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;

ULONG MmMaximumDeadKernelStacks = 5;

SLIST_HEADER MmDeadStackSListHead;

ULONG MmRotatingUniprocessorNumber = 0;


/* 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;


    Status = PsChargeProcessNonPagedPoolQuota(Process, sizeof(MMVAD_LONG));

    if (!NT_SUCCESS(Status))

        return Status;


    /* Allocate a VAD */

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

    if (!Vad)

    {

        Status = STATUS_NO_MEMORY;

        goto FailPath;

    }


    /* 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');

        Status = STATUS_NO_MEMORY;

        goto FailPath;

    }


    /* Success */

    return STATUS_SUCCESS;


FailPath:

    PsReturnProcessNonPagedPoolQuota(Process, sizeof(MMVAD_LONG));


    return Status;

}


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);


        /* Return the quota the VAD used */

        PsReturnProcessNonPagedPoolQuota(Process, sizeof(MMVAD_LONG));

    }


    /* 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!

        //

        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;

    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->ImageProcessAffinityMask = KeActiveProcessors;

        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 */

                Peb->ImageProcessAffinityMask = ImageConfigData->ProcessAffinityMask;

            }


            //

            // Check if this is a UP image

            if (Characteristics & IMAGE_FILE_UP_SYSTEM_ONLY)

            {

                //

                // Set single processor rotating affinity.

                // See https://www.microsoftpressstore.com/articles/article.aspx?p=2233328&seqNum=3

                //

                Peb->ImageProcessAffinityMask = AFFINITY_MASK(MmRotatingUniprocessorNumber);

                ASSERT(Peb->ImageProcessAffinityMask & KeActiveProcessors);

                MmRotatingUniprocessorNumber = (MmRotatingUniprocessorNumber + 1) % KeNumberProcessors;

            }

        }

        _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;

}


#ifdef _M_AMD64

static

NTSTATUS

MiInsertSharedUserPageVad(

    _In_ PEPROCESS Process)

{

    PMMVAD_LONG Vad;

    ULONG_PTR BaseAddress;

    NTSTATUS Status;


    if (Process->QuotaBlock != NULL)

    {

        Status = PsChargeProcessNonPagedPoolQuota(Process, sizeof(MMVAD_LONG));

        if (!NT_SUCCESS(Status))

        {

            DPRINT1("Ran out of quota.\n");

            return Status;

        }

    }


    /* Allocate a VAD */

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

    if (Vad == NULL)

    {

        DPRINT1("Failed to allocate VAD for shared user page\n");

        Status = STATUS_INSUFFICIENT_RESOURCES;

        goto FailPath;

    }


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

    Vad->u.LongFlags = 0;

    Vad->u.VadFlags.CommitCharge = 0;

    Vad->u.VadFlags.NoChange = TRUE;

    Vad->u.VadFlags.VadType = VadNone;

    Vad->u.VadFlags.MemCommit = FALSE;

    Vad->u.VadFlags.Protection = MM_READONLY;

    Vad->u.VadFlags.PrivateMemory = TRUE;

    Vad->u1.Parent = NULL;


    /* Setup the secondary flags to make it a secured, readonly, 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;


    /* Insert it into the process VAD table */

    BaseAddress = MM_SHARED_USER_DATA_VA;

    Status = MiInsertVadEx((PMMVAD)Vad,

                            &BaseAddress,

                            PAGE_SIZE,

                            (ULONG_PTR)MM_HIGHEST_VAD_ADDRESS,

                            PAGE_SIZE,

                            MEM_TOP_DOWN);

    if (!NT_SUCCESS(Status))

    {

        DPRINT1("Failed to insert shared user VAD\n");

        ExFreePoolWithTag(Vad, 'ldaV');

        goto FailPath;

    }


    /* Success */

    return STATUS_SUCCESS;


FailPath:

    if (Process->QuotaBlock != NULL)

        PsReturnProcessNonPagedPoolQuota(Process, sizeof(MMVAD_LONG));


    return Status;

}

#endif


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;

    PMMPTE PointerPte;

    KIRQL OldIrql;

    PMMPDE PointerPde;

    PMMPFN Pfn;

    PFN_NUMBER PageFrameNumber;

    UNICODE_STRING FileName;

    PWCHAR Source;

    PCHAR Destination;

    USHORT Length = 0;


#if (_MI_PAGING_LEVELS >= 3)

    PMMPPE PointerPpe;

#endif

#if (_MI_PAGING_LEVELS == 4)

    PMMPXE PointerPxe;

#endif


    /* 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 our working set */

    MiLockProcessWorkingSet(Process, PsGetCurrentThread());


    /* Lock PFN database */

    OldIrql = MiAcquirePfnLock();


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

#if (_MI_PAGING_LEVELS == 4)

    PointerPte = MiAddressToPte(PXE_BASE);

#elif (_MI_PAGING_LEVELS == 3)

    PointerPte = MiAddressToPte(PPE_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 */

    PointerPde = MiAddressToPde(HYPER_SPACE);

    PageFrameNumber = PFN_FROM_PTE(PointerPde);

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

#if (_MI_PAGING_LEVELS == 2)

    ASSERT(Process->Pcb.DirectoryTableBase[1] == PageFrameNumber * PAGE_SIZE);

#endif


#if (_MI_PAGING_LEVELS >= 3)

    PointerPpe = MiAddressToPpe((PVOID)HYPER_SPACE);

    PageFrameNumber = PFN_FROM_PTE(PointerPpe);

    MiInitializePfn(PageFrameNumber, PointerPpe, TRUE);

#if (_MI_PAGING_LEVELS == 3)

    ASSERT(Process->Pcb.DirectoryTableBase[1] == PageFrameNumber * PAGE_SIZE);

#endif

#endif

#if (_MI_PAGING_LEVELS == 4)

    PointerPxe = MiAddressToPxe((PVOID)HYPER_SPACE);

    PageFrameNumber = PFN_FROM_PTE(PointerPxe);

    MiInitializePfn(PageFrameNumber, PointerPxe, TRUE);

    ASSERT(Process->Pcb.DirectoryTableBase[1] == PageFrameNumber * PAGE_SIZE);

#endif


    /* Do the same for the Working set list */

    PointerPte = MiAddressToPte(MmWorkingSetList);

    PageFrameNumber = PFN_FROM_PTE(PointerPte);

    MiInitializePfn(PageFrameNumber, PointerPte, TRUE);


    /* All our pages are now active & valid. Release the lock. */

    MiReleasePfnLock(OldIrql);


    /* This should be in hyper space, but not in the mapping range */

    Process->Vm.VmWorkingSetList = MmWorkingSetList;

    ASSERT(((ULONG_PTR)MmWorkingSetList >= MI_MAPPING_RANGE_END) && ((ULONG_PTR)MmWorkingSetList <= HYPER_SPACE_END));


    /* Now initialize the working set list */

    MiInitializeWorkingSetList(&Process->Vm);


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

    Pfn = MiGetPfnEntry(Process->Pcb.DirectoryTableBase[0] >> PAGE_SHIFT);

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

    ASSERT(Pfn->u1.WsIndex == 0);

    Pfn->u1.Event = (PKEVENT)Process;


    /* Sanity check */

    ASSERT(Process->PhysicalVadRoot == NULL);


    /* Release the process working set */

    MiUnlockProcessWorkingSet(Process, PsGetCurrentThread());


#ifdef _M_AMD64

    /* On x64 we need a VAD for the shared user page */

    Status = MiInsertSharedUserPageVad(Process);

    if (!NT_SUCCESS(Status))

    {

        DPRINT1("MiCreateSharedUserPageVad() failed: 0x%lx\n", Status);

        return Status;

    }

#endif


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

    if (Section)

    {

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

        PFILE_OBJECT FileObject = MmGetFileObjectForSection(Section);

        FileName = 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(FileObject, FALSE, AuditName);

            if (!NT_SUCCESS(Status))

            {

                /* Fail */

                KeDetachProcess();

                return Status;

            }

        }


        /* Map the section */

        Status = MmMapViewOfSection(Section,

                                    Process,

                                    (PVOID*)&ImageBase,

                                    0,

                                    0,

                                    NULL,

                                    &ViewSize,

                                    ViewUnmap,

                                    MEM_COMMIT,

                                    PAGE_READWRITE);


        /* Save the pointer */

        Process->SectionBaseAddress = ImageBase;

    }


    /* Be nice and detach */

    KeDetachProcess();


    /* Return status to caller */

    return Status;

}


CODE_SEG("INIT")

NTSTATUS

NTAPI

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;

    Process->WorkingSetPage = PsGetCurrentProcess()->WorkingSetPage;


    /* Done */

    Process->HasAddressSpace = TRUE;//??

    return STATUS_SUCCESS;

}


CODE_SEG("INIT")

NTSTATUS

NTAPI

MmInitializeHandBuiltProcess2(IN PEPROCESS Process)

{

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

    return STATUS_SUCCESS;

}


BOOLEAN

NTAPI

MmCreateProcessAddressSpace(IN ULONG MinWs,

                            IN PEPROCESS Process,

                            OUT PULONG_PTR DirectoryTableBase)

{

    KIRQL OldIrql;

    PFN_NUMBER TableBaseIndex, HyperIndex, WsListIndex;

    ULONG Color;


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

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

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

    ASSERT(Process->WorkingSetPage == 0);


    /* Choose a process color */

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


    /* Setup the hyperspace lock */

    KeInitializeSpinLock(&Process->HyperSpaceLock);


    /* Lock PFN database */

    OldIrql = MiAcquirePfnLock();


    /*

     * Get a page for the table base, one for hyper space & one for the working set list.

     * The PFNs for these pages will be initialized in MmInitializeProcessAddressSpace,

     * when we are already attached to the process.

     * The other pages (if any) are allocated in the arch-specific part.

     */

    Color = MI_GET_NEXT_PROCESS_COLOR(Process);

    MI_SET_USAGE(MI_USAGE_PAGE_DIRECTORY);

    TableBaseIndex = MiRemoveZeroPageSafe(Color);

    if (!TableBaseIndex)

    {

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

        TableBaseIndex = MiRemoveAnyPage(Color);


        /* Zero it outside the PFN lock */

        MiReleasePfnLock(OldIrql);

        MiZeroPhysicalPage(TableBaseIndex);

        OldIrql = MiAcquirePfnLock();

    }

    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();

    }

    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);

    }


    /* Set the base directory pointers */

    Process->WorkingSetPage = WsListIndex;

    DirectoryTableBase[0] = TableBaseIndex << PAGE_SHIFT;

    DirectoryTableBase[1] = HyperIndex << PAGE_SHIFT;


    /* Perform the arch-specific parts */

    if (!MiArchCreateProcessAddressSpace(Process, DirectoryTableBase))

    {

        OldIrql = MiAcquirePfnLock();

        MiInsertPageInFreeList(WsListIndex);

        MiInsertPageInFreeList(HyperIndex);

        MiInsertPageInFreeList(TableBaseIndex);

        MiReleasePfnLock(OldIrql);

        Process->WorkingSetPage = 0;

        DirectoryTableBase[0] = 0;

        DirectoryTableBase[1] = 0;

        return FALSE;

    }


    /* Switch to phase 1 initialization */

    ASSERT(Process->AddressSpaceInitialized == 0);

    Process->AddressSpaceInitialized = 1;


    /* Add the process to the session */

    MiSessionAddProcess(Process);

    return TRUE;

}


VOID

NTAPI

MmCleanProcessAddressSpace(IN PEPROCESS Process)

{

    PMMVAD Vad;

    PMM_AVL_TABLE VadTree;

    PETHREAD Thread = PsGetCurrentThread();


    /* Remove from the session */

    MiSessionRemoveProcess();


    /* Abort early, when the address space wasn't fully initialized */

    if (Process->AddressSpaceInitialized < 2)

    {

        DPRINT1("Incomplete address space for Process %p. Might leak resources.\n",

                Process);

        return;

    }


    /* 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);


        /* Return the quota the VAD used */

        PsReturnProcessNonPagedPoolQuota(Process, sizeof(MMVAD_LONG));

    }


    /* 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

MmDeleteProcessAddressSpace(IN PEPROCESS Process)

{

    PMMPFN Pfn1, Pfn2;

    KIRQL OldIrql;

    PFN_NUMBER PageFrameIndex;


#ifndef _M_AMD64

    OldIrql = MiAcquireExpansionLock();

    RemoveEntryList(&Process->MmProcessLinks);

    MiReleaseExpansionLock(OldIrql);

#endif


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


    /* Remove us from the list */

    OldIrql = MiAcquireExpansionLock();

    if (Process->Vm.WorkingSetExpansionLinks.Flink != NULL)

        RemoveEntryList(&Process->Vm.WorkingSetExpansionLinks);

    MiReleaseExpansionLock(OldIrql);


    /* 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));


        /* 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

    {

        DPRINT1("Deleting partially initialized address space of Process %p. Might leak resources.\n",

                Process);

    }


    /* 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 */

MmHeapSegmentReserve
SIZE_T MmHeapSegmentReserve
Definition: mminit.c:366

MmHeapDeCommitFreeBlockThreshold
SIZE_T MmHeapDeCommitFreeBlockThreshold
Definition: mminit.c:369

MmHeapDeCommitTotalFreeThreshold
SIZE_T MmHeapDeCommitTotalFreeThreshold
Definition: mminit.c:368

MmHeapSegmentCommit
SIZE_T MmHeapSegmentCommit
Definition: mminit.c:367

CODE_SEG
#define CODE_SEG(...)
Definition: Bus_PDO_EvalMethod.c:88

BOOLEAN
unsigned char BOOLEAN
Definition: ProcessorBind.h:185

TempPte
HARDWARE_PTE_ARMV6 TempPte
Definition: winldr.c:76

PDE_BASE
#define PDE_BASE
Definition: winldr.c:21

OBJ_NAME_PATH_SEPARATOR
#define OBJ_NAME_PATH_SEPARATOR
Definition: arcname_tests.c:25

NTSTATUS
LONG NTSTATUS
Definition: precomp.h:26

DPRINT1
#define DPRINT1
Definition: precomp.h:8

UNIMPLEMENTED
#define UNIMPLEMENTED
Definition: ntoskrnl.c:15

MM_READWRITE
#define MM_READWRITE
Definition: bootanim.c:19

MM_READONLY
#define MM_READONLY
Definition: bootanim.c:18

PEB
struct _PEB PEB

STATUS_NO_MEMORY
#define STATUS_NO_MEMORY
Definition: d3dkmdt.h:51

STATUS_NOT_IMPLEMENTED
#define STATUS_NOT_IMPLEMENTED
Definition: d3dkmdt.h:42

NULL
#define NULL
Definition: types.h:112

TRUE
#define TRUE
Definition: types.h:120

FALSE
#define FALSE
Definition: types.h:117

NT_SUCCESS
#define NT_SUCCESS(StatCode)
Definition: apphelp.c:33

PAGE_READONLY
#define PAGE_READONLY
Definition: compat.h:138

RtlImageDirectoryEntryToData
#define RtlImageDirectoryEntryToData
Definition: compat.h:809

IMAGE_DIRECTORY_ENTRY_LOAD_CONFIG
#define IMAGE_DIRECTORY_ENTRY_LOAD_CONFIG
Definition: compat.h:153

RtlImageNtHeader
#define RtlImageNtHeader
Definition: compat.h:806

PNT_TIB
struct _NT_TIB * PNT_TIB

Peb
PPEB Peb
Definition: dllmain.c:27

ULONG_PTR
#define ULONG_PTR
Definition: config.h:101

RemoveEntryList
#define RemoveEntryList(Entry)
Definition: env_spec_w32.h:986

ExAllocatePoolWithTag
#define ExAllocatePoolWithTag(hernya, size, tag)
Definition: env_spec_w32.h:350

KIRQL
UCHAR KIRQL
Definition: env_spec_w32.h:591

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

PKEVENT
#define PKEVENT
Definition: env_spec_w32.h:70

PAGE_SIZE
#define PAGE_SIZE
Definition: env_spec_w32.h:49

PAGE_SHIFT
#define PAGE_SHIFT
Definition: env_spec_w32.h:45

ExFreePool
#define ExFreePool(addr)
Definition: env_spec_w32.h:352

NonPagedPool
#define NonPagedPool
Definition: env_spec_w32.h:307

KeInitializeSpinLock
#define KeInitializeSpinLock(sl)
Definition: env_spec_w32.h:604

ProbeForRead
VOID NTAPI ProbeForRead(IN CONST VOID *Address, IN SIZE_T Length, IN ULONG Alignment)
Definition: exintrin.c:102

FileName
struct _FileName FileName
Definition: fatprocs.h:897

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_In_opt_ PFILE_OBJECT _In_opt_ PETHREAD Thread
Definition: fltkernel.h:2653

Process
_Must_inspect_result_ _In_ PLARGE_INTEGER _In_ PLARGE_INTEGER _In_ ULONG _In_ PFILE_OBJECT _In_ PVOID Process
Definition: fsrtlfuncs.h:223

Status
Status
Definition: gdiplustypes.h:25

i
GLsizei GLenum const GLvoid GLsizei GLenum GLbyte GLbyte GLbyte GLdouble GLdouble GLdouble GLfloat GLfloat GLfloat GLint GLint GLint GLshort GLshort GLshort GLubyte GLubyte GLubyte GLuint GLuint GLuint GLushort GLushort GLushort GLbyte GLbyte GLbyte GLbyte GLdouble GLdouble GLdouble GLdouble GLfloat GLfloat GLfloat GLfloat GLint GLint GLint GLint GLshort GLshort GLshort GLshort GLubyte GLubyte GLubyte GLubyte GLuint GLuint GLuint GLuint GLushort GLushort GLushort GLushort GLboolean const GLdouble const GLfloat const GLint const GLshort const GLbyte const GLdouble const GLfloat const GLint const GLshort const GLdouble const GLfloat const GLint const GLshort const GLdouble const GLfloat const GLint const GLshort const GLdouble const GLfloat const GLint const GLshort const GLdouble const GLdouble const GLfloat const GLfloat const GLint const GLint const GLshort const GLshort const GLdouble const GLfloat const GLint const GLshort const GLdouble const GLfloat const GLint const GLshort const GLdouble const GLfloat const GLint const GLshort const GLdouble const GLfloat const GLint const GLshort const GLdouble const GLfloat const GLint const GLshort const GLdouble const GLfloat const GLint const GLshort const GLdouble const GLfloat const GLint const GLshort GLenum GLenum GLenum GLfloat GLenum GLint GLenum GLenum GLenum GLfloat GLenum GLenum GLint GLenum GLfloat GLenum GLint GLint GLushort GLenum GLenum GLfloat GLenum GLenum GLint GLfloat const GLubyte GLenum GLenum GLenum const GLfloat GLenum GLenum const GLint GLenum GLint GLint GLsizei GLsizei GLint GLenum GLenum const GLvoid GLenum GLenum const GLfloat GLenum GLenum const GLint GLenum GLenum const GLdouble GLenum GLenum const GLfloat GLenum GLenum const GLint GLsizei GLuint GLfloat GLuint GLbitfield GLfloat GLint GLuint GLboolean GLenum GLfloat GLenum GLbitfield GLenum GLfloat GLfloat GLint GLint const GLfloat GLenum GLfloat GLfloat GLint GLint GLfloat GLfloat GLint GLint const GLfloat GLint GLfloat GLfloat GLint GLfloat GLfloat GLint GLfloat GLfloat const GLdouble const GLfloat const GLdouble const GLfloat GLint i
Definition: glfuncs.h:248

KeInitializeGuardedMutex
VOID FASTCALL KeInitializeGuardedMutex(OUT PKGUARDED_MUTEX GuardedMutex)
Definition: gmutex.c:31

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

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

KeGetCurrentThread
#define KeGetCurrentThread
Definition: hal.h:55

USER_SHARED_DATA
#define USER_SHARED_DATA
Definition: pstypes.h:51

MEMORY_PRIORITY_BACKGROUND
#define MEMORY_PRIORITY_BACKGROUND
Definition: pstypes.h:125

EXCEPTION_EXECUTE_HANDLER
#define EXCEPTION_EXECUTE_HANDLER
Definition: excpt.h:90

void
Definition: nsiface.idl:2307

if
if(dx< 0)
Definition: linetemp.h:194

miarm.h

MiLocateAddress
PMMVAD NTAPI MiLocateAddress(IN PVOID VirtualAddress)
Definition: vadnode.c:116

SystemPteSpace
@ SystemPteSpace
Definition: miarm.h:417

MiAcquireExpansionLock
FORCEINLINE KIRQL MiAcquireExpansionLock(VOID)
Definition: miarm.h:1544

MiDeleteVirtualAddresses
VOID NTAPI MiDeleteVirtualAddresses(IN ULONG_PTR Va, IN ULONG_PTR EndingAddress, IN PMMVAD Vad)
Definition: virtual.c:530

MmMinimumStackCommitInBytes
SIZE_T MmMinimumStackCommitInBytes
Definition: mminit.c:370

MiRemoveNode
VOID NTAPI MiRemoveNode(IN PMMADDRESS_NODE Node, IN PMM_AVL_TABLE Table)
Definition: vadnode.c:440

MmSystemSize
MM_SYSTEMSIZE MmSystemSize
Definition: mminit.c:326

MiReleaseProcessReferenceToSessionDataPage
VOID NTAPI MiReleaseProcessReferenceToSessionDataPage(IN PMM_SESSION_SPACE SessionGlobal)
Definition: session.c:209

MiSessionAddProcess
VOID NTAPI MiSessionAddProcess(IN PEPROCESS NewProcess)
Definition: session.c:423

MI_SET_PFN_DELETED
#define MI_SET_PFN_DELETED(x)
Definition: miarm.h:208

MiInsertPageInFreeList
VOID NTAPI MiInsertPageInFreeList(IN PFN_NUMBER PageFrameIndex)
Definition: pfnlist.c:611

MI_GET_NEXT_COLOR
#define MI_GET_NEXT_COLOR()
Definition: miarm.h:246

MiRemoveAnyPage
PFN_NUMBER NTAPI MiRemoveAnyPage(IN ULONG Color)
Definition: pfnlist.c:477

MiReleaseSystemPtes
VOID NTAPI MiReleaseSystemPtes(IN PMMPTE StartingPte, IN ULONG NumberOfPtes, IN MMSYSTEM_PTE_POOL_TYPE SystemPtePoolType)
Definition: syspte.c:264

MiRemoveMappedView
VOID NTAPI MiRemoveMappedView(IN PEPROCESS CurrentProcess, IN PMMVAD Vad)
Definition: section.c:766

MI_MAKE_SOFTWARE_PTE
#define MI_MAKE_SOFTWARE_PTE(p, x)
Definition: miarm.h:203

_64K
#define _64K
Definition: miarm.h:23

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)
Definition: miarm.h:787

MiReleaseExpansionLock
FORCEINLINE VOID MiReleaseExpansionLock(KIRQL OldIrql)
Definition: miarm.h:1557

MiDecrementShareCount
VOID NTAPI MiDecrementShareCount(IN PMMPFN Pfn1, IN PFN_NUMBER PageFrameIndex)
Definition: pfnlist.c:1141

MiUnlockProcessWorkingSet
FORCEINLINE VOID MiUnlockProcessWorkingSet(IN PEPROCESS Process, IN PETHREAD Thread)
Definition: miarm.h:1207

MiUnlockProcessWorkingSetUnsafe
FORCEINLINE VOID MiUnlockProcessWorkingSetUnsafe(IN PEPROCESS Process, IN PETHREAD Thread)
Definition: miarm.h:1252

MI_WRITE_INVALID_PTE
FORCEINLINE VOID MI_WRITE_INVALID_PTE(IN PMMPTE PointerPte, IN MMPTE InvalidPte)
Definition: miarm.h:1006

MiSessionRemoveProcess
VOID NTAPI MiSessionRemoveProcess(VOID)
Definition: session.c:392

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

MM_NOACCESS
#define MM_NOACCESS
Definition: miarm.h:65

MiInsertVadEx
NTSTATUS NTAPI MiInsertVadEx(_Inout_ PMMVAD Vad, _In_ ULONG_PTR *BaseAddress, _In_ SIZE_T ViewSize, _In_ ULONG_PTR HighestAddress, _In_ ULONG_PTR Alignment, _In_ ULONG AllocationType)
Definition: vadnode.c:282

MmLargeStackSize
ULONG MmLargeStackSize
Definition: mminit.c:262

MI_WRITE_VALID_PTE
FORCEINLINE VOID MI_WRITE_VALID_PTE(IN PMMPTE PointerPte, IN MMPTE TempPte)
Definition: miarm.h:973

MiInitializePfn
VOID NTAPI MiInitializePfn(IN PFN_NUMBER PageFrameIndex, IN PMMPTE PointerPte, IN BOOLEAN Modified)
Definition: pfnlist.c:970

MmCriticalSectionTimeout
LARGE_INTEGER MmCriticalSectionTimeout
Definition: mminit.c:388

MI_GET_NEXT_PROCESS_COLOR
#define MI_GET_NEXT_PROCESS_COLOR(x)
Definition: miarm.h:247

MiLockProcessWorkingSet
FORCEINLINE VOID MiLockProcessWorkingSet(IN PEPROCESS Process, IN PETHREAD Thread)
Definition: miarm.h:1137

MiRemoveZeroPageSafe
FORCEINLINE PFN_NUMBER MiRemoveZeroPageSafe(IN ULONG Color)
Definition: miarm.h:2413

MiLockProcessWorkingSetUnsafe
FORCEINLINE VOID MiLockProcessWorkingSetUnsafe(IN PEPROCESS Process, IN PETHREAD Thread)
Definition: miarm.h:1182

PCHAR
#define PCHAR
Definition: match.c:90

MiAddressToPte
#define MiAddressToPte(x)
Definition: mmx86.c:19

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

ASSERT
#define ASSERT(a)
Definition: mode.c:44

ExFreePoolWithTag
#define ExFreePoolWithTag(_P, _T)
Definition: module.h:1109

min
#define min(a, b)
Definition: monoChain.cc:55

Source
_In_ UINT _In_ UINT _In_ PNDIS_PACKET Source
Definition: ndis.h:3169

MM_SHARED_USER_DATA_VA
#define MM_SHARED_USER_DATA_VA
Definition: mmtypes.h:48

AFFINITY_MASK
FORCEINLINE KAFFINITY AFFINITY_MASK(ULONG Index)
Definition: kefuncs.h:39

ProcessHandle
_In_ HANDLE ProcessHandle
Definition: mmfuncs.h:403

BaseAddress
_In_ HANDLE _Outptr_result_bytebuffer_ ViewSize PVOID * BaseAddress
Definition: mmfuncs.h:404

SectionOffset
_In_ HANDLE _Outptr_result_bytebuffer_ ViewSize PVOID _In_ ULONG_PTR _In_ SIZE_T _Inout_opt_ PLARGE_INTEGER SectionOffset
Definition: mmfuncs.h:407

ViewSize
_In_ HANDLE _Outptr_result_bytebuffer_ ViewSize PVOID _In_ ULONG_PTR _In_ SIZE_T _Inout_opt_ PLARGE_INTEGER _Inout_ PSIZE_T ViewSize
Definition: mmfuncs.h:408

VadNone
@ VadNone
Definition: mmtypes.h:204

PMMVAD
struct _MMVAD * PMMVAD

Destination
_In_ PUNICODE_STRING _Inout_ PUNICODE_STRING Destination
Definition: rtlfuncs.h:3028

RtlRandom
NTSYSAPI ULONG NTAPI RtlRandom(_Inout_ PULONG Seed)

VER_PLATFORM_WIN32_NT
#define VER_PLATFORM_WIN32_NT
Definition: rtltypes.h:238

EXCEPTION_CHAIN_END
#define EXCEPTION_CHAIN_END
Definition: rtltypes.h:63

_In_
#define _In_
Definition: no_sal2.h:158

MEM_TOP_DOWN
#define MEM_TOP_DOWN
Definition: nt_native.h:1321

PAGE_READWRITE
#define PAGE_READWRITE
Definition: nt_native.h:1304

ViewUnmap
@ ViewUnmap
Definition: nt_native.h:1279

ViewShare
@ ViewShare
Definition: nt_native.h:1278

MEM_COMMIT
#define MEM_COMMIT
Definition: nt_native.h:1313

ANSI_NULL
#define ANSI_NULL

Length
_In_ ULONG _In_ ULONG _In_ ULONG Length
Definition: ntddpcm.h:102

MmWorkingSetList
PMMWSL MmWorkingSetList
Definition: wslist.cpp:19

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

ExpOemCodePageDataOffset
ULONG ExpOemCodePageDataOffset
Definition: init.c:86

NtMajorVersion
ULONG NtMajorVersion
Definition: init.c:45

ExpUnicodeCaseTableDataOffset
ULONG ExpUnicodeCaseTableDataOffset
Definition: init.c:87

NtGlobalFlag
ULONG NtGlobalFlag
Definition: init.c:54

ExpNlsSectionPointer
PVOID ExpNlsSectionPointer
Definition: init.c:90

ExpAnsiCodePageDataOffset
ULONG ExpAnsiCodePageDataOffset
Definition: init.c:86

NtMinorVersion
ULONG NtMinorVersion
Definition: init.c:46

CmNtCSDVersion
ULONG CmNtCSDVersion
Definition: init.c:59

PsDefaultThreadLocaleId
LCID PsDefaultThreadLocaleId
Definition: locale.c:24

HYPER_SPACE
#define HYPER_SPACE
Definition: mm.h:14

MI_MAPPING_RANGE_END
#define MI_MAPPING_RANGE_END
Definition: mm.h:48

MM_HIGHEST_VAD_ADDRESS
#define MM_HIGHEST_VAD_ADDRESS
Definition: mm.h:46

HYPER_SPACE_END
#define HYPER_SPACE_END
Definition: mm.h:15

MiAddressToPpe
FORCEINLINE PMMPTE MiAddressToPpe(PVOID Address)
Definition: mm.h:161

MiAddressToPxe
FORCEINLINE PMMPTE MiAddressToPxe(PVOID Address)
Definition: mm.h:171

PFN_FROM_PTE
#define PFN_FROM_PTE(v)
Definition: mm.h:92

MiPteToAddress
#define MiPteToAddress(_Pte)
Definition: mm.h:116

KeActiveProcessors
KAFFINITY KeActiveProcessors
Definition: processor.c:17

MiGetPfnEntry
FORCEINLINE PMMPFN MiGetPfnEntry(IN PFN_NUMBER Pfn)
Definition: mm.h:1054

MI_SET_PROCESS2
#define MI_SET_PROCESS2(x)
Definition: mm.h:326

MI_USAGE_PAGE_TABLE
@ MI_USAGE_PAGE_TABLE
Definition: mm.h:341

MI_USAGE_PAGE_DIRECTORY
@ MI_USAGE_PAGE_DIRECTORY
Definition: mm.h:342

MI_USAGE_KERNEL_STACK_EXPANSION
@ MI_USAGE_KERNEL_STACK_EXPANSION
Definition: mm.h:336

MI_USAGE_KERNEL_STACK
@ MI_USAGE_KERNEL_STACK
Definition: mm.h:335

MmLockAddressSpace
FORCEINLINE VOID MmLockAddressSpace(PMMSUPPORT AddressSpace)
Definition: mm.h:1696

MmGetFileObjectForSection
PFILE_OBJECT NTAPI MmGetFileObjectForSection(IN PVOID Section)
Definition: section.c:1541

MmGetSessionId
ULONG NTAPI MmGetSessionId(IN PEPROCESS Process)
Definition: session.c:179

MmNumberOfPhysicalPages
PFN_COUNT MmNumberOfPhysicalPages
Definition: init.c:48

MiGetPfnEntryIndex
FORCEINLINE PFN_NUMBER MiGetPfnEntryIndex(IN PMMPFN Pfn1)
Definition: mm.h:1074

MiRosCleanupMemoryArea
VOID NTAPI MiRosCleanupMemoryArea(PEPROCESS Process, PMMVAD Vad)
Definition: marea.c:521

MmUnlockAddressSpace
FORCEINLINE VOID MmUnlockAddressSpace(PMMSUPPORT AddressSpace)
Definition: mm.h:1709

MI_SET_USAGE
#define MI_SET_USAGE(x)
Definition: mm.h:324

SeInitializeProcessAuditName
NTSTATUS NTAPI SeInitializeProcessAuditName(_In_ PFILE_OBJECT FileObject, _In_ BOOLEAN DoAudit, _Out_ POBJECT_NAME_INFORMATION *AuditInfo)
Initializes a process audit name and returns it to the caller.
Definition: audit.c:105

KeNumberProcessors
CCHAR KeNumberProcessors
Definition: processor.c:16

MmInitializeHandBuiltProcess2
NTSTATUS NTAPI MmInitializeHandBuiltProcess2(IN PEPROCESS Process)
Definition: procsup.c:1153

NtFreeUserPhysicalPages
NTSTATUS NTAPI NtFreeUserPhysicalPages(IN HANDLE ProcessHandle, IN OUT PULONG_PTR NumberOfPages, IN OUT PULONG_PTR UserPfnArray)
Definition: procsup.c:1471

MmProcessColorSeed
ULONG MmProcessColorSeed
Definition: procsup.c:20

MmDeadStackSListHead
SLIST_HEADER MmDeadStackSListHead
Definition: procsup.c:22

MmCleanProcessAddressSpace
VOID NTAPI MmCleanProcessAddressSpace(IN PEPROCESS Process)
Definition: procsup.c:1263

MmCreateKernelStack
PVOID NTAPI MmCreateKernelStack(IN BOOLEAN GuiStack, IN UCHAR Node)
Definition: procsup.c:276

MmCreateTeb
NTSTATUS NTAPI MmCreateTeb(IN PEPROCESS Process, IN PCLIENT_ID ClientId, IN PINITIAL_TEB InitialTeb, OUT PTEB *BaseTeb)
Definition: procsup.c:753

MmDeleteTeb
VOID NTAPI MmDeleteTeb(IN PEPROCESS Process, IN PTEB Teb)
Definition: procsup.c:122

MmDeleteProcessAddressSpace
VOID NTAPI MmDeleteProcessAddressSpace(IN PEPROCESS Process)
Definition: procsup.c:1362

MmDeleteKernelStack
VOID NTAPI MmDeleteKernelStack(IN PVOID StackBase, IN BOOLEAN GuiStack)
Definition: procsup.c:187

MmCreatePeb
NTSTATUS NTAPI MmCreatePeb(IN PEPROCESS Process, IN PINITIAL_PEB InitialPeb, OUT PPEB *BasePeb)
Definition: procsup.c:518

MmCreateProcessAddressSpace
BOOLEAN NTAPI MmCreateProcessAddressSpace(IN ULONG MinWs, IN PEPROCESS Process, OUT PULONG_PTR DirectoryTableBase)
Definition: procsup.c:1161

MmInitializeProcessAddressSpace
NTSTATUS NTAPI MmInitializeProcessAddressSpace(IN PEPROCESS Process, IN PEPROCESS ProcessClone OPTIONAL, IN PVOID Section OPTIONAL, IN OUT PULONG Flags, IN POBJECT_NAME_INFORMATION *AuditName OPTIONAL)
Definition: procsup.c:932

MmInitializeHandBuiltProcess
NTSTATUS NTAPI MmInitializeHandBuiltProcess(IN PEPROCESS Process, IN PULONG_PTR DirectoryTableBase)
Definition: procsup.c:1127

MmRotatingUniprocessorNumber
ULONG MmRotatingUniprocessorNumber
Definition: procsup.c:23

NtMapUserPhysicalPages
NTSTATUS NTAPI NtMapUserPhysicalPages(IN PVOID VirtualAddresses, IN ULONG_PTR NumberOfPages, IN OUT PULONG_PTR UserPfnArray)
Definition: procsup.c:1451

MmGrowKernelStack
NTSTATUS NTAPI MmGrowKernelStack(IN PVOID StackPointer)
Definition: procsup.c:477

MmSetMemoryPriorityProcess
NTSTATUS NTAPI MmSetMemoryPriorityProcess(IN PEPROCESS Process, IN UCHAR MemoryPriority)
Definition: procsup.c:487

NtAllocateUserPhysicalPages
NTSTATUS NTAPI NtAllocateUserPhysicalPages(IN HANDLE ProcessHandle, IN OUT PULONG_PTR NumberOfPages, IN OUT PULONG_PTR UserPfnArray)
Definition: procsup.c:1441

MiCreatePebOrTeb
NTSTATUS NTAPI MiCreatePebOrTeb(IN PEPROCESS Process, IN ULONG Size, OUT PULONG_PTR BaseAddress)
Definition: procsup.c:29

NtMapUserPhysicalPagesScatter
NTSTATUS NTAPI NtMapUserPhysicalPagesScatter(IN PVOID *VirtualAddresses, IN ULONG_PTR NumberOfPages, IN OUT PULONG_PTR UserPfnArray)
Definition: procsup.c:1461

MmGrowKernelStackEx
NTSTATUS NTAPI MmGrowKernelStackEx(IN PVOID StackPointer, IN ULONG GrowSize)
Definition: procsup.c:389

MmMaximumDeadKernelStacks
ULONG MmMaximumDeadKernelStacks
Definition: procsup.c:21

MiArchCreateProcessAddressSpace
BOOLEAN MiArchCreateProcessAddressSpace(_In_ PEPROCESS Process, _In_ PULONG_PTR DirectoryTableBase)
Definition: procsup.c:21

STATUS_STACK_OVERFLOW
#define STATUS_STACK_OVERFLOW
Definition: ntstatus.h:489

STATUS_INVALID_IMAGE_PROTECT
#define STATUS_INVALID_IMAGE_PROTECT
Definition: ntstatus.h:540

BOOLEAN
#define BOOLEAN
Definition: pedump.c:73

USHORT
unsigned short USHORT
Definition: pedump.c:61

IMAGE_FILE_UP_SYSTEM_ONLY
#define IMAGE_FILE_UP_SYSTEM_ONLY
Definition: pedump.c:170

KeDetachProcess
VOID NTAPI KeDetachProcess(VOID)
Definition: procobj.c:621

KeAttachProcess
VOID NTAPI KeAttachProcess(IN PKPROCESS Process)
Definition: procobj.c:582

_SEH2_GetExceptionCode
#define _SEH2_GetExceptionCode()
Definition: pseh2_64.h:165

_SEH2_EXCEPT
#define _SEH2_EXCEPT(...)
Definition: pseh2_64.h:66

_SEH2_END
#define _SEH2_END
Definition: pseh2_64.h:155

_SEH2_TRY
#define _SEH2_TRY
Definition: pseh2_64.h:55

_SEH2_YIELD
#define _SEH2_YIELD(__stmt)
Definition: pseh2_64.h:168

PsChargeProcessNonPagedPoolQuota
NTSTATUS NTAPI PsChargeProcessNonPagedPoolQuota(_In_ PEPROCESS Process, _In_ SIZE_T Amount)
Charges the non paged pool quota of a given process.
Definition: quota.c:811

PsReturnProcessNonPagedPoolQuota
VOID NTAPI PsReturnProcessNonPagedPoolQuota(_In_ PEPROCESS Process, _In_ SIZE_T Amount)
Returns the non paged quota pool that the process was taking up.
Definition: quota.c:938

KeQueryTickCount
#define KeQueryTickCount(CurrentCount)
Definition: ke.h:43

KERNEL_STACK_SIZE
#define KERNEL_STACK_SIZE

KERNEL_LARGE_STACK_COMMIT
#define KERNEL_LARGE_STACK_COMMIT

PXE_BASE
#define PXE_BASE

PPE_BASE
#define PPE_BASE

PFN_NUMBER
ULONG PFN_NUMBER
Definition: ke.h:9

MmMapViewOfSection
NTSTATUS NTAPI MmMapViewOfSection(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)
Definition: section.c:4001

STATUS_SUCCESS
#define STATUS_SUCCESS
Definition: shellext.h:65

DPRINT
#define DPRINT
Definition: sndvol32.h:73

OPTIONAL
PULONG MinorVersion OPTIONAL
Definition: CrossNt.h:68

NtBuildNumber
ULONG NtBuildNumber
Definition: init.c:50

Color
Definition: gdipluscolor.h:301

IMAGE_LOAD_CONFIG_DIRECTORY32
Definition: ntimage.h:105

IMAGE_LOAD_CONFIG_DIRECTORY32::ProcessAffinityMask
ULONG ProcessAffinityMask
Definition: ntimage.h:119

IMAGE_LOAD_CONFIG_DIRECTORY32::CSDVersion
USHORT CSDVersion
Definition: ntimage.h:120

_CLIENT_ID
Definition: compat.h:824

_EPROCESS
Definition: pstypes.h:1262

_ETHREAD
Definition: pstypes.h:1103

_FileName
Definition: filecomp.c:348

_HARDWARE_PTE_ARMV6::PageFrameNumber
ULONG PageFrameNumber
Definition: mmtypes.h:109

_IMAGE_FILE_HEADER::Characteristics
WORD Characteristics
Definition: ntddk_ex.h:128

_IMAGE_NT_HEADERS
Definition: ntddk_ex.h:181

_IMAGE_NT_HEADERS::OptionalHeader
IMAGE_OPTIONAL_HEADER32 OptionalHeader
Definition: ntddk_ex.h:184

_IMAGE_NT_HEADERS::FileHeader
IMAGE_FILE_HEADER FileHeader
Definition: ntddk_ex.h:183

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

_IMAGE_OPTIONAL_HEADER::Subsystem
WORD Subsystem
Definition: ntddk_ex.h:170

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

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

_INITIAL_PEB
Definition: pstypes.h:662

_INITIAL_TEB
Definition: pstypes.h:692

_KTHREAD
Definition: ketypes.h:1660

_MMADDRESS_NODE
Definition: mmtypes.h:645

_MMADDRESS_NODE::StartingVpn
ULONG_PTR StartingVpn
Definition: mmtypes.h:653

_MMADDRESS_NODE::RightChild
struct _MMADDRESS_NODE * RightChild
Definition: mmtypes.h:652

_MMADDRESS_NODE::EndingVpn
ULONG_PTR EndingVpn
Definition: mmtypes.h:654

_MMPFNENTRY::WriteInProgress
USHORT WriteInProgress
Definition: mm.h:369

_MMPFN
Definition: mm.h:381

_MMPFN::e2
struct _MMPFN::@1829::@1835 e2

_MMPFN::u3
union _MMPFN::@1829 u3

_MMPFN::WsIndex
ULONG WsIndex
Definition: mm.h:385

_MMPFN::u1
union _MMPFN::@1827 u1

_MMPFN::e1
MMPFNENTRY e1
Definition: mm.h:404

_MMPFN::Event
PKEVENT Event
Definition: mm.h:386

_MMPFN::u4
union _MMPFN::@1832 u4

_MMPFN::PteFrame
ULONG_PTR PteFrame
Definition: mm.h:425

_MMPTE_HARDWARE::Valid
ULONG64 Valid
Definition: mmtypes.h:150

_MMPTE
Definition: mmtypes.h:212

_MMPTE::u
union _MMPTE::@2383 u

_MMPTE::Hard
MMPTE_HARDWARE Hard
Definition: mmtypes.h:217

_MMVAD_FLAGS2::ReadOnly
ULONG ReadOnly
Definition: mmtypes.h:710

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

_MMVAD_FLAGS2::OneSecured
ULONG OneSecured
Definition: mmtypes.h:708

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

_MMVAD_FLAGS::NoChange
ULONG_PTR NoChange
Definition: mmtypes.h:693

_MMVAD_FLAGS::MemCommit
ULONG_PTR MemCommit
Definition: mmtypes.h:695

_MMVAD_FLAGS::Protection
ULONG_PTR Protection
Definition: mmtypes.h:696

_MMVAD_FLAGS::CommitCharge
ULONG_PTR CommitCharge
Definition: mmtypes.h:691

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

_MMVAD_FLAGS::VadType
ULONG_PTR VadType
Definition: mmtypes.h:694

_MMVAD_FLAGS::PrivateMemory
ULONG_PTR PrivateMemory
Definition: mmtypes.h:698

_MMVAD_LONG
Definition: mmtypes.h:750

_MMVAD_LONG::FirstPrototypePte
PMMPTE FirstPrototypePte
Definition: mmtypes.h:766

_MMVAD_LONG::VadFlags
MMVAD_FLAGS VadFlags
Definition: mmtypes.h:763

_MMVAD_LONG::u1
union _MMVAD_LONG::@2674 u1

_MMVAD_LONG::u2
union _MMVAD_LONG::@2676 u2

_MMVAD_LONG::LongFlags
ULONG_PTR LongFlags
Definition: mmtypes.h:762

_MMVAD_LONG::u
union _MMVAD_LONG::@2675 u

_MMVAD_LONG::ControlArea
PCONTROL_AREA ControlArea
Definition: mmtypes.h:765

_MMVAD_LONG::Parent
PMMVAD Parent
Definition: mmtypes.h:754

_MMVAD_LONG::LongFlags2
ULONG LongFlags2
Definition: mmtypes.h:770

_MMVAD_LONG::VadFlags2
MMVAD_FLAGS2 VadFlags2
Definition: mmtypes.h:771

_MMVAD
Definition: mmtypes.h:721

_MMVAD::u
union _MMVAD::@2672 u

_MMVAD::EndingVpn
ULONG_PTR EndingVpn
Definition: mmtypes.h:730

_MMVAD::StartingVpn
ULONG_PTR StartingVpn
Definition: mmtypes.h:729

_MMVAD::VadFlags2
MMVAD_FLAGS2 VadFlags2
Definition: mmtypes.h:742

_MMVAD::VadFlags
MMVAD_FLAGS VadFlags
Definition: mmtypes.h:734

_MMVAD::u2
union _MMVAD::@2673 u2

_MM_AVL_TABLE
Definition: mmtypes.h:661

_MM_AVL_TABLE::NumberGenericTableElements
ULONG_PTR NumberGenericTableElements
Definition: mmtypes.h:668

_MM_AVL_TABLE::BalancedRoot
MMADDRESS_NODE BalancedRoot
Definition: mmtypes.h:662

_NT_TIB::Self
struct _NT_TIB * Self
Definition: compat.h:720

_NT_TIB::StackLimit
PVOID StackLimit
Definition: compat.h:713

_NT_TIB::Version
DWORD Version
Definition: compat.h:717

_NT_TIB::StackBase
PVOID StackBase
Definition: compat.h:712

_NT_TIB::ExceptionList
struct _EXCEPTION_REGISTRATION_RECORD * ExceptionList
Definition: compat.h:711

_OBJECT_NAME_INFORMATION
Definition: nt_native.h:1269

_PEB
Definition: btrfs_drv.h:1907

_PEB::HeapDeCommitTotalFreeThreshold
ULONG HeapDeCommitTotalFreeThreshold
Definition: ntddk_ex.h:277

_PEB::HeapSegmentCommit
ULONG HeapSegmentCommit
Definition: ntddk_ex.h:276

_PEB::ImageSubsystem
ULONG ImageSubsystem
Definition: ntddk_ex.h:304

_PEB::NumberOfProcessors
ULONG NumberOfProcessors
Definition: ntddk_ex.h:269

_PEB::ImageProcessAffinityMask
ULONG ImageProcessAffinityMask
Definition: ntddk_ex.h:307

_PEB::ImageBaseAddress
PVOID ImageBaseAddress
Definition: ntddk_ex.h:245

_PEB::SessionId
ULONG SessionId
Definition: btrfs_drv.h:1919

_PEB::CriticalSectionTimeout
LARGE_INTEGER CriticalSectionTimeout
Definition: ntddk_ex.h:274

_PEB::MaximumNumberOfHeaps
ULONG MaximumNumberOfHeaps
Definition: ntddk_ex.h:287

_PEB::OSMinorVersion
ULONG OSMinorVersion
Definition: ntddk_ex.h:301

_PEB::ProcessHeaps
PVOID * ProcessHeaps
Definition: ntddk_ex.h:288

_PEB::HeapSegmentReserve
ULONG HeapSegmentReserve
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