db/d76/ntoskrnl_2mm_2ARM3_2procsup_8c_source.html

 /*

  * PROJECT:         ReactOS Kernel

  * LICENSE:         BSD - See COPYING.ARM in the top level directory

  * FILE:            ntoskrnl/mm/ARM3/procsup.c

  * PURPOSE:         ARM Memory Manager Process Related Management

  * 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 ********************************************************************/


 ULONG MmProcessColorSeed = 0x12345678;

 PMMWSL MmWorkingSetList;

 ULONG MmMaximumDeadKernelStacks = 5;

 SLIST_HEADER MmDeadStackSListHead;


 /* PRIVATE FUNCTIONS **********************************************************/


 NTSTATUS

 NTAPI

 MiCreatePebOrTeb(IN PEPROCESS Process,

                  IN ULONG Size,

                  OUT PULONG_PTR BaseAddress)

 {

     PMMVAD_LONG Vad;

     NTSTATUS Status;

     ULONG_PTR HighestAddress, RandomBase;

     ULONG AlignedSize;

     LARGE_INTEGER CurrentTime;


     /* Allocate a VAD */

     Vad = ExAllocatePoolWithTag(NonPagedPool, sizeof(MMVAD_LONG), 'ldaV');

     if (!Vad) return STATUS_NO_MEMORY;


     /* Setup the primary flags with the size, and make it commited, private, RW */

     Vad->u.LongFlags = 0;

     Vad->u.VadFlags.CommitCharge = BYTES_TO_PAGES(Size);

     Vad->u.VadFlags.MemCommit = TRUE;

     Vad->u.VadFlags.PrivateMemory = TRUE;

     Vad->u.VadFlags.Protection = MM_READWRITE;

     Vad->u.VadFlags.NoChange = TRUE;

     Vad->u1.Parent = NULL;


     /* Setup the secondary flags to make it a secured, writable, long VAD */

     Vad->u2.LongFlags2 = 0;

     Vad->u2.VadFlags2.OneSecured = TRUE;

     Vad->u2.VadFlags2.LongVad = TRUE;

     Vad->u2.VadFlags2.ReadOnly = FALSE;


     Vad->ControlArea = NULL; // For Memory-Area hack

     Vad->FirstPrototypePte = NULL;


     /* Check if this is a PEB creation */

     ASSERT(sizeof(TEB) != sizeof(PEB));

     if (Size == sizeof(PEB))

     {

         /* Create a random value to select one page in a 64k region */

         KeQueryTickCount(&CurrentTime);

         CurrentTime.LowPart &= (_64K / PAGE_SIZE) - 1;


         /* Calculate a random base address */

         RandomBase = (ULONG_PTR)MM_HIGHEST_VAD_ADDRESS + 1;

         RandomBase -= CurrentTime.LowPart << PAGE_SHIFT;


         /* Make sure the base address is not too high */

         AlignedSize = ROUND_TO_PAGES(Size);

         if ((RandomBase + AlignedSize) > (ULONG_PTR)MM_HIGHEST_VAD_ADDRESS + 1)

         {

             RandomBase = (ULONG_PTR)MM_HIGHEST_VAD_ADDRESS + 1 - AlignedSize;

         }


         /* Calculate the highest allowed address */

         HighestAddress = RandomBase + AlignedSize - 1;

     }

     else

     {

         HighestAddress = (ULONG_PTR)MM_HIGHEST_VAD_ADDRESS;

     }


     *BaseAddress = 0;

     Status = MiInsertVadEx((PMMVAD)Vad,

                            BaseAddress,

                            Size,

                            HighestAddress,

                            PAGE_SIZE,

                            MEM_TOP_DOWN);

     if (!NT_SUCCESS(Status))

     {

         ExFreePoolWithTag(Vad, 'ldaV');

         return STATUS_NO_MEMORY;

     }


     /* Success */

     return STATUS_SUCCESS;

 }


 VOID

 NTAPI

 MmDeleteTeb(IN PEPROCESS Process,

             IN PTEB Teb)

 {

     ULONG_PTR TebEnd;

     PETHREAD Thread = PsGetCurrentThread();

     PMMVAD Vad;

     PMM_AVL_TABLE VadTree = &Process->VadRoot;

     DPRINT("Deleting TEB: %p in %16s\n", Teb, Process->ImageFileName);


     /* TEB is one page */

     TebEnd = (ULONG_PTR)Teb + ROUND_TO_PAGES(sizeof(TEB)) - 1;


     /* Attach to the process */

     KeAttachProcess(&Process->Pcb);


     /* Lock the process address space */

     KeAcquireGuardedMutex(&Process->AddressCreationLock);


     /* Find the VAD, make sure it's a TEB VAD */

     Vad = MiLocateAddress(Teb);

     DPRINT("Removing node for VAD: %lx %lx\n", Vad->StartingVpn, Vad->EndingVpn);

     ASSERT(Vad != NULL);

     if (Vad->StartingVpn != ((ULONG_PTR)Teb >> PAGE_SHIFT))

     {

         /* Bug in the AVL code? */

         DPRINT1("Corrupted VAD!\n");

     }

     else

     {

         /* Sanity checks for a valid TEB VAD */

         ASSERT((Vad->StartingVpn == ((ULONG_PTR)Teb >> PAGE_SHIFT) &&

                (Vad->EndingVpn == (TebEnd >> PAGE_SHIFT))));

         ASSERT(Vad->u.VadFlags.NoChange == TRUE);

         ASSERT(Vad->u2.VadFlags2.OneSecured == TRUE);

         ASSERT(Vad->u2.VadFlags2.MultipleSecured == FALSE);


         /* Lock the working set */

         MiLockProcessWorkingSetUnsafe(Process, Thread);


         /* Remove this VAD from the tree */

         ASSERT(VadTree->NumberGenericTableElements >= 1);

         MiRemoveNode((PMMADDRESS_NODE)Vad, VadTree);


         /* Delete the pages */

         MiDeleteVirtualAddresses((ULONG_PTR)Teb, TebEnd, NULL);


         /* Release the working set */

         MiUnlockProcessWorkingSetUnsafe(Process, Thread);


         /* Remove the VAD */

         ExFreePool(Vad);

     }


     /* Release the address space lock */

     KeReleaseGuardedMutex(&Process->AddressCreationLock);


     /* Detach */

     KeDetachProcess();

 }


 VOID

 NTAPI

 MmDeleteKernelStack(IN PVOID StackBase,

                     IN BOOLEAN GuiStack)

 {

     PMMPTE PointerPte;

     PFN_NUMBER PageFrameNumber, PageTableFrameNumber;

     PFN_COUNT StackPages;

     PMMPFN Pfn1, Pfn2;

     ULONG i;

     KIRQL OldIrql;

     PSLIST_ENTRY SListEntry;


     //

     // This should be the guard page, so decrement by one

     //

     PointerPte = MiAddressToPte(StackBase);

     PointerPte--;


     //

     // If this is a small stack, just push the stack onto the dead stack S-LIST

     //

     if (!GuiStack)

     {

         if (ExQueryDepthSList(&MmDeadStackSListHead) < MmMaximumDeadKernelStacks)

         {

             SListEntry = ((PSLIST_ENTRY)StackBase) - 1;

             InterlockedPushEntrySList(&MmDeadStackSListHead, SListEntry);

             return;

         }

     }


     //

     // Calculate pages used

     //

     StackPages = BYTES_TO_PAGES(GuiStack ?

                                 MmLargeStackSize : KERNEL_STACK_SIZE);


     /* Acquire the PFN lock */

     OldIrql = MiAcquirePfnLock();


     //

     // Loop them

     //

     for (i = 0; i < StackPages; i++)

     {

         //

         // Check if this is a valid PTE

         //

         if (PointerPte->u.Hard.Valid == 1)

         {

             /* Get the PTE's page */

             PageFrameNumber = PFN_FROM_PTE(PointerPte);

             Pfn1 = MiGetPfnEntry(PageFrameNumber);


             /* Now get the page of the page table mapping it */

             PageTableFrameNumber = Pfn1->u4.PteFrame;

             Pfn2 = MiGetPfnEntry(PageTableFrameNumber);


             /* Remove a shared reference, since the page is going away */

             MiDecrementShareCount(Pfn2, PageTableFrameNumber);


             /* Set the special pending delete marker */

             MI_SET_PFN_DELETED(Pfn1);


             /* And now delete the actual stack page */

             MiDecrementShareCount(Pfn1, PageFrameNumber);

         }


         //

         // Next one

         //

         PointerPte--;

     }


     //

     // We should be at the guard page now

     //

     ASSERT(PointerPte->u.Hard.Valid == 0);


     /* Release the PFN lock */

     MiReleasePfnLock(OldIrql);


     //

     // Release the PTEs

     //

     MiReleaseSystemPtes(PointerPte, StackPages + 1, SystemPteSpace);

 }


 PVOID

 NTAPI

 MmCreateKernelStack(IN BOOLEAN GuiStack,

                     IN UCHAR Node)

 {

     PFN_COUNT StackPtes, StackPages;

     PMMPTE PointerPte, StackPte;

     PVOID BaseAddress;

     MMPTE TempPte, InvalidPte;

     KIRQL OldIrql;

     PFN_NUMBER PageFrameIndex;

     ULONG i;

     PSLIST_ENTRY SListEntry;


     //

     // Calculate pages needed

     //

     if (GuiStack)

     {

         //

         // We'll allocate 64KB stack, but only commit 12K

         //

         StackPtes = BYTES_TO_PAGES(MmLargeStackSize);

         StackPages = BYTES_TO_PAGES(KERNEL_LARGE_STACK_COMMIT);

     }

     else

     {

         //

         // If the dead stack S-LIST has a stack on it, use it instead of allocating

         // new system PTEs for this stack

         //

         if (ExQueryDepthSList(&MmDeadStackSListHead))

         {

             SListEntry = InterlockedPopEntrySList(&MmDeadStackSListHead);

             if (SListEntry != NULL)

             {

                 BaseAddress = (SListEntry + 1);

                 return BaseAddress;

             }

         }


         //

         // We'll allocate 12K and that's it

         //

         StackPtes = BYTES_TO_PAGES(KERNEL_STACK_SIZE);

         StackPages = StackPtes;

     }


     //

     // Reserve stack pages, plus a guard page

     //

     StackPte = MiReserveSystemPtes(StackPtes + 1, SystemPteSpace);

     if (!StackPte) return NULL;


     //

     // Get the stack address

     //

     BaseAddress = MiPteToAddress(StackPte + StackPtes + 1);


     //

     // Select the right PTE address where we actually start committing pages

     //

     PointerPte = StackPte;

     if (GuiStack) PointerPte += BYTES_TO_PAGES(MmLargeStackSize -

                                                KERNEL_LARGE_STACK_COMMIT);


     /* Setup the temporary invalid PTE */

     MI_MAKE_SOFTWARE_PTE(&InvalidPte, MM_NOACCESS);


     /* Setup the template stack PTE */

     MI_MAKE_HARDWARE_PTE_KERNEL(&TempPte, PointerPte + 1, MM_READWRITE, 0);


     //

     // Acquire the PFN DB lock

     //

     OldIrql = MiAcquirePfnLock();


     //

     // Loop each stack page

     //

     for (i = 0; i < StackPages; i++)

     {

         //

         // Next PTE

         //

         PointerPte++;


         /* Get a page and write the current invalid PTE */

         MI_SET_USAGE(MI_USAGE_KERNEL_STACK);

         MI_SET_PROCESS2(PsGetCurrentProcess()->ImageFileName);

         PageFrameIndex = MiRemoveAnyPage(MI_GET_NEXT_COLOR());

         MI_WRITE_INVALID_PTE(PointerPte, InvalidPte);


         /* Initialize the PFN entry for this page */

         MiInitializePfn(PageFrameIndex, PointerPte, 1);


         /* Write the valid PTE */

         TempPte.u.Hard.PageFrameNumber = PageFrameIndex;

         MI_WRITE_VALID_PTE(PointerPte, TempPte);

     }


     //

     // Release the PFN lock

     //

     MiReleasePfnLock(OldIrql);


     //

     // Return the stack address

     //

     return BaseAddress;

 }


 NTSTATUS

 NTAPI

 MmGrowKernelStackEx(IN PVOID StackPointer,

                     IN ULONG GrowSize)

 {

     PKTHREAD Thread = KeGetCurrentThread();

     PMMPTE LimitPte, NewLimitPte, LastPte;

     KIRQL OldIrql;

     MMPTE TempPte, InvalidPte;

     PFN_NUMBER PageFrameIndex;


     //

     // Make sure the stack did not overflow

     //

     ASSERT(((ULONG_PTR)Thread->StackBase - (ULONG_PTR)Thread->StackLimit) <=

            (MmLargeStackSize + PAGE_SIZE));


     //

     // Get the current stack limit

     //

     LimitPte = MiAddressToPte(Thread->StackLimit);

     ASSERT(LimitPte->u.Hard.Valid == 1);


     //

     // Get the new one and make sure this isn't a retarded request

     //

     NewLimitPte = MiAddressToPte((PVOID)((ULONG_PTR)StackPointer - GrowSize));

     if (NewLimitPte == LimitPte) return STATUS_SUCCESS;


     //

     // Now make sure you're not going past the reserved space

     //

     LastPte = MiAddressToPte((PVOID)((ULONG_PTR)Thread->StackBase -

                                      MmLargeStackSize));

     if (NewLimitPte < LastPte)

     {

         //

         // Sorry!

         //

         DPRINT1("Thread wants too much stack\n");

         return STATUS_STACK_OVERFLOW;

     }


     //

     // Calculate the number of new pages

     //

     LimitPte--;


     /* Setup the temporary invalid PTE */

     MI_MAKE_SOFTWARE_PTE(&InvalidPte, MM_NOACCESS);


     //

     // Acquire the PFN DB lock

     //

     OldIrql = MiAcquirePfnLock();


     //

     // Loop each stack page

     //

     while (LimitPte >= NewLimitPte)

     {

         /* Get a page and write the current invalid PTE */

         MI_SET_USAGE(MI_USAGE_KERNEL_STACK_EXPANSION);

         MI_SET_PROCESS2(PsGetCurrentProcess()->ImageFileName);

         PageFrameIndex = MiRemoveAnyPage(MI_GET_NEXT_COLOR());

         MI_WRITE_INVALID_PTE(LimitPte, InvalidPte);


         /* Initialize the PFN entry for this page */

         MiInitializePfn(PageFrameIndex, LimitPte, 1);


         /* Setup the template stack PTE */

         MI_MAKE_HARDWARE_PTE_KERNEL(&TempPte, LimitPte, MM_READWRITE, PageFrameIndex);


         /* Write the valid PTE */

         MI_WRITE_VALID_PTE(LimitPte--, TempPte);

     }


     //

     // Release the PFN lock

     //

     MiReleasePfnLock(OldIrql);


     //

     // Set the new limit

     //

     Thread->StackLimit = (ULONG_PTR)MiPteToAddress(NewLimitPte);

     return STATUS_SUCCESS;

 }


 NTSTATUS

 NTAPI

 MmGrowKernelStack(IN PVOID StackPointer)

 {

     //

     // Call the extended version

     //

     return MmGrowKernelStackEx(StackPointer, KERNEL_LARGE_STACK_COMMIT);

 }


 NTSTATUS

 NTAPI

 MmSetMemoryPriorityProcess(IN PEPROCESS Process,

                            IN UCHAR MemoryPriority)

 {

     UCHAR OldPriority;


     //

     // Check if we have less then 16MB of Physical Memory

     //

     if ((MmSystemSize == MmSmallSystem) &&

         (MmNumberOfPhysicalPages < ((15 * 1024 * 1024) / PAGE_SIZE)))

     {

         //

         // Always use background priority

         //

         MemoryPriority = MEMORY_PRIORITY_BACKGROUND;

     }


     //

     // Save the old priority and update it

     //

     OldPriority = (UCHAR)Process->Vm.Flags.MemoryPriority;

     Process->Vm.Flags.MemoryPriority = MemoryPriority;


     //

     // Return the old priority

     //

     return OldPriority;

 }


 NTSTATUS

 NTAPI

 MmCreatePeb(IN PEPROCESS Process,

             IN PINITIAL_PEB InitialPeb,

             OUT PPEB *BasePeb)

 {

     PPEB Peb = NULL;

     LARGE_INTEGER SectionOffset;

     SIZE_T ViewSize = 0;

     PVOID TableBase = NULL;

     PIMAGE_NT_HEADERS NtHeaders;

     PIMAGE_LOAD_CONFIG_DIRECTORY ImageConfigData;

     NTSTATUS Status;

     USHORT Characteristics;

     KAFFINITY ProcessAffinityMask = 0;

     SectionOffset.QuadPart = (ULONGLONG)0;

     *BasePeb = NULL;


     //

     // Attach to Process

     //

     KeAttachProcess(&Process->Pcb);


     //

     // Map NLS Tables

     //

     Status = MmMapViewOfSection(ExpNlsSectionPointer,

                                 (PEPROCESS)Process,

                                 &TableBase,

                                 0,

                                 0,

                                 &SectionOffset,

                                 &ViewSize,

                                 ViewShare,

                                 MEM_TOP_DOWN,

                                 PAGE_READONLY);

     DPRINT("NLS Tables at: %p\n", TableBase);

     if (!NT_SUCCESS(Status))

     {

         /* Cleanup and exit */

         KeDetachProcess();

         return Status;

     }


     //

     // Allocate the PEB

     //

     Status = MiCreatePebOrTeb(Process, sizeof(PEB), (PULONG_PTR)&Peb);

     DPRINT("PEB at: %p\n", Peb);

     if (!NT_SUCCESS(Status))

     {

         /* Cleanup and exit */

         KeDetachProcess();

         return Status;

     }


     //

     // Use SEH in case we can't load the PEB

     //

     _SEH2_TRY

     {

         //

         // Initialize the PEB

         //

         RtlZeroMemory(Peb, sizeof(PEB));


         //

         // Set up data

         //

         Peb->ImageBaseAddress = Process->SectionBaseAddress;

         Peb->InheritedAddressSpace = InitialPeb->InheritedAddressSpace;

         Peb->Mutant = InitialPeb->Mutant;

         Peb->ImageUsesLargePages = InitialPeb->ImageUsesLargePages;


         //

         // NLS

         //

         Peb->AnsiCodePageData = (PCHAR)TableBase + ExpAnsiCodePageDataOffset;

         Peb->OemCodePageData = (PCHAR)TableBase + ExpOemCodePageDataOffset;

         Peb->UnicodeCaseTableData = (PCHAR)TableBase + ExpUnicodeCaseTableDataOffset;


         //

         // Default Version Data (could get changed below)

         //

         Peb->OSMajorVersion = NtMajorVersion;

         Peb->OSMinorVersion = NtMinorVersion;

         Peb->OSBuildNumber = (USHORT)(NtBuildNumber & 0x3FFF);

         Peb->OSPlatformId = VER_PLATFORM_WIN32_NT;

         Peb->OSCSDVersion = (USHORT)CmNtCSDVersion;


         //

         // Heap and Debug Data

         //

         Peb->NumberOfProcessors = KeNumberProcessors;

         Peb->BeingDebugged = (BOOLEAN)(Process->DebugPort != NULL);

         Peb->NtGlobalFlag = NtGlobalFlag;

         Peb->HeapSegmentReserve = MmHeapSegmentReserve;

         Peb->HeapSegmentCommit = MmHeapSegmentCommit;

         Peb->HeapDeCommitTotalFreeThreshold = MmHeapDeCommitTotalFreeThreshold;

         Peb->HeapDeCommitFreeBlockThreshold = MmHeapDeCommitFreeBlockThreshold;

         Peb->CriticalSectionTimeout = MmCriticalSectionTimeout;

         Peb->MinimumStackCommit = MmMinimumStackCommitInBytes;

         Peb->MaximumNumberOfHeaps = (PAGE_SIZE - sizeof(PEB)) / sizeof(PVOID);

         Peb->ProcessHeaps = (PVOID*)(Peb + 1);


         //

         // Session ID

         //

         if (Process->Session) Peb->SessionId = MmGetSessionId(Process);

     }

     _SEH2_EXCEPT(EXCEPTION_EXECUTE_HANDLER)

     {

         //

         // Fail

         //

         KeDetachProcess();

         _SEH2_YIELD(return _SEH2_GetExceptionCode());

     }

     _SEH2_END;


     //

     // Use SEH in case we can't load the image

     //

     _SEH2_TRY

     {

         //

         // Get NT Headers

         //

         NtHeaders = RtlImageNtHeader(Peb->ImageBaseAddress);

         Characteristics = NtHeaders->FileHeader.Characteristics;

     }

     _SEH2_EXCEPT(EXCEPTION_EXECUTE_HANDLER)

     {

         //

         // Fail

         //

         KeDetachProcess();

         _SEH2_YIELD(return STATUS_INVALID_IMAGE_PROTECT);

     }

     _SEH2_END;


     //

     // Parse the headers

     //

     if (NtHeaders)

     {

         //

         // Use SEH in case we can't load the headers

         //

         _SEH2_TRY

         {

             //

             // Get the Image Config Data too

             //

             ImageConfigData = RtlImageDirectoryEntryToData(Peb->ImageBaseAddress,

                                                            TRUE,

                                                            IMAGE_DIRECTORY_ENTRY_LOAD_CONFIG,

                                                            (PULONG)&ViewSize);

             if (ImageConfigData)

             {

                 //

                 // Probe it

                 //

                 ProbeForRead(ImageConfigData,

                              sizeof(IMAGE_LOAD_CONFIG_DIRECTORY),

                              sizeof(ULONG));

             }


             //

             // Write subsystem data

             //

             Peb->ImageSubsystem = NtHeaders->OptionalHeader.Subsystem;

             Peb->ImageSubsystemMajorVersion = NtHeaders->OptionalHeader.MajorSubsystemVersion;

             Peb->ImageSubsystemMinorVersion = NtHeaders->OptionalHeader.MinorSubsystemVersion;


             //

             // Check for version data

             //

             if (NtHeaders->OptionalHeader.Win32VersionValue)

             {

                 //

                 // Extract values and write them

                 //

                 Peb->OSMajorVersion = NtHeaders->OptionalHeader.Win32VersionValue & 0xFF;

                 Peb->OSMinorVersion = (NtHeaders->OptionalHeader.Win32VersionValue >> 8) & 0xFF;

                 Peb->OSBuildNumber = (NtHeaders->OptionalHeader.Win32VersionValue >> 16) & 0x3FFF;

                 Peb->OSPlatformId = (NtHeaders->OptionalHeader.Win32VersionValue >> 30) ^ 2;


                 /* Process CSD version override */

                 if ((ImageConfigData) && (ImageConfigData->CSDVersion))

                 {

                     /* Take the value from the image configuration directory */

                     Peb->OSCSDVersion = ImageConfigData->CSDVersion;

                 }

             }


             /* Process optional process affinity mask override */

             if ((ImageConfigData) && (ImageConfigData->ProcessAffinityMask))

             {

                 /* Take the value from the image configuration directory */

                 ProcessAffinityMask = ImageConfigData->ProcessAffinityMask;

             }


             //

             // Check if this is a UP image

             if (Characteristics & IMAGE_FILE_UP_SYSTEM_ONLY)

             {

                 //

                 // Force it to use CPU 0

                 //

                 /* FIXME: this should use the MmRotatingUniprocessorNumber */

                 Peb->ImageProcessAffinityMask = 0;

             }

             else

             {

                 //

                 // Whatever was configured

                 //

                 Peb->ImageProcessAffinityMask = ProcessAffinityMask;

             }

         }

         _SEH2_EXCEPT(EXCEPTION_EXECUTE_HANDLER)

         {

             //

             // Fail

             //

             KeDetachProcess();

             _SEH2_YIELD(return STATUS_INVALID_IMAGE_PROTECT);

         }

         _SEH2_END;

     }


     //

     // Detach from the Process

     //

     KeDetachProcess();

     *BasePeb = Peb;

     return STATUS_SUCCESS;

 }


 NTSTATUS

 NTAPI

 MmCreateTeb(IN PEPROCESS Process,

             IN PCLIENT_ID ClientId,

             IN PINITIAL_TEB InitialTeb,

             OUT PTEB *BaseTeb)

 {

     PTEB Teb;

     NTSTATUS Status = STATUS_SUCCESS;

     *BaseTeb = NULL;


     //

     // Attach to Target

     //

     KeAttachProcess(&Process->Pcb);


     //

     // Allocate the TEB

     //

     Status = MiCreatePebOrTeb(Process, sizeof(TEB), (PULONG_PTR)&Teb);

     if (!NT_SUCCESS(Status))

     {

         /* Cleanup and exit */

         KeDetachProcess();

         return Status;

     }


     //

     // Use SEH in case we can't load the TEB

     //

     _SEH2_TRY

     {

         //

         // Initialize the PEB

         //

         RtlZeroMemory(Teb, sizeof(TEB));


         //

         // Set TIB Data

         //

 #ifdef _M_AMD64

         Teb->NtTib.ExceptionList = NULL;

 #else

         Teb->NtTib.ExceptionList = EXCEPTION_CHAIN_END;

 #endif

         Teb->NtTib.Self = (PNT_TIB)Teb;


         //

         // Identify this as an OS/2 V3.0 ("Cruiser") TIB

         //

         Teb->NtTib.Version = 30 << 8;


         //

         // Set TEB Data

         //

         Teb->ClientId = *ClientId;

         Teb->RealClientId = *ClientId;

         Teb->ProcessEnvironmentBlock = Process->Peb;

         Teb->CurrentLocale = PsDefaultThreadLocaleId;


         //

         // Check if we have a grandparent TEB

         //

         if ((InitialTeb->PreviousStackBase == NULL) &&

             (InitialTeb->PreviousStackLimit == NULL))

         {

             //

             // Use initial TEB values

             //

             Teb->NtTib.StackBase = InitialTeb->StackBase;

             Teb->NtTib.StackLimit = InitialTeb->StackLimit;

             Teb->DeallocationStack = InitialTeb->AllocatedStackBase;

         }

         else

         {

             //

             // Use grandparent TEB values

             //

             Teb->NtTib.StackBase = InitialTeb->PreviousStackBase;

             Teb->NtTib.StackLimit = InitialTeb->PreviousStackLimit;

         }


         //

         // Initialize the static unicode string

         //

         Teb->StaticUnicodeString.MaximumLength = sizeof(Teb->StaticUnicodeBuffer);

         Teb->StaticUnicodeString.Buffer = Teb->StaticUnicodeBuffer;

     }

     _SEH2_EXCEPT(EXCEPTION_EXECUTE_HANDLER)

     {

         //

         // Get error code

         //

         Status = _SEH2_GetExceptionCode();

     }

     _SEH2_END;


     //

     // Return

     //

     KeDetachProcess();

     *BaseTeb = Teb;

     return Status;

 }


 VOID

 NTAPI

 MiInitializeWorkingSetList(IN PEPROCESS CurrentProcess)

 {

     PMMPFN Pfn1;

     PMMPTE sysPte;

     MMPTE tempPte;


     /* Setup some bogus list data */

     MmWorkingSetList->LastEntry = CurrentProcess->Vm.MinimumWorkingSetSize;

     MmWorkingSetList->HashTable = NULL;

     MmWorkingSetList->HashTableSize = 0;

     MmWorkingSetList->NumberOfImageWaiters = 0;

     MmWorkingSetList->Wsle = (PVOID)(ULONG_PTR)0xDEADBABEDEADBABEULL;

     MmWorkingSetList->VadBitMapHint = 1;

     MmWorkingSetList->HashTableStart = (PVOID)(ULONG_PTR)0xBADAB00BBADAB00BULL;

     MmWorkingSetList->HighestPermittedHashAddress = (PVOID)(ULONG_PTR)0xCAFEBABECAFEBABEULL;

     MmWorkingSetList->FirstFree = 1;

     MmWorkingSetList->FirstDynamic = 2;

     MmWorkingSetList->NextSlot = 3;

     MmWorkingSetList->LastInitializedWsle = 4;


     /* The rule is that the owner process is always in the FLINK of the PDE's PFN entry */

     Pfn1 = MiGetPfnEntry(CurrentProcess->Pcb.DirectoryTableBase[0] >> PAGE_SHIFT);

     ASSERT(Pfn1->u4.PteFrame == MiGetPfnEntryIndex(Pfn1));

     Pfn1->u1.Event = (PKEVENT)CurrentProcess;


     /* Map the process working set in kernel space */

     sysPte = MiReserveSystemPtes(1, SystemPteSpace);

     MI_MAKE_HARDWARE_PTE_KERNEL(&tempPte, sysPte, MM_READWRITE, CurrentProcess->WorkingSetPage);

     MI_WRITE_VALID_PTE(sysPte, tempPte);

     CurrentProcess->Vm.VmWorkingSetList = MiPteToAddress(sysPte);

 }


 NTSTATUS

 NTAPI

 MmInitializeProcessAddressSpace(IN PEPROCESS Process,

                                 IN PEPROCESS ProcessClone OPTIONAL,

                                 IN PVOID Section OPTIONAL,

                                 IN OUT PULONG Flags,

                                 IN POBJECT_NAME_INFORMATION *AuditName OPTIONAL)

 {

     NTSTATUS Status = STATUS_SUCCESS;

     SIZE_T ViewSize = 0;

     PVOID ImageBase = 0;

     PROS_SECTION_OBJECT SectionObject = Section;

     PMMPTE PointerPte;

     KIRQL OldIrql;

     PMMPDE PointerPde;

     PFN_NUMBER PageFrameNumber;

     UNICODE_STRING FileName;

     PWCHAR Source;

     PCHAR Destination;

     USHORT Length = 0;

     MMPTE TempPte;


     /* We should have a PDE */

     ASSERT(Process->Pcb.DirectoryTableBase[0] != 0);

     ASSERT(Process->PdeUpdateNeeded == FALSE);


     /* Attach to the process */

     KeAttachProcess(&Process->Pcb);


     /* The address space should now been in phase 1 or 0 */

     ASSERT(Process->AddressSpaceInitialized <= 1);

     Process->AddressSpaceInitialized = 2;


     /* Initialize the Addresss Space lock */

     KeInitializeGuardedMutex(&Process->AddressCreationLock);

     Process->Vm.WorkingSetExpansionLinks.Flink = NULL;


     /* Initialize AVL tree */

     ASSERT(Process->VadRoot.NumberGenericTableElements == 0);

     Process->VadRoot.BalancedRoot.u1.Parent = &Process->VadRoot.BalancedRoot;


     /* Lock PFN database */

     OldIrql = MiAcquirePfnLock();


     /* Setup the PFN for the PDE base of this process */

 #ifdef _M_AMD64

     PointerPte = MiAddressToPte(PXE_BASE);

 #else

     PointerPte = MiAddressToPte(PDE_BASE);

 #endif

     PageFrameNumber = PFN_FROM_PTE(PointerPte);

     ASSERT(Process->Pcb.DirectoryTableBase[0] == PageFrameNumber * PAGE_SIZE);

     MiInitializePfn(PageFrameNumber, PointerPte, TRUE);


     /* Do the same for hyperspace */

 #ifdef _M_AMD64

     PointerPde = MiAddressToPxe((PVOID)HYPER_SPACE);

 #else

     PointerPde = MiAddressToPde(HYPER_SPACE);

 #endif

     PageFrameNumber = PFN_FROM_PTE(PointerPde);

     //ASSERT(Process->Pcb.DirectoryTableBase[0] == PageFrameNumber * PAGE_SIZE); // we're not lucky

     MiInitializePfn(PageFrameNumber, (PMMPTE)PointerPde, TRUE);


     /* Setup the PFN for the PTE for the working set */

     PointerPte = MiAddressToPte(MI_WORKING_SET_LIST);

     MI_MAKE_HARDWARE_PTE(&TempPte, PointerPte, MM_READWRITE, 0);

     ASSERT(PointerPte->u.Long != 0);

     PageFrameNumber = PFN_FROM_PTE(PointerPte);

     MI_WRITE_INVALID_PTE(PointerPte, DemandZeroPte);

     MiInitializePfn(PageFrameNumber, PointerPte, TRUE);

     TempPte.u.Hard.PageFrameNumber = PageFrameNumber;

     MI_WRITE_VALID_PTE(PointerPte, TempPte);


     /* Now initialize the working set list */

     MiInitializeWorkingSetList(Process);


     /* Sanity check */

     ASSERT(Process->PhysicalVadRoot == NULL);


     /* Release PFN lock */

     MiReleasePfnLock(OldIrql);


     /* Check if there's a Section Object */

     if (SectionObject)

     {

         /* Determine the image file name and save it to EPROCESS */

         FileName = SectionObject->FileObject->FileName;

         Source = (PWCHAR)((PCHAR)FileName.Buffer + FileName.Length);

         if (FileName.Buffer)

         {

             /* Loop the file name*/

             while (Source > FileName.Buffer)

             {

                 /* Make sure this isn't a backslash */

                 if (*--Source == OBJ_NAME_PATH_SEPARATOR)

                 {

                     /* If so, stop it here */

                     Source++;

                     break;

                 }

                 else

                 {

                     /* Otherwise, keep going */

                     Length++;

                 }

             }

         }


         /* Copy the to the process and truncate it to 15 characters if necessary */

         Destination = Process->ImageFileName;

         Length = min(Length, sizeof(Process->ImageFileName) - 1);

         while (Length--) *Destination++ = (UCHAR)*Source++;

         *Destination = ANSI_NULL;


         /* Check if caller wants an audit name */

         if (AuditName)

         {

             /* Setup the audit name */

             Status = SeInitializeProcessAuditName(SectionObject->FileObject,

                                                   FALSE,

                                                   AuditName);

             if (!NT_SUCCESS(Status))

             {

                 /* Fail */

                 KeDetachProcess();

                 return Status;

             }

         }


         /* Map the section */

         Status = MmMapViewOfSection(Section,

                                     Process,

                                     (PVOID*)&ImageBase,

                                     0,

                                     0,

                                     NULL,

                                     &ViewSize,

                                     0,

                                     MEM_COMMIT,

                                     PAGE_READWRITE);


         /* Save the pointer */

         Process->SectionBaseAddress = ImageBase;

     }


     /* Be nice and detach */

     KeDetachProcess();


     /* Return status to caller */

     return Status;

 }


 NTSTATUS

 NTAPI

 INIT_FUNCTION

 MmInitializeHandBuiltProcess(IN PEPROCESS Process,

                              IN PULONG_PTR DirectoryTableBase)

 {

     /* Share the directory base with the idle process */

     DirectoryTableBase[0] = PsGetCurrentProcess()->Pcb.DirectoryTableBase[0];

     DirectoryTableBase[1] = PsGetCurrentProcess()->Pcb.DirectoryTableBase[1];


     /* Initialize the Addresss Space */

     KeInitializeGuardedMutex(&Process->AddressCreationLock);

     KeInitializeSpinLock(&Process->HyperSpaceLock);

     Process->Vm.WorkingSetExpansionLinks.Flink = NULL;

     ASSERT(Process->VadRoot.NumberGenericTableElements == 0);

     Process->VadRoot.BalancedRoot.u1.Parent = &Process->VadRoot.BalancedRoot;


     /* Use idle process Working set */

     Process->Vm.VmWorkingSetList = PsGetCurrentProcess()->Vm.VmWorkingSetList;


     /* Done */

     Process->HasAddressSpace = TRUE;//??

     return STATUS_SUCCESS;

 }


 NTSTATUS

 NTAPI

 INIT_FUNCTION

 MmInitializeHandBuiltProcess2(IN PEPROCESS Process)

 {

     /* Lock the VAD, ARM3-owned ranges away */

     return STATUS_SUCCESS;

 }


 #ifdef _M_IX86

 /* FIXME: Evaluate ways to make this portable yet arch-specific */

 BOOLEAN

 NTAPI

 MmCreateProcessAddressSpace(IN ULONG MinWs,

                             IN PEPROCESS Process,

                             OUT PULONG_PTR DirectoryTableBase)

 {

     KIRQL OldIrql;

     PFN_NUMBER PdeIndex, HyperIndex, WsListIndex;

     PMMPTE PointerPte;

     MMPTE TempPte, PdePte;

     ULONG PdeOffset;

     PMMPTE SystemTable, HyperTable;

     ULONG Color;

     PMMPFN Pfn1;


     /* Choose a process color */

     Process->NextPageColor = (USHORT)RtlRandom(&MmProcessColorSeed);


     /* Setup the hyperspace lock */

     KeInitializeSpinLock(&Process->HyperSpaceLock);


     /* Lock PFN database */

     OldIrql = MiAcquirePfnLock();


     /* Get a zero page for the PDE, if possible */

     Color = MI_GET_NEXT_PROCESS_COLOR(Process);

     MI_SET_USAGE(MI_USAGE_PAGE_DIRECTORY);

     PdeIndex = MiRemoveZeroPageSafe(Color);

     if (!PdeIndex)

     {

         /* No zero pages, grab a free one */

         PdeIndex = MiRemoveAnyPage(Color);


         /* Zero it outside the PFN lock */

         MiReleasePfnLock(OldIrql);

         MiZeroPhysicalPage(PdeIndex);

         OldIrql = MiAcquirePfnLock();

     }


     /* Get a zero page for hyperspace, if possible */

     MI_SET_USAGE(MI_USAGE_PAGE_DIRECTORY);

     Color = MI_GET_NEXT_PROCESS_COLOR(Process);

     HyperIndex = MiRemoveZeroPageSafe(Color);

     if (!HyperIndex)

     {

         /* No zero pages, grab a free one */

         HyperIndex = MiRemoveAnyPage(Color);


         /* Zero it outside the PFN lock */

         MiReleasePfnLock(OldIrql);

         MiZeroPhysicalPage(HyperIndex);

         OldIrql = MiAcquirePfnLock();

     }


     /* Get a zero page for the woring set list, if possible */

     MI_SET_USAGE(MI_USAGE_PAGE_TABLE);

     Color = MI_GET_NEXT_PROCESS_COLOR(Process);

     WsListIndex = MiRemoveZeroPageSafe(Color);

     if (!WsListIndex)

     {

         /* No zero pages, grab a free one */

         WsListIndex = MiRemoveAnyPage(Color);


         /* Zero it outside the PFN lock */

         MiReleasePfnLock(OldIrql);

         MiZeroPhysicalPage(WsListIndex);

     }

     else

     {

         /* Release the PFN lock */

         MiReleasePfnLock(OldIrql);

     }


     /* Switch to phase 1 initialization */

     ASSERT(Process->AddressSpaceInitialized == 0);

     Process->AddressSpaceInitialized = 1;


     /* Set the base directory pointers */

     Process->WorkingSetPage = WsListIndex;

     DirectoryTableBase[0] = PdeIndex << PAGE_SHIFT;

     DirectoryTableBase[1] = HyperIndex << PAGE_SHIFT;


     /* Make sure we don't already have a page directory setup */

     ASSERT(Process->Pcb.DirectoryTableBase[0] == 0);


     /* Get a PTE to map hyperspace */

     PointerPte = MiReserveSystemPtes(1, SystemPteSpace);

     ASSERT(PointerPte != NULL);


     /* Build it */

     MI_MAKE_HARDWARE_PTE_KERNEL(&PdePte,

                                 PointerPte,

                                 MM_READWRITE,

                                 HyperIndex);


     /* Set it dirty and map it */

     MI_MAKE_DIRTY_PAGE(&PdePte);

     MI_WRITE_VALID_PTE(PointerPte, PdePte);


     /* Now get hyperspace's page table */

     HyperTable = MiPteToAddress(PointerPte);


     /* Now write the PTE/PDE entry for the working set list index itself */

     TempPte = ValidKernelPteLocal;

     TempPte.u.Hard.PageFrameNumber = WsListIndex;

     PdeOffset = MiAddressToPteOffset(MmWorkingSetList);

     HyperTable[PdeOffset] = TempPte;


     /* Let go of the system PTE */

     MiReleaseSystemPtes(PointerPte, 1, SystemPteSpace);


     /* Save the PTE address of the page directory itself */

     Pfn1 = MiGetPfnEntry(PdeIndex);

     Pfn1->PteAddress = (PMMPTE)PDE_BASE;


     /* Insert us into the Mm process list */

     OldIrql = MiAcquireExpansionLock();

     InsertTailList(&MmProcessList, &Process->MmProcessLinks);

     MiReleaseExpansionLock(OldIrql);


     /* Get a PTE to map the page directory */

     PointerPte = MiReserveSystemPtes(1, SystemPteSpace);

     ASSERT(PointerPte != NULL);


     /* Build it */

     MI_MAKE_HARDWARE_PTE_KERNEL(&PdePte,

                                 PointerPte,

                                 MM_READWRITE,

                                 PdeIndex);


     /* Set it dirty and map it */

     MI_MAKE_DIRTY_PAGE(&PdePte);

     MI_WRITE_VALID_PTE(PointerPte, PdePte);


     /* Now get the page directory (which we'll double map, so call it a page table */

     SystemTable = MiPteToAddress(PointerPte);


     /* Copy all the kernel mappings */

     PdeOffset = MiGetPdeOffset(MmSystemRangeStart);

     RtlCopyMemory(&SystemTable[PdeOffset],

                   MiAddressToPde(MmSystemRangeStart),

                   PAGE_SIZE - PdeOffset * sizeof(MMPTE));


     /* Now write the PTE/PDE entry for hyperspace itself */

     TempPte = ValidKernelPteLocal;

     TempPte.u.Hard.PageFrameNumber = HyperIndex;

     PdeOffset = MiGetPdeOffset(HYPER_SPACE);

     SystemTable[PdeOffset] = TempPte;


     /* Sanity check */

     PdeOffset++;

     ASSERT(MiGetPdeOffset(MmHyperSpaceEnd) >= PdeOffset);


     /* Now do the x86 trick of making the PDE a page table itself */

     PdeOffset = MiGetPdeOffset(PTE_BASE);

     TempPte.u.Hard.PageFrameNumber = PdeIndex;

     SystemTable[PdeOffset] = TempPte;


     /* Let go of the system PTE */

     MiReleaseSystemPtes(PointerPte, 1, SystemPteSpace);


     /* Add the process to the session */

     MiSessionAddProcess(Process);

     return TRUE;

 }

 #endif


 VOID

 NTAPI

 MmCleanProcessAddressSpace(IN PEPROCESS Process)

 {

     PMMVAD Vad;

     PMM_AVL_TABLE VadTree;

     PETHREAD Thread = PsGetCurrentThread();


     /* Only support this */

     ASSERT(Process->AddressSpaceInitialized == 2);


     /* Remove from the session */

     MiSessionRemoveProcess();


     /* Lock the process address space from changes */

     MmLockAddressSpace(&Process->Vm);

     MiLockProcessWorkingSetUnsafe(Process, Thread);


     /* VM is deleted now */

     Process->VmDeleted = TRUE;

     MiUnlockProcessWorkingSetUnsafe(Process, Thread);


     /* Enumerate the VADs */

     VadTree = &Process->VadRoot;

     while (VadTree->NumberGenericTableElements)

     {

         /* Grab the current VAD */

         Vad = (PMMVAD)VadTree->BalancedRoot.RightChild;


         /* Check for old-style memory areas */

         if (Vad->u.VadFlags.Spare == 1)

         {

             /* Let RosMm handle this */

             MiRosCleanupMemoryArea(Process, Vad);

             continue;

         }


         /* Lock the working set */

         MiLockProcessWorkingSetUnsafe(Process, Thread);


         /* Remove this VAD from the tree */

         ASSERT(VadTree->NumberGenericTableElements >= 1);

         MiRemoveNode((PMMADDRESS_NODE)Vad, VadTree);


         /* Only regular VADs supported for now */

         ASSERT(Vad->u.VadFlags.VadType == VadNone);


         /* Check if this is a section VAD */

         if (!(Vad->u.VadFlags.PrivateMemory) && (Vad->ControlArea))

         {

             /* Remove the view */

             MiRemoveMappedView(Process, Vad);

         }

         else

         {

             /* Delete the addresses */

             MiDeleteVirtualAddresses(Vad->StartingVpn << PAGE_SHIFT,

                                      (Vad->EndingVpn << PAGE_SHIFT) | (PAGE_SIZE - 1),

                                      Vad);


             /* Release the working set */

             MiUnlockProcessWorkingSetUnsafe(Process, Thread);

         }


          /* Skip ARM3 fake VADs, they'll be freed by MmDeleteProcessAddresSpace */

         if (Vad->u.VadFlags.Spare == 1)

         {

             /* Set a flag so MmDeleteMemoryArea knows to free, but not to remove */

             Vad->u.VadFlags.Spare = 2;

             continue;

         }


         /* Free the VAD memory */

         ExFreePool(Vad);

     }


     /* Lock the working set */

     MiLockProcessWorkingSetUnsafe(Process, Thread);

     ASSERT(Process->CloneRoot == NULL);

     ASSERT(Process->PhysicalVadRoot == NULL);


     /* Delete the shared user data section */

     MiDeleteVirtualAddresses(USER_SHARED_DATA, USER_SHARED_DATA, NULL);


     /* Release the working set */

     MiUnlockProcessWorkingSetUnsafe(Process, Thread);


     /* Release the address space */

     MmUnlockAddressSpace(&Process->Vm);

 }


 VOID

 NTAPI

 MmDeleteProcessAddressSpace2(IN PEPROCESS Process)

 {

     PMMPFN Pfn1, Pfn2;

     KIRQL OldIrql;

     PFN_NUMBER PageFrameIndex;


     //ASSERT(Process->CommitCharge == 0);


     /* Acquire the PFN lock */

     OldIrql = MiAcquirePfnLock();


     /* Check for fully initialized process */

     if (Process->AddressSpaceInitialized == 2)

     {

         /* Map the working set page and its page table */

         Pfn1 = MiGetPfnEntry(Process->WorkingSetPage);

         Pfn2 = MiGetPfnEntry(Pfn1->u4.PteFrame);


         /* Nuke it */

         MI_SET_PFN_DELETED(Pfn1);

         MiDecrementShareCount(Pfn2, Pfn1->u4.PteFrame);

         MiDecrementShareCount(Pfn1, Process->WorkingSetPage);

         ASSERT((Pfn1->u3.e2.ReferenceCount == 0) || (Pfn1->u3.e1.WriteInProgress));

         MiReleaseSystemPtes(MiAddressToPte(Process->Vm.VmWorkingSetList), 1, SystemPteSpace);


         /* Now map hyperspace and its page table */

         PageFrameIndex = Process->Pcb.DirectoryTableBase[1] >> PAGE_SHIFT;

         Pfn1 = MiGetPfnEntry(PageFrameIndex);

         Pfn2 = MiGetPfnEntry(Pfn1->u4.PteFrame);


         /* Nuke it */

         MI_SET_PFN_DELETED(Pfn1);

         MiDecrementShareCount(Pfn2, Pfn1->u4.PteFrame);

         MiDecrementShareCount(Pfn1, PageFrameIndex);

         ASSERT((Pfn1->u3.e2.ReferenceCount == 0) || (Pfn1->u3.e1.WriteInProgress));


         /* Finally, nuke the PDE itself */

         PageFrameIndex = Process->Pcb.DirectoryTableBase[0] >> PAGE_SHIFT;

         Pfn1 = MiGetPfnEntry(PageFrameIndex);

         MI_SET_PFN_DELETED(Pfn1);

         MiDecrementShareCount(Pfn1, PageFrameIndex);

         MiDecrementShareCount(Pfn1, PageFrameIndex);


         /* Page table is now dead. Bye bye... */

         ASSERT((Pfn1->u3.e2.ReferenceCount == 0) || (Pfn1->u3.e1.WriteInProgress));

     }

     else

     {

         /* A partly-initialized process should never exit through here */

         ASSERT(FALSE);

     }


     /* Release the PFN lock */

     MiReleasePfnLock(OldIrql);


     /* Drop a reference on the session */

     if (Process->Session) MiReleaseProcessReferenceToSessionDataPage(Process->Session);


     /* Clear out the PDE pages */

     Process->Pcb.DirectoryTableBase[0] = 0;

     Process->Pcb.DirectoryTableBase[1] = 0;

 }


 /* SYSTEM CALLS ***************************************************************/


 NTSTATUS

 NTAPI

 NtAllocateUserPhysicalPages(IN HANDLE ProcessHandle,

                             IN OUT PULONG_PTR NumberOfPages,

                             IN OUT PULONG_PTR UserPfnArray)

 {

     UNIMPLEMENTED;

     return STATUS_NOT_IMPLEMENTED;

 }


 NTSTATUS

 NTAPI

 NtMapUserPhysicalPages(IN PVOID VirtualAddresses,

                        IN ULONG_PTR NumberOfPages,

                        IN OUT PULONG_PTR UserPfnArray)

 {

     UNIMPLEMENTED;

     return STATUS_NOT_IMPLEMENTED;

 }


 NTSTATUS

 NTAPI

 NtMapUserPhysicalPagesScatter(IN PVOID *VirtualAddresses,

                               IN ULONG_PTR NumberOfPages,

                               IN OUT PULONG_PTR UserPfnArray)

 {

     UNIMPLEMENTED;

     return STATUS_NOT_IMPLEMENTED;

 }


 NTSTATUS

 NTAPI

 NtFreeUserPhysicalPages(IN HANDLE ProcessHandle,

                         IN OUT PULONG_PTR NumberOfPages,

                         IN OUT PULONG_PTR UserPfnArray)

 {

     UNIMPLEMENTED;

     return STATUS_NOT_IMPLEMENTED;

 }


 /* EOF */

SectionObject
_Must_inspect_result_ _Outptr_ PVOID * SectionObject
Definition: fsrtlfuncs.h:860

PVOID
DWORD *typedef PVOID
Definition: winlogon.h:61

_MM_AVL_TABLE
Definition: mmtypes.h:661

MI_MAKE_SOFTWARE_PTE
#define MI_MAKE_SOFTWARE_PTE(p, x)
Definition: miarm.h:158

_MMPFN::e2
struct _MMPFN::@1722::@1728 e2

PCHAR
signed char * PCHAR
Definition: retypes.h:7

RtlRandom
NTSYSAPI ULONG NTAPI RtlRandom(_Inout_ PULONG Seed)

VadNone
Definition: mmtypes.h:194

MiInitializePfn
VOID NTAPI MiInitializePfn(IN PFN_NUMBER PageFrameIndex, IN PMMPTE PointerPte, IN BOOLEAN Modified)
Definition: pfnlist.c:969

MI_USAGE_KERNEL_STACK_EXPANSION
Definition: mm.h:264

PAGE_SHIFT
#define PAGE_SHIFT
Definition: env_spec_w32.h:45

IN
#define IN
Definition: typedefs.h:38

_IMAGE_OPTIONAL_HEADER::Win32VersionValue
DWORD Win32VersionValue
Definition: ntddk_ex.h:166

_KTHREAD
Definition: ketypes.h:1549

MmCreateKernelStack
PVOID NTAPI MmCreateKernelStack(IN BOOLEAN GuiStack, IN UCHAR Node)
Definition: procsup.c:258

VER_PLATFORM_WIN32_NT
#define VER_PLATFORM_WIN32_NT
Definition: rtltypes.h:236

MmCleanProcessAddressSpace
VOID NTAPI MmCleanProcessAddressSpace(IN PEPROCESS Process)
Definition: procsup.c:1236

MmHeapDeCommitTotalFreeThreshold
SIZE_T MmHeapDeCommitTotalFreeThreshold
Definition: mminit.c:368

TRUE
#define TRUE
Definition: types.h:120

RtlCopyMemory
NTSYSAPI VOID NTAPI RtlCopyMemory(VOID UNALIGNED *Destination, CONST VOID UNALIGNED *Source, ULONG Length)

PKEVENT
struct _KEVENT * PKEVENT

NonPagedPool
Definition: ketypes.h:866

MiSessionRemoveProcess
VOID NTAPI MiSessionRemoveProcess(VOID)
Definition: session.c:396

Peb
PPEB Peb
Definition: dllmain.c:27

_MMVAD_FLAGS2::ReadOnly
ULONG ReadOnly
Definition: mmtypes.h:711

MiUnlockProcessWorkingSetUnsafe
FORCEINLINE VOID MiUnlockProcessWorkingSetUnsafe(IN PEPROCESS Process, IN PETHREAD Thread)
Definition: miarm.h:1179

_MMWSL::HashTableStart
PVOID HashTableStart
Definition: mmtypes.h:866

MiAddressToPde
#define MiAddressToPde(x)
Definition: mmx86.c:20

MiAcquireExpansionLock
FORCEINLINE KIRQL MiAcquireExpansionLock(VOID)
Definition: miarm.h:1350

_IMAGE_OPTIONAL_HEADER::MinorSubsystemVersion
WORD MinorSubsystemVersion
Definition: ntddk_ex.h:165

PsGetCurrentThread
#define PsGetCurrentThread()
Definition: env_spec_w32.h:81

STATUS_NOT_IMPLEMENTED
#define STATUS_NOT_IMPLEMENTED
Definition: ntstatus.h:225

KeAcquireGuardedMutex
VOID FASTCALL KeAcquireGuardedMutex(IN PKGUARDED_MUTEX GuardedMutex)
Definition: gmutex.c:42

_MMVAD_LONG::Parent
PMMVAD Parent
Definition: mmtypes.h:755

MiReleaseProcessReferenceToSessionDataPage
VOID NTAPI MiReleaseProcessReferenceToSessionDataPage(IN PMM_SESSION_SPACE SessionGlobal)
Definition: session.c:210

PFN_COUNT
ULONG PFN_COUNT
Definition: mmtypes.h:102

_MMVAD_LONG::u2
union _MMVAD_LONG::@2492 u2

_MMVAD_FLAGS2::OneSecured
ULONG OneSecured
Definition: mmtypes.h:709

ASSERT
ASSERT((InvokeOnSuccess||InvokeOnError||InvokeOnCancel)?(CompletionRoutine!=NULL):TRUE)

_MMVAD
Definition: mmtypes.h:721

MiReserveSystemPtes
PMMPTE NTAPI MiReserveSystemPtes(IN ULONG NumberOfPtes, IN MMSYSTEM_PTE_POOL_TYPE SystemPtePoolType)
Definition: syspte.c:246

_MMWSL::FirstDynamic
ULONG FirstDynamic
Definition: mmtypes.h:857

MmUnlockAddressSpace
FORCEINLINE VOID MmUnlockAddressSpace(PMMSUPPORT AddressSpace)
Definition: mm.h:1410

_MMVAD_LONG::VadFlags
MMVAD_FLAGS VadFlags
Definition: mmtypes.h:764

_MMVAD_FLAGS::CommitCharge
ULONG_PTR CommitCharge
Definition: mmtypes.h:692

_UNICODE_STRING::Length
USHORT Length
Definition: env_spec_w32.h:369

MM_READWRITE
#define MM_READWRITE
Definition: miarm.h:51

_MMWSL::HighestPermittedHashAddress
PVOID HighestPermittedHashAddress
Definition: mmtypes.h:867

Source
VOID * Source
Definition: acefiex.h:744

_MM_AVL_TABLE::NumberGenericTableElements
ULONG_PTR NumberGenericTableElements
Definition: mmtypes.h:669

MI_GET_NEXT_COLOR
#define MI_GET_NEXT_COLOR()
Definition: miarm.h:211

NtMapUserPhysicalPagesScatter
NTSTATUS NTAPI NtMapUserPhysicalPagesScatter(IN PVOID *VirtualAddresses, IN ULONG_PTR NumberOfPages, IN OUT PULONG_PTR UserPfnArray)
Definition: procsup.c:1415

_IMAGE_OPTIONAL_HEADER::MajorSubsystemVersion
WORD MajorSubsystemVersion
Definition: ntddk_ex.h:164

MM_NOACCESS
#define MM_NOACCESS
Definition: miarm.h:69

MiAcquirePfnLock
FORCEINLINE KIRQL MiAcquirePfnLock(VOID)
Definition: mm.h:894

_MMADDRESS_NODE
Definition: mmtypes.h:645

_OBJECT_NAME_INFORMATION
Definition: nt_native.h:1269

_MMVAD::u
union _MMVAD::@2488 u

NtFreeUserPhysicalPages
NTSTATUS NTAPI NtFreeUserPhysicalPages(IN HANDLE ProcessHandle, IN OUT PULONG_PTR NumberOfPages, IN OUT PULONG_PTR UserPfnArray)
Definition: procsup.c:1425

_MMVAD_LONG::ControlArea
PCONTROL_AREA ControlArea
Definition: mmtypes.h:766

_MMVAD_FLAGS::Protection
ULONG_PTR Protection
Definition: mmtypes.h:697

_MMVAD_FLAGS2::LongVad
ULONG LongVad
Definition: mmtypes.h:712

_EPROCESS
Definition: pstypes.h:1191

MiZeroPhysicalPage
VOID NTAPI MiZeroPhysicalPage(IN PFN_NUMBER PageFrameIndex)
Definition: pfnlist.c:122

PWCHAR
uint16_t * PWCHAR
Definition: typedefs.h:54

InsertTailList
#define InsertTailList(ListHead, Entry)
Definition: env_spec_w32.h:1003

KERNEL_LARGE_STACK_COMMIT
#define KERNEL_LARGE_STACK_COMMIT

PsDefaultThreadLocaleId
LCID PsDefaultThreadLocaleId
Definition: locale.c:25

_MMVAD_LONG::LongFlags
ULONG_PTR LongFlags
Definition: mmtypes.h:763

MmMinimumStackCommitInBytes
SIZE_T MmMinimumStackCommitInBytes
Definition: mminit.c:370

MEM_COMMIT
#define MEM_COMMIT
Definition: nt_native.h:1313

MiRosCleanupMemoryArea
VOID NTAPI MiRosCleanupMemoryArea(PEPROCESS Process, PMMVAD Vad)
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volatile VOID * StackLimit
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PMMPTE FORCEINLINE MiAddressToPxe(PVOID Address)
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FORCEINLINE PMMPFN MiGetPfnEntry(IN PFN_NUMBER Pfn)
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Definition: mmtypes.h:215

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VOID NTAPI MiDeleteVirtualAddresses(IN ULONG_PTR Va, IN ULONG_PTR EndingAddress, IN PMMVAD Vad)
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PFN_NUMBER NTAPI MiRemoveAnyPage(IN ULONG Color)
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union _MMVAD::@2489 u2

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Definition: mm.h:350

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Definition: mmtypes.h:856

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Definition: mminit.c:367

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Definition: mm.h:318

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FORCEINLINE VOID MiReleaseExpansionLock(KIRQL OldIrql)
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union _MMPFN::@1725 u4

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VOID FASTCALL KeReleaseGuardedMutex(IN OUT PKGUARDED_MUTEX GuardedMutex)
Definition: gmutex.c:53

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Definition: precomp.h:8

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Definition: session.c:427

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FORCEINLINE PFN_NUMBER MiGetPfnEntryIndex(IN PMMPFN Pfn1)
Definition: mm.h:953

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_In_ HANDLE _Outptr_result_bytebuffer_ ViewSize PVOID _In_ ULONG_PTR _In_ SIZE_T _Inout_opt_ PLARGE_INTEGER _Inout_ PSIZE_T ViewSize
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Definition: mmtypes.h:767

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Definition: procsup.c:880

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VOID NTAPI MiRemoveMappedView(IN PEPROCESS CurrentProcess, IN PMMVAD Vad)
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Definition: init.c:39

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_MMPFN::u1
union _MMPFN::@1720 u1

MI_MAKE_HARDWARE_PTE_KERNEL
FORCEINLINE VOID MI_MAKE_HARDWARE_PTE_KERNEL(IN PMMPTE NewPte, IN PMMPTE MappingPte, IN ULONG_PTR ProtectionMask, IN PFN_NUMBER PageFrameNumber)
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void
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Definition: mm.h:88

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IN HDEVINFO IN PSP_DEVINFO_DATA DeviceInfoData OPTIONAL
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FORCEINLINE VOID MI_MAKE_HARDWARE_PTE(IN PMMPTE NewPte, IN PMMPTE MappingPte, IN ULONG_PTR ProtectionMask, IN PFN_NUMBER PageFrameNumber)
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Definition: ntimage.h:120

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