust hash entries */
if ((Session->SystemSpaceHashEntries + 8) > Session->SystemSpaceHashSize)
{
/* Double the hash size */
HashSize = Session->SystemSpaceHashSize * 2;
/* Save the old table and allocate a new one */
OldTable = Session->SystemSpaceViewTable;
Session->SystemSpaceViewTable = ExAllocatePoolWithTag(Session ==
&MmSession ?
NonPagedPool :
PagedPool,
HashSize *
sizeof(MMVIEW),
TAG_MM);
if (!Session->SystemSpaceViewTable)
{
/* Failed to allocate a new table, keep the old one for now */
Session->SystemSpaceViewTable = OldTable;
}
else
{
/* Clear the new table and set the new ahsh and key */
RtlZeroMemory(Session->SystemSpaceViewTable, HashSize * sizeof(MMVIEW));
Session->SystemSpaceHashSize = HashSize;
Session->SystemSpaceHashKey = Session->SystemSpaceHashSize - 1;
/* Loop the old table */
for (i = 0; i < Session->SystemSpaceHashSize / 2; i++)
{
/* Check if the entry was valid */
if (OldTable[i].Entry)
{
/* Re-hash the old entry and search for space in the new table */
Hash = (OldTable[i].Entry >> 16) % Session->SystemSpaceHashKey;
while (Session->SystemSpaceViewTable[Hash].Entry)
{
/* Loop back at the beginning if we had an overflow */
if (++Hash >= Session->SystemSpaceHashSize) Hash = 0;
}
/* Write the old entry in the new table */
Session->SystemSpaceViewTable[Hash] = OldTable[i];
}
}
/* Free the old table */
ExFreePool(OldTable);
}
}
/* Check if we ran out */
if (Session->SystemSpaceHashEntries == Session->SystemSpaceHashSize)
{
DPRINT1("Ran out of system view hash entries\n");
KeReleaseGuardedMutex(Session->SystemSpaceViewLockPointer);
return NULL;
}
/* Find space where to map this view */
i = RtlFindClearBitsAndSet(Session->SystemSpaceBitMap, Buckets, 0);
if (i == 0xFFFFFFFF)
{
/* Out of space, fail */
Session->BitmapFailures++;
DPRINT1("Out of system view space\n");
KeReleaseGuardedMutex(Session->SystemSpaceViewLockPointer);
return NULL;
}
/* Compute the base address */
Base = (PVOID)((ULONG_PTR)Session->SystemSpaceViewStart + (i * MI_SYSTEM_VIEW_BUCKET_SIZE));
/* Get the hash entry for this allocation */
Entry = ((ULONG_PTR)Base & ~(MI_SYSTEM_VIEW_BUCKET_SIZE - 1)) + Buckets;
Hash = (Entry >> 16) % Session->SystemSpaceHashKey;
/* Loop hash entries until a free one is found */
while (Session->SystemSpaceViewTable[Hash].Entry)
{
/* Unless we overflow, in which case loop back at hash o */
if (++Hash >= Session->SystemSpaceHashSize) Hash = 0;
}
/* Add this entry into the hash table */
Session->SystemSpaceViewTable[Hash].Entry = Entry;
Session->SystemSpaceViewTable[Hash].ControlArea = ControlArea;
/* Hash entry found, increment total and return the base address */
Session->SystemSpaceHashEntries++;
KeReleaseGuardedMutex(Session->SystemSpaceViewLockPointer);
return Base;
}
static
NTSTATUS
MiAddMappedPtes(IN PMMPTE FirstPte,
IN PFN_NUMBER PteCount,
IN PCONTROL_AREA ControlArea,
IN LONGLONG SectionOffset)
{
MMPTE TempPte;
PMMPTE PointerPte, ProtoPte, LastProtoPte, LastPte;
PSUBSECTION Subsection;
/* Mapping at offset not supported yet */
ASSERT(SectionOffset == 0);
/* ARM3 doesn't support this yet */
ASSERT(ControlArea->u.Flags.GlobalOnlyPerSession == 0);
ASSERT(ControlArea->u.Flags.Rom == 0);
ASSERT(ControlArea->FilePointer == NULL);
/* Sanity checks */
ASSERT(PteCount != 0);
ASSERT(ControlArea->NumberOfMappedViews >= 1);
ASSERT(ControlArea->NumberOfUserReferences >= 1);
ASSERT(ControlArea->NumberOfSectionReferences != 0);
ASSERT(ControlArea->u.Flags.BeingCreated == 0);
ASSERT(ControlArea->u.Flags.BeingDeleted == 0);
ASSERT(ControlArea->u.Flags.BeingPurged == 0);
/* Get the PTEs for the actual mapping */
PointerPte = FirstPte;
LastPte = FirstPte + PteCount;
/* Get the prototype PTEs that desribe the section mapping in the subsection */
Subsection = (PSUBSECTION)(ControlArea + 1);
ProtoPte = Subsection->SubsectionBase;
LastProtoPte = &Subsection->SubsectionBase[Subsection->PtesInSubsection];
/* Loop the PTEs for the mapping */
while (PointerPte < LastPte)
{
/* We may have run out of prototype PTEs in this subsection */
if (ProtoPte >= LastProtoPte)
{
/* But we don't handle this yet */
ASSERT(FALSE);
}
/* The PTE should be completely clear */
ASSERT(PointerPte->u.Long == 0);
/* Build the prototype PTE and write it */
MI_MAKE_PROTOTYPE_PTE(&TempPte, ProtoPte);
MI_WRITE_INVALID_PTE(PointerPte, TempPte);
/* Keep going */
PointerPte++;
ProtoPte++;
}
/* No failure path */
return STATUS_SUCCESS;
}
VOID
NTAPI
MiFillSystemPageDirectory(IN PVOID Base,
IN SIZE_T NumberOfBytes)
{
PMMPDE PointerPde, LastPde, SystemMapPde;
MMPDE TempPde;
PFN_NUMBER PageFrameIndex, ParentPage;
KIRQL OldIrql;
PAGED_CODE();
/* Find the PDEs needed for this mapping */
PointerPde = MiAddressToPde(Base);
LastPde = MiAddressToPde((PVOID)((ULONG_PTR)Base + NumberOfBytes - 1));
#if (_MI_PAGING_LEVELS == 2)
/* Find the system double-mapped PDE that describes this mapping */
SystemMapPde = &MmSystemPagePtes[((ULONG_PTR)PointerPde & (SYSTEM_PD_SIZE - 1)) / sizeof(MMPTE)];
#else
/* We don't have a double mapping */
SystemMapPde = PointerPde;
#endif
/* Use the PDE template and loop the PDEs */
TempPde = ValidKernelPde;
while (PointerPde <= LastPde)
{
/* Lock the PFN database */
OldIrql = MiAcquirePfnLock();
/* Check if we don't already have this PDE mapped */
if (SystemMapPde->u.Hard.Valid == 0)
{
/* Grab a page for it */
MI_SET_USAGE(MI_USAGE_PAGE_TABLE);
MI_SET_PROCESS2(PsGetCurrentProcess()->ImageFileName);
PageFrameIndex = MiRemoveZeroPage(MI_GET_NEXT_COLOR());
ASSERT(PageFrameIndex);
TempPde.u.Hard.PageFrameNumber = PageFrameIndex;
#if (_MI_PAGING_LEVELS == 2)
ParentPage = MmSystemPageDirectory[(PointerPde - MiAddressToPde(NULL)) / PDE_PER_PAGE];
#else
ParentPage = MiPdeToPpe(PointerPde)->u.Hard.PageFrameNumber;
#endif
/* Initialize its PFN entry, with the parent system page directory page table */
MiInitializePfnForOtherProcess(PageFrameIndex,
(PMMPTE)PointerPde,
ParentPage);
/* Make the system PDE entry valid */
MI_WRITE_VALID_PDE(SystemMapPde, TempPde);
/* The system PDE entry might be the PDE itself, so check for this */
if (PointerPde->u.Hard.Valid == 0)
{
/* It's different, so make the real PDE valid too */
MI_WRITE_VALID_PDE(PointerPde, TempPde);
}
}
/* Release the lock and keep going with the next PDE */
MiReleasePfnLock(OldIrql);
SystemMapPde++;
PointerPde++;
}
}
NTSTATUS
NTAPI
MiCheckPurgeAndUpMapCount(IN PCONTROL_AREA ControlArea,
IN BOOLEAN FailIfSystemViews)
{
KIRQL OldIrql;
/* Flag not yet supported */
ASSERT(FailIfSystemViews == FALSE);
/* Lock the PFN database */
OldIrql = MiAcquirePfnLock();
/* State not yet supported */
ASSERT(ControlArea->u.Flags.BeingPurged == 0);
/* Increase the reference counts */
ControlArea->NumberOfMappedViews++;
ControlArea->NumberOfUserReferences++;
ASSERT(ControlArea->NumberOfSectionReferences != 0);
/* Release the PFN lock and return success */
MiReleasePfnLock(OldIrql);
return STATUS_SUCCESS;
}
PSUBSECTION
NTAPI
MiLocateSubsection(IN PMMVAD Vad,
IN ULONG_PTR Vpn)
{
PSUBSECTION Subsection;
PCONTROL_AREA ControlArea;
ULONG_PTR PteOffset;
/* Get the control area */
ControlArea = Vad->ControlArea;
ASSERT(ControlArea->u.Flags.Rom == 0);
ASSERT(ControlArea->u.Flags.Image == 0);
ASSERT(ControlArea->u.Flags.GlobalOnlyPerSession == 0);
/* Get the subsection */
Subsection = (PSUBSECTION)(ControlArea + 1);
/* We only support single-subsection segments */
ASSERT(Subsection->SubsectionBase != NULL);
ASSERT(Vad->FirstPrototypePte >= Subsection->SubsectionBase);
ASSERT(Vad->FirstPrototypePte < &Subsection->SubsectionBase[Subsection->PtesInSubsection]);
/* Compute the PTE offset */
PteOffset = Vpn - Vad->StartingVpn;
PteOffset += Vad->FirstPrototypePte - Subsection->SubsectionBase;
/* Again, we only support single-subsection segments */
ASSERT(PteOffset < 0xF0000000);
ASSERT(PteOffset < Subsection->PtesInSubsection);
/* Return the subsection */
return Subsection;
}
VOID
NTAPI
MiSegmentDelete(IN PSEGMENT Segment)
{
PCONTROL_AREA ControlArea;
SEGMENT_FLAGS SegmentFlags;
PSUBSECTION Subsection;
PMMPTE PointerPte, LastPte, PteForProto;
PMMPFN Pfn1;
PFN_NUMBER PageFrameIndex;
MMPTE TempPte;
KIRQL OldIrql;
/* Capture data */
SegmentFlags = Segment->SegmentFlags;
ControlArea = Segment->ControlArea;
/* Make sure control area is on the right delete path */
ASSERT(ControlArea->u.Flags.BeingDeleted == 1);
ASSERT(ControlArea->WritableUserReferences == 0);
/* These things are not supported yet */
ASSERT(ControlArea->DereferenceList.Flink == NULL);
ASSERT(!(ControlArea->u.Flags.Image) && !(ControlArea->u.Flags.File));
ASSERT(ControlArea->u.Flags.GlobalOnlyPerSession == 0);
ASSERT(ControlArea->u.Flags.Rom == 0);
/* Get the subsection and PTEs for this segment */
Subsection = (PSUBSECTION)(ControlArea + 1);
PointerPte = Subsection->SubsectionBase;
LastPte = PointerPte + Segment->NonExtendedPtes;
/* Lock the PFN database */
OldIrql = MiAcquirePfnLock();
/* Check if the master PTE is invalid */
PteForProto = MiAddressToPte(PointerPte);
if (!PteForProto->u.Hard.Valid)
{
/* Fault it in */
MiMakeSystemAddressValidPfn(PointerPte, OldIrql);
}
/* Loop all the segment PTEs */
while (PointerPte < LastPte)
{
/* Check if it's time to switch master PTEs if we passed a PDE boundary */
if (MiIsPteOnPdeBoundary(PointerPte) &&
(PointerPte != Subsection->SubsectionBase))
{
/* Check if the master PTE is invalid */
PteForProto = MiAddressToPte(PointerPte);
if (!PteForProto->u.Hard.Valid)
{
/* Fault it in */
MiMakeSystemAddressValidPfn(PointerPte, OldIrql);
}
}
/* This should be a prototype PTE */
TempPte = *PointerPte;
ASSERT(SegmentFlags.LargePages == 0);
ASSERT(TempPte.u.Hard.Valid == 0);
/* See if we should clean things up */
if (!(ControlArea->u.Flags.Image) && !(ControlArea->u.Flags.File))
{
/*
* This is a section backed by the pagefile. Now that it doesn't exist anymore,
* we can give everything back to the system.
*/
ASSERT(TempPte.u.Soft.Prototype == 0);
if (TempPte.u.Soft.Transition == 1)
{
/* We can give the page back for other use */
DPRINT("Releasing page for transition PTE %p\n", PointerPte);
PageFrameIndex = PFN_FROM_PTE(&TempPte);
Pfn1 = MI_PFN_ELEMENT(PageFrameIndex);
/* As this is a paged-backed section, nobody should reference it anymore (no cache or whatever) */
ASSERT(Pfn1->u3.ReferenceCount == 0);
/* And it should be in standby or modified list */
ASSERT((Pfn1->u3.e1.PageLocation == ModifiedPageList) || (Pfn1->u3.e1.PageLocation == StandbyPageList));
/* Unlink it and put it back in free list */
MiUnlinkPageFromList(Pfn1);
/* Temporarily mark this as active and make it free again */
Pfn1->u3.e1.PageLocation = ActiveAndValid;
MI_SET_PFN_DELETED(Pfn1);
MiInsertPageInFreeList(PageFrameIndex);
}
else if (TempPte.u.Soft.PageFileHigh != 0)
{
/* Should not happen for now */
ASSERT(FALSE);
}
}
else
{
/* unsupported for now */
ASSERT(FALSE);
/* File-backed section must have prototype PTEs */
ASSERT(TempPte.u.Soft.Prototype == 1);
}
/* Zero the PTE and keep going */
PointerPte->u.Long = 0;
PointerPte++;
}
/* Release the PFN lock */
MiReleasePfnLock(OldIrql);
/* Free the structures */
ExFreePool(ControlArea);
ExFreePool(Segment);
}
VOID
NTAPI
MiCheckControlArea(IN PCONTROL_AREA ControlArea,
IN KIRQL OldIrql)
{
BOOLEAN DeleteSegment = FALSE;
MI_ASSERT_PFN_LOCK_HELD();
/* Check if this is the last reference or view */
if (!(ControlArea->NumberOfMappedViews) &&
!(ControlArea->NumberOfSectionReferences))
{
/* There should be no more user references either */
ASSERT(ControlArea->NumberOfUserReferences == 0);
/* Not yet supported */
ASSERT(ControlArea->FilePointer == NULL);
/* The control area is being destroyed */
ControlArea->u.Flags.BeingDeleted = TRUE;
DeleteSegment = TRUE;
}
/* Release the PFN lock */
MiReleasePfnLock(OldIrql);
/* Delete the segment if needed */
if (DeleteSegment)
{
/* No more user write references at all */
ASSERT(ControlArea->WritableUserReferences == 0);
MiSegmentDelete(ControlArea->Segment);
}
}
VOID
NTAPI
MiDereferenceControlArea(IN PCONTROL_AREA ControlArea)
{
KIRQL OldIrql;
/* Lock the PFN database */
OldIrql = MiAcquirePfnLock();
/* Drop reference counts */
ControlArea->NumberOfMappedViews--;
ControlArea->NumberOfUserReferences--;
/* Check if it's time to delete the CA. This releases the lock */
MiCheckControlArea(ControlArea, OldIrql);
}
VOID
NTAPI
MiRemoveMappedView(IN PEPROCESS CurrentProcess,
IN PMMVAD Vad)
{
KIRQL OldIrql;
PCONTROL_AREA ControlArea;
PETHREAD CurrentThread = PsGetCurrentThread();
/* Get the control area */
ControlArea = Vad->ControlArea;
/* We only support non-extendable, non-image, pagefile-backed regular sections */
ASSERT(Vad->u.VadFlags.VadType == VadNone);
ASSERT(Vad->u2.VadFlags2.ExtendableFile == FALSE);
ASSERT(ControlArea);
ASSERT(ControlArea->FilePointer == NULL);
/* Delete the actual virtual memory pages */
MiDeleteVirtualAddresses(Vad->StartingVpn << PAGE_SHIFT,
(Vad->EndingVpn << PAGE_SHIFT) | (PAGE_SIZE - 1),
Vad);
/* Release the working set */
MiUnlockProcessWorkingSetUnsafe(CurrentProcess, CurrentThread);
/* Lock the PFN database */
OldIrql = MiAcquirePfnLock();
/* Remove references */
ControlArea->NumberOfMappedViews--;
ControlArea->NumberOfUserReferences--;
/* Check if it should be destroyed */
MiCheckControlArea(ControlArea, OldIrql);
}
NTSTATUS
NTAPI
MiUnmapViewOfSection(IN PEPROCESS Process,
IN PVOID BaseAddress,
IN ULONG Flags)
{
PMEMORY_AREA MemoryArea;
BOOLEAN Attached = FALSE;
KAPC_STATE ApcState;
PMMVAD Vad;
PVOID DbgBase = NULL;
SIZE_T RegionSize;
NTSTATUS Status;
PETHREAD CurrentThread = PsGetCurrentThread();
PEPROCESS CurrentProcess = PsGetCurrentProcess();
PAGED_CODE();
/* Check if we need to lock the address space */
if (!Flags) MmLockAddressSpace(&Process->Vm);
/* Check for Mm Region */
MemoryArea = MmLocateMemoryAreaByAddress(&Process->Vm, BaseAddress);
if ((MemoryArea) && (MemoryArea->Type != MEMORY_AREA_OWNED_BY_ARM3))
{
/* Call Mm API */
NTSTATUS Status = MiRosUnmapViewOfSection(Process, BaseAddress, Process->ProcessExiting);
if (!Flags) MmUnlockAddressSpace(&Process->Vm);
return Status;
}
/* Check if we should attach to the process */
if (CurrentProcess != Process)
{
/* The process is different, do an attach */
KeStackAttachProcess(&Process->Pcb, &ApcState);
Attached = TRUE;
}
/* Check if the process is already dead */
if (Process->VmDeleted)
{
/* Fail the call */
DPRINT1("Process died!\n");
if (!Flags) MmUnlockAddressSpace(&Process->Vm);
Status = STATUS_PROCESS_IS_TERMINATING;
goto Quickie;
}
/* Find the VAD for the address and make sure it's a section VAD */
Vad = MiLocateAddress(BaseAddress);
if (!(Vad) || (Vad->u.VadFlags.PrivateMemory))
{
/* Couldn't find it, or invalid VAD, fail */
DPRINT1("No VAD or invalid VAD\n");
if (!Flags) MmUnlockAddressSpace(&Process->Vm);
Status = STATUS_NOT_MAPPED_VIEW;
goto Quickie;
}
/* We should be attached */
ASSERT(Process == PsGetCurrentProcess());
/* We need the base address for the debugger message on image-backed VADs */
if (Vad->u.VadFlags.VadType == VadImageMap)
{
DbgBase = (PVOID)(Vad->StartingVpn >> PAGE_SHIFT);
}
/* Compute the size of the VAD region */
RegionSize = PAGE_SIZE + ((Vad->EndingVpn - Vad->StartingVpn) << PAGE_SHIFT);
/* For SEC_NO_CHANGE sections, we need some extra checks */
if (Vad->u.VadFlags.NoChange == 1)
{
/* Are we allowed to mess with this VAD? */
Status = MiCheckSecuredVad(Vad,
(PVOID)(Vad->StartingVpn >> PAGE_SHIFT),
RegionSize,
MM_DELETE_CHECK);
if (!NT_SUCCESS(Status))
{
/* We failed */
DPRINT1("Trying to unmap protected VAD!\n");
if (!Flags) MmUnlockAddressSpace(&Process->Vm);
goto Quickie;
}
}
/* Not currently supported */
ASSERT(Vad->u.VadFlags.VadType != VadRotatePhysical);
/* FIXME: Remove VAD charges */
/* Lock the working set */
MiLockProcessWorkingSetUnsafe(Process, CurrentThread);
/* Remove the VAD */
ASSERT(Process->VadRoot.NumberGenericTableElements >= 1);
MiRemoveNode((PMMADDRESS_NODE)Vad, &Process->VadRoot);
PsReturnProcessNonPagedPoolQuota(Process, sizeof(MMVAD_LONG));
/* Remove the PTEs for this view, which also releases the working set lock */
MiRemoveMappedView(Process, Vad);
/* FIXME: Remove commitment */
/* Update performance counter and release the lock */
Process->VirtualSize -= RegionSize;
if (!Flags) MmUnlockAddressSpace(&Process->Vm);
/* Destroy the VAD and return success */
ExFreePool(Vad);
Status = STATUS_SUCCESS;
/* Failure and success case -- send debugger message, detach, and return */
Quickie:
if (DbgBase) DbgkUnMapViewOfSection(DbgBase);
if (Attached) KeUnstackDetachProcess(&ApcState);
return Status;
}
NTSTATUS
NTAPI
MiSessionCommitPageTables(IN PVOID StartVa,
IN PVOID EndVa)
{
KIRQL OldIrql;
ULONG Color, Index;
PMMPDE StartPde, EndPde;
MMPDE TempPde = ValidKernelPdeLocal;
PMMPFN Pfn1;
PFN_NUMBER PageCount = 0, ActualPages = 0, PageFrameNumber;
/* Windows sanity checks */
ASSERT(StartVa >= (PVOID)MmSessionBase);
ASSERT(EndVa < (PVOID)MiSessionSpaceEnd);
ASSERT(PAGE_ALIGN(EndVa) == EndVa);
/* Get the start and end PDE, then loop each one */
StartPde = MiAddressToPde(StartVa);
EndPde = MiAddressToPde((PVOID)((ULONG_PTR)EndVa - 1));
Index = ((ULONG_PTR)StartVa - (ULONG_PTR)MmSessionBase) >> 22;
while (StartPde <= EndPde)
{
#ifndef _M_AMD64
/* If we don't already have a page table for it, increment count */
if (MmSessionSpace->PageTables[Index].u.Long == 0) PageCount++;
#endif
/* Move to the next one */
StartPde++;
Index++;
}
/* If there's no page tables to create, bail out */
if (PageCount == 0) return STATUS_SUCCESS;
/* Reset the start PDE and index */
StartPde = MiAddressToPde(StartVa);
Index = ((ULONG_PTR)StartVa - (ULONG_PTR)MmSessionBase) >> 22;
/* Loop each PDE while holding the working set lock */
// MiLockWorkingSet(PsGetCurrentThread(),
// &MmSessionSpace->GlobalVirtualAddress->Vm);
#ifdef _M_AMD64
_WARN("MiSessionCommitPageTables halfplemented for amd64")
DBG_UNREFERENCED_LOCAL_VARIABLE(OldIrql);
DBG_UNREFERENCED_LOCAL_VARIABLE(Color);
DBG_UNREFERENCED_LOCAL_VARIABLE(TempPde);
DBG_UNREFERENCED_LOCAL_VARIABLE(Pfn1);
DBG_UNREFERENCED_LOCAL_VARIABLE(PageFrameNumber);
ASSERT(FALSE);
#else
while (StartPde <= EndPde)
{
/* Check if we already have a page table */
if (MmSessionSpace->PageTables[Index].u.Long == 0)
{
/* We don't, so the PDE shouldn't be ready yet */
ASSERT(StartPde->u.Hard.Valid == 0);
/* ReactOS check to avoid MiEnsureAvailablePageOrWait */
ASSERT(MmAvailablePages >= 32);
/* Acquire the PFN lock and grab a zero page */
OldIrql = MiAcquirePfnLock();
MI_SET_USAGE(MI_USAGE_PAGE_TABLE);
MI_SET_PROCESS2(PsGetCurrentProcess()->ImageFileName);
Color = (++MmSessionSpace->Color) & MmSecondaryColorMask;
PageFrameNumber = MiRemoveZeroPage(Color);
TempPde.u.Hard.PageFrameNumber = PageFrameNumber;
MI_WRITE_VALID_PDE(StartPde, TempPde);
/* Write the page table in session space structure */
ASSERT(MmSessionSpace->PageTables[Index].u.Long == 0);
MmSessionSpace->PageTables[Index] = TempPde;
/* Initialize the PFN */
MiInitializePfnForOtherProcess(PageFrameNumber,
StartPde,
MmSessionSpace->SessionPageDirectoryIndex);
/* And now release the lock */
MiReleasePfnLock(OldIrql);
/* Get the PFN entry and make sure there's no event for it */
Pfn1 = MI_PFN_ELEMENT(PageFrameNumber);
ASSERT(Pfn1->u1.Event == NULL);
/* Increment the number of pages */
ActualPages++;
}
/* Move to the next PDE */
StartPde++;
Index++;
}
#endif
/* Make sure we didn't do more pages than expected */
ASSERT(ActualPages <= PageCount);
/* Release the working set lock */
// MiUnlockWorkingSet(PsGetCurrentThread(),
// &MmSessionSpace->GlobalVirtualAddress->Vm);
/* If we did at least one page... */
if (ActualPages)
{
/* Update the performance counters! */
InterlockedExchangeAddSizeT(&MmSessionSpace->NonPageablePages, ActualPages);
InterlockedExchangeAddSizeT(&MmSessionSpace->CommittedPages, ActualPages);
}
/* Return status */
return STATUS_SUCCESS;
}
NTSTATUS
MiMapViewInSystemSpace(
_In_ PVOID Section,
_In_ PMMSESSION Session,
_Outptr_result_bytebuffer_ (*ViewSize) PVOID *MappedBase,
_Inout_ PSIZE_T ViewSize,
_Inout_ PLARGE_INTEGER SectionOffset)
{
PVOID Base;
PCONTROL_AREA ControlArea;
ULONG Buckets;
LONGLONG SectionSize;
NTSTATUS Status;
PAGED_CODE();
/* Get the control area, check for any flags ARM3 doesn't yet support */
ControlArea = ((PSECTION)Section)->Segment->ControlArea;
ASSERT(ControlArea->u.Flags.Image == 0);
ASSERT(ControlArea->FilePointer == NULL);
ASSERT(ControlArea->u.Flags.GlobalOnlyPerSession == 0);
ASSERT(ControlArea->u.Flags.Rom == 0);
ASSERT(ControlArea->u.Flags.WasPurged == 0);
/* Increase the reference and map count on the control area, no purges yet */
Status = MiCheckPurgeAndUpMapCount(ControlArea, FALSE);
ASSERT(NT_SUCCESS(Status));
/* Get the section size at creation time */
SectionSize = ((PSECTION)Section)->SizeOfSection.QuadPart;
/* If the caller didn't specify a view size, assume until the end of the section */
if (!(*ViewSize))
{
/* Check for overflow first */
if ((SectionSize - SectionOffset->QuadPart) > SIZE_T_MAX)
{
DPRINT1("Section end is too far away from the specified offset.\n");
MiDereferenceControlArea(ControlArea);
return STATUS_INVALID_VIEW_SIZE;
}
*ViewSize = SectionSize - SectionOffset->QuadPart;
}
/* Check overflow */
if ((SectionOffset->QuadPart + *ViewSize) < SectionOffset->QuadPart)
{
DPRINT1("Integer overflow between size & offset!\n");
MiDereferenceControlArea(ControlArea);
return STATUS_INVALID_VIEW_SIZE;
}
/* Check if the caller wanted a larger section than the view */
if (SectionOffset->QuadPart + *ViewSize > SectionSize)
{
/* Fail */
DPRINT1("View is too large\n");
MiDereferenceControlArea(ControlArea);
return STATUS_INVALID_VIEW_SIZE;
}
/* Get the number of 64K buckets required for this mapping */
Buckets = (ULONG)(*ViewSize / MI_SYSTEM_VIEW_BUCKET_SIZE);
if (*ViewSize & (MI_SYSTEM_VIEW_BUCKET_SIZE - 1)) Buckets++;
/* Check if the view is more than 4GB large */
if (Buckets >= MI_SYSTEM_VIEW_BUCKET_SIZE)
{
/* Fail */
DPRINT1("View is too large\n");
MiDereferenceControlArea(ControlArea);
return STATUS_INVALID_VIEW_SIZE;
}
/* Insert this view into system space and get a base address for it */
Base = MiInsertInSystemSpace(Session, Buckets, ControlArea);
if (!Base)
{
/* Fail */
DPRINT1("Out of system space\n");
MiDereferenceControlArea(ControlArea);
return STATUS_NO_MEMORY;
}
/* What's the underlying session? */
if (Session == &MmSession)
{
/* Create the PDEs needed for this mapping, and double-map them if needed */
MiFillSystemPageDirectory(Base, Buckets * MI_SYSTEM_VIEW_BUCKET_SIZE);
Status = STATUS_SUCCESS;
}
else
{
/* Create the PDEs needed for this mapping */
Status = MiSessionCommitPageTables(Base,
(PVOID)((ULONG_PTR)Base +
Buckets * MI_SYSTEM_VIEW_BUCKET_SIZE));
ASSERT(NT_SUCCESS(Status));
}
/* Create the actual prototype PTEs for this mapping */
Status = MiAddMappedPtes(MiAddressToPte(Base),
BYTES_TO_PAGES(*ViewSize),
ControlArea,
SectionOffset->QuadPart);
ASSERT(NT_SUCCESS(Status));
/* Return the base address of the mapping and success */
*MappedBase = Base;
return STATUS_SUCCESS;
}
VOID
NTAPI
MiSetControlAreaSymbolsLoaded(IN PCONTROL_AREA ControlArea)
{
KIRQL OldIrql;
ASSERT(KeGetCurrentIrql() <= APC_LEVEL);
OldIrql = MiAcquirePfnLock();
ControlArea->u.Flags.DebugSymbolsLoaded |= 1;
ASSERT(OldIrql <= APC_LEVEL);
MiReleasePfnLock(OldIrql);
ASSERT(KeGetCurrentIrql() <= APC_LEVEL);
}
VOID
NTAPI
MiLoadUserSymbols(IN PCONTROL_AREA ControlArea,
IN PVOID BaseAddress,
IN PEPROCESS Process)
{
NTSTATUS Status;
ANSI_STRING FileNameA;
PLIST_ENTRY NextEntry;
PUNICODE_STRING FileName;
PIMAGE_NT_HEADERS NtHeaders;
PLDR_DATA_TABLE_ENTRY LdrEntry;
FileName = &ControlArea->FilePointer->FileName;
if (FileName->Length == 0)
{
return;
}
/* Acquire module list lock */
KeEnterCriticalRegion();
ExAcquireResourceExclusiveLite(&PsLoadedModuleResource, TRUE);
/* Browse list to try to find current module */
for (NextEntry = MmLoadedUserImageList.Flink;
NextEntry != &MmLoadedUserImageList;
NextEntry = NextEntry->Flink)
{
/* Get the entry */
LdrEntry = CONTAINING_RECORD(NextEntry,
LDR_DATA_TABLE_ENTRY,
InLoadOrderLinks);
/* If already in the list, increase load count */
if (LdrEntry->DllBase == BaseAddress)
{
++LdrEntry->LoadCount;
break;
}
}
/* Not in the list, we'll add it */
if (NextEntry == &MmLoadedUserImageList)
{
/* Allocate our element, taking to the name string and its null char */
LdrEntry = ExAllocatePoolWithTag(NonPagedPool, FileName->Length + sizeof(UNICODE_NULL) + sizeof(*LdrEntry), 'bDmM');
if (LdrEntry)
{
memset(LdrEntry, 0, FileName->Length + sizeof(UNICODE_NULL) + sizeof(*LdrEntry));
_SEH2_TRY
{
/* Get image checksum and size */
NtHeaders = RtlImageNtHeader(BaseAddress);
if (NtHeaders)
{
LdrEntry->SizeOfImage = NtHeaders->OptionalHeader.SizeOfImage;
LdrEntry->CheckSum = NtHeaders->OptionalHeader.CheckSum;
}
}
_SEH2_EXCEPT(EXCEPTION_EXECUTE_HANDLER)
{
ExFreePoolWithTag(LdrEntry, 'bDmM');
ExReleaseResourceLite(&PsLoadedModuleResource);
KeLeaveCriticalRegion();
_SEH2_YIELD(return);
}
_SEH2_END;
/* Fill all the details */
LdrEntry->DllBase = BaseAddress;
LdrEntry->FullDllName.Buffer = (PVOID)((ULONG_PTR)LdrEntry + sizeof(*LdrEntry));
LdrEntry->FullDllName.Length = FileName->Length;
LdrEntry->FullDllName.MaximumLength = FileName->Length + sizeof(UNICODE_NULL);
memcpy(LdrEntry->FullDllName.Buffer, FileName->Buffer, FileName->Length);
LdrEntry->FullDllName.Buffer[LdrEntry->FullDllName.Length / sizeof(WCHAR)] = UNICODE_NULL;
LdrEntry->LoadCount = 1;
/* Insert! */
InsertHeadList(&MmLoadedUserImageList, &LdrEntry->InLoadOrderLinks);
}
}
/* Release locks */
ExReleaseResourceLite(&PsLoadedModuleResource);
KeLeaveCriticalRegion();
/* Load symbols */
Status = RtlUnicodeStringToAnsiString(&FileNameA, FileName, TRUE);
if (NT_SUCCESS(Status))
{
DbgLoadImageSymbols(&FileNameA, BaseAddress, (ULONG_PTR)Process->UniqueProcessId);
RtlFreeAnsiString(&FileNameA);
}
}
NTSTATUS
NTAPI
MiMapViewOfDataSection(IN PCONTROL_AREA ControlArea,
IN PEPROCESS Process,
IN PVOID *BaseAddress,
IN PLARGE_INTEGER SectionOffset,
IN PSIZE_T ViewSize,
IN PSECTION Section,
IN SECTION_INHERIT InheritDisposition,
IN ULONG ProtectionMask,
IN SIZE_T CommitSize,
IN ULONG_PTR ZeroBits,
IN ULONG AllocationType)
{
PMMVAD_LONG Vad;
ULONG_PTR StartAddress;
ULONG_PTR ViewSizeInPages;
PSUBSECTION Subsection;
PSEGMENT Segment;
PFN_NUMBER PteOffset;
NTSTATUS Status;
ULONG QuotaCharge = 0, QuotaExcess = 0;
PMMPTE PointerPte, LastPte;
MMPTE TempPte;
ULONG Granularity = MM_VIRTMEM_GRANULARITY;
DPRINT("Mapping ARM3 data section\n");
/* Get the segment for this section */
Segment = ControlArea->Segment;
#ifdef _M_IX86
/* ALlow being less restrictive on x86. */
if (AllocationType & MEM_DOS_LIM)
Granularity = PAGE_SIZE;
#endif
/* One can only reserve a file-based mapping, not shared memory! */
if ((AllocationType & MEM_RESERVE) && !(ControlArea->FilePointer))
{
return STATUS_INVALID_PARAMETER_9;
}
/* First, increase the map count. No purging is supported yet */
Status = MiCheckPurgeAndUpMapCount(ControlArea, FALSE);
if (!NT_SUCCESS(Status)) return Status;
/* Check if the caller specified the view size */
if (!(*ViewSize))
{
LONGLONG ViewSizeLL;
/* The caller did not, so pick a 64K aligned view size based on the offset */
SectionOffset->LowPart &= ~(_64K - 1);
/* Calculate size and make sure this fits */
if (!NT_SUCCESS(RtlLongLongSub(Section->SizeOfSection.QuadPart, SectionOffset->QuadPart, &ViewSizeLL))
|| !NT_SUCCESS(RtlLongLongToSIZET(ViewSizeLL, ViewSize))
|| (*ViewSize > MAXLONG_PTR))
{
MiDereferenceControlArea(ControlArea);
return STATUS_INVALID_VIEW_SIZE;
}
}
else
{
/* A size was specified, align it to a 64K boundary
* and check for overflow or huge value. */
if (!NT_SUCCESS(RtlSIZETAdd(*ViewSize, SectionOffset->LowPart & (_64K - 1), ViewSize))
|| (*ViewSize > MAXLONG_PTR))
{
MiDereferenceControlArea(ControlArea);
return STATUS_INVALID_VIEW_SIZE;
}
/* Align the offset as well to make this an aligned map */
SectionOffset->LowPart &= ~((ULONG)_64K - 1);
}
/* We must be dealing with a 64KB aligned offset. This is a Windows ASSERT */
ASSERT((SectionOffset->LowPart & ((ULONG)_64K - 1)) == 0);
/* Windows ASSERTs for this flag */
ASSERT(ControlArea->u.Flags.GlobalOnlyPerSession == 0);
/* Get the subsection. We don't support LARGE_CONTROL_AREA in ARM3 */
ASSERT(ControlArea->u.Flags.Rom == 0);
Subsection = (PSUBSECTION)(ControlArea + 1);
/* Sections with extended segments are not supported in ARM3 */
ASSERT(Segment->SegmentFlags.TotalNumberOfPtes4132 == 0);
/* Within this section, figure out which PTEs will describe the view */
PteOffset = (PFN_NUMBER)(SectionOffset->QuadPart >> PAGE_SHIFT);
/* The offset must be in this segment's PTE chunk and it must be valid. Windows ASSERTs */
ASSERT(PteOffset < Segment->TotalNumberOfPtes);
ASSERT(((SectionOffset->QuadPart + *ViewSize + PAGE_SIZE - 1) >> PAGE_SHIFT) >= PteOffset);
/* In ARM3, only one subsection is used for now. It must contain these PTEs */
ASSERT(PteOffset < Subsection->PtesInSubsection);
/* In ARM3, only page-file backed sections (shared memory) are supported now */
ASSERT(ControlArea->FilePointer == NULL);
/* Windows ASSERTs for this too -- there must be a subsection base address */
ASSERT(Subsection->SubsectionBase != NULL);
/* Compute how much commit space the segment will take */
if ((CommitSize) && (Segment->NumberOfCommittedPages < Segment->TotalNumberOfPtes))
{
/* Charge for the maximum pages */
QuotaCharge = BYTES_TO_PAGES(CommitSize);
}
/* ARM3 does not currently support large pages */
ASSERT(Segment->SegmentFlags.LargePages == 0);
/* Calculate how many pages the region spans */
ViewSizeInPages = BYTES_TO_PAGES(*ViewSize);
/* A VAD can now be allocated. Do so and zero it out */
/* FIXME: we are allocating a LONG VAD for ReactOS compatibility only */
ASSERT((AllocationType & MEM_RESERVE) == 0); /* ARM3 does not support this */
Vad = ExAllocatePoolWithTag(NonPagedPool, sizeof(MMVAD_LONG), 'ldaV');
if (!Vad)
{
MiDereferenceControlArea(ControlArea);
return STATUS_INSUFFICIENT_RESOURCES;
}
RtlZeroMemory(Vad, sizeof(MMVAD_LONG));
Vad->u4.Banked = (PVOID)(ULONG_PTR)0xDEADBABEDEADBABEULL;
/* Write all the data required in the VAD for handling a fault */
Vad->ControlArea = ControlArea;
Vad->u.VadFlags.CommitCharge = 0;
Vad->u.VadFlags.Protection = ProtectionMask;
Vad->u2.VadFlags2.FileOffset = (ULONG)(SectionOffset->QuadPart >> 16);
Vad->u2.VadFlags2.Inherit = (InheritDisposition == ViewShare);
if ((AllocationType & SEC_NO_CHANGE) || (Section->u.Flags.NoChange))
{
/* This isn't really implemented yet, but handle setting the flag */
Vad->u.VadFlags.NoChange = 1;
Vad->u2.VadFlags2.SecNoChange = 1;
}
/* Finally, write down the first and last prototype PTE */
Vad->FirstPrototypePte = &Subsection->SubsectionBase[PteOffset];
PteOffset += ViewSizeInPages - 1;
ASSERT(PteOffset < Subsection->PtesInSubsection);
Vad->LastContiguousPte = &Subsection->SubsectionBase[PteOffset];
/* Make sure the prototype PTE ranges make sense, this is a Windows ASSERT */
ASSERT(Vad->FirstPrototypePte <= Vad->LastContiguousPte);
/* FIXME: Should setup VAD bitmap */
Status = STATUS_SUCCESS;
/* Check if anything was committed */
if (QuotaCharge)
{
/* Set the start and end PTE addresses, and pick the template PTE */
PointerPte = Vad->FirstPrototypePte;
LastPte = PointerPte + BYTES_TO_PAGES(CommitSize);
TempPte = Segment->SegmentPteTemplate;
/* Acquire the commit lock and loop all prototype PTEs to be committed */
KeAcquireGuardedMutex(&MmSectionCommitMutex);
while (PointerPte < LastPte)
{
/* Make sure the PTE is already invalid */
if (PointerPte->u.Long == 0)
{
/* And write the invalid PTE */
MI_WRITE_INVALID_PTE(PointerPte, TempPte);
}
else
{
/* The PTE is valid, so skip it */
QuotaExcess++;
}
/* Move to the next PTE */
PointerPte++;
}
/* Now check how many pages exactly we committed, and update accounting */
ASSERT(QuotaCharge >= QuotaExcess);
QuotaCharge -= QuotaExcess;
Segment->NumberOfCommittedPages += QuotaCharge;
ASSERT(Segment->NumberOfCommittedPages <= Segment->TotalNumberOfPtes);
/* Now that we're done, release the lock */
KeReleaseGuardedMutex(&MmSectionCommitMutex);
}
/* Is it SEC_BASED, or did the caller manually specify an address? */
if (*BaseAddress != NULL)
{
/* Just align what the caller gave us */
StartAddress = ALIGN_DOWN_BY((ULONG_PTR)*BaseAddress, Granularity);
}
else if (Section->Address.StartingVpn != 0)
{
/* It is a SEC_BASED mapping, use the address that was generated */
StartAddress = Section->Address.StartingVpn + SectionOffset->LowPart;
}
else
{
StartAddress = 0;
}
Status = PsChargeProcessNonPagedPoolQuota(Process, sizeof(MMVAD_LONG));
if (!NT_SUCCESS(Status))
{
ExFreePoolWithTag(Vad, 'ldaV');
MiDereferenceControlArea(ControlArea);
KeAcquireGuardedMutex(&MmSectionCommitMutex);
Segment->NumberOfCommittedPages -= QuotaCharge;
KeReleaseGuardedMutex(&MmSectionCommitMutex);
return Status;
}
/* Insert the VAD */
Status = MiInsertVadEx((PMMVAD)Vad,
&StartAddress,
ViewSizeInPages * PAGE_SIZE,
MAXULONG_PTR >> ZeroBits,
Granularity,
AllocationType);
if (!NT_SUCCESS(Status))
{
ExFreePoolWithTag(Vad, 'ldaV');
MiDereferenceControlArea(ControlArea);
KeAcquireGuardedMutex(&MmSectionCommitMutex);
Segment->NumberOfCommittedPages -= QuotaCharge;
KeReleaseGuardedMutex(&MmSectionCommitMutex);
PsReturnProcessNonPagedPoolQuota(PsGetCurrentProcess(), sizeof(MMVAD_LONG));
return Status;
}
/* Windows stores this for accounting purposes, do so as well */
if (!Segment->u2.FirstMappedVa) Segment->u2.FirstMappedVa = (PVOID)StartAddress;
/* Finally, let the caller know where, and for what size, the view was mapped */
*ViewSize = ViewSizeInPages * PAGE_SIZE;
*BaseAddress = (PVOID)StartAddress;
DPRINT("Start and region: 0x%p, 0x%p\n", *BaseAddress, *ViewSize);
return STATUS_SUCCESS;
}
VOID
NTAPI
MiSubsectionConsistent(IN PSUBSECTION Subsection)
{
/* ReactOS only supports systems with 4K pages and 4K sectors */
ASSERT(Subsection->u.SubsectionFlags.SectorEndOffset == 0);
/* Therefore, then number of PTEs should be equal to the number of sectors */
if (Subsection->NumberOfFullSectors != Subsection->PtesInSubsection)
{
/* Break and warn if this is inconsistent */
DPRINT1("Mm: Subsection inconsistent (%x vs %x)\n",
Subsection->NumberOfFullSectors, Subsection->PtesInSubsection);
DbgBreakPoint();
}
}
NTSTATUS
NTAPI
MiCreateDataFileMap(IN PFILE_OBJECT File,
OUT PSEGMENT *Segment,
IN PSIZE_T MaximumSize,
IN ULONG SectionPageProtection,
IN ULONG AllocationAttributes,
IN ULONG IgnoreFileSizing)
{
/* Not yet implemented */
ASSERT(FALSE);
*Segment = NULL;
return STATUS_NOT_IMPLEMENTED;
}
static
NTSTATUS
NTAPI
MiCreatePagingFileMap(OUT PSEGMENT *Segment,
IN PLARGE_INTEGER MaximumSize,
IN ULONG ProtectionMask,
IN ULONG AllocationAttributes)
{
ULONGLONG SizeLimit;
PFN_COUNT PteCount;
PMMPTE PointerPte;
MMPTE TempPte;
PCONTROL_AREA ControlArea;
PSEGMENT NewSegment;
PSUBSECTION Subsection;
PAGED_CODE();
/* No large pages in ARM3 yet */
ASSERT((AllocationAttributes & SEC_LARGE_PAGES) == 0);
/* Pagefile-backed sections need a known size */
if (!MaximumSize || !MaximumSize->QuadPart || MaximumSize->QuadPart < 0)
return STATUS_INVALID_PARAMETER_4;
/* Calculate the maximum size possible, given the Prototype PTEs we'll need */
SizeLimit = MmSizeOfPagedPoolInBytes - sizeof(SEGMENT);
SizeLimit /= sizeof(MMPTE);
SizeLimit <<= PAGE_SHIFT;
/* Fail if this size is too big */
if (MaximumSize->QuadPart > SizeLimit)
{
return STATUS_SECTION_TOO_BIG;
}
/* Calculate how many Prototype PTEs will be needed */
PteCount = (PFN_COUNT)((MaximumSize->QuadPart + PAGE_SIZE - 1) >> PAGE_SHIFT);
/* For commited memory, we must have a valid protection mask */
if (AllocationAttributes & SEC_COMMIT) ASSERT(ProtectionMask != 0);
/* The segment contains all the Prototype PTEs, allocate it in paged pool */
NewSegment = ExAllocatePoolWithTag(PagedPool,
sizeof(SEGMENT) +
sizeof(MMPTE) * (PteCount - 1),
'tSmM');
if (!NewSegment)
{
return STATUS_INSUFFICIENT_RESOURCES;
}
*Segment = NewSegment;
/* Now allocate the control area, which has the subsection structure */
ControlArea = ExAllocatePoolWithTag(NonPagedPool,
sizeof(CONTROL_AREA) + sizeof(SUBSECTION),
'tCmM');
if (!ControlArea)
{
ExFreePoolWithTag(Segment, 'tSmM');
return STATUS_INSUFFICIENT_RESOURCES;
}
/* And zero it out, filling the basic segmnet pointer and reference fields */
RtlZeroMemory(ControlArea, sizeof(CONTROL_AREA) + sizeof(SUBSECTION));
ControlArea->Segment = NewSegment;
ControlArea->NumberOfSectionReferences = 1;
ControlArea->NumberOfUserReferences = 1;
/* Convert allocation attributes to control area flags */
if (AllocationAttributes & SEC_BASED) ControlArea->u.Flags.Based = 1;
if (AllocationAttributes & SEC_RESERVE) ControlArea->u.Flags.Reserve = 1;
if (AllocationAttributes & SEC_COMMIT) ControlArea->u.Flags.Commit = 1;
/* We just allocated it */
ControlArea->u.Flags.BeingCreated = 1;
/* The subsection follows, write the mask, PTE count and point back to the CA */
Subsection = (PSUBSECTION)(ControlArea + 1);
Subsection->ControlArea = ControlArea;
Subsection->PtesInSubsection = PteCount;
Subsection->u.SubsectionFlags.Protection = ProtectionMask;
/* Zero out the segment's prototype PTEs, and link it with the control area */
PointerPte = &NewSegment->ThePtes[0];
RtlZeroMemory(NewSegment, sizeof(SEGMENT));
NewSegment->PrototypePte = PointerPte;
NewSegment->ControlArea = ControlArea;
/* Save some extra accounting data for the segment as well */
NewSegment->u1.CreatingProcess = PsGetCurrentProcess();
NewSegment->SizeOfSegment = ((ULONGLONG)PteCount) * PAGE_SIZE;
NewSegment->TotalNumberOfPtes = PteCount;
NewSegment->NonExtendedPtes = PteCount;
/* The subsection's base address is the first Prototype PTE in the segment */
Subsection->SubsectionBase = PointerPte;
/* Start with an empty PTE, unless this is a commit operation */
TempPte.u.Long = 0;
if (AllocationAttributes & SEC_COMMIT)
{
/* In which case, write down the protection mask in the Prototype PTEs */
TempPte.u.Soft.Protection = ProtectionMask;
/* For accounting, also mark these pages as being committed */
NewSegment->NumberOfCommittedPages = PteCount;
}
/* The template PTE itself for the segment should also have the mask set */
NewSegment->SegmentPteTemplate.u.Soft.Protection = ProtectionMask;
/* Write out the prototype PTEs, for now they're simply demand zero */
#ifdef _WIN64
RtlFillMemoryUlonglong(PointerPte, PteCount * sizeof(MMPTE), TempPte.u.Long);
#else
RtlFillMemoryUlong(PointerPte, PteCount * sizeof(MMPTE), TempPte.u.Long);
#endif
return STATUS_SUCCESS;
}
NTSTATUS
NTAPI
MiGetFileObjectForSectionAddress(
IN PVOID Address,
OUT PFILE_OBJECT *FileObject)
{
PMMVAD Vad;
PCONTROL_AREA ControlArea;
/* Get the VAD */
Vad = MiLocateAddress(Address);
if (Vad == NULL)
{
/* Fail, the address does not exist */
DPRINT1("Invalid address\n");
return STATUS_INVALID_ADDRESS;
}
/* Check if this is a RosMm memory area */
if (Vad->u.VadFlags.Spare != 0)
{
PMEMORY_AREA MemoryArea = (PMEMORY_AREA)Vad;
/* Check if it's a section view (RosMm section) */
if (MemoryArea->Type == MEMORY_AREA_SECTION_VIEW)
{
/* Get the section pointer to the SECTION_OBJECT */
*FileObject = MemoryArea->SectionData.Segment->FileObject;
}
else
{
#ifdef NEWCC
ASSERT(MemoryArea->Type == MEMORY_AREA_CACHE);
DPRINT1("Address is a cache section!\n");
return STATUS_SECTION_NOT_IMAGE;
#else
ASSERT(FALSE);
return STATUS_SECTION_NOT_IMAGE;
#endif
}
}
else
{
/* Make sure it's not a VM VAD */
if (Vad->u.VadFlags.PrivateMemory == 1)
{
DPRINT1("Address is not a section\n");
return STATUS_SECTION_NOT_IMAGE;
}
/* Get the control area */
ControlArea = Vad->ControlArea;
if (!(ControlArea) || !(ControlArea->u.Flags.Image))
{
DPRINT1("Address is not a section\n");
return STATUS_SECTION_NOT_IMAGE;
}
/* Get the file object */
*FileObject = ControlArea->FilePointer;
}
/* Return success */
return STATUS_SUCCESS;
}
PFILE_OBJECT
NTAPI
MmGetFileObjectForSection(IN PVOID SectionObject)
{
PSECTION Section = SectionObject;
ASSERT(KeGetCurrentIrql() == PASSIVE_LEVEL);
ASSERT(SectionObject != NULL);
/* Check if it's an ARM3, or ReactOS section */
if (MiIsRosSectionObject(SectionObject) == FALSE)
{
/* Return the file pointer stored in the control area */
return Section->Segment->ControlArea->FilePointer;
}
/* Return the file object */
return ((PMM_SECTION_SEGMENT)Section->Segment)->FileObject;
}
static
PFILE_OBJECT
MiGetFileObjectForVad(
_In_ PMMVAD Vad)
{
PCONTROL_AREA ControlArea;
PFILE_OBJECT FileObject;
/* Check if this is a RosMm memory area */
if (Vad->u.VadFlags.Spare != 0)
{
PMEMORY_AREA MemoryArea = (PMEMORY_AREA)Vad;
/* Check if it's a section view (RosMm section) */
if (MemoryArea->Type == MEMORY_AREA_SECTION_VIEW)
{
/* Get the section pointer to the SECTION_OBJECT */
FileObject = MemoryArea->SectionData.Segment->FileObject;
}
else
{
#ifdef NEWCC
ASSERT(MemoryArea->Type == MEMORY_AREA_CACHE);
DPRINT1("VAD is a cache section!\n");
#else
ASSERT(FALSE);
#endif
return NULL;
}
}
else
{
/* Make sure it's not a VM VAD */
if (Vad->u.VadFlags.PrivateMemory == 1)
{
DPRINT1("VAD is not a section\n");
return NULL;
}
/* Get the control area */
ControlArea = Vad->ControlArea;
if ((ControlArea == NULL) || !ControlArea->u.Flags.Image)
{
DPRINT1("Address is not a section\n");
return NULL;
}
/* Get the file object */
FileObject = ControlArea->FilePointer;
}
/* Return the file object */
return FileObject;
}
VOID
NTAPI
MmGetImageInformation (OUT PSECTION_IMAGE_INFORMATION ImageInformation)
{
PSECTION SectionObject;
/* Get the section object of this process*/
SectionObject = PsGetCurrentProcess()->SectionObject;
ASSERT(SectionObject != NULL);
ASSERT(MiIsRosSectionObject(SectionObject) == TRUE);
if (SectionObject->u.Flags.Image == 0)
{
RtlZeroMemory(ImageInformation, sizeof(*ImageInformation));
return;
}
/* Return the image information */
*ImageInformation = ((PMM_IMAGE_SECTION_OBJECT)SectionObject->Segment)->ImageInformation;
}
NTSTATUS
NTAPI
MmGetFileNameForFileObject(IN PFILE_OBJECT FileObject,
OUT POBJECT_NAME_INFORMATION *ModuleName)
{
POBJECT_NAME_INFORMATION ObjectNameInfo;
NTSTATUS Status;
ULONG ReturnLength;
/* Allocate memory for our structure */
ObjectNameInfo = ExAllocatePoolWithTag(PagedPool, 1024, TAG_MM);
if (!ObjectNameInfo) return STATUS_NO_MEMORY;
/* Query the name */
Status = ObQueryNameString(FileObject,
ObjectNameInfo,
1024,
&ReturnLength);
if (!NT_SUCCESS(Status))
{
/* Failed, free memory */
DPRINT1("Name query failed\n");
ExFreePoolWithTag(ObjectNameInfo, TAG_MM);
*ModuleName = NULL;
return Status;
}
/* Success */
*ModuleName = ObjectNameInfo;
return STATUS_SUCCESS;
}
NTSTATUS
NTAPI
MmGetFileNameForSection(IN PVOID Section,
OUT POBJECT_NAME_INFORMATION *ModuleName)
{
PFILE_OBJECT FileObject;
PSECTION SectionObject = Section;
/* Make sure it's an image section */
if (SectionObject->u.Flags.Image == 0)
{
/* It's not, fail */
DPRINT1("Not an image section\n");
return STATUS_SECTION_NOT_IMAGE;
}
/* Get the file object */
FileObject = MmGetFileObjectForSection(Section);
return MmGetFileNameForFileObject(FileObject, ModuleName);
}
NTSTATUS
NTAPI
MmGetFileNameForAddress(IN PVOID Address,
OUT PUNICODE_STRING ModuleName)
{
POBJECT_NAME_INFORMATION ModuleNameInformation;
PVOID AddressSpace;
NTSTATUS Status;
PMMVAD Vad;
PFILE_OBJECT FileObject = NULL;
/* Lock address space */
AddressSpace = MmGetCurrentAddressSpace();
MmLockAddressSpace(AddressSpace);
/* Get the VAD */
Vad = MiLocateAddress(Address);
if (Vad == NULL)
{
/* Fail, the address does not exist */
DPRINT1("No VAD at address %p\n", Address);
MmUnlockAddressSpace(AddressSpace);
return STATUS_INVALID_ADDRESS;
}
/* Get the file object pointer for the VAD */
FileObject = MiGetFileObjectForVad(Vad);
if (FileObject == NULL)
{
DPRINT1("Failed to get file object for Address %p\n", Address);
MmUnlockAddressSpace(AddressSpace);
return STATUS_SECTION_NOT_IMAGE;
}
/* Reference the file object */
ObReferenceObject(FileObject);
/* Unlock address space */
MmUnlockAddressSpace(AddressSpace);
/* Get the filename of the file object */
Status = MmGetFileNameForFileObject(FileObject, &ModuleNameInformation);
/* Dereference the file object */
ObDereferenceObject(FileObject);
/* Check if we were able to get the file object name */
if (NT_SUCCESS(Status))
{
/* Init modulename */
if (!RtlCreateUnicodeString(ModuleName, ModuleNameInformation->Name.Buffer))
Status = STATUS_INSUFFICIENT_RESOURCES;
/* Free temp taged buffer from MmGetFileNameForFileObject() */
ExFreePoolWithTag(ModuleNameInformation, TAG_MM);
DPRINT("Found ModuleName %wZ by address %p\n", ModuleName, Address);
}
/* Return status */
return Status;
}
NTSTATUS
NTAPI
MiQueryMemorySectionName(IN HANDLE ProcessHandle,
IN PVOID BaseAddress,
OUT PVOID MemoryInformation,
IN SIZE_T MemoryInformationLength,
OUT PSIZE_T ReturnLength)
{
PEPROCESS Process;
NTSTATUS Status;
UNICODE_STRING ModuleFileName;
PMEMORY_SECTION_NAME SectionName = NULL;
KPROCESSOR_MODE PreviousMode = ExGetPreviousMode();
Status = ObReferenceObjectByHandle(ProcessHandle,
PROCESS_QUERY_INFORMATION,
NULL,
PreviousMode,
(PVOID*)(&Process),
NULL);
if (!NT_SUCCESS(Status))
{
DPRINT("MiQueryMemorySectionName: ObReferenceObjectByHandle returned %x\n",Status);
return Status;
}
Status = MmGetFileNameForAddress(BaseAddress, &ModuleFileName);
if (NT_SUCCESS(Status))
{
SectionName = MemoryInformation;
if (PreviousMode != KernelMode)
{
_SEH2_TRY
{
RtlInitEmptyUnicodeString(&SectionName->SectionFileName,
(PWSTR)(SectionName + 1),
MemoryInformationLength - sizeof(MEMORY_SECTION_NAME));
RtlCopyUnicodeString(&SectionName->SectionFileName, &ModuleFileName);
if (ReturnLength) *ReturnLength = ModuleFileName.Length + sizeof(MEMORY_SECTION_NAME);
}
_SEH2_EXCEPT(EXCEPTION_EXECUTE_HANDLER)
{
Status = _SEH2_GetExceptionCode();
}
_SEH2_END;
}
else
{
RtlInitEmptyUnicodeString(&SectionName->SectionFileName,
(PWSTR)(SectionName + 1),
MemoryInformationLength - sizeof(MEMORY_SECTION_NAME));
RtlCopyUnicodeString(&SectionName->SectionFileName, &ModuleFileName);
if (ReturnLength) *ReturnLength = ModuleFileName.Length + sizeof(MEMORY_SECTION_NAME);
}
RtlFreeUnicodeString(&ModuleFileName);
}
ObDereferenceObject(Process);
return Status;
}
VOID
NTAPI
MiFlushTbAndCapture(IN PMMVAD FoundVad,
IN PMMPTE PointerPte,
IN ULONG ProtectionMask,
IN PMMPFN Pfn1,
IN BOOLEAN UpdateDirty)
{
MMPTE TempPte, PreviousPte;
KIRQL OldIrql;
BOOLEAN RebuildPte = FALSE;
//
// User for sanity checking later on
//
PreviousPte = *PointerPte;
//
// Build the PTE and acquire the PFN lock
//
MI_MAKE_HARDWARE_PTE_USER(&TempPte,
PointerPte,
ProtectionMask,
PreviousPte.u.Hard.PageFrameNumber);
OldIrql = MiAcquirePfnLock();
//
// We don't support I/O mappings in this path yet
//
ASSERT(Pfn1 != NULL);
ASSERT(Pfn1->u3.e1.CacheAttribute != MiWriteCombined);
//
// Make sure new protection mask doesn't get in conflict and fix it if it does
//
if (Pfn1->u3.e1.CacheAttribute == MiCached)
{
//
// This is a cached PFN
//
if (ProtectionMask & (MM_NOCACHE | MM_NOACCESS))
{
RebuildPte = TRUE;
ProtectionMask &= ~(MM_NOCACHE | MM_NOACCESS);
}
}
else if (Pfn1->u3.e1.CacheAttribute == MiNonCached)
{
//
// This is a non-cached PFN
//
if ((ProtectionMask & (MM_NOCACHE | MM_NOACCESS)) != MM_NOCACHE)
{
RebuildPte = TRUE;
ProtectionMask &= ~MM_NOACCESS;
ProtectionMask |= MM_NOCACHE;
}
}
if (RebuildPte)
{
MI_MAKE_HARDWARE_PTE_USER(&TempPte,
PointerPte,
ProtectionMask,
PreviousPte.u.Hard.PageFrameNumber);
}
//
// Write the new PTE, making sure we are only changing the bits
//
MI_UPDATE_VALID_PTE(PointerPte, TempPte);
//
// Flush the TLB
//
ASSERT(PreviousPte.u.Hard.Valid == 1);
KeFlushCurrentTb();
ASSERT(PreviousPte.u.Hard.Valid == 1);
//
// Windows updates the relevant PFN1 information, we currently don't.
//
if (UpdateDirty && PreviousPte.u.Hard.Dirty)
{
if (!Pfn1->u3.e1.Modified)
{
DPRINT1("FIXME: Mark PFN as dirty\n");
}
}
//
// Not supported in ARM3
//
ASSERT(FoundVad->u.VadFlags.VadType != VadWriteWatch);
//
// Release the PFN lock, we are done
//
MiReleasePfnLock(OldIrql);
}
//
// NOTE: This function gets a lot more complicated if we want Copy-on-Write support
//
NTSTATUS
NTAPI
MiSetProtectionOnSection(IN PEPROCESS Process,
IN PMMVAD FoundVad,
IN PVOID StartingAddress,
IN PVOID EndingAddress,
IN ULONG NewProtect,
OUT PULONG CapturedOldProtect,
IN ULONG DontCharge,
OUT PULONG Locked)
{
PMMPTE PointerPte, LastPte;
MMPTE TempPte, PteContents;
PMMPDE PointerPde;
PMMPFN Pfn1;
ULONG ProtectionMask, QuotaCharge = 0;
PETHREAD Thread = PsGetCurrentThread();
PAGED_CODE();
//
// Tell caller nothing is being locked
//
*Locked = FALSE;
//
// This function should only be used for section VADs. Windows ASSERT */
//
ASSERT(FoundVad->u.VadFlags.PrivateMemory == 0);
//
// We don't support these features in ARM3
//
ASSERT(FoundVad->u.VadFlags.VadType != VadImageMap);
ASSERT(FoundVad->u2.VadFlags2.CopyOnWrite == 0);
//
// Convert and validate the protection mask
//
ProtectionMask = MiMakeProtectionMask(NewProtect);
if (ProtectionMask == MM_INVALID_PROTECTION)
{
DPRINT1("Invalid section protect\n");
return STATUS_INVALID_PAGE_PROTECTION;
}
//
// Get the PTE and PDE for the address, as well as the final PTE
//
MiLockProcessWorkingSetUnsafe(Process, Thread);
PointerPde = MiAddressToPde(StartingAddress);
PointerPte = MiAddressToPte(StartingAddress);
LastPte = MiAddressToPte(EndingAddress);
//
// Make the PDE valid, and check the status of the first PTE
//
MiMakePdeExistAndMakeValid(PointerPde, Process, MM_NOIRQL);
if (PointerPte->u.Long)
{
//
// Not supported in ARM3
//
ASSERT(FoundVad->u.VadFlags.VadType != VadRotatePhysical);
//
// Capture the page protection and make the PDE valid
//
*CapturedOldProtect = MiGetPageProtection(PointerPte);
MiMakePdeExistAndMakeValid(PointerPde, Process, MM_NOIRQL);
}
else
{
//
// Only pagefile-backed section VADs are supported for now
//
ASSERT(FoundVad->u.VadFlags.VadType != VadImageMap);
//
// Grab the old protection from the VAD itself
//
*CapturedOldProtect = MmProtectToValue[FoundVad->u.VadFlags.Protection];
}
//
// Loop all the PTEs now
//
MiMakePdeExistAndMakeValid(PointerPde, Process, MM_NOIRQL);
while (PointerPte <= LastPte)
{
//
// Check if we've crossed a PDE boundary and make the new PDE valid too
//
if (MiIsPteOnPdeBoundary(PointerPte))
{
PointerPde = MiPteToPde(PointerPte);
MiMakePdeExistAndMakeValid(PointerPde, Process, MM_NOIRQL);
}
//
// Capture the PTE and see what we're dealing with
//
PteContents = *PointerPte;
if (PteContents.u.Long == 0)
{
//
// This used to be a zero PTE and it no longer is, so we must add a
// reference to the pagetable.
//
MiIncrementPageTableReferences(MiPteToAddress(PointerPte));
//
// Create the demand-zero prototype PTE
//
TempPte = PrototypePte;
TempPte.u.Soft.Protection = ProtectionMask;
MI_WRITE_INVALID_PTE(PointerPte, TempPte);
}
else if (PteContents.u.Hard.Valid == 1)
{
//
// Get the PFN entry
//
Pfn1 = MiGetPfnEntry(PFN_FROM_PTE(&PteContents));
//
// We don't support these yet
//
ASSERT((NewProtect & (PAGE_NOACCESS | PAGE_GUARD)) == 0);
ASSERT(Pfn1->u3.e1.PrototypePte == 0);
//
// Write the protection mask and write it with a TLB flush
//
Pfn1->OriginalPte.u.Soft.Protection = ProtectionMask;
MiFlushTbAndCapture(FoundVad,
PointerPte,
ProtectionMask,
Pfn1,
TRUE);
}
else
{
//
// We don't support these cases yet
//
ASSERT(PteContents.u.Soft.Prototype == 0);
ASSERT(PteContents.u.Soft.Transition == 0);
//
// The PTE is already demand-zero, just update the protection mask
//
PointerPte->u.Soft.Protection = ProtectionMask;
}
PointerPte++;
}
//
// Unlock the working set and update quota charges if needed, then return
//
MiUnlockProcessWorkingSetUnsafe(Process, Thread);
if ((QuotaCharge > 0) && (!DontCharge))
{
FoundVad->u.VadFlags.CommitCharge -= QuotaCharge;
Process->CommitCharge -= QuotaCharge;
}
return STATUS_SUCCESS;
}
VOID
NTAPI
MiRemoveMappedPtes(IN PVOID BaseAddress,
IN ULONG NumberOfPtes,
IN PCONTROL_AREA ControlArea,
IN PMMSUPPORT Ws)
{
PMMPTE PointerPte, ProtoPte;//, FirstPte;
PMMPDE PointerPde, SystemMapPde;
PMMPFN Pfn1, Pfn2;
MMPTE PteContents;
KIRQL OldIrql;
DPRINT("Removing mapped view at: 0x%p\n", BaseAddress);
ASSERT(Ws == NULL);
/* Get the PTE and loop each one */
PointerPte = MiAddressToPte(BaseAddress);
//FirstPte = PointerPte;
while (NumberOfPtes)
{
/* Check if the PTE is already valid */
PteContents = *PointerPte;
if (PteContents.u.Hard.Valid == 1)
{
/* Get the PFN entry */
Pfn1 = MiGetPfnEntry(PFN_FROM_PTE(&PteContents));
/* Get the PTE */
PointerPde = MiPteToPde(PointerPte);
/* Lock the PFN database and make sure this isn't a mapped file */
OldIrql = MiAcquirePfnLock();
ASSERT(((Pfn1->u3.e1.PrototypePte) && (Pfn1->OriginalPte.u.Soft.Prototype)) == 0);
/* Mark the page as modified accordingly */
if (MI_IS_PAGE_DIRTY(&PteContents))
Pfn1->u3.e1.Modified = 1;
/* Was the PDE invalid */
if (PointerPde->u.Long == 0)
{
#if (_MI_PAGING_LEVELS == 2)
/* Find the system double-mapped PDE that describes this mapping */
SystemMapPde = &MmSystemPagePtes[((ULONG_PTR)PointerPde & (SYSTEM_PD_SIZE - 1)) / sizeof(MMPTE)];
/* Make it valid */
ASSERT(SystemMapPde->u.Hard.Valid == 1);
MI_WRITE_VALID_PDE(PointerPde, *SystemMapPde);
#else
DBG_UNREFERENCED_LOCAL_VARIABLE(SystemMapPde);
ASSERT(FALSE);
#endif
}
/* Dereference the PDE and the PTE */
Pfn2 = MiGetPfnEntry(PFN_FROM_PTE(PointerPde));
MiDecrementShareCount(Pfn2, PFN_FROM_PTE(PointerPde));
DBG_UNREFERENCED_LOCAL_VARIABLE(Pfn2);
MiDecrementShareCount(Pfn1, PFN_FROM_PTE(&PteContents));
/* Release the PFN lock */
MiReleasePfnLock(OldIrql);
}
else
{
/* Windows ASSERT */
ASSERT((PteContents.u.Long == 0) || (PteContents.u.Soft.Prototype == 1));
/* Check if this is a prototype pointer PTE */
if (PteContents.u.Soft.Prototype == 1)
{
/* Get the prototype PTE */
ProtoPte = MiProtoPteToPte(&PteContents);
/* We don't support anything else atm */
ASSERT(ProtoPte->u.Long == 0);
}
}
/* Make the PTE into a zero PTE */
PointerPte->u.Long = 0;
/* Move to the next PTE */
PointerPte++;
NumberOfPtes--;
}
/* Flush the TLB */
KeFlushCurrentTb();
/* Acquire the PFN lock */
OldIrql = MiAcquirePfnLock();
/* Decrement the accounting counters */
ControlArea->NumberOfUserReferences--;
ControlArea->NumberOfMappedViews--;
/* Check if we should destroy the CA and release the lock */
MiCheckControlArea(ControlArea, OldIrql);
}
ULONG
NTAPI
MiRemoveFromSystemSpace(IN PMMSESSION Session,
IN PVOID Base,
OUT PCONTROL_AREA *ControlArea)
{
ULONG Hash, Size, Count = 0;
ULONG_PTR Entry;
PAGED_CODE();
/* Compute the hash for this entry and loop trying to find it */
Entry = (ULONG_PTR)Base >> 16;
Hash = Entry % Session->SystemSpaceHashKey;
while ((Session->SystemSpaceViewTable[Hash].Entry >> 16) != Entry)
{
/* Check if we overflew past the end of the hash table */
if (++Hash >= Session->SystemSpaceHashSize)
{
/* Reset the hash to zero and keep searching from the bottom */
Hash = 0;
if (++Count == 2)
{
/* But if we overflew twice, then this is not a real mapping */
KeBugCheckEx(DRIVER_UNMAPPING_INVALID_VIEW,
(ULONG_PTR)Base,
1,
0,
0);
}
}
}
/* One less entry */
Session->SystemSpaceHashEntries--;
/* Extract the size and clear the entry */
Size = Session->SystemSpaceViewTable[Hash].Entry & 0xFFFF;
Session->SystemSpaceViewTable[Hash].Entry = 0;
/* Return the control area and the size */
*ControlArea = Session->SystemSpaceViewTable[Hash].ControlArea;
return Size;
}
NTSTATUS
NTAPI
MiUnmapViewInSystemSpace(IN PMMSESSION Session,
IN PVOID MappedBase)
{
ULONG Size;
PCONTROL_AREA ControlArea;
PAGED_CODE();
/* Remove this mapping */
KeAcquireGuardedMutex(Session->SystemSpaceViewLockPointer);
Size = MiRemoveFromSystemSpace(Session, MappedBase, &ControlArea);
/* Clear the bits for this mapping */
RtlClearBits(Session->SystemSpaceBitMap,
(ULONG)(((ULONG_PTR)MappedBase - (ULONG_PTR)Session->SystemSpaceViewStart) >> 16),
Size);
/* Convert the size from a bit size into the actual size */
Size = Size * (_64K >> PAGE_SHIFT);
/* Remove the PTEs now */
MiRemoveMappedPtes(MappedBase, Size, ControlArea, NULL);
KeReleaseGuardedMutex(Session->SystemSpaceViewLockPointer);
/* Return success */
return STATUS_SUCCESS;
}
/* PUBLIC FUNCTIONS ***********************************************************/
/*
* @implemented
*/
NTSTATUS
NTAPI
MmCreateArm3Section(OUT PVOID *SectionObject,
IN ACCESS_MASK DesiredAccess,
IN POBJECT_ATTRIBUTES ObjectAttributes OPTIONAL,
IN PLARGE_INTEGER InputMaximumSize,
IN ULONG SectionPageProtection,
IN ULONG AllocationAttributes,
IN HANDLE FileHandle OPTIONAL,
IN PFILE_OBJECT FileObject OPTIONAL)
{
SECTION Section;
PSECTION NewSection;
PSUBSECTION Subsection;
PSEGMENT NewSegment, Segment;
NTSTATUS Status;
PCONTROL_AREA ControlArea;
ULONG ProtectionMask, ControlAreaSize, Size, NonPagedCharge, PagedCharge;
KPROCESSOR_MODE PreviousMode = ExGetPreviousMode();
BOOLEAN FileLock = FALSE, KernelCall = FALSE;
KIRQL OldIrql;
PFILE_OBJECT File;
BOOLEAN UserRefIncremented = FALSE;
PVOID PreviousSectionPointer;
/* Make the same sanity checks that the Nt interface should've validated */
ASSERT((AllocationAttributes & ~(SEC_COMMIT | SEC_RESERVE | SEC_BASED |
SEC_LARGE_PAGES | SEC_IMAGE | SEC_NOCACHE |
SEC_NO_CHANGE)) == 0);
ASSERT((AllocationAttributes & (SEC_COMMIT | SEC_RESERVE | SEC_IMAGE)) != 0);
ASSERT(!((AllocationAttributes & SEC_IMAGE) &&
(AllocationAttributes & (SEC_COMMIT | SEC_RESERVE |
SEC_NOCACHE | SEC_NO_CHANGE))));
ASSERT(!((AllocationAttributes & SEC_COMMIT) && (AllocationAttributes & SEC_RESERVE)));
ASSERT(!((SectionPageProtection & PAGE_NOCACHE) ||
(SectionPageProtection & PAGE_WRITECOMBINE) ||
(SectionPageProtection & PAGE_GUARD) ||
(SectionPageProtection & PAGE_NOACCESS)));
/* Convert section flag to page flag */
if (AllocationAttributes & SEC_NOCACHE)
SectionPageProtection |= PAGE_NOCACHE;
/* Check to make sure the protection is correct. Nt* does this already */
ProtectionMask = MiMakeProtectionMask(SectionPageProtection);
if (ProtectionMask == MM_INVALID_PROTECTION)
{
DPRINT1("Invalid protection mask\n");
return STATUS_INVALID_PAGE_PROTECTION;
}
/* Check if this is going to be a data or image backed file section */
if ((FileHandle) || (FileObject))
{
/* These cannot be mapped with large pages */
if (AllocationAttributes & SEC_LARGE_PAGES) return STATUS_INVALID_PARAMETER_6;
/* For now, only support the mechanism through a file handle */
ASSERT(FileObject == NULL);
/* Reference the file handle to get the object */
Status = ObReferenceObjectByHandle(FileHandle,
MmMakeFileAccess[ProtectionMask],
IoFileObjectType,
PreviousMode,
(PVOID*)&File,
NULL);
if (!NT_SUCCESS(Status)) return Status;
/* Make sure Cc has been doing its job */
if (!File->SectionObjectPointer)
{
/* This is not a valid file system-based file, fail */
ObDereferenceObject(File);
return STATUS_INVALID_FILE_FOR_SECTION;
}
/* Image-file backed sections are not yet supported */
ASSERT((AllocationAttributes & SEC_IMAGE) == 0);
/* Compute the size of the control area, and allocate it */
ControlAreaSize = sizeof(CONTROL_AREA) + sizeof(MSUBSECTION);
ControlArea = ExAllocatePoolWithTag(NonPagedPool, ControlAreaSize, 'aCmM');
if (!ControlArea)
{
ObDereferenceObject(File);
return STATUS_INSUFFICIENT_RESOURCES;
}
/* Zero it out */
RtlZeroMemory(ControlArea, ControlAreaSize);
/* Did we get a handle, or an object? */
if (FileHandle)
{
/* We got a file handle so we have to lock down the file */
#if 0
Status = FsRtlAcquireToCreateMappedSection(File, SectionPageProtection);
if (!NT_SUCCESS(Status))
{
ExFreePool(ControlArea);
ObDereferenceObject(File);
return Status;
}
#else
/* ReactOS doesn't support this API yet, so do nothing */
Status = STATUS_SUCCESS;
#endif
/* Update the top-level IRP so that drivers know what's happening */
IoSetTopLevelIrp((PIRP)FSRTL_FSP_TOP_LEVEL_IRP);
FileLock = TRUE;
}
/* Lock the PFN database while we play with the section pointers */
OldIrql = MiAcquirePfnLock();
/* Image-file backed sections are not yet supported */
ASSERT((AllocationAttributes & SEC_IMAGE) == 0);
/* There should not already be a control area for this file */
ASSERT(File->SectionObjectPointer->DataSectionObject == NULL);
NewSegment = NULL;
/* Write down that this CA is being created, and set it */
ControlArea->u.Flags.BeingCreated = TRUE;
ASSERT((AllocationAttributes & SEC_IMAGE) == 0);
PreviousSectionPointer = File->SectionObjectPointer;
File->SectionObjectPointer->DataSectionObject = ControlArea;
/* We can release the PFN lock now */
MiReleasePfnLock(OldIrql);
/* We don't support previously-mapped file */
ASSERT(NewSegment == NULL);
/* Image-file backed sections are not yet supported */
ASSERT((AllocationAttributes & SEC_IMAGE) == 0);
/* So we always create a data file map */
Status = MiCreateDataFileMap(File,
&Segment,
(PSIZE_T)InputMaximumSize,
SectionPageProtection,
AllocationAttributes,
KernelCall);
if (!NT_SUCCESS(Status))
{
/* Lock the PFN database while we play with the section pointers */
OldIrql = MiAcquirePfnLock();
/* Reset the waiting-for-deletion event */
ASSERT(ControlArea->WaitingForDeletion == NULL);
ControlArea->WaitingForDeletion = NULL;
/* Set the file pointer NULL flag */
ASSERT(ControlArea->u.Flags.FilePointerNull == 0);
ControlArea->u.Flags.FilePointerNull = TRUE;
/* Delete the data section object */
ASSERT((AllocationAttributes & SEC_IMAGE) == 0);
File->SectionObjectPointer->DataSectionObject = NULL;
/* No longer being created */
ControlArea->u.Flags.BeingCreated = FALSE;
/* We can release the PFN lock now */
MiReleasePfnLock(OldIrql);
/* Check if we locked and set the IRP */
if (FileLock)
{
/* Undo */
IoSetTopLevelIrp(NULL);
//FsRtlReleaseFile(File);
}
/* Free the control area and de-ref the file object */
ExFreePool(ControlArea);
ObDereferenceObject(File);
/* All done */
return Status;
}
/* On success, we expect this */
ASSERT(PreviousSectionPointer == File->SectionObjectPointer);
/* Check if a maximum size was specified */
if (!InputMaximumSize->QuadPart)
{
/* Nope, use the segment size */
Section.SizeOfSection.QuadPart = (LONGLONG)Segment->SizeOfSegment;
}
else
{
/* Yep, use the entered size */
Section.SizeOfSection.QuadPart = InputMaximumSize->QuadPart;
}
}
else
{
/* A handle must be supplied with SEC_IMAGE, as this is the no-handle path */
if (AllocationAttributes & SEC_IMAGE) return STATUS_INVALID_FILE_FOR_SECTION;
/* Not yet supported */
ASSERT((AllocationAttributes & SEC_LARGE_PAGES) == 0);
/* So this must be a pagefile-backed section, create the mappings needed */
Status = MiCreatePagingFileMap(&NewSegment,
InputMaximumSize,
ProtectionMask,
AllocationAttributes);
if (!NT_SUCCESS(Status)) return Status;
/* Set the size here, and read the control area */
Section.SizeOfSection.QuadPart = NewSegment->SizeOfSegment;
ControlArea = NewSegment->ControlArea;
/* MiCreatePagingFileMap increments user references */
UserRefIncremented = TRUE;
}
/* Did we already have a segment? */
if (!NewSegment)
{
/* This must be the file path and we created a segment */
NewSegment = Segment;
ASSERT(File != NULL);
/* Acquire the PFN lock while we set control area flags */
OldIrql = MiAcquirePfnLock();
/* We don't support this race condition yet, so assume no waiters */
ASSERT(ControlArea->WaitingForDeletion == NULL);
ControlArea->WaitingForDeletion = NULL;
/* Image-file backed sections are not yet supported, nor ROM images */
ASSERT((AllocationAttributes & SEC_IMAGE) == 0);
ASSERT(Segment->ControlArea->u.Flags.Rom == 0);
/* Take off the being created flag, and then release the lock */
ControlArea->u.Flags.BeingCreated = FALSE;
MiReleasePfnLock(OldIrql);
}
/* Check if we locked the file earlier */
if (FileLock)
{
/* Reset the top-level IRP and release the lock */
IoSetTopLevelIrp(NULL);
//FsRtlReleaseFile(File);
FileLock = FALSE;
}
/* Set the initial section object data */
Section.InitialPageProtection = SectionPageProtection;
/* The mapping created a control area and segment, save the flags */
Section.Segment = NewSegment;
Section.u.LongFlags = ControlArea->u.LongFlags;
/* Check if this is a user-mode read-write non-image file mapping */
if (!(FileObject) &&
(SectionPageProtection & (PAGE_READWRITE | PAGE_EXECUTE_READWRITE)) &&
!(ControlArea->u.Flags.Image) &&
(ControlArea->FilePointer))
{
/* Add a reference and set the flag */
Section.u.Flags.UserWritable = TRUE;
InterlockedIncrement((volatile LONG*)&ControlArea->WritableUserReferences);
}
/* Check for image mappings or page file mappings */
if ((ControlArea->u.Flags.Image) || !(ControlArea->FilePointer))
{
/* Charge the segment size, and allocate a subsection */
PagedCharge = sizeof(SECTION) + NewSegment->TotalNumberOfPtes * sizeof(MMPTE);
Size = sizeof(SUBSECTION);
}
else
{
/* Charge nothing, and allocate a mapped subsection */
PagedCharge = 0;
Size = sizeof(MSUBSECTION);
}
/* Check if this is a normal CA */
ASSERT(ControlArea->u.Flags.GlobalOnlyPerSession == 0);
ASSERT(ControlArea->u.Flags.Rom == 0);
/* Charge only a CA, and the subsection is right after */
NonPagedCharge = sizeof(CONTROL_AREA);
Subsection = (PSUBSECTION)(ControlArea + 1);
/* We only support single-subsection mappings */
NonPagedCharge += Size;
ASSERT(Subsection->NextSubsection == NULL);
/* Create the actual section object, with enough space for the prototype PTEs */
Status = ObCreateObject(PreviousMode,
MmSectionObjectType,
ObjectAttributes,
PreviousMode,
NULL,
sizeof(SECTION),
PagedCharge,
NonPagedCharge,
(PVOID*)&NewSection);
if (!NT_SUCCESS(Status))
{
/* Check if this is a user-mode read-write non-image file mapping */
if (!(FileObject) &&
(SectionPageProtection & (PAGE_READWRITE | PAGE_EXECUTE_READWRITE)) &&
!(ControlArea->u.Flags.Image) &&
(ControlArea->FilePointer))
{
/* Remove a reference and check the flag */
ASSERT(Section.u.Flags.UserWritable == 1);
InterlockedDecrement((volatile LONG*)&ControlArea->WritableUserReferences);
}
/* Check if a user reference was added */
if (UserRefIncremented)
{
/* Acquire the PFN lock while we change counters */
OldIrql = MiAcquirePfnLock();
/* Decrement the accounting counters */
ControlArea->NumberOfSectionReferences--;
ASSERT((LONG)ControlArea->NumberOfUserReferences > 0);
ControlArea->NumberOfUserReferences--;
/* Check if we should destroy the CA and release the lock */
MiCheckControlArea(ControlArea, OldIrql);
}
/* Return the failure code */
return Status;
}
/* NOTE: Past this point, all failures will be handled by Ob upon ref->0 */
/* Now copy the local section object from the stack into this new object */
RtlCopyMemory(NewSection, &Section, sizeof(SECTION));
NewSection->Address.StartingVpn = 0;
/* For now, only user calls are supported */
ASSERT(KernelCall == FALSE);
NewSection->u.Flags.UserReference = TRUE;
/* Is this a "based" allocation, in which all mappings are identical? */
if (AllocationAttributes & SEC_BASED)
{
/* Lock the VAD tree during the search */
KeAcquireGuardedMutex(&MmSectionBasedMutex);
/* Is it a brand new ControArea ? */
if (ControlArea->u.Flags.BeingCreated == 1)
{
ASSERT(ControlArea->u.Flags.Based == 1);
/* Then we must find a global address, top-down */
Status = MiFindEmptyAddressRangeDownBasedTree((SIZE_T)ControlArea->Segment->SizeOfSegment,
(ULONG_PTR)MmHighSectionBase,
_64K,
&MmSectionBasedRoot,
(ULONG_PTR*)&ControlArea->Segment->BasedAddress);
if (!NT_SUCCESS(Status))
{
/* No way to find a valid range. */
KeReleaseGuardedMutex(&MmSectionBasedMutex);
ControlArea->u.Flags.Based = 0;
NewSection->u.Flags.Based = 0;
ObDereferenceObject(NewSection);
return Status;
}
/* Compute the ending address and insert it into the VAD tree */
NewSection->Address.StartingVpn = (ULONG_PTR)ControlArea->Segment->BasedAddress;
NewSection->Address.EndingVpn = NewSection->Address.StartingVpn + NewSection->SizeOfSection.LowPart - 1;
MiInsertBasedSection(NewSection);
}
else
{
/* FIXME : Should we deny section creation if SEC_BASED is not set ? Can we have two different section objects on the same based address ? Investigate !*/
ASSERT(FALSE);
}
KeReleaseGuardedMutex(&MmSectionBasedMutex);
}
/* The control area is not being created anymore */
if (ControlArea->u.Flags.BeingCreated == 1)
{
/* Acquire the PFN lock while we set control area flags */
OldIrql = MiAcquirePfnLock();
/* Take off the being created flag, and then release the lock */
ControlArea->u.Flags.BeingCreated = 0;
NewSection->u.Flags.BeingCreated = 0;
MiReleasePfnLock(OldIrql);
}
/* Migrate the attribute into a flag */
if (AllocationAttributes & SEC_NO_CHANGE) NewSection->u.Flags.NoChange = TRUE;
/* If R/W access is not requested, this might eventually become a CoW mapping */
if (!(SectionPageProtection & (PAGE_READWRITE | PAGE_EXECUTE_READWRITE)))
{
NewSection->u.Flags.CopyOnWrite = TRUE;
}
/* Write down if this was a kernel call */
ControlArea->u.Flags.WasPurged |= KernelCall;
ASSERT(ControlArea->u.Flags.WasPurged == FALSE);
/* Make sure the segment and the section are the same size, or the section is smaller */
ASSERT((ULONG64)NewSection->SizeOfSection.QuadPart <= NewSection->Segment->SizeOfSegment);
/* Return the object and the creation status */
*SectionObject = (PVOID)NewSection;
return Status;
}
/*
* @implemented
*/
NTSTATUS
NTAPI
MmMapViewOfArm3Section(IN PVOID SectionObject,
IN PEPROCESS Process,
IN OUT PVOID *BaseAddress,
IN ULONG_PTR ZeroBits,
IN SIZE_T CommitSize,
IN OUT PLARGE_INTEGER SectionOffset OPTIONAL,
IN OUT PSIZE_T ViewSize,
IN SECTION_INHERIT InheritDisposition,
IN ULONG AllocationType,
IN ULONG Protect)
{
KAPC_STATE ApcState;
BOOLEAN Attached = FALSE;
PSECTION Section;
PCONTROL_AREA ControlArea;
ULONG ProtectionMask;
NTSTATUS Status;
ULONG64 CalculatedViewSize;
PAGED_CODE();
/* Get the segment and control area */
Section = (PSECTION)SectionObject;
ControlArea = Section->Segment->ControlArea;
/* These flags/states are not yet supported by ARM3 */
ASSERT(Section->u.Flags.Image == 0);
ASSERT(Section->u.Flags.NoCache == 0);
ASSERT(Section->u.Flags.WriteCombined == 0);
ASSERT(ControlArea->u.Flags.PhysicalMemory == 0);
/* FIXME */
if ((AllocationType & MEM_RESERVE) != 0)
{
DPRINT1("MmMapViewOfArm3Section called with MEM_RESERVE, this is not implemented yet!!!\n");
return STATUS_NOT_IMPLEMENTED;
}
/* Check if the mapping protection is compatible with the create */
if (!MiIsProtectionCompatible(Section->InitialPageProtection, Protect))
{
DPRINT1("Mapping protection is incompatible\n");
return STATUS_SECTION_PROTECTION;
}
/* Check if the offset and size would cause an overflow */
if (((ULONG64)SectionOffset->QuadPart + *ViewSize) <
(ULONG64)SectionOffset->QuadPart)
{
DPRINT1("Section offset overflows\n");
return STATUS_INVALID_VIEW_SIZE;
}
/* Check if the offset and size are bigger than the section itself */
if (((ULONG64)SectionOffset->QuadPart + *ViewSize) >
(ULONG64)Section->SizeOfSection.QuadPart)
{
DPRINT1("Section offset is larger than section\n");
return STATUS_INVALID_VIEW_SIZE;
}
/* Check if the caller did not specify a view size */
if (!(*ViewSize))
{
/* Compute it for the caller */
CalculatedViewSize = Section->SizeOfSection.QuadPart -
SectionOffset->QuadPart;
/* Check if it's larger than 4GB or overflows into kernel-mode */
if (!NT_SUCCESS(RtlULongLongToSIZET(CalculatedViewSize, ViewSize)) ||
(((ULONG_PTR)MM_HIGHEST_VAD_ADDRESS - (ULONG_PTR)*BaseAddress) < CalculatedViewSize))
{
DPRINT1("Section view won't fit\n");
return STATUS_INVALID_VIEW_SIZE;
}
}
/* Check if the commit size is larger than the view size */
if (CommitSize > *ViewSize)
{
DPRINT1("Attempting to commit more than the view itself\n");
return STATUS_INVALID_PARAMETER_5;
}
/* Check if the view size is larger than the section */
if (*ViewSize > (ULONG64)Section->SizeOfSection.QuadPart)
{
DPRINT1("The view is larger than the section\n");
return STATUS_INVALID_VIEW_SIZE;
}
/* Compute and validate the protection mask */
ProtectionMask = MiMakeProtectionMask(Protect);
if (ProtectionMask == MM_INVALID_PROTECTION)
{
DPRINT1("The protection is invalid\n");
return STATUS_INVALID_PAGE_PROTECTION;
}
/* We only handle pagefile-backed sections, which cannot be writecombined */
if (Protect & PAGE_WRITECOMBINE)
{
DPRINT1("Cannot write combine a pagefile-backed section\n");
return STATUS_INVALID_PARAMETER_10;
}
/* Start by attaching to the current process if needed */
if (PsGetCurrentProcess() != Process)
{
KeStackAttachProcess(&Process->Pcb, &ApcState);
Attached = TRUE;
}
/* Do the actual mapping */
Status = MiMapViewOfDataSection(ControlArea,
Process,
BaseAddress,
SectionOffset,
ViewSize,
Section,
InheritDisposition,
ProtectionMask,
CommitSize,
ZeroBits,
AllocationType);
/* Detach if needed, then return status */
if (Attached) KeUnstackDetachProcess(&ApcState);
return Status;
}
/*
* @unimplemented
*/
BOOLEAN
NTAPI
MmDisableModifiedWriteOfSection(IN PSECTION_OBJECT_POINTERS SectionObjectPointer)
{
UNIMPLEMENTED;
return FALSE;
}
/*
* @unimplemented
*/
BOOLEAN
NTAPI
MmForceSectionClosed(IN PSECTION_OBJECT_POINTERS SectionObjectPointer,
IN BOOLEAN DelayClose)
{
UNIMPLEMENTED;
return FALSE;
}
/*
* @implemented
*/
NTSTATUS
NTAPI
MmMapViewInSessionSpace(IN PVOID Section,
OUT PVOID *MappedBase,
IN OUT PSIZE_T ViewSize)
{
PAGED_CODE();
LARGE_INTEGER SectionOffset;
// HACK
if (MiIsRosSectionObject(Section))
{
return MmMapViewInSystemSpace(Section, MappedBase, ViewSize);
}
/* Process must be in a session */
if (PsGetCurrentProcess()->ProcessInSession == FALSE)
{
DPRINT1("Process is not in session\n");
return STATUS_NOT_MAPPED_VIEW;
}
/* Use the system space API, but with the session view instead */
ASSERT(MmIsAddressValid(MmSessionSpace) == TRUE);
SectionOffset.QuadPart = 0;
return MiMapViewInSystemSpace(Section,
&MmSessionSpace->Session,
MappedBase,
ViewSize,
&SectionOffset);
}
/*
* @implemented
*/
NTSTATUS
NTAPI
MmUnmapViewInSessionSpace(IN PVOID MappedBase)
{
PAGED_CODE();
// HACK
if (!MI_IS_SESSION_ADDRESS(MappedBase))
{
return MmUnmapViewInSystemSpace(MappedBase);
}
/* Process must be in a session */
if (PsGetCurrentProcess()->ProcessInSession == FALSE)
{
DPRINT1("Proess is not in session\n");
return STATUS_NOT_MAPPED_VIEW;
}
/* Use the system space API, but with the session view instead */
ASSERT(MmIsAddressValid(MmSessionSpace) == TRUE);
return MiUnmapViewInSystemSpace(&MmSessionSpace->Session,
MappedBase);
}
/*
* @implemented
*/
NTSTATUS
NTAPI
MmUnmapViewOfSection(IN PEPROCESS Process,
IN PVOID BaseAddress)
{
return MiUnmapViewOfSection(Process, BaseAddress, 0);
}
/*
* @implemented
*/
NTSTATUS
NTAPI
MmUnmapViewInSystemSpace(IN PVOID MappedBase)
{
PMEMORY_AREA MemoryArea;
PAGED_CODE();
/* Was this mapped by RosMm? */
MmLockAddressSpace(MmGetKernelAddressSpace());
MemoryArea = MmLocateMemoryAreaByAddress(MmGetKernelAddressSpace(), MappedBase);
if ((MemoryArea) && (MemoryArea->Type != MEMORY_AREA_OWNED_BY_ARM3))
{
NTSTATUS Status = MiRosUnmapViewInSystemSpace(MappedBase);
MmUnlockAddressSpace(MmGetKernelAddressSpace());
return Status;
}
MmUnlockAddressSpace(MmGetKernelAddressSpace());
/* It was not, call the ARM3 routine */
return MiUnmapViewInSystemSpace(&MmSession, MappedBase);
}
/*
* @implemented
*/
NTSTATUS
NTAPI
MmCommitSessionMappedView(IN PVOID MappedBase,
IN SIZE_T ViewSize)
{
ULONG_PTR StartAddress, EndingAddress, Base;
ULONG Hash, Count = 0, Size, QuotaCharge;
PMMSESSION Session;
PMMPTE LastProtoPte, PointerPte, ProtoPte;
PCONTROL_AREA ControlArea;
PSEGMENT Segment;
PSUBSECTION Subsection;
MMPTE TempPte;
PAGED_CODE();
/* Make sure the base isn't past the session view range */
if ((MappedBase < MiSessionViewStart) ||
(MappedBase >= (PVOID)((ULONG_PTR)MiSessionViewStart + MmSessionViewSize)))
{
DPRINT1("Base outside of valid range\n");
return STATUS_INVALID_PARAMETER_1;
}
/* Make sure the size isn't past the session view range */
if (((ULONG_PTR)MiSessionViewStart + MmSessionViewSize -
(ULONG_PTR)MappedBase) < ViewSize)
{
DPRINT1("Size outside of valid range\n");
return STATUS_INVALID_PARAMETER_2;
}
/* Sanity check */
ASSERT(ViewSize != 0);
/* Process must be in a session */
if (PsGetCurrentProcess()->ProcessInSession == FALSE)
{
DPRINT1("Process is not in session\n");
return STATUS_NOT_MAPPED_VIEW;
}
/* Compute the correctly aligned base and end addresses */
StartAddress = (ULONG_PTR)PAGE_ALIGN(MappedBase);
EndingAddress = ((ULONG_PTR)MappedBase + ViewSize - 1) | (PAGE_SIZE - 1);
/* Sanity check and grab the session */
ASSERT(MmIsAddressValid(MmSessionSpace) == TRUE);
Session = &MmSessionSpace->Session;
/* Get the hash entry for this allocation */
Hash = (StartAddress >> 16) % Session->SystemSpaceHashKey;
/* Lock system space */
KeAcquireGuardedMutex(Session->SystemSpaceViewLockPointer);
/* Loop twice so we can try rolling over if needed */
while (TRUE)
{
/* Extract the size and base addresses from the entry */
Base = Session->SystemSpaceViewTable[Hash].Entry & ~0xFFFF;
Size = Session->SystemSpaceViewTable[Hash].Entry & 0xFFFF;
/* Convert the size to bucket chunks */
Size *= MI_SYSTEM_VIEW_BUCKET_SIZE;
/* Bail out if this entry fits in here */
if ((StartAddress >= Base) && (EndingAddress < (Base + Size))) break;
/* Check if we overflew past the end of the hash table */
if (++Hash >= Session->SystemSpaceHashSize)
{
/* Reset the hash to zero and keep searching from the bottom */
Hash = 0;
if (++Count == 2)
{
/* But if we overflew twice, then this is not a real mapping */
KeBugCheckEx(DRIVER_UNMAPPING_INVALID_VIEW,
Base,
2,
0,
0);
}
}
}
/* Make sure the view being mapped is not file-based */
ControlArea = Session->SystemSpaceViewTable[Hash].ControlArea;
if (ControlArea->FilePointer != NULL)
{
/* It is, so we have to bail out */
DPRINT1("Only page-filed backed sections can be commited\n");
KeReleaseGuardedMutex(Session->SystemSpaceViewLockPointer);
return STATUS_ALREADY_COMMITTED;
}
/* Get the subsection. We don't support LARGE_CONTROL_AREA in ARM3 */
ASSERT(ControlArea->u.Flags.GlobalOnlyPerSession == 0);
ASSERT(ControlArea->u.Flags.Rom == 0);
Subsection = (PSUBSECTION)(ControlArea + 1);
/* Get the start and end PTEs -- make sure the end PTE isn't past the end */
ProtoPte = Subsection->SubsectionBase + ((StartAddress - Base) >> PAGE_SHIFT);
QuotaCharge = MiAddressToPte(EndingAddress) - MiAddressToPte(StartAddress) + 1;
LastProtoPte = ProtoPte + QuotaCharge;
if (LastProtoPte >= Subsection->SubsectionBase + Subsection->PtesInSubsection)
{
DPRINT1("PTE is out of bounds\n");
KeReleaseGuardedMutex(Session->SystemSpaceViewLockPointer);
return STATUS_INVALID_PARAMETER_2;
}
/* Acquire the commit lock and count all the non-committed PTEs */
KeAcquireGuardedMutexUnsafe(&MmSectionCommitMutex);
PointerPte = ProtoPte;
while (PointerPte < LastProtoPte)
{
if (PointerPte->u.Long) QuotaCharge--;
PointerPte++;
}
/* Was everything committed already? */
if (!QuotaCharge)
{
/* Nothing to do! */
KeReleaseGuardedMutexUnsafe(&MmSectionCommitMutex);
KeReleaseGuardedMutex(Session->SystemSpaceViewLockPointer);
return STATUS_SUCCESS;
}
/* Pick the segment and template PTE */
Segment = ControlArea->Segment;
TempPte = Segment->SegmentPteTemplate;
ASSERT(TempPte.u.Long != 0);
/* Loop all prototype PTEs to be committed */
PointerPte = ProtoPte;
while (PointerPte < LastProtoPte)
{
/* Make sure the PTE is already invalid */
if (PointerPte->u.Long == 0)
{
/* And write the invalid PTE */
MI_WRITE_INVALID_PTE(PointerPte, TempPte);
}
/* Move to the next PTE */
PointerPte++;
}
/* Check if we had at least one page charged */
if (QuotaCharge)
{
/* Update the accounting data */
Segment->NumberOfCommittedPages += QuotaCharge;
InterlockedExchangeAddSizeT(&MmSharedCommit, QuotaCharge);
}
/* Release all */
KeReleaseGuardedMutexUnsafe(&MmSectionCommitMutex);
KeReleaseGuardedMutex(Session->SystemSpaceViewLockPointer);
return STATUS_SUCCESS;
}
VOID
NTAPI
MiDeleteARM3Section(PVOID ObjectBody)
{
PSECTION SectionObject;
PCONTROL_AREA ControlArea;
KIRQL OldIrql;
SectionObject = (PSECTION)ObjectBody;
if (SectionObject->u.Flags.Based == 1)
{
/* Remove the node from the global section address tree */
KeAcquireGuardedMutex(&MmSectionBasedMutex);
MiRemoveNode(&SectionObject->Address, &MmSectionBasedRoot);
KeReleaseGuardedMutex(&MmSectionBasedMutex);
}
/* Lock the PFN database */
OldIrql = MiAcquirePfnLock();
ASSERT(SectionObject->Segment);
ASSERT(SectionObject->Segment->ControlArea);
ControlArea = SectionObject->Segment->ControlArea;
/* Dereference */
ControlArea->NumberOfSectionReferences--;
ControlArea->NumberOfUserReferences--;
ASSERT(ControlArea->u.Flags.BeingDeleted == 0);
/* Check it. It will delete it if there is no more reference to it */
MiCheckControlArea(ControlArea, OldIrql);
}
ULONG
NTAPI
MmDoesFileHaveUserWritableReferences(IN PSECTION_OBJECT_POINTERS SectionPointer)
{
UNIMPLEMENTED_ONCE;
return 0;
}
/* SYSTEM CALLS ***************************************************************/
NTSTATUS
NTAPI
NtAreMappedFilesTheSame(IN PVOID File1MappedAsAnImage,
IN PVOID File2MappedAsFile)
{
PVOID AddressSpace;
PMMVAD Vad1, Vad2;
PFILE_OBJECT FileObject1, FileObject2;
NTSTATUS Status;
/* Lock address space */
AddressSpace = MmGetCurrentAddressSpace();
MmLockAddressSpace(AddressSpace);
/* Get the VAD for Address 1 */
Vad1 = MiLocateAddress(File1MappedAsAnImage);
if (Vad1 == NULL)
{
/* Fail, the address does not exist */
DPRINT1("No VAD at address 1 %p\n", File1MappedAsAnImage);
Status = STATUS_INVALID_ADDRESS;
goto Exit;
}
/* Get the VAD for Address 2 */
Vad2 = MiLocateAddress(File2MappedAsFile);
if (Vad2 == NULL)
{
/* Fail, the address does not exist */
DPRINT1("No VAD at address 2 %p\n", File2MappedAsFile);
Status = STATUS_INVALID_ADDRESS;
goto Exit;
}
/* Get the file object pointer for VAD 1 */
FileObject1 = MiGetFileObjectForVad(Vad1);
if (FileObject1 == NULL)
{
DPRINT1("Failed to get file object for Address 1 %p\n", File1MappedAsAnImage);
Status = STATUS_CONFLICTING_ADDRESSES;
goto Exit;
}
/* Get the file object pointer for VAD 2 */
FileObject2 = MiGetFileObjectForVad(Vad2);
if (FileObject2 == NULL)
{
DPRINT1("Failed to get file object for Address 2 %p\n", File2MappedAsFile);
Status = STATUS_CONFLICTING_ADDRESSES;
goto Exit;
}
/* Make sure Vad1 is an image mapping */
if (Vad1->u.VadFlags.VadType != VadImageMap)
{
DPRINT1("Address 1 (%p) is not an image mapping\n", File1MappedAsAnImage);
Status = STATUS_NOT_SAME_DEVICE;
goto Exit;
}
/* SectionObjectPointer is equal if the files are equal */
if (FileObject1->SectionObjectPointer == FileObject2->SectionObjectPointer)
{
Status = STATUS_SUCCESS;
}
else
{
Status = STATUS_NOT_SAME_DEVICE;
}
Exit:
/* Unlock address space */
MmUnlockAddressSpace(AddressSpace);
return Status;
}
/*
* @implemented
*/
NTSTATUS
NTAPI
NtCreateSection(OUT PHANDLE SectionHandle,
IN ACCESS_MASK DesiredAccess,
IN POBJECT_ATTRIBUTES ObjectAttributes OPTIONAL,
IN PLARGE_INTEGER MaximumSize OPTIONAL,
IN ULONG SectionPageProtection OPTIONAL,
IN ULONG AllocationAttributes,
IN HANDLE FileHandle OPTIONAL)
{
LARGE_INTEGER SafeMaximumSize;
PVOID SectionObject;
HANDLE Handle;
KPROCESSOR_MODE PreviousMode = ExGetPreviousMode();
NTSTATUS Status;
PAGED_CODE();
/* Check for non-existing flags */
if ((AllocationAttributes & ~(SEC_COMMIT | SEC_RESERVE | SEC_BASED |
SEC_LARGE_PAGES | SEC_IMAGE | SEC_NOCACHE |
SEC_NO_CHANGE)))
{
if (!(AllocationAttributes & 1))
{
DPRINT1("Bogus allocation attribute: %lx\n", AllocationAttributes);
return STATUS_INVALID_PARAMETER_6;
}
}
/* Check for no allocation type */
if (!(AllocationAttributes & (SEC_COMMIT | SEC_RESERVE | SEC_IMAGE)))
{
DPRINT1("Missing allocation type in allocation attributes\n");
return STATUS_INVALID_PARAMETER_6;
}
/* Check for image allocation with invalid attributes */
if ((AllocationAttributes & SEC_IMAGE) &&
(AllocationAttributes & (SEC_COMMIT | SEC_RESERVE | SEC_LARGE_PAGES |
SEC_NOCACHE | SEC_NO_CHANGE)))
{
DPRINT1("Image allocation with invalid attributes\n");
return STATUS_INVALID_PARAMETER_6;
}
/* Check for allocation type is both commit and reserve */
if ((AllocationAttributes & SEC_COMMIT) && (AllocationAttributes & SEC_RESERVE))
{
DPRINT1("Commit and reserve in the same time\n");
return STATUS_INVALID_PARAMETER_6;
}
/* Now check for valid protection */
if ((SectionPageProtection & PAGE_NOCACHE) ||
(SectionPageProtection & PAGE_WRITECOMBINE) ||
(SectionPageProtection & PAGE_GUARD) ||
(SectionPageProtection & PAGE_NOACCESS))
{
DPRINT1("Sections don't support these protections\n");
return STATUS_INVALID_PAGE_PROTECTION;
}
/* Use a maximum size of zero, if none was specified */
SafeMaximumSize.QuadPart = 0;
/* Check for user-mode caller */
if (PreviousMode != KernelMode)
{
/* Enter SEH */
_SEH2_TRY
{
/* Safely check user-mode parameters */
if (MaximumSize) SafeMaximumSize = ProbeForReadLargeInteger(MaximumSize);
MaximumSize = &SafeMaximumSize;
ProbeForWriteHandle(SectionHandle);
}
_SEH2_EXCEPT(EXCEPTION_EXECUTE_HANDLER)
{
/* Return the exception code */
_SEH2_YIELD(return _SEH2_GetExceptionCode());
}
_SEH2_END;
}
else if (!MaximumSize) MaximumSize = &SafeMaximumSize;
/* Check that MaximumSize is valid if backed by paging file */
if ((!FileHandle) && (!MaximumSize->QuadPart))
return STATUS_INVALID_PARAMETER_4;
/* Create the section */
Status = MmCreateSection(&SectionObject,
DesiredAccess,
ObjectAttributes,
MaximumSize,
SectionPageProtection,
AllocationAttributes,
FileHandle,
NULL);
if (!NT_SUCCESS(Status)) return Status;
/* FIXME: Should zero last page for a file mapping */
/* Now insert the object */
Status = ObInsertObject(SectionObject,
NULL,
DesiredAccess,
0,
NULL,
&Handle);
if (NT_SUCCESS(Status))
{
/* Enter SEH */
_SEH2_TRY
{
/* Return the handle safely */
*SectionHandle = Handle;
}
_SEH2_EXCEPT(EXCEPTION_EXECUTE_HANDLER)
{
/* Nothing here */
}
_SEH2_END;
}
/* Return the status */
return Status;
}
NTSTATUS
NTAPI
NtOpenSection(OUT PHANDLE SectionHandle,
IN ACCESS_MASK DesiredAccess,
IN POBJECT_ATTRIBUTES ObjectAttributes)
{
HANDLE Handle;
NTSTATUS Status;
KPROCESSOR_MODE PreviousMode = ExGetPreviousMode();
PAGED_CODE();
/* Check for user-mode caller */
if (PreviousMode != KernelMode)
{
/* Enter SEH */
_SEH2_TRY
{
/* Safely check user-mode parameters */
ProbeForWriteHandle(SectionHandle);
}
_SEH2_EXCEPT(EXCEPTION_EXECUTE_HANDLER)
{
/* Return the exception code */
_SEH2_YIELD(return _SEH2_GetExceptionCode());
}
_SEH2_END;
}
/* Try opening the object */
Status = ObOpenObjectByName(ObjectAttributes,
MmSectionObjectType,
PreviousMode,
NULL,
DesiredAccess,
NULL,
&Handle);
/* Enter SEH */
_SEH2_TRY
{
/* Return the handle safely */
*SectionHandle = Handle;
}
_SEH2_EXCEPT(EXCEPTION_EXECUTE_HANDLER)
{
/* Nothing here */
}
_SEH2_END;
/* Return the status */
return Status;
}
NTSTATUS
NTAPI
NtMapViewOfSection(IN HANDLE SectionHandle,
IN HANDLE ProcessHandle,
IN OUT PVOID* BaseAddress,
IN ULONG_PTR ZeroBits,
IN SIZE_T CommitSize,
IN OUT PLARGE_INTEGER SectionOffset OPTIONAL,
IN OUT PSIZE_T ViewSize,
IN SECTION_INHERIT InheritDisposition,
IN ULONG AllocationType,
IN ULONG Protect)
{
PVOID SafeBaseAddress;
LARGE_INTEGER SafeSectionOffset;
SIZE_T SafeViewSize;
PSECTION Section;
PEPROCESS Process;
NTSTATUS Status;
ACCESS_MASK DesiredAccess;
ULONG ProtectionMask;
KPROCESSOR_MODE PreviousMode = ExGetPreviousMode();
#if defined(_M_IX86) || defined(_M_AMD64)
static const ULONG ValidAllocationType = (MEM_TOP_DOWN | MEM_LARGE_PAGES |
MEM_DOS_LIM | SEC_NO_CHANGE | MEM_RESERVE);
#else
static const ULONG ValidAllocationType = (MEM_TOP_DOWN | MEM_LARGE_PAGES |
SEC_NO_CHANGE | MEM_RESERVE);
#endif
/* Check for invalid inherit disposition */
if ((InheritDisposition > ViewUnmap) || (InheritDisposition < ViewShare))
{
DPRINT1("Invalid inherit disposition\n");
return STATUS_INVALID_PARAMETER_8;
}
/* Allow only valid allocation types */
if (AllocationType & ~ValidAllocationType)
{
DPRINT1("Invalid allocation type\n");
return STATUS_INVALID_PARAMETER_9;
}
/* Convert the protection mask, and validate it */
ProtectionMask = MiMakeProtectionMask(Protect);
if (ProtectionMask == MM_INVALID_PROTECTION)
{
DPRINT1("Invalid page protection\n");
return STATUS_INVALID_PAGE_PROTECTION;
}
/* Now convert the protection mask into desired section access mask */
DesiredAccess = MmMakeSectionAccess[ProtectionMask & 0x7];
/* Assume no section offset */
SafeSectionOffset.QuadPart = 0;
/* Enter SEH */
_SEH2_TRY
{
/* Check for unsafe parameters */
if (PreviousMode != KernelMode)
{
/* Probe the parameters */
ProbeForWritePointer(BaseAddress);
ProbeForWriteSize_t(ViewSize);
}
/* Check if a section offset was given */
if (SectionOffset)
{
/* Check for unsafe parameters and capture section offset */
if (PreviousMode != KernelMode) ProbeForWriteLargeInteger(SectionOffset);
SafeSectionOffset = *SectionOffset;
}
/* Capture the other parameters */
SafeBaseAddress = *BaseAddress;
SafeViewSize = *ViewSize;
}
_SEH2_EXCEPT(EXCEPTION_EXECUTE_HANDLER)
{
/* Return the exception code */
_SEH2_YIELD(return _SEH2_GetExceptionCode());
}
_SEH2_END;
/* Check for kernel-mode address */
if (SafeBaseAddress > MM_HIGHEST_VAD_ADDRESS)
{
DPRINT1("Kernel base not allowed\n");
return STATUS_INVALID_PARAMETER_3;
}
/* Check for range entering kernel-mode */
if (((ULONG_PTR)MM_HIGHEST_VAD_ADDRESS - (ULONG_PTR)SafeBaseAddress) < SafeViewSize)
{
DPRINT1("Overflowing into kernel base not allowed\n");
return STATUS_INVALID_PARAMETER_3;
}
/* Check for invalid zero bits */
if (ZeroBits)
{
if (ZeroBits > MI_MAX_ZERO_BITS)
{
DPRINT1("Invalid zero bits\n");
return STATUS_INVALID_PARAMETER_4;
}
if ((((ULONG_PTR)SafeBaseAddress << ZeroBits) >> ZeroBits) != (ULONG_PTR)SafeBaseAddress)
{
DPRINT1("Invalid zero bits\n");
return STATUS_INVALID_PARAMETER_4;
}
if (((((ULONG_PTR)SafeBaseAddress + SafeViewSize) << ZeroBits) >> ZeroBits) != ((ULONG_PTR)SafeBaseAddress + SafeViewSize))
{
DPRINT1("Invalid zero bits\n");
return STATUS_INVALID_PARAMETER_4;
}
}
/* Reference the process */
Status = ObReferenceObjectByHandle(ProcessHandle,
PROCESS_VM_OPERATION,
PsProcessType,
PreviousMode,
(PVOID*)&Process,
NULL);
if (!NT_SUCCESS(Status)) return Status;
/* Reference the section */
Status = ObReferenceObjectByHandle(SectionHandle,
DesiredAccess,
MmSectionObjectType,
PreviousMode,
(PVOID*)&Section,
NULL);
if (!NT_SUCCESS(Status))
{
ObDereferenceObject(Process);
return Status;
}
if (Section->u.Flags.PhysicalMemory)
{
if (PreviousMode == UserMode &&
SafeSectionOffset.QuadPart + SafeViewSize > MmHighestPhysicalPage << PAGE_SHIFT)
{
DPRINT1("Denying map past highest physical page.\n");
ObDereferenceObject(Section);
ObDereferenceObject(Process);
return STATUS_INVALID_PARAMETER_6;
}
}
else if (!(AllocationType & MEM_DOS_LIM))
{
/* Check for non-allocation-granularity-aligned BaseAddress */
if (SafeBaseAddress != ALIGN_DOWN_POINTER_BY(SafeBaseAddress, MM_VIRTMEM_GRANULARITY))
{
DPRINT("BaseAddress is not at 64-kilobyte address boundary.\n");
ObDereferenceObject(Section);
ObDereferenceObject(Process);
return STATUS_MAPPED_ALIGNMENT;
}
/* Do the same for the section offset */
if (SafeSectionOffset.LowPart != ALIGN_DOWN_BY(SafeSectionOffset.LowPart, MM_VIRTMEM_GRANULARITY))
{
DPRINT("SectionOffset is not at 64-kilobyte address boundary.\n");
ObDereferenceObject(Section);
ObDereferenceObject(Process);
return STATUS_MAPPED_ALIGNMENT;
}
}
/* Now do the actual mapping */
Status = MmMapViewOfSection(Section,
Process,
&SafeBaseAddress,
ZeroBits,
CommitSize,
&SafeSectionOffset,
&SafeViewSize,
InheritDisposition,
AllocationType,
Protect);
/* Return data only on success */
if (NT_SUCCESS(Status))
{
/* Check if this is an image for the current process */
if ((Section->u.Flags.Image) &&
(Process == PsGetCurrentProcess()) &&
(Status != STATUS_IMAGE_NOT_AT_BASE))
{
/* Notify the debugger */
DbgkMapViewOfSection(Section,
SafeBaseAddress,
SafeSectionOffset.LowPart,
SafeViewSize);
}
/* Enter SEH */
_SEH2_TRY
{
/* Return parameters to user */
*BaseAddress = SafeBaseAddress;
*ViewSize = SafeViewSize;
if (SectionOffset) *SectionOffset = SafeSectionOffset;
}
_SEH2_EXCEPT(EXCEPTION_EXECUTE_HANDLER)
{
/* Nothing to do */
}
_SEH2_END;
}
/* Dereference all objects and return status */
ObDereferenceObject(Section);
ObDereferenceObject(Process);
return Status;
}
NTSTATUS
NTAPI
NtUnmapViewOfSection(IN HANDLE ProcessHandle,
IN PVOID BaseAddress)
{
PEPROCESS Process;
NTSTATUS Status;
KPROCESSOR_MODE PreviousMode = ExGetPreviousMode();
/* Don't allowing mapping kernel views */
if ((PreviousMode == UserMode) && (BaseAddress > MM_HIGHEST_USER_ADDRESS))
{
DPRINT1("Trying to unmap a kernel view\n");
return STATUS_NOT_MAPPED_VIEW;
}
/* Reference the process */
Status = ObReferenceObjectByHandle(ProcessHandle,
PROCESS_VM_OPERATION,
PsProcessType,
PreviousMode,
(PVOID*)&Process,
NULL);
if (!NT_SUCCESS(Status)) return Status;
/* Unmap the view */
Status = MiUnmapViewOfSection(Process, BaseAddress, 0);
/* Dereference the process and return status */
ObDereferenceObject(Process);
return Status;
}
NTSTATUS
NTAPI
NtExtendSection(IN HANDLE SectionHandle,
IN OUT PLARGE_INTEGER NewMaximumSize)
{
LARGE_INTEGER SafeNewMaximumSize;
PSECTION Section;
NTSTATUS Status;
KPROCESSOR_MODE PreviousMode = ExGetPreviousMode();
/* Check for user-mode parameters */
if (PreviousMode != KernelMode)
{
/* Enter SEH */
_SEH2_TRY
{
/* Probe and capture the maximum size, it's both read and write */
ProbeForWriteLargeInteger(NewMaximumSize);
SafeNewMaximumSize = *NewMaximumSize;
}
_SEH2_EXCEPT(EXCEPTION_EXECUTE_HANDLER)
{
/* Return the exception code */
_SEH2_YIELD(return _SEH2_GetExceptionCode());
}
_SEH2_END;
}
else
{
/* Just read the size directly */
SafeNewMaximumSize = *NewMaximumSize;
}
/* Reference the section */
Status = ObReferenceObjectByHandle(SectionHandle,
SECTION_EXTEND_SIZE,
MmSectionObjectType,
PreviousMode,
(PVOID*)&Section,
NULL);
if (!NT_SUCCESS(Status)) return Status;
Status = MmExtendSection(Section, &SafeNewMaximumSize);
/* Dereference the section */
ObDereferenceObject(Section);
if (NT_SUCCESS(Status))
{
_SEH2_TRY
{
/* Write back the new size */
*NewMaximumSize = SafeNewMaximumSize;
}
_SEH2_EXCEPT(EXCEPTION_EXECUTE_HANDLER)
{
Status = _SEH2_GetExceptionCode();
}
_SEH2_END;
}
/* Return the status */
return STATUS_NOT_IMPLEMENTED;
}
/* EOF */
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