PGMAllPool.cpp revision 3ecd8008b81f02a04220705ae0033142af363280
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * PGM Shadow Page Pool.
1c94c0a63ba68be1a7b2c640e70d7a06464e4fcavboxsync * Copyright (C) 2006-2007 Sun Microsystems, Inc.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * This file is part of VirtualBox Open Source Edition (OSE), as
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * available from http://www.virtualbox.org. This file is free software;
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * you can redistribute it and/or modify it under the terms of the GNU
a16eb14ad7a4b5ef91ddc22d3e8e92d930f736fcvboxsync * General Public License (GPL) as published by the Free Software
a16eb14ad7a4b5ef91ddc22d3e8e92d930f736fcvboxsync * Foundation, in version 2 as it comes in the "COPYING" file of the
a16eb14ad7a4b5ef91ddc22d3e8e92d930f736fcvboxsync * VirtualBox OSE distribution. VirtualBox OSE is distributed in the
a16eb14ad7a4b5ef91ddc22d3e8e92d930f736fcvboxsync * hope that it will be useful, but WITHOUT ANY WARRANTY of any kind.
1c94c0a63ba68be1a7b2c640e70d7a06464e4fcavboxsync * Please contact Sun Microsystems, Inc., 4150 Network Circle, Santa
1c94c0a63ba68be1a7b2c640e70d7a06464e4fcavboxsync * Clara, CA 95054 USA or visit http://www.sun.com if you need
1c94c0a63ba68be1a7b2c640e70d7a06464e4fcavboxsync * additional information or have any questions.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync/*******************************************************************************
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync* Header Files *
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync*******************************************************************************/
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync/*******************************************************************************
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync* Internal Functions *
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync*******************************************************************************/
223cf005b18af2c21352a70693ebaf0582f68ebcvboxsyncDECLINLINE(unsigned) pgmPoolTrackGetShadowEntrySize(PGMPOOLKIND enmKind);
223cf005b18af2c21352a70693ebaf0582f68ebcvboxsyncDECLINLINE(unsigned) pgmPoolTrackGetGuestEntrySize(PGMPOOLKIND enmKind);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsyncstatic void pgmPoolTrackDeref(PPGMPOOL pPool, PPGMPOOLPAGE pPage);
afed5ab737f4aacfae3fe73776f40e989190a7cavboxsyncstatic int pgmPoolTrackAddUser(PPGMPOOL pPool, PPGMPOOLPAGE pPage, uint16_t iUser, uint32_t iUserTable);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsyncstatic void pgmPoolMonitorModifiedRemove(PPGMPOOL pPool, PPGMPOOLPAGE pPage);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsyncDECLEXPORT(int) pgmPoolAccessHandler(PVM pVM, RTGCUINT uErrorCode, PCPUMCTXCORE pRegFrame, RTGCPTR pvFault, RTGCPHYS GCPhysFault, void *pvUser);
2daaccf68be3773aee600c5c3e48bcf5401418a6vboxsyncstatic const char *pgmPoolPoolKindToStr(uint8_t enmKind);
7666082b743c5e146a8cee6cc794ff4bc3fd0ffdvboxsyncstatic PPGMPOOLPAGE pgmPoolMonitorGetPageByGCPhys(PPGMPOOL pPool, PPGMPOOLPAGE pNewPage);
7666082b743c5e146a8cee6cc794ff4bc3fd0ffdvboxsyncvoid pgmPoolTrackFlushGCPhysPT(PVM pVM, PPGMPAGE pPhysPage, uint16_t iShw, uint16_t cRefs);
7666082b743c5e146a8cee6cc794ff4bc3fd0ffdvboxsyncvoid pgmPoolTrackFlushGCPhysPTs(PVM pVM, PPGMPAGE pPhysPage, uint16_t iPhysExt);
7666082b743c5e146a8cee6cc794ff4bc3fd0ffdvboxsyncint pgmPoolTrackFlushGCPhysPTsSlow(PVM pVM, PPGMPAGE pPhysPage);
7666082b743c5e146a8cee6cc794ff4bc3fd0ffdvboxsyncPPGMPOOLPHYSEXT pgmPoolTrackPhysExtAlloc(PVM pVM, uint16_t *piPhysExt);
7666082b743c5e146a8cee6cc794ff4bc3fd0ffdvboxsyncvoid pgmPoolTrackPhysExtFree(PVM pVM, uint16_t iPhysExt);
7666082b743c5e146a8cee6cc794ff4bc3fd0ffdvboxsyncvoid pgmPoolTrackPhysExtFreeList(PVM pVM, uint16_t iPhysExt);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Checks if the specified page pool kind is for a 4MB or 2MB guest page.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @returns true if it's the shadow of a 4MB or 2MB guest page, otherwise false.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param enmKind The page kind.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsyncDECLINLINE(bool) pgmPoolIsBigPage(PGMPOOLKIND enmKind)
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync return true;
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync return false;
22e281e75ed636601178296c6daebda8f1d17c59vboxsync/** @def PGMPOOL_PAGE_2_LOCKED_PTR
22e281e75ed636601178296c6daebda8f1d17c59vboxsync * Maps a pool page pool into the current context and lock it (RC only).
22e281e75ed636601178296c6daebda8f1d17c59vboxsync * @returns VBox status code.
22e281e75ed636601178296c6daebda8f1d17c59vboxsync * @param pVM The VM handle.
22e281e75ed636601178296c6daebda8f1d17c59vboxsync * @param pPage The pool page.
22e281e75ed636601178296c6daebda8f1d17c59vboxsync * @remark In RC this uses PGMGCDynMapHCPage(), so it will consume of the
22e281e75ed636601178296c6daebda8f1d17c59vboxsync * small page window employeed by that function. Be careful.
22e281e75ed636601178296c6daebda8f1d17c59vboxsync * @remark There is no need to assert on the result.
22e281e75ed636601178296c6daebda8f1d17c59vboxsyncDECLINLINE(void *) PGMPOOL_PAGE_2_LOCKED_PTR(PVM pVM, PPGMPOOLPAGE pPage)
22e281e75ed636601178296c6daebda8f1d17c59vboxsync void *pv = pgmPoolMapPageInlined(&pVM->pgm.s, pPage);
22e281e75ed636601178296c6daebda8f1d17c59vboxsync /* Make sure the dynamic mapping will not be reused. */
22e281e75ed636601178296c6daebda8f1d17c59vboxsync# define PGMPOOL_PAGE_2_LOCKED_PTR(pVM, pPage) PGMPOOL_PAGE_2_PTR(pVM, pPage)
22e281e75ed636601178296c6daebda8f1d17c59vboxsync/** @def PGMPOOL_UNLOCK_PTR
22e281e75ed636601178296c6daebda8f1d17c59vboxsync * Unlock a previously locked dynamic caching (RC only).
22e281e75ed636601178296c6daebda8f1d17c59vboxsync * @returns VBox status code.
22e281e75ed636601178296c6daebda8f1d17c59vboxsync * @param pVM The VM handle.
22e281e75ed636601178296c6daebda8f1d17c59vboxsync * @param pPage The pool page.
22e281e75ed636601178296c6daebda8f1d17c59vboxsync * @remark In RC this uses PGMGCDynMapHCPage(), so it will consume of the
22e281e75ed636601178296c6daebda8f1d17c59vboxsync * small page window employeed by that function. Be careful.
22e281e75ed636601178296c6daebda8f1d17c59vboxsync * @remark There is no need to assert on the result.
22e281e75ed636601178296c6daebda8f1d17c59vboxsyncDECLINLINE(void) PGMPOOL_UNLOCK_PTR(PVM pVM, void *pvPage)
22e281e75ed636601178296c6daebda8f1d17c59vboxsync# define PGMPOOL_UNLOCK_PTR(pVM, pPage) do {} while (0)
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Determin the size of a write instruction.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @returns number of bytes written.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pDis The disassembler state.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsyncstatic unsigned pgmPoolDisasWriteSize(PDISCPUSTATE pDis)
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * This is very crude and possibly wrong for some opcodes,
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * but since it's not really supposed to be called we can
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * probably live with that.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Flushes a chain of pages sharing the same access monitor.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @returns VBox status code suitable for scheduling.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pPool The pool.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pPage A page in the chain.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsyncint pgmPoolMonitorChainFlush(PPGMPOOL pPool, PPGMPOOLPAGE pPage)
a11c569636fa6838bd423f4631a9660a5a84204bvboxsync LogFlow(("pgmPoolMonitorChainFlush: Flush page %RGp type=%d\n", pPage->GCPhys, pPage->enmKind));
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Find the list head.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Iterate the list flushing each shadow page.
223cf005b18af2c21352a70693ebaf0582f68ebcvboxsync * Wrapper for getting the current context pointer to the entry being modified.
b74ca013e5f201a2dd371e6c438433ceac12af30vboxsync * @returns VBox status code suitable for scheduling.
b74ca013e5f201a2dd371e6c438433ceac12af30vboxsync * @param pVM VM Handle.
b74ca013e5f201a2dd371e6c438433ceac12af30vboxsync * @param pvDst Destination address
b74ca013e5f201a2dd371e6c438433ceac12af30vboxsync * @param pvSrc Source guest virtual address.
b74ca013e5f201a2dd371e6c438433ceac12af30vboxsync * @param GCPhysSrc The source guest physical address.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param cb Size of data to read
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsyncDECLINLINE(int) pgmPoolPhysSimpleReadGCPhys(PVM pVM, void *pvDst, CTXTYPE(RTGCPTR, RTHCPTR, RTGCPTR) pvSrc, RTGCPHYS GCPhysSrc, size_t cb)
b74ca013e5f201a2dd371e6c438433ceac12af30vboxsync memcpy(pvDst, (RTHCPTR)((uintptr_t)pvSrc & ~(RTHCUINTPTR)(cb - 1)), cb);
b74ca013e5f201a2dd371e6c438433ceac12af30vboxsync /* @todo in RC we could attempt to use the virtual address, although this can cause many faults (PAE Windows XP guest). */
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync return PGMPhysSimpleReadGCPhys(pVM, pvDst, GCPhysSrc & ~(RTGCPHYS)(cb - 1), cb);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Process shadow entries before they are changed by the guest.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * For PT entries we will clear them. For PD entries, we'll simply check
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * for mapping conflicts and set the SyncCR3 FF if found.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pVCpu VMCPU handle
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pPool The pool.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pPage The head page.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param GCPhysFault The guest physical fault address.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param uAddress In R0 and GC this is the guest context fault address (flat).
3cbb4f9a6a320e58ed398ef7aaa004cc8727abc5vboxsync * In R3 this is the host context 'fault' address.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pDis The disassembler state for figuring out the write size.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * This need not be specified if the caller knows we won't do cross entry accesses.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsyncvoid pgmPoolMonitorChainChanging(PVMCPU pVCpu, PPGMPOOL pPool, PPGMPOOLPAGE pPage, RTGCPHYS GCPhysFault, CTXTYPE(RTGCPTR, RTHCPTR, RTGCPTR) pvAddress, PDISCPUSTATE pDis)
e08de24d4792d31b7f2aac29db5cb8840d940009vboxsync AssertMsg(pPage->iMonitoredPrev == NIL_PGMPOOL_IDX, ("%#x (idx=%#x)\n", pPage->iMonitoredPrev, pPage->idx));
3cbb4f9a6a320e58ed398ef7aaa004cc8727abc5vboxsync const unsigned off = GCPhysFault & PAGE_OFFSET_MASK;
22e281e75ed636601178296c6daebda8f1d17c59vboxsync const unsigned cbWrite = pDis ? pgmPoolDisasWriteSize(pDis) : 0;
3ecd8008b81f02a04220705ae0033142af363280vboxsync LogFlow(("pgmPoolMonitorChainChanging: %RGv phys=%RGp cbWrite=%d\n", (RTGCPTR)pvAddress, GCPhysFault, cbWrite));
3ecd8008b81f02a04220705ae0033142af363280vboxsync LogFlow(("pgmPoolMonitorChainChanging: page idx=%d phys=%RGp (next=%d) kind=%s\n", pPage->idx, pPage->GCPhys, pPage->iMonitoredNext, pgmPoolPoolKindToStr(pPage->enmKind), cbWrite));
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync LogFlow(("PGMPOOLKIND_32BIT_PT_FOR_32BIT_PT iShw=%x\n", iShw));
b74ca013e5f201a2dd371e6c438433ceac12af30vboxsync int rc = pgmPoolPhysSimpleReadGCPhys(pVM, &GstPte, pvAddress, GCPhysFault, sizeof(GstPte));
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync 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));
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync /* page/2 sized */
247b55faa8d054157f2481e68caca36f4dc9542cvboxsync const unsigned iShw = (off / sizeof(X86PTE)) & (X86_PG_PAE_ENTRIES - 1);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync LogFlow(("PGMPOOLKIND_PAE_PT_FOR_32BIT_PT iShw=%x\n", iShw));
b74ca013e5f201a2dd371e6c438433ceac12af30vboxsync int rc = pgmPoolPhysSimpleReadGCPhys(pVM, &GstPte, pvAddress, GCPhysFault, sizeof(GstPte));
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync 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));
57399ab65e2825c324fb9dcb4642d4ae2c232509vboxsync 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));
533ffcb943c4af2c5fe6385d816d0ba3eda9383bvboxsync if (iShwPdpt == pPage->enmKind - (unsigned)PGMPOOLKIND_PAE_PD0_FOR_32BIT_PD)
533ffcb943c4af2c5fe6385d816d0ba3eda9383bvboxsync for (unsigned i = 0; i < 2; i++)
1843553dbdf4e46417158b4c6348c503adf10740vboxsync if ((uShw.pPDPae->a[iShw + i].u & (PGM_PDFLAGS_MAPPING | X86_PDE_P)) == (PGM_PDFLAGS_MAPPING | X86_PDE_P))
806d0b554daa555364af5f87bc96eccbe760db7avboxsync LogFlow(("pgmPoolMonitorChainChanging: Detected conflict at iShwPdpt=%#x iShw=%#x!\n", iShwPdpt, iShw+i));
1843553dbdf4e46417158b4c6348c503adf10740vboxsync# endif /* !IN_RING0 */
22e281e75ed636601178296c6daebda8f1d17c59vboxsync LogFlow(("pgmPoolMonitorChainChanging: pae pd iShw=%#x: %RX64 -> freeing it!\n", iShw+i, uShw.pPDPae->a[iShw+i].u));
3cbb4f9a6a320e58ed398ef7aaa004cc8727abc5vboxsync /* paranoia / a bit assumptive. */
1843553dbdf4e46417158b4c6348c503adf10740vboxsync if ((uShw.pPDPae->a[iShw2].u & (PGM_PDFLAGS_MAPPING | X86_PDE_P)) == (PGM_PDFLAGS_MAPPING | X86_PDE_P))
806d0b554daa555364af5f87bc96eccbe760db7avboxsync LogFlow(("pgmPoolMonitorChainChanging: Detected conflict at iShwPdpt=%#x iShw2=%#x!\n", iShwPdpt, iShw2));
1843553dbdf4e46417158b4c6348c503adf10740vboxsync# endif /* !IN_RING0 */
22e281e75ed636601178296c6daebda8f1d17c59vboxsync LogFlow(("pgmPoolMonitorChainChanging: pae pd iShw=%#x: %RX64 -> freeing it!\n", iShw2, uShw.pPDPae->a[iShw2].u));
b74ca013e5f201a2dd371e6c438433ceac12af30vboxsync int rc = pgmPoolPhysSimpleReadGCPhys(pVM, &GstPte, pvAddress, GCPhysFault, sizeof(GstPte));
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync 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));
3cbb4f9a6a320e58ed398ef7aaa004cc8727abc5vboxsync /* paranoia / a bit assumptive. */
22e281e75ed636601178296c6daebda8f1d17c59vboxsync const unsigned iShw2 = (off + cbWrite - 1) / sizeof(X86PTEPAE);
b74ca013e5f201a2dd371e6c438433ceac12af30vboxsync int rc = pgmPoolPhysSimpleReadGCPhys(pVM, &GstPte, (RTHCPTR)((RTHCUINTPTR)pvAddress + sizeof(GstPte)), GCPhysFault + sizeof(GstPte), sizeof(GstPte));
b74ca013e5f201a2dd371e6c438433ceac12af30vboxsync int rc = pgmPoolPhysSimpleReadGCPhys(pVM, &GstPte, pvAddress + sizeof(GstPte), GCPhysFault + sizeof(GstPte), sizeof(GstPte));
2d53f6e472561965d363674e17f48d3bdffc24d3vboxsync 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));
8e972b677df5ee27b99211fc7e456a5aa50f3e68vboxsync const unsigned iShw = off / sizeof(X86PTE); // ASSUMING 32-bit guest paging!
13ba5527caaa9b8c4fee29f22e374fa67c4c6f72vboxsync LogFlow(("pgmPoolMonitorChainChanging: PGMPOOLKIND_32BIT_PD %x\n", iShw));
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync STAM_COUNTER_INC(&(pVCpu->pgm.s.StatRZGuestCR3WriteConflict));
806d0b554daa555364af5f87bc96eccbe760db7avboxsync LogFlow(("pgmPoolMonitorChainChanging: Detected conflict at iShw=%#x!\n", iShw));
13ba5527caaa9b8c4fee29f22e374fa67c4c6f72vboxsync# endif /* !IN_RING0 */
806d0b554daa555364af5f87bc96eccbe760db7avboxsync# endif /* !IN_RING0 */
22e281e75ed636601178296c6daebda8f1d17c59vboxsync LogFlow(("pgmPoolMonitorChainChanging: 32 bit pd iShw=%#x: %RX64 -> freeing it!\n", iShw, uShw.pPD->a[iShw].u));
3cbb4f9a6a320e58ed398ef7aaa004cc8727abc5vboxsync /* paranoia / a bit assumptive. */
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync const unsigned iShw2 = (off + cbWrite - 1) / sizeof(X86PTE);
e0b9d3c357adf9b7d05f55540e86f22943fc4b23vboxsync STAM_COUNTER_INC(&(pVCpu->pgm.s.StatRZGuestCR3WriteConflict));
e149c362e69e5f0bbd82da11fd8163b2d29c3a72vboxsync LogFlow(("pgmPoolMonitorChainChanging: Detected conflict at iShw2=%#x!\n", iShw2));
13ba5527caaa9b8c4fee29f22e374fa67c4c6f72vboxsync# endif /* !IN_RING0 */
806d0b554daa555364af5f87bc96eccbe760db7avboxsync# endif /* !IN_RING0 */
22e281e75ed636601178296c6daebda8f1d17c59vboxsync LogFlow(("pgmPoolMonitorChainChanging: 32 bit pd iShw=%#x: %RX64 -> freeing it!\n", iShw2, uShw.pPD->a[iShw2].u));
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync#if 0 /* useful when running PGMAssertCR3(), a bit too troublesome for general use (TLBs). */
7e960d3a0a8a3a84d7aba2cca45d72b1c31cc97bvboxsync LogFlow(("pgmPoolMonitorChainChanging: iShw=%#x: %RX32 -> freeing it!\n", iShw, uShw.pPD->a[iShw].u));
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync# ifdef IN_RC /* TLB load - we're pushing things a bit... */
6ae4b1c72625a8e5c369effea7f018b578d733c4vboxsync pgmPoolFree(pVM, uShw.pPD->a[iShw].u & X86_PDE_PG_MASK, pPage->idx, iShw);
79b24ef0ab7cd4a03a3571b3954c52ab8b573137vboxsync STAM_COUNTER_INC(&(pVCpu->pgm.s.StatRZGuestCR3WriteConflict));
806d0b554daa555364af5f87bc96eccbe760db7avboxsync LogFlow(("pgmPoolMonitorChainChanging: Detected conflict at iShw=%#x!\n", iShw));
3cac8f8c6923a3a89ecfccda5e89ad75f48658e0vboxsync#endif /* !IN_RING0 */
3cac8f8c6923a3a89ecfccda5e89ad75f48658e0vboxsync * Causes trouble when the guest uses a PDE to refer to the whole page table level
3cac8f8c6923a3a89ecfccda5e89ad75f48658e0vboxsync * structure. (Invalidate here; faults later on when it tries to change the page
03319aeaef07ef63a404237f2cb56199131f4a03vboxsync * table entries -> recheck; probably only applies to the RC case.)
3dde2f85d4cf477621a3128887a2c08a8bca7c01vboxsync# endif /* !IN_RING0 */
22e281e75ed636601178296c6daebda8f1d17c59vboxsync LogFlow(("pgmPoolMonitorChainChanging: pae pd iShw=%#x: %RX64 -> freeing it!\n", iShw, uShw.pPDPae->a[iShw].u));
3cbb4f9a6a320e58ed398ef7aaa004cc8727abc5vboxsync /* paranoia / a bit assumptive. */
22e281e75ed636601178296c6daebda8f1d17c59vboxsync const unsigned iShw2 = (off + cbWrite - 1) / sizeof(X86PDEPAE);
79b24ef0ab7cd4a03a3571b3954c52ab8b573137vboxsync STAM_COUNTER_INC(&(pVCpu->pgm.s.StatRZGuestCR3WriteConflict));
e149c362e69e5f0bbd82da11fd8163b2d29c3a72vboxsync LogFlow(("pgmPoolMonitorChainChanging: Detected conflict at iShw2=%#x!\n", iShw2));
13ba5527caaa9b8c4fee29f22e374fa67c4c6f72vboxsync#endif /* !IN_RING0 */
13ba5527caaa9b8c4fee29f22e374fa67c4c6f72vboxsync# endif /* !IN_RING0 */
22e281e75ed636601178296c6daebda8f1d17c59vboxsync LogFlow(("pgmPoolMonitorChainChanging: pae pd iShw2=%#x: %RX64 -> freeing it!\n", iShw2, uShw.pPDPae->a[iShw2].u));
7082d29724f6c3788977a51591b0379fd3acbf72vboxsync * Hopefully this doesn't happen very often:
7082d29724f6c3788977a51591b0379fd3acbf72vboxsync * - touching unused parts of the page
7082d29724f6c3788977a51591b0379fd3acbf72vboxsync * - messing with the bits of pd pointers without changing the physical address
6f0193f5a9287559d34a75f438c2682d8fb08038vboxsync /* PDPT roots are not page aligned; 32 byte only! */
46b1ac1c3302722f93e787d0f0693965e88f5ceevboxsync const unsigned offPdpt = GCPhysFault - pPage->GCPhys;
f9147fe1eaa4e35287f8f39282c7f92f0d7de0b7vboxsync if (iShw < X86_PG_PAE_PDPE_ENTRIES) /* don't use RT_ELEMENTS(uShw.pPDPT->a), because that's for long mode only */
e0b9d3c357adf9b7d05f55540e86f22943fc4b23vboxsync STAM_COUNTER_INC(&(pVCpu->pgm.s.StatRZGuestCR3WriteConflict));
806d0b554daa555364af5f87bc96eccbe760db7avboxsync LogFlow(("pgmPoolMonitorChainChanging: Detected pdpt conflict at iShw=%#x!\n", iShw));
13ba5527caaa9b8c4fee29f22e374fa67c4c6f72vboxsync# endif /* !IN_RING0 */
6f0193f5a9287559d34a75f438c2682d8fb08038vboxsync# endif /* !IN_RING0 */
22e281e75ed636601178296c6daebda8f1d17c59vboxsync LogFlow(("pgmPoolMonitorChainChanging: pae pdpt iShw=%#x: %RX64 -> freeing it!\n", iShw, uShw.pPDPT->a[iShw].u));
3cbb4f9a6a320e58ed398ef7aaa004cc8727abc5vboxsync /* paranoia / a bit assumptive. */
f9147fe1eaa4e35287f8f39282c7f92f0d7de0b7vboxsync const unsigned iShw2 = (offPdpt + cbWrite - 1) / sizeof(X86PDPE);
e0b9d3c357adf9b7d05f55540e86f22943fc4b23vboxsync STAM_COUNTER_INC(&(pVCpu->pgm.s.StatRZGuestCR3WriteConflict));
e149c362e69e5f0bbd82da11fd8163b2d29c3a72vboxsync LogFlow(("pgmPoolMonitorChainChanging: Detected conflict at iShw2=%#x!\n", iShw2));
13ba5527caaa9b8c4fee29f22e374fa67c4c6f72vboxsync# endif /* !IN_RING0 */
6f0193f5a9287559d34a75f438c2682d8fb08038vboxsync# endif /* !IN_RING0 */
22e281e75ed636601178296c6daebda8f1d17c59vboxsync LogFlow(("pgmPoolMonitorChainChanging: pae pdpt iShw=%#x: %RX64 -> freeing it!\n", iShw2, uShw.pPDPT->a[iShw2].u));
13ba5527caaa9b8c4fee29f22e374fa67c4c6f72vboxsync Assert(!(uShw.pPDPae->a[iShw].u & PGM_PDFLAGS_MAPPING));
22e281e75ed636601178296c6daebda8f1d17c59vboxsync LogFlow(("pgmPoolMonitorChainChanging: pae pd iShw=%#x: %RX64 -> freeing it!\n", iShw, uShw.pPDPae->a[iShw].u));
3cbb4f9a6a320e58ed398ef7aaa004cc8727abc5vboxsync /* paranoia / a bit assumptive. */
22e281e75ed636601178296c6daebda8f1d17c59vboxsync const unsigned iShw2 = (off + cbWrite - 1) / sizeof(X86PDEPAE);
65b61798a61dd4c32cce448db1dac70bba8d5cf5vboxsync Assert(!(uShw.pPDPae->a[iShw2].u & PGM_PDFLAGS_MAPPING));
22e281e75ed636601178296c6daebda8f1d17c59vboxsync LogFlow(("pgmPoolMonitorChainChanging: pae pd iShw2=%#x: %RX64 -> freeing it!\n", iShw2, uShw.pPDPae->a[iShw2].u));
46df4404c8dbbf3672e7aae8cd0b2770356e5b73vboxsync * Hopefully this doesn't happen very often:
46df4404c8dbbf3672e7aae8cd0b2770356e5b73vboxsync * - messing with the bits of pd pointers without changing the physical address
22e281e75ed636601178296c6daebda8f1d17c59vboxsync LogFlow(("pgmPoolMonitorChainChanging: pdpt iShw=%#x: %RX64 -> freeing it!\n", iShw, uShw.pPDPT->a[iShw].u));
6ae4b1c72625a8e5c369effea7f018b578d733c4vboxsync pgmPoolFree(pVM, uShw.pPDPT->a[iShw].u & X86_PDPE_PG_MASK, pPage->idx, iShw);
3cbb4f9a6a320e58ed398ef7aaa004cc8727abc5vboxsync /* paranoia / a bit assumptive. */
3dde2f85d4cf477621a3128887a2c08a8bca7c01vboxsync const unsigned iShw2 = (off + cbWrite - 1) / sizeof(X86PDPE);
22e281e75ed636601178296c6daebda8f1d17c59vboxsync LogFlow(("pgmPoolMonitorChainChanging: pdpt iShw2=%#x: %RX64 -> freeing it!\n", iShw2, uShw.pPDPT->a[iShw2].u));
6ae4b1c72625a8e5c369effea7f018b578d733c4vboxsync pgmPoolFree(pVM, uShw.pPDPT->a[iShw2].u & X86_PDPE_PG_MASK, pPage->idx, iShw2);
585f64d6f624f9e683321dabeb21b0eb2e6aa473vboxsync * Hopefully this doesn't happen very often:
585f64d6f624f9e683321dabeb21b0eb2e6aa473vboxsync * - messing with the bits of pd pointers without changing the physical address
22e281e75ed636601178296c6daebda8f1d17c59vboxsync LogFlow(("pgmPoolMonitorChainChanging: pml4 iShw=%#x: %RX64 -> freeing it!\n", iShw, uShw.pPML4->a[iShw].u));
6ae4b1c72625a8e5c369effea7f018b578d733c4vboxsync pgmPoolFree(pVM, uShw.pPML4->a[iShw].u & X86_PML4E_PG_MASK, pPage->idx, iShw);
3cbb4f9a6a320e58ed398ef7aaa004cc8727abc5vboxsync /* paranoia / a bit assumptive. */
585f64d6f624f9e683321dabeb21b0eb2e6aa473vboxsync const unsigned iShw2 = (off + cbWrite - 1) / sizeof(X86PML4E);
22e281e75ed636601178296c6daebda8f1d17c59vboxsync LogFlow(("pgmPoolMonitorChainChanging: pml4 iShw2=%#x: %RX64 -> freeing it!\n", iShw2, uShw.pPML4->a[iShw2].u));
6ae4b1c72625a8e5c369effea7f018b578d733c4vboxsync pgmPoolFree(pVM, uShw.pPML4->a[iShw2].u & X86_PML4E_PG_MASK, pPage->idx, iShw2);
585f64d6f624f9e683321dabeb21b0eb2e6aa473vboxsync#endif /* IN_RING0 */
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync AssertFatalMsgFailed(("enmKind=%d\n", pPage->enmKind));
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Checks if a access could be a fork operation in progress.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Meaning, that the guest is setting up the parent process for Copy-On-Write.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @returns true if it's likly that we're forking, otherwise false.
3cbb4f9a6a320e58ed398ef7aaa004cc8727abc5vboxsync * @param pPool The pool.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pDis The disassembled instruction.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param offFault The access offset.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsyncDECLINLINE(bool) pgmPoolMonitorIsForking(PPGMPOOL pPool, PDISCPUSTATE pDis, unsigned offFault)
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * i386 linux is using btr to clear X86_PTE_RW.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * The functions involved are (2.6.16 source inspection):
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * clear_bit
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * ptep_set_wrprotect
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * copy_one_pte
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * copy_pte_range
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * copy_pmd_range
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * copy_pud_range
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * copy_page_range
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * copy_process
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync /** @todo Validate that the bit index is X86_PTE_RW. */
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync STAM_COUNTER_INC(&pPool->CTX_MID_Z(StatMonitor,Fork));
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync return true;
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync return false;
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Determine whether the page is likely to have been reused.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @returns true if we consider the page as being reused for a different purpose.
e17bd6c32a8dd64f2d42838f9028216465e2caf0vboxsync * @returns false if we consider it to still be a paging page.
5ace91141404400247438502a84a418fba00c8cfvboxsync * @param pVM VM Handle.
e9a217d585085a6a6d129d27ca0d96a1b8e6d0eevboxsync * @param pVCpu VMCPU Handle.
3cbb4f9a6a320e58ed398ef7aaa004cc8727abc5vboxsync * @param pRegFrame Trap register frame.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pDis The disassembly info for the faulting instruction.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pvFault The fault address.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @remark The REP prefix check is left to the caller because of STOSD/W.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsyncDECLINLINE(bool) pgmPoolMonitorIsReused(PVM pVM, PVMCPU pVCpu, PCPUMCTXCORE pRegFrame, PDISCPUSTATE pDis, RTGCPTR pvFault)
e17bd6c32a8dd64f2d42838f9028216465e2caf0vboxsync /** @todo could make this general, faulting close to rsp should be a safe reuse heuristic. */
08bc90fc2848c80bf8270bedc883745b8398e186vboxsync /* Fault caused by stack writes while trying to inject an interrupt event. */
e17bd6c32a8dd64f2d42838f9028216465e2caf0vboxsync Log(("pgmPoolMonitorIsReused: reused %RGv for interrupt stack (rsp=%RGv).\n", pvFault, pRegFrame->rsp));
e17bd6c32a8dd64f2d42838f9028216465e2caf0vboxsync return true;
5ace91141404400247438502a84a418fba00c8cfvboxsync LogFlow(("Reused instr %RGv %d at %RGv param1.flags=%x param1.reg=%d\n", pRegFrame->rip, pDis->pCurInstr->opcode, pvFault, pDis->param1.flags, pDis->param1.base.reg_gen));
5ace91141404400247438502a84a418fba00c8cfvboxsync /* Non-supervisor mode write means it's used for something else. */
5ace91141404400247438502a84a418fba00c8cfvboxsync return true;
49748bb305bd71f672cd083af208f4bb08c5d6abvboxsync /* call implies the actual push of the return address faulted */
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync return true;
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync return true;
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync return true;
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync return true;
b9ca93dd1ad44cb8b27679dc5624be2f7b7f7af5vboxsync return true;
b9ca93dd1ad44cb8b27679dc5624be2f7b7f7af5vboxsync return true;
b9ca93dd1ad44cb8b27679dc5624be2f7b7f7af5vboxsync case OP_MOVNTDQ: /* solaris - hwblkclr & hwblkpagecopy */
7c3417bbf525c03163d54d151a277a981d5d61b6vboxsync return true;
e9a217d585085a6a6d129d27ca0d96a1b8e6d0eevboxsync return true;
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync return false;
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync return true;
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync return false;
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Flushes the page being accessed.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @returns VBox status code suitable for scheduling.
42c1972c22e09797b4b24afbd0ec114ed076c37cvboxsync * @param pVM The VM handle.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pVCpu The VMCPU handle.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pPool The pool.
3cbb4f9a6a320e58ed398ef7aaa004cc8727abc5vboxsync * @param pPage The pool page (head).
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pDis The disassembly of the write instruction.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pRegFrame The trap register frame.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param GCPhysFault The fault address as guest physical address.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pvFault The fault address.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsyncstatic int pgmPoolAccessHandlerFlush(PVM pVM, PVMCPU pVCpu, PPGMPOOL pPool, PPGMPOOLPAGE pPage, PDISCPUSTATE pDis,
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync PCPUMCTXCORE pRegFrame, RTGCPHYS GCPhysFault, RTGCPTR pvFault)
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * First, do the flushing.
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsync * Emulate the instruction (xp/w2k problem, requires pc/cr2/sp detection).
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @todo: why is this necessary? an instruction restart would be sufficient, wouldn't it?
1a25adaca81841abf5e6cdfed02eaff64941357dvboxsync int rc2 = EMInterpretInstructionCPU(pVM, pVCpu, pDis, pRegFrame, pvFault, &cbWritten);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync if (PATMIsPatchGCAddr(pVM, (RTRCPTR)pRegFrame->eip))
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync LogFlow(("pgmPoolAccessHandlerPTWorker: Interpretation failed for patch code %04x:%RGv, ignoring.\n",
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync STAM_COUNTER_INC(&pPool->StatMonitorRZIntrFailPatch2);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync STAM_COUNTER_INC(&pPool->CTX_MID_Z(StatMonitor,EmulateInstr));
688b55d5387d8b7c508d30141fe1a96eadecb988vboxsync /* See use in pgmPoolAccessHandlerSimple(). */
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync LogFlow(("pgmPoolAccessHandlerPT: returns %Rrc (flushed)\n", rc));
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Handles the STOSD write accesses.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @returns VBox status code suitable for scheduling.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pVM The VM handle.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pPool The pool.
3cbb4f9a6a320e58ed398ef7aaa004cc8727abc5vboxsync * @param pPage The pool page (head).
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pDis The disassembly of the write instruction.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pRegFrame The trap register frame.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param GCPhysFault The fault address as guest physical address.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pvFault The fault address.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsyncDECLINLINE(int) pgmPoolAccessHandlerSTOSD(PVM pVM, PPGMPOOL pPool, PPGMPOOLPAGE pPage, PDISCPUSTATE pDis,
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync PCPUMCTXCORE pRegFrame, RTGCPHYS GCPhysFault, RTGCPTR pvFault)
09e2f92b8f54aa362088e216007b53ecdb42e283vboxsync Assert(pDis->mode == CPUMODE_32BIT || pDis->mode == CPUMODE_64BIT);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Increment the modification counter and insert it into the list
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * of modified pages the first time.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Execute REP STOSD.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * This ASSUMES that we're not invoked by Trap0e on in a out-of-sync
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * write situation, meaning that it's safe to write here.
42c1972c22e09797b4b24afbd0ec114ed076c37cvboxsync uint32_t iPrevSubset = PGMDynMapPushAutoSubset(pVCpu);
3241f1be564f7351b07ce8a807673fa77a7847bcvboxsync pgmPoolMonitorChainChanging(pVCpu, pPool, pPage, GCPhysFault, (RTGCPTR)pu32, NULL);
0975ae0a0fb615c945150c48e4a73187c1f4f84dvboxsync pgmPoolMonitorChainChanging(pVCpu, pPool, pPage, GCPhysFault, (RTGCPTR)pu32, NULL);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync PGMPhysSimpleWriteGCPhys(pVM, GCPhysFault, &pRegFrame->rax, uIncrement);
688b55d5387d8b7c508d30141fe1a96eadecb988vboxsync /* See use in pgmPoolAccessHandlerSimple(). */
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Handles the simple write accesses.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @returns VBox status code suitable for scheduling.
42c1972c22e09797b4b24afbd0ec114ed076c37cvboxsync * @param pVM The VM handle.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pVCpu The VMCPU handle.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pPool The pool.
3cbb4f9a6a320e58ed398ef7aaa004cc8727abc5vboxsync * @param pPage The pool page (head).
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pDis The disassembly of the write instruction.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pRegFrame The trap register frame.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param GCPhysFault The fault address as guest physical address.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pvFault The fault address.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsyncDECLINLINE(int) pgmPoolAccessHandlerSimple(PVM pVM, PVMCPU pVCpu, PPGMPOOL pPool, PPGMPOOLPAGE pPage, PDISCPUSTATE pDis,
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync PCPUMCTXCORE pRegFrame, RTGCPHYS GCPhysFault, RTGCPTR pvFault)
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Increment the modification counter and insert it into the list
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * of modified pages the first time.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Clear all the pages. ASSUMES that pvFault is readable.
3cbb4f9a6a320e58ed398ef7aaa004cc8727abc5vboxsync uint32_t iPrevSubset = PGMDynMapPushAutoSubset(pVCpu);
3241f1be564f7351b07ce8a807673fa77a7847bcvboxsync pgmPoolMonitorChainChanging(pVCpu, pPool, pPage, GCPhysFault, pvFault, pDis);
0975ae0a0fb615c945150c48e4a73187c1f4f84dvboxsync pgmPoolMonitorChainChanging(pVCpu, pPool, pPage, GCPhysFault, pvFault, pDis);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Interpret the instruction.
1a25adaca81841abf5e6cdfed02eaff64941357dvboxsync int rc = EMInterpretInstructionCPU(pVM, pVCpu, pDis, pRegFrame, pvFault, &cb);
3cbb4f9a6a320e58ed398ef7aaa004cc8727abc5vboxsync LogFlow(("pgmPoolAccessHandlerPTWorker: Interpretation failed for %04x:%RGv - opcode=%d\n",
a11c569636fa6838bd423f4631a9660a5a84204bvboxsync pRegFrame->cs, (RTGCPTR)pRegFrame->rip, pDis->pCurInstr->opcode));
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync STAM_COUNTER_INC(&pPool->CTX_MID_Z(StatMonitor,EmulateInstr));
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Quick hack, with logging enabled we're getting stale
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * code TLBs but no data TLB for EIP and crash in EMInterpretDisasOne.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Flushing here is BAD and expensive, I think EMInterpretDisasOne will
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * have to be fixed to support this. But that'll have to wait till next week.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * An alternative is to keep track of the changed PTEs together with the
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * GCPhys from the guest PT. This may proove expensive though.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * At the moment, it's VITAL that it's done AFTER the instruction interpreting
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * because we need the stale TLBs in some cases (XP boot). This MUST be fixed properly!
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync LogFlow(("pgmPoolAccessHandlerSimple: returns %Rrc cb=%d\n", rc, cb));
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * \#PF Handler callback for PT write accesses.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @returns VBox status code (appropriate for GC return).
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pVM VM Handle.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param uErrorCode CPU Error code.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pRegFrame Trap register frame.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * NULL on DMA and other non CPU access.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pvFault The fault address (cr2).
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param GCPhysFault The GC physical address corresponding to pvFault.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pvUser User argument.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsyncDECLEXPORT(int) pgmPoolAccessHandler(PVM pVM, RTGCUINT uErrorCode, PCPUMCTXCORE pRegFrame, RTGCPTR pvFault, RTGCPHYS GCPhysFault, void *pvUser)
50df3da42ff6589b0ecc4f50f2288811bc370186vboxsync STAM_PROFILE_START(&pVM->pgm.s.CTX_SUFF(pPool)->CTX_SUFF_Z(StatMonitor), a);
42c1972c22e09797b4b24afbd0ec114ed076c37cvboxsync bool fForcedFlush = false;
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync LogFlow(("pgmPoolAccessHandler: pvFault=%RGv pPage=%p:{.idx=%d} GCPhysFault=%RGp\n", pvFault, pPage, pPage->idx, GCPhysFault));
6778b34cb96bef0fef23ebc461eb6a429d2907c5vboxsync if (PHYS_PAGE_ADDRESS(GCPhysFault) != PHYS_PAGE_ADDRESS(pPage->GCPhys))
6778b34cb96bef0fef23ebc461eb6a429d2907c5vboxsync /* Pool page changed while we were waiting for the lock; ignore. */
6778b34cb96bef0fef23ebc461eb6a429d2907c5vboxsync Log(("CPU%d: pgmPoolAccessHandler pgm pool page for %RGp changed (to %RGp) while waiting!\n", pVCpu->idCpu, PHYS_PAGE_ADDRESS(GCPhysFault), PHYS_PAGE_ADDRESS(pPage->GCPhys)));
6778b34cb96bef0fef23ebc461eb6a429d2907c5vboxsync STAM_PROFILE_STOP_EX(&pVM->pgm.s.CTX_SUFF(pPool)->CTX_SUFF_Z(StatMonitor), &pPool->CTX_MID_Z(StatMonitor,Handled), a);
d4b98dbce4cf7b3694b62d62a47553d399718dccvboxsync * Disassemble the faulting instruction.
d4b98dbce4cf7b3694b62d62a47553d399718dccvboxsync int rc = EMInterpretDisasOne(pVM, pVCpu, pRegFrame, pDis, NULL);
d4b98dbce4cf7b3694b62d62a47553d399718dccvboxsync AssertReturnStmt(rc == VINF_SUCCESS, pgmUnlock(pVM), rc);
fd69ca9bd8b533bfa9ade45c1c2ff3116854e84avboxsync * We should ALWAYS have the list head as user parameter. This
fd69ca9bd8b533bfa9ade45c1c2ff3116854e84avboxsync * is because we use that page to record the changes.
5ace91141404400247438502a84a418fba00c8cfvboxsync /* Maximum nr of modifications depends on the guest mode. */
5ace91141404400247438502a84a418fba00c8cfvboxsync * Incremental page table updates should weight more than random ones.
5ace91141404400247438502a84a418fba00c8cfvboxsync * (Only applies when started from offset 0)
5ace91141404400247438502a84a418fba00c8cfvboxsync if ( pPage->pvLastAccessHandlerRip >= pRegFrame->rip - 0x40 /* observed loops in Windows 7 x64 */
5ace91141404400247438502a84a418fba00c8cfvboxsync && pPage->pvLastAccessHandlerRip < pRegFrame->rip + 0x40
5ace91141404400247438502a84a418fba00c8cfvboxsync && pvFault == (pPage->pvLastAccessHandlerFault + pDis->param1.size)
5ace91141404400247438502a84a418fba00c8cfvboxsync && pVCpu->pgm.s.cPoolAccessHandler == (pPage->cLastAccessHandlerCount + 1))
5a12b9772d9cf396a0ba7f54db399817ba7a65bavboxsync Log(("Possible page reuse cMods=%d -> %d (locked=%d type=%s)\n", pPage->cModifications, pPage->cModifications * 2, pgmPoolIsPageLocked(&pVM->pgm.s, pPage), pgmPoolPoolKindToStr(pPage->enmKind)));
2b5a4cf3d77ab62dcbd882115b6d497547b20d29vboxsync pPage->cLastAccessHandlerCount = pVCpu->pgm.s.cPoolAccessHandler;
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsync STAM_COUNTER_INC(&pPool->CTX_MID_Z(StatMonitor,FlushReinit));
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsync Log(("Mod overflow %VGv cMods=%d (locked=%d type=%s)\n", pvFault, pPage->cModifications, pgmPoolIsPageLocked(&pVM->pgm.s, pPage), pgmPoolPoolKindToStr(pPage->enmKind)));
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Check if it's worth dealing with.
2b5a4cf3d77ab62dcbd882115b6d497547b20d29vboxsync bool fReused = false;
5ace91141404400247438502a84a418fba00c8cfvboxsync if ( ( pPage->cModifications < cMaxModifications /** @todo #define */ /** @todo need to check that it's not mapping EIP. */ /** @todo adjust this! */
5ace91141404400247438502a84a418fba00c8cfvboxsync && !(fReused = pgmPoolMonitorIsReused(pVM, pVCpu, pRegFrame, pDis, pvFault))
3cbb4f9a6a320e58ed398ef7aaa004cc8727abc5vboxsync && !pgmPoolMonitorIsForking(pPool, pDis, GCPhysFault & PAGE_OFFSET_MASK))
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Simple instructions, no REP prefix.
3cbb4f9a6a320e58ed398ef7aaa004cc8727abc5vboxsync rc = pgmPoolAccessHandlerSimple(pVM, pVCpu, pPool, pPage, pDis, pRegFrame, GCPhysFault, pvFault);
5ace91141404400247438502a84a418fba00c8cfvboxsync /* A mov instruction to change the first page table entry will be remembered so we can detect
5ace91141404400247438502a84a418fba00c8cfvboxsync * full page table changes early on. This will reduce the amount of unnecessary traps we'll take.
5ace91141404400247438502a84a418fba00c8cfvboxsync pPage->cLastAccessHandlerCount = pVCpu->pgm.s.cPoolAccessHandler;
fcc2858fa3a0ee65ec8426cd4caeeaa7d87bbfa4vboxsync /* Make sure we don't kick out a page too quickly. */
5ace91141404400247438502a84a418fba00c8cfvboxsync /* ignore the 2nd write to this page table entry. */
5ace91141404400247438502a84a418fba00c8cfvboxsync pPage->cLastAccessHandlerCount = pVCpu->pgm.s.cPoolAccessHandler;
5b6e2c9a765c3c72295acc15791af8a700746956vboxsync STAM_PROFILE_STOP_EX(&pVM->pgm.s.CTX_SUFF(pPool)->CTX_SUFF_Z(StatMonitor), &pPool->CTX_MID_Z(StatMonitor,Handled), a);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Windows is frequently doing small memset() operations (netio test 4k+).
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * We have to deal with these or we'll kill the cache and performance.
09e2f92b8f54aa362088e216007b53ecdb42e283vboxsync bool fValidStosd = false;
09e2f92b8f54aa362088e216007b53ecdb42e283vboxsync && pRegFrame->ecx * 4 <= PAGE_SIZE - ((uintptr_t)pvFault & PAGE_OFFSET_MASK)
09e2f92b8f54aa362088e216007b53ecdb42e283vboxsync && (pRegFrame->eax == 0 || pRegFrame->eax == 0x80) /* the two values observed. */
5ace91141404400247438502a84a418fba00c8cfvboxsync && pRegFrame->rcx * 8 <= PAGE_SIZE - ((uintptr_t)pvFault & PAGE_OFFSET_MASK)
09e2f92b8f54aa362088e216007b53ecdb42e283vboxsync && (pRegFrame->rax == 0 || pRegFrame->rax == 0x80) /* the two values observed. */
09e2f92b8f54aa362088e216007b53ecdb42e283vboxsync rc = pgmPoolAccessHandlerSTOSD(pVM, pPool, pPage, pDis, pRegFrame, GCPhysFault, pvFault);
09e2f92b8f54aa362088e216007b53ecdb42e283vboxsync STAM_PROFILE_STOP_EX(&pVM->pgm.s.CTX_SUFF(pPool)->CTX_SUFF_Z(StatMonitor), &pPool->CTX_MID_Z(StatMonitor,RepStosd), a);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync /* REP prefix, don't bother. */
5b6e2c9a765c3c72295acc15791af8a700746956vboxsync STAM_COUNTER_INC(&pPool->CTX_MID_Z(StatMonitor,RepPrefix));
08bc90fc2848c80bf8270bedc883745b8398e186vboxsync Log4(("pgmPoolAccessHandler: eax=%#x ecx=%#x edi=%#x esi=%#x rip=%RGv opcode=%d prefix=%#x\n",
3cbb4f9a6a320e58ed398ef7aaa004cc8727abc5vboxsync pRegFrame->eax, pRegFrame->ecx, pRegFrame->edi, pRegFrame->esi, (RTGCPTR)pRegFrame->rip, pDis->pCurInstr->opcode, pDis->prefix));
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsync /* E.g. Windows 7 x64 initializes page tables and touches some pages in the table during the process. This
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsync * leads to pgm pool trashing and an excessive amount of write faults due to page monitoring.
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsync rc = PGMHandlerPhysicalPageTempOff(pVM, pPage->GCPhys, pPage->GCPhys);
74735ec6edd6640eebac8885fbb2dadc86b89cf5vboxsync rc = PGMShwModifyPage(pVCpu, pvFault, 1, X86_PTE_RW, ~(uint64_t)X86_PTE_RW);
74735ec6edd6640eebac8885fbb2dadc86b89cf5vboxsync /* In the SMP case the page table might be removed while we wait for the PGM lock in the trap handler. */
74735ec6edd6640eebac8885fbb2dadc86b89cf5vboxsync ("PGMShwModifyPage -> GCPtr=%RGv rc=%d\n", pvFault, rc));
74735ec6edd6640eebac8885fbb2dadc86b89cf5vboxsync STAM_PROFILE_STOP(&pVM->pgm.s.CTX_SUFF(pPool)->CTX_SUFF_Z(StatMonitor), a);
74735ec6edd6640eebac8885fbb2dadc86b89cf5vboxsync#endif /* PGMPOOL_WITH_OPTIMIZED_DIRTY_PT */
74735ec6edd6640eebac8885fbb2dadc86b89cf5vboxsync * Not worth it, so flush it.
74735ec6edd6640eebac8885fbb2dadc86b89cf5vboxsync * If we considered it to be reused, don't go back to ring-3
74735ec6edd6640eebac8885fbb2dadc86b89cf5vboxsync * to emulate failed instructions since we usually cannot
74735ec6edd6640eebac8885fbb2dadc86b89cf5vboxsync * interpret then. This may be a bit risky, in which case
74735ec6edd6640eebac8885fbb2dadc86b89cf5vboxsync * the reuse detection must be fixed.
74735ec6edd6640eebac8885fbb2dadc86b89cf5vboxsync rc = pgmPoolAccessHandlerFlush(pVM, pVCpu, pPool, pPage, pDis, pRegFrame, GCPhysFault, pvFault);
74735ec6edd6640eebac8885fbb2dadc86b89cf5vboxsync STAM_PROFILE_STOP_EX(&pVM->pgm.s.CTX_SUFF(pPool)->CTX_SUFF_Z(StatMonitor), &pPool->CTX_MID_Z(StatMonitor,FlushPage), a);
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsync# endif /* !IN_RING3 */
2b5a4cf3d77ab62dcbd882115b6d497547b20d29vboxsync * Clear references to guest physical memory in a PAE / PAE page table.
2b5a4cf3d77ab62dcbd882115b6d497547b20d29vboxsync * @returns nr of changed PTEs
2b5a4cf3d77ab62dcbd882115b6d497547b20d29vboxsync * @param pPool The pool.
2b5a4cf3d77ab62dcbd882115b6d497547b20d29vboxsync * @param pPage The page.
2b5a4cf3d77ab62dcbd882115b6d497547b20d29vboxsync * @param pShwPT The shadow page table (mapping of the page).
2b5a4cf3d77ab62dcbd882115b6d497547b20d29vboxsync * @param pGstPT The guest page table.
2b5a4cf3d77ab62dcbd882115b6d497547b20d29vboxsync * @param pGstPT The old cached guest page table.
2b5a4cf3d77ab62dcbd882115b6d497547b20d29vboxsyncDECLINLINE(unsigned) pgmPoolTrackFlushPTPaePae(PPGMPOOL pPool, PPGMPOOLPAGE pPage, PX86PTPAE pShwPT, PCX86PTPAE pGstPT, PCX86PTPAE pOldGstPT)
2b5a4cf3d77ab62dcbd882115b6d497547b20d29vboxsync unsigned cChanged = 0;
2b5a4cf3d77ab62dcbd882115b6d497547b20d29vboxsync for (unsigned i = 0; i < RT_ELEMENTS(pShwPT->a); i++)
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsync /* The the old cached PTE is identical, then there's no need to flush the shadow copy. */
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsync if ((pGstPT->a[i].u & X86_PTE_PAE_PG_MASK) == (pOldGstPT->a[i].u & X86_PTE_PAE_PG_MASK))
bc8991845b5bd7e98758795748d3d76408756793vboxsync int rc = PGMPhysGCPhys2HCPhys(pPool->CTX_SUFF(pVM), pGstPT->a[i].u & X86_PTE_PAE_PG_MASK, &HCPhys);
c20b837b2c912dd4dcaaa676e15acd2b230108f0vboxsync AssertMsg(rc == VINF_SUCCESS && (pShwPT->a[i].u & X86_PTE_PAE_PG_MASK) == HCPhys, ("rc=%d guest %RGp %RHp vs %RHp\n", rc, pGstPT->a[i].u & X86_PTE_PAE_PG_MASK, (pShwPT->a[i].u & X86_PTE_PAE_PG_MASK), HCPhys));
0f5d1b2abd9e82c7ee46f1327287c44856604bcbvboxsync uint64_t uHostAttr = pShwPT->a[i].u & (X86_PTE_P | X86_PTE_US | X86_PTE_A | X86_PTE_D | X86_PTE_G | X86_PTE_PAE_NX);
3cbb4f9a6a320e58ed398ef7aaa004cc8727abc5vboxsync uint64_t uGuestAttr = pGstPT->a[i].u & (X86_PTE_P | X86_PTE_US | X86_PTE_A | X86_PTE_D | X86_PTE_G | X86_PTE_PAE_NX);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync /* Something was changed, so flush it. */
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsync Log4(("pgmPoolTrackDerefPTPaePae: i=%d pte=%RX32 hint=%RX32\n",
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsync i, pShwPT->a[i].u & X86_PTE_PAE_PG_MASK, pGstPT->a[i].u & X86_PTE_PAE_PG_MASK));
2cd06fc737773d015b5268b9e4dfba5997915957vboxsync pgmPoolTracDerefGCPhysHint(pPool, pPage, pShwPT->a[i].u & X86_PTE_PAE_PG_MASK, pOldGstPT->a[i].u & X86_PTE_PAE_PG_MASK);
2b5a4cf3d77ab62dcbd882115b6d497547b20d29vboxsync * Flush a dirty page
2b5a4cf3d77ab62dcbd882115b6d497547b20d29vboxsync * @param pVM VM Handle.
13b9db9ae2c12b6c4e00eda5c79772d57a0d29e1vboxsync * @param pPool The pool.
4584ef6026a823006bea5acbeb13dc4efe50da69vboxsync * @param idxSlot Dirty array slot index
9bebc668ed1ad5c93d92ff98fee1cd7dca55f6d5vboxsync * @param fForceRemoval Force removal from the dirty page list
4584ef6026a823006bea5acbeb13dc4efe50da69vboxsyncstatic void pgmPoolFlushDirtyPage(PVM pVM, PPGMPOOL pPool, unsigned idxSlot, bool fForceRemoval = false)
2b5a4cf3d77ab62dcbd882115b6d497547b20d29vboxsync Assert(idxSlot < RT_ELEMENTS(pPool->aIdxDirtyPages));
2b5a4cf3d77ab62dcbd882115b6d497547b20d29vboxsync if (pPool->aIdxDirtyPages[idxSlot] == NIL_PGMPOOL_IDX)
13b9db9ae2c12b6c4e00eda5c79772d57a0d29e1vboxsync Assert(pPage->iMonitoredNext == NIL_PGMPOOL_IDX && pPage->iMonitoredPrev == NIL_PGMPOOL_IDX);
13b9db9ae2c12b6c4e00eda5c79772d57a0d29e1vboxsync AssertMsg(pPage->fDirty, ("Page %RGp (slot=%d) not marked dirty!", pPage->GCPhys, idxSlot));
13b9db9ae2c12b6c4e00eda5c79772d57a0d29e1vboxsync Log(("Flush dirty page %RGp cMods=%d\n", pPage->GCPhys, pPage->cModifications));
13b9db9ae2c12b6c4e00eda5c79772d57a0d29e1vboxsync /* Flush those PTEs that have changed. */
13b9db9ae2c12b6c4e00eda5c79772d57a0d29e1vboxsync void *pvShw = PGMPOOL_PAGE_2_LOCKED_PTR(pPool->CTX_SUFF(pVM), pPage);
13b9db9ae2c12b6c4e00eda5c79772d57a0d29e1vboxsync int rc = PGM_GCPHYS_2_PTR(pPool->CTX_SUFF(pVM), pPage->GCPhys, &pvGst); AssertReleaseRC(rc);
13b9db9ae2c12b6c4e00eda5c79772d57a0d29e1vboxsync unsigned cChanges = pgmPoolTrackFlushPTPaePae(pPool, pPage, (PX86PTPAE)pvShw, (PCX86PTPAE)pvGst, (PCX86PTPAE)&pPool->aDirtyPages[idxSlot][0]);
13b9db9ae2c12b6c4e00eda5c79772d57a0d29e1vboxsync /** Note: we might want to consider keeping the dirty page active in case there were many changes. */
13b9db9ae2c12b6c4e00eda5c79772d57a0d29e1vboxsync /* Write protect the page again to catch all write accesses. */
13b9db9ae2c12b6c4e00eda5c79772d57a0d29e1vboxsync /* This page is likely to be modified again, so reduce the nr of modifications just a bit here. */
13b9db9ae2c12b6c4e00eda5c79772d57a0d29e1vboxsync pPage->cModifications = RT_MAX(1, pPage->cModifications / 2);
13b9db9ae2c12b6c4e00eda5c79772d57a0d29e1vboxsync if (pPool->cDirtyPages == RT_ELEMENTS(pPool->aIdxDirtyPages))
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsync Assert(pPool->cDirtyPages <= RT_ELEMENTS(pPool->aIdxDirtyPages));
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsync Log(("Removed dirty page %RGp cMods=%d\n", pPage->GCPhys, pPage->cModifications));
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsync * Add a new dirty page
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsync * @param pVM VM Handle.
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsync * @param pPool The pool.
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsync * @param pPage The page.
9bebc668ed1ad5c93d92ff98fee1cd7dca55f6d5vboxsyncvoid pgmPoolAddDirtyPage(PVM pVM, PPGMPOOL pPool, PPGMPOOLPAGE pPage)
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsync AssertCompile(RT_ELEMENTS(pPool->aIdxDirtyPages) == 8 || RT_ELEMENTS(pPool->aIdxDirtyPages) == 16);
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsync Assert(idxFree < RT_ELEMENTS(pPool->aIdxDirtyPages));
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsync Assert(pPage->iMonitoredNext == NIL_PGMPOOL_IDX && pPage->iMonitoredPrev == NIL_PGMPOOL_IDX);
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsync if (pPool->cDirtyPages >= RT_ELEMENTS(pPool->aIdxDirtyPages))
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsync pgmPoolFlushDirtyPage(pVM, pPool, idxFree, true /* force removal */);
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsync Assert(pPool->cDirtyPages < RT_ELEMENTS(pPool->aIdxDirtyPages));
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsync AssertMsg(pPool->aIdxDirtyPages[idxFree] == NIL_PGMPOOL_IDX, ("idxFree=%d cDirtyPages=%d\n", idxFree, pPool->cDirtyPages));
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsync /* Make a copy of the guest page table as we require valid GCPhys addresses when removing
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsync * references to physical pages. (the HCPhys linear lookup is *extremely* expensive!)
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsync int rc = PGM_GCPHYS_2_PTR(pPool->CTX_SUFF(pVM), pPage->GCPhys, &pvGst); AssertReleaseRC(rc);
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsync memcpy(&pPool->aDirtyPages[idxFree][0], pvGst, PAGE_SIZE);
c39952b427f31961ee5281dcdd492ad847ca74bbvboxsync Log(("Mark dirty page %RGp (slot=%d)\n", pPage->GCPhys, idxFree));
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsync pPool->idxFreeDirtyPage = (pPool->idxFreeDirtyPage + 1) & (RT_ELEMENTS(pPool->aIdxDirtyPages) - 1);
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsync if ( pPool->cDirtyPages < RT_ELEMENTS(pPool->aIdxDirtyPages)
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsync && pPool->aIdxDirtyPages[pPool->idxFreeDirtyPage] != NIL_PGMPOOL_IDX)
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsync unsigned i;
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsync for (i = 1; i < RT_ELEMENTS(pPool->aIdxDirtyPages); i++)
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsync idxFree = (pPool->idxFreeDirtyPage + i) & (RT_ELEMENTS(pPool->aIdxDirtyPages) - 1);
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsync if (pPool->aIdxDirtyPages[idxFree] == NIL_PGMPOOL_IDX)
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsync Assert(pPool->cDirtyPages == RT_ELEMENTS(pPool->aIdxDirtyPages) || pPool->aIdxDirtyPages[pPool->idxFreeDirtyPage] == NIL_PGMPOOL_IDX);
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsync * Reset all dirty pages by reinstating page monitoring.
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsync * @param pVM VM Handle.
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsync * @param fForceRemoval Force removal of all dirty pages
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsyncvoid pgmPoolResetDirtyPages(PVM pVM, bool fForceRemoval)
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsync Assert(pPool->cDirtyPages <= RT_ELEMENTS(pPool->aIdxDirtyPages));
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsync for (unsigned i = 0; i < RT_ELEMENTS(pPool->aIdxDirtyPages); i++)
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsync pgmPoolFlushDirtyPage(pVM, pPool, i, fForceRemoval);
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsync if ( pPool->cDirtyPages != RT_ELEMENTS(pPool->aIdxDirtyPages)
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsync && pPool->aIdxDirtyPages[pPool->idxFreeDirtyPage] != NIL_PGMPOOL_IDX)
2b5a4cf3d77ab62dcbd882115b6d497547b20d29vboxsync unsigned i;
2cd06fc737773d015b5268b9e4dfba5997915957vboxsync for (i = 1; i < RT_ELEMENTS(pPool->aIdxDirtyPages); i++)
2b5a4cf3d77ab62dcbd882115b6d497547b20d29vboxsync AssertMsg(i != RT_ELEMENTS(pPool->aIdxDirtyPages), ("cDirtyPages %d", pPool->cDirtyPages));
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsync Assert(pPool->aIdxDirtyPages[pPool->idxFreeDirtyPage] == NIL_PGMPOOL_IDX || pPool->cDirtyPages == RT_ELEMENTS(pPool->aIdxDirtyPages));
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsync# endif /* PGMPOOL_WITH_OPTIMIZED_DIRTY_PT */
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsync#endif /* PGMPOOL_WITH_MONITORING */
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsync * Inserts a page into the GCPhys hash table.
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsync * @param pPool The pool.
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsync * @param pPage The page.
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsyncDECLINLINE(void) pgmPoolHashInsert(PPGMPOOL pPool, PPGMPOOLPAGE pPage)
2b5a4cf3d77ab62dcbd882115b6d497547b20d29vboxsync Log3(("pgmPoolHashInsert: %RGp\n", pPage->GCPhys));
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsync Assert(pPage->GCPhys != NIL_RTGCPHYS); Assert(pPage->iNext == NIL_PGMPOOL_IDX);
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsync * Removes a page from the GCPhys hash table.
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsync * @param pPool The pool.
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsync * @param pPage The page.
2b5a4cf3d77ab62dcbd882115b6d497547b20d29vboxsyncDECLINLINE(void) pgmPoolHashRemove(PPGMPOOL pPool, PPGMPOOLPAGE pPage)
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsync Log3(("pgmPoolHashRemove: %RGp\n", pPage->GCPhys));
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsync AssertReleaseMsgFailed(("GCPhys=%RGp idx=%#x\n", pPage->GCPhys, pPage->idx));
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsync * Frees up one cache page.
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsync * @returns VBox status code.
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsync * @retval VINF_SUCCESS on success.
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsync * @param pPool The pool.
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsync * @param iUser The user index.
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsyncstatic int pgmPoolCacheFreeOne(PPGMPOOL pPool, uint16_t iUser)
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsync Assert(pPool->iAgeHead != pPool->iAgeTail); /* We shouldn't be here if there < 2 cached entries! */
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsync * Select one page from the tail of the age list.
d41220dff1068effe66bb6a11f444811ba58de40vboxsync/* This is the alternative to the SyncCR3 pgmPoolCacheUsed calls.
d41220dff1068effe66bb6a11f444811ba58de40vboxsync if (pPool->aPages[iToFree].iUserHead != NIL_PGMPOOL_USER_INDEX)
d41220dff1068effe66bb6a11f444811ba58de40vboxsync uint16_t i = pPool->aPages[iToFree].iAgePrev;
d41220dff1068effe66bb6a11f444811ba58de40vboxsync for (unsigned j = 0; j < 10 && i != NIL_PGMPOOL_USER_INDEX; j++, i = pPool->aPages[i].iAgePrev)
d41220dff1068effe66bb6a11f444811ba58de40vboxsync if (pPool->aPages[iToFree].iUserHead == NIL_PGMPOOL_USER_INDEX)
b9bd019c26def8e4d617c39121b62d7b8a826e96vboxsync iToFree = i;
d41220dff1068effe66bb6a11f444811ba58de40vboxsync * Reject any attempts at flushing the currently active shadow CR3 mapping.
90466ec66c4fa6a8cd62f01fbf141b51189d33cbvboxsync * Call pgmPoolCacheUsed to move the page to the head of the age list.
d41220dff1068effe66bb6a11f444811ba58de40vboxsync if (!pgmPoolIsPageLocked(&pPool->CTX_SUFF(pVM)->pgm.s, pPage))
d41220dff1068effe66bb6a11f444811ba58de40vboxsync LogFlow(("pgmPoolCacheFreeOne: refuse CR3 mapping\n"));
d41220dff1068effe66bb6a11f444811ba58de40vboxsync AssertLogRelReturn(iLoop < 8192, VERR_INTERNAL_ERROR);
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsync * Found a usable page, flush it and return.
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsync /* This flush was initiated by us and not the guest, so explicitly flush the TLB. */
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsync * Checks if a kind mismatch is really a page being reused
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsync * or if it's just normal remappings.
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsync * @returns true if reused and the cached page (enmKind1) should be flushed
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsync * @returns false if not reused.
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsync * @param enmKind1 The kind of the cached page.
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsync * @param enmKind2 The kind of the requested page.
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsyncstatic bool pgmPoolCacheReusedByKind(PGMPOOLKIND enmKind1, PGMPOOLKIND enmKind2)
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsync * Never reuse them. There is no remapping in non-paging mode.
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsync case PGMPOOLKIND_PAE_PDPT_FOR_32BIT: /* never reuse them for other types */
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsync return false;
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * It's perfectly fine to reuse these, except for PAE and non-paging stuff.
b1c3cdef473df2fbc621d5da81acc82dbfb8a11avboxsync return true;
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync return false;
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * It's perfectly fine to reuse these, except for PAE and non-paging stuff.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync return true;
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync return false;
7e960d3a0a8a3a84d7aba2cca45d72b1c31cc97bvboxsync * These cannot be flushed, and it's common to reuse the PDs as PTs.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync return false;
1ce20e84ae29a712029d1e213740388d7e158d5cvboxsync * Attempts to satisfy a pgmPoolAlloc request from the cache.
1ce20e84ae29a712029d1e213740388d7e158d5cvboxsync * @returns VBox status code.
1ce20e84ae29a712029d1e213740388d7e158d5cvboxsync * @retval VINF_PGM_CACHED_PAGE on success.
1ce20e84ae29a712029d1e213740388d7e158d5cvboxsync * @retval VERR_FILE_NOT_FOUND if not found.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pPool The pool.
1ce20e84ae29a712029d1e213740388d7e158d5cvboxsync * @param GCPhys The GC physical address of the page we're gonna shadow.
1ce20e84ae29a712029d1e213740388d7e158d5cvboxsync * @param enmKind The kind of mapping.
1ce20e84ae29a712029d1e213740388d7e158d5cvboxsync * @param enmAccess Access type for the mapping (only relevant for big pages)
1ce20e84ae29a712029d1e213740388d7e158d5cvboxsync * @param iUser The shadow page pool index of the user table.
1ce20e84ae29a712029d1e213740388d7e158d5cvboxsync * @param iUserTable The index into the user table (shadowed).
1ce20e84ae29a712029d1e213740388d7e158d5cvboxsync * @param ppPage Where to store the pointer to the page.
1ce20e84ae29a712029d1e213740388d7e158d5cvboxsyncstatic int pgmPoolCacheAlloc(PPGMPOOL pPool, RTGCPHYS GCPhys, PGMPOOLKIND enmKind, PGMPOOLACCESS enmAccess, uint16_t iUser, uint32_t iUserTable, PPPGMPOOLPAGE ppPage)
8b03ab0bcd5c238021bc8a43d887dd9d0870c0f5vboxsync * Look up the GCPhys in the hash.
1ce20e84ae29a712029d1e213740388d7e158d5cvboxsync Log3(("pgmPoolCacheAlloc: %RGp kind %s iUser=%x iUserTable=%x SLOT=%d\n", GCPhys, pgmPoolPoolKindToStr(enmKind), iUser, iUserTable, i));
1ce20e84ae29a712029d1e213740388d7e158d5cvboxsync Log4(("pgmPoolCacheAlloc: slot %d found page %RGp\n", i, pPage->GCPhys));
8b03ab0bcd5c238021bc8a43d887dd9d0870c0f5vboxsync /* Put it at the start of the use list to make sure pgmPoolTrackAddUser
2885e130ed9e2da2cb7c2cced97ca1b5779d6e71vboxsync * doesn't flush it in case there are no more free use records.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync int rc = pgmPoolTrackAddUser(pPool, pPage, iUser, iUserTable);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync pPage->cModifications = 1; /* reset counter (can't use 0, or else it will be reinserted in the modified list) */
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * The kind is different. In some cases we should now flush the page
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * as it has been reused, but in most cases this is normal remapping
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * of PDs as PT or big pages using the GCPhys field in a slightly
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * different way than the other kinds.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync if (pgmPoolCacheReusedByKind((PGMPOOLKIND)pPage->enmKind, enmKind))
9b45880674da6f82ca27cc28b0272de3dd3cc7dfvboxsync PGM_INVL_VCPU_TLBS(VMMGetCpu(pVM)); /* see PT handler. */
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync } while (i != NIL_PGMPOOL_IDX);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync Log3(("pgmPoolCacheAlloc: Missed GCPhys=%RGp enmKind=%s\n", GCPhys, pgmPoolPoolKindToStr(enmKind)));
8cdd041284cfe47b639146efec02846e20b67a0cvboxsync * Inserts a page into the cache.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pPool The pool.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pPage The cached page.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param fCanBeCached Set if the page is fit for caching from the caller's point of view.
10e1bc06b2908a0af56d92ffdbadd25b36a5ef61vboxsyncstatic void pgmPoolCacheInsert(PPGMPOOL pPool, PPGMPOOLPAGE pPage, bool fCanBeCached)
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Insert into the GCPhys hash if the page is fit for that.
61fa69e2bc9fc9e7490feed1c020273f3ddb238dvboxsync Log3(("pgmPoolCacheInsert: Caching %p:{.Core=%RHp, .idx=%d, .enmKind=%s, GCPhys=%RGp}\n",
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync pPage, pPage->Core.Key, pPage->idx, pgmPoolPoolKindToStr(pPage->enmKind), pPage->GCPhys));
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync Log3(("pgmPoolCacheInsert: Not caching %p:{.Core=%RHp, .idx=%d, .enmKind=%s, GCPhys=%RGp}\n",
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync pPage, pPage->Core.Key, pPage->idx, pgmPoolPoolKindToStr(pPage->enmKind), pPage->GCPhys));
8f7bc6ad2b7bbcb4b3b96248cd2478e45f2e3b88vboxsync * Insert at the head of the age list.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync pPool->aPages[pPool->iAgeHead].iAgePrev = pPage->idx;
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Flushes a cached page.
9b45880674da6f82ca27cc28b0272de3dd3cc7dfvboxsync * @param pPool The pool.
9b45880674da6f82ca27cc28b0272de3dd3cc7dfvboxsync * @param pPage The cached page.
61fa69e2bc9fc9e7490feed1c020273f3ddb238dvboxsyncstatic void pgmPoolCacheFlushPage(PPGMPOOL pPool, PPGMPOOLPAGE pPage)
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync Log3(("pgmPoolCacheFlushPage: %RGp\n", pPage->GCPhys));
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Remove the page from the hash.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Remove it from the age list.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync pPool->aPages[pPage->iAgeNext].iAgePrev = pPage->iAgePrev;
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync pPool->aPages[pPage->iAgePrev].iAgeNext = pPage->iAgeNext;
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync#endif /* PGMPOOL_WITH_CACHE */
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Looks for pages sharing the monitor.
6b022885f2cb6a55167609edecd89570cd80001dvboxsync * @returns Pointer to the head page.
b45d66c0e496e2fd861479202f3d43aad592bd14vboxsync * @returns NULL if not found.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pPool The Pool
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pNewPage The page which is going to be monitored.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsyncstatic PPGMPOOLPAGE pgmPoolMonitorGetPageByGCPhys(PPGMPOOL pPool, PPGMPOOLPAGE pNewPage)
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Look up the GCPhys in the hash.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync RTGCPHYS GCPhys = pNewPage->GCPhys & ~(RTGCPHYS)(PAGE_SIZE - 1);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync /* find the head */
74991d7531692858fd22acf371a7ee941567977cvboxsync /* ignore, no monitoring. */
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync AssertFatalMsgFailed(("enmKind=%d idx=%d\n", pPage->enmKind, pPage->idx));
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync } while (i != NIL_PGMPOOL_IDX);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Enabled write monitoring of a guest page.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @returns VBox status code.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @retval VINF_SUCCESS on success.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pPool The pool.
0174432b2b1a760b89840ba696f7ba51def65dddvboxsync * @param pPage The cached page.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsyncstatic int pgmPoolMonitorInsert(PPGMPOOL pPool, PPGMPOOLPAGE pPage)
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync LogFlow(("pgmPoolMonitorInsert %RGp\n", pPage->GCPhys & ~(RTGCPHYS)(PAGE_SIZE - 1)));
0174432b2b1a760b89840ba696f7ba51def65dddvboxsync * Filter out the relevant kinds.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync /* Nothing to monitor here. */
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync /* Nothing to monitor here. */
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync AssertFatalMsgFailed(("This can't happen! enmKind=%d\n", pPage->enmKind));
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Install handler.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync PPGMPOOLPAGE pPageHead = pgmPoolMonitorGetPageByGCPhys(pPool, pPage);
3cac8f8c6923a3a89ecfccda5e89ad75f48658e0vboxsync Assert(pPageHead != pPage); Assert(pPageHead->iMonitoredNext != pPage->idx);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync Assert(pPageHead->iMonitoredPrev == NIL_PGMPOOL_IDX || pPool->aPages[pPageHead->iMonitoredPrev].GCPhys == pPage->GCPhys);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync Assert(pPageHead->iMonitoredNext == NIL_PGMPOOL_IDX || pPool->aPages[pPageHead->iMonitoredNext].GCPhys == pPage->GCPhys);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync pgmPoolFlushDirtyPage(pPool->CTX_SUFF(pVM), pPool, pPageHead->idxDirty, true /* force removal */);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync pPool->aPages[pPageHead->iMonitoredNext].iMonitoredPrev = pPage->idx;
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync Assert(pPage->iMonitoredNext == NIL_PGMPOOL_IDX); Assert(pPage->iMonitoredPrev == NIL_PGMPOOL_IDX);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync const RTGCPHYS GCPhysPage = pPage->GCPhys & ~(RTGCPHYS)(PAGE_SIZE - 1);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync rc = PGMHandlerPhysicalRegisterEx(pVM, PGMPHYSHANDLERTYPE_PHYSICAL_WRITE,
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync pPool->pfnAccessHandlerR3, MMHyperCCToR3(pVM, pPage),
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync pPool->pfnAccessHandlerR0, MMHyperCCToR0(pVM, pPage),
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync pPool->pfnAccessHandlerRC, MMHyperCCToRC(pVM, pPage),
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync /** @todo we should probably deal with out-of-memory conditions here, but for now increasing
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * the heap size should suffice. */
00599f6d39cc25ca39845c2433cd75de7b9f6971vboxsync AssertFatalMsgRC(rc, ("PGMHandlerPhysicalRegisterEx %RGp failed with %Rrc\n", GCPhysPage, rc));
00599f6d39cc25ca39845c2433cd75de7b9f6971vboxsync Assert(!(VMMGetCpu(pVM)->pgm.s.fSyncFlags & PGM_SYNC_CLEAR_PGM_POOL) || VMCPU_FF_ISSET(VMMGetCpu(pVM), VMCPU_FF_PGM_SYNC_CR3));
3080f6c0871099df43a4e91b31894d9c2b1369a8vboxsync * Disables write monitoring of a guest page.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @returns VBox status code.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @retval VINF_SUCCESS on success.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pPool The pool.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pPage The cached page.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsyncstatic int pgmPoolMonitorFlush(PPGMPOOL pPool, PPGMPOOLPAGE pPage)
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Filter out the relevant kinds.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync /* Nothing to monitor here. */
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync AssertFatalMsgFailed(("This can't happen! enmKind=%d\n", pPage->enmKind));
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Remove the page from the monitored list or uninstall it if last.
315f443a509c31db47b8f5cb94d26e54c3d5c497vboxsync PPGMPOOLPAGE pNewHead = &pPool->aPages[pPage->iMonitoredNext];
00599f6d39cc25ca39845c2433cd75de7b9f6971vboxsync rc = PGMHandlerPhysicalChangeCallbacks(pVM, pPage->GCPhys & ~(RTGCPHYS)(PAGE_SIZE - 1),
00599f6d39cc25ca39845c2433cd75de7b9f6971vboxsync pPool->pfnAccessHandlerR3, MMHyperCCToR3(pVM, pNewHead),
00599f6d39cc25ca39845c2433cd75de7b9f6971vboxsync pPool->pfnAccessHandlerR0, MMHyperCCToR0(pVM, pNewHead),
00599f6d39cc25ca39845c2433cd75de7b9f6971vboxsync pPool->pfnAccessHandlerRC, MMHyperCCToRC(pVM, pNewHead),
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync pPool->aPages[pPage->iMonitoredPrev].iMonitoredNext = pPage->iMonitoredNext;
9b45880674da6f82ca27cc28b0272de3dd3cc7dfvboxsync pPool->aPages[pPage->iMonitoredNext].iMonitoredPrev = pPage->iMonitoredPrev;
75fca099c974cbbd48f132af1378c60232614760vboxsync rc = PGMHandlerPhysicalDeregister(pVM, pPage->GCPhys & ~(RTGCPHYS)(PAGE_SIZE - 1));
a3db4ff1e0aa7f94c9176ef16264df572eec0aebvboxsync AssertMsg(!(pVCpu->pgm.s.fSyncFlags & PGM_SYNC_CLEAR_PGM_POOL) || VMCPU_FF_ISSET(pVCpu, VMCPU_FF_PGM_SYNC_CR3),
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync ("%#x %#x\n", pVCpu->pgm.s.fSyncFlags, pVM->fGlobalForcedActions));
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Remove it from the list of modified pages (if in it).
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Inserts the page into the list of modified pages.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pPool The pool.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pPage The page.
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsyncvoid pgmPoolMonitorModifiedInsert(PPGMPOOL pPool, PPGMPOOLPAGE pPage)
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsync Log3(("pgmPoolMonitorModifiedInsert: idx=%d\n", pPage->idx));
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync ("Next=%d Prev=%d idx=%d cModifications=%d Head=%d cModifiedPages=%d\n",
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync pPage->iModifiedNext, pPage->iModifiedPrev, pPage->idx, pPage->cModifications,
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync pPool->aPages[pPool->iModifiedHead].iModifiedPrev = pPage->idx;
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync if (pPool->cModifiedPages > pPool->cModifiedPagesHigh)
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Removes the page from the list of modified pages and resets the
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * moficiation counter.
d6b5539478863f176bfffefc1ada2b9489cfa092vboxsync * @param pPool The pool.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pPage The page which is believed to be in the list of modified pages.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsyncstatic void pgmPoolMonitorModifiedRemove(PPGMPOOL pPool, PPGMPOOLPAGE pPage)
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync Log3(("pgmPoolMonitorModifiedRemove: idx=%d cModifications=%d\n", pPage->idx, pPage->cModifications));
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync pPool->aPages[pPage->iModifiedNext].iModifiedPrev = NIL_PGMPOOL_IDX;
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync pPool->aPages[pPage->iModifiedPrev].iModifiedNext = pPage->iModifiedNext;
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync pPool->aPages[pPage->iModifiedNext].iModifiedPrev = pPage->iModifiedPrev;
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Zaps the list of modified pages, resetting their modification counters in the process.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pVM The VM handle.
9b45880674da6f82ca27cc28b0272de3dd3cc7dfvboxsync LogFlow(("pgmPoolMonitorModifiedClearAll: cModifiedPages=%d\n", pPool->cModifiedPages));
75fca099c974cbbd48f132af1378c60232614760vboxsync pgmPoolResetDirtyPages(pVM, true /* force removal. */);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync AssertMsg(cPages == pPool->cModifiedPages, ("%d != %d\n", cPages, pPool->cModifiedPages));
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Callback to clear all shadow pages and clear all modification counters.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @returns VBox status code.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pVM The VM handle.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pVCpu The VMCPU for the EMT we're being called on. Unused.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pvUser Unused parameter.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @remark Should only be used when monitoring is available, thus placed in
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * the PGMPOOL_WITH_MONITORING \#ifdef.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsyncDECLCALLBACK(int) pgmPoolClearAll(PVM pVM, PVMCPU pVCpu, void *pvUser)
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync LogFlow(("pgmPoolClearAll: cUsedPages=%d\n", pPool->cUsedPages));
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Iterate all the pages until we've encountered all that in use.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * This is simple but not quite optimal solution.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync unsigned cModifiedPages = 0; NOREF(cModifiedPages);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * We only care about shadow page tables.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync void *pvShw = PGMPOOL_PAGE_2_PTR(pPool->CTX_SUFF(pVM), pPage);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync /* fall thru */
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync Assert(!pPage->cModifications || ++cModifiedPages);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync Assert(pPage->iModifiedNext == NIL_PGMPOOL_IDX || pPage->cModifications);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync Assert(pPage->iModifiedPrev == NIL_PGMPOOL_IDX || pPage->cModifications);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync /* swipe the special pages too. */
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync for (iPage = PGMPOOL_IDX_FIRST_SPECIAL; iPage < PGMPOOL_IDX_FIRST; iPage++)
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync Assert(!pPage->cModifications || ++cModifiedPages);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync Assert(pPage->iModifiedNext == NIL_PGMPOOL_IDX || pPage->cModifications);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync Assert(pPage->iModifiedPrev == NIL_PGMPOOL_IDX || pPage->cModifications);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync AssertMsg(cModifiedPages == pPool->cModifiedPages, ("%d != %d\n", cModifiedPages, pPool->cModifiedPages));
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Clear all the GCPhys links and rebuild the phys ext free list.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync for (PPGMRAMRANGE pRam = pPool->CTX_SUFF(pVM)->pgm.s.CTX_SUFF(pRamRanges);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync while (iPage-- > 0)
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync PPGMPOOLPHYSEXT paPhysExts = pPool->CTX_SUFF(paPhysExts);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync for (unsigned i = 0; i < cMaxPhysExts; i++)
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync paPhysExts[cMaxPhysExts - 1].iNext = NIL_PGMPOOL_PHYSEXT_INDEX;
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsync /* Clear all dirty pages. */
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync for (unsigned i = 0; i < RT_ELEMENTS(pPool->aIdxDirtyPages); i++)
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync /* Clear the PGM_SYNC_CLEAR_PGM_POOL flag on all VCPUs to prevent redundant flushes. */
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync for (unsigned idCpu = 0; idCpu < pVM->cCPUs; idCpu++)
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync pVCpu->pgm.s.fSyncFlags &= ~PGM_SYNC_CLEAR_PGM_POOL;
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync#endif /* IN_RING3 */
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Handle SyncCR3 pool tasks
52694110156cee1511e430c9ae800de121a20050vboxsync * @returns VBox status code.
52694110156cee1511e430c9ae800de121a20050vboxsync * @retval VINF_SUCCESS if successfully added.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @retval VINF_PGM_SYNC_CR3 is it needs to be deferred to ring 3 (GC only)
52694110156cee1511e430c9ae800de121a20050vboxsync * @param pVCpu The VMCPU handle.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @remark Should only be used when monitoring is available, thus placed in
52694110156cee1511e430c9ae800de121a20050vboxsync * the PGMPOOL_WITH_MONITORING #ifdef.
0138777a0eae9d74905d86f792f1f1c497dab65evboxsync * When monitoring shadowed pages, we reset the modification counters on CR3 sync.
4584ef6026a823006bea5acbeb13dc4efe50da69vboxsync * Occasionally we will have to clear all the shadow page tables because we wanted
4584ef6026a823006bea5acbeb13dc4efe50da69vboxsync * to monitor a page which was mapped by too many shadowed page tables. This operation
4584ef6026a823006bea5acbeb13dc4efe50da69vboxsync * sometimes refered to as a 'lightweight flush'.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync# ifdef IN_RING3 /* Don't flush in ring-0 or raw mode, it's taking too long. */
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync if (ASMBitTestAndClear(&pVCpu->pgm.s.fSyncFlags, PGM_SYNC_CLEAR_PGM_POOL_BIT))
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync int rc = VMMR3EmtRendezvous(pVM, VMMEMTRENDEZVOUS_FLAGS_TYPE_ONCE, pgmPoolClearAll, NULL);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync# else /* !IN_RING3 */
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync if (pVCpu->pgm.s.fSyncFlags & PGM_SYNC_CLEAR_PGM_POOL)
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync LogFlow(("SyncCR3: PGM_SYNC_CLEAR_PGM_POOL is set -> VINF_PGM_SYNC_CR3\n"));
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync VMCPU_FF_SET(pVCpu, VMCPU_FF_PGM_SYNC_CR3); /** @todo no need to do global sync, right? */
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync# endif /* !IN_RING3 */
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync#endif /* PGMPOOL_WITH_MONITORING */
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Frees up at least one user entry.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @returns VBox status code.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @retval VINF_SUCCESS if successfully added.
6b022885f2cb6a55167609edecd89570cd80001dvboxsync * @retval VERR_PGM_POOL_FLUSHED if the pool was flushed.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pPool The pool.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param iUser The user index.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsyncstatic int pgmPoolTrackFreeOneUser(PPGMPOOL pPool, uint16_t iUser)
de32f2abcb21ab5b46566f51b08d8f0b2094080avboxsync * Just free cached pages in a braindead fashion.
de32f2abcb21ab5b46566f51b08d8f0b2094080avboxsync /** @todo walk the age list backwards and free the first with usage. */
94e740c29aa13add24f941924e763ed5ed2abfa3vboxsync } while (pPool->iUserFreeHead == NIL_PGMPOOL_USER_INDEX);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Lazy approach.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync /* @todo This path no longer works (CR3 root pages will be flushed)!! */
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Inserts a page into the cache.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * This will create user node for the page, insert it into the GCPhys
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * hash, and insert it into the age list.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @returns VBox status code.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @retval VINF_SUCCESS if successfully added.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @retval VERR_PGM_POOL_FLUSHED if the pool was flushed.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pPool The pool.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pPage The cached page.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param GCPhys The GC physical address of the page we're gonna shadow.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param iUser The user index.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param iUserTable The user table index.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsyncDECLINLINE(int) pgmPoolTrackInsert(PPGMPOOL pPool, PPGMPOOLPAGE pPage, RTGCPHYS GCPhys, uint16_t iUser, uint32_t iUserTable)
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync LogFlow(("pgmPoolTrackInsert GCPhys=%RGp iUser %x iUserTable %x\n", GCPhys, iUser, iUserTable));
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Check that the entry doesn't already exists.
57399ab65e2825c324fb9dcb4642d4ae2c232509vboxsync AssertMsg(paUsers[i].iUser != iUser || paUsers[i].iUserTable != iUserTable, ("%x %x vs new %x %x\n", paUsers[i].iUser, paUsers[i].iUserTable, iUser, iUserTable));
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Find free a user node.
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsync * Unlink the user node from the free list,
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsync * initialize and insert it into the user list.
d6b5539478863f176bfffefc1ada2b9489cfa092vboxsync * Insert into cache and enable monitoring of the guest page if enabled.
d6b5539478863f176bfffefc1ada2b9489cfa092vboxsync * Until we implement caching of all levels, including the CR3 one, we'll
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * have to make sure we don't try monitor & cache any recursive reuse of
0138777a0eae9d74905d86f792f1f1c497dab65evboxsync * a monitored CR3 page. Because all windows versions are doing this we'll
9424be2edf0232241bc75178b401464d4de76cadvboxsync * have to be able to do combined access monitoring, CR3 + PT and
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * PD + PT (guest PAE).
06de36c1229f14000638fa27993b13c9133e85f5vboxsync * We're now cooperating with the CR3 monitor if an uncachable page is found.
3cac8f8c6923a3a89ecfccda5e89ad75f48658e0vboxsync#if defined(PGMPOOL_WITH_MONITORING) || defined(PGMPOOL_WITH_CACHE)
5dda7f07dab8a954e6c4cf2378b15f921e60d9aavboxsync const bool fCanBeMonitored = true;
5dda7f07dab8a954e6c4cf2378b15f921e60d9aavboxsync bool fCanBeMonitored = pPool->CTX_SUFF(pVM)->pgm.s.GCPhysGstCR3Monitored == NIL_RTGCPHYS
5dda7f07dab8a954e6c4cf2378b15f921e60d9aavboxsync || (GCPhys & X86_PTE_PAE_PG_MASK) != (pPool->CTX_SUFF(pVM)->pgm.s.GCPhysGstCR3Monitored & X86_PTE_PAE_PG_MASK)
5dda7f07dab8a954e6c4cf2378b15f921e60d9aavboxsync pgmPoolCacheInsert(pPool, pPage, fCanBeMonitored); /* This can be expanded. */
5dda7f07dab8a954e6c4cf2378b15f921e60d9aavboxsync#endif /* PGMPOOL_WITH_MONITORING */
d6b5539478863f176bfffefc1ada2b9489cfa092vboxsync# ifdef PGMPOOL_WITH_CACHE /* (only used when the cache is enabled.) */
52694110156cee1511e430c9ae800de121a20050vboxsync * Adds a user reference to a page.
52694110156cee1511e430c9ae800de121a20050vboxsync * This will move the page to the head of the
d6b5539478863f176bfffefc1ada2b9489cfa092vboxsync * @returns VBox status code.
9a99bb9ca6c5bc8ef1977e01e13b05e5cc58319bvboxsync * @retval VINF_SUCCESS if successfully added.
d6b5539478863f176bfffefc1ada2b9489cfa092vboxsync * @retval VERR_PGM_POOL_FLUSHED if the pool was flushed.
d6b5539478863f176bfffefc1ada2b9489cfa092vboxsync * @param pPool The pool.
5dda7f07dab8a954e6c4cf2378b15f921e60d9aavboxsync * @param pPage The cached page.
5dda7f07dab8a954e6c4cf2378b15f921e60d9aavboxsync * @param iUser The user index.
52694110156cee1511e430c9ae800de121a20050vboxsync * @param iUserTable The user table.
9a99bb9ca6c5bc8ef1977e01e13b05e5cc58319bvboxsyncstatic int pgmPoolTrackAddUser(PPGMPOOL pPool, PPGMPOOLPAGE pPage, uint16_t iUser, uint32_t iUserTable)
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync Log3(("pgmPoolTrackAddUser GCPhys = %RGp iUser %x iUserTable %x\n", pPage->GCPhys, iUser, iUserTable));
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Check that the entry doesn't already exists. We only allow multiple users of top-level paging structures (SHW_POOL_ROOT_IDX).
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync AssertMsg(iUser != PGMPOOL_IDX_PD || iUser != PGMPOOL_IDX_PDPT || iUser != PGMPOOL_IDX_NESTED_ROOT || iUser != PGMPOOL_IDX_AMD64_CR3 ||
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync paUsers[i].iUser != iUser || paUsers[i].iUserTable != iUserTable, ("%x %x vs new %x %x\n", paUsers[i].iUser, paUsers[i].iUserTable, iUser, iUserTable));
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Allocate a user node.
750d4d0506a38b2e80c997075d40aad474e675fbvboxsync * Initialize the user node and insert it.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Tell the cache to update its replacement stats for this page.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync# endif /* PGMPOOL_WITH_CACHE */
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Frees a user record associated with a page.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * This does not clear the entry in the user table, it simply replaces the
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * user record to the chain of free records.
afed5ab737f4aacfae3fe73776f40e989190a7cavboxsync * @param pPool The pool.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param HCPhys The HC physical address of the shadow page.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param iUser The shadow page pool index of the user table.
32f98f3d0fb00168315b4ece1f0808df4cd88248vboxsync * @param iUserTable The index into the user table (shadowed).
2c080f6fc6ab70995d6390eeaa199d590c1a34d5vboxsyncstatic void pgmPoolTrackFreeUser(PPGMPOOL pPool, PPGMPOOLPAGE pPage, uint16_t iUser, uint32_t iUserTable)
32f98f3d0fb00168315b4ece1f0808df4cd88248vboxsync * Unlink and free the specified user entry.
32f98f3d0fb00168315b4ece1f0808df4cd88248vboxsync Log3(("pgmPoolTrackFreeUser %RGp %x %x\n", pPage->GCPhys, iUser, iUserTable));
32f98f3d0fb00168315b4ece1f0808df4cd88248vboxsync /* Special: For PAE and 32-bit paging, there is usually no more than one user. */
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync /* General: Linear search. */
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync /* Fatal: didn't find it */
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync AssertFatalMsgFailed(("Didn't find the user entry! iUser=%#x iUserTable=%#x GCPhys=%RGp\n",
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Gets the entry size of a shadow table.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param enmKind The kind of page.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @returns The size of the entry in bytes. That is, 4 or 8.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @returns If the kind is not for a table, an assertion is raised and 0 is
6b022885f2cb6a55167609edecd89570cd80001dvboxsync * returned.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsyncDECLINLINE(unsigned) pgmPoolTrackGetShadowEntrySize(PGMPOOLKIND enmKind)
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Gets the entry size of a guest table.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param enmKind The kind of page.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @returns The size of the entry in bytes. That is, 0, 4 or 8.
689e03ca2c98ca6feaab8d9de6e4687a98f14ccbvboxsync * @returns If the kind is not for a table, an assertion is raised and 0 is
689e03ca2c98ca6feaab8d9de6e4687a98f14ccbvboxsync * returned.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsyncDECLINLINE(unsigned) pgmPoolTrackGetGuestEntrySize(PGMPOOLKIND enmKind)
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync /** @todo can we return 0? (nobody is calling this...) */
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Scans one shadow page table for mappings of a physical page.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pVM The VM handle.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pPhysPage The guest page in question.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param iShw The shadow page table.
afed5ab737f4aacfae3fe73776f40e989190a7cavboxsync * @param cRefs The number of references made in that PT.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsyncstatic void pgmPoolTrackFlushGCPhysPTInt(PVM pVM, PCPGMPAGE pPhysPage, uint16_t iShw, uint16_t cRefs)
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync LogFlow(("pgmPoolTrackFlushGCPhysPT: pPhysPage=%R[pgmpage] iShw=%d cRefs=%d\n", pPhysPage, iShw, cRefs));
ab1239d8445aa1fd4afddb7d0c8b90bbdc742010vboxsync * Assert sanity.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync AssertFatalMsg(iShw < pPool->cCurPages && iShw != NIL_PGMPOOL_IDX, ("iShw=%d\n", iShw));
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Then, clear the actual mappings to the page in the shadow PT.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync const uint32_t u32 = PGM_PAGE_GET_HCPHYS(pPhysPage) | X86_PTE_P;
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync PX86PT pPT = (PX86PT)PGMPOOL_PAGE_2_PTR(pVM, pPage);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync for (unsigned i = pPage->iFirstPresent; i < RT_ELEMENTS(pPT->a); i++)
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync if ((pPT->a[i].u & (X86_PTE_PG_MASK | X86_PTE_P)) == u32)
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync Log4(("pgmPoolTrackFlushGCPhysPTs: i=%d pte=%RX32 cRefs=%#x\n", i, pPT->a[i], cRefs));
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync pPT->a[i].u = 0;
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync Log(("cRefs=%d iFirstPresent=%d cPresent=%d\n", cRefs, pPage->iFirstPresent, pPage->cPresent));
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync if ((pPT->a[i].u & (X86_PTE_PG_MASK | X86_PTE_P)) == u32)
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync AssertFatalMsgFailed(("cRefs=%d iFirstPresent=%d cPresent=%d\n", cRefs, pPage->iFirstPresent, pPage->cPresent));
19b725c530eb49600728765de7ed451cbe290740vboxsync const uint64_t u64 = PGM_PAGE_GET_HCPHYS(pPhysPage) | X86_PTE_P;
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync PX86PTPAE pPT = (PX86PTPAE)PGMPOOL_PAGE_2_PTR(pVM, pPage);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync for (unsigned i = pPage->iFirstPresent; i < RT_ELEMENTS(pPT->a); i++)
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync if ((pPT->a[i].u & (X86_PTE_PAE_PG_MASK | X86_PTE_P)) == u64)
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync Log4(("pgmPoolTrackFlushGCPhysPTs: i=%d pte=%RX64 cRefs=%#x\n", i, pPT->a[i], cRefs));
223cf005b18af2c21352a70693ebaf0582f68ebcvboxsync pPT->a[i].u = 0;
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync Log(("cRefs=%d iFirstPresent=%d cPresent=%d\n", cRefs, pPage->iFirstPresent, pPage->cPresent));
75fca099c974cbbd48f132af1378c60232614760vboxsync if ((pPT->a[i].u & (X86_PTE_PAE_PG_MASK | X86_PTE_P)) == u64)
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync AssertFatalMsgFailed(("cRefs=%d iFirstPresent=%d cPresent=%d u64=%RX64\n", cRefs, pPage->iFirstPresent, pPage->cPresent, u64));
00599f6d39cc25ca39845c2433cd75de7b9f6971vboxsync const uint64_t u64 = PGM_PAGE_GET_HCPHYS(pPhysPage) | X86_PTE_P;
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync PEPTPT pPT = (PEPTPT)PGMPOOL_PAGE_2_PTR(pVM, pPage);
10e1bc06b2908a0af56d92ffdbadd25b36a5ef61vboxsync for (unsigned i = pPage->iFirstPresent; i < RT_ELEMENTS(pPT->a); i++)
8f7bc6ad2b7bbcb4b3b96248cd2478e45f2e3b88vboxsync if ((pPT->a[i].u & (EPT_PTE_PG_MASK | X86_PTE_P)) == u64)
3080f6c0871099df43a4e91b31894d9c2b1369a8vboxsync Log4(("pgmPoolTrackFlushGCPhysPTs: i=%d pte=%RX64 cRefs=%#x\n", i, pPT->a[i], cRefs));
ec588a4ac8429a8b6c744544818b3ce3b2c75690vboxsync pPT->a[i].u = 0;
75fca099c974cbbd48f132af1378c60232614760vboxsync Log(("cRefs=%d iFirstPresent=%d cPresent=%d\n", cRefs, pPage->iFirstPresent, pPage->cPresent));
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync if ((pPT->a[i].u & (EPT_PTE_PG_MASK | X86_PTE_P)) == u64)
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync AssertFatalMsgFailed(("cRefs=%d iFirstPresent=%d cPresent=%d\n", cRefs, pPage->iFirstPresent, pPage->cPresent));
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync AssertFatalMsgFailed(("enmKind=%d iShw=%d\n", pPage->enmKind, iShw));
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Scans one shadow page table for mappings of a physical page.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pVM The VM handle.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pPhysPage The guest page in question.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param iShw The shadow page table.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param cRefs The number of references made in that PT.
3080f6c0871099df43a4e91b31894d9c2b1369a8vboxsyncvoid pgmPoolTrackFlushGCPhysPT(PVM pVM, PPGMPAGE pPhysPage, uint16_t iShw, uint16_t cRefs)
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync PPGMPOOL pPool = pVM->pgm.s.CTX_SUFF(pPool); NOREF(pPool);
00599f6d39cc25ca39845c2433cd75de7b9f6971vboxsync LogFlow(("pgmPoolTrackFlushGCPhysPT: pPhysPage=%R[pgmpage] iShw=%d cRefs=%d\n", pPhysPage, iShw, cRefs));
00599f6d39cc25ca39845c2433cd75de7b9f6971vboxsync STAM_PROFILE_START(&pPool->StatTrackFlushGCPhysPT, f);
00599f6d39cc25ca39845c2433cd75de7b9f6971vboxsync pgmPoolTrackFlushGCPhysPTInt(pVM, pPhysPage, iShw, cRefs);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync STAM_PROFILE_STOP(&pPool->StatTrackFlushGCPhysPT, f);
10e1bc06b2908a0af56d92ffdbadd25b36a5ef61vboxsync * Flushes a list of shadow page tables mapping the same physical page.
5db1d52ffbcaa46c3d944c6c2d9c552306817d9avboxsync * @param pVM The VM handle.
3080f6c0871099df43a4e91b31894d9c2b1369a8vboxsync * @param pPhysPage The guest page in question.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param iPhysExt The physical cross reference extent list to flush.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsyncvoid pgmPoolTrackFlushGCPhysPTs(PVM pVM, PPGMPAGE pPhysPage, uint16_t iPhysExt)
61fa69e2bc9fc9e7490feed1c020273f3ddb238dvboxsync STAM_PROFILE_START(&pPool->StatTrackFlushGCPhysPTs, f);
61fa69e2bc9fc9e7490feed1c020273f3ddb238dvboxsync LogFlow(("pgmPoolTrackFlushGCPhysPTs: pPhysPage=%R[pgmpage] iPhysExt\n", pPhysPage, iPhysExt));
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync for (unsigned i = 0; i < RT_ELEMENTS(pPhysExt->aidx); i++)
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync pgmPoolTrackFlushGCPhysPTInt(pVM, pPhysPage, pPhysExt->aidx[i], 1);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync /* insert the list into the free list and clear the ram range entry. */
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync STAM_PROFILE_STOP(&pPool->StatTrackFlushGCPhysPTs, f);
bee80f3f77b15c166b7debd080a70e5231ba6751vboxsync#endif /* PGMPOOL_WITH_GCPHYS_TRACKING */
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Flushes all shadow page table mappings of the given guest page.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * This is typically called when the host page backing the guest one has been
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * replaced or when the page protection was changed due to an access handler.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @returns VBox status code.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @retval VINF_SUCCESS if all references has been successfully cleared.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @retval VINF_PGM_SYNC_CR3 if we're better off with a CR3 sync and a page
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * pool cleaning. FF and sync flags are set.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pVM The VM handle.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pPhysPage The guest page in question.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pfFlushTLBs This is set to @a true if the shadow TLBs should be
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * flushed, it is NOT touched if this isn't necessary.
9c425bdea5f0991df62922b1584b805a86f2f898vboxsync * The caller MUST initialized this to @a false.
aaeb2e2f6ed5b164f1dec9a16a7adeb84f64cf31vboxsyncint pgmPoolTrackFlushGCPhys(PVM pVM, PPGMPAGE pPhysPage, bool *pfFlushTLBs)
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync const uint16_t u16 = PGM_PAGE_GET_TRACKING(pPhysPage);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * The zero page is currently screwing up the tracking and we'll
467e62e1aa999ec951e820d74498ef79dd1bedbdvboxsync * have to flush the whole shebang. Unless VBOX_WITH_NEW_LAZY_PAGE_ALLOC
a53545030cc899212e9ac2a67971902c9fc26e99vboxsync * is defined, zero pages won't normally be mapped. Some kind of solution
e4ea543752422f1139923e3e506c625b0a1827c5vboxsync * will be needed for this problem of course, but it will have to wait...
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync /* Start a subset here because pgmPoolTrackFlushGCPhysPTsSlow and
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync pgmPoolTrackFlushGCPhysPTs will/may kill the pool otherwise. */
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync uint32_t iPrevSubset = PGMDynMapPushAutoSubset(pVCpu);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync if (PGMPOOL_TD_GET_CREFS(u16) != PGMPOOL_TD_CREFS_PHYSEXT)
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync else if (u16 != PGMPOOL_TD_MAKE(PGMPOOL_TD_CREFS_PHYSEXT, PGMPOOL_TD_IDX_OVERFLOWED))
e4ea543752422f1139923e3e506c625b0a1827c5vboxsync pgmPoolTrackFlushGCPhysPTs(pVM, pPhysPage, PGMPOOL_TD_GET_IDX(u16));
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync rc = pgmPoolTrackFlushGCPhysPTsSlow(pVM, pPhysPage);
467e62e1aa999ec951e820d74498ef79dd1bedbdvboxsync /* Start a subset here because pgmPoolTrackFlushGCPhysPTsSlow kill the pool otherwise. */
8c9d2065ca6efecd5661174e382314868c0d4b94vboxsync uint32_t iPrevSubset = PGMDynMapPushAutoSubset(pVCpu);
8c9d2065ca6efecd5661174e382314868c0d4b94vboxsync rc = pgmPoolTrackFlushGCPhysPTsSlow(pVM, pPhysPage);
a53545030cc899212e9ac2a67971902c9fc26e99vboxsync pVCpu->pgm.s.fSyncFlags |= PGM_SYNC_CLEAR_PGM_POOL;
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Scans all shadow page tables for mappings of a physical page.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * This may be slow, but it's most likely more efficient than cleaning
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * out the entire page pool / cache.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @returns VBox status code.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @retval VINF_SUCCESS if all references has been successfully cleared.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @retval VINF_PGM_GCPHYS_ALIASED if we're better off with a CR3 sync and
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * a page pool cleaning.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pVM The VM handle.
aaeb2e2f6ed5b164f1dec9a16a7adeb84f64cf31vboxsync * @param pPhysPage The guest page in question.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsyncint pgmPoolTrackFlushGCPhysPTsSlow(PVM pVM, PPGMPAGE pPhysPage)
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync STAM_PROFILE_START(&pPool->StatTrackFlushGCPhysPTsSlow, s);
50df3da42ff6589b0ecc4f50f2288811bc370186vboxsync LogFlow(("pgmPoolTrackFlushGCPhysPTsSlow: cUsedPages=%d cPresent=%d pPhysPage=%R[pgmpage]\n",
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * There is a limit to what makes sense.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync LogFlow(("pgmPoolTrackFlushGCPhysPTsSlow: giving up... (cPresent=%d)\n", pPool->cPresent));
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync STAM_PROFILE_STOP(&pPool->StatTrackFlushGCPhysPTsSlow, s);
aaeb2e2f6ed5b164f1dec9a16a7adeb84f64cf31vboxsync * Iterate all the pages until we've encountered all that in use.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * This is simple but not quite optimal solution.
50df3da42ff6589b0ecc4f50f2288811bc370186vboxsync const uint64_t u64 = PGM_PAGE_GET_HCPHYS(pPhysPage) | X86_PTE_P;
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * We only care about shadow page tables.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync PX86PT pPT = (PX86PT)PGMPOOL_PAGE_2_PTR(pVM, pPage);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync for (unsigned i = pPage->iFirstPresent; i < RT_ELEMENTS(pPT->a); i++)
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync if ((pPT->a[i].u & (X86_PTE_PG_MASK | X86_PTE_P)) == u32)
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync //Log4(("pgmPoolTrackFlushGCPhysPTsSlow: idx=%d i=%d pte=%RX32\n", iPage, i, pPT->a[i]));
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync pPT->a[i].u = 0;
11c599b71a8c202a506b8623af57432c3d415ddavboxsync PX86PTPAE pPT = (PX86PTPAE)PGMPOOL_PAGE_2_PTR(pVM, pPage);
11c599b71a8c202a506b8623af57432c3d415ddavboxsync for (unsigned i = pPage->iFirstPresent; i < RT_ELEMENTS(pPT->a); i++)
11c599b71a8c202a506b8623af57432c3d415ddavboxsync if ((pPT->a[i].u & (X86_PTE_PAE_PG_MASK | X86_PTE_P)) == u64)
11c599b71a8c202a506b8623af57432c3d415ddavboxsync //Log4(("pgmPoolTrackFlushGCPhysPTsSlow: idx=%d i=%d pte=%RX64\n", iPage, i, pPT->a[i]));
11c599b71a8c202a506b8623af57432c3d415ddavboxsync pPT->a[i].u = 0;
11c599b71a8c202a506b8623af57432c3d415ddavboxsync STAM_PROFILE_STOP(&pPool->StatTrackFlushGCPhysPTsSlow, s);
11c599b71a8c202a506b8623af57432c3d415ddavboxsync * Clears the user entry in a user table.
3241f1be564f7351b07ce8a807673fa77a7847bcvboxsync * This is used to remove all references to a page when flushing it.
11c599b71a8c202a506b8623af57432c3d415ddavboxsyncstatic void pgmPoolTrackClearPageUser(PPGMPOOL pPool, PPGMPOOLPAGE pPage, PCPGMPOOLUSER pUser)
11c599b71a8c202a506b8623af57432c3d415ddavboxsync * Map the user page.
11c599b71a8c202a506b8623af57432c3d415ddavboxsync PPGMPOOLPAGE pUserPage = &pPool->aPages[pUser->iUser];
11c599b71a8c202a506b8623af57432c3d415ddavboxsync u.pau64 = (uint64_t *)PGMPOOL_PAGE_2_PTR(pPool->CTX_SUFF(pVM), pUserPage);
11c599b71a8c202a506b8623af57432c3d415ddavboxsync LogFlow(("pgmPoolTrackClearPageUser: clear %x in %s (%RGp) (flushing %s)\n", iUserTable, pgmPoolPoolKindToStr(pUserPage->enmKind), pUserPage->Core.Key, pgmPoolPoolKindToStr(pPage->enmKind)));
11c599b71a8c202a506b8623af57432c3d415ddavboxsync /* Safety precaution in case we change the paging for other modes too in the future. */
11c599b71a8c202a506b8623af57432c3d415ddavboxsync Assert(!pgmPoolIsPageLocked(&pPool->CTX_SUFF(pVM)->pgm.s, pPage));
2b5a4cf3d77ab62dcbd882115b6d497547b20d29vboxsync * Some sanity checks.
11c599b71a8c202a506b8623af57432c3d415ddavboxsync Assert(!(u.pau64[iUserTable] & PGM_PLXFLAGS_PERMANENT));
11c599b71a8c202a506b8623af57432c3d415ddavboxsync Assert(!(u.pau64[iUserTable] & PGM_PDFLAGS_MAPPING));
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync Assert(!(u.pau64[iUserTable] & PGM_PLXFLAGS_PERMANENT));
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync Assert(!(u.pau64[iUserTable] & PGM_PLXFLAGS_PERMANENT));
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync /* GCPhys >> PAGE_SHIFT is the index here */
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync AssertMsgFailed(("enmKind=%d\n", pUserPage->enmKind));
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync#endif /* VBOX_STRICT */
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Clear the entry in the user page.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync /* 32-bit entries */
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync /* 64-bit entries */
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync /* In 32 bits PAE mode we *must* invalidate the TLB when changing a PDPT entry; the CPU fetches them only during cr3 load, so any
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * non-present PDPT will continue to cause page faults.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync /* no break */
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync AssertFatalMsgFailed(("enmKind=%d iUser=%#x iUserTable=%#x\n", pUserPage->enmKind, pUser->iUser, pUser->iUserTable));
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Clears all users of a page.
9c425bdea5f0991df62922b1584b805a86f2f898vboxsyncstatic void pgmPoolTrackClearPageUsers(PPGMPOOL pPool, PPGMPOOLPAGE pPage)
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Free all the user records.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync LogFlow(("pgmPoolTrackClearPageUsers %RGp\n", pPage->GCPhys));
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync /* Clear enter in user table. */
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync pgmPoolTrackClearPageUser(pPool, pPage, &paUsers[i]);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync /* Free it. */
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync /* Next. */
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Allocates a new physical cross reference extent.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @returns Pointer to the allocated extent on success. NULL if we're out of them.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pVM The VM handle.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param piPhysExt Where to store the phys ext index.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsyncPPGMPOOLPHYSEXT pgmPoolTrackPhysExtAlloc(PVM pVM, uint16_t *piPhysExt)
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync STAM_COUNTER_INC(&pPool->StamTrackPhysExtAllocFailures);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync PPGMPOOLPHYSEXT pPhysExt = &pPool->CTX_SUFF(paPhysExts)[iPhysExt];
f8b934f4817639cddebe4d3c2ae25d39a91fe448vboxsync * Frees a physical cross reference extent.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pVM The VM handle.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param iPhysExt The extent to free.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsyncvoid pgmPoolTrackPhysExtFree(PVM pVM, uint16_t iPhysExt)
9f1e0743f565b1975bb4efd7311b30cfa0d3e384vboxsync PPGMPOOLPHYSEXT pPhysExt = &pPool->CTX_SUFF(paPhysExts)[iPhysExt];
9f1e0743f565b1975bb4efd7311b30cfa0d3e384vboxsync for (unsigned i = 0; i < RT_ELEMENTS(pPhysExt->aidx); i++)
00599f6d39cc25ca39845c2433cd75de7b9f6971vboxsync * Frees a physical cross reference extent.
00599f6d39cc25ca39845c2433cd75de7b9f6971vboxsync * @param pVM The VM handle.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param iPhysExt The extent to free.
da936e0446fb2b56b813d5d938f1dfc6e4bf8b13vboxsyncvoid pgmPoolTrackPhysExtFreeList(PVM pVM, uint16_t iPhysExt)
da936e0446fb2b56b813d5d938f1dfc6e4bf8b13vboxsync for (unsigned i = 0; i < RT_ELEMENTS(pPhysExt->aidx); i++)
ec588a4ac8429a8b6c744544818b3ce3b2c75690vboxsync * Insert a reference into a list of physical cross reference extents.
ec588a4ac8429a8b6c744544818b3ce3b2c75690vboxsync * @returns The new tracking data for PGMPAGE.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pVM The VM handle.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param iPhysExt The physical extent index of the list head.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param iShwPT The shadow page table index.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsyncstatic uint16_t pgmPoolTrackPhysExtInsert(PVM pVM, uint16_t iPhysExt, uint16_t iShwPT)
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync PPGMPOOLPHYSEXT paPhysExts = pPool->CTX_SUFF(paPhysExts);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync /* special common case. */
3080f6c0871099df43a4e91b31894d9c2b1369a8vboxsync if (paPhysExts[iPhysExt].aidx[2] == NIL_PGMPOOL_IDX)
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync STAM_COUNTER_INC(&pVM->pgm.s.StatTrackAliasedMany);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync LogFlow(("pgmPoolTrackPhysExtInsert: %d:{,,%d}\n", iPhysExt, iShwPT));
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync return PGMPOOL_TD_MAKE(PGMPOOL_TD_CREFS_PHYSEXT, iPhysExt);
00599f6d39cc25ca39845c2433cd75de7b9f6971vboxsync /* general treatment. */
e751d1e1e4ae424d4846a23da32f663d14960796vboxsync for (unsigned i = 0; i < RT_ELEMENTS(paPhysExts[iPhysExt].aidx); i++)
e751d1e1e4ae424d4846a23da32f663d14960796vboxsync if (paPhysExts[iPhysExt].aidx[i] == NIL_PGMPOOL_IDX)
2b88b28162a49c6fa769c03d56767a9806d4f456vboxsync STAM_COUNTER_INC(&pVM->pgm.s.StatTrackAliasedMany);
2b88b28162a49c6fa769c03d56767a9806d4f456vboxsync LogFlow(("pgmPoolTrackPhysExtInsert: %d:{%d} i=%d cMax=%d\n", iPhysExt, iShwPT, i, cMax));
10e1bc06b2908a0af56d92ffdbadd25b36a5ef61vboxsync return PGMPOOL_TD_MAKE(PGMPOOL_TD_CREFS_PHYSEXT, iPhysExtStart);
2b88b28162a49c6fa769c03d56767a9806d4f456vboxsync LogFlow(("pgmPoolTrackPhysExtInsert: overflow (1) iShwPT=%d\n", iShwPT));
ec588a4ac8429a8b6c744544818b3ce3b2c75690vboxsync return PGMPOOL_TD_MAKE(PGMPOOL_TD_CREFS_PHYSEXT, PGMPOOL_TD_IDX_OVERFLOWED);
5be6801527b2bb09f4b481e28d771f366961cdacvboxsync /* add another extent to the list. */
5be6801527b2bb09f4b481e28d771f366961cdacvboxsync PPGMPOOLPHYSEXT pNew = pgmPoolTrackPhysExtAlloc(pVM, &iPhysExt);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync LogFlow(("pgmPoolTrackPhysExtInsert: pgmPoolTrackPhysExtAlloc failed iShwPT=%d\n", iShwPT));
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync return PGMPOOL_TD_MAKE(PGMPOOL_TD_CREFS_PHYSEXT, PGMPOOL_TD_IDX_OVERFLOWED);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync LogFlow(("pgmPoolTrackPhysExtInsert: added new extent %d:{%d}->%d\n", iPhysExt, iShwPT, iPhysExtStart));
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync return PGMPOOL_TD_MAKE(PGMPOOL_TD_CREFS_PHYSEXT, iPhysExt);
907da3b41f191bef4c8eb94accb9d16fcbe77019vboxsync * Add a reference to guest physical page where extents are in use.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @returns The new tracking data for PGMPAGE.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pVM The VM handle.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param u16 The ram range flags (top 16-bits).
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param iShwPT The shadow page table index.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsyncuint16_t pgmPoolTrackPhysExtAddref(PVM pVM, uint16_t u16, uint16_t iShwPT)
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync if (PGMPOOL_TD_GET_CREFS(u16) != PGMPOOL_TD_CREFS_PHYSEXT)
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Convert to extent list.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync PPGMPOOLPHYSEXT pPhysExt = pgmPoolTrackPhysExtAlloc(pVM, &iPhysExt);
3cac8f8c6923a3a89ecfccda5e89ad75f48658e0vboxsync LogFlow(("pgmPoolTrackPhysExtAddref: new extent: %d:{%d, %d}\n", iPhysExt, PGMPOOL_TD_GET_IDX(u16), iShwPT));
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync u16 = PGMPOOL_TD_MAKE(PGMPOOL_TD_CREFS_PHYSEXT, iPhysExt);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync u16 = PGMPOOL_TD_MAKE(PGMPOOL_TD_CREFS_PHYSEXT, PGMPOOL_TD_IDX_OVERFLOWED);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync else if (u16 != PGMPOOL_TD_MAKE(PGMPOOL_TD_CREFS_PHYSEXT, PGMPOOL_TD_IDX_OVERFLOWED))
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Insert into the extent list.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync u16 = pgmPoolTrackPhysExtInsert(pVM, PGMPOOL_TD_GET_IDX(u16), iShwPT);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync STAM_COUNTER_INC(&pVM->pgm.s.StatTrackAliasedLots);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Clear references to guest physical memory.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pPool The pool.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pPage The page.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pPhysPage Pointer to the aPages entry in the ram range.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsyncvoid pgmPoolTrackPhysExtDerefGCPhys(PPGMPOOL pPool, PPGMPOOLPAGE pPage, PPGMPAGE pPhysPage)
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync const unsigned cRefs = PGM_PAGE_GET_TD_CREFS(pPhysPage);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync AssertFatalMsg(cRefs == PGMPOOL_TD_CREFS_PHYSEXT, ("cRefs=%d pPhysPage=%R[pgmpage] pPage=%p:{.idx=%d}\n", cRefs, pPhysPage, pPage, pPage->idx));
50df3da42ff6589b0ecc4f50f2288811bc370186vboxsync uint16_t iPhysExt = PGM_PAGE_GET_TD_IDX(pPhysPage);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync PPGMPOOLPHYSEXT paPhysExts = pPool->CTX_SUFF(paPhysExts);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Look for the shadow page and check if it's all freed.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync for (unsigned i = 0; i < RT_ELEMENTS(paPhysExts[iPhysExt].aidx); i++)
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync for (i = 0; i < RT_ELEMENTS(paPhysExts[iPhysExt].aidx); i++)
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync if (paPhysExts[iPhysExt].aidx[i] != NIL_PGMPOOL_IDX)
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync Log2(("pgmPoolTrackPhysExtDerefGCPhys: pPhysPage=%R[pgmpage] idx=%d\n", pPhysPage, pPage->idx));
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync /* we can free the node. */
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync const uint16_t iPhysExtNext = paPhysExts[iPhysExt].iNext;
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync /* lonely node */
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync Log2(("pgmPoolTrackPhysExtDerefGCPhys: pPhysPage=%R[pgmpage] idx=%d lonely\n", pPhysPage, pPage->idx));
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync else if (iPhysExtPrev == NIL_PGMPOOL_PHYSEXT_INDEX)
65ff326ac3915638f5c4e79c2c3e836aeeeb86devboxsync Log2(("pgmPoolTrackPhysExtDerefGCPhys: pPhysPage=%R[pgmpage] idx=%d head\n", pPhysPage, pPage->idx));
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync PGM_PAGE_SET_TRACKING(pPhysPage, PGMPOOL_TD_MAKE(PGMPOOL_TD_CREFS_PHYSEXT, iPhysExtNext));
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync /* in list */
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync Log2(("pgmPoolTrackPhysExtDerefGCPhys: pPhysPage=%R[pgmpage] idx=%d\n", pPhysPage, pPage->idx));
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync AssertFatalMsgFailed(("not-found! cRefs=%d pPhysPage=%R[pgmpage] pPage=%p:{.idx=%d}\n", cRefs, pPhysPage, pPage, pPage->idx));
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync else /* nothing to do */
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync Log2(("pgmPoolTrackPhysExtDerefGCPhys: pPhysPage=%R[pgmpage]\n", pPhysPage));
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Clear references to guest physical memory.
96fb9e5765400c1ad6e462d0a25680e2312dd54cvboxsync * This is the same as pgmPoolTracDerefGCPhys except that the guest physical address
65ff326ac3915638f5c4e79c2c3e836aeeeb86devboxsync * is assumed to be correct, so the linear search can be skipped and we can assert
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * at an earlier point.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pPool The pool.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pPage The page.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param HCPhys The host physical address corresponding to the guest page.
96fb9e5765400c1ad6e462d0a25680e2312dd54cvboxsync * @param GCPhys The guest physical address corresponding to HCPhys.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsyncstatic void pgmPoolTracDerefGCPhys(PPGMPOOL pPool, PPGMPOOLPAGE pPage, RTHCPHYS HCPhys, RTGCPHYS GCPhys)
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Walk range list.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync PPGMRAMRANGE pRam = pPool->CTX_SUFF(pVM)->pgm.s.CTX_SUFF(pRamRanges);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync /* does it match? */
65ff326ac3915638f5c4e79c2c3e836aeeeb86devboxsyncRTHCPHYS HCPhysPage = PGM_PAGE_GET_HCPHYS(&pRam->aPages[iPage]);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsyncLog2(("pgmPoolTracDerefGCPhys %RHp vs %RHp\n", HCPhysPage, HCPhys));
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync if (PGM_PAGE_GET_HCPHYS(&pRam->aPages[iPage]) == HCPhys)
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync pgmTrackDerefGCPhys(pPool, pPage, &pRam->aPages[iPage]);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync AssertFatalMsgFailed(("HCPhys=%RHp GCPhys=%RGp\n", HCPhys, GCPhys));
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Clear references to guest physical memory.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pPool The pool.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pPage The page.
65ff326ac3915638f5c4e79c2c3e836aeeeb86devboxsync * @param HCPhys The host physical address corresponding to the guest page.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param GCPhysHint The guest physical address which may corresponding to HCPhys.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsyncvoid pgmPoolTracDerefGCPhysHint(PPGMPOOL pPool, PPGMPOOLPAGE pPage, RTHCPHYS HCPhys, RTGCPHYS GCPhysHint)
65ff326ac3915638f5c4e79c2c3e836aeeeb86devboxsync Log4(("pgmPoolTracDerefGCPhysHint %RHp %RGp\n", HCPhys, GCPhysHint));
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Walk range list.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync PPGMRAMRANGE pRam = pPool->CTX_SUFF(pVM)->pgm.s.CTX_SUFF(pRamRanges);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync /* does it match? */
65ff326ac3915638f5c4e79c2c3e836aeeeb86devboxsync if (PGM_PAGE_GET_HCPHYS(&pRam->aPages[iPage]) == HCPhys)
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync pgmTrackDerefGCPhys(pPool, pPage, &pRam->aPages[iPage]);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Damn, the hint didn't work. We'll have to do an expensive linear search.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync STAM_COUNTER_INC(&pPool->StatTrackLinearRamSearches);
aaeb2e2f6ed5b164f1dec9a16a7adeb84f64cf31vboxsync pRam = pPool->CTX_SUFF(pVM)->pgm.s.CTX_SUFF(pRamRanges);
65ff326ac3915638f5c4e79c2c3e836aeeeb86devboxsync while (iPage-- > 0)
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync if (PGM_PAGE_GET_HCPHYS(&pRam->aPages[iPage]) == HCPhys)
65ff326ac3915638f5c4e79c2c3e836aeeeb86devboxsync Log4(("pgmPoolTracDerefGCPhysHint: Linear HCPhys=%RHp GCPhysHint=%RGp GCPhysReal=%RGp\n",
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync HCPhys, GCPhysHint, pRam->GCPhys + (iPage << PAGE_SHIFT)));
d7f733dd34ab7755807d85016b7c2ab3d1a362d4vboxsync pgmTrackDerefGCPhys(pPool, pPage, &pRam->aPages[iPage]);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync AssertFatalMsgFailed(("HCPhys=%RHp GCPhysHint=%RGp\n", HCPhys, GCPhysHint));
e4ea543752422f1139923e3e506c625b0a1827c5vboxsync * Clear references to guest physical memory in a 32-bit / 32-bit page table.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pPool The pool.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pPage The page.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pShwPT The shadow page table (mapping of the page).
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pGstPT The guest page table.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsyncDECLINLINE(void) pgmPoolTrackDerefPT32Bit32Bit(PPGMPOOL pPool, PPGMPOOLPAGE pPage, PX86PT pShwPT, PCX86PT pGstPT)
bee80f3f77b15c166b7debd080a70e5231ba6751vboxsync for (unsigned i = pPage->iFirstPresent; i < RT_ELEMENTS(pShwPT->a); i++)
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync Log4(("pgmPoolTrackDerefPT32Bit32Bit: i=%d pte=%RX32 hint=%RX32\n",
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync i, pShwPT->a[i].u & X86_PTE_PG_MASK, pGstPT->a[i].u & X86_PTE_PG_MASK));
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync pgmPoolTracDerefGCPhysHint(pPool, pPage, pShwPT->a[i].u & X86_PTE_PG_MASK, pGstPT->a[i].u & X86_PTE_PG_MASK);
57399ab65e2825c324fb9dcb4642d4ae2c232509vboxsync * Clear references to guest physical memory in a PAE / 32-bit page table.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pPool The pool.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pPage The page.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pShwPT The shadow page table (mapping of the page).
bee80f3f77b15c166b7debd080a70e5231ba6751vboxsync * @param pGstPT The guest page table (just a half one).
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsyncDECLINLINE(void) pgmPoolTrackDerefPTPae32Bit(PPGMPOOL pPool, PPGMPOOLPAGE pPage, PX86PTPAE pShwPT, PCX86PT pGstPT)
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync for (unsigned i = 0; i < RT_ELEMENTS(pShwPT->a); i++)
bee80f3f77b15c166b7debd080a70e5231ba6751vboxsync Log4(("pgmPoolTrackDerefPTPae32Bit: i=%d pte=%RX64 hint=%RX32\n",
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync i, pShwPT->a[i].u & X86_PTE_PAE_PG_MASK, pGstPT->a[i].u & X86_PTE_PG_MASK));
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync pgmPoolTracDerefGCPhysHint(pPool, pPage, pShwPT->a[i].u & X86_PTE_PAE_PG_MASK, pGstPT->a[i].u & X86_PTE_PG_MASK);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Clear references to guest physical memory in a PAE / PAE page table.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pPool The pool.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pPage The page.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pShwPT The shadow page table (mapping of the page).
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pGstPT The guest page table.
d7f733dd34ab7755807d85016b7c2ab3d1a362d4vboxsyncDECLINLINE(void) pgmPoolTrackDerefPTPaePae(PPGMPOOL pPool, PPGMPOOLPAGE pPage, PX86PTPAE pShwPT, PCX86PTPAE pGstPT)
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync for (unsigned i = 0; i < RT_ELEMENTS(pShwPT->a); i++)
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync Log4(("pgmPoolTrackDerefPTPaePae: i=%d pte=%RX32 hint=%RX32\n",
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync i, pShwPT->a[i].u & X86_PTE_PAE_PG_MASK, pGstPT->a[i].u & X86_PTE_PAE_PG_MASK));
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync pgmPoolTracDerefGCPhysHint(pPool, pPage, pShwPT->a[i].u & X86_PTE_PAE_PG_MASK, pGstPT->a[i].u & X86_PTE_PAE_PG_MASK);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Clear references to guest physical memory in a 32-bit / 4MB page table.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pPool The pool.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pPage The page.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pShwPT The shadow page table (mapping of the page).
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsyncDECLINLINE(void) pgmPoolTrackDerefPT32Bit4MB(PPGMPOOL pPool, PPGMPOOLPAGE pPage, PX86PT pShwPT)
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync for (unsigned i = 0; i < RT_ELEMENTS(pShwPT->a); i++, GCPhys += PAGE_SIZE)
6b022885f2cb6a55167609edecd89570cd80001dvboxsync Log4(("pgmPoolTrackDerefPT32Bit4MB: i=%d pte=%RX32 GCPhys=%RGp\n",
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync pgmPoolTracDerefGCPhys(pPool, pPage, pShwPT->a[i].u & X86_PTE_PG_MASK, GCPhys);
aaeb2e2f6ed5b164f1dec9a16a7adeb84f64cf31vboxsync * Clear references to guest physical memory in a PAE / 2/4MB page table.
fe49486f3c0fc3c327138e9a8f9ea9911d7c0d64vboxsync * @param pPool The pool.
8cc5fcd8d00ac5e7e66de8b9abbf5e1f77b2b577vboxsync * @param pPage The page.
3cac8f8c6923a3a89ecfccda5e89ad75f48658e0vboxsync * @param pShwPT The shadow page table (mapping of the page).
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsyncDECLINLINE(void) pgmPoolTrackDerefPTPaeBig(PPGMPOOL pPool, PPGMPOOLPAGE pPage, PX86PTPAE pShwPT)
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync for (unsigned i = 0; i < RT_ELEMENTS(pShwPT->a); i++, GCPhys += PAGE_SIZE)
6f516ad9911d9037a18778742caa955fe362f8ffvboxsync Log4(("pgmPoolTrackDerefPTPaeBig: i=%d pte=%RX64 hint=%RGp\n",
b1c3cdef473df2fbc621d5da81acc82dbfb8a11avboxsync pgmPoolTracDerefGCPhys(pPool, pPage, pShwPT->a[i].u & X86_PTE_PAE_PG_MASK, GCPhys);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync#endif /* PGMPOOL_WITH_GCPHYS_TRACKING */
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Clear references to shadowed pages in a 32 bits page directory.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pPool The pool.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pPage The page.
e285b77aab2c715aec02b4dc3ac288c48c8ed27avboxsync * @param pShwPD The shadow page directory (mapping of the page).
fa7355597d7eba5b4ca8a23056ebe1b8fb306fdbvboxsyncDECLINLINE(void) pgmPoolTrackDerefPD(PPGMPOOL pPool, PPGMPOOLPAGE pPage, PX86PD pShwPD)
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync for (unsigned i = 0; i < RT_ELEMENTS(pShwPD->a); i++)
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync PPGMPOOLPAGE pSubPage = (PPGMPOOLPAGE)RTAvloHCPhysGet(&pPool->HCPhysTree, pShwPD->a[i].u & X86_PDE_PG_MASK);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync pgmPoolTrackFreeUser(pPool, pSubPage, pPage->idx, i);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync AssertFatalMsgFailed(("%x\n", pShwPD->a[i].u & X86_PDE_PG_MASK));
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Clear references to shadowed pages in a PAE (legacy or 64 bits) page directory.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pPool The pool.
6f516ad9911d9037a18778742caa955fe362f8ffvboxsync * @param pPage The page.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pShwPD The shadow page directory (mapping of the page).
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsyncDECLINLINE(void) pgmPoolTrackDerefPDPae(PPGMPOOL pPool, PPGMPOOLPAGE pPage, PX86PDPAE pShwPD)
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync for (unsigned i = 0; i < RT_ELEMENTS(pShwPD->a); i++)
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync PPGMPOOLPAGE pSubPage = (PPGMPOOLPAGE)RTAvloHCPhysGet(&pPool->HCPhysTree, pShwPD->a[i].u & X86_PDE_PAE_PG_MASK);
aaeb2e2f6ed5b164f1dec9a16a7adeb84f64cf31vboxsync pgmPoolTrackFreeUser(pPool, pSubPage, pPage->idx, i);
b1c3cdef473df2fbc621d5da81acc82dbfb8a11avboxsync AssertFatalMsgFailed(("%RX64\n", pShwPD->a[i].u & X86_PDE_PAE_PG_MASK));
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync /** @todo 64-bit guests: have to ensure that we're not exhausting the dynamic mappings! */
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Clear references to shadowed pages in a PAE page directory pointer table.
b1c3cdef473df2fbc621d5da81acc82dbfb8a11avboxsync * @param pPool The pool.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pPage The page.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pShwPDPT The shadow page directory pointer table (mapping of the page).
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsyncDECLINLINE(void) pgmPoolTrackDerefPDPTPae(PPGMPOOL pPool, PPGMPOOLPAGE pPage, PX86PDPT pShwPDPT)
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync for (unsigned i = 0; i < X86_PG_PAE_PDPE_ENTRIES; i++)
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync PPGMPOOLPAGE pSubPage = (PPGMPOOLPAGE)RTAvloHCPhysGet(&pPool->HCPhysTree, pShwPDPT->a[i].u & X86_PDPE_PG_MASK);
e4ea543752422f1139923e3e506c625b0a1827c5vboxsync pgmPoolTrackFreeUser(pPool, pSubPage, pPage->idx, i);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync AssertFatalMsgFailed(("%RX64\n", pShwPDPT->a[i].u & X86_PDPE_PG_MASK));
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Clear references to shadowed pages in a 64-bit page directory pointer table.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pPool The pool.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pPage The page.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pShwPDPT The shadow page directory pointer table (mapping of the page).
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsyncDECLINLINE(void) pgmPoolTrackDerefPDPT64Bit(PPGMPOOL pPool, PPGMPOOLPAGE pPage, PX86PDPT pShwPDPT)
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync for (unsigned i = 0; i < RT_ELEMENTS(pShwPDPT->a); i++)
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync Assert(!(pShwPDPT->a[i].u & PGM_PLXFLAGS_MAPPING));
e4ea543752422f1139923e3e506c625b0a1827c5vboxsync PPGMPOOLPAGE pSubPage = (PPGMPOOLPAGE)RTAvloHCPhysGet(&pPool->HCPhysTree, pShwPDPT->a[i].u & X86_PDPE_PG_MASK);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync pgmPoolTrackFreeUser(pPool, pSubPage, pPage->idx, i);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync AssertFatalMsgFailed(("%RX64\n", pShwPDPT->a[i].u & X86_PDPE_PG_MASK));
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync /** @todo 64-bit guests: have to ensure that we're not exhausting the dynamic mappings! */
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Clear references to shadowed pages in a 64-bit level 4 page table.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pPool The pool.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pPage The page.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pShwPML4 The shadow page directory pointer table (mapping of the page).
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsyncDECLINLINE(void) pgmPoolTrackDerefPML464Bit(PPGMPOOL pPool, PPGMPOOLPAGE pPage, PX86PML4 pShwPML4)
e4ea543752422f1139923e3e506c625b0a1827c5vboxsync for (unsigned i = 0; i < RT_ELEMENTS(pShwPML4->a); i++)
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync PPGMPOOLPAGE pSubPage = (PPGMPOOLPAGE)RTAvloHCPhysGet(&pPool->HCPhysTree, pShwPML4->a[i].u & X86_PDPE_PG_MASK);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync pgmPoolTrackFreeUser(pPool, pSubPage, pPage->idx, i);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync AssertFatalMsgFailed(("%RX64\n", pShwPML4->a[i].u & X86_PML4E_PG_MASK));
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync /** @todo 64-bit guests: have to ensure that we're not exhausting the dynamic mappings! */
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Clear references to shadowed pages in an EPT page table.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pPool The pool.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pPage The page.
e4ea543752422f1139923e3e506c625b0a1827c5vboxsync * @param pShwPML4 The shadow page directory pointer table (mapping of the page).
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsyncDECLINLINE(void) pgmPoolTrackDerefPTEPT(PPGMPOOL pPool, PPGMPOOLPAGE pPage, PEPTPT pShwPT)
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync for (unsigned i = 0; i < RT_ELEMENTS(pShwPT->a); i++, GCPhys += PAGE_SIZE)
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync Log4(("pgmPoolTrackDerefPTEPT: i=%d pte=%RX64 GCPhys=%RX64\n",
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync i, pShwPT->a[i].u & EPT_PTE_PG_MASK, pPage->GCPhys));
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync pgmPoolTracDerefGCPhys(pPool, pPage, pShwPT->a[i].u & EPT_PTE_PG_MASK, GCPhys);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Clear references to shadowed pages in an EPT page directory.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pPool The pool.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pPage The page.
e4ea543752422f1139923e3e506c625b0a1827c5vboxsync * @param pShwPD The shadow page directory (mapping of the page).
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsyncDECLINLINE(void) pgmPoolTrackDerefPDEPT(PPGMPOOL pPool, PPGMPOOLPAGE pPage, PEPTPD pShwPD)
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync for (unsigned i = 0; i < RT_ELEMENTS(pShwPD->a); i++)
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync PPGMPOOLPAGE pSubPage = (PPGMPOOLPAGE)RTAvloHCPhysGet(&pPool->HCPhysTree, pShwPD->a[i].u & EPT_PDE_PG_MASK);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync pgmPoolTrackFreeUser(pPool, pSubPage, pPage->idx, i);
9f1e0743f565b1975bb4efd7311b30cfa0d3e384vboxsync AssertFatalMsgFailed(("%RX64\n", pShwPD->a[i].u & EPT_PDE_PG_MASK));
9f1e0743f565b1975bb4efd7311b30cfa0d3e384vboxsync /** @todo 64-bit guests: have to ensure that we're not exhausting the dynamic mappings! */
9f1e0743f565b1975bb4efd7311b30cfa0d3e384vboxsync * Clear references to shadowed pages in an EPT page directory pointer table.
9f1e0743f565b1975bb4efd7311b30cfa0d3e384vboxsync * @param pPool The pool.
9f1e0743f565b1975bb4efd7311b30cfa0d3e384vboxsync * @param pPage The page.
9f1e0743f565b1975bb4efd7311b30cfa0d3e384vboxsync * @param pShwPDPT The shadow page directory pointer table (mapping of the page).
9f1e0743f565b1975bb4efd7311b30cfa0d3e384vboxsyncDECLINLINE(void) pgmPoolTrackDerefPDPTEPT(PPGMPOOL pPool, PPGMPOOLPAGE pPage, PEPTPDPT pShwPDPT)
9f1e0743f565b1975bb4efd7311b30cfa0d3e384vboxsync for (unsigned i = 0; i < RT_ELEMENTS(pShwPDPT->a); i++)
9f1e0743f565b1975bb4efd7311b30cfa0d3e384vboxsync PPGMPOOLPAGE pSubPage = (PPGMPOOLPAGE)RTAvloHCPhysGet(&pPool->HCPhysTree, pShwPDPT->a[i].u & EPT_PDPTE_PG_MASK);
9f1e0743f565b1975bb4efd7311b30cfa0d3e384vboxsync pgmPoolTrackFreeUser(pPool, pSubPage, pPage->idx, i);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync AssertFatalMsgFailed(("%RX64\n", pShwPDPT->a[i].u & EPT_PDPTE_PG_MASK));
10e1bc06b2908a0af56d92ffdbadd25b36a5ef61vboxsync /** @todo 64-bit guests: have to ensure that we're not exhausting the dynamic mappings! */
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Clears all references made by this page.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * This includes other shadow pages and GC physical addresses.
9f1e0743f565b1975bb4efd7311b30cfa0d3e384vboxsync * @param pPool The pool.
9f1e0743f565b1975bb4efd7311b30cfa0d3e384vboxsync * @param pPage The page.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsyncstatic void pgmPoolTrackDeref(PPGMPOOL pPool, PPGMPOOLPAGE pPage)
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Map the shadow page and take action according to the page kind.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync void *pvShw = PGMPOOL_PAGE_2_LOCKED_PTR(pPool->CTX_SUFF(pVM), pPage);
ef4275be1971a6d17d45121d075a4f41659fa6c9vboxsync STAM_PROFILE_START(&pPool->StatTrackDerefGCPhys, g);
ef4275be1971a6d17d45121d075a4f41659fa6c9vboxsync int rc = PGM_GCPHYS_2_PTR(pPool->CTX_SUFF(pVM), pPage->GCPhys, &pvGst); AssertReleaseRC(rc);
ef4275be1971a6d17d45121d075a4f41659fa6c9vboxsync pgmPoolTrackDerefPT32Bit32Bit(pPool, pPage, (PX86PT)pvShw, (PCX86PT)pvGst);
ef4275be1971a6d17d45121d075a4f41659fa6c9vboxsync STAM_PROFILE_STOP(&pPool->StatTrackDerefGCPhys, g);
ef4275be1971a6d17d45121d075a4f41659fa6c9vboxsync STAM_PROFILE_START(&pPool->StatTrackDerefGCPhys, g);
ef4275be1971a6d17d45121d075a4f41659fa6c9vboxsync int rc = PGM_GCPHYS_2_PTR_EX(pPool->CTX_SUFF(pVM), pPage->GCPhys, &pvGst); AssertReleaseRC(rc);
ef4275be1971a6d17d45121d075a4f41659fa6c9vboxsync pgmPoolTrackDerefPTPae32Bit(pPool, pPage, (PX86PTPAE)pvShw, (PCX86PT)pvGst);
ef4275be1971a6d17d45121d075a4f41659fa6c9vboxsync STAM_PROFILE_STOP(&pPool->StatTrackDerefGCPhys, g);
ef4275be1971a6d17d45121d075a4f41659fa6c9vboxsync STAM_PROFILE_START(&pPool->StatTrackDerefGCPhys, g);
ef4275be1971a6d17d45121d075a4f41659fa6c9vboxsync int rc = PGM_GCPHYS_2_PTR(pPool->CTX_SUFF(pVM), pPage->GCPhys, &pvGst); AssertReleaseRC(rc);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync pgmPoolTrackDerefPTPaePae(pPool, pPage, (PX86PTPAE)pvShw, (PCX86PTPAE)pvGst);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync STAM_PROFILE_STOP(&pPool->StatTrackDerefGCPhys, g);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync case PGMPOOLKIND_32BIT_PT_FOR_PHYS: /* treat it like a 4 MB page */
8f7bc6ad2b7bbcb4b3b96248cd2478e45f2e3b88vboxsync STAM_PROFILE_START(&pPool->StatTrackDerefGCPhys, g);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync pgmPoolTrackDerefPT32Bit4MB(pPool, pPage, (PX86PT)pvShw);
e4ea543752422f1139923e3e506c625b0a1827c5vboxsync STAM_PROFILE_STOP(&pPool->StatTrackDerefGCPhys, g);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync case PGMPOOLKIND_PAE_PT_FOR_PHYS: /* treat it like a 2 MB page */
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync STAM_PROFILE_START(&pPool->StatTrackDerefGCPhys, g);
8f7bc6ad2b7bbcb4b3b96248cd2478e45f2e3b88vboxsync pgmPoolTrackDerefPTPaeBig(pPool, pPage, (PX86PTPAE)pvShw);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync STAM_PROFILE_STOP(&pPool->StatTrackDerefGCPhys, g);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync#else /* !PGMPOOL_WITH_GCPHYS_TRACKING */
40f47bc231ff6c86a7ddc3295eed7010e889e78avboxsync#endif /* !PGMPOOL_WITH_GCPHYS_TRACKING */
40f47bc231ff6c86a7ddc3295eed7010e889e78avboxsync pgmPoolTrackDerefPDPae(pPool, pPage, (PX86PDPAE)pvShw);
61fa69e2bc9fc9e7490feed1c020273f3ddb238dvboxsync pgmPoolTrackDerefPDPTPae(pPool, pPage, (PX86PDPT)pvShw);
61fa69e2bc9fc9e7490feed1c020273f3ddb238dvboxsync pgmPoolTrackDerefPDPT64Bit(pPool, pPage, (PX86PDPT)pvShw);
61fa69e2bc9fc9e7490feed1c020273f3ddb238dvboxsync pgmPoolTrackDerefPML464Bit(pPool, pPage, (PX86PML4)pvShw);
61fa69e2bc9fc9e7490feed1c020273f3ddb238dvboxsync pgmPoolTrackDerefPTEPT(pPool, pPage, (PEPTPT)pvShw);
61fa69e2bc9fc9e7490feed1c020273f3ddb238dvboxsync pgmPoolTrackDerefPDEPT(pPool, pPage, (PEPTPD)pvShw);
61fa69e2bc9fc9e7490feed1c020273f3ddb238dvboxsync pgmPoolTrackDerefPDPTEPT(pPool, pPage, (PEPTPDPT)pvShw);
61fa69e2bc9fc9e7490feed1c020273f3ddb238dvboxsync AssertFatalMsgFailed(("enmKind=%d\n", pPage->enmKind));
61fa69e2bc9fc9e7490feed1c020273f3ddb238dvboxsync /* paranoia, clear the shadow page. Remove this laser (i.e. let Alloc and ClearAll do it). */
61fa69e2bc9fc9e7490feed1c020273f3ddb238dvboxsync#endif /* PGMPOOL_WITH_USER_TRACKING */
3cac8f8c6923a3a89ecfccda5e89ad75f48658e0vboxsync * Flushes a pool page.
61fa69e2bc9fc9e7490feed1c020273f3ddb238dvboxsync * This moves the page to the free list after removing all user references to it.
61fa69e2bc9fc9e7490feed1c020273f3ddb238dvboxsync * @returns VBox status code.
61fa69e2bc9fc9e7490feed1c020273f3ddb238dvboxsync * @retval VINF_SUCCESS on success.
61fa69e2bc9fc9e7490feed1c020273f3ddb238dvboxsync * @param pPool The pool.
61fa69e2bc9fc9e7490feed1c020273f3ddb238dvboxsync * @param HCPhys The HC physical address of the shadow page.
61fa69e2bc9fc9e7490feed1c020273f3ddb238dvboxsyncint pgmPoolFlushPage(PPGMPOOL pPool, PPGMPOOLPAGE pPage)
61fa69e2bc9fc9e7490feed1c020273f3ddb238dvboxsync LogFlow(("pgmPoolFlushPage: pPage=%p:{.Key=%RHp, .idx=%d, .enmKind=%s, .GCPhys=%RGp}\n",
61fa69e2bc9fc9e7490feed1c020273f3ddb238dvboxsync pPage, pPage->Core.Key, pPage->idx, pgmPoolPoolKindToStr(pPage->enmKind), pPage->GCPhys));
61fa69e2bc9fc9e7490feed1c020273f3ddb238dvboxsync * Quietly reject any attempts at flushing any of the special root pages.
3cac8f8c6923a3a89ecfccda5e89ad75f48658e0vboxsync Log(("pgmPoolFlushPage: special root page, rejected. enmKind=%s idx=%d\n", pgmPoolPoolKindToStr(pPage->enmKind), pPage->idx));
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Quietly reject any attempts at flushing the currently active shadow CR3 mapping
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync AssertMsg( pPage->enmKind == PGMPOOLKIND_64BIT_PML4
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync || pPage->enmKind == PGMPOOLKIND_PAE_PDPT_FOR_32BIT
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync || pPage->enmKind == PGMPOOLKIND_PAE_PD0_FOR_32BIT_PD
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync || pPage->enmKind == PGMPOOLKIND_PAE_PD1_FOR_32BIT_PD
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync || pPage->enmKind == PGMPOOLKIND_PAE_PD2_FOR_32BIT_PD
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync || pPage->enmKind == PGMPOOLKIND_PAE_PD3_FOR_32BIT_PD,
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync ("Can't free the shadow CR3! (%RHp vs %RHp kind=%d\n", PGMGetHyperCR3(VMMGetCpu(pVM)), pPage->Core.Key, pPage->enmKind));
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync Log(("pgmPoolFlushPage: current active shadow CR3, rejected. enmKind=%s idx=%d\n", pgmPoolPoolKindToStr(pPage->enmKind), pPage->idx));
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync /* Start a subset so we won't run out of mapping space. */
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync uint32_t iPrevSubset = PGMDynMapPushAutoSubset(pVCpu);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Mark the page as being in need of a ASMMemZeroPage().
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync pgmPoolFlushDirtyPage(pVM, pPool, pPage->idxDirty, true /* force removal */);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Clear the page.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Flush it from the cache.
61fa69e2bc9fc9e7490feed1c020273f3ddb238dvboxsync#endif /* PGMPOOL_WITH_CACHE */
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync /* Heavy stuff done. */
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Deregistering the monitoring.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Free the page.
9f1e0743f565b1975bb4efd7311b30cfa0d3e384vboxsync * Frees a usage of a pool page.
9f1e0743f565b1975bb4efd7311b30cfa0d3e384vboxsync * The caller is responsible to updating the user table so that it no longer
9f1e0743f565b1975bb4efd7311b30cfa0d3e384vboxsync * references the shadow page.
9f1e0743f565b1975bb4efd7311b30cfa0d3e384vboxsync * @param pPool The pool.
db548661809056af7b58115fdcf6077043d13863vboxsync * @param HCPhys The HC physical address of the shadow page.
ef4275be1971a6d17d45121d075a4f41659fa6c9vboxsync * @param iUser The shadow page pool index of the user table.
ef4275be1971a6d17d45121d075a4f41659fa6c9vboxsync * @param iUserTable The index into the user table (shadowed).
9c425bdea5f0991df62922b1584b805a86f2f898vboxsyncvoid pgmPoolFreeByPage(PPGMPOOL pPool, PPGMPOOLPAGE pPage, uint16_t iUser, uint32_t iUserTable)
5db1d52ffbcaa46c3d944c6c2d9c552306817d9avboxsync LogFlow(("pgmPoolFreeByPage: pPage=%p:{.Key=%RHp, .idx=%d, enmKind=%s} iUser=%#x iUserTable=%#x\n",
40f47bc231ff6c86a7ddc3295eed7010e889e78avboxsync pPage, pPage->Core.Key, pPage->idx, pgmPoolPoolKindToStr(pPage->enmKind), iUser, iUserTable));
61fa69e2bc9fc9e7490feed1c020273f3ddb238dvboxsync pgmPoolTrackFreeUser(pPool, pPage, iUser, iUserTable);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Makes one or more free page free.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @returns VBox status code.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @retval VINF_SUCCESS on success.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @retval VERR_PGM_POOL_FLUSHED if the pool was flushed.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pPool The pool.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param enmKind Page table kind
22e281e75ed636601178296c6daebda8f1d17c59vboxsync * @param iUser The user of the page.
3cac8f8c6923a3a89ecfccda5e89ad75f48658e0vboxsyncstatic int pgmPoolMakeMoreFreePages(PPGMPOOL pPool, PGMPOOLKIND enmKind, uint16_t iUser)
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync LogFlow(("pgmPoolMakeMoreFreePages: iUser=%#x\n", iUser));
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * If the pool isn't full grown yet, expand it.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync /* Hack alert: we can't deal with jumps to ring 3 when called from MapCR3 and allocating pages for PAE PDs. */
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync && (enmKind < PGMPOOLKIND_PAE_PD0_FOR_32BIT_PD || enmKind > PGMPOOLKIND_PAE_PD3_FOR_32BIT_PD)
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync int rc = VMMRZCallRing3NoCpu(pVM, VMMCALLRING3_PGM_POOL_GROW, 0);
41b8e304f190c3d901bcfee5e73c11bc2c42ce13vboxsync * Free one cached page.
7e2fce486e7e2e45eb61d78ee206ba42ed89e016vboxsync * Flush the pool.
0aeb5f500280603a51364071670efeb2617f771cvboxsync * If we have tracking enabled, it should be possible to come up with
0aeb5f500280603a51364071670efeb2617f771cvboxsync * a cheap replacement strategy...
6c849982f467f6a3b6c2e01f8f7109391715c29cvboxsync /* @todo This path no longer works (CR3 root pages will be flushed)!! */
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Allocates a page from the pool.
50e0e1bb8996934b3f38c117a456f825052bfb0cvboxsync * This page may actually be a cached page and not in need of any processing
50e0e1bb8996934b3f38c117a456f825052bfb0cvboxsync * on the callers part.
3241f1be564f7351b07ce8a807673fa77a7847bcvboxsync * @returns VBox status code.
50e0e1bb8996934b3f38c117a456f825052bfb0cvboxsync * @retval VINF_SUCCESS if a NEW page was allocated.
50e0e1bb8996934b3f38c117a456f825052bfb0cvboxsync * @retval VINF_PGM_CACHED_PAGE if a CACHED page was returned.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @retval VERR_PGM_POOL_FLUSHED if the pool was flushed.
9e3d5133d0d1dfaf4721e714ffe066464d622ce7vboxsync * @param pVM The VM handle.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param GCPhys The GC physical address of the page we're gonna shadow.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * For 4MB and 2MB PD entries, it's the first address the
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * shadow PT is covering.
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsync * @param enmKind The kind of mapping.
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsync * @param enmAccess Access type for the mapping (only relevant for big pages)
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsync * @param iUser The shadow page pool index of the user table.
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsync * @param iUserTable The index into the user table (shadowed).
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsync * @param ppPage Where to store the pointer to the page. NULL is stored here on failure.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param fLockPage Lock the page
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsyncint pgmPoolAllocEx(PVM pVM, RTGCPHYS GCPhys, PGMPOOLKIND enmKind, PGMPOOLACCESS enmAccess, uint16_t iUser, uint32_t iUserTable, PPPGMPOOLPAGE ppPage, bool fLockPage)
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync LogFlow(("pgmPoolAlloc: GCPhys=%RGp enmKind=%s iUser=%#x iUserTable=%#x\n", GCPhys, pgmPoolPoolKindToStr(enmKind), iUser, iUserTable));
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync /** @todo CSAM/PGMPrefetchPage messes up here during CSAMR3CheckGates
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * (TRPMR3SyncIDT) because of FF priority. Try fix that?
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Assert(!(pVM->pgm.s.fGlobalSyncFlags & PGM_SYNC_CLEAR_PGM_POOL)); */
50e0e1bb8996934b3f38c117a456f825052bfb0cvboxsync int rc2 = pgmPoolCacheAlloc(pPool, GCPhys, enmKind, enmAccess, iUser, iUserTable, ppPage);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync LogFlow(("pgmPoolAlloc: cached returns %Rrc *ppPage=%p:{.Key=%RHp, .idx=%d}\n", rc2, *ppPage, (*ppPage)->Core.Key, (*ppPage)->idx));
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Allocate a new one.
74991d7531692858fd22acf371a7ee941567977cvboxsync rc = pgmPoolMakeMoreFreePages(pPool, enmKind, iUser);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync AssertReleaseReturn(iNew != NIL_PGMPOOL_IDX, VERR_INTERNAL_ERROR);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync /* unlink the free head */
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Initialize it.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync pPool->cUsedPages++; /* physical handler registration / pgmPoolTrackFlushGCPhysPTsSlow requirement. */
41b8e304f190c3d901bcfee5e73c11bc2c42ce13vboxsync pPage->fSeenNonGlobal = false; /* Set this to 'true' to disable this feature. */
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Insert into the tracking and cache. If this fails, free the page.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync int rc3 = pgmPoolTrackInsert(pPool, pPage, GCPhys, iUser, iUserTable);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync Log(("pgmPoolAlloc: returns %Rrc (Insert)\n", rc3));
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync#endif /* PGMPOOL_WITH_USER_TRACKING */
5e0e35e65847aae0955835d5c4b4e76143e580c1vboxsync * Commit the allocation, clear the page and return.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync LogFlow(("pgmPoolAlloc: returns %Rrc *ppPage=%p:{.Key=%RHp, .idx=%d, .fCached=%RTbool, .fMonitored=%RTbool}\n",
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync rc, pPage, pPage->Core.Key, pPage->idx, pPage->fCached, pPage->fMonitored));
26824086a3f6b36cd911058f1d9b4c0b944706fbvboxsync * Frees a usage of a pool page.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pVM The VM handle.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param HCPhys The HC physical address of the shadow page.
750d4d0506a38b2e80c997075d40aad474e675fbvboxsync * @param iUser The shadow page pool index of the user table.
750d4d0506a38b2e80c997075d40aad474e675fbvboxsync * @param iUserTable The index into the user table (shadowed).
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsyncvoid pgmPoolFree(PVM pVM, RTHCPHYS HCPhys, uint16_t iUser, uint32_t iUserTable)
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync LogFlow(("pgmPoolFree: HCPhys=%RHp iUser=%#x iUserTable=%#x\n", HCPhys, iUser, iUserTable));
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync pgmPoolFreeByPage(pPool, pgmPoolGetPage(pPool, HCPhys), iUser, iUserTable);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Internal worker for finding a 'in-use' shadow page give by it's physical address.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @returns Pointer to the shadow page structure.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pPool The pool.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param HCPhys The HC physical address of the shadow page.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsyncPPGMPOOLPAGE pgmPoolGetPage(PPGMPOOL pPool, RTHCPHYS HCPhys)
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Look up the page.
cb06e3f411d6ced5515682cddfbfa8ec463c6ff3vboxsync PPGMPOOLPAGE pPage = (PPGMPOOLPAGE)RTAvloHCPhysGet(&pPool->HCPhysTree, HCPhys & X86_PTE_PAE_PG_MASK);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync AssertFatalMsg(pPage && pPage->enmKind != PGMPOOLKIND_FREE, ("HCPhys=%RHp pPage=%p idx=%d\n", HCPhys, pPage, (pPage) ? pPage->idx : 0));
d6b5539478863f176bfffefc1ada2b9489cfa092vboxsync * Flushes the entire cache.
50cd04a47a3d04b52dbafe28921bff3d4c387841vboxsync * It will assert a global CR3 flush (FF) and assumes the caller is aware of this
50cd04a47a3d04b52dbafe28921bff3d4c387841vboxsync * and execute this CR3 flush.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * @param pPool The pool.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * If there are no pages in the pool, there is nothing to do.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Exit the shadow mode since we're going to clear everything,
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * including the root page.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Nuke the free list and reinsert all pages into it.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync for (unsigned i = pPool->cCurPages - 1; i >= PGMPOOL_IDX_FIRST; i--)
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync Assert(pPage->Core.Key == MMPage2Phys(pVM, pPage->pvPageR3));
fdc5224bd8d9a60af82da5809e3d6729c9bc69cbvboxsync pPage->fZeroed = false; /* This could probably be optimized, but better safe than sorry. */
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync pPool->aPages[pPool->cCurPages - 1].iNext = NIL_PGMPOOL_IDX;
74991d7531692858fd22acf371a7ee941567977cvboxsync * Zap and reinitialize the user records.
750d4d0506a38b2e80c997075d40aad474e675fbvboxsync for (unsigned i = 0; i < cMaxUsers; i++)
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync paUsers[cMaxUsers - 1].iNext = NIL_PGMPOOL_USER_INDEX;
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Clear all the GCPhys links and rebuild the phys ext free list.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync for (PPGMRAMRANGE pRam = pVM->pgm.s.CTX_SUFF(pRamRanges);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync while (iPage-- > 0)
50cd04a47a3d04b52dbafe28921bff3d4c387841vboxsync PPGMPOOLPHYSEXT paPhysExts = pPool->CTX_SUFF(paPhysExts);
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync for (unsigned i = 0; i < cMaxPhysExts; i++)
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync paPhysExts[cMaxPhysExts - 1].iNext = NIL_PGMPOOL_PHYSEXT_INDEX;
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Just zap the modified list.
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync * Clear the GCPhys hash and the age list.
a4eb337e9a5a6a72bcfe50134dc42732f5ee65c0vboxsync for (unsigned i = 0; i < RT_ELEMENTS(pPool->aiHash); i++)
a4eb337e9a5a6a72bcfe50134dc42732f5ee65c0vboxsync /* Clear all dirty pages. */
f7eda1aa747cd9b2119362a9f06fe32ece025024vboxsync for (unsigned i = 0; i < RT_ELEMENTS(pPool->aIdxDirtyPages); i++)
a4eb337e9a5a6a72bcfe50134dc42732f5ee65c0vboxsync * Reinsert active pages into the hash and ensure monitoring chains are correct.
a4eb337e9a5a6a72bcfe50134dc42732f5ee65c0vboxsync for (unsigned i = PGMPOOL_IDX_FIRST_SPECIAL; i < PGMPOOL_IDX_FIRST; i++)
13b9db9ae2c12b6c4e00eda5c79772d57a0d29e1vboxsync /* ASSUMES that we're not sharing with any of the other special pages (safe for now). */
13b9db9ae2c12b6c4e00eda5c79772d57a0d29e1vboxsync int rc = PGMHandlerPhysicalChangeCallbacks(pVM, pPage->GCPhys & ~(RTGCPHYS)(PAGE_SIZE - 1),
13b9db9ae2c12b6c4e00eda5c79772d57a0d29e1vboxsync pPool->pfnAccessHandlerR3, MMHyperCCToR3(pVM, pPage),
13b9db9ae2c12b6c4e00eda5c79772d57a0d29e1vboxsync pPool->pfnAccessHandlerR0, MMHyperCCToR0(pVM, pPage),
13b9db9ae2c12b6c4e00eda5c79772d57a0d29e1vboxsync pPool->pfnAccessHandlerRC, MMHyperCCToRC(pVM, pPage),
13b9db9ae2c12b6c4e00eda5c79772d57a0d29e1vboxsync Assert(pPage->iUserHead == NIL_PGMPOOL_USER_INDEX); /* for now */
13b9db9ae2c12b6c4e00eda5c79772d57a0d29e1vboxsync * Re-enter the shadowing mode and assert Sync CR3 FF.
13b9db9ae2c12b6c4e00eda5c79772d57a0d29e1vboxsync#endif /* IN_RING3 */
13b9db9ae2c12b6c4e00eda5c79772d57a0d29e1vboxsyncstatic const char *pgmPoolPoolKindToStr(uint8_t enmKind)
18928869a28716fc7ccd4255ba7d282cda027affvboxsync return "PGMPOOLKIND_INVALID";
13b9db9ae2c12b6c4e00eda5c79772d57a0d29e1vboxsync return "PGMPOOLKIND_FREE";
13b9db9ae2c12b6c4e00eda5c79772d57a0d29e1vboxsync return "PGMPOOLKIND_32BIT_PT_FOR_PHYS";
13b9db9ae2c12b6c4e00eda5c79772d57a0d29e1vboxsync return "PGMPOOLKIND_32BIT_PT_FOR_32BIT_PT";
13b9db9ae2c12b6c4e00eda5c79772d57a0d29e1vboxsync return "PGMPOOLKIND_32BIT_PT_FOR_32BIT_4MB";
13b9db9ae2c12b6c4e00eda5c79772d57a0d29e1vboxsync return "PGMPOOLKIND_PAE_PT_FOR_PHYS";
13b9db9ae2c12b6c4e00eda5c79772d57a0d29e1vboxsync return "PGMPOOLKIND_PAE_PT_FOR_32BIT_PT";
13b9db9ae2c12b6c4e00eda5c79772d57a0d29e1vboxsync return "PGMPOOLKIND_PAE_PT_FOR_32BIT_4MB";
13b9db9ae2c12b6c4e00eda5c79772d57a0d29e1vboxsync return "PGMPOOLKIND_PAE_PT_FOR_PAE_PT";
13b9db9ae2c12b6c4e00eda5c79772d57a0d29e1vboxsync return "PGMPOOLKIND_PAE_PT_FOR_PAE_2MB";
13b9db9ae2c12b6c4e00eda5c79772d57a0d29e1vboxsync return "PGMPOOLKIND_32BIT_PD";
13b9db9ae2c12b6c4e00eda5c79772d57a0d29e1vboxsync return "PGMPOOLKIND_32BIT_PD_PHYS";
13b9db9ae2c12b6c4e00eda5c79772d57a0d29e1vboxsync return "PGMPOOLKIND_PAE_PD0_FOR_32BIT_PD";
13b9db9ae2c12b6c4e00eda5c79772d57a0d29e1vboxsync return "PGMPOOLKIND_PAE_PD1_FOR_32BIT_PD";
13b9db9ae2c12b6c4e00eda5c79772d57a0d29e1vboxsync return "PGMPOOLKIND_PAE_PD2_FOR_32BIT_PD";
13b9db9ae2c12b6c4e00eda5c79772d57a0d29e1vboxsync return "PGMPOOLKIND_PAE_PD3_FOR_32BIT_PD";
13b9db9ae2c12b6c4e00eda5c79772d57a0d29e1vboxsync return "PGMPOOLKIND_PAE_PD_FOR_PAE_PD";
13b9db9ae2c12b6c4e00eda5c79772d57a0d29e1vboxsync return "PGMPOOLKIND_PAE_PD_PHYS";
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync return "PGMPOOLKIND_PAE_PDPT_FOR_32BIT";
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync return "PGMPOOLKIND_PAE_PDPT";
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync return "PGMPOOLKIND_PAE_PDPT_PHYS";
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync return "PGMPOOLKIND_64BIT_PDPT_FOR_64BIT_PDPT";
d408b82da0773c7e8cd4b3a01cb8a065a2c73a2dvboxsync return "PGMPOOLKIND_64BIT_PDPT_FOR_PHYS";
320349a3b3aef9a6f58c58b602ae7c179170b4f4vboxsync return "PGMPOOLKIND_64BIT_PD_FOR_64BIT_PD";
320349a3b3aef9a6f58c58b602ae7c179170b4f4vboxsync return "PGMPOOLKIND_64BIT_PD_FOR_PHYS";
320349a3b3aef9a6f58c58b602ae7c179170b4f4vboxsync return "PGMPOOLKIND_64BIT_PML4";
320349a3b3aef9a6f58c58b602ae7c179170b4f4vboxsync return "PGMPOOLKIND_EPT_PDPT_FOR_PHYS";
320349a3b3aef9a6f58c58b602ae7c179170b4f4vboxsync return "PGMPOOLKIND_EPT_PD_FOR_PHYS";
320349a3b3aef9a6f58c58b602ae7c179170b4f4vboxsync return "PGMPOOLKIND_EPT_PT_FOR_PHYS";
320349a3b3aef9a6f58c58b602ae7c179170b4f4vboxsync return "PGMPOOLKIND_ROOT_NESTED";
320349a3b3aef9a6f58c58b602ae7c179170b4f4vboxsync return "Unknown kind!";
320349a3b3aef9a6f58c58b602ae7c179170b4f4vboxsync#endif /* LOG_ENABLED*/