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https://github.com/reactos/reactos.git
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776 lines
24 KiB
C
776 lines
24 KiB
C
/*
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* COPYRIGHT: GPL, See COPYING in the top level directory
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* PROJECT: ReactOS kernel
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* FILE: ntoskrnl/mm/amd64/init.c
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* PURPOSE: Memory Manager Initialization for amd64
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*
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* PROGRAMMERS: Timo kreuzer (timo.kreuzer@reactos.org)
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* ReactOS Portable Systems Group
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*/
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/* INCLUDES ***************************************************************/
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#include <ntoskrnl.h>
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//#define NDEBUG
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#include <debug.h>
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#include <mm/ARM3/miarm.h>
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#include <fltkernel.h>
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extern PMMPTE MmDebugPte;
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/* Helper macros */
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#define IS_PAGE_ALIGNED(addr) IS_ALIGNED(addr, PAGE_SIZE)
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/* GLOBALS *****************************************************************/
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/* Template PTE and PDE for a kernel page */
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MMPTE ValidKernelPde = {{PTE_VALID|PTE_EXECUTE_READWRITE|PTE_DIRTY|PTE_ACCESSED}};
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MMPTE ValidKernelPte = {{PTE_VALID|PTE_EXECUTE_READWRITE|PTE_DIRTY|PTE_ACCESSED}};
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/* The same, but for local pages */
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MMPTE ValidKernelPdeLocal = {{PTE_VALID|PTE_EXECUTE_READWRITE|PTE_DIRTY|PTE_ACCESSED}};
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MMPTE ValidKernelPteLocal = {{PTE_VALID|PTE_EXECUTE_READWRITE|PTE_DIRTY|PTE_ACCESSED}};
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/* Template PDE for a demand-zero page */
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MMPDE DemandZeroPde = {{MM_EXECUTE_READWRITE << MM_PTE_SOFTWARE_PROTECTION_BITS}};
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MMPTE DemandZeroPte = {{MM_READWRITE << MM_PTE_SOFTWARE_PROTECTION_BITS}};
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/* Template PTE for prototype page */
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MMPTE PrototypePte = {{(MM_EXECUTE_READWRITE << MM_PTE_SOFTWARE_PROTECTION_BITS) |
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PTE_PROTOTYPE | (MI_PTE_LOOKUP_NEEDED << 32)}};
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/* Template PTE for decommited page */
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MMPTE MmDecommittedPte = {{MM_DECOMMIT << MM_PTE_SOFTWARE_PROTECTION_BITS}};
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/* Address ranges */
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PVOID MiSessionViewEnd;
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PVOID MiSystemPteSpaceStart;
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PVOID MiSystemPteSpaceEnd;
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ULONG64 MxPfnSizeInBytes;
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BOOLEAN MiIncludeType[LoaderMaximum];
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PFN_NUMBER MxFreePageBase;
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ULONG64 MxFreePageCount = 0;
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BOOLEAN MiPfnsInitialized = FALSE;
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/* FUNCTIONS *****************************************************************/
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CODE_SEG("INIT")
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VOID
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NTAPI
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MiInitializeSessionSpaceLayout(VOID)
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{
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/* This is the entire size */
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MmSessionSize = MI_SESSION_SIZE;
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/* Start with session space end */
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MiSessionSpaceEnd = (PVOID)MI_SESSION_SPACE_END;
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/* The highest range is the session image range */
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MmSessionImageSize = MI_SESSION_IMAGE_SIZE;
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MiSessionImageEnd = MiSessionSpaceEnd;
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MiSessionImageStart = (PUCHAR)MiSessionImageEnd - MmSessionImageSize;
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ASSERT(IS_PAGE_ALIGNED(MiSessionImageStart));
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/* Session working set is below the session image range */
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MiSessionSpaceWs = (PUCHAR)MiSessionImageStart - MI_SESSION_WORKING_SET_SIZE;
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/* Session view is below the session working set */
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MmSessionViewSize = MI_SESSION_VIEW_SIZE;
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MiSessionViewEnd = MiSessionSpaceWs;
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MiSessionViewStart = (PUCHAR)MiSessionViewEnd - MmSessionViewSize;
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ASSERT(IS_PAGE_ALIGNED(MiSessionViewStart));
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/* Session pool is below session view */
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MmSessionPoolSize = MI_SESSION_POOL_SIZE;
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MiSessionPoolEnd = MiSessionViewStart;
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MiSessionPoolStart = (PUCHAR)MiSessionPoolEnd - MmSessionPoolSize;
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ASSERT(IS_PAGE_ALIGNED(MiSessionPoolStart));
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/* And it all begins here */
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MmSessionBase = MiSessionPoolStart;
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/* System view space ends at session space, so now that we know where
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* this is, we can compute the base address of system view space itself. */
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MmSystemViewSize = MI_SYSTEM_VIEW_SIZE;
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MiSystemViewStart = (PUCHAR)MmSessionBase - MmSystemViewSize;
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ASSERT(IS_PAGE_ALIGNED(MiSystemViewStart));
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/* Sanity checks */
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ASSERT(Add2Ptr(MmSessionBase, MmSessionSize) == MiSessionSpaceEnd);
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ASSERT(MiSessionViewEnd <= MiSessionImageStart);
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ASSERT(MmSessionBase <= MiSessionPoolStart);
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/* Compute the PTE addresses for all the addresses we carved out */
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MiSessionImagePteStart = MiAddressToPte(MiSessionImageStart);
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MiSessionImagePteEnd = MiAddressToPte(MiSessionImageEnd);
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MiSessionBasePte = MiAddressToPte(MmSessionBase);
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MiSessionLastPte = MiAddressToPte(MiSessionSpaceEnd);
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/* Initialize the pointer to the session space structure */
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MmSessionSpace = (PMM_SESSION_SPACE)Add2Ptr(MiSessionImageStart, 0x10000);
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}
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VOID
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NTAPI
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MiMapPPEs(
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PVOID StartAddress,
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PVOID EndAddress)
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{
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PMMPDE PointerPpe;
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MMPDE TmplPde = ValidKernelPde;
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/* Loop the PPEs */
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for (PointerPpe = MiAddressToPpe(StartAddress);
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PointerPpe <= MiAddressToPpe(EndAddress);
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PointerPpe++)
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{
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/* Check if its already mapped */
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if (!PointerPpe->u.Hard.Valid)
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{
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/* No, map it! */
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TmplPde.u.Hard.PageFrameNumber = MxGetNextPage(1);
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MI_WRITE_VALID_PTE(PointerPpe, TmplPde);
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/* Zero out the page table */
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RtlZeroMemory(MiPteToAddress(PointerPpe), PAGE_SIZE);
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}
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}
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}
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VOID
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NTAPI
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MiMapPDEs(
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PVOID StartAddress,
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PVOID EndAddress)
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{
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PMMPDE PointerPde;
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MMPDE TmplPde = ValidKernelPde;
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/* Loop the PDEs */
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for (PointerPde = MiAddressToPde(StartAddress);
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PointerPde <= MiAddressToPde(EndAddress);
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PointerPde++)
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{
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/* Check if its already mapped */
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if (!PointerPde->u.Hard.Valid)
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{
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/* No, map it! */
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TmplPde.u.Hard.PageFrameNumber = MxGetNextPage(1);
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MI_WRITE_VALID_PTE(PointerPde, TmplPde);
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/* Zero out the page table */
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RtlZeroMemory(MiPteToAddress(PointerPde), PAGE_SIZE);
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}
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}
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}
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VOID
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NTAPI
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MiMapPTEs(
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PVOID StartAddress,
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PVOID EndAddress)
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{
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PMMPTE PointerPte;
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MMPTE TmplPte = ValidKernelPte;
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/* Loop the PTEs */
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for (PointerPte = MiAddressToPte(StartAddress);
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PointerPte <= MiAddressToPte(EndAddress);
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PointerPte++)
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{
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/* Check if its already mapped */
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if (!PointerPte->u.Hard.Valid)
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{
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/* No, map it! */
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TmplPte.u.Hard.PageFrameNumber = MxGetNextPage(1);
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MI_WRITE_VALID_PTE(PointerPte, TmplPte);
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/* Zero out the page (FIXME: not always neccessary) */
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RtlZeroMemory(MiPteToAddress(PointerPte), PAGE_SIZE);
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}
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}
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}
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CODE_SEG("INIT")
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VOID
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NTAPI
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MiInitializePageTable(VOID)
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{
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ULONG64 PxePhysicalAddress;
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MMPTE TmplPte, *PointerPxe;
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PFN_NUMBER PxePfn;
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/* Get current directory base */
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PxePfn = ((PMMPTE)PXE_SELFMAP)->u.Hard.PageFrameNumber;
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PxePhysicalAddress = PxePfn << PAGE_SHIFT;
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ASSERT(PxePhysicalAddress == __readcr3());
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/* Set directory base for the system process */
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PsGetCurrentProcess()->Pcb.DirectoryTableBase[0] = PxePhysicalAddress;
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/* Enable global pages */
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__writecr4(__readcr4() | CR4_PGE);
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ASSERT(__readcr4() & CR4_PGE);
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/* Loop the user mode PXEs */
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for (PointerPxe = MiAddressToPxe(0);
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PointerPxe <= MiAddressToPxe(MmHighestUserAddress);
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PointerPxe++)
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{
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/* Zero the PXE, clear all mappings */
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PointerPxe->u.Long = 0;
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}
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/* Flush the TLB */
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KeFlushCurrentTb();
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/* Set up a template PTE */
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TmplPte.u.Long = 0;
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TmplPte.u.Flush.Valid = 1;
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TmplPte.u.Flush.Write = 1;
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HyperTemplatePte = TmplPte;
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/* Create PDPTs (72 KB) for shared system address space,
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* skip page tables TODO: use global pages. */
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/* Loop the PXEs */
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for (PointerPxe = MiAddressToPxe((PVOID)HYPER_SPACE);
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PointerPxe <= MiAddressToPxe(MI_HIGHEST_SYSTEM_ADDRESS);
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PointerPxe++)
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{
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/* Is the PXE already valid? */
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if (!PointerPxe->u.Hard.Valid)
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{
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/* It's not Initialize it */
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TmplPte.u.Flush.PageFrameNumber = MxGetNextPage(1);
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*PointerPxe = TmplPte;
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/* Zero the page. The PXE is the PTE for the PDPT. */
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RtlZeroMemory(MiPteToAddress(PointerPxe), PAGE_SIZE);
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}
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}
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PxePfn = PFN_FROM_PXE(MiAddressToPxe((PVOID)HYPER_SPACE));
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PsGetCurrentProcess()->Pcb.DirectoryTableBase[1] = PxePfn << PAGE_SHIFT;
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/* Map PPEs for paged pool */
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MiMapPPEs(MmPagedPoolStart, MmPagedPoolEnd);
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/* Setup 1 PPE for hyper space */
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MiMapPPEs((PVOID)HYPER_SPACE, (PVOID)HYPER_SPACE_END);
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/* Setup PPEs for system space view */
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MiMapPPEs(MiSystemViewStart, (PCHAR)MiSystemViewStart + MmSystemViewSize);
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/* Setup the mapping PDEs */
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MiMapPDEs((PVOID)MI_MAPPING_RANGE_START, (PVOID)MI_MAPPING_RANGE_END);
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/* Setup the mapping PTEs */
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MmFirstReservedMappingPte = MiAddressToPte((PVOID)MI_MAPPING_RANGE_START);
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MmLastReservedMappingPte = MiAddressToPte((PVOID)MI_MAPPING_RANGE_END);
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MmFirstReservedMappingPte->u.Hard.PageFrameNumber = MI_HYPERSPACE_PTES;
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/* Setup debug mapping PTE */
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MiMapPPEs((PVOID)MI_DEBUG_MAPPING, (PVOID)MI_DEBUG_MAPPING);
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MiMapPDEs((PVOID)MI_DEBUG_MAPPING, (PVOID)MI_DEBUG_MAPPING);
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MmDebugPte = MiAddressToPte((PVOID)MI_DEBUG_MAPPING);
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/* Setup PDE and PTEs for VAD bitmap and working set list */
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MiMapPDEs((PVOID)MI_VAD_BITMAP, (PVOID)(MI_WORKING_SET_LIST + PAGE_SIZE - 1));
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MiMapPTEs((PVOID)MI_VAD_BITMAP, (PVOID)(MI_WORKING_SET_LIST + PAGE_SIZE - 1));
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}
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CODE_SEG("INIT")
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VOID
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NTAPI
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MiBuildNonPagedPool(VOID)
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{
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/* Check if this is a machine with less than 256MB of RAM, and no overide */
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if ((MmNumberOfPhysicalPages <= MI_MIN_PAGES_FOR_NONPAGED_POOL_TUNING) &&
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!(MmSizeOfNonPagedPoolInBytes))
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{
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/* Force the non paged pool to be 2MB so we can reduce RAM usage */
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MmSizeOfNonPagedPoolInBytes = 2 * 1024 * 1024;
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}
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/* Check if the user gave a ridicuously large nonpaged pool RAM size */
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if ((MmSizeOfNonPagedPoolInBytes >> PAGE_SHIFT) >
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(MmNumberOfPhysicalPages * 7 / 8))
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{
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/* More than 7/8ths of RAM was dedicated to nonpaged pool, ignore! */
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MmSizeOfNonPagedPoolInBytes = 0;
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}
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/* Check if no registry setting was set, or if the setting was too low */
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if (MmSizeOfNonPagedPoolInBytes < MmMinimumNonPagedPoolSize)
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{
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/* Start with the minimum (256 KB) and add 32 KB for each MB above 4 */
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MmSizeOfNonPagedPoolInBytes = MmMinimumNonPagedPoolSize;
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MmSizeOfNonPagedPoolInBytes += (MmNumberOfPhysicalPages - 1024) /
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256 * MmMinAdditionNonPagedPoolPerMb;
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}
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/* Check if the registy setting or our dynamic calculation was too high */
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if (MmSizeOfNonPagedPoolInBytes > MI_MAX_INIT_NONPAGED_POOL_SIZE)
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{
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/* Set it to the maximum */
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MmSizeOfNonPagedPoolInBytes = MI_MAX_INIT_NONPAGED_POOL_SIZE;
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}
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/* Check if a percentage cap was set through the registry */
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if (MmMaximumNonPagedPoolPercent)
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{
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/* Don't feel like supporting this right now */
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UNIMPLEMENTED;
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}
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/* Page-align the nonpaged pool size */
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MmSizeOfNonPagedPoolInBytes &= ~(PAGE_SIZE - 1);
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/* Now, check if there was a registry size for the maximum size */
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if (!MmMaximumNonPagedPoolInBytes)
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{
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/* Start with the default (1MB) and add 400 KB for each MB above 4 */
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MmMaximumNonPagedPoolInBytes = MmDefaultMaximumNonPagedPool;
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MmMaximumNonPagedPoolInBytes += (MmNumberOfPhysicalPages - 1024) /
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256 * MmMaxAdditionNonPagedPoolPerMb;
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}
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/* Don't let the maximum go too high */
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if (MmMaximumNonPagedPoolInBytes > MI_MAX_NONPAGED_POOL_SIZE)
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{
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/* Set it to the upper limit */
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MmMaximumNonPagedPoolInBytes = MI_MAX_NONPAGED_POOL_SIZE;
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}
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/* Convert nonpaged pool size from bytes to pages */
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MmMaximumNonPagedPoolInPages = MmMaximumNonPagedPoolInBytes >> PAGE_SHIFT;
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/* Non paged pool starts after the PFN database */
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MmNonPagedPoolStart = MmPfnDatabase + MxPfnAllocation * PAGE_SIZE;
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/* Calculate the nonpaged pool expansion start region */
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MmNonPagedPoolExpansionStart = (PCHAR)MmNonPagedPoolStart +
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MmSizeOfNonPagedPoolInBytes;
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ASSERT(IS_PAGE_ALIGNED(MmNonPagedPoolExpansionStart));
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/* And this is where the none paged pool ends */
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MmNonPagedPoolEnd = (PCHAR)MmNonPagedPoolStart + MmMaximumNonPagedPoolInBytes;
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ASSERT(MmNonPagedPoolEnd < (PVOID)MM_HAL_VA_START);
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/* Map PPEs and PDEs for non paged pool (including expansion) */
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MiMapPPEs(MmNonPagedPoolStart, MmNonPagedPoolEnd);
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MiMapPDEs(MmNonPagedPoolStart, MmNonPagedPoolEnd);
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/* Map the nonpaged pool PTEs (without expansion) */
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MiMapPTEs(MmNonPagedPoolStart, (PCHAR)MmNonPagedPoolExpansionStart - 1);
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/* Initialize the ARM3 nonpaged pool */
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MiInitializeNonPagedPool();
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MiInitializeNonPagedPoolThresholds();
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}
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CODE_SEG("INIT")
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VOID
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NTAPI
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MiBuildSystemPteSpace(VOID)
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{
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PMMPTE PointerPte;
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SIZE_T NonPagedSystemSize;
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/* Use the default number of system PTEs */
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MmNumberOfSystemPtes = MI_NUMBER_SYSTEM_PTES;
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NonPagedSystemSize = (MmNumberOfSystemPtes + 1) * PAGE_SIZE;
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/* Put system PTEs at the start of the system VA space */
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MiSystemPteSpaceStart = MmNonPagedSystemStart;
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MiSystemPteSpaceEnd = (PUCHAR)MiSystemPteSpaceStart + NonPagedSystemSize;
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/* Map the PPEs and PDEs for the system PTEs */
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MiMapPPEs(MiSystemPteSpaceStart, MiSystemPteSpaceEnd);
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MiMapPDEs(MiSystemPteSpaceStart, MiSystemPteSpaceEnd);
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/* Initialize the system PTE space */
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PointerPte = MiAddressToPte(MiSystemPteSpaceStart);
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MiInitializeSystemPtes(PointerPte, MmNumberOfSystemPtes, SystemPteSpace);
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/* Reserve system PTEs for zeroing PTEs and clear them */
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MiFirstReservedZeroingPte = MiReserveSystemPtes(MI_ZERO_PTES + 1,
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SystemPteSpace);
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RtlZeroMemory(MiFirstReservedZeroingPte, (MI_ZERO_PTES + 1) * sizeof(MMPTE));
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/* Set the counter to maximum */
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MiFirstReservedZeroingPte->u.Hard.PageFrameNumber = MI_ZERO_PTES;
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}
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static
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VOID
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MiSetupPfnForPageTable(
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PFN_NUMBER PageFrameIndex,
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PMMPTE PointerPte)
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{
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PMMPFN Pfn;
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PMMPDE PointerPde;
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/* Get the pfn entry for this page */
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Pfn = MiGetPfnEntry(PageFrameIndex);
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/* Check if it's valid memory */
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if ((PageFrameIndex <= MmHighestPhysicalPage) &&
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(MmIsAddressValid(Pfn)) &&
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(Pfn->u3.e1.PageLocation == ActiveAndValid))
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{
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/* Setup the PFN entry */
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Pfn->u1.WsIndex = 0;
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Pfn->u2.ShareCount++;
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Pfn->PteAddress = PointerPte;
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Pfn->OriginalPte = *PointerPte;
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Pfn->u3.e1.PageLocation = ActiveAndValid;
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Pfn->u3.e1.CacheAttribute = MiNonCached;
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Pfn->u3.e2.ReferenceCount = 1;
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Pfn->u4.PteFrame = PFN_FROM_PTE(MiAddressToPte(PointerPte));
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}
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/* Increase the shared count of the PFN entry for the PDE */
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PointerPde = MiAddressToPde(MiPteToAddress(PointerPte));
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Pfn = MiGetPfnEntry(PFN_FROM_PTE(PointerPde));
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Pfn->u2.ShareCount++;
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}
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CODE_SEG("INIT")
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static
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VOID
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MiBuildPfnDatabaseFromPageTables(VOID)
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{
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PVOID Address = NULL;
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PFN_NUMBER PageFrameIndex;
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PMMPDE PointerPde;
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PMMPTE PointerPte;
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ULONG k, l;
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PMMPFN Pfn;
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#if (_MI_PAGING_LEVELS >= 3)
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PMMPDE PointerPpe;
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ULONG j;
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#endif
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#if (_MI_PAGING_LEVELS == 4)
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PMMPDE PointerPxe;
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ULONG i;
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#endif
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/* Manual setup of the top level page directory */
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#if (_MI_PAGING_LEVELS == 4)
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PageFrameIndex = PFN_FROM_PTE(MiAddressToPte(PXE_BASE));
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#elif (_MI_PAGING_LEVELS == 3)
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PageFrameIndex = PFN_FROM_PTE(MiAddressToPte(PPE_BASE));
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#else
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PageFrameIndex = PFN_FROM_PTE(MiAddressToPte(PDE_BASE));
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#endif
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Pfn = MiGetPfnEntry(PageFrameIndex);
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ASSERT(Pfn->u3.e1.PageLocation == ActiveAndValid);
|
|
Pfn->u1.WsIndex = 0;
|
|
Pfn->u2.ShareCount = 1;
|
|
Pfn->PteAddress = NULL;
|
|
Pfn->u3.e1.CacheAttribute = MiNonCached;
|
|
Pfn->u3.e2.ReferenceCount = 1;
|
|
Pfn->u4.PteFrame = 0;
|
|
|
|
#if (_MI_PAGING_LEVELS == 4)
|
|
/* Loop all PXEs in the PML4 */
|
|
PointerPxe = MiAddressToPxe(Address);
|
|
for (i = 0; i < PXE_PER_PAGE; i++, PointerPxe++)
|
|
{
|
|
/* Skip invalid PXEs */
|
|
if (!PointerPxe->u.Hard.Valid) continue;
|
|
|
|
/* Handle the PFN */
|
|
PageFrameIndex = PFN_FROM_PXE(PointerPxe);
|
|
MiSetupPfnForPageTable(PageFrameIndex, PointerPxe);
|
|
|
|
/* Get starting VA for this PXE */
|
|
Address = MiPxeToAddress(PointerPxe);
|
|
#endif
|
|
#if (_MI_PAGING_LEVELS >= 3)
|
|
/* Loop all PPEs in this PDP */
|
|
PointerPpe = MiAddressToPpe(Address);
|
|
for (j = 0; j < PPE_PER_PAGE; j++, PointerPpe++)
|
|
{
|
|
/* Skip invalid PPEs */
|
|
if (!PointerPpe->u.Hard.Valid) continue;
|
|
|
|
/* Handle the PFN */
|
|
PageFrameIndex = PFN_FROM_PPE(PointerPpe);
|
|
MiSetupPfnForPageTable(PageFrameIndex, PointerPpe);
|
|
|
|
/* Get starting VA for this PPE */
|
|
Address = MiPpeToAddress(PointerPpe);
|
|
#endif
|
|
/* Loop all PDEs in this PD */
|
|
PointerPde = MiAddressToPde(Address);
|
|
for (k = 0; k < PDE_PER_PAGE; k++, PointerPde++)
|
|
{
|
|
/* Skip invalid PDEs */
|
|
if (!PointerPde->u.Hard.Valid) continue;
|
|
|
|
/* Handle the PFN */
|
|
PageFrameIndex = PFN_FROM_PDE(PointerPde);
|
|
MiSetupPfnForPageTable(PageFrameIndex, PointerPde);
|
|
|
|
/* Get starting VA for this PDE */
|
|
Address = MiPdeToAddress(PointerPde);
|
|
|
|
/* Loop all PTEs in this PT */
|
|
PointerPte = MiAddressToPte(Address);
|
|
for (l = 0; l < PTE_PER_PAGE; l++, PointerPte++)
|
|
{
|
|
/* Skip invalid PTEs */
|
|
if (!PointerPte->u.Hard.Valid) continue;
|
|
|
|
/* Handle the PFN */
|
|
PageFrameIndex = PFN_FROM_PTE(PointerPte);
|
|
MiSetupPfnForPageTable(PageFrameIndex, PointerPte);
|
|
}
|
|
}
|
|
#if (_MI_PAGING_LEVELS >= 3)
|
|
}
|
|
#endif
|
|
#if (_MI_PAGING_LEVELS == 4)
|
|
}
|
|
#endif
|
|
}
|
|
|
|
CODE_SEG("INIT")
|
|
static
|
|
VOID
|
|
MiAddDescriptorToDatabase(
|
|
PFN_NUMBER BasePage,
|
|
PFN_NUMBER PageCount,
|
|
TYPE_OF_MEMORY MemoryType)
|
|
{
|
|
PMMPFN Pfn;
|
|
|
|
ASSERT(!MiIsMemoryTypeInvisible(MemoryType));
|
|
|
|
/* Check if the memory is free */
|
|
if (MiIsMemoryTypeFree(MemoryType))
|
|
{
|
|
/* Get the last pfn of this descriptor. Note we loop backwards */
|
|
Pfn = &MmPfnDatabase[BasePage + PageCount - 1];
|
|
|
|
/* Loop all pages */
|
|
while (PageCount--)
|
|
{
|
|
/* Add it to the free list */
|
|
Pfn->u3.e1.CacheAttribute = MiNonCached; // FIXME: Windows ASSERTs MiChached, but why not MiNotMapped?
|
|
MiInsertPageInFreeList(BasePage + PageCount);
|
|
|
|
/* Go to the previous page */
|
|
Pfn--;
|
|
}
|
|
}
|
|
else if (MemoryType == LoaderXIPRom)
|
|
{
|
|
Pfn = &MmPfnDatabase[BasePage];
|
|
while (PageCount--)
|
|
{
|
|
/* Make it a pseudo-I/O ROM mapping */
|
|
Pfn->PteAddress = 0;
|
|
Pfn->u1.Flink = 0;
|
|
Pfn->u2.ShareCount = 0;
|
|
Pfn->u3.e1.PageLocation = 0;
|
|
Pfn->u3.e1.CacheAttribute = MiNonCached;
|
|
Pfn->u3.e1.Rom = 1;
|
|
Pfn->u3.e1.PrototypePte = 1;
|
|
Pfn->u3.e2.ReferenceCount = 0;
|
|
Pfn->u4.InPageError = 0;
|
|
Pfn->u4.PteFrame = 0;
|
|
|
|
/* Advance one */
|
|
Pfn++;
|
|
}
|
|
}
|
|
else if (MemoryType == LoaderBad)
|
|
{
|
|
// FIXME: later
|
|
ASSERT(FALSE);
|
|
}
|
|
else
|
|
{
|
|
/* For now skip it */
|
|
Pfn = &MmPfnDatabase[BasePage];
|
|
while (PageCount--)
|
|
{
|
|
/* Make an active PFN */
|
|
Pfn->u3.e1.PageLocation = ActiveAndValid;
|
|
|
|
/* Advance one */
|
|
Pfn++;
|
|
}
|
|
}
|
|
}
|
|
|
|
CODE_SEG("INIT")
|
|
VOID
|
|
NTAPI
|
|
MiBuildPfnDatabase(IN PLOADER_PARAMETER_BLOCK LoaderBlock)
|
|
{
|
|
PLIST_ENTRY ListEntry;
|
|
PMEMORY_ALLOCATION_DESCRIPTOR Descriptor;
|
|
PFN_NUMBER BasePage, PageCount;
|
|
KIRQL OldIrql;
|
|
|
|
/* Lock the PFN Database */
|
|
OldIrql = MiAcquirePfnLock();
|
|
|
|
/* Map the PDEs and PPEs for the pfn database (ignore holes) */
|
|
#if (_MI_PAGING_LEVELS >= 3)
|
|
MiMapPPEs(MmPfnDatabase, (PUCHAR)MmPfnDatabase + (MxPfnAllocation * PAGE_SIZE) - 1);
|
|
#endif
|
|
MiMapPDEs(MmPfnDatabase, (PUCHAR)MmPfnDatabase + (MxPfnAllocation * PAGE_SIZE) - 1);
|
|
|
|
/* First initialize the color tables */
|
|
MiInitializeColorTables();
|
|
|
|
/* Loop the memory descriptors */
|
|
for (ListEntry = LoaderBlock->MemoryDescriptorListHead.Flink;
|
|
ListEntry != &LoaderBlock->MemoryDescriptorListHead;
|
|
ListEntry = ListEntry->Flink)
|
|
{
|
|
/* Get the descriptor */
|
|
Descriptor = CONTAINING_RECORD(ListEntry,
|
|
MEMORY_ALLOCATION_DESCRIPTOR,
|
|
ListEntry);
|
|
|
|
/* Skip invisible memory */
|
|
if (MiIsMemoryTypeInvisible(Descriptor->MemoryType)) continue;
|
|
|
|
/* If this is the free descriptor, use the copy instead */
|
|
if (Descriptor == MxFreeDescriptor) Descriptor = &MxOldFreeDescriptor;
|
|
|
|
/* Get the range for this descriptor */
|
|
BasePage = Descriptor->BasePage;
|
|
PageCount = Descriptor->PageCount;
|
|
|
|
/* Map the pages for the database */
|
|
MiMapPTEs(&MmPfnDatabase[BasePage],
|
|
(PUCHAR)(&MmPfnDatabase[BasePage + PageCount]) - 1);
|
|
|
|
/* If this was the free descriptor, skip the next step */
|
|
if (Descriptor == &MxOldFreeDescriptor) continue;
|
|
|
|
/* Add this descriptor to the database */
|
|
MiAddDescriptorToDatabase(BasePage, PageCount, Descriptor->MemoryType);
|
|
}
|
|
|
|
/* At this point the whole pfn database is mapped. We are about to add the
|
|
pages from the free descriptor to the database, so from now on we cannot
|
|
use it anymore. */
|
|
|
|
/* Now add the free descriptor */
|
|
BasePage = MxFreeDescriptor->BasePage;
|
|
PageCount = MxFreeDescriptor->PageCount;
|
|
MiAddDescriptorToDatabase(BasePage, PageCount, LoaderFree);
|
|
|
|
/* And finally the memory we used */
|
|
BasePage = MxOldFreeDescriptor.BasePage;
|
|
PageCount = MxFreeDescriptor->BasePage - BasePage;
|
|
MiAddDescriptorToDatabase(BasePage, PageCount, LoaderMemoryData);
|
|
|
|
/* Reset the descriptor back so we can create the correct memory blocks */
|
|
*MxFreeDescriptor = MxOldFreeDescriptor;
|
|
|
|
/* Now process the page tables */
|
|
MiBuildPfnDatabaseFromPageTables();
|
|
|
|
/* PFNs are initialized now! */
|
|
MiPfnsInitialized = TRUE;
|
|
|
|
/* Release PFN database */
|
|
MiReleasePfnLock(OldIrql);
|
|
}
|
|
|
|
CODE_SEG("INIT")
|
|
NTSTATUS
|
|
NTAPI
|
|
MiInitMachineDependent(IN PLOADER_PARAMETER_BLOCK LoaderBlock)
|
|
{
|
|
NTSTATUS Status;
|
|
ULONG Flags;
|
|
|
|
ASSERT(MxPfnAllocation != 0);
|
|
|
|
/* Set some hardcoded addresses */
|
|
MmHyperSpaceEnd = (PVOID)HYPER_SPACE_END;
|
|
MmNonPagedSystemStart = (PVOID)MM_SYSTEM_SPACE_START;
|
|
MmPfnDatabase = (PVOID)MI_PFN_DATABASE;
|
|
MmWorkingSetList = (PVOID)MI_WORKING_SET_LIST;
|
|
|
|
|
|
// PrototypePte.u.Proto.Valid = 1
|
|
// PrototypePte.u.ReadOnly
|
|
// PrototypePte.u.Prototype
|
|
// PrototypePte.u.Protection = MM_READWRITE;
|
|
// PrototypePte.u.ProtoAddress
|
|
PrototypePte.u.Soft.PageFileHigh = MI_PTE_LOOKUP_NEEDED;
|
|
|
|
MiInitializePageTable();
|
|
|
|
MiBuildNonPagedPool();
|
|
|
|
MiBuildSystemPteSpace();
|
|
|
|
/* Map the PFN database pages */
|
|
MiBuildPfnDatabase(LoaderBlock);
|
|
|
|
/* Reset the ref/share count so that MmInitializeProcessAddressSpace works */
|
|
PMMPFN Pfn = MiGetPfnEntry(PFN_FROM_PTE((PMMPTE)PXE_SELFMAP));
|
|
Pfn->u2.ShareCount = 0;
|
|
Pfn->u3.e2.ReferenceCount = 0;
|
|
|
|
Pfn = MiGetPfnEntry(PFN_FROM_PDE(MiAddressToPde((PVOID)HYPER_SPACE)));
|
|
Pfn->u2.ShareCount = 0;
|
|
Pfn->u3.e2.ReferenceCount = 0;
|
|
|
|
Pfn = MiGetPfnEntry(PFN_FROM_PPE(MiAddressToPpe((PVOID)HYPER_SPACE)));
|
|
Pfn->u2.ShareCount = 0;
|
|
Pfn->u3.e2.ReferenceCount = 0;
|
|
|
|
Pfn = MiGetPfnEntry(PFN_FROM_PXE(MiAddressToPxe((PVOID)HYPER_SPACE)));
|
|
Pfn->u2.ShareCount = 0;
|
|
Pfn->u3.e2.ReferenceCount = 0;
|
|
|
|
Pfn = MiGetPfnEntry(PFN_FROM_PTE(MiAddressToPte(MmWorkingSetList)));
|
|
Pfn->u2.ShareCount = 0;
|
|
Pfn->u3.e2.ReferenceCount = 0;
|
|
|
|
/* Initialize the nonpaged pool */
|
|
InitializePool(NonPagedPool, 0);
|
|
|
|
/* Initialize the bogus address space */
|
|
Flags = 0;
|
|
Status = MmInitializeProcessAddressSpace(PsGetCurrentProcess(), NULL, NULL, &Flags, NULL);
|
|
if (!NT_SUCCESS(Status))
|
|
{
|
|
DPRINT1("MmInitializeProcessAddressSpace(9 failed: 0x%lx\n", Status);
|
|
return Status;
|
|
}
|
|
|
|
/* Initialize the balancer */
|
|
MmInitializeBalancer((ULONG)MmAvailablePages, 0);
|
|
|
|
/* Make sure we have everything we need */
|
|
ASSERT(MmPfnDatabase);
|
|
ASSERT(MmNonPagedSystemStart);
|
|
ASSERT(MmNonPagedPoolStart);
|
|
ASSERT(MmSizeOfNonPagedPoolInBytes);
|
|
ASSERT(MmMaximumNonPagedPoolInBytes);
|
|
ASSERT(MmNonPagedPoolExpansionStart);
|
|
ASSERT(MmHyperSpaceEnd);
|
|
ASSERT(MmNumberOfSystemPtes);
|
|
ASSERT(MiAddressToPde(MmNonPagedPoolStart)->u.Hard.Valid);
|
|
ASSERT(MiAddressToPte(MmNonPagedPoolStart)->u.Hard.Valid);
|
|
|
|
return STATUS_SUCCESS;
|
|
}
|