632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync

a0f8619bc2bbe3614578c21b5b50a88d2841e7aavboxsync

a0f8619bc2bbe3614578c21b5b50a88d2841e7aavboxsync

a0f8619bc2bbe3614578c21b5b50a88d2841e7aavboxsync#define LOG_GROUP LOG_GROUP_PGM_POOL

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync#include <VBox/pgm.h>

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync#include <VBox/mm.h>

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync#include <VBox/em.h>

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync#include <VBox/cpum.h>

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync#ifdef IN_RC

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync# include <VBox/patm.h>

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync#endif

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync#include "PGMInternal.h"

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync#include <VBox/vm.h>

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync#include <VBox/disopcode.h>

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync#include <VBox/hwacc_vmx.h>

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync#include <VBox/log.h>

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync#include <VBox/err.h>

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync#include <iprt/asm.h>

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync#include <iprt/string.h>

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsyncstatic void pgmPoolFlushAllInt(PPGMPOOL pPool);

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync#ifdef PGMPOOL_WITH_USER_TRACKING

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsyncDECLINLINE(unsigned) pgmPoolTrackGetShadowEntrySize(PGMPOOLKIND enmKind);

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsyncDECLINLINE(unsigned) pgmPoolTrackGetGuestEntrySize(PGMPOOLKIND enmKind);

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsyncstatic void pgmPoolTrackDeref(PPGMPOOL pPool, PPGMPOOLPAGE pPage);

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync#endif

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync#ifdef PGMPOOL_WITH_GCPHYS_TRACKING

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsyncstatic void pgmPoolTracDerefGCPhysHint(PPGMPOOL pPool, PPGMPOOLPAGE pPage, RTHCPHYS HCPhys, RTGCPHYS GCPhysHint);

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync#endif

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync#ifdef PGMPOOL_WITH_CACHE

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsyncstatic int pgmPoolTrackAddUser(PPGMPOOL pPool, PPGMPOOLPAGE pPage, uint16_t iUser, uint32_t iUserTable);

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync#endif

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync#ifdef PGMPOOL_WITH_MONITORING

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsyncstatic void pgmPoolMonitorModifiedRemove(PPGMPOOL pPool, PPGMPOOLPAGE pPage);

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync#endif

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync#ifndef IN_RING3

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsyncDECLEXPORT(int) pgmPoolAccessHandler(PVM pVM, RTGCUINT uErrorCode, PCPUMCTXCORE pRegFrame, RTGCPTR pvFault, RTGCPHYS GCPhysFault, void *pvUser);

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync#endif

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync#ifdef LOG_ENABLED

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsyncstatic const char *pgmPoolPoolKindToStr(uint8_t enmKind);

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync#endif

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsyncvoid pgmPoolTrackFlushGCPhysPT(PVM pVM, PPGMPAGE pPhysPage, uint16_t iShw, uint16_t cRefs);

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsyncvoid pgmPoolTrackFlushGCPhysPTs(PVM pVM, PPGMPAGE pPhysPage, uint16_t iPhysExt);

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsyncint pgmPoolTrackFlushGCPhysPTsSlow(PVM pVM, PPGMPAGE pPhysPage);

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsyncPPGMPOOLPHYSEXT pgmPoolTrackPhysExtAlloc(PVM pVM, uint16_t *piPhysExt);

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsyncvoid pgmPoolTrackPhysExtFree(PVM pVM, uint16_t iPhysExt);

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsyncvoid pgmPoolTrackPhysExtFreeList(PVM pVM, uint16_t iPhysExt);

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsyncDECLINLINE(bool) pgmPoolIsBigPage(PGMPOOLKIND enmKind)

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync{

a0f8619bc2bbe3614578c21b5b50a88d2841e7aavboxsync switch (enmKind)

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync {

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync case PGMPOOLKIND_32BIT_PT_FOR_32BIT_4MB:

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync case PGMPOOLKIND_PAE_PT_FOR_32BIT_4MB:

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync case PGMPOOLKIND_PAE_PT_FOR_PAE_2MB:

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync return true;

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync default:

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync return false;

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync }

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync}

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync#if defined(IN_RC)

a0f8619bc2bbe3614578c21b5b50a88d2841e7aavboxsyncDECLINLINE(void *) PGMPOOL_PAGE_2_LOCKED_PTR(PVM pVM, PPGMPOOLPAGE pPage)

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync{

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync void *pv = pgmPoolMapPageInlined(&pVM->pgm.s, pPage);

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync /* Make sure the dynamic mapping will not be reused. */

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync if (pv)

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync PGMDynLockHCPage(pVM, (uint8_t *)pv);

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync return pv;

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync}

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync#else

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync# define PGMPOOL_PAGE_2_LOCKED_PTR(pVM, pPage) PGMPOOL_PAGE_2_PTR(pVM, pPage)

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync#endif

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync#if defined(IN_RC)

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsyncDECLINLINE(void) PGMPOOL_UNLOCK_PTR(PVM pVM, void *pvPage)

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync{

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync if (pvPage)

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync PGMDynUnlockHCPage(pVM, (uint8_t *)pvPage);

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync}

a0f8619bc2bbe3614578c21b5b50a88d2841e7aavboxsync#else

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync# define PGMPOOL_UNLOCK_PTR(pVM, pPage) do {} while (0)

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync#endif

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync#ifdef PGMPOOL_WITH_MONITORING

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsyncstatic unsigned pgmPoolDisasWriteSize(PDISCPUSTATE pDis)

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync{

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync /*

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync return DISGetParamSize(pDis, &pDis->param1);

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync}

a0f8619bc2bbe3614578c21b5b50a88d2841e7aavboxsync

a0f8619bc2bbe3614578c21b5b50a88d2841e7aavboxsync

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsyncint pgmPoolMonitorChainFlush(PPGMPOOL pPool, PPGMPOOLPAGE pPage)

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync{

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync LogFlow(("pgmPoolMonitorChainFlush: Flush page %RGp type=%d\n", pPage->GCPhys, pPage->enmKind));

a0f8619bc2bbe3614578c21b5b50a88d2841e7aavboxsync

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync /*

a0f8619bc2bbe3614578c21b5b50a88d2841e7aavboxsync uint16_t idx = pPage->idx;

a0f8619bc2bbe3614578c21b5b50a88d2841e7aavboxsync if (pPage->iMonitoredPrev != NIL_PGMPOOL_IDX)

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync {

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync while (pPage->iMonitoredPrev != NIL_PGMPOOL_IDX)

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync {

a0f8619bc2bbe3614578c21b5b50a88d2841e7aavboxsync idx = pPage->iMonitoredPrev;

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync Assert(idx != pPage->idx);

a0f8619bc2bbe3614578c21b5b50a88d2841e7aavboxsync pPage = &pPool->aPages[idx];

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync }

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync }

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync /*

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync int rc = VINF_SUCCESS;

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync for (;;)

a0f8619bc2bbe3614578c21b5b50a88d2841e7aavboxsync {

a0f8619bc2bbe3614578c21b5b50a88d2841e7aavboxsync idx = pPage->iMonitoredNext;

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync Assert(idx != pPage->idx);

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync if (pPage->idx >= PGMPOOL_IDX_FIRST)

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync {

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync int rc2 = pgmPoolFlushPage(pPool, pPage);

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync AssertRC(rc2);

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync }

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync /* next */

a0f8619bc2bbe3614578c21b5b50a88d2841e7aavboxsync if (idx == NIL_PGMPOOL_IDX)

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync break;

a0f8619bc2bbe3614578c21b5b50a88d2841e7aavboxsync pPage = &pPool->aPages[idx];

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync }

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync return rc;

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync}

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsyncDECLINLINE(int) pgmPoolPhysSimpleReadGCPhys(PVM pVM, void *pvDst, CTXTYPE(RTGCPTR, RTHCPTR, RTGCPTR) pvSrc, RTGCPHYS GCPhysSrc, size_t cb)

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync{

a0f8619bc2bbe3614578c21b5b50a88d2841e7aavboxsync#if defined(IN_RING3)

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync memcpy(pvDst, (RTHCPTR)((uintptr_t)pvSrc & ~(RTHCUINTPTR)(cb - 1)), cb);

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync return VINF_SUCCESS;

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync#else

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync /* @todo in RC we could attempt to use the virtual address, although this can cause many faults (PAE Windows XP guest). */

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync return PGMPhysSimpleReadGCPhys(pVM, pvDst, GCPhysSrc & ~(RTGCPHYS)(cb - 1), cb);

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync#endif

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync}

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsyncvoid pgmPoolMonitorChainChanging(PVMCPU pVCpu, PPGMPOOL pPool, PPGMPOOLPAGE pPage, RTGCPHYS GCPhysFault, CTXTYPE(RTGCPTR, RTHCPTR, RTGCPTR) pvAddress, PDISCPUSTATE pCpu)

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync{

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync Assert(pPage->iMonitoredPrev == NIL_PGMPOOL_IDX);

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync const unsigned off = GCPhysFault & PAGE_OFFSET_MASK;

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync const unsigned cbWrite = (pCpu) ? pgmPoolDisasWriteSize(pCpu) : 0;

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync PVM pVM = pPool->CTX_SUFF(pVM);

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync LogFlow(("pgmPoolMonitorChainChanging: %RGv phys=%RGp kind=%s cbWrite=%d\n", (RTGCPTR)pvAddress, GCPhysFault, pgmPoolPoolKindToStr(pPage->enmKind), cbWrite));

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync for (;;)

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync {

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync union

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync {

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync void *pv;

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync PX86PT pPT;

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync PX86PTPAE pPTPae;

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync PX86PD pPD;

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync PX86PDPAE pPDPae;

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync PX86PDPT pPDPT;

632b4638bd18092c6b8edb4e1028c9be112f5076vboxsync PX86PML4 pPML4;

} uShw;

uShw.pv = NULL;

switch (pPage->enmKind)

{

case PGMPOOLKIND_32BIT_PT_FOR_32BIT_PT:

{

uShw.pv = PGMPOOL_PAGE_2_LOCKED_PTR(pVM, pPage);

const unsigned iShw = off / sizeof(X86PTE);

LogFlow(("PGMPOOLKIND_32BIT_PT_FOR_32BIT_PT iShw=%x\n", iShw));

if (uShw.pPT->a[iShw].n.u1Present)

{

# ifdef PGMPOOL_WITH_GCPHYS_TRACKING

X86PTE GstPte;

int rc = pgmPoolPhysSimpleReadGCPhys(pVM, &GstPte, pvAddress, GCPhysFault, sizeof(GstPte));

AssertRC(rc);

Log4(("pgmPoolMonitorChainChanging 32_32: deref %016RX64 GCPhys %08RX32\n", uShw.pPT->a[iShw].u & X86_PTE_PAE_PG_MASK, GstPte.u & X86_PTE_PG_MASK));

pgmPoolTracDerefGCPhysHint(pPool, pPage,

uShw.pPT->a[iShw].u & X86_PTE_PAE_PG_MASK,

GstPte.u & X86_PTE_PG_MASK);

# endif

uShw.pPT->a[iShw].u = 0;

}

break;

}

/* page/2 sized */

case PGMPOOLKIND_PAE_PT_FOR_32BIT_PT:

{

uShw.pv = PGMPOOL_PAGE_2_LOCKED_PTR(pVM, pPage);

if (!((off ^ pPage->GCPhys) & (PAGE_SIZE / 2)))

{

const unsigned iShw = (off / sizeof(X86PTE)) & (X86_PG_PAE_ENTRIES - 1);

LogFlow(("PGMPOOLKIND_PAE_PT_FOR_32BIT_PT iShw=%x\n", iShw));

if (uShw.pPTPae->a[iShw].n.u1Present)

{

# ifdef PGMPOOL_WITH_GCPHYS_TRACKING

X86PTE GstPte;

int rc = pgmPoolPhysSimpleReadGCPhys(pVM, &GstPte, pvAddress, GCPhysFault, sizeof(GstPte));

AssertRC(rc);

Log4(("pgmPoolMonitorChainChanging pae_32: deref %016RX64 GCPhys %08RX32\n", uShw.pPT->a[iShw].u & X86_PTE_PAE_PG_MASK, GstPte.u & X86_PTE_PG_MASK));

pgmPoolTracDerefGCPhysHint(pPool, pPage,

uShw.pPTPae->a[iShw].u & X86_PTE_PAE_PG_MASK,

GstPte.u & X86_PTE_PG_MASK);

# endif

uShw.pPTPae->a[iShw].u = 0;

}

}

break;

}

case PGMPOOLKIND_PAE_PD0_FOR_32BIT_PD:

case PGMPOOLKIND_PAE_PD1_FOR_32BIT_PD:

case PGMPOOLKIND_PAE_PD2_FOR_32BIT_PD:

case PGMPOOLKIND_PAE_PD3_FOR_32BIT_PD:

{

unsigned iGst = off / sizeof(X86PDE);

unsigned iShwPdpt = iGst / 256;

unsigned iShw = (iGst % 256) * 2;

uShw.pv = PGMPOOL_PAGE_2_LOCKED_PTR(pVM, pPage);

LogFlow(("pgmPoolMonitorChainChanging PAE for 32 bits: iGst=%x iShw=%x idx = %d page idx=%d\n", iGst, iShw, iShwPdpt, pPage->enmKind - PGMPOOLKIND_PAE_PD0_FOR_32BIT_PD));

if (iShwPdpt == pPage->enmKind - (unsigned)PGMPOOLKIND_PAE_PD0_FOR_32BIT_PD)

{

for (unsigned i = 0; i < 2; i++)

{

# ifndef IN_RING0

if ((uShw.pPDPae->a[iShw + i].u & (PGM_PDFLAGS_MAPPING | X86_PDE_P)) == (PGM_PDFLAGS_MAPPING | X86_PDE_P))

{

Assert(pgmMapAreMappingsEnabled(&pVM->pgm.s));

VMCPU_FF_SET(pVCpu, VMCPU_FF_PGM_SYNC_CR3);

LogFlow(("pgmPoolMonitorChainChanging: Detected conflict at iShwPdpt=%#x iShw=%#x!\n", iShwPdpt, iShw+i));

break;

}

else

# endif /* !IN_RING0 */

if (uShw.pPDPae->a[iShw+i].n.u1Present)

{

LogFlow(("pgmPoolMonitorChainChanging: pae pd iShw=%#x: %RX64 -> freeing it!\n", iShw+i, uShw.pPDPae->a[iShw+i].u));

pgmPoolFree(pVM,

uShw.pPDPae->a[iShw+i].u & X86_PDE_PAE_PG_MASK,

pPage->idx,

iShw + i);

uShw.pPDPae->a[iShw+i].u = 0;

}

/* paranoia / a bit assumptive. */

if ( pCpu

&& (off & 3)

&& (off & 3) + cbWrite > 4)

{

const unsigned iShw2 = iShw + 2 + i;

if (iShw2 < RT_ELEMENTS(uShw.pPDPae->a))

{

# ifndef IN_RING0

if ((uShw.pPDPae->a[iShw2].u & (PGM_PDFLAGS_MAPPING | X86_PDE_P)) == (PGM_PDFLAGS_MAPPING | X86_PDE_P))

{

Assert(pgmMapAreMappingsEnabled(&pVM->pgm.s));

VMCPU_FF_SET(pVCpu, VMCPU_FF_PGM_SYNC_CR3);

LogFlow(("pgmPoolMonitorChainChanging: Detected conflict at iShwPdpt=%#x iShw2=%#x!\n", iShwPdpt, iShw2));

break;

}

else

# endif /* !IN_RING0 */

if (uShw.pPDPae->a[iShw2].n.u1Present)

{

LogFlow(("pgmPoolMonitorChainChanging: pae pd iShw=%#x: %RX64 -> freeing it!\n", iShw2, uShw.pPDPae->a[iShw2].u));

pgmPoolFree(pVM,

uShw.pPDPae->a[iShw2].u & X86_PDE_PAE_PG_MASK,

pPage->idx,

iShw2);

uShw.pPDPae->a[iShw2].u = 0;

}

}

}

}

}

break;

}

case PGMPOOLKIND_PAE_PT_FOR_PAE_PT:

{

uShw.pv = PGMPOOL_PAGE_2_LOCKED_PTR(pVM, pPage);

const unsigned iShw = off / sizeof(X86PTEPAE);

if (uShw.pPTPae->a[iShw].n.u1Present)

{

# ifdef PGMPOOL_WITH_GCPHYS_TRACKING

X86PTEPAE GstPte;

int rc = pgmPoolPhysSimpleReadGCPhys(pVM, &GstPte, pvAddress, GCPhysFault, sizeof(GstPte));

AssertRC(rc);

Log4(("pgmPoolMonitorChainChanging pae: deref %016RX64 GCPhys %016RX64\n", uShw.pPTPae->a[iShw].u & X86_PTE_PAE_PG_MASK, GstPte.u & X86_PTE_PAE_PG_MASK));

pgmPoolTracDerefGCPhysHint(pPool, pPage,

uShw.pPTPae->a[iShw].u & X86_PTE_PAE_PG_MASK,

GstPte.u & X86_PTE_PAE_PG_MASK);

# endif

uShw.pPTPae->a[iShw].u = 0;

}

/* paranoia / a bit assumptive. */

if ( pCpu

&& (off & 7)

&& (off & 7) + cbWrite > sizeof(X86PTEPAE))

{

const unsigned iShw2 = (off + cbWrite - 1) / sizeof(X86PTEPAE);

AssertBreak(iShw2 < RT_ELEMENTS(uShw.pPTPae->a));

if (uShw.pPTPae->a[iShw2].n.u1Present)

{

# ifdef PGMPOOL_WITH_GCPHYS_TRACKING

X86PTEPAE GstPte;

# ifdef IN_RING3

int rc = pgmPoolPhysSimpleReadGCPhys(pVM, &GstPte, (RTHCPTR)((RTHCUINTPTR)pvAddress + sizeof(GstPte)), GCPhysFault + sizeof(GstPte), sizeof(GstPte));

# else

int rc = pgmPoolPhysSimpleReadGCPhys(pVM, &GstPte, pvAddress + sizeof(GstPte), GCPhysFault + sizeof(GstPte), sizeof(GstPte));

# endif

AssertRC(rc);

Log4(("pgmPoolMonitorChainChanging pae: deref %016RX64 GCPhys %016RX64\n", uShw.pPTPae->a[iShw2].u & X86_PTE_PAE_PG_MASK, GstPte.u & X86_PTE_PAE_PG_MASK));

pgmPoolTracDerefGCPhysHint(pPool, pPage,

uShw.pPTPae->a[iShw2].u & X86_PTE_PAE_PG_MASK,

GstPte.u & X86_PTE_PAE_PG_MASK);

# endif

uShw.pPTPae->a[iShw2].u = 0;

}

}

break;

}

case PGMPOOLKIND_32BIT_PD:

{

uShw.pv = PGMPOOL_PAGE_2_LOCKED_PTR(pVM, pPage);

const unsigned iShw = off / sizeof(X86PTE); // ASSUMING 32-bit guest paging!

LogFlow(("pgmPoolMonitorChainChanging: PGMPOOLKIND_32BIT_PD %x\n", iShw));

# ifndef IN_RING0

if (uShw.pPD->a[iShw].u & PGM_PDFLAGS_MAPPING)

{

Assert(pgmMapAreMappingsEnabled(&pVM->pgm.s));

VMCPU_FF_SET(pVCpu, VMCPU_FF_PGM_SYNC_CR3);

STAM_COUNTER_INC(&(pVCpu->pgm.s.StatRZGuestCR3WriteConflict));

LogFlow(("pgmPoolMonitorChainChanging: Detected conflict at iShw=%#x!\n", iShw));

break;

}

# endif /* !IN_RING0 */

# ifndef IN_RING0

else

# endif /* !IN_RING0 */

{

if (uShw.pPD->a[iShw].n.u1Present)

{

LogFlow(("pgmPoolMonitorChainChanging: 32 bit pd iShw=%#x: %RX64 -> freeing it!\n", iShw, uShw.pPD->a[iShw].u));

pgmPoolFree(pVM,

uShw.pPD->a[iShw].u & X86_PDE_PAE_PG_MASK,

pPage->idx,

iShw);

uShw.pPD->a[iShw].u = 0;

}

}

/* paranoia / a bit assumptive. */

if ( pCpu

&& (off & 3)

&& (off & 3) + cbWrite > sizeof(X86PTE))

{

const unsigned iShw2 = (off + cbWrite - 1) / sizeof(X86PTE);

if ( iShw2 != iShw

&& iShw2 < RT_ELEMENTS(uShw.pPD->a))

{

# ifndef IN_RING0

if (uShw.pPD->a[iShw2].u & PGM_PDFLAGS_MAPPING)

{

Assert(pgmMapAreMappingsEnabled(&pVM->pgm.s));

STAM_COUNTER_INC(&(pVCpu->pgm.s.StatRZGuestCR3WriteConflict));

VMCPU_FF_SET(pVCpu, VMCPU_FF_PGM_SYNC_CR3);

LogFlow(("pgmPoolMonitorChainChanging: Detected conflict at iShw2=%#x!\n", iShw2));

break;

}

# endif /* !IN_RING0 */

# ifndef IN_RING0

else

# endif /* !IN_RING0 */

{

if (uShw.pPD->a[iShw2].n.u1Present)

{

LogFlow(("pgmPoolMonitorChainChanging: 32 bit pd iShw=%#x: %RX64 -> freeing it!\n", iShw2, uShw.pPD->a[iShw2].u));

pgmPoolFree(pVM,

uShw.pPD->a[iShw2].u & X86_PDE_PAE_PG_MASK,

pPage->idx,

iShw2);

uShw.pPD->a[iShw2].u = 0;

}

}

}

}

#if 0 /* useful when running PGMAssertCR3(), a bit too troublesome for general use (TLBs). */

if ( uShw.pPD->a[iShw].n.u1Present

&& !VMCPU_FF_ISSET(pVCpu, VMCPU_FF_PGM_SYNC_CR3))

{

LogFlow(("pgmPoolMonitorChainChanging: iShw=%#x: %RX32 -> freeing it!\n", iShw, uShw.pPD->a[iShw].u));

# ifdef IN_RC /* TLB load - we're pushing things a bit... */

ASMProbeReadByte(pvAddress);

# endif

pgmPoolFree(pVM, uShw.pPD->a[iShw].u & X86_PDE_PG_MASK, pPage->idx, iShw);

uShw.pPD->a[iShw].u = 0;

}

#endif

break;

}

case PGMPOOLKIND_PAE_PD_FOR_PAE_PD:

{

uShw.pv = PGMPOOL_PAGE_2_LOCKED_PTR(pVM, pPage);

const unsigned iShw = off / sizeof(X86PDEPAE);

#ifndef IN_RING0

if (uShw.pPDPae->a[iShw].u & PGM_PDFLAGS_MAPPING)

{

Assert(pgmMapAreMappingsEnabled(&pVM->pgm.s));

VMCPU_FF_SET(pVCpu, VMCPU_FF_PGM_SYNC_CR3);

STAM_COUNTER_INC(&(pVCpu->pgm.s.StatRZGuestCR3WriteConflict));

LogFlow(("pgmPoolMonitorChainChanging: Detected conflict at iShw=%#x!\n", iShw));

break;

}

#endif /* !IN_RING0 */

/*

# ifndef IN_RING0

else

# endif /* !IN_RING0 */

{

if (uShw.pPDPae->a[iShw].n.u1Present)

{

LogFlow(("pgmPoolMonitorChainChanging: pae pd iShw=%#x: %RX64 -> freeing it!\n", iShw, uShw.pPDPae->a[iShw].u));

pgmPoolFree(pVM,

uShw.pPDPae->a[iShw].u & X86_PDE_PAE_PG_MASK,

pPage->idx,

iShw);

uShw.pPDPae->a[iShw].u = 0;

}

}

/* paranoia / a bit assumptive. */

if ( pCpu

&& (off & 7)

&& (off & 7) + cbWrite > sizeof(X86PDEPAE))

{

const unsigned iShw2 = (off + cbWrite - 1) / sizeof(X86PDEPAE);

AssertBreak(iShw2 < RT_ELEMENTS(uShw.pPDPae->a));

#ifndef IN_RING0

if ( iShw2 != iShw

&& uShw.pPDPae->a[iShw2].u & PGM_PDFLAGS_MAPPING)

{

Assert(pgmMapAreMappingsEnabled(&pVM->pgm.s));

VMCPU_FF_SET(pVCpu, VMCPU_FF_PGM_SYNC_CR3);

STAM_COUNTER_INC(&(pVCpu->pgm.s.StatRZGuestCR3WriteConflict));

LogFlow(("pgmPoolMonitorChainChanging: Detected conflict at iShw2=%#x!\n", iShw2));

break;

}

#endif /* !IN_RING0 */

# ifndef IN_RING0

else

# endif /* !IN_RING0 */

if (uShw.pPDPae->a[iShw2].n.u1Present)

{

LogFlow(("pgmPoolMonitorChainChanging: pae pd iShw2=%#x: %RX64 -> freeing it!\n", iShw2, uShw.pPDPae->a[iShw2].u));

pgmPoolFree(pVM,

uShw.pPDPae->a[iShw2].u & X86_PDE_PAE_PG_MASK,

pPage->idx,

iShw2);

uShw.pPDPae->a[iShw2].u = 0;

}

}

break;

}

case PGMPOOLKIND_PAE_PDPT:

{

/*

/* PDPT roots are not page aligned; 32 byte only! */

const unsigned offPdpt = GCPhysFault - pPage->GCPhys;

uShw.pv = PGMPOOL_PAGE_2_LOCKED_PTR(pVM, pPage);

const unsigned iShw = offPdpt / sizeof(X86PDPE);

if (iShw < X86_PG_PAE_PDPE_ENTRIES) /* don't use RT_ELEMENTS(uShw.pPDPT->a), because that's for long mode only */

{

# ifndef IN_RING0

if (uShw.pPDPT->a[iShw].u & PGM_PLXFLAGS_MAPPING)

{

Assert(pgmMapAreMappingsEnabled(&pVM->pgm.s));

STAM_COUNTER_INC(&(pVCpu->pgm.s.StatRZGuestCR3WriteConflict));

VMCPU_FF_SET(pVCpu, VMCPU_FF_PGM_SYNC_CR3);

LogFlow(("pgmPoolMonitorChainChanging: Detected pdpt conflict at iShw=%#x!\n", iShw));

break;

}

# endif /* !IN_RING0 */

# ifndef IN_RING0

else

# endif /* !IN_RING0 */

if (uShw.pPDPT->a[iShw].n.u1Present)

{

LogFlow(("pgmPoolMonitorChainChanging: pae pdpt iShw=%#x: %RX64 -> freeing it!\n", iShw, uShw.pPDPT->a[iShw].u));

pgmPoolFree(pVM,

uShw.pPDPT->a[iShw].u & X86_PDPE_PG_MASK,

pPage->idx,

iShw);

uShw.pPDPT->a[iShw].u = 0;

}

/* paranoia / a bit assumptive. */

if ( pCpu

&& (offPdpt & 7)

&& (offPdpt & 7) + cbWrite > sizeof(X86PDPE))

{

const unsigned iShw2 = (offPdpt + cbWrite - 1) / sizeof(X86PDPE);

if ( iShw2 != iShw

&& iShw2 < X86_PG_PAE_PDPE_ENTRIES)

{

# ifndef IN_RING0

if (uShw.pPDPT->a[iShw2].u & PGM_PLXFLAGS_MAPPING)

{

Assert(pgmMapAreMappingsEnabled(&pVM->pgm.s));

STAM_COUNTER_INC(&(pVCpu->pgm.s.StatRZGuestCR3WriteConflict));

VMCPU_FF_SET(pVCpu, VMCPU_FF_PGM_SYNC_CR3);

LogFlow(("pgmPoolMonitorChainChanging: Detected conflict at iShw2=%#x!\n", iShw2));

break;

}

# endif /* !IN_RING0 */

# ifndef IN_RING0

else

# endif /* !IN_RING0 */

if (uShw.pPDPT->a[iShw2].n.u1Present)

{

LogFlow(("pgmPoolMonitorChainChanging: pae pdpt iShw=%#x: %RX64 -> freeing it!\n", iShw2, uShw.pPDPT->a[iShw2].u));

pgmPoolFree(pVM,

uShw.pPDPT->a[iShw2].u & X86_PDPE_PG_MASK,

pPage->idx,

iShw2);

uShw.pPDPT->a[iShw2].u = 0;

}

}

}

}

break;

}

#ifndef IN_RC

case PGMPOOLKIND_64BIT_PD_FOR_64BIT_PD:

{

uShw.pv = PGMPOOL_PAGE_2_LOCKED_PTR(pVM, pPage);

const unsigned iShw = off / sizeof(X86PDEPAE);

Assert(!(uShw.pPDPae->a[iShw].u & PGM_PDFLAGS_MAPPING));

if (uShw.pPDPae->a[iShw].n.u1Present)

{

LogFlow(("pgmPoolMonitorChainChanging: pae pd iShw=%#x: %RX64 -> freeing it!\n", iShw, uShw.pPDPae->a[iShw].u));

pgmPoolFree(pVM,

uShw.pPDPae->a[iShw].u & X86_PDE_PAE_PG_MASK,

pPage->idx,

iShw);

uShw.pPDPae->a[iShw].u = 0;

}

/* paranoia / a bit assumptive. */

if ( pCpu

&& (off & 7)

&& (off & 7) + cbWrite > sizeof(X86PDEPAE))

{

const unsigned iShw2 = (off + cbWrite - 1) / sizeof(X86PDEPAE);

AssertBreak(iShw2 < RT_ELEMENTS(uShw.pPDPae->a));

Assert(!(uShw.pPDPae->a[iShw2].u & PGM_PDFLAGS_MAPPING));

if (uShw.pPDPae->a[iShw2].n.u1Present)

{

LogFlow(("pgmPoolMonitorChainChanging: pae pd iShw2=%#x: %RX64 -> freeing it!\n", iShw2, uShw.pPDPae->a[iShw2].u));

pgmPoolFree(pVM,

uShw.pPDPae->a[iShw2].u & X86_PDE_PAE_PG_MASK,

pPage->idx,

iShw2);

uShw.pPDPae->a[iShw2].u = 0;

}

}

break;

}

case PGMPOOLKIND_64BIT_PDPT_FOR_64BIT_PDPT:

{

/*

if (!VMCPU_FF_ISSET(pVCpu, VMCPU_FF_PGM_SYNC_CR3))

{

uShw.pv = PGMPOOL_PAGE_2_LOCKED_PTR(pVM, pPage);

const unsigned iShw = off / sizeof(X86PDPE);

if (uShw.pPDPT->a[iShw].n.u1Present)

{

LogFlow(("pgmPoolMonitorChainChanging: pdpt iShw=%#x: %RX64 -> freeing it!\n", iShw, uShw.pPDPT->a[iShw].u));

pgmPoolFree(pVM, uShw.pPDPT->a[iShw].u & X86_PDPE_PG_MASK, pPage->idx, iShw);

uShw.pPDPT->a[iShw].u = 0;

}

/* paranoia / a bit assumptive. */

if ( pCpu

&& (off & 7)

&& (off & 7) + cbWrite > sizeof(X86PDPE))

{

const unsigned iShw2 = (off + cbWrite - 1) / sizeof(X86PDPE);

if (uShw.pPDPT->a[iShw2].n.u1Present)

{

LogFlow(("pgmPoolMonitorChainChanging: pdpt iShw2=%#x: %RX64 -> freeing it!\n", iShw2, uShw.pPDPT->a[iShw2].u));

pgmPoolFree(pVM, uShw.pPDPT->a[iShw2].u & X86_PDPE_PG_MASK, pPage->idx, iShw2);

uShw.pPDPT->a[iShw2].u = 0;

}

}

}

break;

}

case PGMPOOLKIND_64BIT_PML4:

{

/*

if (!VMCPU_FF_ISSET(pVCpu, VMCPU_FF_PGM_SYNC_CR3))

{

uShw.pv = PGMPOOL_PAGE_2_LOCKED_PTR(pVM, pPage);

const unsigned iShw = off / sizeof(X86PDPE);

if (uShw.pPML4->a[iShw].n.u1Present)

{

LogFlow(("pgmPoolMonitorChainChanging: pml4 iShw=%#x: %RX64 -> freeing it!\n", iShw, uShw.pPML4->a[iShw].u));

pgmPoolFree(pVM, uShw.pPML4->a[iShw].u & X86_PML4E_PG_MASK, pPage->idx, iShw);

uShw.pPML4->a[iShw].u = 0;

}

/* paranoia / a bit assumptive. */

if ( pCpu

&& (off & 7)

&& (off & 7) + cbWrite > sizeof(X86PDPE))

{

const unsigned iShw2 = (off + cbWrite - 1) / sizeof(X86PML4E);

if (uShw.pPML4->a[iShw2].n.u1Present)

{

LogFlow(("pgmPoolMonitorChainChanging: pml4 iShw2=%#x: %RX64 -> freeing it!\n", iShw2, uShw.pPML4->a[iShw2].u));

pgmPoolFree(pVM, uShw.pPML4->a[iShw2].u & X86_PML4E_PG_MASK, pPage->idx, iShw2);

uShw.pPML4->a[iShw2].u = 0;

}

}

}

break;

}

#endif /* IN_RING0 */

default:

AssertFatalMsgFailed(("enmKind=%d\n", pPage->enmKind));

}

PGMPOOL_UNLOCK_PTR(pVM, uShw.pv);

/* next */

if (pPage->iMonitoredNext == NIL_PGMPOOL_IDX)

return;

pPage = &pPool->aPages[pPage->iMonitoredNext];

}

}

# ifndef IN_RING3

DECLINLINE(bool) pgmPoolMonitorIsForking(PPGMPOOL pPool, PDISCPUSTATE pCpu, unsigned offFault)

{

/*

if ( pCpu->pCurInstr->opcode == OP_BTR

&& !(offFault & 4)

/** @todo Validate that the bit index is X86_PTE_RW. */

)

{

STAM_COUNTER_INC(&pPool->CTX_MID_Z(StatMonitor,Fork));

return true;

}

return false;

}

DECLINLINE(bool) pgmPoolMonitorIsReused(PVM pVM, PPGMPOOLPAGE pPage, PCPUMCTXCORE pRegFrame, PDISCPUSTATE pCpu, RTGCPTR pvFault)

{

#ifndef IN_RC

/** @todo could make this general, faulting close to rsp should be safe reuse heuristic. */

if ( HWACCMHasPendingIrq(pVM)

&& (pRegFrame->rsp - pvFault) < 32)

{

/* Fault caused by stack writes while trying to inject an interrupt event. */

Log(("pgmPoolMonitorIsReused: reused %RGv for interrupt stack (rsp=%RGv).\n", pvFault, pRegFrame->rsp));

return true;

}

#else

NOREF(pVM); NOREF(pvFault);

#endif

switch (pCpu->pCurInstr->opcode)

{

/* call implies the actual push of the return address faulted */

case OP_CALL:

Log4(("pgmPoolMonitorIsReused: CALL\n"));

return true;

case OP_PUSH:

Log4(("pgmPoolMonitorIsReused: PUSH\n"));

return true;

case OP_PUSHF:

Log4(("pgmPoolMonitorIsReused: PUSHF\n"));

return true;

case OP_PUSHA:

Log4(("pgmPoolMonitorIsReused: PUSHA\n"));

return true;

case OP_FXSAVE:

Log4(("pgmPoolMonitorIsReused: FXSAVE\n"));

return true;

case OP_MOVNTI: /* solaris - block_zero_no_xmm */

Log4(("pgmPoolMonitorIsReused: MOVNTI\n"));

return true;

case OP_MOVNTDQ: /* solaris - hwblkclr & hwblkpagecopy */

Log4(("pgmPoolMonitorIsReused: MOVNTDQ\n"));

return true;

case OP_MOVSWD:

case OP_STOSWD:

if ( pCpu->prefix == (PREFIX_REP|PREFIX_REX)

&& pRegFrame->rcx >= 0x40

)

{

Assert(pCpu->mode == CPUMODE_64BIT);

Log(("pgmPoolMonitorIsReused: OP_STOSQ\n"));

return true;

}

return false;

}

if ( (pCpu->param1.flags & USE_REG_GEN32)

&& (pCpu->param1.base.reg_gen == USE_REG_ESP))

{

Log4(("pgmPoolMonitorIsReused: ESP\n"));

return true;

}

//if (pPage->fCR3Mix)

// return false;

return false;

}

static int pgmPoolAccessHandlerFlush(PVM pVM, PVMCPU pVCpu, PPGMPOOL pPool, PPGMPOOLPAGE pPage, PDISCPUSTATE pCpu,

PCPUMCTXCORE pRegFrame, RTGCPHYS GCPhysFault, RTGCPTR pvFault)

{

/*

int rc = pgmPoolMonitorChainFlush(pPool, pPage);

/*

uint32_t cbWritten;

int rc2 = EMInterpretInstructionCPU(pVM, pVCpu, pCpu, pRegFrame, pvFault, &cbWritten);

if (RT_SUCCESS(rc2))

pRegFrame->rip += pCpu->opsize;

else if (rc2 == VERR_EM_INTERPRETER)

{

#ifdef IN_RC

if (PATMIsPatchGCAddr(pVM, (RTRCPTR)pRegFrame->eip))

{

LogFlow(("pgmPoolAccessHandlerPTWorker: Interpretation failed for patch code %04x:%RGv, ignoring.\n",

pRegFrame->cs, (RTGCPTR)pRegFrame->eip));

rc = VINF_SUCCESS;

STAM_COUNTER_INC(&pPool->StatMonitorRZIntrFailPatch2);

}

else

#endif

{

rc = VINF_EM_RAW_EMULATE_INSTR;

STAM_COUNTER_INC(&pPool->CTX_MID_Z(StatMonitor,EmulateInstr));

}

}

else

rc = rc2;

/* See use in pgmPoolAccessHandlerSimple(). */

PGM_INVL_GUEST_TLBS();

LogFlow(("pgmPoolAccessHandlerPT: returns %Rrc (flushed)\n", rc));

return rc;

}

DECLINLINE(int) pgmPoolAccessHandlerSTOSD(PVM pVM, PPGMPOOL pPool, PPGMPOOLPAGE pPage, PDISCPUSTATE pCpu,

PCPUMCTXCORE pRegFrame, RTGCPHYS GCPhysFault, RTGCPTR pvFault)

{

Assert(pCpu->mode == CPUMODE_32BIT);

Log3(("pgmPoolAccessHandlerSTOSD\n"));

/*

if (!pPage->cModifications++)

pgmPoolMonitorModifiedInsert(pPool, pPage);

/*

PVMCPU pVCpu = VMMGetCpu(pPool->CTX_SUFF(pVM));

RTGCUINTPTR pu32 = (RTGCUINTPTR)pvFault;

while (pRegFrame->ecx)

{

#ifdef VBOX_WITH_2X_4GB_ADDR_SPACE_IN_R0

uint32_t iPrevSubset = PGMDynMapPushAutoSubset(pVCpu);

pgmPoolMonitorChainChanging(pVCpu, pPool, pPage, GCPhysFault, (RTGCPTR)pu32, NULL);

PGMDynMapPopAutoSubset(pVCpu, iPrevSubset);

#else

pgmPoolMonitorChainChanging(pVCpu, pPool, pPage, GCPhysFault, (RTGCPTR)pu32, NULL);

#endif

#ifdef IN_RC

*(uint32_t *)pu32 = pRegFrame->eax;

#else

PGMPhysSimpleWriteGCPhys(pVM, GCPhysFault, &pRegFrame->eax, 4);

#endif

pu32 += 4;

GCPhysFault += 4;

pRegFrame->edi += 4;

pRegFrame->ecx--;

}

pRegFrame->rip += pCpu->opsize;

#ifdef IN_RC

/* See use in pgmPoolAccessHandlerSimple(). */

PGM_INVL_GUEST_TLBS();

#endif

LogFlow(("pgmPoolAccessHandlerSTOSD: returns\n"));

return VINF_SUCCESS;

}

DECLINLINE(int) pgmPoolAccessHandlerSimple(PVM pVM, PVMCPU pVCpu, PPGMPOOL pPool, PPGMPOOLPAGE pPage, PDISCPUSTATE pCpu,

PCPUMCTXCORE pRegFrame, RTGCPHYS GCPhysFault, RTGCPTR pvFault)

{

Log3(("pgmPoolAccessHandlerSimple\n"));

/*

if (!pPage->cModifications++)

pgmPoolMonitorModifiedInsert(pPool, pPage);

/*

#ifdef VBOX_WITH_2X_4GB_ADDR_SPACE_IN_R0

uint32_t iPrevSubset = PGMDynMapPushAutoSubset(pVCpu);

pgmPoolMonitorChainChanging(pVCpu, pPool, pPage, GCPhysFault, pvFault, pCpu);

PGMDynMapPopAutoSubset(pVCpu, iPrevSubset);

#else

pgmPoolMonitorChainChanging(pVCpu, pPool, pPage, GCPhysFault, pvFault, pCpu);

#endif

/*

uint32_t cb;

int rc = EMInterpretInstructionCPU(pVM, pVCpu, pCpu, pRegFrame, pvFault, &cb);

if (RT_SUCCESS(rc))

pRegFrame->rip += pCpu->opsize;

else if (rc == VERR_EM_INTERPRETER)

{

LogFlow(("pgmPoolAccessHandlerPTWorker: Interpretation failed for %04x:%RGv - opcode=%d\n",

pRegFrame->cs, (RTGCPTR)pRegFrame->rip, pCpu->pCurInstr->opcode));

rc = VINF_EM_RAW_EMULATE_INSTR;

STAM_COUNTER_INC(&pPool->CTX_MID_Z(StatMonitor,EmulateInstr));

}

#ifdef IN_RC

/*

PGM_INVL_GUEST_TLBS();

#endif

LogFlow(("pgmPoolAccessHandlerSimple: returns %Rrc cb=%d\n", rc, cb));

return rc;

}

DECLEXPORT(int) pgmPoolAccessHandler(PVM pVM, RTGCUINT uErrorCode, PCPUMCTXCORE pRegFrame, RTGCPTR pvFault, RTGCPHYS GCPhysFault, void *pvUser)

{

STAM_PROFILE_START(&pVM->pgm.s.CTX_SUFF(pPool)->CTX_SUFF_Z(StatMonitor), a);

PPGMPOOL pPool = pVM->pgm.s.CTX_SUFF(pPool);

PPGMPOOLPAGE pPage = (PPGMPOOLPAGE)pvUser;

PVMCPU pVCpu = VMMGetCpu(pVM);

LogFlow(("pgmPoolAccessHandler: pvFault=%RGv pPage=%p:{.idx=%d} GCPhysFault=%RGp\n", pvFault, pPage, pPage->idx, GCPhysFault));

/*

Assert(pPage->iMonitoredPrev == NIL_PGMPOOL_IDX);

/*

DISCPUSTATE Cpu;

int rc = EMInterpretDisasOne(pVM, pVCpu, pRegFrame, &Cpu, NULL);

AssertRCReturn(rc, rc);

/*

bool fReused = false;

if ( ( pPage->cModifications < 48 /** @todo #define */ /** @todo need to check that it's not mapping EIP. */ /** @todo adjust this! */

|| pgmPoolIsPageLocked(&pVM->pgm.s, pPage)

)

&& !(fReused = pgmPoolMonitorIsReused(pVM, pPage, pRegFrame, &Cpu, pvFault))

&& !pgmPoolMonitorIsForking(pPool, &Cpu, GCPhysFault & PAGE_OFFSET_MASK))

{

/*

if (!(Cpu.prefix & (PREFIX_REP | PREFIX_REPNE)))

{

rc = pgmPoolAccessHandlerSimple(pVM, pVCpu, pPool, pPage, &Cpu, pRegFrame, GCPhysFault, pvFault);

STAM_PROFILE_STOP_EX(&pVM->pgm.s.CTX_SUFF(pPool)->CTX_SUFF_Z(StatMonitor), &pPool->CTX_MID_Z(StatMonitor,Handled), a);

return rc;

}

/*

if ( Cpu.pCurInstr->opcode == OP_STOSWD

&& CPUMGetGuestCPL(pVCpu, pRegFrame) == 0

&& pRegFrame->ecx <= 0x20

&& pRegFrame->ecx * 4 <= PAGE_SIZE - ((uintptr_t)pvFault & PAGE_OFFSET_MASK)

&& !((uintptr_t)pvFault & 3)

&& (pRegFrame->eax == 0 || pRegFrame->eax == 0x80) /* the two values observed. */

&& Cpu.mode == CPUMODE_32BIT

&& Cpu.opmode == CPUMODE_32BIT

&& Cpu.addrmode == CPUMODE_32BIT

&& Cpu.prefix == PREFIX_REP

&& !pRegFrame->eflags.Bits.u1DF

)

{

rc = pgmPoolAccessHandlerSTOSD(pVM, pPool, pPage, &Cpu, pRegFrame, GCPhysFault, pvFault);

STAM_PROFILE_STOP_EX(&pVM->pgm.s.CTX_SUFF(pPool)->CTX_SUFF_Z(StatMonitor), &pPool->CTX_MID_Z(StatMonitor,RepStosd), a);

return rc;

}

/* REP prefix, don't bother. */

STAM_COUNTER_INC(&pPool->CTX_MID_Z(StatMonitor,RepPrefix));

Log4(("pgmPoolAccessHandler: eax=%#x ecx=%#x edi=%#x esi=%#x rip=%RGv opcode=%d prefix=%#x\n",

pRegFrame->eax, pRegFrame->ecx, pRegFrame->edi, pRegFrame->esi, (RTGCPTR)pRegFrame->rip, Cpu.pCurInstr->opcode, Cpu.prefix));

}

/*

rc = pgmPoolAccessHandlerFlush(pVM, pVCpu, pPool, pPage, &Cpu, pRegFrame, GCPhysFault, pvFault);

if (rc == VINF_EM_RAW_EMULATE_INSTR && fReused)

rc = VINF_SUCCESS;

STAM_PROFILE_STOP_EX(&pVM->pgm.s.CTX_SUFF(pPool)->CTX_SUFF_Z(StatMonitor), &pPool->CTX_MID_Z(StatMonitor,FlushPage), a);

return rc;

}

# endif /* !IN_RING3 */

#endif /* PGMPOOL_WITH_MONITORING */

#ifdef PGMPOOL_WITH_CACHE

DECLINLINE(void) pgmPoolHashInsert(PPGMPOOL pPool, PPGMPOOLPAGE pPage)

{

Log3(("pgmPoolHashInsert: %RGp\n", pPage->GCPhys));

Assert(pPage->GCPhys != NIL_RTGCPHYS); Assert(pPage->iNext == NIL_PGMPOOL_IDX);

uint16_t iHash = PGMPOOL_HASH(pPage->GCPhys);

pPage->iNext = pPool->aiHash[iHash];

pPool->aiHash[iHash] = pPage->idx;

}

DECLINLINE(void) pgmPoolHashRemove(PPGMPOOL pPool, PPGMPOOLPAGE pPage)

{

Log3(("pgmPoolHashRemove: %RGp\n", pPage->GCPhys));

uint16_t iHash = PGMPOOL_HASH(pPage->GCPhys);

if (pPool->aiHash[iHash] == pPage->idx)

pPool->aiHash[iHash] = pPage->iNext;

else

{

uint16_t iPrev = pPool->aiHash[iHash];

for (;;)

{

const int16_t i = pPool->aPages[iPrev].iNext;

if (i == pPage->idx)

{

pPool->aPages[iPrev].iNext = pPage->iNext;

break;

}

if (i == NIL_PGMPOOL_IDX)

{

AssertReleaseMsgFailed(("GCPhys=%RGp idx=%#x\n", pPage->GCPhys, pPage->idx));

break;

}

iPrev = i;

}

}

pPage->iNext = NIL_PGMPOOL_IDX;

}

static int pgmPoolCacheFreeOne(PPGMPOOL pPool, uint16_t iUser)

{

#ifndef IN_RC

const PVM pVM = pPool->CTX_SUFF(pVM);

#endif

Assert(pPool->iAgeHead != pPool->iAgeTail); /* We shouldn't be here if there < 2 cached entries! */

STAM_COUNTER_INC(&pPool->StatCacheFreeUpOne);

/*

PPGMPOOLPAGE pPage;

for (unsigned iLoop = 0; ; iLoop++)

{

uint16_t iToFree = pPool->iAgeTail;

if (iToFree == iUser)

iToFree = pPool->aPages[iToFree].iAgePrev;

Assert(iToFree != iUser);

AssertRelease(iToFree != NIL_PGMPOOL_IDX);

pPage = &pPool->aPages[iToFree];

/*

if (!pgmPoolIsPageLocked(&pPool->CTX_SUFF(pVM)->pgm.s, pPage))

break;

LogFlow(("pgmPoolCacheFreeOne: refuse CR3 mapping\n"));

pgmPoolCacheUsed(pPool, pPage);

AssertLogRelReturn(iLoop < 8192, VERR_INTERNAL_ERROR);