Source code of Windows XP (NT5)
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/*++
Copyright (c) 1989 Microsoft Corporation
Module Name:
wrtfault.c
Abstract:
This module contains the copy on write routine for memory management.
Author:
Lou Perazzoli (loup) 10-Apr-1989
Revision History:
--*/
#include "mi.h"
LOGICAL
FASTCALL
MiCopyOnWrite (
IN PVOID FaultingAddress,
IN PMMPTE PointerPte
)
/*++
Routine Description:
This routine performs a copy on write operation for the specified
virtual address.
Arguments:
FaultingAddress - Supplies the virtual address which caused the
fault.
PointerPte - Supplies the pointer to the PTE which caused the
page fault.
Return Value:
Returns TRUE if the page was actually split, FALSE if not.
Environment:
Kernel mode, APCs disabled, working set mutex held.
--*/
{
MMPTE TempPte;
PFN_NUMBER PageFrameIndex;
PFN_NUMBER NewPageIndex;
PULONG CopyTo;
PULONG CopyFrom;
KIRQL OldIrql;
PMMPFN Pfn1;
PEPROCESS CurrentProcess;
PMMCLONE_BLOCK CloneBlock;
PMMCLONE_DESCRIPTOR CloneDescriptor;
PVOID VirtualAddress;
WSLE_NUMBER WorkingSetIndex;
LOGICAL FakeCopyOnWrite;
FakeCopyOnWrite = FALSE;
CurrentProcess = PsGetCurrentProcess ();
//
// This is called from MmAccessFault, the PointerPte is valid
// and the working set mutex ensures it cannot change state.
//
// Capture the PTE contents to TempPte.
//
TempPte = *PointerPte;
//
// Check to see if this is a prototype PTE with copy on write
// enabled.
//
if (TempPte.u.Hard.CopyOnWrite == 0) {
//
// This is a fork page which is being made private in order
// to change the protection of the page.
// Do not make the page writable.
//
FakeCopyOnWrite = TRUE;
}
PageFrameIndex = MI_GET_PAGE_FRAME_FROM_PTE (&TempPte);
Pfn1 = MI_PFN_ELEMENT (PageFrameIndex);
VirtualAddress = MiGetVirtualAddressMappedByPte (PointerPte);
WorkingSetIndex = MiLocateWsle (VirtualAddress, MmWorkingSetList,
Pfn1->u1.WsIndex);
//
// The page must be copied into a new page.
//
//
// If a fork operation is in progress, block until the fork is completed,
// then retry the whole operation as the state of everything may have
// changed between when the mutexes were released and reacquired.
//
if (CurrentProcess->ForkInProgress != NULL) {
if (MiWaitForForkToComplete (CurrentProcess, FALSE) == TRUE) {
return FALSE;
}
}
LOCK_PFN (OldIrql);
if (MiEnsureAvailablePageOrWait (CurrentProcess, NULL)) {
//
// A wait operation was performed to obtain an available
// page and the working set mutex and PFN lock have
// been released and various things may have changed for
// the worse. Rather than examine all the conditions again,
// return and if things are still proper, the fault will
// be taken again.
//
UNLOCK_PFN (OldIrql);
return FALSE;
}
//
// Increment the number of private pages.
//
CurrentProcess->NumberOfPrivatePages += 1;
MmInfoCounters.CopyOnWriteCount += 1;
//
// A page is being copied and made private, the global state of
// the shared page needs to be updated at this point on certain
// hardware. This is done by ORing the dirty bit into the modify bit in
// the PFN element.
//
MI_CAPTURE_DIRTY_BIT_TO_PFN (PointerPte, Pfn1);
//
// This must be a prototype PTE. Perform the copy on write.
//
#if DBG
if (Pfn1->u3.e1.PrototypePte == 0) {
DbgPrint("writefault - PTE indicates cow but not protopte\n");
MiFormatPte(PointerPte);
MiFormatPfn(Pfn1);
}
#endif
CloneBlock = (PMMCLONE_BLOCK)Pfn1->PteAddress;
//
// Get a new page with the same color as this page.
//
NewPageIndex = MiRemoveAnyPage (
MI_PAGE_COLOR_PTE_PROCESS(PageFrameIndex,
&CurrentProcess->NextPageColor));
MiInitializeCopyOnWritePfn (NewPageIndex, PointerPte, WorkingSetIndex, NULL);
UNLOCK_PFN (OldIrql);
CopyTo = (PULONG)MiMapPageInHyperSpace (CurrentProcess, NewPageIndex, &OldIrql);
#if defined(_MIALT4K_)
//
// Avoid accessing user space as it may potentially
// cause a page fault on the alternate table.
//
CopyFrom = KSEG_ADDRESS(PointerPte->u.Hard.PageFrameNumber);
#else
CopyFrom = (PULONG)MiGetVirtualAddressMappedByPte (PointerPte);
#endif
RtlCopyMemory ( CopyTo, CopyFrom, PAGE_SIZE);
PERFINFO_PRIVATE_COPY_ON_WRITE(CopyFrom, PAGE_SIZE);
MiUnmapPageInHyperSpace (CurrentProcess, CopyTo, OldIrql);
if (!FakeCopyOnWrite) {
//
// If the page was really a copy on write page, make it
// accessed, dirty and writable. Also, clear the copy-on-write
// bit in the PTE.
//
MI_SET_PTE_DIRTY (TempPte);
TempPte.u.Hard.Write = 1;
MI_SET_ACCESSED_IN_PTE (&TempPte, 1);
TempPte.u.Hard.CopyOnWrite = 0;
TempPte.u.Hard.PageFrameNumber = NewPageIndex;
}
else {
//
// The page was not really a copy on write, just change
// the frame field of the PTE.
//
TempPte.u.Hard.PageFrameNumber = NewPageIndex;
}
//
// If the modify bit is set in the PFN database for the
// page, the data cache must be flushed. This is due to the
// fact that this process may have been cloned and the cache
// still contains stale data destined for the page we are
// going to remove.
//
ASSERT (TempPte.u.Hard.Valid == 1);
LOCK_PFN (OldIrql);
//
// Flush the TB entry for this page.
//
KeFlushSingleTb (FaultingAddress,
TRUE,
FALSE,
(PHARDWARE_PTE)PointerPte,
TempPte.u.Flush);
//
// Decrement the share count for the page which was copied
// as this PTE no longer refers to it.
//
MiDecrementShareCount (PageFrameIndex);
CloneDescriptor = MiLocateCloneAddress (CurrentProcess, (PVOID)CloneBlock);
if (CloneDescriptor != NULL) {
//
// Decrement the reference count for the clone block,
// note that this could release and reacquire the mutexes.
//
MiDecrementCloneBlockReference (CloneDescriptor,
CloneBlock,
CurrentProcess);
}
UNLOCK_PFN (OldIrql);
return TRUE;
}
#if !defined(NT_UP) || defined (_IA64_)
VOID
MiSetDirtyBit (
IN PVOID FaultingAddress,
IN PMMPTE PointerPte,
IN ULONG PfnHeld
)
/*++
Routine Description:
This routine sets dirty in the specified PTE and the modify bit in the
corresponding PFN element. If any page file space is allocated, it
is deallocated.
Arguments:
FaultingAddress - Supplies the faulting address.
PointerPte - Supplies a pointer to the corresponding valid PTE.
PfnHeld - Supplies TRUE if the PFN lock is already held.
Return Value:
None.
Environment:
Kernel mode, APCs disabled, Working set mutex held.
--*/
{
MMPTE TempPte;
PFN_NUMBER PageFrameIndex;
PMMPFN Pfn1;
//
// The page is NOT copy on write, update the PTE setting both the
// dirty bit and the accessed bit. Note, that as this PTE is in
// the TB, the TB must be flushed.
//
TempPte = *PointerPte;
MI_SET_PTE_DIRTY (TempPte);
MI_SET_ACCESSED_IN_PTE (&TempPte, 1);
MI_WRITE_VALID_PTE_NEW_PROTECTION(PointerPte, TempPte);
//
// Check state of PFN lock and if not held, don't update PFN database.
//
if (PfnHeld) {
PageFrameIndex = MI_GET_PAGE_FRAME_FROM_PTE(PointerPte);
Pfn1 = MI_PFN_ELEMENT (PageFrameIndex);
//
// Set the modified field in the PFN database, also, if the physical
// page is currently in a paging file, free up the page file space
// as the contents are now worthless.
//
if ((Pfn1->OriginalPte.u.Soft.Prototype == 0) &&
(Pfn1->u3.e1.WriteInProgress == 0)) {
//
// This page is in page file format, deallocate the page file space.
//
MiReleasePageFileSpace (Pfn1->OriginalPte);
//
// Change original PTE to indicate no page file space is reserved,
// otherwise the space will be deallocated when the PTE is
// deleted.
//
Pfn1->OriginalPte.u.Soft.PageFileHigh = 0;
}
MI_SET_MODIFIED (Pfn1, 1, 0x17);
}
//
// The TB entry must be flushed as the valid PTE with the dirty bit clear
// has been fetched into the TB. If it isn't flushed, another fault
// is generated as the dirty bit is not set in the cached TB entry.
//
KeFillEntryTb ((PHARDWARE_PTE)PointerPte, FaultingAddress, TRUE);
return;
}
#endif