da/dd0/ntoskrnl_2mm_2i386_2page_8c_source.html

 /*
  * COPYRIGHT:       See COPYING in the top level directory
  * PROJECT:         ReactOS kernel
  * FILE:            ntoskrnl/mm/i386/page.c
  * PURPOSE:         Low level memory managment manipulation
  *
  * PROGRAMMERS:     David Welch (welch@cwcom.net)
  */

 /* INCLUDES ***************************************************************/

 #include <ntoskrnl.h>
 #define NDEBUG
 #include <debug.h>

 #include <mm/ARM3/miarm.h>

 #define ADDR_TO_PDE_OFFSET MiAddressToPdeOffset
 #define ADDR_TO_PAGE_TABLE(v)  (((ULONG)(v)) / (1024 * PAGE_SIZE))

 /* GLOBALS *****************************************************************/

 #define PA_BIT_PRESENT   (0)
 #define PA_BIT_READWRITE (1)
 #define PA_BIT_USER      (2)
 #define PA_BIT_WT        (3)
 #define PA_BIT_CD        (4)
 #define PA_BIT_ACCESSED  (5)
 #define PA_BIT_DIRTY     (6)
 #define PA_BIT_GLOBAL    (8)

 #define PA_PRESENT   (1 << PA_BIT_PRESENT)
 #define PA_READWRITE (1 << PA_BIT_READWRITE)
 #define PA_USER      (1 << PA_BIT_USER)
 #define PA_DIRTY     (1 << PA_BIT_DIRTY)
 #define PA_WT        (1 << PA_BIT_WT)
 #define PA_CD        (1 << PA_BIT_CD)
 #define PA_ACCESSED  (1 << PA_BIT_ACCESSED)
 #define PA_GLOBAL    (1 << PA_BIT_GLOBAL)

 #define IS_HYPERSPACE(v)    (((ULONG)(v) >= HYPER_SPACE && (ULONG)(v) <= HYPER_SPACE_END))

 #define PTE_TO_PFN(X)  ((X) >> PAGE_SHIFT)
 #define PFN_TO_PTE(X)  ((X) << PAGE_SHIFT)

 #define PAGE_MASK(x)        ((x)&(~0xfff))

 const
 ULONG
 MmProtectToPteMask[32] =
 {
     //
     // These are the base MM_ protection flags
     //
     0,
     PTE_READONLY            | PTE_ENABLE_CACHE,
     PTE_EXECUTE             | PTE_ENABLE_CACHE,
     PTE_EXECUTE_READ        | PTE_ENABLE_CACHE,
     PTE_READWRITE           | PTE_ENABLE_CACHE,
     PTE_WRITECOPY           | PTE_ENABLE_CACHE,
     PTE_EXECUTE_READWRITE   | PTE_ENABLE_CACHE,
     PTE_EXECUTE_WRITECOPY   | PTE_ENABLE_CACHE,
     //
     // These OR in the MM_NOCACHE flag
     //
     0,
     PTE_READONLY            | PTE_DISABLE_CACHE,
     PTE_EXECUTE             | PTE_DISABLE_CACHE,
     PTE_EXECUTE_READ        | PTE_DISABLE_CACHE,
     PTE_READWRITE           | PTE_DISABLE_CACHE,
     PTE_WRITECOPY           | PTE_DISABLE_CACHE,
     PTE_EXECUTE_READWRITE   | PTE_DISABLE_CACHE,
     PTE_EXECUTE_WRITECOPY   | PTE_DISABLE_CACHE,
     //
     // These OR in the MM_DECOMMIT flag, which doesn't seem supported on x86/64/ARM
     //
     0,
     PTE_READONLY            | PTE_ENABLE_CACHE,
     PTE_EXECUTE             | PTE_ENABLE_CACHE,
     PTE_EXECUTE_READ        | PTE_ENABLE_CACHE,
     PTE_READWRITE           | PTE_ENABLE_CACHE,
     PTE_WRITECOPY           | PTE_ENABLE_CACHE,
     PTE_EXECUTE_READWRITE   | PTE_ENABLE_CACHE,
     PTE_EXECUTE_WRITECOPY   | PTE_ENABLE_CACHE,
     //
     // These OR in the MM_NOACCESS flag, which seems to enable WriteCombining?
     //
     0,
     PTE_READONLY            | PTE_WRITECOMBINED_CACHE,
     PTE_EXECUTE             | PTE_WRITECOMBINED_CACHE,
     PTE_EXECUTE_READ        | PTE_WRITECOMBINED_CACHE,
     PTE_READWRITE           | PTE_WRITECOMBINED_CACHE,
     PTE_WRITECOPY           | PTE_WRITECOMBINED_CACHE,
     PTE_EXECUTE_READWRITE   | PTE_WRITECOMBINED_CACHE,
     PTE_EXECUTE_WRITECOPY   | PTE_WRITECOMBINED_CACHE,
 };

 const
 ULONG MmProtectToValue[32] =
 {
     PAGE_NOACCESS,
     PAGE_READONLY,
     PAGE_EXECUTE,
     PAGE_EXECUTE_READ,
     PAGE_READWRITE,
     PAGE_WRITECOPY,
     PAGE_EXECUTE_READWRITE,
     PAGE_EXECUTE_WRITECOPY,
     PAGE_NOACCESS,
     PAGE_NOCACHE | PAGE_READONLY,
     PAGE_NOCACHE | PAGE_EXECUTE,
     PAGE_NOCACHE | PAGE_EXECUTE_READ,
     PAGE_NOCACHE | PAGE_READWRITE,
     PAGE_NOCACHE | PAGE_WRITECOPY,
     PAGE_NOCACHE | PAGE_EXECUTE_READWRITE,
     PAGE_NOCACHE | PAGE_EXECUTE_WRITECOPY,
     PAGE_NOACCESS,
     PAGE_GUARD | PAGE_READONLY,
     PAGE_GUARD | PAGE_EXECUTE,
     PAGE_GUARD | PAGE_EXECUTE_READ,
     PAGE_GUARD | PAGE_READWRITE,
     PAGE_GUARD | PAGE_WRITECOPY,
     PAGE_GUARD | PAGE_EXECUTE_READWRITE,
     PAGE_GUARD | PAGE_EXECUTE_WRITECOPY,
     PAGE_NOACCESS,
     PAGE_WRITECOMBINE | PAGE_READONLY,
     PAGE_WRITECOMBINE | PAGE_EXECUTE,
     PAGE_WRITECOMBINE | PAGE_EXECUTE_READ,
     PAGE_WRITECOMBINE | PAGE_READWRITE,
     PAGE_WRITECOMBINE | PAGE_WRITECOPY,
     PAGE_WRITECOMBINE | PAGE_EXECUTE_READWRITE,
     PAGE_WRITECOMBINE | PAGE_EXECUTE_WRITECOPY
 };

 /* FUNCTIONS ***************************************************************/

 static BOOLEAN MmUnmapPageTable(PULONG Pt, KIRQL OldIrql);

 VOID
 MiFlushTlb(PULONG Pt, PVOID Address, KIRQL OldIrql)
 {
     if ((Pt && MmUnmapPageTable(Pt, OldIrql)) || Address >= MmSystemRangeStart)
     {
         KeInvalidateTlbEntry(Address);
     }
 }

 static ULONG
 ProtectToPTE(ULONG flProtect)
 {
     ULONG Attributes = 0;

     if (flProtect & (PAGE_NOACCESS|PAGE_GUARD))
     {
         Attributes = 0;
     }
     else if (flProtect & PAGE_IS_WRITABLE)
     {
         Attributes = PA_PRESENT | PA_READWRITE;
     }
     else if (flProtect & (PAGE_IS_READABLE | PAGE_IS_EXECUTABLE))
     {
         Attributes = PA_PRESENT;
     }
     else
     {
         DPRINT1("Unknown main protection type.\n");
         KeBugCheck(MEMORY_MANAGEMENT);
     }

     if (flProtect & PAGE_SYSTEM)
     {
     }
     else
     {
         Attributes = Attributes | PA_USER;
     }
     if (flProtect & PAGE_NOCACHE)
     {
         Attributes = Attributes | PA_CD;
     }
     if (flProtect & PAGE_WRITETHROUGH)
     {
         Attributes = Attributes | PA_WT;
     }
     return(Attributes);
 }

 NTSTATUS
 NTAPI
 MiDispatchFault(IN ULONG FaultCode,
                 IN PVOID Address,
                 IN PMMPTE PointerPte,
                 IN PMMPTE PointerProtoPte,
                 IN BOOLEAN Recursive,
                 IN PEPROCESS Process,
                 IN PVOID TrapInformation,
                 IN PVOID Vad);

 NTSTATUS
 NTAPI
 MiFillSystemPageDirectory(IN PVOID Base,
                           IN SIZE_T NumberOfBytes);

 static PULONG
 MmGetPageTableForProcess(PEPROCESS Process, PVOID Address, BOOLEAN Create, PKIRQL OldIrql)
 {
     PFN_NUMBER Pfn;
     PULONG Pt;
     PMMPDE PointerPde;

     if (Address < MmSystemRangeStart)
     {
         /* We should have a process for user land addresses */
         ASSERT(Process != NULL);

         if(Process != PsGetCurrentProcess())
         {
             PMMPDE PdeBase;
             ULONG PdeOffset = MiGetPdeOffset(Address);

             PdeBase = MiMapPageInHyperSpace(PsGetCurrentProcess(),
                                             PTE_TO_PFN(Process->Pcb.DirectoryTableBase[0]),
                                             OldIrql);
             if (PdeBase == NULL)
             {
                 KeBugCheck(MEMORY_MANAGEMENT);
             }
             PointerPde = PdeBase + PdeOffset;
             if (PointerPde->u.Hard.Valid == 0)
             {
                 KAPC_STATE ApcState;
                 NTSTATUS Status;

                 if (!Create)
                 {
                     MiUnmapPageInHyperSpace(PsGetCurrentProcess(), PdeBase, *OldIrql);
                     return NULL;
                 }

                 KeStackAttachProcess(&Process->Pcb, &ApcState);

                 Status = MiDispatchFault(0x1,
                                      MiAddressToPte(Address),
                                      MiAddressToPde(Address),
                                      NULL,
                                      FALSE,
                                      Process,
                                      NULL,
                                      NULL);

                 KeUnstackDetachProcess(&ApcState);
                 if (!NT_SUCCESS(Status))
                     return NULL;
             }

             Pfn = PointerPde->u.Hard.PageFrameNumber;
             MiUnmapPageInHyperSpace(PsGetCurrentProcess(), PdeBase, *OldIrql);
             Pt = MiMapPageInHyperSpace(PsGetCurrentProcess(), Pfn, OldIrql);
             if (Pt == NULL)
             {
                 KeBugCheck(MEMORY_MANAGEMENT);
             }
             return Pt + MiAddressToPteOffset(Address);
         }
         /* This is for our process */
         PointerPde = MiAddressToPde(Address);
         Pt = (PULONG)MiAddressToPte(Address);
         if (PointerPde->u.Hard.Valid == 0)
         {
             NTSTATUS Status;
             if (Create == FALSE)
             {
                 return NULL;
             }
             ASSERT(PointerPde->u.Long == 0);

             MI_WRITE_INVALID_PTE(PointerPde, DemandZeroPde);
             // Tiny HACK: Parameter 1 is the architecture specific FaultCode for an access violation (i.e. page is present)
             Status = MiDispatchFault(0x1,
                                      Pt,
                                      PointerPde,
                                      NULL,
                                      FALSE,
                                      PsGetCurrentProcess(),
                                      NULL,
                                      NULL);
             DBG_UNREFERENCED_LOCAL_VARIABLE(Status);
             ASSERT(KeAreAllApcsDisabled() == TRUE);
             ASSERT(PointerPde->u.Hard.Valid == 1);
         }
         return (PULONG)MiAddressToPte(Address);
     }

     /* This is for kernel land address */
     ASSERT(Process == NULL);
     PointerPde = MiAddressToPde(Address);
     Pt = (PULONG)MiAddressToPte(Address);
     if (PointerPde->u.Hard.Valid == 0)
     {
         /* Let ARM3 synchronize the PDE */
         if(!MiSynchronizeSystemPde(PointerPde))
         {
             /* PDE (still) not valid, let ARM3 allocate one if asked */
             if(Create == FALSE)
                 return NULL;
             MiFillSystemPageDirectory(Address, PAGE_SIZE);
         }
     }
     return Pt;
 }

 static BOOLEAN MmUnmapPageTable(PULONG Pt, KIRQL OldIrql)
 {
     if (!IS_HYPERSPACE(Pt))
     {
         return TRUE;
     }

     MiUnmapPageInHyperSpace(PsGetCurrentProcess(), Pt, OldIrql);

     return FALSE;
 }

 static ULONG MmGetPageEntryForProcess(PEPROCESS Process, PVOID Address)
 {
     ULONG Pte;
     PULONG Pt;
     KIRQL OldIrql;

     Pt = MmGetPageTableForProcess(Process, Address, FALSE, &OldIrql);
     if (Pt)
     {
         Pte = *Pt;
         MmUnmapPageTable(Pt, OldIrql);
         return Pte;
     }
     return 0;
 }

 PFN_NUMBER
 NTAPI
 MmGetPfnForProcess(PEPROCESS Process,
                    PVOID Address)
 {
     ULONG Entry;
     Entry = MmGetPageEntryForProcess(Process, Address);
     if (!(Entry & PA_PRESENT))
     {
         return 0;
     }
     return(PTE_TO_PFN(Entry));
 }

 VOID
 NTAPI
 MmDeleteVirtualMapping(PEPROCESS Process, PVOID Address,
                        BOOLEAN* WasDirty, PPFN_NUMBER Page)
 /*
  * FUNCTION: Delete a virtual mapping
  */
 {
     BOOLEAN WasValid = FALSE;
     PFN_NUMBER Pfn;
     ULONG Pte;
     PULONG Pt;
     KIRQL OldIrql;

     DPRINT("MmDeleteVirtualMapping(%p, %p, %p, %p)\n",
            Process, Address, WasDirty, Page);

     Pt = MmGetPageTableForProcess(Process, Address, FALSE, &OldIrql);

     if (Pt == NULL)
     {
         if (WasDirty != NULL)
         {
             *WasDirty = FALSE;
         }
         if (Page != NULL)
         {
             *Page = 0;
         }
         return;
     }

     /*
      * Atomically set the entry to zero and get the old value.
      */
     Pte = InterlockedExchangePte(Pt, 0);

     /* We count a mapping as valid if it's a present page, or it's a nonzero pfn with
      * the swap bit unset, indicating a valid page protected to PAGE_NOACCESS. */
     WasValid = (Pte & PA_PRESENT) || ((Pte >> PAGE_SHIFT) && !(Pte & 0x800));
     if (WasValid)
     {
         /* Flush the TLB since we transitioned this PTE
          * from valid to invalid so any stale translations
          * are removed from the cache */
         MiFlushTlb(Pt, Address, OldIrql);

         if (Address < MmSystemRangeStart)
         {
             /* Remove PDE reference */
             Process->Vm.VmWorkingSetList->UsedPageTableEntries[MiGetPdeOffset(Address)]--;
             ASSERT(Process->Vm.VmWorkingSetList->UsedPageTableEntries[MiGetPdeOffset(Address)] < PTE_PER_PAGE);
         }

         Pfn = PTE_TO_PFN(Pte);
     }
     else
     {
         MmUnmapPageTable(Pt, OldIrql);
         Pfn = 0;
     }

     /*
      * Return some information to the caller
      */
     if (WasDirty != NULL)
     {
         *WasDirty = ((Pte & PA_DIRTY) && (Pte & PA_PRESENT)) ? TRUE : FALSE;
     }
     if (Page != NULL)
     {
         *Page = Pfn;
     }
 }

 VOID
 NTAPI
 MmGetPageFileMapping(PEPROCESS Process, PVOID Address,
                      SWAPENTRY* SwapEntry)
 /*
  * FUNCTION: Get a page file mapping
  */
 {
     ULONG Entry = MmGetPageEntryForProcess(Process, Address);
     *SwapEntry = Entry >> 1;
 }

 VOID
 NTAPI
 MmDeletePageFileMapping(PEPROCESS Process, PVOID Address,
                         SWAPENTRY* SwapEntry)
 /*
  * FUNCTION: Delete a virtual mapping
  */
 {
     ULONG Pte;
     PULONG Pt;
     KIRQL OldIrql;

     Pt = MmGetPageTableForProcess(Process, Address, FALSE, &OldIrql);

     if (Pt == NULL)
     {
         *SwapEntry = 0;
         return;
     }

     /*
      * Atomically set the entry to zero and get the old value.
      */
     Pte = InterlockedExchangePte(Pt, 0);

     if (Address < MmSystemRangeStart)
     {
         /* Remove PDE reference */
         Process->Vm.VmWorkingSetList->UsedPageTableEntries[MiGetPdeOffset(Address)]--;
         ASSERT(Process->Vm.VmWorkingSetList->UsedPageTableEntries[MiGetPdeOffset(Address)] < PTE_PER_PAGE);
     }

     /* We don't need to flush here because page file entries
      * are invalid translations, so the processor won't cache them */
     MmUnmapPageTable(Pt, OldIrql);

     if ((Pte & PA_PRESENT) || !(Pte & 0x800))
     {
         DPRINT1("Pte %x (want not 1 and 0x800)\n", Pte);
         KeBugCheck(MEMORY_MANAGEMENT);
     }

     /*
      * Return some information to the caller
      */
     *SwapEntry = Pte >> 1;
 }

 BOOLEAN
 Mmi386MakeKernelPageTableGlobal(PVOID Address)
 {
     PMMPDE PointerPde = MiAddressToPde(Address);
     PMMPTE PointerPte = MiAddressToPte(Address);

     if (PointerPde->u.Hard.Valid == 0)
     {
         if(!MiSynchronizeSystemPde(PointerPde))
             return FALSE;
         return PointerPte->u.Hard.Valid != 0;
     }
     return FALSE;
 }

 BOOLEAN
 NTAPI
 MmIsDirtyPage(PEPROCESS Process, PVOID Address)
 {
     return MmGetPageEntryForProcess(Process, Address) & PA_DIRTY ? TRUE : FALSE;
 }

 VOID
 NTAPI
 MmSetCleanPage(PEPROCESS Process, PVOID Address)
 {
     PULONG Pt;
     ULONG Pte;
     KIRQL OldIrql;

     if (Address < MmSystemRangeStart && Process == NULL)
     {
         DPRINT1("MmSetCleanPage is called for user space without a process.\n");
         KeBugCheck(MEMORY_MANAGEMENT);
     }

     Pt = MmGetPageTableForProcess(Process, Address, FALSE, &OldIrql);
     if (Pt == NULL)
     {
         KeBugCheck(MEMORY_MANAGEMENT);
     }

     do
     {
         Pte = *Pt;
     } while (Pte != InterlockedCompareExchangePte(Pt, Pte & ~PA_DIRTY, Pte));

     if (!(Pte & PA_PRESENT))
     {
         KeBugCheck(MEMORY_MANAGEMENT);
     }
     else if (Pte & PA_DIRTY)
     {
         MiFlushTlb(Pt, Address, OldIrql);
     }
     else
     {
         MmUnmapPageTable(Pt, OldIrql);
     }
 }

 VOID
 NTAPI
 MmSetDirtyPage(PEPROCESS Process, PVOID Address)
 {
     PULONG Pt;
     ULONG Pte;
     KIRQL OldIrql;

     if (Address < MmSystemRangeStart && Process == NULL)
     {
         DPRINT1("MmSetDirtyPage is called for user space without a process.\n");
         KeBugCheck(MEMORY_MANAGEMENT);
     }

     Pt = MmGetPageTableForProcess(Process, Address, FALSE, &OldIrql);
     if (Pt == NULL)
     {
         KeBugCheck(MEMORY_MANAGEMENT);
     }

     do
     {
         Pte = *Pt;
     } while (Pte != InterlockedCompareExchangePte(Pt, Pte | PA_DIRTY, Pte));

     if (!(Pte & PA_PRESENT))
     {
         KeBugCheck(MEMORY_MANAGEMENT);
     }
     else
     {
         /* The processor will never clear this bit itself, therefore
          * we do not need to flush the TLB here when setting it */
         MmUnmapPageTable(Pt, OldIrql);
     }
 }

 VOID
 NTAPI
 MmClearPageAccessedBit(PEPROCESS Process, PVOID Address)
 {
     PULONG Pt;
     LONG Pte;
     KIRQL OldIrql;

     if (Address < MmSystemRangeStart && Process == NULL)
     {
         DPRINT1("MmClearPageAccessedBit is called for user space without a process.\n");
         KeBugCheck(MEMORY_MANAGEMENT);
     }

     Pt = MmGetPageTableForProcess(Process, Address, FALSE, &OldIrql);
     if (Pt == NULL)
     {
         KeBugCheck(MEMORY_MANAGEMENT);
     }

     do
     {
         Pte = *Pt;
     } while (Pte != InterlockedCompareExchangePte(Pt, Pte & ~PA_ACCESSED, Pte));

     if (!(Pte & PA_PRESENT))
     {
         KeBugCheck(MEMORY_MANAGEMENT);
     }

     MiFlushTlb(Pt, Address, OldIrql);
 }

 BOOLEAN
 NTAPI
 MmIsPageAccessed(PEPROCESS Process, PVOID Address)
 {
     return BooleanFlagOn(MmGetPageEntryForProcess(Process, Address), PA_ACCESSED);
 }

 BOOLEAN
 NTAPI
 MmIsPagePresent(PEPROCESS Process, PVOID Address)
 {
     return MmGetPageEntryForProcess(Process, Address) & PA_PRESENT;
 }

 BOOLEAN
 NTAPI
 MmIsDisabledPage(PEPROCESS Process, PVOID Address)
 {
     ULONG_PTR Entry = MmGetPageEntryForProcess(Process, Address);
     return !(Entry & PA_PRESENT) && !(Entry & 0x800) && (Entry >> PAGE_SHIFT);
 }

 BOOLEAN
 NTAPI
 MmIsPageSwapEntry(PEPROCESS Process, PVOID Address)
 {
     ULONG Entry;
     Entry = MmGetPageEntryForProcess(Process, Address);
     return !(Entry & PA_PRESENT) && (Entry & 0x800);
 }

 NTSTATUS
 NTAPI
 MmCreatePageFileMapping(PEPROCESS Process,
                         PVOID Address,
                         SWAPENTRY SwapEntry)
 {
     PULONG Pt;
     ULONG Pte;
     KIRQL OldIrql;

     if (Process == NULL && Address < MmSystemRangeStart)
     {
         DPRINT1("No process\n");
         KeBugCheck(MEMORY_MANAGEMENT);
     }
     if (Process != NULL && Address >= MmSystemRangeStart)
     {
         DPRINT1("Setting kernel address with process context\n");
         KeBugCheck(MEMORY_MANAGEMENT);
     }

     if (SwapEntry & (1 << 31))
     {
         KeBugCheck(MEMORY_MANAGEMENT);
     }

     Pt = MmGetPageTableForProcess(Process, Address, FALSE, &OldIrql);
     if (Pt == NULL)
     {
         /* Nobody should page out an address that hasn't even been mapped */
         /* But we might place a wait entry first, requiring the page table */
         if (SwapEntry != MM_WAIT_ENTRY)
         {
             KeBugCheck(MEMORY_MANAGEMENT);
         }
         Pt = MmGetPageTableForProcess(Process, Address, TRUE, &OldIrql);
     }
     Pte = InterlockedExchangePte(Pt, SwapEntry << 1);
     if (Pte != 0)
     {
         KeBugCheckEx(MEMORY_MANAGEMENT, SwapEntry, (ULONG_PTR)Process, (ULONG_PTR)Address, 0);
     }

     if (Address < MmSystemRangeStart)
     {
         /* Add PDE reference */
         Process->Vm.VmWorkingSetList->UsedPageTableEntries[MiGetPdeOffset(Address)]++;
         ASSERT(Process->Vm.VmWorkingSetList->UsedPageTableEntries[MiGetPdeOffset(Address)] <= PTE_PER_PAGE);
     }

     /* We don't need to flush the TLB here because it
      * only caches valid translations and a zero PTE
      * is not a valid translation */
     MmUnmapPageTable(Pt, OldIrql);

     return(STATUS_SUCCESS);
 }


 NTSTATUS
 NTAPI
 MmCreateVirtualMappingUnsafe(PEPROCESS Process,
                              PVOID Address,
                              ULONG flProtect,
                              PPFN_NUMBER Pages,
                              ULONG PageCount)
 {
     ULONG Attributes;
     PVOID Addr;
     ULONG i;
     ULONG oldPdeOffset, PdeOffset;
     PULONG Pt = NULL;
     ULONG Pte;
     KIRQL OldIrql;

     DPRINT("MmCreateVirtualMappingUnsafe(%p, %p, %lu, %p (%x), %lu)\n",
            Process, Address, flProtect, Pages, *Pages, PageCount);

     ASSERT(((ULONG_PTR)Address % PAGE_SIZE) == 0);

     if (Process == NULL)
     {
         if (Address < MmSystemRangeStart)
         {
             DPRINT1("NULL process given for user-mode mapping at %p -- %lu pages starting at %Ix\n", Address, PageCount, *Pages);
             KeBugCheck(MEMORY_MANAGEMENT);
         }
         if (PageCount > 0x10000 ||
             (ULONG_PTR) Address / PAGE_SIZE + PageCount > 0x100000)
         {
             DPRINT1("Page count too large for kernel-mode mapping at %p -- %lu pages starting at %Ix\n", Address, PageCount, *Pages);
             KeBugCheck(MEMORY_MANAGEMENT);
         }
     }
     else
     {
         if (Address >= MmSystemRangeStart)
         {
             DPRINT1("Process %p given for kernel-mode mapping at %p -- %lu pages starting at %Ix\n", Process, Address, PageCount, *Pages);
             KeBugCheck(MEMORY_MANAGEMENT);
         }
         if (PageCount > (ULONG_PTR)MmSystemRangeStart / PAGE_SIZE ||
             (ULONG_PTR) Address / PAGE_SIZE + PageCount >
             (ULONG_PTR)MmSystemRangeStart / PAGE_SIZE)
         {
             DPRINT1("Page count too large for process %p user-mode mapping at %p -- %lu pages starting at %Ix\n", Process, Address, PageCount, *Pages);
             KeBugCheck(MEMORY_MANAGEMENT);
         }
     }

     Attributes = ProtectToPTE(flProtect);
     Attributes &= 0xfff;
     if (Address >= MmSystemRangeStart)
     {
         Attributes &= ~PA_USER;
     }
     else
     {
         Attributes |= PA_USER;
     }

     Addr = Address;
     /* MmGetPageTableForProcess should be called on the first run, so
      * let this trigger it */
     oldPdeOffset = ADDR_TO_PDE_OFFSET(Addr) + 1;
     for (i = 0; i < PageCount; i++, Addr = (PVOID)((ULONG_PTR)Addr + PAGE_SIZE))
     {
         if (!(Attributes & PA_PRESENT) && Pages[i] != 0)
         {
             DPRINT1("Setting physical address but not allowing access at address "
                     "0x%p with attributes %x/%x.\n",
                     Addr, Attributes, flProtect);
             KeBugCheck(MEMORY_MANAGEMENT);
         }
         PdeOffset = ADDR_TO_PDE_OFFSET(Addr);
         if (oldPdeOffset != PdeOffset)
         {
             if(Pt) MmUnmapPageTable(Pt, OldIrql);
             Pt = MmGetPageTableForProcess(Process, Addr, TRUE, &OldIrql);
             if (Pt == NULL)
             {
                 KeBugCheck(MEMORY_MANAGEMENT);
             }
         }
         else
         {
             Pt++;
         }
         oldPdeOffset = PdeOffset;

         Pte = InterlockedExchangePte(Pt, PFN_TO_PTE(Pages[i]) | Attributes);

         /* There should not be anything valid here */
         if (Pte != 0)
         {
             DPRINT1("Bad PTE %lx at %p for %p + %lu\n", Pte, Pt, Address, i);
             KeBugCheck(MEMORY_MANAGEMENT);
         }

         /* We don't need to flush the TLB here because it only caches valid translations
          * and we're moving this PTE from invalid to valid so it can't be cached right now */

         if (Addr < MmSystemRangeStart)
         {
             /* Add PDE reference */
             Process->Vm.VmWorkingSetList->UsedPageTableEntries[MiGetPdeOffset(Addr)]++;
             ASSERT(Process->Vm.VmWorkingSetList->UsedPageTableEntries[MiGetPdeOffset(Addr)] <= PTE_PER_PAGE);
         }
     }

     ASSERT(Addr > Address);
     MmUnmapPageTable(Pt, OldIrql);

     return(STATUS_SUCCESS);
 }

 NTSTATUS
 NTAPI
 MmCreateVirtualMapping(PEPROCESS Process,
                        PVOID Address,
                        ULONG flProtect,
                        PPFN_NUMBER Pages,
                        ULONG PageCount)
 {
     ULONG i;

     ASSERT((ULONG_PTR)Address % PAGE_SIZE == 0);
     for (i = 0; i < PageCount; i++)
     {
         if (!MmIsPageInUse(Pages[i]))
         {
             DPRINT1("Page at address %x not in use\n", PFN_TO_PTE(Pages[i]));
             KeBugCheck(MEMORY_MANAGEMENT);
         }
     }

     return(MmCreateVirtualMappingUnsafe(Process,
                                         Address,
                                         flProtect,
                                         Pages,
                                         PageCount));
 }

 ULONG
 NTAPI
 MmGetPageProtect(PEPROCESS Process, PVOID Address)
 {
     ULONG Entry;
     ULONG Protect;

     Entry = MmGetPageEntryForProcess(Process, Address);


     if (!(Entry & PA_PRESENT))
     {
         Protect = PAGE_NOACCESS;
     }
     else
     {
         if (Entry & PA_READWRITE)
         {
             Protect = PAGE_READWRITE;
         }
         else
         {
             Protect = PAGE_EXECUTE_READ;
         }
         if (Entry & PA_CD)
         {
             Protect |= PAGE_NOCACHE;
         }
         if (Entry & PA_WT)
         {
             Protect |= PAGE_WRITETHROUGH;
         }
         if (!(Entry & PA_USER))
         {
             Protect |= PAGE_SYSTEM;
         }

     }
     return(Protect);
 }

 VOID
 NTAPI
 MmSetPageProtect(PEPROCESS Process, PVOID Address, ULONG flProtect)
 {
     ULONG Attributes = 0;
     PULONG Pt;
     ULONG Pte;
     KIRQL OldIrql;

     DPRINT("MmSetPageProtect(Process %p  Address %p  flProtect %x)\n",
            Process, Address, flProtect);

     Attributes = ProtectToPTE(flProtect);

     Attributes &= 0xfff;
     if (Address >= MmSystemRangeStart)
     {
         Attributes &= ~PA_USER;
     }
     else
     {
         Attributes |= PA_USER;
     }

     Pt = MmGetPageTableForProcess(Process, Address, FALSE, &OldIrql);
     if (Pt == NULL)
     {
         KeBugCheck(MEMORY_MANAGEMENT);
     }
     Pte = InterlockedExchangePte(Pt, PAGE_MASK(*Pt) | Attributes | (*Pt & (PA_ACCESSED|PA_DIRTY)));

     // We should be able to bring a page back from PAGE_NOACCESS
     if ((Pte & 0x800) || !(Pte >> PAGE_SHIFT))
     {
         DPRINT1("Invalid Pte %lx\n", Pte);
         KeBugCheck(MEMORY_MANAGEMENT);
     }

     if((Pte & Attributes) != Attributes)
         MiFlushTlb(Pt, Address, OldIrql);
     else
         MmUnmapPageTable(Pt, OldIrql);
 }

 CODE_SEG("INIT")
 VOID
 NTAPI
 MmInitGlobalKernelPageDirectory(VOID)
 {
     /* Nothing to do here */
 }

 /* EOF */
PAGE_WRITETHROUGH
#define PAGE_WRITETHROUGH
Definition: mm.h:87

PAGE_NOCACHE
#define PAGE_NOCACHE
Definition: nt_native.h:1311

MmDeletePageFileMapping
VOID NTAPI MmDeletePageFileMapping(PEPROCESS Process, PVOID Address, SWAPENTRY *SwapEntry)
Definition: page.c:471

PAGE_SHIFT
#define PAGE_SHIFT
Definition: env_spec_w32.h:45

IN
#define IN
Definition: typedefs.h:39

Mmi386MakeKernelPageTableGlobal
BOOLEAN Mmi386MakeKernelPageTableGlobal(PVOID Address)
Definition: page.c:491

KAPC_STATE
KAPC_STATE
Definition: ketypes.h:1280

MmIsPagePresent
BOOLEAN NTAPI MmIsPagePresent(PEPROCESS Process, PVOID Address)
Definition: page.c:297

PAGE_IS_EXECUTABLE
#define PAGE_IS_EXECUTABLE
Definition: mm.h:137

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

KeAreAllApcsDisabled
BOOLEAN NTAPI KeAreAllApcsDisabled(VOID)
Definition: apc.c:985

Entry
struct _Entry Entry
Definition: kefuncs.h:627

_MMPTE::u
union _MMPTE::@2304 u

Protect
_In_ HANDLE _Outptr_result_bytebuffer_ ViewSize PVOID _In_ ULONG_PTR _In_ SIZE_T _Inout_opt_ PLARGE_INTEGER _Inout_ PSIZE_T _In_ SECTION_INHERIT _In_ ULONG _In_ ULONG Protect
Definition: zwfuncs.h:214

MmIsDisabledPage
BOOLEAN NTAPI MmIsDisabledPage(PEPROCESS Process, PVOID Address)
Definition: page.c:306

TRUE
#define TRUE
Definition: types.h:120

MmIsPageInUse
BOOLEAN NTAPI MmIsPageInUse(PFN_NUMBER Page)
Definition: freelist.c:559

BooleanFlagOn
#define BooleanFlagOn(F, SF)
Definition: ext2fs.h:183

Create
_In_ BOOLEAN Create
Definition: pstypes.h:519

PAGE_GUARD
#define PAGE_GUARD
Definition: nt_native.h:1310

ProtectToPTE
static ULONG ProtectToPTE(ULONG flProtect)
Definition: page.c:149

x1
_In_ CLIPOBJ _In_ BRUSHOBJ _In_ LONG x1
Definition: winddi.h:3706

MmDeleteVirtualMapping
VOID NTAPI MmDeleteVirtualMapping(PEPROCESS Process, PVOID Address, BOOLEAN *WasDirty, PPFN_NUMBER Page)
Definition: page.c:428

NTSTATUS
LONG NTSTATUS
Definition: precomp.h:26

PA_DIRTY
#define PA_DIRTY
Definition: page.c:35

Base
_In_opt_ ULONG Base
Definition: rtlfuncs.h:2373

InterlockedExchangePte
#define InterlockedExchangePte(pte1, pte2)
Definition: page.c:19

MmSetDirtyPage
VOID NTAPI MmSetDirtyPage(PEPROCESS Process, PVOID Address)
Definition: page.c:405

PTE_TO_PFN
#define PTE_TO_PFN(X)
Definition: page.c:43

MmIsDirtyPage
BOOLEAN NTAPI MmIsDirtyPage(PEPROCESS Process, PVOID Address)
Definition: page.c:342

_EPROCESS
Definition: pstypes.h:1202

MmInitGlobalKernelPageDirectory
VOID NTAPI MmInitGlobalKernelPageDirectory(VOID)
Definition: page.c:278

MmSetCleanPage
VOID NTAPI MmSetCleanPage(PEPROCESS Process, PVOID Address)
Definition: page.c:382

MiGetPdeOffset
#define MiGetPdeOffset(x)
Definition: mm.h:188

PFN_TO_PTE
#define PFN_TO_PTE(X)
Definition: page.c:44

PA_WT
#define PA_WT
Definition: page.c:36

ULONG_PTR
uint32_t ULONG_PTR
Definition: typedefs.h:65

KIRQL
UCHAR KIRQL
Definition: env_spec_w32.h:591

PPFN_NUMBER
ULONG * PPFN_NUMBER
Definition: ke.h:9

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

PAGE_EXECUTE_WRITECOPY
#define PAGE_EXECUTE_WRITECOPY
Definition: nt_native.h:1309

miarm.h

PFN_NUMBER
ULONG PFN_NUMBER
Definition: ke.h:9

NTAPI
NTSTATUS(* NTAPI)(IN PFILE_FULL_EA_INFORMATION EaBuffer, IN ULONG EaLength, OUT PULONG ErrorOffset)
Definition: IoEaTest.cpp:117

FALSE
#define FALSE
Definition: types.h:117

KeStackAttachProcess
VOID NTAPI KeStackAttachProcess(IN PKPROCESS Process, OUT PRKAPC_STATE ApcState)
Definition: procobj.c:701

PAGE_IS_WRITABLE
#define PAGE_IS_WRITABLE
Definition: mm.h:131

PA_ACCESSED
#define PA_ACCESSED
Definition: page.c:38

KeBugCheck
DECLSPEC_NORETURN VOID NTAPI KeBugCheck(ULONG BugCheckCode)
Definition: bug.c:1427

LONG
long LONG
Definition: pedump.c:60

MmGetPageTableForProcess
static PULONG MmGetPageTableForProcess(PEPROCESS Process, PVOID Address, BOOLEAN Create, PKIRQL OldIrql)
Definition: page.c:206

MmCreatePageFileMapping
NTSTATUS NTAPI MmCreatePageFileMapping(PEPROCESS Process, PVOID Address, SWAPENTRY SwapEntry)
Definition: page.c:499

MmIsPageSwapEntry
BOOLEAN NTAPI MmIsPageSwapEntry(PEPROCESS Process, PVOID Address)
Definition: page.c:318

PsGetCurrentProcess
#define PsGetCurrentProcess
Definition: psfuncs.h:17

MiMapPageInHyperSpace
PVOID NTAPI MiMapPageInHyperSpace(IN PEPROCESS Process, IN PFN_NUMBER Page, IN PKIRQL OldIrql)
Definition: hypermap.c:28

PAGE_NOACCESS
#define PAGE_NOACCESS
Definition: nt_native.h:1302

BOOLEAN
unsigned char BOOLEAN
Definition: ProcessorBind.h:185

PA_PRESENT
#define PA_PRESENT
Definition: page.c:32

Address
static WCHAR Address[46]
Definition: ping.c:68

PAGE_EXECUTE
#define PAGE_EXECUTE
Definition: nt_native.h:1306

MmGetPageProtect
ULONG NTAPI MmGetPageProtect(PEPROCESS Process, PVOID Address)
Definition: page.c:351

Page
PFN_NUMBER Page
Definition: section.c:4843

MmCreateVirtualMappingUnsafe
NTSTATUS NTAPI MmCreateVirtualMappingUnsafe(PEPROCESS Process, PVOID Address, ULONG PageProtection, PPFN_NUMBER Pages, ULONG PageCount)
Definition: page.c:543

PVOID
void * PVOID
Definition: retypes.h:9

MmGetPfnForProcess
PFN_NUMBER NTAPI MmGetPfnForProcess(PEPROCESS Process, PVOID Address)
Definition: page.c:287

InterlockedCompareExchangePte
#define InterlockedCompareExchangePte(PointerPte, Exchange, Comperand)
Definition: mm.h:158

PA_READWRITE
#define PA_READWRITE
Definition: page.c:33

Status
Status
Definition: gdiplustypes.h:24

DBG_UNREFERENCED_LOCAL_VARIABLE
#define DBG_UNREFERENCED_LOCAL_VARIABLE(L)
Definition: ntbasedef.h:319

IS_HYPERSPACE
#define IS_HYPERSPACE(v)
Definition: page.c:41

KeInvalidateTlbEntry
FORCEINLINE VOID KeInvalidateTlbEntry(IN PVOID Address)
Definition: ke.h:201

PAGE_MASK
#define PAGE_MASK(x)
Definition: page.c:46

ASSERT
#define ASSERT(a)
Definition: mode.c:45

NT_SUCCESS
#define NT_SUCCESS(StatCode)
Definition: apphelp.c:32

MmIsPageAccessed
BOOLEAN NTAPI MmIsPageAccessed(PEPROCESS Process, PVOID Address)
Definition: page.c:623

MmProtectToPteMask
const ULONG64 MmProtectToPteMask[32]
Definition: page.c:32

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

PA_CD
#define PA_CD
Definition: page.c:37

DemandZeroPde
MMPDE DemandZeroPde
Definition: page.c:114

PTE_PER_PAGE
#define PTE_PER_PAGE
Definition: mm.h:20

CODE_SEG
CODE_SEG("INIT")
Definition: fsrtlpc.c:19

MiFillSystemPageDirectory
NTSTATUS NTAPI MiFillSystemPageDirectory(IN PVOID Base, IN SIZE_T NumberOfBytes)
Definition: section.c:480

PAGE_SYSTEM
#define PAGE_SYSTEM
Definition: mm.h:88

MiUnmapPageInHyperSpace
VOID NTAPI MiUnmapPageInHyperSpace(IN PEPROCESS Process, IN PVOID Address, IN KIRQL OldIrql)
Definition: hypermap.c:91

OldIrql
_Requires_lock_held_ Interrupt _Releases_lock_ Interrupt _In_ _IRQL_restores_ KIRQL OldIrql
Definition: kefuncs.h:790

PKIRQL
KIRQL * PKIRQL
Definition: env_spec_w32.h:592

MiFlushTlb
VOID MiFlushTlb(PMMPTE Pte, PVOID Address, KIRQL OldIrql)
Definition: page.c:128

ADDR_TO_PDE_OFFSET
#define ADDR_TO_PDE_OFFSET
Definition: page.c:18

PAGE_SIZE
#define PAGE_SIZE
Definition: env_spec_w32.h:49

MmProtectToValue
const ULONG MmProtectToValue[32]
Definition: page.c:81

MmSetPageProtect
VOID NTAPI MmSetPageProtect(PEPROCESS Process, PVOID Address, ULONG flProtect)
Definition: page.c:362

_MMPTE::Long
ULONG_PTR Long
Definition: mmtypes.h:215

_MMPTE
Definition: mmtypes.h:211

SIZE_T
ULONG_PTR SIZE_T
Definition: typedefs.h:80

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

MI_WRITE_INVALID_PTE
FORCEINLINE VOID MI_WRITE_INVALID_PTE(IN PMMPTE PointerPte, IN MMPTE InvalidPte)
Definition: miarm.h:975

PAGE_WRITECOMBINE
#define PAGE_WRITECOMBINE
Definition: mmtypes.h:78

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

KeUnstackDetachProcess
VOID NTAPI KeUnstackDetachProcess(IN PRKAPC_STATE ApcState)
Definition: procobj.c:753

SWAPENTRY
ULONG_PTR SWAPENTRY
Definition: mm.h:47

ApcState
_Out_ PKAPC_STATE ApcState
Definition: mm.h:1587

PA_USER
#define PA_USER
Definition: page.c:34

NumberOfBytes
_Must_inspect_result_ typedef _In_ PHYSICAL_ADDRESS _Inout_ PLARGE_INTEGER NumberOfBytes
Definition: iotypes.h:1035

PULONG
unsigned int * PULONG
Definition: retypes.h:1

MmGetPageFileMapping
VOID NTAPI MmGetPageFileMapping(PEPROCESS Process, PVOID Address, SWAPENTRY *SwapEntry)
Definition: page.c:327

NULL
#define NULL
Definition: types.h:112

PAGE_READONLY
#define PAGE_READONLY
Definition: compat.h:138

PAGE_WRITECOPY
#define PAGE_WRITECOPY
Definition: nt_native.h:1305

MmUnmapPageTable
static BOOLEAN MmUnmapPageTable(PULONG Pt, KIRQL OldIrql)
Definition: page.c:313

MmClearPageAccessedBit
VOID NTAPI MmClearPageAccessedBit(PEPROCESS Process, PVOID Address)
Definition: page.c:590

DPRINT1
#define DPRINT1
Definition: precomp.h:8

Process
_Must_inspect_result_ _In_ PLARGE_INTEGER _In_ PLARGE_INTEGER _In_ ULONG _In_ PFILE_OBJECT _In_ PVOID Process
Definition: fsrtlfuncs.h:219

ULONG
unsigned int ULONG
Definition: retypes.h:1

_MMPTE_HARDWARE::PageFrameNumber
ULONG64 PageFrameNumber
Definition: mmtypes.h:171

PAGE_EXECUTE_READ
#define PAGE_EXECUTE_READ
Definition: nt_native.h:1307

MiAddressToPteOffset
#define MiAddressToPteOffset(x)
Definition: mmx86.c:21

PAGE_EXECUTE_READWRITE
#define PAGE_EXECUTE_READWRITE
Definition: nt_native.h:1308

STATUS_SUCCESS
#define STATUS_SUCCESS
Definition: shellext.h:65

DPRINT
#define DPRINT
Definition: sndvol32.h:71

MiDispatchFault
NTSTATUS NTAPI MiDispatchFault(IN ULONG FaultCode, IN PVOID Address, IN PMMPTE PointerPte, IN PMMPTE PointerProtoPte, IN BOOLEAN Recursive, IN PEPROCESS Process, IN PVOID TrapInformation, IN PVOID Vad)

void
Definition: nsiface.idl:2306

MmSystemRangeStart
#define MmSystemRangeStart
Definition: mm.h:32

MmCreateVirtualMapping
NTSTATUS NTAPI MmCreateVirtualMapping(PEPROCESS Process, PVOID Address, ULONG Protect, PPFN_NUMBER Pages, ULONG PageCount)
Definition: page.c:599

Entry
base of all file and directory entries
Definition: entries.h:82

MmGetPageEntryForProcess
static ULONG MmGetPageEntryForProcess(PEPROCESS Process, PVOID Address)
Definition: page.c:325

KeBugCheckEx
VOID NTAPI KeBugCheckEx(_In_ ULONG BugCheckCode, _In_ ULONG_PTR BugCheckParameter1, _In_ ULONG_PTR BugCheckParameter2, _In_ ULONG_PTR BugCheckParameter3, _In_ ULONG_PTR BugCheckParameter4)
Definition: rtlcompat.c:108

PAGE_IS_READABLE
#define PAGE_IS_READABLE
Definition: mm.h:123

PAGE_READWRITE
#define PAGE_READWRITE
Definition: nt_native.h:1304

Attributes
_Must_inspect_result_ _In_ WDFDMAENABLER _In_ _In_opt_ PWDF_OBJECT_ATTRIBUTES Attributes
Definition: wdfcommonbuffer.h:97