summaryrefslogtreecommitdiff
path: root/src/VBox/VMM/include/PGMInternal.h
blob: bfd9628a3d9a282da8812d53735b3350a12800cc (plain)
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/* $Id$ */
/** @file
 * PGM - Internal header file.
 */

/*
 * Copyright (C) 2006-2010 Oracle Corporation
 *
 * This file is part of VirtualBox Open Source Edition (OSE), as
 * available from http://www.virtualbox.org. This file is free software;
 * you can redistribute it and/or modify it under the terms of the GNU
 * General Public License (GPL) as published by the Free Software
 * Foundation, in version 2 as it comes in the "COPYING" file of the
 * VirtualBox OSE distribution. VirtualBox OSE is distributed in the
 * hope that it will be useful, but WITHOUT ANY WARRANTY of any kind.
 */

#ifndef ___PGMInternal_h
#define ___PGMInternal_h

#include <VBox/cdefs.h>
#include <VBox/types.h>
#include <VBox/err.h>
#include <VBox/dbg.h>
#include <VBox/vmm/stam.h>
#include <VBox/param.h>
#include <VBox/vmm/vmm.h>
#include <VBox/vmm/mm.h>
#include <VBox/vmm/pdmcritsect.h>
#include <VBox/vmm/pdmapi.h>
#include <VBox/dis.h>
#include <VBox/vmm/dbgf.h>
#include <VBox/log.h>
#include <VBox/vmm/gmm.h>
#include <VBox/vmm/hwaccm.h>
#include <VBox/vmm/hwacc_vmx.h>
#include "internal/pgm.h"
#include <iprt/asm.h>
#include <iprt/assert.h>
#include <iprt/avl.h>
#include <iprt/critsect.h>
#include <iprt/sha.h>



/** @defgroup grp_pgm_int   Internals
 * @ingroup grp_pgm
 * @internal
 * @{
 */


/** @name PGM Compile Time Config
 * @{
 */

/**
 * Indicates that there are no guest mappings to care about.
 * Currently on raw-mode related code uses mappings, i.e. RC and R3 code.
 */
#if defined(IN_RING0) || !defined(VBOX_WITH_RAW_MODE)
# define PGM_WITHOUT_MAPPINGS
#endif

/**
 * Check and skip global PDEs for non-global flushes
 */
#define PGM_SKIP_GLOBAL_PAGEDIRS_ON_NONGLOBAL_FLUSH

/**
 * Optimization for PAE page tables that are modified often
 */
//#if 0 /* disabled again while debugging */
#ifndef IN_RC
# define PGMPOOL_WITH_OPTIMIZED_DIRTY_PT
#endif
//#endif

/**
 * Large page support enabled only on 64 bits hosts; applies to nested paging only.
 */
#if (HC_ARCH_BITS == 64) && !defined(IN_RC)
# define PGM_WITH_LARGE_PAGES
#endif

/**
 * Enables optimizations for MMIO handlers that exploits X86_TRAP_PF_RSVD and
 * VMX_EXIT_EPT_MISCONFIG.
 */
#if 1 /* testing */
# define PGM_WITH_MMIO_OPTIMIZATIONS
#endif

/**
 * Sync N pages instead of a whole page table
 */
#define PGM_SYNC_N_PAGES

/**
 * Number of pages to sync during a page fault
 *
 * When PGMPOOL_WITH_GCPHYS_TRACKING is enabled using high values here
 * causes a lot of unnecessary extents and also is slower than taking more \#PFs.
 *
 * Note that \#PFs are much more expensive in the VT-x/AMD-V case due to
 * world switch overhead, so let's sync more.
 */
# ifdef IN_RING0
/* Chose 32 based on the compile test in #4219; 64 shows worse stats.
 * 32 again shows better results than 16; slightly more overhead in the \#PF handler,
 * but ~5% fewer faults.
 */
# define PGM_SYNC_NR_PAGES               32
#else
# define PGM_SYNC_NR_PAGES               8
#endif

/**
 * Number of PGMPhysRead/Write cache entries (must be <= sizeof(uint64_t))
 */
#define PGM_MAX_PHYSCACHE_ENTRIES       64
#define PGM_MAX_PHYSCACHE_ENTRIES_MASK  (PGM_MAX_PHYSCACHE_ENTRIES-1)


/** @def PGMPOOL_CFG_MAX_GROW
 * The maximum number of pages to add to the pool in one go.
 */
#define PGMPOOL_CFG_MAX_GROW            (_256K >> PAGE_SHIFT)

/** @def VBOX_STRICT_PGM_HANDLER_VIRTUAL
 * Enables some extra assertions for virtual handlers (mainly phys2virt related).
 */
#ifdef VBOX_STRICT
# define VBOX_STRICT_PGM_HANDLER_VIRTUAL
#endif

/** @def VBOX_WITH_NEW_LAZY_PAGE_ALLOC
 * Enables the experimental lazy page allocation code. */
/*#define VBOX_WITH_NEW_LAZY_PAGE_ALLOC */

/** @def VBOX_WITH_REAL_WRITE_MONITORED_PAGES
 * Enables real write monitoring of pages, i.e. mapping them read-only and
 * only making them writable when getting a write access #PF. */
#define VBOX_WITH_REAL_WRITE_MONITORED_PAGES

/** @} */


/** @name PDPT and PML4 flags.
 * These are placed in the three bits available for system programs in
 * the PDPT and PML4 entries.
 * @{ */
/** The entry is a permanent one and it's must always be present.
 * Never free such an entry. */
#define PGM_PLXFLAGS_PERMANENT          RT_BIT_64(10)
/** Mapping (hypervisor allocated pagetable). */
#define PGM_PLXFLAGS_MAPPING            RT_BIT_64(11)
/** @} */

/** @name Page directory flags.
 * These are placed in the three bits available for system programs in
 * the page directory entries.
 * @{ */
/** Mapping (hypervisor allocated pagetable). */
#define PGM_PDFLAGS_MAPPING             RT_BIT_64(10)
/** Made read-only to facilitate dirty bit tracking. */
#define PGM_PDFLAGS_TRACK_DIRTY         RT_BIT_64(11)
/** @} */

/** @name Page flags.
 * These are placed in the three bits available for system programs in
 * the page entries.
 * @{ */
/** Made read-only to facilitate dirty bit tracking. */
#define PGM_PTFLAGS_TRACK_DIRTY         RT_BIT_64(9)

#ifndef PGM_PTFLAGS_CSAM_VALIDATED
/** Scanned and approved by CSAM (tm).
 * NOTE: Must be identical to the one defined in CSAMInternal.h!!
 * @todo Move PGM_PTFLAGS_* and PGM_PDFLAGS_* to VBox/vmm/pgm.h. */
#define PGM_PTFLAGS_CSAM_VALIDATED      RT_BIT_64(11)
#endif

/** @} */

/** @name Defines used to indicate the shadow and guest paging in the templates.
 * @{ */
#define PGM_TYPE_REAL                   1
#define PGM_TYPE_PROT                   2
#define PGM_TYPE_32BIT                  3
#define PGM_TYPE_PAE                    4
#define PGM_TYPE_AMD64                  5
#define PGM_TYPE_NESTED                 6
#define PGM_TYPE_EPT                    7
#define PGM_TYPE_MAX                    PGM_TYPE_EPT
/** @} */

/** Macro for checking if the guest is using paging.
 * @param uGstType     PGM_TYPE_*
 * @param uShwType     PGM_TYPE_*
 * @remark  ASSUMES certain order of the PGM_TYPE_* values.
 */
#define PGM_WITH_PAGING(uGstType, uShwType)  \
    (   (uGstType) >= PGM_TYPE_32BIT \
     && (uShwType) != PGM_TYPE_NESTED \
     && (uShwType) != PGM_TYPE_EPT)

/** Macro for checking if the guest supports the NX bit.
 * @param uGstType     PGM_TYPE_*
 * @param uShwType     PGM_TYPE_*
 * @remark  ASSUMES certain order of the PGM_TYPE_* values.
 */
#define PGM_WITH_NX(uGstType, uShwType)  \
    (   (uGstType) >= PGM_TYPE_PAE \
     && (uShwType) != PGM_TYPE_NESTED \
     && (uShwType) != PGM_TYPE_EPT)


/** @def PGM_HCPHYS_2_PTR
 * Maps a HC physical page pool address to a virtual address.
 *
 * @returns VBox status code.
 * @param   pVM         The VM handle.
 * @param   pVCpu       The current CPU.
 * @param   HCPhys      The HC physical address to map to a virtual one.
 * @param   ppv         Where to store the virtual address. No need to cast
 *                      this.
 *
 * @remark  Use with care as we don't have so much dynamic mapping space in
 *          ring-0 on 32-bit darwin and in RC.
 * @remark  There is no need to assert on the result.
 */
#if defined(VBOX_WITH_2X_4GB_ADDR_SPACE_IN_R0) || defined(IN_RC)
# define PGM_HCPHYS_2_PTR(pVM, pVCpu, HCPhys, ppv) \
     pgmRZDynMapHCPageInlined(pVCpu, HCPhys, (void **)(ppv) RTLOG_COMMA_SRC_POS)
#else
# define PGM_HCPHYS_2_PTR(pVM, pVCpu, HCPhys, ppv) \
     MMPagePhys2PageEx(pVM, HCPhys, (void **)(ppv))
#endif

/** @def PGM_GCPHYS_2_PTR_V2
 * Maps a GC physical page address to a virtual address.
 *
 * @returns VBox status code.
 * @param   pVM     The VM handle.
 * @param   pVCpu   The current CPU.
 * @param   GCPhys  The GC physical address to map to a virtual one.
 * @param   ppv     Where to store the virtual address. No need to cast this.
 *
 * @remark  Use with care as we don't have so much dynamic mapping space in
 *          ring-0 on 32-bit darwin and in RC.
 * @remark  There is no need to assert on the result.
 */
#if defined(VBOX_WITH_2X_4GB_ADDR_SPACE_IN_R0) || defined(IN_RC)
# define PGM_GCPHYS_2_PTR_V2(pVM, pVCpu, GCPhys, ppv) \
     pgmRZDynMapGCPageV2Inlined(pVM, pVCpu, GCPhys, (void **)(ppv) RTLOG_COMMA_SRC_POS)
#else
# define PGM_GCPHYS_2_PTR_V2(pVM, pVCpu, GCPhys, ppv) \
     pgmPhysGCPhys2R3Ptr(pVM, GCPhys, (PRTR3PTR)(ppv)) /** @todo this isn't asserting! */
#endif

/** @def PGM_GCPHYS_2_PTR
 * Maps a GC physical page address to a virtual address.
 *
 * @returns VBox status code.
 * @param   pVM     The VM handle.
 * @param   GCPhys  The GC physical address to map to a virtual one.
 * @param   ppv     Where to store the virtual address. No need to cast this.
 *
 * @remark  Use with care as we don't have so much dynamic mapping space in
 *          ring-0 on 32-bit darwin and in RC.
 * @remark  There is no need to assert on the result.
 */
#define PGM_GCPHYS_2_PTR(pVM, GCPhys, ppv) PGM_GCPHYS_2_PTR_V2(pVM, VMMGetCpu(pVM), GCPhys, ppv)

/** @def PGM_GCPHYS_2_PTR_BY_VMCPU
 * Maps a GC physical page address to a virtual address.
 *
 * @returns VBox status code.
 * @param   pVCpu   The current CPU.
 * @param   GCPhys  The GC physical address to map to a virtual one.
 * @param   ppv     Where to store the virtual address. No need to cast this.
 *
 * @remark  Use with care as we don't have so much dynamic mapping space in
 *          ring-0 on 32-bit darwin and in RC.
 * @remark  There is no need to assert on the result.
 */
#define PGM_GCPHYS_2_PTR_BY_VMCPU(pVCpu, GCPhys, ppv) PGM_GCPHYS_2_PTR_V2((pVCpu)->CTX_SUFF(pVM), pVCpu, GCPhys, ppv)

/** @def PGM_GCPHYS_2_PTR_EX
 * Maps a unaligned GC physical page address to a virtual address.
 *
 * @returns VBox status code.
 * @param   pVM     The VM handle.
 * @param   GCPhys  The GC physical address to map to a virtual one.
 * @param   ppv     Where to store the virtual address. No need to cast this.
 *
 * @remark  Use with care as we don't have so much dynamic mapping space in
 *          ring-0 on 32-bit darwin and in RC.
 * @remark  There is no need to assert on the result.
 */
#if defined(IN_RC) || defined(VBOX_WITH_2X_4GB_ADDR_SPACE_IN_R0)
# define PGM_GCPHYS_2_PTR_EX(pVM, GCPhys, ppv) \
     pgmRZDynMapGCPageOffInlined(VMMGetCpu(pVM), GCPhys, (void **)(ppv) RTLOG_COMMA_SRC_POS)
#else
# define PGM_GCPHYS_2_PTR_EX(pVM, GCPhys, ppv) \
     pgmPhysGCPhys2R3Ptr(pVM, GCPhys, (PRTR3PTR)(ppv)) /** @todo this isn't asserting! */
#endif

/** @def PGM_DYNMAP_UNUSED_HINT
 * Hints to the dynamic mapping code in RC and R0/darwin that the specified page
 * is no longer used.
 *
 * For best effect only apply this to the page that was mapped most recently.
 *
 * @param   pVCpu   The current CPU.
 * @param   pvPage  The pool page.
 */
#if defined(IN_RC) || defined(VBOX_WITH_2X_4GB_ADDR_SPACE_IN_R0)
# ifdef LOG_ENABLED
#  define PGM_DYNMAP_UNUSED_HINT(pVCpu, pvPage)  pgmRZDynMapUnusedHint(pVCpu, pvPage, RT_SRC_POS)
# else
#  define PGM_DYNMAP_UNUSED_HINT(pVCpu, pvPage)  pgmRZDynMapUnusedHint(pVCpu, pvPage)
# endif
#else
# define PGM_DYNMAP_UNUSED_HINT(pVCpu, pvPage)  do {} while (0)
#endif

/** @def PGM_DYNMAP_UNUSED_HINT_VM
 * Hints to the dynamic mapping code in RC and R0/darwin that the specified page
 * is no longer used.
 *
 * For best effect only apply this to the page that was mapped most recently.
 *
 * @param   pVM     The VM handle.
 * @param   pvPage  The pool page.
 */
#define PGM_DYNMAP_UNUSED_HINT_VM(pVM, pvPage)  PGM_DYNMAP_UNUSED_HINT(VMMGetCpu(pVM), pvPage)


/** @def PGM_INVL_PG
 * Invalidates a page.
 *
 * @param   pVCpu       The VMCPU handle.
 * @param   GCVirt      The virtual address of the page to invalidate.
 */
#ifdef IN_RC
# define PGM_INVL_PG(pVCpu, GCVirt)             ASMInvalidatePage((void *)(uintptr_t)(GCVirt))
#elif defined(IN_RING0)
# define PGM_INVL_PG(pVCpu, GCVirt)             HWACCMInvalidatePage(pVCpu, (RTGCPTR)(GCVirt))
#else
# define PGM_INVL_PG(pVCpu, GCVirt)             HWACCMInvalidatePage(pVCpu, (RTGCPTR)(GCVirt))
#endif

/** @def PGM_INVL_PG_ALL_VCPU
 * Invalidates a page on all VCPUs
 *
 * @param   pVM         The VM handle.
 * @param   GCVirt      The virtual address of the page to invalidate.
 */
#ifdef IN_RC
# define PGM_INVL_PG_ALL_VCPU(pVM, GCVirt)      ASMInvalidatePage((void *)(uintptr_t)(GCVirt))
#elif defined(IN_RING0)
# define PGM_INVL_PG_ALL_VCPU(pVM, GCVirt)      HWACCMInvalidatePageOnAllVCpus(pVM, (RTGCPTR)(GCVirt))
#else
# define PGM_INVL_PG_ALL_VCPU(pVM, GCVirt)      HWACCMInvalidatePageOnAllVCpus(pVM, (RTGCPTR)(GCVirt))
#endif

/** @def PGM_INVL_BIG_PG
 * Invalidates a 4MB page directory entry.
 *
 * @param   pVCpu       The VMCPU handle.
 * @param   GCVirt      The virtual address within the page directory to invalidate.
 */
#ifdef IN_RC
# define PGM_INVL_BIG_PG(pVCpu, GCVirt)         ASMReloadCR3()
#elif defined(IN_RING0)
# define PGM_INVL_BIG_PG(pVCpu, GCVirt)         HWACCMFlushTLB(pVCpu)
#else
# define PGM_INVL_BIG_PG(pVCpu, GCVirt)         HWACCMFlushTLB(pVCpu)
#endif

/** @def PGM_INVL_VCPU_TLBS()
 * Invalidates the TLBs of the specified VCPU
 *
 * @param   pVCpu       The VMCPU handle.
 */
#ifdef IN_RC
# define PGM_INVL_VCPU_TLBS(pVCpu)             ASMReloadCR3()
#elif defined(IN_RING0)
# define PGM_INVL_VCPU_TLBS(pVCpu)             HWACCMFlushTLB(pVCpu)
#else
# define PGM_INVL_VCPU_TLBS(pVCpu)             HWACCMFlushTLB(pVCpu)
#endif

/** @def PGM_INVL_ALL_VCPU_TLBS()
 * Invalidates the TLBs of all VCPUs
 *
 * @param   pVM         The VM handle.
 */
#ifdef IN_RC
# define PGM_INVL_ALL_VCPU_TLBS(pVM)            ASMReloadCR3()
#elif defined(IN_RING0)
# define PGM_INVL_ALL_VCPU_TLBS(pVM)            HWACCMFlushTLBOnAllVCpus(pVM)
#else
# define PGM_INVL_ALL_VCPU_TLBS(pVM)            HWACCMFlushTLBOnAllVCpus(pVM)
#endif


/** @name Safer Shadow PAE PT/PTE
 * For helping avoid misinterpreting invalid PAE/AMD64 page table entries as
 * present.
 *
 * @{
 */
#if 1
/**
 * For making sure that u1Present and X86_PTE_P checks doesn't mistake
 * invalid entries for present.
 * @sa X86PTEPAE.
 */
typedef union PGMSHWPTEPAE
{
    /** Unsigned integer view */
    X86PGPAEUINT    uCareful;
    /* Not other views. */
} PGMSHWPTEPAE;

# define PGMSHWPTEPAE_IS_P(Pte)                 ( ((Pte).uCareful & (X86_PTE_P | X86_PTE_PAE_MBZ_MASK_NX)) == X86_PTE_P )
# define PGMSHWPTEPAE_IS_RW(Pte)                ( !!((Pte).uCareful & X86_PTE_RW))
# define PGMSHWPTEPAE_IS_US(Pte)                ( !!((Pte).uCareful & X86_PTE_US))
# define PGMSHWPTEPAE_IS_A(Pte)                 ( !!((Pte).uCareful & X86_PTE_A))
# define PGMSHWPTEPAE_IS_D(Pte)                 ( !!((Pte).uCareful & X86_PTE_D))
# define PGMSHWPTEPAE_IS_TRACK_DIRTY(Pte)       ( !!((Pte).uCareful & PGM_PTFLAGS_TRACK_DIRTY) )
# define PGMSHWPTEPAE_IS_P_RW(Pte)              ( ((Pte).uCareful & (X86_PTE_P | X86_PTE_RW | X86_PTE_PAE_MBZ_MASK_NX)) == (X86_PTE_P | X86_PTE_RW) )
# define PGMSHWPTEPAE_GET_LOG(Pte)              ( (Pte).uCareful )
# define PGMSHWPTEPAE_GET_HCPHYS(Pte)           ( (Pte).uCareful & X86_PTE_PAE_PG_MASK )
# define PGMSHWPTEPAE_GET_U(Pte)                ( (Pte).uCareful ) /**< Use with care. */
# define PGMSHWPTEPAE_SET(Pte, uVal)            do { (Pte).uCareful = (uVal); } while (0)
# define PGMSHWPTEPAE_SET2(Pte, Pte2)           do { (Pte).uCareful = (Pte2).uCareful; } while (0)
# define PGMSHWPTEPAE_ATOMIC_SET(Pte, uVal)     do { ASMAtomicWriteU64(&(Pte).uCareful, (uVal)); } while (0)
# define PGMSHWPTEPAE_ATOMIC_SET2(Pte, Pte2)    do { ASMAtomicWriteU64(&(Pte).uCareful, (Pte2).uCareful); } while (0)
# define PGMSHWPTEPAE_SET_RO(Pte)               do { (Pte).uCareful &= ~(X86PGPAEUINT)X86_PTE_RW; } while (0)
# define PGMSHWPTEPAE_SET_RW(Pte)               do { (Pte).uCareful |= X86_PTE_RW; } while (0)

/**
 * For making sure that u1Present and X86_PTE_P checks doesn't mistake
 * invalid entries for present.
 * @sa X86PTPAE.
 */
typedef struct PGMSHWPTPAE
{
    PGMSHWPTEPAE  a[X86_PG_PAE_ENTRIES];
} PGMSHWPTPAE;

#else
typedef X86PTEPAE           PGMSHWPTEPAE;
typedef X86PTPAE            PGMSHWPTPAE;
# define PGMSHWPTEPAE_IS_P(Pte)                 ( (Pte).n.u1Present )
# define PGMSHWPTEPAE_IS_RW(Pte)                ( (Pte).n.u1Write )
# define PGMSHWPTEPAE_IS_US(Pte)                ( (Pte).n.u1User )
# define PGMSHWPTEPAE_IS_A(Pte)                 ( (Pte).n.u1Accessed )
# define PGMSHWPTEPAE_IS_D(Pte)                 ( (Pte).n.u1Dirty )
# define PGMSHWPTEPAE_IS_TRACK_DIRTY(Pte)       ( !!((Pte).u & PGM_PTFLAGS_TRACK_DIRTY) )
# define PGMSHWPTEPAE_IS_P_RW(Pte)              ( ((Pte).u & (X86_PTE_P | X86_PTE_RW)) == (X86_PTE_P | X86_PTE_RW) )
# define PGMSHWPTEPAE_GET_LOG(Pte)              ( (Pte).u )
# define PGMSHWPTEPAE_GET_HCPHYS(Pte)           ( (Pte).u & X86_PTE_PAE_PG_MASK )
# define PGMSHWPTEPAE_GET_U(Pte)                ( (Pte).u ) /**< Use with care. */
# define PGMSHWPTEPAE_SET(Pte, uVal)            do { (Pte).u = (uVal); } while (0)
# define PGMSHWPTEPAE_SET2(Pte, Pte2)           do { (Pte).u = (Pte2).u; } while (0)
# define PGMSHWPTEPAE_ATOMIC_SET(Pte, uVal)     do { ASMAtomicWriteU64(&(Pte).u, (uVal)); } while (0)
# define PGMSHWPTEPAE_ATOMIC_SET2(Pte, Pte2)    do { ASMAtomicWriteU64(&(Pte).u, (Pte2).u); } while (0)
# define PGMSHWPTEPAE_SET_RO(Pte)               do { (Pte).u &= ~(X86PGPAEUINT)X86_PTE_RW; } while (0)
# define PGMSHWPTEPAE_SET_RW(Pte)               do { (Pte).u |= X86_PTE_RW; } while (0)

#endif

/** Pointer to a shadow PAE PTE.  */
typedef PGMSHWPTEPAE       *PPGMSHWPTEPAE;
/** Pointer to a const shadow PAE PTE.  */
typedef PGMSHWPTEPAE const *PCPGMSHWPTEPAE;

/** Pointer to a shadow PAE page table.  */
typedef PGMSHWPTPAE        *PPGMSHWPTPAE;
/** Pointer to a const shadow PAE page table.  */
typedef PGMSHWPTPAE const  *PCPGMSHWPTPAE;
/** @}  */


/** Size of the GCPtrConflict array in PGMMAPPING.
 * @remarks Must be a power of two. */
#define PGMMAPPING_CONFLICT_MAX         8

/**
 * Structure for tracking GC Mappings.
 *
 * This structure is used by linked list in both GC and HC.
 */
typedef struct PGMMAPPING
{
    /** Pointer to next entry. */
    R3PTRTYPE(struct PGMMAPPING *)      pNextR3;
    /** Pointer to next entry. */
    R0PTRTYPE(struct PGMMAPPING *)      pNextR0;
    /** Pointer to next entry. */
    RCPTRTYPE(struct PGMMAPPING *)      pNextRC;
    /** Indicate whether this entry is finalized. */
    bool                                fFinalized;
    /** Start Virtual address. */
    RTGCPTR                             GCPtr;
    /** Last Virtual address (inclusive). */
    RTGCPTR                             GCPtrLast;
    /** Range size (bytes). */
    RTGCPTR                             cb;
    /** Pointer to relocation callback function. */
    R3PTRTYPE(PFNPGMRELOCATE)           pfnRelocate;
    /** User argument to the callback. */
    R3PTRTYPE(void *)                   pvUser;
    /** Mapping description / name. For easing debugging. */
    R3PTRTYPE(const char *)             pszDesc;
    /** Last 8 addresses that caused conflicts. */
    RTGCPTR                             aGCPtrConflicts[PGMMAPPING_CONFLICT_MAX];
    /** Number of conflicts for this hypervisor mapping. */
    uint32_t                            cConflicts;
    /** Number of page tables. */
    uint32_t                            cPTs;

    /** Array of page table mapping data. Each entry
     * describes one page table. The array can be longer
     * than the declared length.
     */
    struct
    {
        /** The HC physical address of the page table. */
        RTHCPHYS                        HCPhysPT;
        /** The HC physical address of the first PAE page table. */
        RTHCPHYS                        HCPhysPaePT0;
        /** The HC physical address of the second PAE page table. */
        RTHCPHYS                        HCPhysPaePT1;
        /** The HC virtual address of the 32-bit page table. */
        R3PTRTYPE(PX86PT)               pPTR3;
        /** The HC virtual address of the two PAE page table. (i.e 1024 entries instead of 512) */
        R3PTRTYPE(PPGMSHWPTPAE)         paPaePTsR3;
        /** The RC virtual address of the 32-bit page table. */
        RCPTRTYPE(PX86PT)               pPTRC;
        /** The RC virtual address of the two PAE page table. */
        RCPTRTYPE(PPGMSHWPTPAE)         paPaePTsRC;
        /** The R0 virtual address of the 32-bit page table. */
        R0PTRTYPE(PX86PT)               pPTR0;
        /** The R0 virtual address of the two PAE page table. */
        R0PTRTYPE(PPGMSHWPTPAE)         paPaePTsR0;
    } aPTs[1];
} PGMMAPPING;
/** Pointer to structure for tracking GC Mappings. */
typedef struct PGMMAPPING *PPGMMAPPING;


/**
 * Physical page access handler structure.
 *
 * This is used to keep track of physical address ranges
 * which are being monitored in some kind of way.
 */
typedef struct PGMPHYSHANDLER
{
    AVLROGCPHYSNODECORE                 Core;
    /** Access type. */
    PGMPHYSHANDLERTYPE                  enmType;
    /** Number of pages to update. */
    uint32_t                            cPages;
    /** Set if we have pages that have been aliased. */
    uint32_t                            cAliasedPages;
    /** Set if we have pages that have temporarily been disabled. */
    uint32_t                            cTmpOffPages;
    /** Pointer to R3 callback function. */
    R3PTRTYPE(PFNPGMR3PHYSHANDLER)      pfnHandlerR3;
    /** User argument for R3 handlers. */
    R3PTRTYPE(void *)                   pvUserR3;
    /** Pointer to R0 callback function. */
    R0PTRTYPE(PFNPGMR0PHYSHANDLER)      pfnHandlerR0;
    /** User argument for R0 handlers. */
    R0PTRTYPE(void *)                   pvUserR0;
    /** Pointer to RC callback function. */
    RCPTRTYPE(PFNPGMRCPHYSHANDLER)      pfnHandlerRC;
    /** User argument for RC handlers. */
    RCPTRTYPE(void *)                   pvUserRC;
    /** Description / Name. For easing debugging. */
    R3PTRTYPE(const char *)             pszDesc;
#ifdef VBOX_WITH_STATISTICS
    /** Profiling of this handler. */
    STAMPROFILE                         Stat;
#endif
} PGMPHYSHANDLER;
/** Pointer to a physical page access handler structure. */
typedef PGMPHYSHANDLER *PPGMPHYSHANDLER;


/**
 * Cache node for the physical addresses covered by a virtual handler.
 */
typedef struct PGMPHYS2VIRTHANDLER
{
    /** Core node for the tree based on physical ranges. */
    AVLROGCPHYSNODECORE                 Core;
    /** Offset from this struct to the PGMVIRTHANDLER structure. */
    int32_t                             offVirtHandler;
    /** Offset of the next alias relative to this one.
     * Bit 0 is used for indicating whether we're in the tree.
     * Bit 1 is used for indicating that we're the head node.
     */
    int32_t                             offNextAlias;
} PGMPHYS2VIRTHANDLER;
/** Pointer to a phys to virtual handler structure. */
typedef PGMPHYS2VIRTHANDLER *PPGMPHYS2VIRTHANDLER;

/** The bit in PGMPHYS2VIRTHANDLER::offNextAlias used to indicate that the
 * node is in the tree. */
#define PGMPHYS2VIRTHANDLER_IN_TREE     RT_BIT(0)
/** The bit in PGMPHYS2VIRTHANDLER::offNextAlias used to indicate that the
 * node is in the head of an alias chain.
 * The PGMPHYS2VIRTHANDLER_IN_TREE is always set if this bit is set. */
#define PGMPHYS2VIRTHANDLER_IS_HEAD     RT_BIT(1)
/** The mask to apply to PGMPHYS2VIRTHANDLER::offNextAlias to get the offset. */
#define PGMPHYS2VIRTHANDLER_OFF_MASK    (~(int32_t)3)


/**
 * Virtual page access handler structure.
 *
 * This is used to keep track of virtual address ranges
 * which are being monitored in some kind of way.
 */
typedef struct PGMVIRTHANDLER
{
    /** Core node for the tree based on virtual ranges. */
    AVLROGCPTRNODECORE                  Core;
    /** Size of the range (in bytes). */
    RTGCPTR                             cb;
    /** Number of cache pages. */
    uint32_t                            cPages;
    /** Access type. */
    PGMVIRTHANDLERTYPE                  enmType;
    /** Pointer to the RC callback function. */
    RCPTRTYPE(PFNPGMRCVIRTHANDLER)      pfnHandlerRC;
#if HC_ARCH_BITS == 64
    RTRCPTR                             padding;
#endif
    /** Pointer to the R3 callback function for invalidation. */
    R3PTRTYPE(PFNPGMR3VIRTINVALIDATE)   pfnInvalidateR3;
    /** Pointer to the R3 callback function. */
    R3PTRTYPE(PFNPGMR3VIRTHANDLER)      pfnHandlerR3;
    /** Description / Name. For easing debugging. */
    R3PTRTYPE(const char *)             pszDesc;
#ifdef VBOX_WITH_STATISTICS
    /** Profiling of this handler. */
    STAMPROFILE                         Stat;
#endif
    /** Array of cached physical addresses for the monitored ranged.  */
    PGMPHYS2VIRTHANDLER                 aPhysToVirt[HC_ARCH_BITS == 32 ? 1 : 2];
} PGMVIRTHANDLER;
/** Pointer to a virtual page access handler structure. */
typedef PGMVIRTHANDLER *PPGMVIRTHANDLER;


/** @name Page type predicates.
 * @{ */
#define PGMPAGETYPE_IS_READABLE(type)   ( (type) <= PGMPAGETYPE_ROM )
#define PGMPAGETYPE_IS_WRITEABLE(type)  ( (type) <= PGMPAGETYPE_ROM_SHADOW )
#define PGMPAGETYPE_IS_RWX(type)        ( (type) <= PGMPAGETYPE_ROM_SHADOW )
#define PGMPAGETYPE_IS_ROX(type)        ( (type) == PGMPAGETYPE_ROM )
#define PGMPAGETYPE_IS_NP(type)         ( (type) == PGMPAGETYPE_MMIO )
/** @} */


/**
 * A Physical Guest Page tracking structure.
 *
 * The format of this structure is complicated because we have to fit a lot
 * of information into as few bits as possible. The format is also subject
 * to change (there is one coming up soon). Which means that for we'll be
 * using PGM_PAGE_GET_*, PGM_PAGE_IS_ and PGM_PAGE_SET_* macros for *all*
 * accesses to the structure.
 */
typedef union PGMPAGE
{
    /** Structured view. */
    struct
    {
        /** 1:0   - The physical handler state (PGM_PAGE_HNDL_PHYS_STATE_*). */
        uint64_t    u2HandlerPhysStateY : 2;
        /** 3:2   - Paging structure needed to map the page
         * (PGM_PAGE_PDE_TYPE_*). */
        uint64_t    u2PDETypeY          : 2;
        /** 4     - Indicator of dirty page for fault tolerance tracking. */
        uint64_t    fFTDirtyY           : 1;
        /** 5     - Flag indicating that a write monitored page was written to
         *  when set. */
        uint64_t    fWrittenToY         : 1;
        /** 7:6   - Unused. */
        uint64_t    u2Unused0           : 2;
        /** 9:8   - The physical handler state (PGM_PAGE_HNDL_VIRT_STATE_*). */
        uint64_t    u2HandlerVirtStateY : 2;
        /** 11:10 - Unused. */
        uint64_t    u2Unused1           : 2;
        /** 12:48 - The host physical frame number (shift left to get the
         *  address). */
        uint64_t    HCPhysFN            : 36;
        /** 50:48 - The page state. */
        uint64_t    uStateY             : 3;
        /** 51:53 - The page type (PGMPAGETYPE). */
        uint64_t    uTypeY              : 3;
        /** 63:54 - PTE index for usage tracking (page pool). */
        uint64_t    u10PteIdx           : 10;

        /** The GMM page ID. */
        uint32_t    idPage;
        /** Usage tracking (page pool). */
        uint16_t    u16TrackingY;
        /** The number of read locks on this page. */
        uint8_t     cReadLocksY;
        /** The number of write locks on this page. */
        uint8_t     cWriteLocksY;
    } s;

    /** 64-bit integer view. */
    uint64_t    au64[2];
    /** 16-bit view. */
    uint32_t    au32[4];
    /** 16-bit view. */
    uint16_t    au16[8];
    /** 8-bit view. */
    uint8_t     au8[16];
} PGMPAGE;
AssertCompileSize(PGMPAGE, 16);
/** Pointer to a physical guest page. */
typedef PGMPAGE *PPGMPAGE;
/** Pointer to a const physical guest page. */
typedef const PGMPAGE *PCPGMPAGE;
/** Pointer to a physical guest page pointer. */
typedef PPGMPAGE *PPPGMPAGE;


/**
 * Clears the page structure.
 * @param   a_pPage     Pointer to the physical guest page tracking structure.
 */
#define PGM_PAGE_CLEAR(a_pPage) \
    do { \
        (a_pPage)->au64[0] = 0; \
        (a_pPage)->au64[1] = 0; \
    } while (0)

/**
 * Initializes the page structure.
 * @param   a_pPage     Pointer to the physical guest page tracking structure.
 */
#define PGM_PAGE_INIT(a_pPage, a_HCPhys, a_idPage, a_uType, a_uState) \
    do { \
        RTHCPHYS SetHCPhysTmp = (a_HCPhys); \
        AssertFatal(!(SetHCPhysTmp & ~UINT64_C(0x0000fffffffff000))); \
        (a_pPage)->au64[0]           = SetHCPhysTmp; \
        (a_pPage)->au64[1]           = 0; \
        (a_pPage)->s.idPage          = (a_idPage); \
        (a_pPage)->s.uStateY         = (a_uState); \
        (a_pPage)->s.uTypeY          = (a_uType); \
    } while (0)

/**
 * Initializes the page structure of a ZERO page.
 * @param   a_pPage     Pointer to the physical guest page tracking structure.
 * @param   a_pVM       The VM handle (for getting the zero page address).
 * @param   a_uType     The page type (PGMPAGETYPE).
 */
#define PGM_PAGE_INIT_ZERO(a_pPage, a_pVM, a_uType)  \
    PGM_PAGE_INIT((a_pPage), (a_pVM)->pgm.s.HCPhysZeroPg, NIL_GMM_PAGEID, (a_uType), PGM_PAGE_STATE_ZERO)


/** @name The Page state, PGMPAGE::uStateY.
 * @{ */
/** The zero page.
 * This is a per-VM page that's never ever mapped writable. */
#define PGM_PAGE_STATE_ZERO             0
/** A allocated page.
 * This is a per-VM page allocated from the page pool (or wherever
 * we get MMIO2 pages from if the type is MMIO2).
 */
#define PGM_PAGE_STATE_ALLOCATED        1
/** A allocated page that's being monitored for writes.
 * The shadow page table mappings are read-only. When a write occurs, the
 * fWrittenTo member is set, the page remapped as read-write and the state
 * moved back to allocated. */
#define PGM_PAGE_STATE_WRITE_MONITORED  2
/** The page is shared, aka. copy-on-write.
 * This is a page that's shared with other VMs. */
#define PGM_PAGE_STATE_SHARED           3
/** The page is ballooned, so no longer available for this VM. */
#define PGM_PAGE_STATE_BALLOONED        4
/** @} */


/** Asserts lock ownership in some of the PGM_PAGE_XXX macros. */
#if defined(VBOX_STRICT) && 0 /** @todo triggers in pgmRZDynMapGCPageV2Inlined */
# define PGM_PAGE_ASSERT_LOCK(a_pVM)  PGM_LOCK_ASSERT_OWNER(a_pVM)
#else
# define PGM_PAGE_ASSERT_LOCK(a_pVM)  do { } while (0)
#endif

/**
 * Gets the page state.
 * @returns page state (PGM_PAGE_STATE_*).
 * @param   a_pPage     Pointer to the physical guest page tracking structure.
 *
 * @remarks See PGM_PAGE_GET_HCPHYS_NA for remarks about GCC and strict
 *          builds.
 */
#define PGM_PAGE_GET_STATE_NA(a_pPage)          ( (a_pPage)->s.uStateY )
#if defined(__GNUC__) && defined(VBOX_STRICT)
# define PGM_PAGE_GET_STATE(a_pPage)        __extension__ ({ PGM_PAGE_ASSERT_LOCK(pVM); PGM_PAGE_GET_STATE_NA(a_pPage); })
#else
# define PGM_PAGE_GET_STATE                     PGM_PAGE_GET_STATE_NA
#endif

/**
 * Sets the page state.
 * @param   a_pVM       The VM handle, only used for lock ownership assertions.
 * @param   a_pPage     Pointer to the physical guest page tracking structure.
 * @param   a_uState    The new page state.
 */
#define PGM_PAGE_SET_STATE(a_pVM, a_pPage, a_uState) \
    do { (a_pPage)->s.uStateY = (a_uState); PGM_PAGE_ASSERT_LOCK(a_pVM); } while (0)


/**
 * Gets the host physical address of the guest page.
 * @returns host physical address (RTHCPHYS).
 * @param   a_pPage     Pointer to the physical guest page tracking structure.
 *
 * @remarks In strict builds on gcc platforms, this macro will make some ugly
 *          assumption about a valid pVM variable/parameter being in the
 *          current context.  It will use this pVM variable to assert that the
 *          PGM lock is held.  Use the PGM_PAGE_GET_HCPHYS_NA in contexts where
 *          pVM is not around.
 */
#if 0
# define PGM_PAGE_GET_HCPHYS_NA(a_pPage)        ( (a_pPage)->s.HCPhysFN << 12 )
# define PGM_PAGE_GET_HCPHYS                    PGM_PAGE_GET_HCPHYS_NA
#else
# define PGM_PAGE_GET_HCPHYS_NA(a_pPage)        ( (a_pPage)->au64[0] & UINT64_C(0x0000fffffffff000) )
# if defined(__GNUC__) && defined(VBOX_STRICT)
#  define PGM_PAGE_GET_HCPHYS(a_pPage)      __extension__ ({ PGM_PAGE_ASSERT_LOCK(pVM); PGM_PAGE_GET_HCPHYS_NA(a_pPage); })
# else
#  define PGM_PAGE_GET_HCPHYS                   PGM_PAGE_GET_HCPHYS_NA
# endif
#endif

/**
 * Sets the host physical address of the guest page.
 *
 * @param   a_pVM       The VM handle, only used for lock ownership assertions.
 * @param   a_pPage      Pointer to the physical guest page tracking structure.
 * @param   a_HCPhys     The new host physical address.
 */
#define PGM_PAGE_SET_HCPHYS(a_pVM, a_pPage, a_HCPhys) \
    do { \
        RTHCPHYS const SetHCPhysTmp = (a_HCPhys); \
        AssertFatal(!(SetHCPhysTmp & ~UINT64_C(0x0000fffffffff000))); \
        (a_pPage)->s.HCPhysFN = SetHCPhysTmp >> 12; \
        PGM_PAGE_ASSERT_LOCK(a_pVM); \
    } while (0)

/**
 * Get the Page ID.
 * @returns The Page ID; NIL_GMM_PAGEID if it's a ZERO page.
 * @param   a_pPage     Pointer to the physical guest page tracking structure.
 */
#define PGM_PAGE_GET_PAGEID(a_pPage)            (  (uint32_t)(a_pPage)->s.idPage )

/**
 * Sets the Page ID.
 * @param   a_pVM       The VM handle, only used for lock ownership assertions.
 * @param   a_pPage     Pointer to the physical guest page tracking structure.
 * @param   a_idPage    The new page ID.
 */
#define PGM_PAGE_SET_PAGEID(a_pVM, a_pPage, a_idPage) \
    do { \
        (a_pPage)->s.idPage = (a_idPage); \
        PGM_PAGE_ASSERT_LOCK(a_pVM); \
    } while (0)

/**
 * Get the Chunk ID.
 * @returns The Chunk ID; NIL_GMM_CHUNKID if it's a ZERO page.
 * @param   a_pPage     Pointer to the physical guest page tracking structure.
 */
#define PGM_PAGE_GET_CHUNKID(a_pPage)           ( PGM_PAGE_GET_PAGEID(a_pPage) >> GMM_CHUNKID_SHIFT )

/**
 * Get the index of the page within the allocation chunk.
 * @returns The page index.
 * @param   a_pPage     Pointer to the physical guest page tracking structure.
 */
#define PGM_PAGE_GET_PAGE_IN_CHUNK(a_pPage)     ( PGM_PAGE_GET_PAGEID(a_pPage) & GMM_PAGEID_IDX_MASK )

/**
 * Gets the page type.
 * @returns The page type.
 * @param   a_pPage     Pointer to the physical guest page tracking structure.
 *
 * @remarks See PGM_PAGE_GET_HCPHYS_NA for remarks about GCC and strict
 *          builds.
 */
#define PGM_PAGE_GET_TYPE_NA(a_pPage)           ( (a_pPage)->s.uTypeY )
#if defined(__GNUC__) && defined(VBOX_STRICT)
# define PGM_PAGE_GET_TYPE(a_pPage)         __extension__ ({ PGM_PAGE_ASSERT_LOCK(pVM); PGM_PAGE_GET_TYPE_NA(a_pPage); })
#else
# define PGM_PAGE_GET_TYPE                      PGM_PAGE_GET_TYPE_NA
#endif

/**
 * Sets the page type.
 *
 * @param   a_pVM       The VM handle, only used for lock ownership assertions.
 * @param   a_pPage     Pointer to the physical guest page tracking structure.
 * @param   a_enmType   The new page type (PGMPAGETYPE).
 */
#define PGM_PAGE_SET_TYPE(a_pVM, a_pPage, a_enmType) \
    do { (a_pPage)->s.uTypeY = (a_enmType); PGM_PAGE_ASSERT_LOCK(a_pVM); } while (0)

/**
 * Gets the page table index
 * @returns The page table index.
 * @param   a_pPage     Pointer to the physical guest page tracking structure.
 */
#define PGM_PAGE_GET_PTE_INDEX(a_pPage)         ( (a_pPage)->s.u10PteIdx )

/**
 * Sets the page table index.
 * @param   a_pVM       The VM handle, only used for lock ownership assertions.
 * @param   a_pPage     Pointer to the physical guest page tracking structure.
 * @param   a_iPte      New page table index.
 */
#define PGM_PAGE_SET_PTE_INDEX(a_pVM, a_pPage, a_iPte) \
    do { (a_pPage)->s.u10PteIdx = (a_iPte); PGM_PAGE_ASSERT_LOCK(a_pVM); } while (0)

/**
 * Checks if the page is marked for MMIO.
 * @returns true/false.
 * @param   a_pPage     Pointer to the physical guest page tracking structure.
 */
#define PGM_PAGE_IS_MMIO(a_pPage)               ( (a_pPage)->s.uTypeY == PGMPAGETYPE_MMIO )

/**
 * Checks if the page is backed by the ZERO page.
 * @returns true/false.
 * @param   a_pPage     Pointer to the physical guest page tracking structure.
 */
#define PGM_PAGE_IS_ZERO(a_pPage)               ( (a_pPage)->s.uStateY == PGM_PAGE_STATE_ZERO )

/**
 * Checks if the page is backed by a SHARED page.
 * @returns true/false.
 * @param   a_pPage     Pointer to the physical guest page tracking structure.
 */
#define PGM_PAGE_IS_SHARED(a_pPage)             ( (a_pPage)->s.uStateY == PGM_PAGE_STATE_SHARED )

/**
 * Checks if the page is ballooned.
 * @returns true/false.
 * @param   a_pPage     Pointer to the physical guest page tracking structure.
 */
#define PGM_PAGE_IS_BALLOONED(a_pPage)          ( (a_pPage)->s.uStateY == PGM_PAGE_STATE_BALLOONED )

/**
 * Checks if the page is allocated.
 * @returns true/false.
 * @param   a_pPage     Pointer to the physical guest page tracking structure.
 */
#define PGM_PAGE_IS_ALLOCATED(a_pPage)          ( (a_pPage)->s.uStateY == PGM_PAGE_STATE_ALLOCATED )

/**
 * Marks the page as written to (for GMM change monitoring).
 * @param   a_pVM       The VM handle, only used for lock ownership assertions.
 * @param   a_pPage     Pointer to the physical guest page tracking structure.
 */
#define PGM_PAGE_SET_WRITTEN_TO(a_pVM, a_pPage) \
    do { (a_pPage)->au8[1] |= UINT8_C(0x80); PGM_PAGE_ASSERT_LOCK(a_pVM); } while (0) /// FIXME FIXME

/**
 * Clears the written-to indicator.
 * @param   a_pVM       The VM handle, only used for lock ownership assertions.
 * @param   a_pPage     Pointer to the physical guest page tracking structure.
 */
#define PGM_PAGE_CLEAR_WRITTEN_TO(a_pVM, a_pPage) \
    do { (a_pPage)->s.fWrittenToY = 0; PGM_PAGE_ASSERT_LOCK(a_pVM); } while (0)

/**
 * Checks if the page was marked as written-to.
 * @returns true/false.
 * @param   a_pPage     Pointer to the physical guest page tracking structure.
 */
#define PGM_PAGE_IS_WRITTEN_TO(a_pPage)         ( (a_pPage)->s.fWrittenToY )

/**
 * Marks the page as dirty for FTM
 * @param   a_pPage     Pointer to the physical guest page tracking structure.
 */
#define PGM_PAGE_SET_FT_DIRTY(a_pPage)          do { (a_pPage)->s.fFTDirtyY = 1; } while (0)

/**
 * Clears the FTM dirty indicator
 * @param   a_pPage     Pointer to the physical guest page tracking structure.
 */
#define PGM_PAGE_CLEAR_FT_DIRTY(a_pPage)        do { (a_pPage)->s.fFTDirtyY = 0; } while (0)

/**
 * Checks if the page was marked as dirty for FTM
 * @returns true/false.
 * @param   a_pPage     Pointer to the physical guest page tracking structure.
 */
#define PGM_PAGE_IS_FT_DIRTY(a_pPage)           ( (a_pPage)->s.fFTDirtyY )


/** @name PT usage values (PGMPAGE::u2PDEType).
 *
 * @{ */
/** Either as a PT or PDE. */
#define PGM_PAGE_PDE_TYPE_DONTCARE              0
/** Must use a page table to map the range. */
#define PGM_PAGE_PDE_TYPE_PT                    1
/** Can use a page directory entry to map the continuous range. */
#define PGM_PAGE_PDE_TYPE_PDE                   2
/** Can use a page directory entry to map the continuous range - temporarily disabled (by page monitoring). */
#define PGM_PAGE_PDE_TYPE_PDE_DISABLED          3
/** @} */

/**
 * Set the PDE type of the page
 * @param   a_pVM       The VM handle, only used for lock ownership assertions.
 * @param   a_pPage     Pointer to the physical guest page tracking structure.
 * @param   a_uType     PGM_PAGE_PDE_TYPE_*.
 */
#define PGM_PAGE_SET_PDE_TYPE(a_pVM, a_pPage, a_uType) \
    do { (a_pPage)->s.u2PDETypeY = (a_uType); PGM_PAGE_ASSERT_LOCK(a_pVM); } while (0)

/**
 * Checks if the page was marked being part of a large page
 * @returns true/false.
 * @param   a_pPage     Pointer to the physical guest page tracking structure.
 */
#define PGM_PAGE_GET_PDE_TYPE(a_pPage)          ( (a_pPage)->s.u2PDETypeY )

/** Enabled optimized access handler tests.
 * These optimizations makes ASSUMPTIONS about the state values and the s1
 * layout.  When enabled, the compiler should normally generate more compact
 * code.
 */
#define PGM_PAGE_WITH_OPTIMIZED_HANDLER_ACCESS  1

/** @name Physical Access Handler State values (PGMPAGE::u2HandlerPhysStateY).
 *
 * @remarks The values are assigned in order of priority, so we can calculate
 *          the correct state for a page with different handlers installed.
 * @{ */
/** No handler installed. */
#define PGM_PAGE_HNDL_PHYS_STATE_NONE           0
/** Monitoring is temporarily disabled. */
#define PGM_PAGE_HNDL_PHYS_STATE_DISABLED       1
/** Write access is monitored. */
#define PGM_PAGE_HNDL_PHYS_STATE_WRITE          2
/** All access is monitored. */
#define PGM_PAGE_HNDL_PHYS_STATE_ALL            3
/** @} */

/**
 * Gets the physical access handler state of a page.
 * @returns PGM_PAGE_HNDL_PHYS_STATE_* value.
 * @param   a_pPage     Pointer to the physical guest page tracking structure.
 */
#define PGM_PAGE_GET_HNDL_PHYS_STATE(a_pPage)   ( (a_pPage)->s.u2HandlerPhysStateY )

/**
 * Sets the physical access handler state of a page.
 * @param   a_pPage     Pointer to the physical guest page tracking structure.
 * @param   a_uState    The new state value.
 */
#define PGM_PAGE_SET_HNDL_PHYS_STATE(a_pPage, a_uState) \
    do { (a_pPage)->s.u2HandlerPhysStateY = (a_uState); } while (0)

/**
 * Checks if the page has any physical access handlers, including temporarily disabled ones.
 * @returns true/false
 * @param   a_pPage     Pointer to the physical guest page tracking structure.
 */
#define PGM_PAGE_HAS_ANY_PHYSICAL_HANDLERS(a_pPage) \
    ( PGM_PAGE_GET_HNDL_PHYS_STATE(a_pPage) != PGM_PAGE_HNDL_PHYS_STATE_NONE )

/**
 * Checks if the page has any active physical access handlers.
 * @returns true/false
 * @param   a_pPage     Pointer to the physical guest page tracking structure.
 */
#define PGM_PAGE_HAS_ACTIVE_PHYSICAL_HANDLERS(a_pPage) \
    ( PGM_PAGE_GET_HNDL_PHYS_STATE(a_pPage) >= PGM_PAGE_HNDL_PHYS_STATE_WRITE )


/** @name Virtual Access Handler State values (PGMPAGE::u2HandlerVirtStateY).
 *
 * @remarks The values are assigned in order of priority, so we can calculate
 *          the correct state for a page with different handlers installed.
 * @{ */
/** No handler installed. */
#define PGM_PAGE_HNDL_VIRT_STATE_NONE           0
/* 1 is reserved so the lineup is identical with the physical ones. */
/** Write access is monitored. */
#define PGM_PAGE_HNDL_VIRT_STATE_WRITE          2
/** All access is monitored. */
#define PGM_PAGE_HNDL_VIRT_STATE_ALL            3
/** @} */

/**
 * Gets the virtual access handler state of a page.
 * @returns PGM_PAGE_HNDL_VIRT_STATE_* value.
 * @param   a_pPage     Pointer to the physical guest page tracking structure.
 */
#define PGM_PAGE_GET_HNDL_VIRT_STATE(a_pPage)   ( (a_pPage)->s.u2HandlerVirtStateY )

/**
 * Sets the virtual access handler state of a page.
 * @param   a_pPage     Pointer to the physical guest page tracking structure.
 * @param   a_uState    The new state value.
 */
#define PGM_PAGE_SET_HNDL_VIRT_STATE(a_pPage, a_uState) \
    do { (a_pPage)->s.u2HandlerVirtStateY = (a_uState); } while (0)

/**
 * Checks if the page has any virtual access handlers.
 * @returns true/false
 * @param   a_pPage     Pointer to the physical guest page tracking structure.
 */
#define PGM_PAGE_HAS_ANY_VIRTUAL_HANDLERS(a_pPage) \
    ( PGM_PAGE_GET_HNDL_VIRT_STATE(a_pPage) != PGM_PAGE_HNDL_VIRT_STATE_NONE )

/**
 * Same as PGM_PAGE_HAS_ANY_VIRTUAL_HANDLERS - can't disable pages in
 * virtual handlers.
 * @returns true/false
 * @param   a_pPage     Pointer to the physical guest page tracking structure.
 */
#define PGM_PAGE_HAS_ACTIVE_VIRTUAL_HANDLERS(a_pPage) \
    PGM_PAGE_HAS_ANY_VIRTUAL_HANDLERS(a_pPage)


/**
 * Checks if the page has any access handlers, including temporarily disabled ones.
 * @returns true/false
 * @param   a_pPage     Pointer to the physical guest page tracking structure.
 */
#ifdef PGM_PAGE_WITH_OPTIMIZED_HANDLER_ACCESS
# define PGM_PAGE_HAS_ANY_HANDLERS(a_pPage) \
    ( ((a_pPage)->au32[0] & UINT16_C(0x0303)) != 0 )
#else
# define PGM_PAGE_HAS_ANY_HANDLERS(a_pPage) \
    (   PGM_PAGE_GET_HNDL_PHYS_STATE(a_pPage) != PGM_PAGE_HNDL_PHYS_STATE_NONE \
     || PGM_PAGE_GET_HNDL_VIRT_STATE(a_pPage) != PGM_PAGE_HNDL_VIRT_STATE_NONE )
#endif

/**
 * Checks if the page has any active access handlers.
 * @returns true/false
 * @param   a_pPage     Pointer to the physical guest page tracking structure.
 */
#ifdef PGM_PAGE_WITH_OPTIMIZED_HANDLER_ACCESS
# define PGM_PAGE_HAS_ACTIVE_HANDLERS(a_pPage) \
    ( ((a_pPage)->au32[0] & UINT16_C(0x0202)) != 0 )
#else
# define PGM_PAGE_HAS_ACTIVE_HANDLERS(a_pPage) \
    (   PGM_PAGE_GET_HNDL_PHYS_STATE(a_pPage) >= PGM_PAGE_HNDL_PHYS_STATE_WRITE \
     || PGM_PAGE_GET_HNDL_VIRT_STATE(a_pPage) >= PGM_PAGE_HNDL_VIRT_STATE_WRITE )
#endif

/**
 * Checks if the page has any active access handlers catching all accesses.
 * @returns true/false
 * @param   a_pPage     Pointer to the physical guest page tracking structure.
 */
#ifdef PGM_PAGE_WITH_OPTIMIZED_HANDLER_ACCESS
# define PGM_PAGE_HAS_ACTIVE_ALL_HANDLERS(a_pPage) \
    (   ( ((a_pPage)->au8[0] | (a_pPage)->au8[1]) & UINT8_C(0x3) ) \
     == PGM_PAGE_HNDL_PHYS_STATE_ALL )
#else
# define PGM_PAGE_HAS_ACTIVE_ALL_HANDLERS(a_pPage) \
    (   PGM_PAGE_GET_HNDL_PHYS_STATE(a_pPage) == PGM_PAGE_HNDL_PHYS_STATE_ALL \
     || PGM_PAGE_GET_HNDL_VIRT_STATE(a_pPage) == PGM_PAGE_HNDL_VIRT_STATE_ALL )
#endif


/** @def PGM_PAGE_GET_TRACKING
 * Gets the packed shadow page pool tracking data associated with a guest page.
 * @returns uint16_t containing the data.
 * @param   a_pPage     Pointer to the physical guest page tracking structure.
 */
#define PGM_PAGE_GET_TRACKING_NA(a_pPage)       ( (a_pPage)->s.u16TrackingY )
#if defined(__GNUC__) && defined(VBOX_STRICT)
# define PGM_PAGE_GET_TRACKING(a_pPage)     __extension__ ({ PGM_PAGE_ASSERT_LOCK(pVM); PGM_PAGE_GET_TRACKING_NA(a_pPage); })
#else
# define PGM_PAGE_GET_TRACKING                  PGM_PAGE_GET_TRACKING_NA
#endif

/** @def PGM_PAGE_SET_TRACKING
 * Sets the packed shadow page pool tracking data associated with a guest page.
 * @param   a_pVM       The VM handle, only used for lock ownership assertions.
 * @param   a_pPage     Pointer to the physical guest page tracking structure.
 * @param   a_u16TrackingData   The tracking data to store.
 */
#define PGM_PAGE_SET_TRACKING(a_pVM, a_pPage, a_u16TrackingData) \
    do { (a_pPage)->s.u16TrackingY = (a_u16TrackingData); PGM_PAGE_ASSERT_LOCK(a_pVM); } while (0)

/** @def PGM_PAGE_GET_TD_CREFS
 * Gets the @a cRefs tracking data member.
 * @returns cRefs.
 * @param   a_pPage     Pointer to the physical guest page tracking structure.
 */
#define PGM_PAGE_GET_TD_CREFS(a_pPage) \
    ((PGM_PAGE_GET_TRACKING(a_pPage) >> PGMPOOL_TD_CREFS_SHIFT)    & PGMPOOL_TD_CREFS_MASK)
#define PGM_PAGE_GET_TD_CREFS_NA(a_pPage) \
    ((PGM_PAGE_GET_TRACKING_NA(a_pPage) >> PGMPOOL_TD_CREFS_SHIFT) & PGMPOOL_TD_CREFS_MASK)

/** @def PGM_PAGE_GET_TD_IDX
 * Gets the @a idx tracking data member.
 * @returns idx.
 * @param   a_pPage     Pointer to the physical guest page tracking structure.
 */
#define PGM_PAGE_GET_TD_IDX(a_pPage) \
    ((PGM_PAGE_GET_TRACKING(a_pPage) >> PGMPOOL_TD_IDX_SHIFT)      & PGMPOOL_TD_IDX_MASK)
#define PGM_PAGE_GET_TD_IDX_NA(a_pPage) \
    ((PGM_PAGE_GET_TRACKING_NA(a_pPage) >> PGMPOOL_TD_IDX_SHIFT)   & PGMPOOL_TD_IDX_MASK)


/** Max number of locks on a page. */
#define PGM_PAGE_MAX_LOCKS                      UINT8_C(254)

/** Get the read lock count.
 * @returns count.
 * @param   a_pPage     Pointer to the physical guest page tracking structure.
 */
#define PGM_PAGE_GET_READ_LOCKS(a_pPage)        ( (a_pPage)->s.cReadLocksY )

/** Get the write lock count.
 * @returns count.
 * @param   a_pPage     Pointer to the physical guest page tracking structure.
 */
#define PGM_PAGE_GET_WRITE_LOCKS(a_pPage)       ( (a_pPage)->s.cWriteLocksY )

/** Decrement the read lock counter.
 * @param   a_pPage     Pointer to the physical guest page tracking structure.
 */
#define PGM_PAGE_DEC_READ_LOCKS(a_pPage)        do { --(a_pPage)->s.cReadLocksY; } while (0)

/** Decrement the write lock counter.
 * @param   a_pPage     Pointer to the physical guest page tracking structure.
 */
#define PGM_PAGE_DEC_WRITE_LOCKS(a_pPage)       do { --(a_pPage)->s.cWriteLocksY; } while (0)

/** Increment the read lock counter.
 * @param   a_pPage     Pointer to the physical guest page tracking structure.
 */
#define PGM_PAGE_INC_READ_LOCKS(a_pPage)        do { ++(a_pPage)->s.cReadLocksY; } while (0)

/** Increment the write lock counter.
 * @param   a_pPage     Pointer to the physical guest page tracking structure.
 */
#define PGM_PAGE_INC_WRITE_LOCKS(a_pPage)       do { ++(a_pPage)->s.cWriteLocksY; } while (0)


#if 0
/** Enables sanity checking of write monitoring using CRC-32.  */
# define PGMLIVESAVERAMPAGE_WITH_CRC32
#endif

/**
 * Per page live save tracking data.
 */
typedef struct PGMLIVESAVERAMPAGE
{
    /** Number of times it has been dirtied. */
    uint32_t    cDirtied : 24;
    /** Whether it is currently dirty. */
    uint32_t    fDirty : 1;
    /** Ignore the page.
     *  This is used for pages that has been MMIO, MMIO2 or ROM pages once.  We will
     *  deal with these after pausing the VM and DevPCI have said it bit about
     *  remappings. */
    uint32_t    fIgnore : 1;
    /** Was a ZERO page last time around. */
    uint32_t    fZero : 1;
    /** Was a SHARED page last time around. */
    uint32_t    fShared : 1;
    /** Whether the page is/was write monitored in a previous pass. */
    uint32_t    fWriteMonitored : 1;
    /** Whether the page is/was write monitored earlier in this pass. */
    uint32_t    fWriteMonitoredJustNow : 1;
    /** Bits reserved for future use.  */
    uint32_t    u2Reserved : 2;
#ifdef PGMLIVESAVERAMPAGE_WITH_CRC32
    /** CRC-32 for the page. This is for internal consistency checks.  */
    uint32_t    u32Crc;
#endif
} PGMLIVESAVERAMPAGE;
#ifdef PGMLIVESAVERAMPAGE_WITH_CRC32
AssertCompileSize(PGMLIVESAVERAMPAGE, 8);
#else
AssertCompileSize(PGMLIVESAVERAMPAGE, 4);
#endif
/** Pointer to the per page live save tracking data. */
typedef PGMLIVESAVERAMPAGE *PPGMLIVESAVERAMPAGE;

/** The max value of PGMLIVESAVERAMPAGE::cDirtied. */
#define PGMLIVSAVEPAGE_MAX_DIRTIED 0x00fffff0


/**
 * RAM range for GC Phys to HC Phys conversion.
 *
 * Can be used for HC Virt to GC Phys and HC Virt to HC Phys
 * conversions too, but we'll let MM handle that for now.
 *
 * This structure is used by linked lists in both GC and HC.
 */
typedef struct PGMRAMRANGE
{
    /** Start of the range. Page aligned. */
    RTGCPHYS                            GCPhys;
    /** Size of the range. (Page aligned of course). */
    RTGCPHYS                            cb;
    /** Pointer to the next RAM range - for R3. */
    R3PTRTYPE(struct PGMRAMRANGE *)     pNextR3;
    /** Pointer to the next RAM range - for R0. */
    R0PTRTYPE(struct PGMRAMRANGE *)     pNextR0;
    /** Pointer to the next RAM range - for RC. */
    RCPTRTYPE(struct PGMRAMRANGE *)     pNextRC;
    /** PGM_RAM_RANGE_FLAGS_* flags. */
    uint32_t                            fFlags;
    /** Last address in the range (inclusive). Page aligned (-1). */
    RTGCPHYS                            GCPhysLast;
    /** Start of the HC mapping of the range. This is only used for MMIO2. */
    R3PTRTYPE(void *)                   pvR3;
    /** Live save per page tracking data. */
    R3PTRTYPE(PPGMLIVESAVERAMPAGE)      paLSPages;
    /** The range description. */
    R3PTRTYPE(const char *)             pszDesc;
    /** Pointer to self - R0 pointer. */
    R0PTRTYPE(struct PGMRAMRANGE *)     pSelfR0;
    /** Pointer to self - RC pointer. */
    RCPTRTYPE(struct PGMRAMRANGE *)     pSelfRC;

    /** Alignment padding. */
    RTRCPTR                             Alignment0;
    /** Pointer to the left search three node - ring-3 context. */
    R3PTRTYPE(struct PGMRAMRANGE *)     pLeftR3;
    /** Pointer to the right search three node - ring-3 context. */
    R3PTRTYPE(struct PGMRAMRANGE *)     pRightR3;
    /** Pointer to the left search three node - ring-0 context. */
    R0PTRTYPE(struct PGMRAMRANGE *)     pLeftR0;
    /** Pointer to the right search three node - ring-0 context. */
    R0PTRTYPE(struct PGMRAMRANGE *)     pRightR0;
    /** Pointer to the left search three node - raw-mode context. */
    RCPTRTYPE(struct PGMRAMRANGE *)     pLeftRC;
    /** Pointer to the right search three node - raw-mode context. */
    RCPTRTYPE(struct PGMRAMRANGE *)     pRightRC;

    /** Padding to make aPage aligned on sizeof(PGMPAGE). */
#if HC_ARCH_BITS == 32
    uint32_t                            au32Alignment2[HC_ARCH_BITS == 32 ? 2 : 0];
#endif
    /** Array of physical guest page tracking structures. */
    PGMPAGE                             aPages[1];
} PGMRAMRANGE;
/** Pointer to RAM range for GC Phys to HC Phys conversion. */
typedef PGMRAMRANGE *PPGMRAMRANGE;

/** @name PGMRAMRANGE::fFlags
 * @{ */
/** The RAM range is floating around as an independent guest mapping. */
#define PGM_RAM_RANGE_FLAGS_FLOATING        RT_BIT(20)
/** Ad hoc RAM range for an ROM mapping. */
#define PGM_RAM_RANGE_FLAGS_AD_HOC_ROM      RT_BIT(21)
/** Ad hoc RAM range for an MMIO mapping. */
#define PGM_RAM_RANGE_FLAGS_AD_HOC_MMIO     RT_BIT(22)
/** Ad hoc RAM range for an MMIO2 mapping. */
#define PGM_RAM_RANGE_FLAGS_AD_HOC_MMIO2    RT_BIT(23)
/** @} */

/** Tests if a RAM range is an ad hoc one or not.
 * @returns true/false.
 * @param   pRam    The RAM range.
 */
#define PGM_RAM_RANGE_IS_AD_HOC(pRam) \
    (!!( (pRam)->fFlags & (PGM_RAM_RANGE_FLAGS_AD_HOC_ROM | PGM_RAM_RANGE_FLAGS_AD_HOC_MMIO | PGM_RAM_RANGE_FLAGS_AD_HOC_MMIO2) ) )

/** The number of entries in the RAM range TLBs (there is one for each
 *  context).  Must be a power of two. */
#define PGM_RAMRANGE_TLB_ENTRIES            8

/**
 * Calculates the RAM range TLB index for the physical address.
 *
 * @returns RAM range TLB index.
 * @param   GCPhys      The guest physical address.
 */
#define PGM_RAMRANGE_TLB_IDX(a_GCPhys)      ( ((a_GCPhys) >> 20) & (PGM_RAMRANGE_TLB_ENTRIES - 1) )



/**
 * Per page tracking structure for ROM image.
 *
 * A ROM image may have a shadow page, in which case we may have two pages
 * backing it.  This structure contains the PGMPAGE for both while
 * PGMRAMRANGE have a copy of the active one.  It is important that these
 * aren't out of sync in any regard other than page pool tracking data.
 */
typedef struct PGMROMPAGE
{
    /** The page structure for the virgin ROM page. */
    PGMPAGE     Virgin;
    /** The page structure for the shadow RAM page. */
    PGMPAGE     Shadow;
    /** The current protection setting. */
    PGMROMPROT  enmProt;
    /** Live save status information. Makes use of unused alignment space. */
    struct
    {
        /** The previous protection value. */
        uint8_t u8Prot;
        /** Written to flag set by the handler. */
        bool    fWrittenTo;
        /** Whether the shadow page is dirty or not. */
        bool    fDirty;
        /** Whether it was dirtied in the recently. */
        bool    fDirtiedRecently;
    } LiveSave;
} PGMROMPAGE;
AssertCompileSizeAlignment(PGMROMPAGE, 8);
/** Pointer to a ROM page tracking structure. */
typedef PGMROMPAGE *PPGMROMPAGE;


/**
 * A registered ROM image.
 *
 * This is needed to keep track of ROM image since they generally intrude
 * into a PGMRAMRANGE.  It also keeps track of additional info like the
 * two page sets (read-only virgin and read-write shadow), the current
 * state of each page.
 *
 * Because access handlers cannot easily be executed in a different
 * context, the ROM ranges needs to be accessible and in all contexts.
 */
typedef struct PGMROMRANGE
{
    /** Pointer to the next range - R3. */
    R3PTRTYPE(struct PGMROMRANGE *)     pNextR3;
    /** Pointer to the next range - R0. */
    R0PTRTYPE(struct PGMROMRANGE *)     pNextR0;
    /** Pointer to the next range - RC. */
    RCPTRTYPE(struct PGMROMRANGE *)     pNextRC;
    /** Pointer alignment */
    RTRCPTR                             RCPtrAlignment;
    /** Address of the range. */
    RTGCPHYS                            GCPhys;
    /** Address of the last byte in the range. */
    RTGCPHYS                            GCPhysLast;
    /** Size of the range. */
    RTGCPHYS                            cb;
    /** The flags (PGMPHYS_ROM_FLAGS_*). */
    uint32_t                            fFlags;
    /** The saved state range ID. */
    uint8_t                             idSavedState;
    /** Alignment padding. */
    uint8_t                             au8Alignment[3];
    /** Alignment padding ensuring that aPages is sizeof(PGMROMPAGE) aligned. */
    uint32_t                            au32Alignemnt[HC_ARCH_BITS == 32 ? 5 : 1];
    /** The size bits pvOriginal points to. */
    uint32_t                            cbOriginal;
    /** Pointer to the original bits when PGMPHYS_ROM_FLAGS_PERMANENT_BINARY was specified.
     * This is used for strictness checks. */
    R3PTRTYPE(const void *)             pvOriginal;
    /** The ROM description. */
    R3PTRTYPE(const char *)             pszDesc;
    /** The per page tracking structures. */
    PGMROMPAGE                          aPages[1];
} PGMROMRANGE;
/** Pointer to a ROM range. */
typedef PGMROMRANGE *PPGMROMRANGE;


/**
 * Live save per page data for an MMIO2 page.
 *
 * Not using PGMLIVESAVERAMPAGE here because we cannot use normal write monitoring
 * of MMIO2 pages.  The current approach is using some optimistic SHA-1 +
 * CRC-32 for detecting changes as well as special handling of zero pages.  This
 * is a TEMPORARY measure which isn't perfect, but hopefully it is good enough
 * for speeding things up.  (We're using SHA-1 and not SHA-256 or SHA-512
 * because of speed (2.5x and 6x slower).)
 *
 * @todo Implement dirty MMIO2 page reporting that can be enabled during live
 *       save but normally is disabled.  Since we can write monitor guest
 *       accesses on our own, we only need this for host accesses.  Shouldn't be
 *       too difficult for DevVGA, VMMDev might be doable, the planned
 *       networking fun will be fun since it involves ring-0.
 */
typedef struct PGMLIVESAVEMMIO2PAGE
{
    /** Set if the page is considered dirty. */
    bool        fDirty;
    /** The number of scans this page has remained unchanged for.
     * Only updated for dirty pages. */
    uint8_t     cUnchangedScans;
    /** Whether this page was zero at the last scan. */
    bool        fZero;
    /** Alignment padding. */
    bool        fReserved;
    /** CRC-32 for the first half of the page.
     * This is used together with u32CrcH2 to quickly detect changes in the page
     * during the non-final passes.  */
    uint32_t    u32CrcH1;
    /** CRC-32 for the second half of the page. */
    uint32_t    u32CrcH2;
    /** SHA-1 for the saved page.
     * This is used in the final pass to skip pages without changes. */
    uint8_t     abSha1Saved[RTSHA1_HASH_SIZE];
} PGMLIVESAVEMMIO2PAGE;
/** Pointer to a live save status data for an MMIO2 page. */
typedef PGMLIVESAVEMMIO2PAGE *PPGMLIVESAVEMMIO2PAGE;

/**
 * A registered MMIO2 (= Device RAM) range.
 *
 * There are a few reason why we need to keep track of these
 * registrations.  One of them is the deregistration & cleanup stuff,
 * while another is that the PGMRAMRANGE associated with such a region may
 * have to be removed from the ram range list.
 *
 * Overlapping with a RAM range has to be 100% or none at all.  The pages
 * in the existing RAM range must not be ROM nor MMIO.  A guru meditation
 * will be raised if a partial overlap or an overlap of ROM pages is
 * encountered.  On an overlap we will free all the existing RAM pages and
 * put in the ram range pages instead.
 */
typedef struct PGMMMIO2RANGE
{
    /** The owner of the range. (a device) */
    PPDMDEVINSR3                        pDevInsR3;
    /** Pointer to the ring-3 mapping of the allocation. */
    RTR3PTR                             pvR3;
    /** Pointer to the next range - R3. */
    R3PTRTYPE(struct PGMMMIO2RANGE *)   pNextR3;
    /** Whether it's mapped or not. */
    bool                                fMapped;
    /** Whether it's overlapping or not. */
    bool                                fOverlapping;
    /** The PCI region number.
     * @remarks This ASSUMES that nobody will ever really need to have multiple
     *          PCI devices with matching MMIO region numbers on a single device. */
    uint8_t                             iRegion;
    /** The saved state range ID. */
    uint8_t                             idSavedState;
    /** Alignment padding for putting the ram range on a PGMPAGE alignment boundary. */
    uint8_t                             abAlignemnt[HC_ARCH_BITS == 32 ? 12 : 12];
    /** Live save per page tracking data. */
    R3PTRTYPE(PPGMLIVESAVEMMIO2PAGE)    paLSPages;
    /** The associated RAM range. */
    PGMRAMRANGE                         RamRange;
} PGMMMIO2RANGE;
/** Pointer to a MMIO2 range. */
typedef PGMMMIO2RANGE *PPGMMMIO2RANGE;




/**
 * PGMPhysRead/Write cache entry
 */
typedef struct PGMPHYSCACHEENTRY
{
    /** R3 pointer to physical page. */
    R3PTRTYPE(uint8_t *)                pbR3;
    /** GC Physical address for cache entry */
    RTGCPHYS                            GCPhys;
#if HC_ARCH_BITS == 64 && GC_ARCH_BITS == 32
    RTGCPHYS                            u32Padding0; /**< alignment padding. */
#endif
} PGMPHYSCACHEENTRY;

/**
 * PGMPhysRead/Write cache to reduce REM memory access overhead
 */
typedef struct PGMPHYSCACHE
{
    /** Bitmap of valid cache entries */
    uint64_t                            aEntries;
    /** Cache entries */
    PGMPHYSCACHEENTRY                   Entry[PGM_MAX_PHYSCACHE_ENTRIES];
} PGMPHYSCACHE;


/** Pointer to an allocation chunk ring-3 mapping. */
typedef struct PGMCHUNKR3MAP *PPGMCHUNKR3MAP;
/** Pointer to an allocation chunk ring-3 mapping pointer. */
typedef PPGMCHUNKR3MAP *PPPGMCHUNKR3MAP;

/**
 * Ring-3 tracking structore for an allocation chunk ring-3 mapping.
 *
 * The primary tree (Core) uses the chunk id as key.
 */
typedef struct PGMCHUNKR3MAP
{
    /** The key is the chunk id. */
    AVLU32NODECORE                      Core;
    /** The time (ChunkR3Map.iNow) this chunk was last used.  Used for unmap
     *  selection. */
    uint32_t                            iLastUsed;
    /** The current reference count. */
    uint32_t volatile                   cRefs;
    /** The current permanent reference count. */
    uint32_t volatile                   cPermRefs;
    /** The mapping address. */
    void                               *pv;
} PGMCHUNKR3MAP;

/**
 * Allocation chunk ring-3 mapping TLB entry.
 */
typedef struct PGMCHUNKR3MAPTLBE
{
    /** The chunk id. */
    uint32_t volatile                   idChunk;
#if HC_ARCH_BITS == 64
    uint32_t                            u32Padding; /**< alignment padding. */
#endif
    /** The chunk map. */
#ifdef VBOX_WITH_2X_4GB_ADDR_SPACE
    R3PTRTYPE(PPGMCHUNKR3MAP) volatile  pChunk;
#else
    R3R0PTRTYPE(PPGMCHUNKR3MAP) volatile  pChunk;
#endif
} PGMCHUNKR3MAPTLBE;
/** Pointer to the an allocation chunk ring-3 mapping TLB entry. */
typedef PGMCHUNKR3MAPTLBE *PPGMCHUNKR3MAPTLBE;

/** The number of TLB entries in PGMCHUNKR3MAPTLB.
 * @remark Must be a power of two value. */
#define PGM_CHUNKR3MAPTLB_ENTRIES   64

/**
 * Allocation chunk ring-3 mapping TLB.
 *
 * @remarks We use a TLB to speed up lookups by avoiding walking the AVL.
 *          At first glance this might look kinda odd since AVL trees are
 *          supposed to give the most optimal lookup times of all trees
 *          due to their balancing. However, take a tree with 1023 nodes
 *          in it, that's 10 levels, meaning that most searches has to go
 *          down 9 levels before they find what they want. This isn't fast
 *          compared to a TLB hit. There is the factor of cache misses,
 *          and of course the problem with trees and branch prediction.
 *          This is why we use TLBs in front of most of the trees.
 *
 * @todo    Generalize this TLB + AVL stuff, shouldn't be all that
 *          difficult when we switch to the new inlined AVL trees (from kStuff).
 */
typedef struct PGMCHUNKR3MAPTLB
{
    /** The TLB entries. */
    PGMCHUNKR3MAPTLBE   aEntries[PGM_CHUNKR3MAPTLB_ENTRIES];
} PGMCHUNKR3MAPTLB;

/**
 * Calculates the index of a guest page in the Ring-3 Chunk TLB.
 * @returns Chunk TLB index.
 * @param   idChunk         The Chunk ID.
 */
#define PGM_CHUNKR3MAPTLB_IDX(idChunk)     ( (idChunk) & (PGM_CHUNKR3MAPTLB_ENTRIES - 1) )


/**
 * Ring-3 guest page mapping TLB entry.
 * @remarks used in ring-0 as well at the moment.
 */
typedef struct PGMPAGER3MAPTLBE
{
    /** Address of the page. */
    RTGCPHYS volatile                   GCPhys;
    /** The guest page. */
#ifdef VBOX_WITH_2X_4GB_ADDR_SPACE
    R3PTRTYPE(PPGMPAGE) volatile        pPage;
#else
    R3R0PTRTYPE(PPGMPAGE) volatile      pPage;
#endif
    /** Pointer to the page mapping tracking structure, PGMCHUNKR3MAP. */
#ifdef VBOX_WITH_2X_4GB_ADDR_SPACE
    R3PTRTYPE(PPGMCHUNKR3MAP) volatile  pMap;
#else
    R3R0PTRTYPE(PPGMCHUNKR3MAP) volatile pMap;
#endif
    /** The address */
#ifdef VBOX_WITH_2X_4GB_ADDR_SPACE
    R3PTRTYPE(void *) volatile          pv;
#else
    R3R0PTRTYPE(void *) volatile        pv;
#endif
#if HC_ARCH_BITS == 32
    uint32_t                            u32Padding; /**< alignment padding. */
#endif
} PGMPAGER3MAPTLBE;
/** Pointer to an entry in the HC physical TLB. */
typedef PGMPAGER3MAPTLBE *PPGMPAGER3MAPTLBE;


/** The number of entries in the ring-3 guest page mapping TLB.
 * @remarks The value must be a power of two. */
#define PGM_PAGER3MAPTLB_ENTRIES 256

/**
 * Ring-3 guest page mapping TLB.
 * @remarks used in ring-0 as well at the moment.
 */
typedef struct PGMPAGER3MAPTLB
{
    /** The TLB entries. */
    PGMPAGER3MAPTLBE            aEntries[PGM_PAGER3MAPTLB_ENTRIES];
} PGMPAGER3MAPTLB;
/** Pointer to the ring-3 guest page mapping TLB. */
typedef PGMPAGER3MAPTLB *PPGMPAGER3MAPTLB;

/**
 * Calculates the index of the TLB entry for the specified guest page.
 * @returns Physical TLB index.
 * @param   GCPhys      The guest physical address.
 */
#define PGM_PAGER3MAPTLB_IDX(GCPhys)    ( ((GCPhys) >> PAGE_SHIFT) & (PGM_PAGER3MAPTLB_ENTRIES - 1) )


/**
 * Raw-mode context dynamic mapping cache entry.
 *
 * Because of raw-mode context being reloctable and all relocations are applied
 * in ring-3, this has to be defined here and be RC specific.
 *
 * @sa PGMRZDYNMAPENTRY, PGMR0DYNMAPENTRY.
 */
typedef struct PGMRCDYNMAPENTRY
{
    /** The physical address of the currently mapped page.
     * This is duplicate for three reasons: cache locality, cache policy of the PT
     * mappings and sanity checks.   */
    RTHCPHYS                    HCPhys;
    /** Pointer to the page. */
    RTRCPTR                     pvPage;
    /** The number of references. */
    int32_t volatile            cRefs;
    /** PTE pointer union. */
    struct PGMRCDYNMAPENTRY_PPTE
    {
        /** PTE pointer, 32-bit legacy version. */
        RCPTRTYPE(PX86PTE)      pLegacy;
        /** PTE pointer, PAE version. */
        RCPTRTYPE(PX86PTEPAE)   pPae;
    } uPte;
} PGMRCDYNMAPENTRY;
/** Pointer to a dynamic mapping cache entry for the raw-mode context. */
typedef PGMRCDYNMAPENTRY *PPGMRCDYNMAPENTRY;


/**
 * Dynamic mapping cache for the raw-mode context.
 *
 * This is initialized during VMMRC init based upon the pbDynPageMapBaseGC and
 * paDynPageMap* PGM members.  However, it has to be defined in PGMInternal.h
 * so that we can perform relocations from PGMR3Relocate.  This has the
 * consequence that we must have separate ring-0 and raw-mode context versions
 * of this struct even if they share the basic elements.
 *
 * @sa PPGMRZDYNMAP, PGMR0DYNMAP.
 */
typedef struct PGMRCDYNMAP
{
    /** The usual magic number / eye catcher (PGMRZDYNMAP_MAGIC). */
    uint32_t                        u32Magic;
    /** Array for tracking and managing the pages.  */
    RCPTRTYPE(PPGMRCDYNMAPENTRY)    paPages;
    /** The cache size given as a number of pages. */
    uint32_t                        cPages;
    /** The current load.
     * This does not include guard pages. */
    uint32_t                        cLoad;
    /** The max load ever.
     * This is maintained to get trigger adding of more mapping space. */
    uint32_t                        cMaxLoad;
    /** The number of guard pages. */
    uint32_t                        cGuardPages;
    /** The number of users (protected by hInitLock). */
    uint32_t                        cUsers;
} PGMRCDYNMAP;
/** Pointer to the dynamic cache for the raw-mode context. */
typedef PGMRCDYNMAP *PPGMRCDYNMAP;


/**
 * Mapping cache usage set entry.
 *
 * @remarks 16-bit ints was chosen as the set is not expected to be used beyond
 *          the dynamic ring-0 and (to some extent) raw-mode context mapping
 *          cache.  If it's extended to include ring-3, well, then something
 *          will have be changed here...
 */
typedef struct PGMMAPSETENTRY
{
    /** Pointer to the page. */
#ifndef IN_RC
    RTR0PTR                     pvPage;
#else
    RTRCPTR                     pvPage;
# if HC_ARCH_BITS == 64
    uint32_t                    u32Alignment2;
# endif
#endif
    /** The mapping cache index. */
    uint16_t                    iPage;
    /** The number of references.
     * The max is UINT16_MAX - 1. */
    uint16_t                    cRefs;
    /** The number inlined references.
     * The max is UINT16_MAX - 1. */
    uint16_t                    cInlinedRefs;
    /** Unreferences.  */
    uint16_t                    cUnrefs;

#if HC_ARCH_BITS == 32
    uint32_t                    u32Alignment1;
#endif
    /** The physical address for this entry. */
    RTHCPHYS                    HCPhys;
} PGMMAPSETENTRY;
AssertCompileMemberOffset(PGMMAPSETENTRY, iPage, RT_MAX(sizeof(RTR0PTR), sizeof(RTRCPTR)));
AssertCompileMemberAlignment(PGMMAPSETENTRY, HCPhys, sizeof(RTHCPHYS));
/** Pointer to a mapping cache usage set entry. */
typedef PGMMAPSETENTRY *PPGMMAPSETENTRY;

/**
 * Mapping cache usage set.
 *
 * This is used in ring-0 and the raw-mode context to track dynamic mappings
 * done during exits / traps.  The set is
 */
typedef struct PGMMAPSET
{
    /** The number of occupied entries.
     * This is PGMMAPSET_CLOSED if the set is closed and we're not supposed to do
     * dynamic mappings. */
    uint32_t                    cEntries;
    /** The start of the current subset.
     * This is UINT32_MAX if no subset is currently open. */
    uint32_t                    iSubset;
    /** The index of the current CPU, only valid if the set is open. */
    int32_t                     iCpu;
    uint32_t                    alignment;
    /** The entries. */
    PGMMAPSETENTRY              aEntries[64];
    /** HCPhys -> iEntry fast lookup table.
     * Use PGMMAPSET_HASH for hashing.
     * The entries may or may not be valid, check against cEntries. */
    uint8_t                     aiHashTable[128];
} PGMMAPSET;
AssertCompileSizeAlignment(PGMMAPSET, 8);
/** Pointer to the mapping cache set. */
typedef PGMMAPSET *PPGMMAPSET;

/** PGMMAPSET::cEntries value for a closed set. */
#define PGMMAPSET_CLOSED            UINT32_C(0xdeadc0fe)

/** Hash function for aiHashTable. */
#define PGMMAPSET_HASH(HCPhys)      (((HCPhys) >> PAGE_SHIFT) & 127)


/** @name Context neutral page mapper TLB.
 *
 * Hoping to avoid some code and bug duplication parts of the GCxxx->CCPtr
 * code is writting in a kind of context neutral way. Time will show whether
 * this actually makes sense or not...
 *
 * @todo this needs to be reconsidered and dropped/redone since the ring-0
 *       context ends up using a global mapping cache on some platforms
 *       (darwin).
 *
 * @{ */
/** @typedef PPGMPAGEMAPTLB
 * The page mapper TLB pointer type for the current context. */
/** @typedef PPGMPAGEMAPTLB
 * The page mapper TLB entry pointer type for the current context. */
/** @typedef PPGMPAGEMAPTLB
 * The page mapper TLB entry pointer pointer type for the current context. */
/** @def PGM_PAGEMAPTLB_ENTRIES
 * The number of TLB entries in the page mapper TLB for the current context. */
/** @def PGM_PAGEMAPTLB_IDX
 * Calculate the TLB index for a guest physical address.
 * @returns The TLB index.
 * @param   GCPhys      The guest physical address. */
/** @typedef PPGMPAGEMAP
 * Pointer to a page mapper unit for current context. */
/** @typedef PPPGMPAGEMAP
 * Pointer to a page mapper unit pointer for current context. */
#ifdef IN_RC
// typedef PPGMPAGEGCMAPTLB               PPGMPAGEMAPTLB;
// typedef PPGMPAGEGCMAPTLBE              PPGMPAGEMAPTLBE;
// typedef PPGMPAGEGCMAPTLBE             *PPPGMPAGEMAPTLBE;
# define PGM_PAGEMAPTLB_ENTRIES         PGM_PAGEGCMAPTLB_ENTRIES
# define PGM_PAGEMAPTLB_IDX(GCPhys)     PGM_PAGEGCMAPTLB_IDX(GCPhys)
 typedef void *                         PPGMPAGEMAP;
 typedef void **                        PPPGMPAGEMAP;
//#elif IN_RING0
// typedef PPGMPAGER0MAPTLB               PPGMPAGEMAPTLB;
// typedef PPGMPAGER0MAPTLBE              PPGMPAGEMAPTLBE;
// typedef PPGMPAGER0MAPTLBE             *PPPGMPAGEMAPTLBE;
//# define PGM_PAGEMAPTLB_ENTRIES         PGM_PAGER0MAPTLB_ENTRIES
//# define PGM_PAGEMAPTLB_IDX(GCPhys)     PGM_PAGER0MAPTLB_IDX(GCPhys)
// typedef PPGMCHUNKR0MAP                 PPGMPAGEMAP;
// typedef PPPGMCHUNKR0MAP                PPPGMPAGEMAP;
#else
 typedef PPGMPAGER3MAPTLB               PPGMPAGEMAPTLB;
 typedef PPGMPAGER3MAPTLBE              PPGMPAGEMAPTLBE;
 typedef PPGMPAGER3MAPTLBE             *PPPGMPAGEMAPTLBE;
# define PGM_PAGEMAPTLB_ENTRIES         PGM_PAGER3MAPTLB_ENTRIES
# define PGM_PAGEMAPTLB_IDX(GCPhys)     PGM_PAGER3MAPTLB_IDX(GCPhys)
 typedef PPGMCHUNKR3MAP                 PPGMPAGEMAP;
 typedef PPPGMCHUNKR3MAP                PPPGMPAGEMAP;
#endif
/** @} */


/** @name PGM Pool Indexes.
 * Aka. the unique shadow page identifier.
 * @{ */
/** NIL page pool IDX. */
#define NIL_PGMPOOL_IDX                 0
/** The first normal index. */
#define PGMPOOL_IDX_FIRST_SPECIAL       1
/** Page directory (32-bit root). */
#define PGMPOOL_IDX_PD                  1
/** Page Directory Pointer Table (PAE root). */
#define PGMPOOL_IDX_PDPT                2
/** AMD64 CR3 level index.*/
#define PGMPOOL_IDX_AMD64_CR3           3
/** Nested paging root.*/
#define PGMPOOL_IDX_NESTED_ROOT         4
/** The first normal index. */
#define PGMPOOL_IDX_FIRST               5
/** The last valid index. (inclusive, 14 bits) */
#define PGMPOOL_IDX_LAST                0x3fff
/** @} */

/** The NIL index for the parent chain. */
#define NIL_PGMPOOL_USER_INDEX          ((uint16_t)0xffff)
#define NIL_PGMPOOL_PRESENT_INDEX       ((uint16_t)0xffff)

/**
 * Node in the chain linking a shadowed page to it's parent (user).
 */
#pragma pack(1)
typedef struct PGMPOOLUSER
{
    /** The index to the next item in the chain. NIL_PGMPOOL_USER_INDEX is no next. */
    uint16_t            iNext;
    /** The user page index. */
    uint16_t            iUser;
    /** Index into the user table. */
    uint32_t            iUserTable;
} PGMPOOLUSER, *PPGMPOOLUSER;
typedef const PGMPOOLUSER *PCPGMPOOLUSER;
#pragma pack()


/** The NIL index for the phys ext chain. */
#define NIL_PGMPOOL_PHYSEXT_INDEX       ((uint16_t)0xffff)
/** The NIL pte index for a phys ext chain slot. */
#define NIL_PGMPOOL_PHYSEXT_IDX_PTE     ((uint16_t)0xffff)

/**
 * Node in the chain of physical cross reference extents.
 * @todo Calling this an 'extent' is not quite right, find a better name.
 * @todo find out the optimal size of the aidx array
 */
#pragma pack(1)
typedef struct PGMPOOLPHYSEXT
{
    /** The index to the next item in the chain. NIL_PGMPOOL_PHYSEXT_INDEX is no next. */
    uint16_t            iNext;
    /** Alignment. */
    uint16_t            u16Align;
    /** The user page index. */
    uint16_t            aidx[3];
    /** The page table index or NIL_PGMPOOL_PHYSEXT_IDX_PTE if unknown. */
    uint16_t            apte[3];
} PGMPOOLPHYSEXT, *PPGMPOOLPHYSEXT;
typedef const PGMPOOLPHYSEXT *PCPGMPOOLPHYSEXT;
#pragma pack()


/**
 * The kind of page that's being shadowed.
 */
typedef enum PGMPOOLKIND
{
    /** The virtual invalid 0 entry. */
    PGMPOOLKIND_INVALID = 0,
    /** The entry is free (=unused). */
    PGMPOOLKIND_FREE,

    /** Shw: 32-bit page table;     Gst: no paging  */
    PGMPOOLKIND_32BIT_PT_FOR_PHYS,
    /** Shw: 32-bit page table;     Gst: 32-bit page table.  */
    PGMPOOLKIND_32BIT_PT_FOR_32BIT_PT,
    /** Shw: 32-bit page table;     Gst: 4MB page.  */
    PGMPOOLKIND_32BIT_PT_FOR_32BIT_4MB,
    /** Shw: PAE page table;        Gst: no paging  */
    PGMPOOLKIND_PAE_PT_FOR_PHYS,
    /** Shw: PAE page table;        Gst: 32-bit page table. */
    PGMPOOLKIND_PAE_PT_FOR_32BIT_PT,
    /** Shw: PAE page table;        Gst: Half of a 4MB page.  */
    PGMPOOLKIND_PAE_PT_FOR_32BIT_4MB,
    /** Shw: PAE page table;        Gst: PAE page table. */
    PGMPOOLKIND_PAE_PT_FOR_PAE_PT,
    /** Shw: PAE page table;        Gst: 2MB page.  */
    PGMPOOLKIND_PAE_PT_FOR_PAE_2MB,

    /** Shw: 32-bit page directory. Gst: 32-bit page directory. */
    PGMPOOLKIND_32BIT_PD,
    /** Shw: 32-bit page directory. Gst: no paging. */
    PGMPOOLKIND_32BIT_PD_PHYS,
    /** Shw: PAE page directory 0;  Gst: 32-bit page directory. */
    PGMPOOLKIND_PAE_PD0_FOR_32BIT_PD,
    /** Shw: PAE page directory 1;  Gst: 32-bit page directory. */
    PGMPOOLKIND_PAE_PD1_FOR_32BIT_PD,
    /** Shw: PAE page directory 2;  Gst: 32-bit page directory. */
    PGMPOOLKIND_PAE_PD2_FOR_32BIT_PD,
    /** Shw: PAE page directory 3;  Gst: 32-bit page directory. */
    PGMPOOLKIND_PAE_PD3_FOR_32BIT_PD,
    /** Shw: PAE page directory;    Gst: PAE page directory. */
    PGMPOOLKIND_PAE_PD_FOR_PAE_PD,
    /** Shw: PAE page directory;    Gst: no paging.             Note: +NP. */
    PGMPOOLKIND_PAE_PD_PHYS,

    /** Shw: PAE page directory pointer table (legacy, 4 entries);  Gst 32 bits paging. */
    PGMPOOLKIND_PAE_PDPT_FOR_32BIT,
    /** Shw: PAE page directory pointer table (legacy, 4 entries);  Gst PAE PDPT. */
    PGMPOOLKIND_PAE_PDPT,
    /** Shw: PAE page directory pointer table (legacy, 4 entries);  Gst: no paging. */
    PGMPOOLKIND_PAE_PDPT_PHYS,

    /** Shw: 64-bit page directory pointer table;   Gst: 64-bit page directory pointer table. */
    PGMPOOLKIND_64BIT_PDPT_FOR_64BIT_PDPT,
    /** Shw: 64-bit page directory pointer table;   Gst: no paging  */
    PGMPOOLKIND_64BIT_PDPT_FOR_PHYS,
    /** Shw: 64-bit page directory table;           Gst: 64-bit page directory table. */
    PGMPOOLKIND_64BIT_PD_FOR_64BIT_PD,
    /** Shw: 64-bit page directory table;           Gst: no paging  */
    PGMPOOLKIND_64BIT_PD_FOR_PHYS, /* 22 */

    /** Shw: 64-bit PML4;                           Gst: 64-bit PML4. */
    PGMPOOLKIND_64BIT_PML4,

    /** Shw: EPT page directory pointer table;      Gst: no paging  */
    PGMPOOLKIND_EPT_PDPT_FOR_PHYS,
    /** Shw: EPT page directory table;              Gst: no paging  */
    PGMPOOLKIND_EPT_PD_FOR_PHYS,
    /** Shw: EPT page table;                        Gst: no paging  */
    PGMPOOLKIND_EPT_PT_FOR_PHYS,

    /** Shw: Root Nested paging table. */
    PGMPOOLKIND_ROOT_NESTED,

    /** The last valid entry. */
    PGMPOOLKIND_LAST = PGMPOOLKIND_ROOT_NESTED
} PGMPOOLKIND;

/**
 * The access attributes of the page; only applies to big pages.
 */
typedef enum
{
    PGMPOOLACCESS_DONTCARE = 0,
    PGMPOOLACCESS_USER_RW,
    PGMPOOLACCESS_USER_R,
    PGMPOOLACCESS_USER_RW_NX,
    PGMPOOLACCESS_USER_R_NX,
    PGMPOOLACCESS_SUPERVISOR_RW,
    PGMPOOLACCESS_SUPERVISOR_R,
    PGMPOOLACCESS_SUPERVISOR_RW_NX,
    PGMPOOLACCESS_SUPERVISOR_R_NX
} PGMPOOLACCESS;

/**
 * The tracking data for a page in the pool.
 */
typedef struct PGMPOOLPAGE
{
    /** AVL node code with the (R3) physical address of this page. */
    AVLOHCPHYSNODECORE  Core;
    /** Pointer to the R3 mapping of the page. */
#ifdef VBOX_WITH_2X_4GB_ADDR_SPACE
    R3PTRTYPE(void *)   pvPageR3;
#else
    R3R0PTRTYPE(void *) pvPageR3;
#endif
    /** The guest physical address. */
#if HC_ARCH_BITS == 32 && GC_ARCH_BITS == 64
    uint32_t            Alignment0;
#endif
    RTGCPHYS            GCPhys;

    /** Access handler statistics to determine whether the guest is (re)initializing a page table. */
    RTGCPTR             pvLastAccessHandlerRip;
    RTGCPTR             pvLastAccessHandlerFault;
    uint64_t            cLastAccessHandlerCount;

    /** The kind of page we're shadowing. (This is really a PGMPOOLKIND enum.) */
    uint8_t             enmKind;
    /** The subkind of page we're shadowing. (This is really a PGMPOOLACCESS enum.) */
    uint8_t             enmAccess;
    /** The index of this page. */
    uint16_t            idx;
    /** The next entry in the list this page currently resides in.
     * It's either in the free list or in the GCPhys hash. */
    uint16_t            iNext;
    /** Head of the user chain. NIL_PGMPOOL_USER_INDEX if not currently in use. */
    uint16_t            iUserHead;
    /** The number of present entries. */
    uint16_t            cPresent;
    /** The first entry in the table which is present. */
    uint16_t            iFirstPresent;
    /** The number of modifications to the monitored page. */
    uint16_t            cModifications;
    /** The next modified page. NIL_PGMPOOL_IDX if tail. */
    uint16_t            iModifiedNext;
    /** The previous modified page. NIL_PGMPOOL_IDX if head. */
    uint16_t            iModifiedPrev;
    /** The next page sharing access handler. NIL_PGMPOOL_IDX if tail. */
    uint16_t            iMonitoredNext;
    /** The previous page sharing access handler. NIL_PGMPOOL_IDX if head. */
    uint16_t            iMonitoredPrev;
    /** The next page in the age list. */
    uint16_t            iAgeNext;
    /** The previous page in the age list. */
    uint16_t            iAgePrev;
    /** Used to indicate that the page is zeroed. */
    bool                fZeroed;
    /** Used to indicate that a PT has non-global entries. */
    bool                fSeenNonGlobal;
    /** Used to indicate that we're monitoring writes to the guest page. */
    bool                fMonitored;
    /** Used to indicate that the page is in the cache (e.g. in the GCPhys hash).
     * (All pages are in the age list.) */
    bool                fCached;
    /** This is used by the R3 access handlers when invoked by an async thread.
     * It's a hack required because of REMR3NotifyHandlerPhysicalDeregister. */
    bool volatile       fReusedFlushPending;
    /** Used to mark the page as dirty (write monitoring is temporarily
     *  off). */
    bool                fDirty;

    /** Used to indicate that this page can't be flushed. Important for cr3 root pages or shadow pae pd pages). */
    uint32_t            cLocked;
    uint32_t            idxDirty;
    RTGCPTR             pvDirtyFault;
} PGMPOOLPAGE, *PPGMPOOLPAGE, **PPPGMPOOLPAGE;
/** Pointer to a const pool page. */
typedef PGMPOOLPAGE const *PCPGMPOOLPAGE;


/** The hash table size. */
# define PGMPOOL_HASH_SIZE      0x40
/** The hash function. */
# define PGMPOOL_HASH(GCPhys)   ( ((GCPhys) >> PAGE_SHIFT) & (PGMPOOL_HASH_SIZE - 1) )


/**
 * The shadow page pool instance data.
 *
 * It's all one big allocation made at init time, except for the
 * pages that is. The user nodes follows immediately after the
 * page structures.
 */
typedef struct PGMPOOL
{
    /** The VM handle - R3 Ptr. */
    PVMR3                       pVMR3;
    /** The VM handle - R0 Ptr. */
    PVMR0                       pVMR0;
    /** The VM handle - RC Ptr. */
    PVMRC                       pVMRC;
    /** The max pool size. This includes the special IDs.  */
    uint16_t                    cMaxPages;
    /** The current pool size. */
    uint16_t                    cCurPages;
    /** The head of the free page list. */
    uint16_t                    iFreeHead;
    /* Padding. */
    uint16_t                    u16Padding;
    /** Head of the chain of free user nodes. */
    uint16_t                    iUserFreeHead;
    /** The number of user nodes we've allocated. */
    uint16_t                    cMaxUsers;
    /** The number of present page table entries in the entire pool. */
    uint32_t                    cPresent;
    /** Pointer to the array of user nodes - RC pointer. */
    RCPTRTYPE(PPGMPOOLUSER)     paUsersRC;
    /** Pointer to the array of user nodes - R3 pointer. */
    R3PTRTYPE(PPGMPOOLUSER)     paUsersR3;
    /** Pointer to the array of user nodes - R0 pointer. */
    R0PTRTYPE(PPGMPOOLUSER)     paUsersR0;
    /** Head of the chain of free phys ext nodes. */
    uint16_t                    iPhysExtFreeHead;
    /** The number of user nodes we've allocated. */
    uint16_t                    cMaxPhysExts;
    /** Pointer to the array of physical xref extent - RC pointer. */
    RCPTRTYPE(PPGMPOOLPHYSEXT)  paPhysExtsRC;
    /** Pointer to the array of physical xref extent nodes - R3 pointer. */
    R3PTRTYPE(PPGMPOOLPHYSEXT)  paPhysExtsR3;
    /** Pointer to the array of physical xref extent nodes - R0 pointer. */
    R0PTRTYPE(PPGMPOOLPHYSEXT)  paPhysExtsR0;
    /** Hash table for GCPhys addresses. */
    uint16_t                    aiHash[PGMPOOL_HASH_SIZE];
    /** The head of the age list. */
    uint16_t                    iAgeHead;
    /** The tail of the age list. */
    uint16_t                    iAgeTail;
    /** Set if the cache is enabled. */
    bool                        fCacheEnabled;
    /** Alignment padding. */
    bool                        afPadding1[3];
    /** Head of the list of modified pages. */
    uint16_t                    iModifiedHead;
    /** The current number of modified pages. */
    uint16_t                    cModifiedPages;
    /** Access handler, RC. */
    RCPTRTYPE(PFNPGMRCPHYSHANDLER)  pfnAccessHandlerRC;
    /** Access handler, R0. */
    R0PTRTYPE(PFNPGMR0PHYSHANDLER)  pfnAccessHandlerR0;
    /** Access handler, R3. */
    R3PTRTYPE(PFNPGMR3PHYSHANDLER)  pfnAccessHandlerR3;
    /** The access handler description (R3 ptr). */
    R3PTRTYPE(const char *)         pszAccessHandler;
# if HC_ARCH_BITS == 32
    /** Alignment padding. */
    uint32_t                    u32Padding2;
# endif
    /* Next available slot. */
    uint32_t                    idxFreeDirtyPage;
    /* Number of active dirty pages. */
    uint32_t                    cDirtyPages;
    /* Array of current dirty pgm pool page indices. */
    struct
    {
        uint16_t                    uIdx;
        uint16_t                    Alignment[3];
        uint64_t                    aPage[512];
    } aDirtyPages[16];
    /** The number of pages currently in use. */
    uint16_t                    cUsedPages;
#ifdef VBOX_WITH_STATISTICS
    /** The high water mark for cUsedPages. */
    uint16_t                    cUsedPagesHigh;
    uint32_t                    Alignment1;         /**< Align the next member on a 64-bit boundary. */
    /** Profiling pgmPoolAlloc(). */
    STAMPROFILEADV              StatAlloc;
    /** Profiling pgmR3PoolClearDoIt(). */
    STAMPROFILE                 StatClearAll;
    /** Profiling pgmR3PoolReset(). */
    STAMPROFILE                 StatR3Reset;
    /** Profiling pgmPoolFlushPage(). */
    STAMPROFILE                 StatFlushPage;
    /** Profiling pgmPoolFree(). */
    STAMPROFILE                 StatFree;
    /** Counting explicit flushes by PGMPoolFlushPage(). */
    STAMCOUNTER                 StatForceFlushPage;
    /** Counting explicit flushes of dirty pages by PGMPoolFlushPage(). */
    STAMCOUNTER                 StatForceFlushDirtyPage;
    /** Counting flushes for reused pages. */
    STAMCOUNTER                 StatForceFlushReused;
    /** Profiling time spent zeroing pages. */
    STAMPROFILE                 StatZeroPage;
    /** Profiling of pgmPoolTrackDeref. */
    STAMPROFILE                 StatTrackDeref;
    /** Profiling pgmTrackFlushGCPhysPT. */
    STAMPROFILE                 StatTrackFlushGCPhysPT;
    /** Profiling pgmTrackFlushGCPhysPTs. */
    STAMPROFILE                 StatTrackFlushGCPhysPTs;
    /** Profiling pgmTrackFlushGCPhysPTsSlow. */
    STAMPROFILE                 StatTrackFlushGCPhysPTsSlow;
    /** Number of times we've been out of user records. */
    STAMCOUNTER                 StatTrackFreeUpOneUser;
    /** Nr of flushed entries. */
    STAMCOUNTER                 StatTrackFlushEntry;
    /** Nr of updated entries. */
    STAMCOUNTER                 StatTrackFlushEntryKeep;
    /** Profiling deref activity related tracking GC physical pages. */
    STAMPROFILE                 StatTrackDerefGCPhys;
    /** Number of linear searches for a HCPhys in the ram ranges. */
    STAMCOUNTER                 StatTrackLinearRamSearches;
    /** The number of failing pgmPoolTrackPhysExtAlloc calls. */
    STAMCOUNTER                 StamTrackPhysExtAllocFailures;
    /** Profiling the RC/R0 access handler. */
    STAMPROFILE                 StatMonitorRZ;
    /** Times we've failed interpreting the instruction. */
    STAMCOUNTER                 StatMonitorRZEmulateInstr;
    /** Profiling the pgmPoolFlushPage calls made from the RC/R0 access handler. */
    STAMPROFILE                 StatMonitorRZFlushPage;
    /* Times we've detected a page table reinit. */
    STAMCOUNTER                 StatMonitorRZFlushReinit;
    /** Counting flushes for pages that are modified too often. */
    STAMCOUNTER                 StatMonitorRZFlushModOverflow;
    /** Times we've detected fork(). */
    STAMCOUNTER                 StatMonitorRZFork;
    /** Profiling the RC/R0 access we've handled (except REP STOSD). */
    STAMPROFILE                 StatMonitorRZHandled;
    /** Times we've failed interpreting a patch code instruction. */
    STAMCOUNTER                 StatMonitorRZIntrFailPatch1;
    /** Times we've failed interpreting a patch code instruction during flushing. */
    STAMCOUNTER                 StatMonitorRZIntrFailPatch2;
    /** The number of times we've seen rep prefixes we can't handle. */
    STAMCOUNTER                 StatMonitorRZRepPrefix;
    /** Profiling the REP STOSD cases we've handled. */
    STAMPROFILE                 StatMonitorRZRepStosd;
    /** Nr of handled PT faults. */
    STAMCOUNTER                 StatMonitorRZFaultPT;
    /** Nr of handled PD faults. */
    STAMCOUNTER                 StatMonitorRZFaultPD;
    /** Nr of handled PDPT faults. */
    STAMCOUNTER                 StatMonitorRZFaultPDPT;
    /** Nr of handled PML4 faults. */
    STAMCOUNTER                 StatMonitorRZFaultPML4;

    /** Profiling the R3 access handler. */
    STAMPROFILE                 StatMonitorR3;
    /** Times we've failed interpreting the instruction. */
    STAMCOUNTER                 StatMonitorR3EmulateInstr;
    /** Profiling the pgmPoolFlushPage calls made from the R3 access handler. */
    STAMPROFILE                 StatMonitorR3FlushPage;
    /* Times we've detected a page table reinit. */
    STAMCOUNTER                 StatMonitorR3FlushReinit;
    /** Counting flushes for pages that are modified too often. */
    STAMCOUNTER                 StatMonitorR3FlushModOverflow;
    /** Times we've detected fork(). */
    STAMCOUNTER                 StatMonitorR3Fork;
    /** Profiling the R3 access we've handled (except REP STOSD). */
    STAMPROFILE                 StatMonitorR3Handled;
    /** The number of times we've seen rep prefixes we can't handle. */
    STAMCOUNTER                 StatMonitorR3RepPrefix;
    /** Profiling the REP STOSD cases we've handled. */
    STAMPROFILE                 StatMonitorR3RepStosd;
    /** Nr of handled PT faults. */
    STAMCOUNTER                 StatMonitorR3FaultPT;
    /** Nr of handled PD faults. */
    STAMCOUNTER                 StatMonitorR3FaultPD;
    /** Nr of handled PDPT faults. */
    STAMCOUNTER                 StatMonitorR3FaultPDPT;
    /** Nr of handled PML4 faults. */
    STAMCOUNTER                 StatMonitorR3FaultPML4;
    /** The number of times we're called in an async thread an need to flush. */
    STAMCOUNTER                 StatMonitorR3Async;
    /** Times we've called pgmPoolResetDirtyPages (and there were dirty page). */
    STAMCOUNTER                 StatResetDirtyPages;
    /** Times we've called pgmPoolAddDirtyPage. */
    STAMCOUNTER                 StatDirtyPage;
    /** Times we've had to flush duplicates for dirty page management. */
    STAMCOUNTER                 StatDirtyPageDupFlush;
    /** Times we've had to flush because of overflow. */
    STAMCOUNTER                 StatDirtyPageOverFlowFlush;

    /** The high water mark for cModifiedPages. */
    uint16_t                    cModifiedPagesHigh;
    uint16_t                    Alignment2[3];      /**< Align the next member on a 64-bit boundary. */

    /** The number of cache hits. */
    STAMCOUNTER                 StatCacheHits;
    /** The number of cache misses. */
    STAMCOUNTER                 StatCacheMisses;
    /** The number of times we've got a conflict of 'kind' in the cache. */
    STAMCOUNTER                 StatCacheKindMismatches;
    /** Number of times we've been out of pages. */
    STAMCOUNTER                 StatCacheFreeUpOne;
    /** The number of cacheable allocations. */
    STAMCOUNTER                 StatCacheCacheable;
    /** The number of uncacheable allocations. */
    STAMCOUNTER                 StatCacheUncacheable;
#else
    uint32_t                    Alignment3;         /**< Align the next member on a 64-bit boundary. */
#endif
    /** The AVL tree for looking up a page by its HC physical address. */
    AVLOHCPHYSTREE              HCPhysTree;
    uint32_t                    Alignment4;         /**< Align the next member on a 64-bit boundary. */
    /** Array of pages. (cMaxPages in length)
     * The Id is the index into thist array.
     */
    PGMPOOLPAGE                 aPages[PGMPOOL_IDX_FIRST];
} PGMPOOL, *PPGMPOOL, **PPPGMPOOL;
AssertCompileMemberAlignment(PGMPOOL, iModifiedHead, 8);
AssertCompileMemberAlignment(PGMPOOL, aDirtyPages, 8);
AssertCompileMemberAlignment(PGMPOOL, cUsedPages, 8);
#ifdef VBOX_WITH_STATISTICS
AssertCompileMemberAlignment(PGMPOOL, StatAlloc, 8);
#endif
AssertCompileMemberAlignment(PGMPOOL, aPages, 8);


/** @def PGMPOOL_PAGE_2_PTR
 * Maps a pool page pool into the current context.
 *
 * @returns VBox status code.
 * @param   a_pVM       The VM handle.
 * @param   a_pPage     The pool page.
 *
 * @remark  In RC this uses PGMGCDynMapHCPage(), so it will consume of the
 *          small page window employeed by that function. Be careful.
 * @remark  There is no need to assert on the result.
 */
#if defined(IN_RC) || defined(VBOX_WITH_2X_4GB_ADDR_SPACE_IN_R0)
# define PGMPOOL_PAGE_2_PTR(a_pVM, a_pPage)     pgmPoolMapPageInlined((a_pVM), (a_pPage) RTLOG_COMMA_SRC_POS)
#elif defined(VBOX_STRICT)
# define PGMPOOL_PAGE_2_PTR(a_pVM, a_pPage)     pgmPoolMapPageStrict(a_pPage)
DECLINLINE(void *) pgmPoolMapPageStrict(PPGMPOOLPAGE a_pPage)
{
    Assert(a_pPage && a_pPage->pvPageR3);
    return a_pPage->pvPageR3;
}
#else
# define PGMPOOL_PAGE_2_PTR(pVM, a_pPage)       ((a_pPage)->pvPageR3)
#endif


/** @def PGMPOOL_PAGE_2_PTR_V2
 * Maps a pool page pool into the current context, taking both VM and VMCPU.
 *
 * @returns VBox status code.
 * @param   a_pVM       The VM handle.
 * @param   a_pVCpu     The current CPU.
 * @param   a_pPage     The pool page.
 *
 * @remark  In RC this uses PGMGCDynMapHCPage(), so it will consume of the
 *          small page window employeed by that function. Be careful.
 * @remark  There is no need to assert on the result.
 */
#if defined(IN_RC) || defined(VBOX_WITH_2X_4GB_ADDR_SPACE_IN_R0)
# define PGMPOOL_PAGE_2_PTR_V2(a_pVM, a_pVCpu, a_pPage)     pgmPoolMapPageV2Inlined((a_pVM), (a_pVCpu), (a_pPage) RTLOG_COMMA_SRC_POS)
#else
# define PGMPOOL_PAGE_2_PTR_V2(a_pVM, a_pVCpu, a_pPage)     PGMPOOL_PAGE_2_PTR((a_pVM), (a_pPage))
#endif


/** @name Per guest page tracking data.
 * This is currently as a 16-bit word in the PGMPAGE structure, the idea though
 * is to use more bits for it and split it up later on. But for now we'll play
 * safe and change as little as possible.
 *
 * The 16-bit word has two parts:
 *
 * The first 14-bit forms the @a idx field. It is either the index of a page in
 * the shadow page pool, or and index into the extent list.
 *
 * The 2 topmost bits makes up the @a cRefs field, which counts the number of
 * shadow page pool references to the page. If cRefs equals
 * PGMPOOL_CREFS_PHYSEXT, then the @a idx field is an indext into the extent
 * (misnomer) table and not the shadow page pool.
 *
 * See PGM_PAGE_GET_TRACKING and PGM_PAGE_SET_TRACKING for how to get and set
 * the 16-bit word.
 *
 * @{ */
/** The shift count for getting to the cRefs part. */
#define PGMPOOL_TD_CREFS_SHIFT          14
/** The mask applied after shifting the tracking data down by
 * PGMPOOL_TD_CREFS_SHIFT. */
#define PGMPOOL_TD_CREFS_MASK           0x3
/** The cRefs value used to indicate that the idx is the head of a
 * physical cross reference list. */
#define PGMPOOL_TD_CREFS_PHYSEXT        PGMPOOL_TD_CREFS_MASK
/** The shift used to get idx. */
#define PGMPOOL_TD_IDX_SHIFT            0
/** The mask applied to the idx after shifting down by PGMPOOL_TD_IDX_SHIFT. */
#define PGMPOOL_TD_IDX_MASK             0x3fff
/** The idx value when we're out of of PGMPOOLPHYSEXT entries or/and there are
 * simply too many mappings of this page. */
#define PGMPOOL_TD_IDX_OVERFLOWED       PGMPOOL_TD_IDX_MASK

/** @def PGMPOOL_TD_MAKE
 * Makes a 16-bit tracking data word.
 *
 * @returns tracking data.
 * @param   cRefs       The @a cRefs field. Must be within bounds!
 * @param   idx         The @a idx field. Must also be within bounds! */
#define PGMPOOL_TD_MAKE(cRefs, idx)     ( ((cRefs) << PGMPOOL_TD_CREFS_SHIFT) | (idx) )

/** @def PGMPOOL_TD_GET_CREFS
 * Get the @a cRefs field from a tracking data word.
 *
 * @returns The @a cRefs field
 * @param   u16         The tracking data word.
 * @remarks This will only return 1 or PGMPOOL_TD_CREFS_PHYSEXT for a
 *          non-zero @a u16. */
#define PGMPOOL_TD_GET_CREFS(u16)       ( ((u16) >> PGMPOOL_TD_CREFS_SHIFT) & PGMPOOL_TD_CREFS_MASK )

/** @def PGMPOOL_TD_GET_IDX
 * Get the @a idx field from a tracking data word.
 *
 * @returns The @a idx field
 * @param   u16         The tracking data word. */
#define PGMPOOL_TD_GET_IDX(u16)         ( ((u16) >> PGMPOOL_TD_IDX_SHIFT)   & PGMPOOL_TD_IDX_MASK   )
/** @} */


/**
 * Trees are using self relative offsets as pointers.
 * So, all its data, including the root pointer, must be in the heap for HC and GC
 * to have the same layout.
 */
typedef struct PGMTREES
{
    /** Physical access handlers (AVL range+offsetptr tree). */
    AVLROGCPHYSTREE                 PhysHandlers;
    /** Virtual access handlers (AVL range + GC ptr tree). */
    AVLROGCPTRTREE                  VirtHandlers;
    /** Virtual access handlers (Phys range AVL range + offsetptr tree). */
    AVLROGCPHYSTREE                 PhysToVirtHandlers;
    /** Virtual access handlers for the hypervisor (AVL range + GC ptr tree). */
    AVLROGCPTRTREE                  HyperVirtHandlers;
} PGMTREES;
/** Pointer to PGM trees. */
typedef PGMTREES *PPGMTREES;


/**
 * Page fault guest state for the AMD64 paging mode.
 */
typedef struct PGMPTWALKCORE
{
    /** The guest virtual address that is being resolved by the walk
     *  (input). */
    RTGCPTR         GCPtr;

    /** The guest physical address that is the result of the walk.
     * @remarks only valid if fSucceeded is set.  */
    RTGCPHYS        GCPhys;

    /** Set if the walk succeeded, i.d. GCPhys is valid. */
    bool            fSucceeded;
    /** The level problem arrised at.
     * PTE is level 1, PDE is level 2, PDPE is level 3, PML4 is level 4, CR3 is
     * level 8.  This is 0 on success. */
    uint8_t         uLevel;
    /** Set if the page isn't present. */
    bool            fNotPresent;
    /** Encountered a bad physical address. */
    bool            fBadPhysAddr;
    /** Set if there was reserved bit violations. */
    bool            fRsvdError;
    /** Set if it involves a big page (2/4 MB). */
    bool            fBigPage;
    /** Set if it involves a gigantic page (1 GB). */
    bool            fGigantPage;
    /** The effect X86_PTE_US flag for the address. */
    bool            fEffectiveUS;
    /** The effect X86_PTE_RW flag for the address. */
    bool            fEffectiveRW;
    /** The effect X86_PTE_NX flag for the address. */
    bool            fEffectiveNX;
} PGMPTWALKCORE;


/**
 * Guest page table walk for the AMD64 mode.
 */
typedef struct PGMPTWALKGSTAMD64
{
    /** The common core. */
    PGMPTWALKCORE   Core;

    PX86PML4        pPml4;
    PX86PML4E       pPml4e;
    X86PML4E        Pml4e;

    PX86PDPT        pPdpt;
    PX86PDPE        pPdpe;
    X86PDPE         Pdpe;

    PX86PDPAE       pPd;
    PX86PDEPAE      pPde;
    X86PDEPAE       Pde;

    PX86PTPAE       pPt;
    PX86PTEPAE      pPte;
    X86PTEPAE       Pte;
} PGMPTWALKGSTAMD64;
/** Pointer to a AMD64 guest page table walk. */
typedef PGMPTWALKGSTAMD64 *PPGMPTWALKGSTAMD64;
/** Pointer to a const AMD64 guest page table walk. */
typedef PGMPTWALKGSTAMD64 const *PCPGMPTWALKGSTAMD64;

/**
 * Guest page table walk for the PAE mode.
 */
typedef struct PGMPTWALKGSTPAE
{
    /** The common core. */
    PGMPTWALKCORE   Core;

    PX86PDPT        pPdpt;
    PX86PDPE        pPdpe;
    X86PDPE         Pdpe;

    PX86PDPAE       pPd;
    PX86PDEPAE      pPde;
    X86PDEPAE       Pde;

    PX86PTPAE       pPt;
    PX86PTEPAE      pPte;
    X86PTEPAE       Pte;
} PGMPTWALKGSTPAE;
/** Pointer to a PAE guest page table walk. */
typedef PGMPTWALKGSTPAE *PPGMPTWALKGSTPAE;
/** Pointer to a const AMD64 guest page table walk. */
typedef PGMPTWALKGSTPAE const *PCPGMPTWALKGSTPAE;

/**
 * Guest page table walk for the 32-bit mode.
 */
typedef struct PGMPTWALKGST32BIT
{
    /** The common core. */
    PGMPTWALKCORE   Core;

    PX86PD          pPd;
    PX86PDE         pPde;
    X86PDE          Pde;

    PX86PT          pPt;
    PX86PTE         pPte;
    X86PTE          Pte;
} PGMPTWALKGST32BIT;
/** Pointer to a 32-bit guest page table walk. */
typedef PGMPTWALKGST32BIT *PPGMPTWALKGST32BIT;
/** Pointer to a const 32-bit guest page table walk. */
typedef PGMPTWALKGST32BIT const *PCPGMPTWALKGST32BIT;


/** @name Paging mode macros
 * @{
 */
#ifdef IN_RC
# define PGM_CTX(a,b)                   a##RC##b
# define PGM_CTX_STR(a,b)               a "GC" b
# define PGM_CTX_DECL(type)             VMMRCDECL(type)
#else
# ifdef IN_RING3
#  define PGM_CTX(a,b)                   a##R3##b
#  define PGM_CTX_STR(a,b)               a "R3" b
#  define PGM_CTX_DECL(type)             DECLCALLBACK(type)
# else
#  define PGM_CTX(a,b)                   a##R0##b
#  define PGM_CTX_STR(a,b)               a "R0" b
#  define PGM_CTX_DECL(type)             VMMDECL(type)
# endif
#endif

#define PGM_GST_NAME_REAL(name)         PGM_CTX(pgm,GstReal##name)
#define PGM_GST_NAME_RC_REAL_STR(name)  "pgmRCGstReal" #name
#define PGM_GST_NAME_R0_REAL_STR(name)  "pgmR0GstReal" #name
#define PGM_GST_NAME_PROT(name)         PGM_CTX(pgm,GstProt##name)
#define PGM_GST_NAME_RC_PROT_STR(name)  "pgmRCGstProt" #name
#define PGM_GST_NAME_R0_PROT_STR(name)  "pgmR0GstProt" #name
#define PGM_GST_NAME_32BIT(name)        PGM_CTX(pgm,Gst32Bit##name)
#define PGM_GST_NAME_RC_32BIT_STR(name) "pgmRCGst32Bit" #name
#define PGM_GST_NAME_R0_32BIT_STR(name) "pgmR0Gst32Bit" #name
#define PGM_GST_NAME_PAE(name)          PGM_CTX(pgm,GstPAE##name)
#define PGM_GST_NAME_RC_PAE_STR(name)   "pgmRCGstPAE" #name
#define PGM_GST_NAME_R0_PAE_STR(name)   "pgmR0GstPAE" #name
#define PGM_GST_NAME_AMD64(name)        PGM_CTX(pgm,GstAMD64##name)
#define PGM_GST_NAME_RC_AMD64_STR(name) "pgmRCGstAMD64" #name
#define PGM_GST_NAME_R0_AMD64_STR(name) "pgmR0GstAMD64" #name
#define PGM_GST_PFN(name, pVCpu)        ((pVCpu)->pgm.s.PGM_CTX(pfn,Gst##name))
#define PGM_GST_DECL(type, name)        PGM_CTX_DECL(type) PGM_GST_NAME(name)

#define PGM_SHW_NAME_32BIT(name)        PGM_CTX(pgm,Shw32Bit##name)
#define PGM_SHW_NAME_RC_32BIT_STR(name) "pgmRCShw32Bit" #name
#define PGM_SHW_NAME_R0_32BIT_STR(name) "pgmR0Shw32Bit" #name
#define PGM_SHW_NAME_PAE(name)          PGM_CTX(pgm,ShwPAE##name)
#define PGM_SHW_NAME_RC_PAE_STR(name)   "pgmRCShwPAE" #name
#define PGM_SHW_NAME_R0_PAE_STR(name)   "pgmR0ShwPAE" #name
#define PGM_SHW_NAME_AMD64(name)        PGM_CTX(pgm,ShwAMD64##name)
#define PGM_SHW_NAME_RC_AMD64_STR(name) "pgmRCShwAMD64" #name
#define PGM_SHW_NAME_R0_AMD64_STR(name) "pgmR0ShwAMD64" #name
#define PGM_SHW_NAME_NESTED(name)        PGM_CTX(pgm,ShwNested##name)
#define PGM_SHW_NAME_RC_NESTED_STR(name) "pgmRCShwNested" #name
#define PGM_SHW_NAME_R0_NESTED_STR(name) "pgmR0ShwNested" #name
#define PGM_SHW_NAME_EPT(name)          PGM_CTX(pgm,ShwEPT##name)
#define PGM_SHW_NAME_RC_EPT_STR(name)   "pgmRCShwEPT" #name
#define PGM_SHW_NAME_R0_EPT_STR(name)   "pgmR0ShwEPT" #name
#define PGM_SHW_DECL(type, name)        PGM_CTX_DECL(type) PGM_SHW_NAME(name)
#define PGM_SHW_PFN(name, pVCpu)        ((pVCpu)->pgm.s.PGM_CTX(pfn,Shw##name))

/*                   Shw_Gst */
#define PGM_BTH_NAME_32BIT_REAL(name)   PGM_CTX(pgm,Bth32BitReal##name)
#define PGM_BTH_NAME_32BIT_PROT(name)   PGM_CTX(pgm,Bth32BitProt##name)
#define PGM_BTH_NAME_32BIT_32BIT(name)  PGM_CTX(pgm,Bth32Bit32Bit##name)
#define PGM_BTH_NAME_PAE_REAL(name)     PGM_CTX(pgm,BthPAEReal##name)
#define PGM_BTH_NAME_PAE_PROT(name)     PGM_CTX(pgm,BthPAEProt##name)
#define PGM_BTH_NAME_PAE_32BIT(name)    PGM_CTX(pgm,BthPAE32Bit##name)
#define PGM_BTH_NAME_PAE_PAE(name)      PGM_CTX(pgm,BthPAEPAE##name)
#define PGM_BTH_NAME_AMD64_PROT(name)   PGM_CTX(pgm,BthAMD64Prot##name)
#define PGM_BTH_NAME_AMD64_AMD64(name)  PGM_CTX(pgm,BthAMD64AMD64##name)
#define PGM_BTH_NAME_NESTED_REAL(name)  PGM_CTX(pgm,BthNestedReal##name)
#define PGM_BTH_NAME_NESTED_PROT(name)  PGM_CTX(pgm,BthNestedProt##name)
#define PGM_BTH_NAME_NESTED_32BIT(name) PGM_CTX(pgm,BthNested32Bit##name)
#define PGM_BTH_NAME_NESTED_PAE(name)   PGM_CTX(pgm,BthNestedPAE##name)
#define PGM_BTH_NAME_NESTED_AMD64(name) PGM_CTX(pgm,BthNestedAMD64##name)
#define PGM_BTH_NAME_EPT_REAL(name)     PGM_CTX(pgm,BthEPTReal##name)
#define PGM_BTH_NAME_EPT_PROT(name)     PGM_CTX(pgm,BthEPTProt##name)
#define PGM_BTH_NAME_EPT_32BIT(name)    PGM_CTX(pgm,BthEPT32Bit##name)
#define PGM_BTH_NAME_EPT_PAE(name)      PGM_CTX(pgm,BthEPTPAE##name)
#define PGM_BTH_NAME_EPT_AMD64(name)    PGM_CTX(pgm,BthEPTAMD64##name)

#define PGM_BTH_NAME_RC_32BIT_REAL_STR(name)    "pgmRCBth32BitReal" #name
#define PGM_BTH_NAME_RC_32BIT_PROT_STR(name)    "pgmRCBth32BitProt" #name
#define PGM_BTH_NAME_RC_32BIT_32BIT_STR(name)   "pgmRCBth32Bit32Bit" #name
#define PGM_BTH_NAME_RC_PAE_REAL_STR(name)      "pgmRCBthPAEReal" #name
#define PGM_BTH_NAME_RC_PAE_PROT_STR(name)      "pgmRCBthPAEProt" #name
#define PGM_BTH_NAME_RC_PAE_32BIT_STR(name)     "pgmRCBthPAE32Bit" #name
#define PGM_BTH_NAME_RC_PAE_PAE_STR(name)       "pgmRCBthPAEPAE" #name
#define PGM_BTH_NAME_RC_AMD64_AMD64_STR(name)   "pgmRCBthAMD64AMD64" #name
#define PGM_BTH_NAME_RC_NESTED_REAL_STR(name)   "pgmRCBthNestedReal" #name
#define PGM_BTH_NAME_RC_NESTED_PROT_STR(name)   "pgmRCBthNestedProt" #name
#define PGM_BTH_NAME_RC_NESTED_32BIT_STR(name)  "pgmRCBthNested32Bit" #name
#define PGM_BTH_NAME_RC_NESTED_PAE_STR(name)    "pgmRCBthNestedPAE" #name
#define PGM_BTH_NAME_RC_NESTED_AMD64_STR(name)  "pgmRCBthNestedAMD64" #name
#define PGM_BTH_NAME_RC_EPT_REAL_STR(name)      "pgmRCBthEPTReal" #name
#define PGM_BTH_NAME_RC_EPT_PROT_STR(name)      "pgmRCBthEPTProt" #name
#define PGM_BTH_NAME_RC_EPT_32BIT_STR(name)     "pgmRCBthEPT32Bit" #name
#define PGM_BTH_NAME_RC_EPT_PAE_STR(name)       "pgmRCBthEPTPAE" #name
#define PGM_BTH_NAME_RC_EPT_AMD64_STR(name)     "pgmRCBthEPTAMD64" #name
#define PGM_BTH_NAME_R0_32BIT_REAL_STR(name)    "pgmR0Bth32BitReal" #name
#define PGM_BTH_NAME_R0_32BIT_PROT_STR(name)    "pgmR0Bth32BitProt" #name
#define PGM_BTH_NAME_R0_32BIT_32BIT_STR(name)   "pgmR0Bth32Bit32Bit" #name
#define PGM_BTH_NAME_R0_PAE_REAL_STR(name)      "pgmR0BthPAEReal" #name
#define PGM_BTH_NAME_R0_PAE_PROT_STR(name)      "pgmR0BthPAEProt" #name
#define PGM_BTH_NAME_R0_PAE_32BIT_STR(name)     "pgmR0BthPAE32Bit" #name
#define PGM_BTH_NAME_R0_PAE_PAE_STR(name)       "pgmR0BthPAEPAE" #name
#define PGM_BTH_NAME_R0_AMD64_PROT_STR(name)    "pgmR0BthAMD64Prot" #name
#define PGM_BTH_NAME_R0_AMD64_AMD64_STR(name)   "pgmR0BthAMD64AMD64" #name
#define PGM_BTH_NAME_R0_NESTED_REAL_STR(name)   "pgmR0BthNestedReal" #name
#define PGM_BTH_NAME_R0_NESTED_PROT_STR(name)   "pgmR0BthNestedProt" #name
#define PGM_BTH_NAME_R0_NESTED_32BIT_STR(name)  "pgmR0BthNested32Bit" #name
#define PGM_BTH_NAME_R0_NESTED_PAE_STR(name)    "pgmR0BthNestedPAE" #name
#define PGM_BTH_NAME_R0_NESTED_AMD64_STR(name)  "pgmR0BthNestedAMD64" #name
#define PGM_BTH_NAME_R0_EPT_REAL_STR(name)      "pgmR0BthEPTReal" #name
#define PGM_BTH_NAME_R0_EPT_PROT_STR(name)      "pgmR0BthEPTProt" #name
#define PGM_BTH_NAME_R0_EPT_32BIT_STR(name)     "pgmR0BthEPT32Bit" #name
#define PGM_BTH_NAME_R0_EPT_PAE_STR(name)       "pgmR0BthEPTPAE" #name
#define PGM_BTH_NAME_R0_EPT_AMD64_STR(name)     "pgmR0BthEPTAMD64" #name

#define PGM_BTH_DECL(type, name)        PGM_CTX_DECL(type) PGM_BTH_NAME(name)
#define PGM_BTH_PFN(name, pVCpu)        ((pVCpu)->pgm.s.PGM_CTX(pfn,Bth##name))
/** @} */

/**
 * Data for each paging mode.
 */
typedef struct PGMMODEDATA
{
    /** The guest mode type. */
    uint32_t                        uGstType;
    /** The shadow mode type. */
    uint32_t                        uShwType;

    /** @name Function pointers for Shadow paging.
     * @{
     */
    DECLR3CALLBACKMEMBER(int,       pfnR3ShwRelocate,(PVMCPU pVCpu, RTGCPTR offDelta));
    DECLR3CALLBACKMEMBER(int,       pfnR3ShwExit,(PVMCPU pVCpu));
    DECLR3CALLBACKMEMBER(int,       pfnR3ShwGetPage,(PVMCPU pVCpu, RTGCPTR GCPtr, uint64_t *pfFlags, PRTHCPHYS pHCPhys));
    DECLR3CALLBACKMEMBER(int,       pfnR3ShwModifyPage,(PVMCPU pVCpu, RTGCPTR GCPtr, size_t cbPages, uint64_t fFlags, uint64_t fMask, uint32_t fOpFlags));

    DECLRCCALLBACKMEMBER(int,       pfnRCShwGetPage,(PVMCPU pVCpu, RTGCPTR GCPtr, uint64_t *pfFlags, PRTHCPHYS pHCPhys));
    DECLRCCALLBACKMEMBER(int,       pfnRCShwModifyPage,(PVMCPU pVCpu, RTGCPTR GCPtr, size_t cbPages, uint64_t fFlags, uint64_t fMask, uint32_t fOpFlags));

    DECLR0CALLBACKMEMBER(int,       pfnR0ShwGetPage,(PVMCPU pVCpu, RTGCPTR GCPtr, uint64_t *pfFlags, PRTHCPHYS pHCPhys));
    DECLR0CALLBACKMEMBER(int,       pfnR0ShwModifyPage,(PVMCPU pVCpu, RTGCPTR GCPtr, size_t cbPages, uint64_t fFlags, uint64_t fMask, uint32_t fOpFlags));
    /** @} */

    /** @name Function pointers for Guest paging.
     * @{
     */
    DECLR3CALLBACKMEMBER(int,       pfnR3GstRelocate,(PVMCPU pVCpu, RTGCPTR offDelta));
    DECLR3CALLBACKMEMBER(int,       pfnR3GstExit,(PVMCPU pVCpu));
    DECLR3CALLBACKMEMBER(int,       pfnR3GstGetPage,(PVMCPU pVCpu, RTGCPTR GCPtr, uint64_t *pfFlags, PRTGCPHYS pGCPhys));
    DECLR3CALLBACKMEMBER(int,       pfnR3GstModifyPage,(PVMCPU pVCpu, RTGCPTR GCPtr, size_t cbPages, uint64_t fFlags, uint64_t fMask));
    DECLR3CALLBACKMEMBER(int,       pfnR3GstGetPDE,(PVMCPU pVCpu, RTGCPTR GCPtr, PX86PDEPAE pPde));
    DECLRCCALLBACKMEMBER(int,       pfnRCGstGetPage,(PVMCPU pVCpu, RTGCPTR GCPtr, uint64_t *pfFlags, PRTGCPHYS pGCPhys));
    DECLRCCALLBACKMEMBER(int,       pfnRCGstModifyPage,(PVMCPU pVCpu, RTGCPTR GCPtr, size_t cbPages, uint64_t fFlags, uint64_t fMask));
    DECLRCCALLBACKMEMBER(int,       pfnRCGstGetPDE,(PVMCPU pVCpu, RTGCPTR GCPtr, PX86PDEPAE pPde));
    DECLR0CALLBACKMEMBER(int,       pfnR0GstGetPage,(PVMCPU pVCpu, RTGCPTR GCPtr, uint64_t *pfFlags, PRTGCPHYS pGCPhys));
    DECLR0CALLBACKMEMBER(int,       pfnR0GstModifyPage,(PVMCPU pVCpu, RTGCPTR GCPtr, size_t cbPages, uint64_t fFlags, uint64_t fMask));
    DECLR0CALLBACKMEMBER(int,       pfnR0GstGetPDE,(PVMCPU pVCpu, RTGCPTR GCPtr, PX86PDEPAE pPde));
    /** @} */

    /** @name Function pointers for Both Shadow and Guest paging.
     * @{
     */
    DECLR3CALLBACKMEMBER(int,       pfnR3BthRelocate,(PVMCPU pVCpu, RTGCPTR offDelta));
    /*                           no pfnR3BthTrap0eHandler */
    DECLR3CALLBACKMEMBER(int,       pfnR3BthInvalidatePage,(PVMCPU pVCpu, RTGCPTR GCPtrPage));
    DECLR3CALLBACKMEMBER(int,       pfnR3BthSyncCR3,(PVMCPU pVCpu, uint64_t cr0, uint64_t cr3, uint64_t cr4, bool fGlobal));
    DECLR3CALLBACKMEMBER(int,       pfnR3BthPrefetchPage,(PVMCPU pVCpu, RTGCPTR GCPtrPage));
    DECLR3CALLBACKMEMBER(int,       pfnR3BthVerifyAccessSyncPage,(PVMCPU pVCpu, RTGCPTR GCPtrPage, unsigned fFlags, unsigned uError));
#ifdef VBOX_STRICT
    DECLR3CALLBACKMEMBER(unsigned,  pfnR3BthAssertCR3,(PVMCPU pVCpu, uint64_t cr3, uint64_t cr4, RTGCPTR GCPtr, RTGCPTR cb));
#endif
    DECLR3CALLBACKMEMBER(int,       pfnR3BthMapCR3,(PVMCPU pVCpu, RTGCPHYS GCPhysCR3));
    DECLR3CALLBACKMEMBER(int,       pfnR3BthUnmapCR3,(PVMCPU pVCpu));

    DECLRCCALLBACKMEMBER(int,       pfnRCBthTrap0eHandler,(PVMCPU pVCpu, RTGCUINT uErr, PCPUMCTXCORE pRegFrame, RTGCPTR pvFault, bool *pfLockTaken));
    DECLRCCALLBACKMEMBER(int,       pfnRCBthInvalidatePage,(PVMCPU pVCpu, RTGCPTR GCPtrPage));
    DECLRCCALLBACKMEMBER(int,       pfnRCBthSyncCR3,(PVMCPU pVCpu, uint64_t cr0, uint64_t cr3, uint64_t cr4, bool fGlobal));
    DECLRCCALLBACKMEMBER(int,       pfnRCBthPrefetchPage,(PVMCPU pVCpu, RTGCPTR GCPtrPage));
    DECLRCCALLBACKMEMBER(int,       pfnRCBthVerifyAccessSyncPage,(PVMCPU pVCpu, RTGCPTR GCPtrPage, unsigned fFlags, unsigned uError));
#ifdef VBOX_STRICT
    DECLRCCALLBACKMEMBER(unsigned,  pfnRCBthAssertCR3,(PVMCPU pVCpu, uint64_t cr3, uint64_t cr4, RTGCPTR GCPtr, RTGCPTR cb));
#endif
    DECLRCCALLBACKMEMBER(int,       pfnRCBthMapCR3,(PVMCPU pVCpu, RTGCPHYS GCPhysCR3));
    DECLRCCALLBACKMEMBER(int,       pfnRCBthUnmapCR3,(PVMCPU pVCpu));

    DECLR0CALLBACKMEMBER(int,       pfnR0BthTrap0eHandler,(PVMCPU pVCpu, RTGCUINT uErr, PCPUMCTXCORE pRegFrame, RTGCPTR pvFault, bool *pfLockTaken));
    DECLR0CALLBACKMEMBER(int,       pfnR0BthInvalidatePage,(PVMCPU pVCpu, RTGCPTR GCPtrPage));
    DECLR0CALLBACKMEMBER(int,       pfnR0BthSyncCR3,(PVMCPU pVCpu, uint64_t cr0, uint64_t cr3, uint64_t cr4, bool fGlobal));
    DECLR0CALLBACKMEMBER(int,       pfnR0BthPrefetchPage,(PVMCPU pVCpu, RTGCPTR GCPtrPage));
    DECLR0CALLBACKMEMBER(int,       pfnR0BthVerifyAccessSyncPage,(PVMCPU pVCpu, RTGCPTR GCPtrPage, unsigned fFlags, unsigned uError));
#ifdef VBOX_STRICT
    DECLR0CALLBACKMEMBER(unsigned,  pfnR0BthAssertCR3,(PVMCPU pVCpu, uint64_t cr3, uint64_t cr4, RTGCPTR GCPtr, RTGCPTR cb));
#endif
    DECLR0CALLBACKMEMBER(int,       pfnR0BthMapCR3,(PVMCPU pVCpu, RTGCPHYS GCPhysCR3));
    DECLR0CALLBACKMEMBER(int,       pfnR0BthUnmapCR3,(PVMCPU pVCpu));
    /** @} */
} PGMMODEDATA, *PPGMMODEDATA;


#ifdef VBOX_WITH_STATISTICS
/**
 * PGM statistics.
 *
 * These lives on the heap when compiled in as they would otherwise waste
 * unnecessary space in release builds.
 */
typedef struct PGMSTATS
{
    /* R3 only: */
    STAMCOUNTER StatR3DetectedConflicts;            /**< R3: Number of times PGMR3MapHasConflicts() detected a conflict. */
    STAMPROFILE StatR3ResolveConflict;              /**< R3: pgmR3SyncPTResolveConflict() profiling (includes the entire relocation). */

    /* R3+RZ */
    STAMCOUNTER StatRZChunkR3MapTlbHits;            /**< RC/R0: Ring-3/0 chunk mapper TLB hits. */
    STAMCOUNTER StatRZChunkR3MapTlbMisses;          /**< RC/R0: Ring-3/0 chunk mapper TLB misses. */
    STAMCOUNTER StatRZPageMapTlbHits;               /**< RC/R0: Ring-3/0 page mapper TLB hits. */
    STAMCOUNTER StatRZPageMapTlbMisses;             /**< RC/R0: Ring-3/0 page mapper TLB misses. */
    STAMCOUNTER StatPageMapTlbFlushes;              /**< ALL: Ring-3/0 page mapper TLB flushes. */
    STAMCOUNTER StatPageMapTlbFlushEntry;           /**< ALL: Ring-3/0 page mapper TLB flushes. */
    STAMCOUNTER StatR3ChunkR3MapTlbHits;            /**< R3: Ring-3/0 chunk mapper TLB hits. */
    STAMCOUNTER StatR3ChunkR3MapTlbMisses;          /**< R3: Ring-3/0 chunk mapper TLB misses. */
    STAMCOUNTER StatR3PageMapTlbHits;               /**< R3: Ring-3/0 page mapper TLB hits. */
    STAMCOUNTER StatR3PageMapTlbMisses;             /**< R3: Ring-3/0 page mapper TLB misses. */
    STAMCOUNTER StatRZRamRangeTlbHits;              /**< RC/R0: RAM range TLB hits. */
    STAMCOUNTER StatRZRamRangeTlbMisses;            /**< RC/R0: RAM range TLB misses. */
    STAMCOUNTER StatR3RamRangeTlbHits;              /**< R3: RAM range TLB hits. */
    STAMCOUNTER StatR3RamRangeTlbMisses;            /**< R3: RAM range TLB misses. */
    STAMPROFILE StatRZSyncCR3HandlerVirtualReset;   /**< RC/R0: Profiling of the virtual handler resets. */
    STAMPROFILE StatRZSyncCR3HandlerVirtualUpdate;  /**< RC/R0: Profiling of the virtual handler updates. */
    STAMPROFILE StatR3SyncCR3HandlerVirtualReset;   /**< R3: Profiling of the virtual handler resets. */
    STAMPROFILE StatR3SyncCR3HandlerVirtualUpdate;  /**< R3: Profiling of the virtual handler updates. */
    STAMCOUNTER StatR3PhysHandlerReset;             /**< R3: The number of times PGMHandlerPhysicalReset is called. */
    STAMCOUNTER StatRZPhysHandlerReset;             /**< RC/R0: The number of times PGMHandlerPhysicalReset is called. */
    STAMCOUNTER StatR3PhysHandlerLookupHits;        /**< R3: Number of cache hits when looking up physical handlers. */
    STAMCOUNTER StatR3PhysHandlerLookupMisses;      /**< R3: Number of cache misses when looking up physical handlers. */
    STAMCOUNTER StatRZPhysHandlerLookupHits;        /**< RC/R0: Number of cache hits when lookup up physical handlers. */
    STAMCOUNTER StatRZPhysHandlerLookupMisses;      /**< RC/R0: Number of cache misses when looking up physical handlers */
    STAMPROFILE StatRZVirtHandlerSearchByPhys;      /**< RC/R0: Profiling of pgmHandlerVirtualFindByPhysAddr. */
    STAMPROFILE StatR3VirtHandlerSearchByPhys;      /**< R3: Profiling of pgmHandlerVirtualFindByPhysAddr. */
    STAMCOUNTER StatRZPageReplaceShared;            /**< RC/R0: Times a shared page has been replaced by a private one. */
    STAMCOUNTER StatRZPageReplaceZero;              /**< RC/R0: Times the zero page has been replaced by a private one. */
/// @todo    STAMCOUNTER StatRZPageHandyAllocs;              /**< RC/R0: The number of times we've executed GMMR3AllocateHandyPages. */
    STAMCOUNTER StatR3PageReplaceShared;            /**< R3: Times a shared page has been replaced by a private one. */
    STAMCOUNTER StatR3PageReplaceZero;              /**< R3: Times the zero page has been replaced by a private one. */
/// @todo    STAMCOUNTER StatR3PageHandyAllocs;              /**< R3: The number of times we've executed GMMR3AllocateHandyPages. */

    /* RC only: */
    STAMCOUNTER StatRCInvlPgConflict;               /**< RC: Number of times PGMInvalidatePage() detected a mapping conflict. */
    STAMCOUNTER StatRCInvlPgSyncMonCR3;             /**< RC: Number of times PGMInvalidatePage() ran into PGM_SYNC_MONITOR_CR3. */

    STAMCOUNTER StatRZPhysRead;
    STAMCOUNTER StatRZPhysReadBytes;
    STAMCOUNTER StatRZPhysWrite;
    STAMCOUNTER StatRZPhysWriteBytes;
    STAMCOUNTER StatR3PhysRead;
    STAMCOUNTER StatR3PhysReadBytes;
    STAMCOUNTER StatR3PhysWrite;
    STAMCOUNTER StatR3PhysWriteBytes;
    STAMCOUNTER StatRCPhysRead;
    STAMCOUNTER StatRCPhysReadBytes;
    STAMCOUNTER StatRCPhysWrite;
    STAMCOUNTER StatRCPhysWriteBytes;

    STAMCOUNTER StatRZPhysSimpleRead;
    STAMCOUNTER StatRZPhysSimpleReadBytes;
    STAMCOUNTER StatRZPhysSimpleWrite;
    STAMCOUNTER StatRZPhysSimpleWriteBytes;
    STAMCOUNTER StatR3PhysSimpleRead;
    STAMCOUNTER StatR3PhysSimpleReadBytes;
    STAMCOUNTER StatR3PhysSimpleWrite;
    STAMCOUNTER StatR3PhysSimpleWriteBytes;
    STAMCOUNTER StatRCPhysSimpleRead;
    STAMCOUNTER StatRCPhysSimpleReadBytes;
    STAMCOUNTER StatRCPhysSimpleWrite;
    STAMCOUNTER StatRCPhysSimpleWriteBytes;

    STAMCOUNTER StatTrackVirgin;                    /**< The number of first time shadowings. */
    STAMCOUNTER StatTrackAliased;                   /**< The number of times switching to cRef2, i.e. the page is being shadowed by two PTs. */
    STAMCOUNTER StatTrackAliasedMany;               /**< The number of times we're tracking using cRef2. */
    STAMCOUNTER StatTrackAliasedLots;               /**< The number of times we're hitting pages which has overflowed cRef2. */
    STAMCOUNTER StatTrackNoExtentsLeft;             /**< The number of times the extent list was exhausted. */
    STAMCOUNTER StatTrackOverflows;                 /**< The number of times the extent list grows to long. */
    STAMPROFILE StatTrackDeref;                     /**< Profiling of SyncPageWorkerTrackDeref (expensive). */

    /** Time spent by the host OS for large page allocation. */
    STAMPROFILE                 StatAllocLargePage;
    /** Time spent clearing the newly allocated large pages. */
    STAMPROFILE                 StatClearLargePage;
    /** The number of times allocating a large pages takes more than the allowed period. */
    STAMCOUNTER                 StatLargePageOverflow;
    /** pgmPhysIsValidLargePage profiling - R3 */
    STAMPROFILE                 StatR3IsValidLargePage;
    /** pgmPhysIsValidLargePage profiling - RZ*/
    STAMPROFILE                 StatRZIsValidLargePage;

    STAMPROFILE                 StatChunkAging;
    STAMPROFILE                 StatChunkFindCandidate;
    STAMPROFILE                 StatChunkUnmap;
    STAMPROFILE                 StatChunkMap;
} PGMSTATS;
#endif /* VBOX_WITH_STATISTICS */


/**
 * Converts a PGM pointer into a VM pointer.
 * @returns Pointer to the VM structure the PGM is part of.
 * @param   pPGM   Pointer to PGM instance data.
 */
#define PGM2VM(pPGM)  ( (PVM)((char*)pPGM - pPGM->offVM) )

/**
 * PGM Data (part of VM)
 */
typedef struct PGM
{
    /** Offset to the VM structure. */
    int32_t                         offVM;
    /** Offset of the PGMCPU structure relative to VMCPU. */
    int32_t                         offVCpuPGM;

    /** @cfgm{RamPreAlloc, boolean, false}
     * Indicates whether the base RAM should all be allocated before starting
     * the VM (default), or if it should be allocated when first written to.
     */
    bool                            fRamPreAlloc;
    /** Indicates whether write monitoring is currently in use.
     * This is used to prevent conflicts between live saving and page sharing
     * detection. */
    bool                            fPhysWriteMonitoringEngaged;
    /** Set if the CPU has less than 52-bit physical address width.
     * This is used  */
    bool                            fLessThan52PhysicalAddressBits;
    /** Set when nested paging is active.
     * This is meant to save calls to HWACCMIsNestedPagingActive and let the
     * compilers optimize the code better.  Whether we use nested paging or
     * not is something we find out during VMM initialization and we won't
     * change this later on. */
    bool                            fNestedPaging;
    /** The host paging mode. (This is what SUPLib reports.) */
    SUPPAGINGMODE                   enmHostMode;
    /** We're not in a state which permits writes to guest memory.
     * (Only used in strict builds.) */
    bool                            fNoMorePhysWrites;
    /** Set if PCI passthrough is enabled. */
    bool                            fPciPassthrough;
    /** Alignment padding that makes the next member start on a 8 byte boundary. */
    bool                            afAlignment1[2];

    /** Indicates that PGMR3FinalizeMappings has been called and that further
     * PGMR3MapIntermediate calls will be rejected. */
    bool                            fFinalizedMappings;
    /** If set no conflict checks are required. */
    bool                            fMappingsFixed;
    /** If set if restored as fixed but we were unable to re-fixate at the old
     *  location because of room or address incompatibilities. */
    bool                            fMappingsFixedRestored;
    /** If set, then no mappings are put into the shadow page table.
     * Use pgmMapAreMappingsEnabled() instead of direct access. */
    bool                            fMappingsDisabled;
    /** Size of fixed mapping.
     * This is valid if either fMappingsFixed or fMappingsFixedRestored is set. */
    uint32_t                        cbMappingFixed;
    /** Generation ID for the RAM ranges. This member is incremented everytime
     * a RAM range is linked or unlinked. */
    uint32_t volatile               idRamRangesGen;

    /** Base address (GC) of fixed mapping.
     * This is valid if either fMappingsFixed or fMappingsFixedRestored is set. */
    RTGCPTR                         GCPtrMappingFixed;
    /** The address of the previous RAM range mapping. */
    RTGCPTR                         GCPtrPrevRamRangeMapping;

    /** 4 MB page mask; 32 or 36 bits depending on PSE-36 (identical for all VCPUs) */
    RTGCPHYS                        GCPhys4MBPSEMask;
    /** Mask containing the invalid bits of a guest physical address.
     * @remarks this does not stop at bit 52.  */
    RTGCPHYS                        GCPhysInvAddrMask;


    /** RAM range TLB for R3. */
    R3PTRTYPE(PPGMRAMRANGE)         apRamRangesTlbR3[PGM_RAMRANGE_TLB_ENTRIES];
    /** Pointer to the list of RAM ranges (Phys GC -> Phys HC conversion) - for R3.
     * This is sorted by physical address and contains no overlapping ranges. */
    R3PTRTYPE(PPGMRAMRANGE)         pRamRangesXR3;
    /** Root of the RAM range search tree for ring-3. */
    R3PTRTYPE(PPGMRAMRANGE)         pRamRangeTreeR3;
    /** PGM offset based trees - R3 Ptr. */
    R3PTRTYPE(PPGMTREES)            pTreesR3;
    /** Caching the last physical handler we looked up in R3. */
    R3PTRTYPE(PPGMPHYSHANDLER)      pLastPhysHandlerR3;
    /** Shadow Page Pool - R3 Ptr. */
    R3PTRTYPE(PPGMPOOL)             pPoolR3;
    /** Linked list of GC mappings - for HC.
     * The list is sorted ascending on address. */
    R3PTRTYPE(PPGMMAPPING)          pMappingsR3;
    /** Pointer to the list of ROM ranges - for R3.
     * This is sorted by physical address and contains no overlapping ranges. */
    R3PTRTYPE(PPGMROMRANGE)         pRomRangesR3;
    /** Pointer to the list of MMIO2 ranges - for R3.
     * Registration order. */
    R3PTRTYPE(PPGMMMIO2RANGE)       pMmio2RangesR3;
    /** Pointer to SHW+GST mode data (function pointers).
     * The index into this table is made up from */
    R3PTRTYPE(PPGMMODEDATA)         paModeData;
    RTR3PTR                         R3PtrAlignment0;

    /** RAM range TLB for R0. */
    R0PTRTYPE(PPGMRAMRANGE)         apRamRangesTlbR0[PGM_RAMRANGE_TLB_ENTRIES];
    /** R0 pointer corresponding to PGM::pRamRangesXR3. */
    R0PTRTYPE(PPGMRAMRANGE)         pRamRangesXR0;
    /** Root of the RAM range search tree for ring-0. */
    R0PTRTYPE(PPGMRAMRANGE)         pRamRangeTreeR0;
    /** PGM offset based trees - R0 Ptr. */
    R0PTRTYPE(PPGMTREES)            pTreesR0;
    /** Caching the last physical handler we looked up in R0. */
    R0PTRTYPE(PPGMPHYSHANDLER)      pLastPhysHandlerR0;
    /** Shadow Page Pool - R0 Ptr. */
    R0PTRTYPE(PPGMPOOL)             pPoolR0;
    /** Linked list of GC mappings - for R0.
     * The list is sorted ascending on address. */
    R0PTRTYPE(PPGMMAPPING)          pMappingsR0;
    /** R0 pointer corresponding to PGM::pRomRangesR3. */
    R0PTRTYPE(PPGMROMRANGE)         pRomRangesR0;
    RTR0PTR                         R0PtrAlignment0;


    /** RAM range TLB for RC. */
    RCPTRTYPE(PPGMRAMRANGE)         apRamRangesTlbRC[PGM_RAMRANGE_TLB_ENTRIES];
    /** RC pointer corresponding to PGM::pRamRangesXR3. */
    RCPTRTYPE(PPGMRAMRANGE)         pRamRangesXRC;
    /** Root of the RAM range search tree for raw-mode context. */
    RCPTRTYPE(PPGMRAMRANGE)         pRamRangeTreeRC;
    /** PGM offset based trees - RC Ptr. */
    RCPTRTYPE(PPGMTREES)            pTreesRC;
    /** Caching the last physical handler we looked up in RC. */
    RCPTRTYPE(PPGMPHYSHANDLER)      pLastPhysHandlerRC;
    /** Shadow Page Pool - RC Ptr. */
    RCPTRTYPE(PPGMPOOL)             pPoolRC;
    /** Linked list of GC mappings - for RC.
     * The list is sorted ascending on address. */
    RCPTRTYPE(PPGMMAPPING)          pMappingsRC;
    /** RC pointer corresponding to PGM::pRomRangesR3. */
    RCPTRTYPE(PPGMROMRANGE)         pRomRangesRC;
    RTRCPTR                         RCPtrAlignment0;
    /** Pointer to the page table entries for the dynamic page mapping area - GCPtr. */
    RCPTRTYPE(PX86PTE)              paDynPageMap32BitPTEsGC;
    /** Pointer to the page table entries for the dynamic page mapping area - GCPtr. */
    RCPTRTYPE(PPGMSHWPTEPAE)        paDynPageMapPaePTEsGC;


    /** Pointer to the 5 page CR3 content mapping.
     * The first page is always the CR3 (in some form) while the 4 other pages
     * are used of the PDs in PAE mode. */
    RTGCPTR                         GCPtrCR3Mapping;

    /** @name Intermediate Context
     * @{ */
    /** Pointer to the intermediate page directory - Normal. */
    R3PTRTYPE(PX86PD)               pInterPD;
    /** Pointer to the intermediate page tables - Normal.
     * There are two page tables, one for the identity mapping and one for
     * the host context mapping (of the core code). */
    R3PTRTYPE(PX86PT)               apInterPTs[2];
    /** Pointer to the intermediate page tables - PAE. */
    R3PTRTYPE(PX86PTPAE)            apInterPaePTs[2];
    /** Pointer to the intermediate page directory - PAE. */
    R3PTRTYPE(PX86PDPAE)            apInterPaePDs[4];
    /** Pointer to the intermediate page directory - PAE. */
    R3PTRTYPE(PX86PDPT)             pInterPaePDPT;
    /** Pointer to the intermediate page-map level 4 - AMD64. */
    R3PTRTYPE(PX86PML4)             pInterPaePML4;
    /** Pointer to the intermediate page directory - AMD64. */
    R3PTRTYPE(PX86PDPT)             pInterPaePDPT64;
    /** The Physical Address (HC) of the intermediate Page Directory - Normal. */
    RTHCPHYS                        HCPhysInterPD;
    /** The Physical Address (HC) of the intermediate Page Directory Pointer Table - PAE. */
    RTHCPHYS                        HCPhysInterPaePDPT;
    /** The Physical Address (HC) of the intermediate Page Map Level 4 table - AMD64. */
    RTHCPHYS                        HCPhysInterPaePML4;
    /** @} */

    /** Base address of the dynamic page mapping area.
     * The array is MM_HYPER_DYNAMIC_SIZE bytes big.
     *
     * @todo The plan of keeping PGMRCDYNMAP private to PGMRZDynMap.cpp didn't
     *       work out.  Some cleaning up of the initialization that would
     *       remove this memory is yet to be done...
     */
    RCPTRTYPE(uint8_t *)            pbDynPageMapBaseGC;
    /** The address of the raw-mode context mapping cache. */
    RCPTRTYPE(PPGMRCDYNMAP)         pRCDynMap;
    /** The address of the ring-0 mapping cache if we're making use of it.  */
    RTR0PTR                         pvR0DynMapUsed;

    /** Hack: Number of deprecated page mapping locks taken by the current lock
     *  owner via pgmPhysGCPhys2CCPtrInternalDepr. */
    uint32_t                        cDeprecatedPageLocks;
#if HC_ARCH_BITS == 64
    /** Alignment padding.  */
    uint32_t                        u32Alignment2;
#endif


    /** PGM critical section.
     * This protects the physical & virtual access handlers, ram ranges,
     * and the page flag updating (some of it anyway).
     */
    PDMCRITSECT                     CritSectX;

    /**
     * Data associated with managing the ring-3 mappings of the allocation chunks.
     */
    struct
    {
        /** The chunk tree, ordered by chunk id. */
#ifdef VBOX_WITH_2X_4GB_ADDR_SPACE
        R3PTRTYPE(PAVLU32NODECORE)  pTree;
#else
        R3R0PTRTYPE(PAVLU32NODECORE) pTree;
#endif
#if HC_ARCH_BITS == 32
        uint32_t                    u32Alignment0;
#endif
        /** The chunk mapping TLB. */
        PGMCHUNKR3MAPTLB            Tlb;
        /** The number of mapped chunks. */
        uint32_t                    c;
        /** The maximum number of mapped chunks.
         * @cfgm    PGM/MaxRing3Chunks */
        uint32_t                    cMax;
        /** The current time.  This is incremented whenever a chunk is inserted. */
        uint32_t                    iNow;
        /** Alignment padding. */
        uint32_t                    u32Alignment1;
    } ChunkR3Map;

    /**
     * The page mapping TLB for ring-3 and (for the time being) ring-0.
     */
    PGMPAGER3MAPTLB                 PhysTlbHC;

    /** @name   The zero page.
     * @{ */
    /** The host physical address of the zero page. */
    RTHCPHYS                        HCPhysZeroPg;
    /** The ring-3 mapping of the zero page. */
    RTR3PTR                         pvZeroPgR3;
    /** The ring-0 mapping of the zero page. */
    RTR0PTR                         pvZeroPgR0;
    /** The GC mapping of the zero page. */
    RTRCPTR                         pvZeroPgRC;
    RTRCPTR                         RCPtrAlignment3;
    /** @}*/

    /** @name   The Invalid MMIO page.
     * This page is filled with 0xfeedface.
     * @{ */
    /** The host physical address of the invalid MMIO page. */
    RTHCPHYS                        HCPhysMmioPg;
    /** The host pysical address of the invalid MMIO page plus all invalid
     * physical address bits set.  This is used to trigger X86_TRAP_PF_RSVD.
     * @remarks Check fLessThan52PhysicalAddressBits before use. */
    RTHCPHYS                        HCPhysInvMmioPg;
    /** The ring-3 mapping of the invalid MMIO page. */
    RTR3PTR                         pvMmioPgR3;
#if HC_ARCH_BITS == 32
    RTR3PTR                         R3PtrAlignment4;
#endif
    /** @} */


    /** The number of handy pages. */
    uint32_t                        cHandyPages;

    /** The number of large handy pages. */
    uint32_t                        cLargeHandyPages;

    /**
     * Array of handy pages.
     *
     * This array is used in a two way communication between pgmPhysAllocPage
     * and GMMR0AllocateHandyPages, with PGMR3PhysAllocateHandyPages serving as
     * an intermediary.
     *
     * The size of this array is important, see pgmPhysEnsureHandyPage for details.
     * (The current size of 32 pages, means 128 KB of handy memory.)
     */
    GMMPAGEDESC                     aHandyPages[PGM_HANDY_PAGES];

    /**
     * Array of large handy pages. (currently size 1)
     *
     * This array is used in a two way communication between pgmPhysAllocLargePage
     * and GMMR0AllocateLargePage, with PGMR3PhysAllocateLargePage serving as
     * an intermediary.
     */
    GMMPAGEDESC                     aLargeHandyPage[1];

    /**
     * Live save data.
     */
    struct
    {
        /** Per type statistics. */
        struct
        {
            /** The number of ready pages.  */
            uint32_t                cReadyPages;
            /** The number of dirty pages. */
            uint32_t                cDirtyPages;
            /** The number of ready zero pages.  */
            uint32_t                cZeroPages;
            /** The number of write monitored pages. */
            uint32_t                cMonitoredPages;
        }                           Rom,
                                    Mmio2,
                                    Ram;
        /** The number of ignored pages in the RAM ranges (i.e. MMIO, MMIO2 and ROM). */
        uint32_t                    cIgnoredPages;
        /** Indicates that a live save operation is active.  */
        bool                        fActive;
        /** Padding. */
        bool                        afReserved[2];
        /** The next history index. */
        uint8_t                     iDirtyPagesHistory;
        /** History of the total amount of dirty pages. */
        uint32_t                    acDirtyPagesHistory[64];
        /** Short term dirty page average. */
        uint32_t                    cDirtyPagesShort;
        /** Long term dirty page average. */
        uint32_t                    cDirtyPagesLong;
        /** The number of saved pages.  This is used to get some kind of estimate of the
         * link speed so we can decide when we're done.  It is reset after the first
         * 7 passes so the speed estimate doesn't get inflated by the initial set of
         * zero pages.   */
        uint64_t                    cSavedPages;
        /** The nanosecond timestamp when cSavedPages was 0. */
        uint64_t                    uSaveStartNS;
        /** Pages per second (for statistics). */
        uint32_t                    cPagesPerSecond;
        uint32_t                    cAlignment;
    } LiveSave;

    /** @name   Error injection.
     * @{ */
    /** Inject handy page allocation errors pretending we're completely out of
     * memory. */
    bool volatile                   fErrInjHandyPages;
    /** Padding. */
    bool                            afReserved[3];
    /** @} */

    /** @name Release Statistics
     * @{ */
    uint32_t                        cAllPages;          /**< The total number of pages. (Should be Private + Shared + Zero + Pure MMIO.) */
    uint32_t                        cPrivatePages;      /**< The number of private pages. */
    uint32_t                        cSharedPages;       /**< The number of shared pages. */
    uint32_t                        cReusedSharedPages; /**< The number of reused shared pages. */
    uint32_t                        cZeroPages;         /**< The number of zero backed pages. */
    uint32_t                        cPureMmioPages;     /**< The number of pure MMIO pages. */
    uint32_t                        cMonitoredPages;    /**< The number of write monitored pages. */
    uint32_t                        cWrittenToPages;    /**< The number of previously write monitored pages. */
    uint32_t                        cWriteLockedPages;  /**< The number of write locked pages. */
    uint32_t                        cReadLockedPages;   /**< The number of read locked pages. */
    uint32_t                        cBalloonedPages;    /**< The number of ballooned pages. */
    uint32_t                        cMappedChunks;      /**< Number of times we mapped a chunk. */
    uint32_t                        cUnmappedChunks;    /**< Number of times we unmapped a chunk. */
    uint32_t                        cLargePages;        /**< The number of large pages. */
    uint32_t                        cLargePagesDisabled;/**< The number of disabled large pages. */
/*    uint32_t                        aAlignment4[1]; */

    /** The number of times we were forced to change the hypervisor region location. */
    STAMCOUNTER                     cRelocations;

    STAMCOUNTER                     StatLargePageReused;                /**< The number of large pages we've reused.*/
    STAMCOUNTER                     StatLargePageRefused;               /**< The number of times we couldn't use a large page.*/
    STAMCOUNTER                     StatLargePageRecheck;               /**< The number of times we rechecked a disabled large page.*/
    /** @} */

#ifdef VBOX_WITH_STATISTICS
    /** @name Statistics on the heap.
     * @{ */
    R3PTRTYPE(PGMSTATS *)           pStatsR3;
    R0PTRTYPE(PGMSTATS *)           pStatsR0;
    RCPTRTYPE(PGMSTATS *)           pStatsRC;
    RTRCPTR                         RCPtrAlignment;
    /** @}  */
#endif
} PGM;
#ifndef IN_TSTVMSTRUCTGC /* HACK */
AssertCompileMemberAlignment(PGM, paDynPageMap32BitPTEsGC, 8);
AssertCompileMemberAlignment(PGM, GCPtrMappingFixed, sizeof(RTGCPTR));
AssertCompileMemberAlignment(PGM, HCPhysInterPD, 8);
AssertCompileMemberAlignment(PGM, CritSectX, 8);
AssertCompileMemberAlignment(PGM, ChunkR3Map, 8);
AssertCompileMemberAlignment(PGM, PhysTlbHC, 8);
AssertCompileMemberAlignment(PGM, HCPhysZeroPg, 8);
AssertCompileMemberAlignment(PGM, aHandyPages, 8);
AssertCompileMemberAlignment(PGM, cRelocations, 8);
#endif /* !IN_TSTVMSTRUCTGC */
/** Pointer to the PGM instance data. */
typedef PGM *PPGM;



typedef struct PGMCPUSTATS
{
    /* Common */
    STAMCOUNTER StatSyncPtPD[X86_PG_ENTRIES];       /**< SyncPT - PD distribution. */
    STAMCOUNTER StatSyncPagePD[X86_PG_ENTRIES];     /**< SyncPage - PD distribution. */

    /* R0 only: */
    STAMPROFILE StatR0NpMiscfg;                     /**< R0: PGMR0Trap0eHandlerNPMisconfig() profiling. */
    STAMCOUNTER StatR0NpMiscfgSyncPage;             /**< R0: SyncPage calls from PGMR0Trap0eHandlerNPMisconfig(). */

    /* RZ only: */
    STAMPROFILE StatRZTrap0e;                       /**< RC/R0: PGMTrap0eHandler() profiling. */
    STAMPROFILE StatRZTrap0eTime2Ballooned;         /**< RC/R0: Profiling of the Trap0eHandler body when the cause is read access to a ballooned page. */
    STAMPROFILE StatRZTrap0eTime2CSAM;              /**< RC/R0: Profiling of the Trap0eHandler body when the cause is CSAM. */
    STAMPROFILE StatRZTrap0eTime2DirtyAndAccessed;  /**< RC/R0: Profiling of the Trap0eHandler body when the cause is dirty and/or accessed bit emulation. */
    STAMPROFILE StatRZTrap0eTime2GuestTrap;         /**< RC/R0: Profiling of the Trap0eHandler body when the cause is a guest trap. */
    STAMPROFILE StatRZTrap0eTime2HndPhys;           /**< RC/R0: Profiling of the Trap0eHandler body when the cause is a physical handler. */
    STAMPROFILE StatRZTrap0eTime2HndVirt;           /**< RC/R0: Profiling of the Trap0eHandler body when the cause is a virtual handler. */
    STAMPROFILE StatRZTrap0eTime2HndUnhandled;      /**< RC/R0: Profiling of the Trap0eHandler body when the cause is access outside the monitored areas of a monitored page. */
    STAMPROFILE StatRZTrap0eTime2InvalidPhys;       /**< RC/R0: Profiling of the Trap0eHandler body when the cause is access to an invalid physical guest address. */
    STAMPROFILE StatRZTrap0eTime2MakeWritable;      /**< RC/R0: Profiling of the Trap0eHandler body when the cause is a page that needed to be made writable. */
    STAMPROFILE StatRZTrap0eTime2Mapping;           /**< RC/R0: Profiling of the Trap0eHandler body when the cause is the guest mappings. */
    STAMPROFILE StatRZTrap0eTime2Misc;              /**< RC/R0: Profiling of the Trap0eHandler body when the cause is not known. */
    STAMPROFILE StatRZTrap0eTime2OutOfSync;         /**< RC/R0: Profiling of the Trap0eHandler body when the cause is an out-of-sync page. */
    STAMPROFILE StatRZTrap0eTime2OutOfSyncHndPhys;  /**< RC/R0: Profiling of the Trap0eHandler body when the cause is an out-of-sync physical handler page. */
    STAMPROFILE StatRZTrap0eTime2OutOfSyncHndVirt;  /**< RC/R0: Profiling of the Trap0eHandler body when the cause is an out-of-sync virtual handler page. */
    STAMPROFILE StatRZTrap0eTime2OutOfSyncHndObs;   /**< RC/R0: Profiling of the Trap0eHandler body when the cause is an obsolete handler page. */
    STAMPROFILE StatRZTrap0eTime2SyncPT;            /**< RC/R0: Profiling of the Trap0eHandler body when the cause is lazy syncing of a PT. */
    STAMPROFILE StatRZTrap0eTime2WPEmulation;       /**< RC/R0: Profiling of the Trap0eHandler body when the cause is CR0.WP emulation. */
    STAMCOUNTER StatRZTrap0eConflicts;              /**< RC/R0: The number of times \#PF was caused by an undetected conflict. */
    STAMCOUNTER StatRZTrap0eHandlersMapping;        /**< RC/R0: Number of traps due to access handlers in mappings. */
    STAMCOUNTER StatRZTrap0eHandlersOutOfSync;      /**< RC/R0: Number of out-of-sync handled pages. */
    STAMCOUNTER StatRZTrap0eHandlersPhysAll;        /**< RC/R0: Number of traps due to physical all-access handlers. */
    STAMCOUNTER StatRZTrap0eHandlersPhysAllOpt;     /**< RC/R0: Number of the physical all-access handler traps using the optimization. */
    STAMCOUNTER StatRZTrap0eHandlersPhysWrite;      /**< RC/R0: Number of traps due to write-physical access handlers. */
    STAMCOUNTER StatRZTrap0eHandlersVirtual;        /**< RC/R0: Number of traps due to virtual access handlers. */
    STAMCOUNTER StatRZTrap0eHandlersVirtualByPhys;  /**< RC/R0: Number of traps due to virtual access handlers found by physical address. */
    STAMCOUNTER StatRZTrap0eHandlersVirtualUnmarked;/**< RC/R0: Number of traps due to virtual access handlers found by virtual address (without proper physical flags). */
    STAMCOUNTER StatRZTrap0eHandlersUnhandled;      /**< RC/R0: Number of traps due to access outside range of monitored page(s). */
    STAMCOUNTER StatRZTrap0eHandlersInvalid;        /**< RC/R0: Number of traps due to access to invalid physical memory. */
    STAMCOUNTER StatRZTrap0eUSNotPresentRead;       /**< RC/R0: \#PF err kind */
    STAMCOUNTER StatRZTrap0eUSNotPresentWrite;      /**< RC/R0: \#PF err kind */
    STAMCOUNTER StatRZTrap0eUSWrite;                /**< RC/R0: \#PF err kind */
    STAMCOUNTER StatRZTrap0eUSReserved;             /**< RC/R0: \#PF err kind */
    STAMCOUNTER StatRZTrap0eUSNXE;                  /**< RC/R0: \#PF err kind */
    STAMCOUNTER StatRZTrap0eUSRead;                 /**< RC/R0: \#PF err kind */
    STAMCOUNTER StatRZTrap0eSVNotPresentRead;       /**< RC/R0: \#PF err kind */
    STAMCOUNTER StatRZTrap0eSVNotPresentWrite;      /**< RC/R0: \#PF err kind */
    STAMCOUNTER StatRZTrap0eSVWrite;                /**< RC/R0: \#PF err kind */
    STAMCOUNTER StatRZTrap0eSVReserved;             /**< RC/R0: \#PF err kind */
    STAMCOUNTER StatRZTrap0eSNXE;                   /**< RC/R0: \#PF err kind */
    STAMCOUNTER StatRZTrap0eGuestPF;                /**< RC/R0: Real guest \#PFs. */
    STAMCOUNTER StatRZTrap0eGuestPFMapping;         /**< RC/R0: Real guest \#PF to HMA or other mapping. */
    STAMCOUNTER StatRZTrap0eWPEmulInRZ;             /**< RC/R0: WP=0 virtualization trap, handled. */
    STAMCOUNTER StatRZTrap0eWPEmulToR3;             /**< RC/R0: WP=0 virtualization trap, chickened out. */
    STAMCOUNTER StatRZTrap0ePD[X86_PG_ENTRIES];     /**< RC/R0: PD distribution of the \#PFs. */
    STAMCOUNTER StatRZGuestCR3WriteHandled;         /**< RC/R0: The number of times WriteHandlerCR3() was successfully called. */
    STAMCOUNTER StatRZGuestCR3WriteUnhandled;       /**< RC/R0: The number of times WriteHandlerCR3() was called and we had to fall back to the recompiler. */
    STAMCOUNTER StatRZGuestCR3WriteConflict;        /**< RC/R0: The number of times WriteHandlerCR3() was called and a conflict was detected. */
    STAMCOUNTER StatRZGuestROMWriteHandled;         /**< RC/R0: The number of times pgmPhysRomWriteHandler() was successfully called. */
    STAMCOUNTER StatRZGuestROMWriteUnhandled;       /**< RC/R0: The number of times pgmPhysRomWriteHandler() was called and we had to fall back to the recompiler */
    STAMCOUNTER StatRZDynMapMigrateInvlPg;          /**< RZ: invlpg in PGMR0DynMapMigrateAutoSet. */
    STAMPROFILE StatRZDynMapGCPageInl;              /**< RZ: Calls to pgmRZDynMapGCPageInlined. */
    STAMCOUNTER StatRZDynMapGCPageInlHits;          /**< RZ: Hash table lookup hits. */
    STAMCOUNTER StatRZDynMapGCPageInlMisses;        /**< RZ: Misses that falls back to the code common. */
    STAMCOUNTER StatRZDynMapGCPageInlRamHits;       /**< RZ: 1st ram range hits. */
    STAMCOUNTER StatRZDynMapGCPageInlRamMisses;     /**< RZ: 1st ram range misses, takes slow path. */
    STAMPROFILE StatRZDynMapHCPageInl;              /**< RZ: Calls to pgmRZDynMapHCPageInlined. */
    STAMCOUNTER StatRZDynMapHCPageInlHits;          /**< RZ: Hash table lookup hits. */
    STAMCOUNTER StatRZDynMapHCPageInlMisses;        /**< RZ: Misses that falls back to the code common. */
    STAMPROFILE StatRZDynMapHCPage;                 /**< RZ: Calls to pgmRZDynMapHCPageCommon. */
    STAMCOUNTER StatRZDynMapSetOptimize;            /**< RZ: Calls to pgmRZDynMapOptimizeAutoSet. */
    STAMCOUNTER StatRZDynMapSetSearchFlushes;       /**< RZ: Set search restoring to subset flushes. */
    STAMCOUNTER StatRZDynMapSetSearchHits;          /**< RZ: Set search hits. */
    STAMCOUNTER StatRZDynMapSetSearchMisses;        /**< RZ: Set search misses. */
    STAMCOUNTER StatRZDynMapPage;                   /**< RZ: Calls to pgmR0DynMapPage. */
    STAMCOUNTER StatRZDynMapPageHits0;              /**< RZ: Hits at iPage+0. */
    STAMCOUNTER StatRZDynMapPageHits1;              /**< RZ: Hits at iPage+1. */
    STAMCOUNTER StatRZDynMapPageHits2;              /**< RZ: Hits at iPage+2. */
    STAMCOUNTER StatRZDynMapPageInvlPg;             /**< RZ: invlpg. */
    STAMCOUNTER StatRZDynMapPageSlow;               /**< RZ: Calls to pgmR0DynMapPageSlow. */
    STAMCOUNTER StatRZDynMapPageSlowLoopHits;       /**< RZ: Hits in the pgmR0DynMapPageSlow search loop. */
    STAMCOUNTER StatRZDynMapPageSlowLoopMisses;     /**< RZ: Misses in the pgmR0DynMapPageSlow search loop. */
    //STAMCOUNTER StatRZDynMapPageSlowLostHits;       /**< RZ: Lost hits. */
    STAMCOUNTER StatRZDynMapSubsets;                /**< RZ: Times PGMDynMapPushAutoSubset was called. */
    STAMCOUNTER StatRZDynMapPopFlushes;             /**< RZ: Times PGMDynMapPopAutoSubset flushes the subset. */
    STAMCOUNTER aStatRZDynMapSetFilledPct[11];      /**< RZ: Set fill distribution, percent. */

    /* HC - R3 and (maybe) R0: */

    /* RZ & R3: */
    STAMPROFILE StatRZSyncCR3;                      /**< RC/R0: PGMSyncCR3() profiling. */
    STAMPROFILE StatRZSyncCR3Handlers;              /**< RC/R0: Profiling of the PGMSyncCR3() update handler section. */
    STAMCOUNTER StatRZSyncCR3Global;                /**< RC/R0: The number of global CR3 syncs. */
    STAMCOUNTER StatRZSyncCR3NotGlobal;             /**< RC/R0: The number of non-global CR3 syncs. */
    STAMCOUNTER StatRZSyncCR3DstCacheHit;           /**< RC/R0: The number of times we got some kind of cache hit on a page table. */
    STAMCOUNTER StatRZSyncCR3DstFreed;              /**< RC/R0: The number of times we've had to free a shadow entry. */
    STAMCOUNTER StatRZSyncCR3DstFreedSrcNP;         /**< RC/R0: The number of times we've had to free a shadow entry for which the source entry was not present. */
    STAMCOUNTER StatRZSyncCR3DstNotPresent;         /**< RC/R0: The number of times we've encountered a not present shadow entry for a present guest entry. */
    STAMCOUNTER StatRZSyncCR3DstSkippedGlobalPD;    /**< RC/R0: The number of times a global page directory wasn't flushed. */
    STAMCOUNTER StatRZSyncCR3DstSkippedGlobalPT;    /**< RC/R0: The number of times a page table with only global entries wasn't flushed. */
    STAMPROFILE StatRZSyncPT;                       /**< RC/R0: PGMSyncPT() profiling. */
    STAMCOUNTER StatRZSyncPTFailed;                 /**< RC/R0: The number of times PGMSyncPT() failed. */
    STAMCOUNTER StatRZSyncPT4K;                     /**< RC/R0: Number of 4KB syncs. */
    STAMCOUNTER StatRZSyncPT4M;                     /**< RC/R0: Number of 4MB syncs. */
    STAMCOUNTER StatRZSyncPagePDNAs;                /**< RC/R0: The number of time we've marked a PD not present from SyncPage to virtualize the accessed bit. */
    STAMCOUNTER StatRZSyncPagePDOutOfSync;          /**< RC/R0: The number of time we've encountered an out-of-sync PD in SyncPage. */
    STAMCOUNTER StatRZAccessedPage;                 /**< RC/R0: The number of pages marked not present for accessed bit emulation. */
    STAMPROFILE StatRZDirtyBitTracking;             /**< RC/R0: Profiling the dirty bit tracking in CheckPageFault().. */
    STAMCOUNTER StatRZDirtyPage;                    /**< RC/R0: The number of pages marked read-only for dirty bit tracking. */
    STAMCOUNTER StatRZDirtyPageBig;                 /**< RC/R0: The number of pages marked read-only for dirty bit tracking. */
    STAMCOUNTER StatRZDirtyPageSkipped;             /**< RC/R0: The number of pages already dirty or readonly. */
    STAMCOUNTER StatRZDirtyPageTrap;                /**< RC/R0: The number of traps generated for dirty bit tracking. */
    STAMCOUNTER StatRZDirtyPageStale;               /**< RC/R0: The number of traps generated for dirty bit tracking. (stale tlb entries) */
    STAMCOUNTER StatRZDirtyTrackRealPF;             /**< RC/R0: The number of real pages faults during dirty bit tracking. */
    STAMCOUNTER StatRZDirtiedPage;                  /**< RC/R0: The number of pages marked dirty because of write accesses. */
    STAMCOUNTER StatRZPageAlreadyDirty;             /**< RC/R0: The number of pages already marked dirty because of write accesses. */
    STAMPROFILE StatRZInvalidatePage;               /**< RC/R0: PGMInvalidatePage() profiling. */
    STAMCOUNTER StatRZInvalidatePage4KBPages;       /**< RC/R0: The number of times PGMInvalidatePage() was called for a 4KB page. */
    STAMCOUNTER StatRZInvalidatePage4MBPages;       /**< RC/R0: The number of times PGMInvalidatePage() was called for a 4MB page. */
    STAMCOUNTER StatRZInvalidatePage4MBPagesSkip;   /**< RC/R0: The number of times PGMInvalidatePage() skipped a 4MB page. */
    STAMCOUNTER StatRZInvalidatePagePDMappings;     /**< RC/R0: The number of times PGMInvalidatePage() was called for a page directory containing mappings (no conflict). */
    STAMCOUNTER StatRZInvalidatePagePDNAs;          /**< RC/R0: The number of times PGMInvalidatePage() was called for a not accessed page directory. */
    STAMCOUNTER StatRZInvalidatePagePDNPs;          /**< RC/R0: The number of times PGMInvalidatePage() was called for a not present page directory. */
    STAMCOUNTER StatRZInvalidatePagePDOutOfSync;    /**< RC/R0: The number of times PGMInvalidatePage() was called for an out of sync page directory. */
    STAMCOUNTER StatRZInvalidatePageSkipped;        /**< RC/R0: The number of times PGMInvalidatePage() was skipped due to not present shw or pending pending SyncCR3. */
    STAMCOUNTER StatRZPageOutOfSyncUser;            /**< RC/R0: The number of times user page is out of sync was detected in \#PF or VerifyAccessSyncPage. */
    STAMCOUNTER StatRZPageOutOfSyncSupervisor;      /**< RC/R0: The number of times supervisor page is out of sync was detected in in \#PF or VerifyAccessSyncPage. */
    STAMCOUNTER StatRZPageOutOfSyncUserWrite;       /**< RC/R0: The number of times user page is out of sync was detected in \#PF. */
    STAMCOUNTER StatRZPageOutOfSyncSupervisorWrite; /**< RC/R0: The number of times supervisor page is out of sync was detected in in \#PF. */
    STAMCOUNTER StatRZPageOutOfSyncBallloon;        /**< RC/R0: The number of times a ballooned page was accessed (read). */
    STAMPROFILE StatRZPrefetch;                     /**< RC/R0: PGMPrefetchPage. */
    STAMPROFILE StatRZFlushTLB;                     /**< RC/R0: Profiling of the PGMFlushTLB() body. */
    STAMCOUNTER StatRZFlushTLBNewCR3;               /**< RC/R0: The number of times PGMFlushTLB was called with a new CR3, non-global. (switch) */
    STAMCOUNTER StatRZFlushTLBNewCR3Global;         /**< RC/R0: The number of times PGMFlushTLB was called with a new CR3, global. (switch) */
    STAMCOUNTER StatRZFlushTLBSameCR3;              /**< RC/R0: The number of times PGMFlushTLB was called with the same CR3, non-global. (flush) */
    STAMCOUNTER StatRZFlushTLBSameCR3Global;        /**< RC/R0: The number of times PGMFlushTLB was called with the same CR3, global. (flush) */
    STAMPROFILE StatRZGstModifyPage;                /**< RC/R0: Profiling of the PGMGstModifyPage() body */

    STAMPROFILE StatR3SyncCR3;                      /**< R3: PGMSyncCR3() profiling. */
    STAMPROFILE StatR3SyncCR3Handlers;              /**< R3: Profiling of the PGMSyncCR3() update handler section. */
    STAMCOUNTER StatR3SyncCR3Global;                /**< R3: The number of global CR3 syncs. */
    STAMCOUNTER StatR3SyncCR3NotGlobal;             /**< R3: The number of non-global CR3 syncs. */
    STAMCOUNTER StatR3SyncCR3DstFreed;              /**< R3: The number of times we've had to free a shadow entry. */
    STAMCOUNTER StatR3SyncCR3DstFreedSrcNP;         /**< R3: The number of times we've had to free a shadow entry for which the source entry was not present. */
    STAMCOUNTER StatR3SyncCR3DstNotPresent;         /**< R3: The number of times we've encountered a not present shadow entry for a present guest entry. */
    STAMCOUNTER StatR3SyncCR3DstSkippedGlobalPD;    /**< R3: The number of times a global page directory wasn't flushed. */
    STAMCOUNTER StatR3SyncCR3DstSkippedGlobalPT;    /**< R3: The number of times a page table with only global entries wasn't flushed. */
    STAMCOUNTER StatR3SyncCR3DstCacheHit;           /**< R3: The number of times we got some kind of cache hit on a page table. */
    STAMPROFILE StatR3SyncPT;                       /**< R3: PGMSyncPT() profiling. */
    STAMCOUNTER StatR3SyncPTFailed;                 /**< R3: The number of times PGMSyncPT() failed. */
    STAMCOUNTER StatR3SyncPT4K;                     /**< R3: Number of 4KB syncs. */
    STAMCOUNTER StatR3SyncPT4M;                     /**< R3: Number of 4MB syncs. */
    STAMCOUNTER StatR3SyncPagePDNAs;                /**< R3: The number of time we've marked a PD not present from SyncPage to virtualize the accessed bit. */
    STAMCOUNTER StatR3SyncPagePDOutOfSync;          /**< R3: The number of time we've encountered an out-of-sync PD in SyncPage. */
    STAMCOUNTER StatR3AccessedPage;                 /**< R3: The number of pages marked not present for accessed bit emulation. */
    STAMPROFILE StatR3DirtyBitTracking;             /**< R3: Profiling the dirty bit tracking in CheckPageFault(). */
    STAMCOUNTER StatR3DirtyPage;                    /**< R3: The number of pages marked read-only for dirty bit tracking. */
    STAMCOUNTER StatR3DirtyPageBig;                 /**< R3: The number of pages marked read-only for dirty bit tracking. */
    STAMCOUNTER StatR3DirtyPageSkipped;             /**< R3: The number of pages already dirty or readonly. */
    STAMCOUNTER StatR3DirtyPageTrap;                /**< R3: The number of traps generated for dirty bit tracking. */
    STAMCOUNTER StatR3DirtyTrackRealPF;             /**< R3: The number of real pages faults during dirty bit tracking. */
    STAMCOUNTER StatR3DirtiedPage;                  /**< R3: The number of pages marked dirty because of write accesses. */
    STAMCOUNTER StatR3PageAlreadyDirty;             /**< R3: The number of pages already marked dirty because of write accesses. */
    STAMPROFILE StatR3InvalidatePage;               /**< R3: PGMInvalidatePage() profiling. */
    STAMCOUNTER StatR3InvalidatePage4KBPages;       /**< R3: The number of times PGMInvalidatePage() was called for a 4KB page. */
    STAMCOUNTER StatR3InvalidatePage4MBPages;       /**< R3: The number of times PGMInvalidatePage() was called for a 4MB page. */
    STAMCOUNTER StatR3InvalidatePage4MBPagesSkip;   /**< R3: The number of times PGMInvalidatePage() skipped a 4MB page. */
    STAMCOUNTER StatR3InvalidatePagePDNAs;          /**< R3: The number of times PGMInvalidatePage() was called for a not accessed page directory. */
    STAMCOUNTER StatR3InvalidatePagePDNPs;          /**< R3: The number of times PGMInvalidatePage() was called for a not present page directory. */
    STAMCOUNTER StatR3InvalidatePagePDMappings;     /**< R3: The number of times PGMInvalidatePage() was called for a page directory containing mappings (no conflict). */
    STAMCOUNTER StatR3InvalidatePagePDOutOfSync;    /**< R3: The number of times PGMInvalidatePage() was called for an out of sync page directory. */
    STAMCOUNTER StatR3InvalidatePageSkipped;        /**< R3: The number of times PGMInvalidatePage() was skipped due to not present shw or pending pending SyncCR3. */
    STAMCOUNTER StatR3PageOutOfSyncUser;            /**< R3: The number of times user page is out of sync was detected in \#PF or VerifyAccessSyncPage. */
    STAMCOUNTER StatR3PageOutOfSyncSupervisor;      /**< R3: The number of times supervisor page is out of sync was detected in in \#PF or VerifyAccessSyncPage. */
    STAMCOUNTER StatR3PageOutOfSyncUserWrite;       /**< R3: The number of times user page is out of sync was detected in \#PF. */
    STAMCOUNTER StatR3PageOutOfSyncSupervisorWrite; /**< R3: The number of times supervisor page is out of sync was detected in in \#PF. */
    STAMCOUNTER StatR3PageOutOfSyncBallloon;        /**< R3: The number of times a ballooned page was accessed (read). */
    STAMPROFILE StatR3Prefetch;                     /**< R3: PGMPrefetchPage. */
    STAMPROFILE StatR3FlushTLB;                     /**< R3: Profiling of the PGMFlushTLB() body. */
    STAMCOUNTER StatR3FlushTLBNewCR3;               /**< R3: The number of times PGMFlushTLB was called with a new CR3, non-global. (switch) */
    STAMCOUNTER StatR3FlushTLBNewCR3Global;         /**< R3: The number of times PGMFlushTLB was called with a new CR3, global. (switch) */
    STAMCOUNTER StatR3FlushTLBSameCR3;              /**< R3: The number of times PGMFlushTLB was called with the same CR3, non-global. (flush) */
    STAMCOUNTER StatR3FlushTLBSameCR3Global;        /**< R3: The number of times PGMFlushTLB was called with the same CR3, global. (flush) */
    STAMPROFILE StatR3GstModifyPage;                /**< R3: Profiling of the PGMGstModifyPage() body */
    /** @} */
} PGMCPUSTATS;


/**
 * Converts a PGMCPU pointer into a VM pointer.
 * @returns Pointer to the VM structure the PGM is part of.
 * @param   pPGM   Pointer to PGMCPU instance data.
 */
#define PGMCPU2VM(pPGM)         ( (PVM)((char*)(pPGM) - (pPGM)->offVM) )

/**
 * Converts a PGMCPU pointer into a PGM pointer.
 * @returns Pointer to the VM structure the PGM is part of.
 * @param   pPGM   Pointer to PGMCPU instance data.
 */
#define PGMCPU2PGM(pPGMCpu)     ( (PPGM)((char *)(pPGMCpu) - (pPGMCpu)->offPGM) )

/**
 * PGMCPU Data (part of VMCPU).
 */
typedef struct PGMCPU
{
    /** Offset to the VM structure. */
    int32_t                         offVM;
    /** Offset to the VMCPU structure. */
    int32_t                         offVCpu;
    /** Offset of the PGM structure relative to VMCPU. */
    int32_t                         offPGM;
    uint32_t                        uPadding0;      /**< structure size alignment. */

#if defined(VBOX_WITH_2X_4GB_ADDR_SPACE) || defined(VBOX_WITH_RAW_MODE)
    /** Automatically tracked physical memory mapping set.
     * Ring-0 and strict raw-mode builds. */
    PGMMAPSET                       AutoSet;
#endif

    /** A20 gate mask.
     * Our current approach to A20 emulation is to let REM do it and don't bother
     * anywhere else. The interesting Guests will be operating with it enabled anyway.
     * But whould need arrise, we'll subject physical addresses to this mask. */
    RTGCPHYS                        GCPhysA20Mask;
    /** A20 gate state - boolean! */
    bool                            fA20Enabled;
    /** Mirror of the EFER.NXE bit.  Managed by PGMNotifyNxeChanged. */
    bool                            fNoExecuteEnabled;
    /** Unused bits. */
    bool                            afUnused[2];

    /** What needs syncing (PGM_SYNC_*).
     * This is used to queue operations for PGMSyncCR3, PGMInvalidatePage,
     * PGMFlushTLB, and PGMR3Load. */
    RTUINT                          fSyncFlags;

    /** The shadow paging mode. */
    PGMMODE                         enmShadowMode;
    /** The guest paging mode. */
    PGMMODE                         enmGuestMode;

    /** The current physical address representing in the guest CR3 register. */
    RTGCPHYS                        GCPhysCR3;

    /** @name 32-bit Guest Paging.
     * @{ */
    /** The guest's page directory, R3 pointer. */
    R3PTRTYPE(PX86PD)               pGst32BitPdR3;
#ifndef VBOX_WITH_2X_4GB_ADDR_SPACE
    /** The guest's page directory, R0 pointer. */
    R0PTRTYPE(PX86PD)               pGst32BitPdR0;
#endif
    /** The guest's page directory, static RC mapping. */
    RCPTRTYPE(PX86PD)               pGst32BitPdRC;
    /** Mask containing the MBZ bits of a big page PDE. */
    uint32_t                        fGst32BitMbzBigPdeMask;
    /** Set if the page size extension (PSE) is enabled. */
    bool                            fGst32BitPageSizeExtension;
    /** Alignment padding. */
    bool                            afAlignment2[3];
    /** @} */

    /** @name PAE Guest Paging.
     * @{ */
    /** The guest's page directory pointer table, static RC mapping. */
    RCPTRTYPE(PX86PDPT)             pGstPaePdptRC;
    /** The guest's page directory pointer table, R3 pointer. */
    R3PTRTYPE(PX86PDPT)             pGstPaePdptR3;
#ifndef VBOX_WITH_2X_4GB_ADDR_SPACE
    /** The guest's page directory pointer table, R0 pointer. */
    R0PTRTYPE(PX86PDPT)             pGstPaePdptR0;
#endif

    /** The guest's page directories, R3 pointers.
     * These are individual pointers and don't have to be adjacent.
     * These don't have to be up-to-date - use pgmGstGetPaePD() to access them. */
    R3PTRTYPE(PX86PDPAE)            apGstPaePDsR3[4];
    /** The guest's page directories, R0 pointers.
     * Same restrictions as apGstPaePDsR3. */
#ifndef VBOX_WITH_2X_4GB_ADDR_SPACE
    R0PTRTYPE(PX86PDPAE)            apGstPaePDsR0[4];
#endif
    /** The guest's page directories, static GC mapping.
     * Unlike the R3/R0 array the first entry can be accessed as a 2048 entry PD.
     * These don't have to be up-to-date - use pgmGstGetPaePD() to access them. */
    RCPTRTYPE(PX86PDPAE)            apGstPaePDsRC[4];
    /** The physical addresses of the guest page directories (PAE) pointed to by apGstPagePDsHC/GC.
     * @todo Remove this and use aGstPaePdpeRegs instead? */
    RTGCPHYS                        aGCPhysGstPaePDs[4];
    /** The values of the 4 PDPE CPU registers (PAE). */
    X86PDPE                         aGstPaePdpeRegs[4];
    /** The physical addresses of the monitored guest page directories (PAE). */
    RTGCPHYS                        aGCPhysGstPaePDsMonitored[4];
    /** Mask containing the MBZ PTE bits. */
    uint64_t                        fGstPaeMbzPteMask;
    /** Mask containing the MBZ PDE bits. */
    uint64_t                        fGstPaeMbzPdeMask;
    /** Mask containing the MBZ big page PDE bits. */
    uint64_t                        fGstPaeMbzBigPdeMask;
    /** Mask containing the MBZ PDPE bits. */
    uint64_t                        fGstPaeMbzPdpeMask;
    /** @} */

    /** @name AMD64 Guest Paging.
     * @{ */
    /** The guest's page directory pointer table, R3 pointer. */
    R3PTRTYPE(PX86PML4)             pGstAmd64Pml4R3;
#ifndef VBOX_WITH_2X_4GB_ADDR_SPACE
    /** The guest's page directory pointer table, R0 pointer. */
    R0PTRTYPE(PX86PML4)             pGstAmd64Pml4R0;
#else
    RTR0PTR                         alignment6b; /**< alignment equalizer. */
#endif
    /** Mask containing the MBZ PTE bits. */
    uint64_t                        fGstAmd64MbzPteMask;
    /** Mask containing the MBZ PDE bits. */
    uint64_t                        fGstAmd64MbzPdeMask;
    /** Mask containing the MBZ big page PDE bits. */
    uint64_t                        fGstAmd64MbzBigPdeMask;
    /** Mask containing the MBZ PDPE bits. */
    uint64_t                        fGstAmd64MbzPdpeMask;
    /** Mask containing the MBZ big page PDPE bits. */
    uint64_t                        fGstAmd64MbzBigPdpeMask;
    /** Mask containing the MBZ PML4E bits. */
    uint64_t                        fGstAmd64MbzPml4eMask;
    /** Mask containing the PDPE bits that we shadow. */
    uint64_t                        fGstAmd64ShadowedPdpeMask;
    /** Mask containing the PML4E bits that we shadow. */
    uint64_t                        fGstAmd64ShadowedPml4eMask;
    /** @} */

    /** @name PAE and AMD64 Guest Paging.
     * @{ */
    /** Mask containing the PTE bits that we shadow. */
    uint64_t                        fGst64ShadowedPteMask;
    /** Mask containing the PDE bits that we shadow. */
    uint64_t                        fGst64ShadowedPdeMask;
    /** Mask containing the big page PDE bits that we shadow in the PDE. */
    uint64_t                        fGst64ShadowedBigPdeMask;
    /** Mask containing the big page PDE bits that we shadow in the PTE. */
    uint64_t                        fGst64ShadowedBigPde4PteMask;
    /** @}  */

    /** Pointer to the page of the current active CR3 - R3 Ptr. */
    R3PTRTYPE(PPGMPOOLPAGE)         pShwPageCR3R3;
    /** Pointer to the page of the current active CR3 - R0 Ptr. */
    R0PTRTYPE(PPGMPOOLPAGE)         pShwPageCR3R0;
    /** Pointer to the page of the current active CR3 - RC Ptr. */
    RCPTRTYPE(PPGMPOOLPAGE)         pShwPageCR3RC;
    /* The shadow page pool index of the user table as specified during allocation; useful for freeing root pages */
    uint32_t                        iShwUser;
    /* The index into the user table (shadowed) as specified during allocation; useful for freeing root pages. */
    uint32_t                        iShwUserTable;
# if HC_ARCH_BITS == 64
    RTRCPTR                         alignment6; /**< structure size alignment. */
# endif
    /** @} */

    /** @name Function pointers for Shadow paging.
     * @{
     */
    DECLR3CALLBACKMEMBER(int,       pfnR3ShwRelocate,(PVMCPU pVCpu, RTGCPTR offDelta));
    DECLR3CALLBACKMEMBER(int,       pfnR3ShwExit,(PVMCPU pVCpu));
    DECLR3CALLBACKMEMBER(int,       pfnR3ShwGetPage,(PVMCPU pVCpu, RTGCPTR GCPtr, uint64_t *pfFlags, PRTHCPHYS pHCPhys));
    DECLR3CALLBACKMEMBER(int,       pfnR3ShwModifyPage,(PVMCPU pVCpu, RTGCPTR GCPtr, size_t cbPages, uint64_t fFlags, uint64_t fMask, uint32_t fOpFlags));

    DECLRCCALLBACKMEMBER(int,       pfnRCShwGetPage,(PVMCPU pVCpu, RTGCPTR GCPtr, uint64_t *pfFlags, PRTHCPHYS pHCPhys));
    DECLRCCALLBACKMEMBER(int,       pfnRCShwModifyPage,(PVMCPU pVCpu, RTGCPTR GCPtr, size_t cbPages, uint64_t fFlags, uint64_t fMask, uint32_t fOpFlags));

    DECLR0CALLBACKMEMBER(int,       pfnR0ShwGetPage,(PVMCPU pVCpu, RTGCPTR GCPtr, uint64_t *pfFlags, PRTHCPHYS pHCPhys));
    DECLR0CALLBACKMEMBER(int,       pfnR0ShwModifyPage,(PVMCPU pVCpu, RTGCPTR GCPtr, size_t cbPages, uint64_t fFlags, uint64_t fMask, uint32_t fOpFlags));

    /** @} */

    /** @name Function pointers for Guest paging.
     * @{
     */
    DECLR3CALLBACKMEMBER(int,       pfnR3GstRelocate,(PVMCPU pVCpu, RTGCPTR offDelta));
    DECLR3CALLBACKMEMBER(int,       pfnR3GstExit,(PVMCPU pVCpu));
    DECLR3CALLBACKMEMBER(int,       pfnR3GstGetPage,(PVMCPU pVCpu, RTGCPTR GCPtr, uint64_t *pfFlags, PRTGCPHYS pGCPhys));
    DECLR3CALLBACKMEMBER(int,       pfnR3GstModifyPage,(PVMCPU pVCpu, RTGCPTR GCPtr, size_t cbPages, uint64_t fFlags, uint64_t fMask));
    DECLR3CALLBACKMEMBER(int,       pfnR3GstGetPDE,(PVMCPU pVCpu, RTGCPTR GCPtr, PX86PDEPAE pPde));
    DECLRCCALLBACKMEMBER(int,       pfnRCGstGetPage,(PVMCPU pVCpu, RTGCPTR GCPtr, uint64_t *pfFlags, PRTGCPHYS pGCPhys));
    DECLRCCALLBACKMEMBER(int,       pfnRCGstModifyPage,(PVMCPU pVCpu, RTGCPTR GCPtr, size_t cbPages, uint64_t fFlags, uint64_t fMask));
    DECLRCCALLBACKMEMBER(int,       pfnRCGstGetPDE,(PVMCPU pVCpu, RTGCPTR GCPtr, PX86PDEPAE pPde));
#if HC_ARCH_BITS == 64
    RTRCPTR                         alignment3; /**< structure size alignment. */
#endif

    DECLR0CALLBACKMEMBER(int,       pfnR0GstGetPage,(PVMCPU pVCpu, RTGCPTR GCPtr, uint64_t *pfFlags, PRTGCPHYS pGCPhys));
    DECLR0CALLBACKMEMBER(int,       pfnR0GstModifyPage,(PVMCPU pVCpu, RTGCPTR GCPtr, size_t cbPages, uint64_t fFlags, uint64_t fMask));
    DECLR0CALLBACKMEMBER(int,       pfnR0GstGetPDE,(PVMCPU pVCpu, RTGCPTR GCPtr, PX86PDEPAE pPde));
    /** @} */

    /** @name Function pointers for Both Shadow and Guest paging.
     * @{
     */
    DECLR3CALLBACKMEMBER(int,       pfnR3BthRelocate,(PVMCPU pVCpu, RTGCPTR offDelta));
    /*                           no pfnR3BthTrap0eHandler */
    DECLR3CALLBACKMEMBER(int,       pfnR3BthInvalidatePage,(PVMCPU pVCpu, RTGCPTR GCPtrPage));
    DECLR3CALLBACKMEMBER(int,       pfnR3BthSyncCR3,(PVMCPU pVCpu, uint64_t cr0, uint64_t cr3, uint64_t cr4, bool fGlobal));
    DECLR3CALLBACKMEMBER(int,       pfnR3BthPrefetchPage,(PVMCPU pVCpu, RTGCPTR GCPtrPage));
    DECLR3CALLBACKMEMBER(int,       pfnR3BthVerifyAccessSyncPage,(PVMCPU pVCpu, RTGCPTR GCPtrPage, unsigned fFlags, unsigned uError));
    DECLR3CALLBACKMEMBER(unsigned,  pfnR3BthAssertCR3,(PVMCPU pVCpu, uint64_t cr3, uint64_t cr4, RTGCPTR GCPtr, RTGCPTR cb));
    DECLR3CALLBACKMEMBER(int,       pfnR3BthMapCR3,(PVMCPU pVCpu, RTGCPHYS GCPhysCR3));
    DECLR3CALLBACKMEMBER(int,       pfnR3BthUnmapCR3,(PVMCPU pVCpu));

    DECLR0CALLBACKMEMBER(int,       pfnR0BthTrap0eHandler,(PVMCPU pVCpu, RTGCUINT uErr, PCPUMCTXCORE pRegFrame, RTGCPTR pvFault, bool *pfLockTaken));
    DECLR0CALLBACKMEMBER(int,       pfnR0BthInvalidatePage,(PVMCPU pVCpu, RTGCPTR GCPtrPage));
    DECLR0CALLBACKMEMBER(int,       pfnR0BthSyncCR3,(PVMCPU pVCpu, uint64_t cr0, uint64_t cr3, uint64_t cr4, bool fGlobal));
    DECLR0CALLBACKMEMBER(int,       pfnR0BthPrefetchPage,(PVMCPU pVCpu, RTGCPTR GCPtrPage));
    DECLR0CALLBACKMEMBER(int,       pfnR0BthVerifyAccessSyncPage,(PVMCPU pVCpu, RTGCPTR GCPtrPage, unsigned fFlags, unsigned uError));
    DECLR0CALLBACKMEMBER(unsigned,  pfnR0BthAssertCR3,(PVMCPU pVCpu, uint64_t cr3, uint64_t cr4, RTGCPTR GCPtr, RTGCPTR cb));
    DECLR0CALLBACKMEMBER(int,       pfnR0BthMapCR3,(PVMCPU pVCpu, RTGCPHYS GCPhysCR3));
    DECLR0CALLBACKMEMBER(int,       pfnR0BthUnmapCR3,(PVMCPU pVCpu));

    DECLRCCALLBACKMEMBER(int,       pfnRCBthTrap0eHandler,(PVMCPU pVCpu, RTGCUINT uErr, PCPUMCTXCORE pRegFrame, RTGCPTR pvFault, bool *pfLockTaken));
    DECLRCCALLBACKMEMBER(int,       pfnRCBthInvalidatePage,(PVMCPU pVCpu, RTGCPTR GCPtrPage));
    DECLRCCALLBACKMEMBER(int,       pfnRCBthSyncCR3,(PVMCPU pVCpu, uint64_t cr0, uint64_t cr3, uint64_t cr4, bool fGlobal));
    DECLRCCALLBACKMEMBER(int,       pfnRCBthPrefetchPage,(PVMCPU pVCpu, RTGCPTR GCPtrPage));
    DECLRCCALLBACKMEMBER(int,       pfnRCBthVerifyAccessSyncPage,(PVMCPU pVCpu, RTGCPTR GCPtrPage, unsigned fFlags, unsigned uError));
    DECLRCCALLBACKMEMBER(unsigned,  pfnRCBthAssertCR3,(PVMCPU pVCpu, uint64_t cr3, uint64_t cr4, RTGCPTR GCPtr, RTGCPTR cb));
    DECLRCCALLBACKMEMBER(int,       pfnRCBthMapCR3,(PVMCPU pVCpu, RTGCPHYS GCPhysCR3));
    DECLRCCALLBACKMEMBER(int,       pfnRCBthUnmapCR3,(PVMCPU pVCpu));
#if 0
    RTRCPTR                         alignment2; /**< structure size alignment. */
#endif
    /** @} */

    /** For saving stack space, the disassembler state is allocated here instead of
     * on the stack.
     * @note The DISCPUSTATE structure is not R3/R0/RZ clean!  */
    union
    {
        /** The disassembler scratch space. */
        DISCPUSTATE                 DisState;
        /** Padding. */
        uint8_t                     abDisStatePadding[DISCPUSTATE_PADDING_SIZE];
    };

    /** Count the number of pgm pool access handler calls. */
    uint64_t                        cPoolAccessHandler;

    /** @name Release Statistics
     * @{ */
    /** The number of times the guest has switched mode since last reset or statistics reset. */
    STAMCOUNTER                     cGuestModeChanges;
    /** @} */

#ifdef VBOX_WITH_STATISTICS /** @todo move this chunk to the heap.  */
    /** @name Statistics
     * @{ */
    /** RC: Pointer to the statistics. */
    RCPTRTYPE(PGMCPUSTATS *)        pStatsRC;
    /** RC: Which statistic this \#PF should be attributed to. */
    RCPTRTYPE(PSTAMPROFILE)         pStatTrap0eAttributionRC;
    /** R0: Pointer to the statistics. */
    R0PTRTYPE(PGMCPUSTATS *)        pStatsR0;
    /** R0: Which statistic this \#PF should be attributed to. */
    R0PTRTYPE(PSTAMPROFILE)         pStatTrap0eAttributionR0;
    /** R3: Pointer to the statistics. */
    R3PTRTYPE(PGMCPUSTATS *)        pStatsR3;
    /** Alignment padding. */
    RTR3PTR                         pPaddingR3;
    /** @}  */
#endif /* VBOX_WITH_STATISTICS */
} PGMCPU;
/** Pointer to the per-cpu PGM data. */
typedef PGMCPU *PPGMCPU;


/** @name PGM::fSyncFlags Flags
 * @{
 */
/** Updates the virtual access handler state bit in PGMPAGE. */
#define PGM_SYNC_UPDATE_PAGE_BIT_VIRTUAL        RT_BIT(0)
/** Always sync CR3. */
#define PGM_SYNC_ALWAYS                         RT_BIT(1)
/** Check monitoring on next CR3 (re)load and invalidate page.
 * @todo This is obsolete now. Remove after 2.2.0 is branched off. */
#define PGM_SYNC_MONITOR_CR3                    RT_BIT(2)
/** Check guest mapping in SyncCR3. */
#define PGM_SYNC_MAP_CR3                        RT_BIT(3)
/** Clear the page pool (a light weight flush). */
#define PGM_SYNC_CLEAR_PGM_POOL_BIT             8
#define PGM_SYNC_CLEAR_PGM_POOL                 RT_BIT(PGM_SYNC_CLEAR_PGM_POOL_BIT)
/** @} */


RT_C_DECLS_BEGIN

int             pgmLock(PVM pVM);
void            pgmUnlock(PVM pVM);
/**
 * Asserts that the caller owns the PDM lock.
 * This is the internal variant of PGMIsLockOwner.
 * @param   a_pVM           The VM handle.
 */
#define PGM_LOCK_ASSERT_OWNER(a_pVM)    Assert(PDMCritSectIsOwner(&(a_pVM)->pgm.s.CritSectX))
/**
 * Asserts that the caller owns the PDM lock.
 * This is the internal variant of PGMIsLockOwner.
 * @param   a_pVM           The VM handle.
 * @param   a_pVCpu         The current CPU handle.
 */
#define PGM_LOCK_ASSERT_OWNER_EX(a_pVM, a_pVCpu)  Assert(PDMCritSectIsOwnerEx(&(a_pVM)->pgm.s.CritSectX, pVCpu))

int             pgmR3MappingsFixInternal(PVM pVM, RTGCPTR GCPtrBase, uint32_t cb);
int             pgmR3SyncPTResolveConflict(PVM pVM, PPGMMAPPING pMapping, PX86PD pPDSrc, RTGCPTR GCPtrOldMapping);
int             pgmR3SyncPTResolveConflictPAE(PVM pVM, PPGMMAPPING pMapping, RTGCPTR GCPtrOldMapping);
PPGMMAPPING     pgmGetMapping(PVM pVM, RTGCPTR GCPtr);
int             pgmMapResolveConflicts(PVM pVM);
DECLCALLBACK(void) pgmR3MapInfo(PVM pVM, PCDBGFINFOHLP pHlp, const char *pszArgs);

void            pgmR3HandlerPhysicalUpdateAll(PVM pVM);
bool            pgmHandlerPhysicalIsAll(PVM pVM, RTGCPHYS GCPhys);
void            pgmHandlerPhysicalResetAliasedPage(PVM pVM, PPGMPAGE pPage, RTGCPHYS GCPhysPage, bool fDoAccounting);
int             pgmHandlerVirtualFindByPhysAddr(PVM pVM, RTGCPHYS GCPhys, PPGMVIRTHANDLER *ppVirt, unsigned *piPage);
DECLCALLBACK(int) pgmHandlerVirtualResetOne(PAVLROGCPTRNODECORE pNode, void *pvUser);
#if defined(VBOX_STRICT) || defined(LOG_ENABLED)
void            pgmHandlerVirtualDumpPhysPages(PVM pVM);
#else
# define pgmHandlerVirtualDumpPhysPages(a) do { } while (0)
#endif
DECLCALLBACK(void) pgmR3InfoHandlers(PVM pVM, PCDBGFINFOHLP pHlp, const char *pszArgs);
int             pgmR3InitSavedState(PVM pVM, uint64_t cbRam);

int             pgmPhysAllocPage(PVM pVM, PPGMPAGE pPage, RTGCPHYS GCPhys);
int             pgmPhysAllocLargePage(PVM pVM, RTGCPHYS GCPhys);
int             pgmPhysRecheckLargePage(PVM pVM, RTGCPHYS GCPhys, PPGMPAGE pLargePage);
int             pgmPhysPageLoadIntoTlb(PVM pVM, RTGCPHYS GCPhys);
int             pgmPhysPageLoadIntoTlbWithPage(PVM pVM, PPGMPAGE pPage, RTGCPHYS GCPhys);
void            pgmPhysPageMakeWriteMonitoredWritable(PVM pVM, PPGMPAGE pPage);
int             pgmPhysPageMakeWritable(PVM pVM, PPGMPAGE pPage, RTGCPHYS GCPhys);
int             pgmPhysPageMakeWritableAndMap(PVM pVM, PPGMPAGE pPage, RTGCPHYS GCPhys, void **ppv);
int             pgmPhysPageMap(PVM pVM, PPGMPAGE pPage, RTGCPHYS GCPhys, void **ppv);
int             pgmPhysPageMapReadOnly(PVM pVM, PPGMPAGE pPage, RTGCPHYS GCPhys, void const **ppv);
int             pgmPhysPageMapByPageID(PVM pVM, uint32_t idPage, RTHCPHYS HCPhys, void **ppv);
int             pgmPhysGCPhys2R3Ptr(PVM pVM, RTGCPHYS GCPhys, PRTR3PTR pR3Ptr);
int             pgmPhysGCPhys2CCPtrInternalDepr(PVM pVM, PPGMPAGE pPage, RTGCPHYS GCPhys, void **ppv);
int             pgmPhysGCPhys2CCPtrInternal(PVM pVM, PPGMPAGE pPage, RTGCPHYS GCPhys, void **ppv, PPGMPAGEMAPLOCK pLock);
int             pgmPhysGCPhys2CCPtrInternalReadOnly(PVM pVM, PPGMPAGE pPage, RTGCPHYS GCPhys, const void **ppv, PPGMPAGEMAPLOCK pLock);
void            pgmPhysReleaseInternalPageMappingLock(PVM pVM, PPGMPAGEMAPLOCK pLock);
VMMDECL(int)    pgmPhysHandlerRedirectToHC(PVM pVM, RTGCUINT uErrorCode, PCPUMCTXCORE pRegFrame, RTGCPTR pvFault, RTGCPHYS GCPhysFault, void *pvUser);
VMMDECL(int)    pgmPhysRomWriteHandler(PVM pVM, RTGCUINT uErrorCode, PCPUMCTXCORE pRegFrame, RTGCPTR pvFault, RTGCPHYS GCPhysFault, void *pvUser);
int             pgmPhysFreePage(PVM pVM, PGMMFREEPAGESREQ pReq, uint32_t *pcPendingPages, PPGMPAGE pPage, RTGCPHYS GCPhys);
void            pgmPhysInvalidRamRangeTlbs(PVM pVM);
void            pgmPhysInvalidatePageMapTLB(PVM pVM);
void            pgmPhysInvalidatePageMapTLBEntry(PVM pVM, RTGCPHYS GCPhys);
PPGMRAMRANGE    pgmPhysGetRangeSlow(PVM pVM, RTGCPHYS GCPhys);
PPGMRAMRANGE    pgmPhysGetRangeAtOrAboveSlow(PVM pVM, RTGCPHYS GCPhys);
PPGMPAGE        pgmPhysGetPageSlow(PVM pVM, RTGCPHYS GCPhys);
int             pgmPhysGetPageExSlow(PVM pVM, RTGCPHYS GCPhys, PPPGMPAGE ppPage);
int             pgmPhysGetPageAndRangeExSlow(PVM pVM, RTGCPHYS GCPhys, PPPGMPAGE ppPage, PPGMRAMRANGE *ppRam);

#ifdef IN_RING3
void            pgmR3PhysRelinkRamRanges(PVM pVM);
int             pgmR3PhysRamPreAllocate(PVM pVM);
int             pgmR3PhysRamReset(PVM pVM);
int             pgmR3PhysRomReset(PVM pVM);
int             pgmR3PhysChunkMap(PVM pVM, uint32_t idChunk, PPPGMCHUNKR3MAP ppChunk);
int             pgmR3PhysRamTerm(PVM pVM);
void            pgmR3PhysRomTerm(PVM pVM);

int             pgmR3PoolInit(PVM pVM);
void            pgmR3PoolRelocate(PVM pVM);
void            pgmR3PoolResetUnpluggedCpu(PVM pVM, PVMCPU pVCpu);
void            pgmR3PoolReset(PVM pVM);
void            pgmR3PoolClearAll(PVM pVM, bool fFlushRemTlb);
DECLCALLBACK(VBOXSTRICTRC) pgmR3PoolClearAllRendezvous(PVM pVM, PVMCPU pVCpu, void *fpvFlushRemTbl);
void            pgmR3PoolWriteProtectPages(PVM pVM);

#endif /* IN_RING3 */
#if defined(VBOX_WITH_2X_4GB_ADDR_SPACE_IN_R0) || defined(IN_RC)
int             pgmRZDynMapHCPageCommon(PPGMMAPSET pSet, RTHCPHYS HCPhys, void **ppv RTLOG_COMMA_SRC_POS_DECL);
int             pgmRZDynMapGCPageCommon(PVM pVM, PVMCPU pVCpu, RTGCPHYS GCPhys, void **ppv RTLOG_COMMA_SRC_POS_DECL);
# ifdef LOG_ENABLED
void            pgmRZDynMapUnusedHint(PVMCPU pVCpu, void *pvHint, RT_SRC_POS_DECL);
# else
void            pgmRZDynMapUnusedHint(PVMCPU pVCpu, void *pvHint);
# endif
#endif
int             pgmPoolAllocEx(PVM pVM, RTGCPHYS GCPhys, PGMPOOLKIND enmKind, PGMPOOLACCESS enmAccess, uint16_t iUser,
                               uint32_t iUserTable, bool fLockPage, PPPGMPOOLPAGE ppPage);

DECLINLINE(int) pgmPoolAlloc(PVM pVM, RTGCPHYS GCPhys, PGMPOOLKIND enmKind, uint16_t iUser, uint32_t iUserTable,
                             PPPGMPOOLPAGE ppPage)
{
    return pgmPoolAllocEx(pVM, GCPhys, enmKind, PGMPOOLACCESS_DONTCARE, iUser, iUserTable, false, ppPage);
}

void            pgmPoolFree(PVM pVM, RTHCPHYS HCPhys, uint16_t iUser, uint32_t iUserTable);
void            pgmPoolFreeByPage(PPGMPOOL pPool, PPGMPOOLPAGE pPage, uint16_t iUser, uint32_t iUserTable);
int             pgmPoolFlushPage(PPGMPOOL pPool, PPGMPOOLPAGE pPage, bool fFlush = true /* DO NOT USE false UNLESS YOU KNOWN WHAT YOU'RE DOING!! */);
void            pgmPoolFlushPageByGCPhys(PVM pVM, RTGCPHYS GCPhys);
PPGMPOOLPAGE    pgmPoolGetPage(PPGMPOOL pPool, RTHCPHYS HCPhys);
PPGMPOOLPAGE    pgmPoolQueryPageForDbg(PPGMPOOL pPool, RTHCPHYS HCPhys);
int             pgmPoolSyncCR3(PVMCPU pVCpu);
bool            pgmPoolIsDirtyPage(PVM pVM, RTGCPHYS GCPhys);
void            pgmPoolInvalidateDirtyPage(PVM pVM, RTGCPHYS GCPhysPT);
int             pgmPoolTrackUpdateGCPhys(PVM pVM, RTGCPHYS GCPhysPage, PPGMPAGE pPhysPage, bool fFlushPTEs, bool *pfFlushTLBs);
void            pgmPoolTracDerefGCPhysHint(PPGMPOOL pPool, PPGMPOOLPAGE pPage, RTHCPHYS HCPhys, RTGCPHYS GCPhysHint, uint16_t iPte);
uint16_t        pgmPoolTrackPhysExtAddref(PVM pVM, PPGMPAGE pPhysPage, uint16_t u16, uint16_t iShwPT, uint16_t iPte);
void            pgmPoolTrackPhysExtDerefGCPhys(PPGMPOOL pPool, PPGMPOOLPAGE pPoolPage, PPGMPAGE pPhysPage, uint16_t iPte);
void            pgmPoolMonitorChainChanging(PVMCPU pVCpu, PPGMPOOL pPool, PPGMPOOLPAGE pPage, RTGCPHYS GCPhysFault, CTXTYPE(RTGCPTR, RTHCPTR, RTGCPTR) pvAddress, unsigned cbWrite);
int             pgmPoolMonitorChainFlush(PPGMPOOL pPool, PPGMPOOLPAGE pPage);
void            pgmPoolMonitorModifiedInsert(PPGMPOOL pPool, PPGMPOOLPAGE pPage);

void            pgmPoolAddDirtyPage(PVM pVM, PPGMPOOL pPool, PPGMPOOLPAGE pPage);
void            pgmPoolResetDirtyPages(PVM pVM);
void            pgmPoolResetDirtyPage(PVM pVM, RTGCPTR GCPtrPage);

int             pgmR3ExitShadowModeBeforePoolFlush(PVM pVM, PVMCPU pVCpu);
int             pgmR3ReEnterShadowModeAfterPoolFlush(PVM pVM, PVMCPU pVCpu);

void            pgmMapSetShadowPDEs(PVM pVM, PPGMMAPPING pMap, unsigned iNewPDE);
void            pgmMapClearShadowPDEs(PVM pVM, PPGMPOOLPAGE pShwPageCR3, PPGMMAPPING pMap, unsigned iOldPDE, bool fDeactivateCR3);
int             pgmMapActivateCR3(PVM pVM, PPGMPOOLPAGE pShwPageCR3);
int             pgmMapDeactivateCR3(PVM pVM, PPGMPOOLPAGE pShwPageCR3);

int             pgmShwSyncPaePDPtr(PVMCPU pVCpu, RTGCPTR GCPtr, X86PGPAEUINT uGstPdpe, PX86PDPAE *ppPD);
int             pgmShwSyncNestedPageLocked(PVMCPU pVCpu, RTGCPHYS GCPhysFault, uint32_t cPages, PGMMODE enmShwPagingMode);

int             pgmGstLazyMap32BitPD(PVMCPU pVCpu, PX86PD *ppPd);
int             pgmGstLazyMapPaePDPT(PVMCPU pVCpu, PX86PDPT *ppPdpt);
int             pgmGstLazyMapPaePD(PVMCPU pVCpu, uint32_t iPdpt, PX86PDPAE *ppPd);
int             pgmGstLazyMapPml4(PVMCPU pVCpu, PX86PML4 *ppPml4);

# if defined(VBOX_STRICT) && HC_ARCH_BITS == 64
DECLCALLBACK(int)  pgmR3CmdCheckDuplicatePages(PCDBGCCMD pCmd, PDBGCCMDHLP pCmdHlp, PVM pVM, PCDBGCVAR paArgs, unsigned cArgs);
DECLCALLBACK(int)  pgmR3CmdShowSharedModules(PCDBGCCMD pCmd, PDBGCCMDHLP pCmdHlp, PVM pVM, PCDBGCVAR paArgs, unsigned cArgs);
# endif

RT_C_DECLS_END

/** @} */

#endif