/* $Id: HMInternal.h 92359 2021-11-11 11:06:08Z vboxsync $ */ /** @file * HM - Internal header file. */ /* * Copyright (C) 2006-2020 Oracle Corporation * * This file is part of VirtualBox Open Source Edition (OSE), as * available from http://www.virtualbox.org. This file is free software; * you can redistribute it and/or modify it under the terms of the GNU * General Public License (GPL) as published by the Free Software * Foundation, in version 2 as it comes in the "COPYING" file of the * VirtualBox OSE distribution. VirtualBox OSE is distributed in the * hope that it will be useful, but WITHOUT ANY WARRANTY of any kind. */ #ifndef VMM_INCLUDED_SRC_include_HMInternal_h #define VMM_INCLUDED_SRC_include_HMInternal_h #ifndef RT_WITHOUT_PRAGMA_ONCE # pragma once #endif #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "HMVMXCommon.h" #if HC_ARCH_BITS == 32 # error "32-bit hosts are no longer supported. Go back to 6.0 or earlier!" #endif /** @def HM_PROFILE_EXIT_DISPATCH * Enables profiling of the VM exit handler dispatching. */ #if 0 || defined(DOXYGEN_RUNNING) # define HM_PROFILE_EXIT_DISPATCH #endif RT_C_DECLS_BEGIN /** @defgroup grp_hm_int Internal * @ingroup grp_hm * @internal * @{ */ /** Size for the EPT identity page table (1024 4 MB pages to cover the entire address space). */ #define HM_EPT_IDENTITY_PG_TABLE_SIZE PAGE_SIZE /** Size of the TSS structure + 2 pages for the IO bitmap + end byte. */ #define HM_VTX_TSS_SIZE (sizeof(VBOXTSS) + 2 * PAGE_SIZE + 1) /** Total guest mapped memory needed. */ #define HM_VTX_TOTAL_DEVHEAP_MEM (HM_EPT_IDENTITY_PG_TABLE_SIZE + HM_VTX_TSS_SIZE) /** @name Macros for enabling and disabling preemption. * These are really just for hiding the RTTHREADPREEMPTSTATE and asserting that * preemption has already been disabled when there is no context hook. * @{ */ #ifdef VBOX_STRICT # define HM_DISABLE_PREEMPT(a_pVCpu) \ RTTHREADPREEMPTSTATE PreemptStateInternal = RTTHREADPREEMPTSTATE_INITIALIZER; \ Assert(!RTThreadPreemptIsEnabled(NIL_RTTHREAD) || VMMR0ThreadCtxHookIsEnabled((a_pVCpu))); \ RTThreadPreemptDisable(&PreemptStateInternal) #else # define HM_DISABLE_PREEMPT(a_pVCpu) \ RTTHREADPREEMPTSTATE PreemptStateInternal = RTTHREADPREEMPTSTATE_INITIALIZER; \ RTThreadPreemptDisable(&PreemptStateInternal) #endif /* VBOX_STRICT */ #define HM_RESTORE_PREEMPT() do { RTThreadPreemptRestore(&PreemptStateInternal); } while(0) /** @} */ /** @name HM saved state versions. * @{ */ #define HM_SAVED_STATE_VERSION HM_SAVED_STATE_VERSION_SVM_NESTED_HWVIRT #define HM_SAVED_STATE_VERSION_SVM_NESTED_HWVIRT 6 #define HM_SAVED_STATE_VERSION_TPR_PATCHING 5 #define HM_SAVED_STATE_VERSION_NO_TPR_PATCHING 4 #define HM_SAVED_STATE_VERSION_2_0_X 3 /** @} */ /** * HM physical (host) CPU information. */ typedef struct HMPHYSCPU { /** The CPU ID. */ RTCPUID idCpu; /** The VM_HSAVE_AREA (AMD-V) / VMXON region (Intel) memory backing. */ RTR0MEMOBJ hMemObj; /** The physical address of the first page in hMemObj (it's a * physcially contigous allocation if it spans multiple pages). */ RTHCPHYS HCPhysMemObj; /** The address of the memory (for pfnEnable). */ void *pvMemObj; /** Current ASID (AMD-V) / VPID (Intel). */ uint32_t uCurrentAsid; /** TLB flush count. */ uint32_t cTlbFlushes; /** Whether to flush each new ASID/VPID before use. */ bool fFlushAsidBeforeUse; /** Configured for VT-x or AMD-V. */ bool fConfigured; /** Set if the VBOX_HWVIRTEX_IGNORE_SVM_IN_USE hack is active. */ bool fIgnoreAMDVInUseError; /** Whether CR4.VMXE was already enabled prior to us enabling it. */ bool fVmxeAlreadyEnabled; /** In use by our code. (for power suspend) */ bool volatile fInUse; #ifdef VBOX_WITH_NESTED_HWVIRT_SVM /** Nested-guest union (put data common to SVM/VMX outside the union). */ union { /** Nested-guest SVM data. */ struct { /** The active nested-guest MSR permission bitmap memory backing. */ RTR0MEMOBJ hNstGstMsrpm; /** The physical address of the first page in hNstGstMsrpm (physcially * contiguous allocation). */ RTHCPHYS HCPhysNstGstMsrpm; /** The address of the active nested-guest MSRPM. */ void *pvNstGstMsrpm; } svm; /** @todo Nested-VMX. */ } n; #endif } HMPHYSCPU; /** Pointer to HMPHYSCPU struct. */ typedef HMPHYSCPU *PHMPHYSCPU; /** Pointer to a const HMPHYSCPU struct. */ typedef const HMPHYSCPU *PCHMPHYSCPU; /** * TPR-instruction type. */ typedef enum { HMTPRINSTR_INVALID, HMTPRINSTR_READ, HMTPRINSTR_READ_SHR4, HMTPRINSTR_WRITE_REG, HMTPRINSTR_WRITE_IMM, HMTPRINSTR_JUMP_REPLACEMENT, /** The usual 32-bit paranoia. */ HMTPRINSTR_32BIT_HACK = 0x7fffffff } HMTPRINSTR; /** * TPR patch information. */ typedef struct { /** The key is the address of patched instruction. (32 bits GC ptr) */ AVLOU32NODECORE Core; /** Original opcode. */ uint8_t aOpcode[16]; /** Instruction size. */ uint32_t cbOp; /** Replacement opcode. */ uint8_t aNewOpcode[16]; /** Replacement instruction size. */ uint32_t cbNewOp; /** Instruction type. */ HMTPRINSTR enmType; /** Source operand. */ uint32_t uSrcOperand; /** Destination operand. */ uint32_t uDstOperand; /** Number of times the instruction caused a fault. */ uint32_t cFaults; /** Patch address of the jump replacement. */ RTGCPTR32 pJumpTarget; } HMTPRPATCH; /** Pointer to HMTPRPATCH. */ typedef HMTPRPATCH *PHMTPRPATCH; /** Pointer to a const HMTPRPATCH. */ typedef const HMTPRPATCH *PCHMTPRPATCH; /** * Makes a HMEXITSTAT::uKey value from a program counter and an exit code. * * @returns 64-bit key * @param a_uPC The RIP + CS.BASE value of the exit. * @param a_uExit The exit code. * @todo Add CPL? */ #define HMEXITSTAT_MAKE_KEY(a_uPC, a_uExit) (((a_uPC) & UINT64_C(0x0000ffffffffffff)) | (uint64_t)(a_uExit) << 48) typedef struct HMEXITINFO { /** See HMEXITSTAT_MAKE_KEY(). */ uint64_t uKey; /** Number of recent hits (depreciates with time). */ uint32_t volatile cHits; /** The age + lock. */ uint16_t volatile uAge; /** Action or action table index. */ uint16_t iAction; } HMEXITINFO; AssertCompileSize(HMEXITINFO, 16); /* Lots of these guys, so don't add any unnecessary stuff! */ typedef struct HMEXITHISTORY { /** The exit timestamp. */ uint64_t uTscExit; /** The index of the corresponding HMEXITINFO entry. * UINT32_MAX if none (too many collisions, race, whatever). */ uint32_t iExitInfo; /** Figure out later, needed for padding now. */ uint32_t uSomeClueOrSomething; } HMEXITHISTORY; /** * Switcher function, HC to the special 64-bit RC. * * @param pVM The cross context VM structure. * @param offCpumVCpu Offset from pVM->cpum to pVM->aCpus[idCpu].cpum. * @returns Return code indicating the action to take. */ typedef DECLCALLBACKTYPE(int, FNHMSWITCHERHC,(PVM pVM, uint32_t offCpumVCpu)); /** Pointer to switcher function. */ typedef FNHMSWITCHERHC *PFNHMSWITCHERHC; /** * HM VM Instance data. * Changes to this must checked against the padding of the hm union in VM! */ typedef struct HM { /** Set when the debug facility has breakpoints/events enabled that requires * us to use the debug execution loop in ring-0. */ bool fUseDebugLoop; /** Set when TPR patching is allowed. */ bool fTprPatchingAllowed; /** Set when TPR patching is active. */ bool fTprPatchingActive; /** Alignment padding. */ bool afAlignment1[5]; struct { /** Set by the ring-0 side of HM to indicate VMX is supported by the CPU. */ bool fSupported; /** Set when we've enabled VMX. */ bool fEnabled; /** The shift mask employed by the VMX-Preemption timer (set by ring-0). */ uint8_t cPreemptTimerShift; bool fAlignment1; /** @name Configuration (gets copied if problematic) * @{ */ /** Set if Last Branch Record (LBR) is enabled. */ bool fLbrCfg; /** Set if VT-x VPID is allowed. */ bool fAllowVpid; /** Set if unrestricted guest execution is in use (real and protected mode * without paging). */ bool fUnrestrictedGuestCfg; /** Set if the preemption timer should be used if available. Ring-0 * quietly clears this if the hardware doesn't support the preemption timer. */ bool fUsePreemptTimerCfg; /** @} */ /** Pause-loop exiting (PLE) gap in ticks. */ uint32_t cPleGapTicks; /** Pause-loop exiting (PLE) window in ticks. */ uint32_t cPleWindowTicks; /** Virtual address of the TSS page used for real mode emulation. */ R3PTRTYPE(PVBOXTSS) pRealModeTSS; /** Virtual address of the identity page table used for real mode and protected * mode without paging emulation in EPT mode. */ R3PTRTYPE(PX86PD) pNonPagingModeEPTPageTable; } vmx; struct { /** Set by the ring-0 side of HM to indicate SVM is supported by the CPU. */ bool fSupported; /** Set when we've enabled SVM. */ bool fEnabled; /** Set when the hack to ignore VERR_SVM_IN_USE is active. * @todo Safe? */ bool fIgnoreInUseError; /** Whether to use virtualized VMSAVE/VMLOAD feature. */ bool fVirtVmsaveVmload; /** Whether to use virtual GIF feature. */ bool fVGif; /** Whether to use LBR virtualization feature. */ bool fLbrVirt; bool afAlignment1[2]; /** Pause filter counter. */ uint16_t cPauseFilter; /** Pause filter treshold in ticks. */ uint16_t cPauseFilterThresholdTicks; uint32_t u32Alignment2; } svm; /** AVL tree with all patches (active or disabled) sorted by guest instruction address. * @todo For @bugref{9217} this AVL tree must be eliminated and instead * sort aPatches by address and do a safe binary search on it. */ AVLOU32TREE PatchTree; uint32_t cPatches; HMTPRPATCH aPatches[64]; /** Guest allocated memory for patching purposes. */ RTGCPTR pGuestPatchMem; /** Current free pointer inside the patch block. */ RTGCPTR pFreeGuestPatchMem; /** Size of the guest patch memory block. */ uint32_t cbGuestPatchMem; uint32_t u32Alignment2; /** For ring-3 use only. */ struct { /** Last recorded error code during HM ring-0 init. */ int32_t rcInit; uint32_t u32Alignment3; /** Maximum ASID allowed. * This is mainly for the release log. */ uint32_t uMaxAsid; /** World switcher flags (HM_WSF_XXX) for the release log. */ uint32_t fWorldSwitcher; struct { /** Set if VPID is supported (ring-3 copy). */ bool fVpid; /** Whether the CPU supports VMCS fields for swapping EFER (set by ring-0 VMX * init, for logging). */ bool fSupportsVmcsEfer; /** Whether to use VMCS shadowing. */ bool fUseVmcsShadowing; bool fAlignment2; /** Host CR4 value (set by ring-0 VMX init, for logging). */ uint64_t u64HostCr4; /** Host SMM monitor control (set by ring-0 VMX init, for logging). */ uint64_t u64HostSmmMonitorCtl; /** Host EFER value (set by ring-0 VMX init, for logging and guest NX). */ uint64_t u64HostMsrEfer; /** Host IA32_FEATURE_CONTROL MSR (set by ring-0 VMX init, for logging). */ uint64_t u64HostFeatCtrl; /** The first valid host LBR branch-from-IP stack range. */ uint32_t idLbrFromIpMsrFirst; /** The last valid host LBR branch-from-IP stack range. */ uint32_t idLbrFromIpMsrLast; /** The first valid host LBR branch-to-IP stack range. */ uint32_t idLbrToIpMsrFirst; /** The last valid host LBR branch-to-IP stack range. */ uint32_t idLbrToIpMsrLast; /** Host-physical address for a failing VMXON instruction (for diagnostics, ring-3). */ RTHCPHYS HCPhysVmxEnableError; /** VMX MSR values (only for ring-3 consumption). */ VMXMSRS Msrs; /** Tagged-TLB flush type (only for ring-3 consumption). */ VMXTLBFLUSHTYPE enmTlbFlushType; /** Flush type to use for INVEPT (only for ring-3 consumption). */ VMXTLBFLUSHEPT enmTlbFlushEpt; /** Flush type to use for INVVPID (only for ring-3 consumption). */ VMXTLBFLUSHVPID enmTlbFlushVpid; } vmx; struct { /** SVM revision. */ uint32_t u32Rev; /** SVM feature bits from cpuid 0x8000000a, ring-3 copy. */ uint32_t fFeatures; /** HWCR MSR (for diagnostics). */ uint64_t u64MsrHwcr; } svm; } ForR3; /** @name Configuration not used (much) after VM setup * @{ */ /** The maximum number of resumes loops allowed in ring-0 (safety precaution). * This number is set much higher when RTThreadPreemptIsPending is reliable. */ uint32_t cMaxResumeLoopsCfg; /** Set if nested paging is enabled. * Config value that is copied to HMR0PERVM::fNestedPaging on setup. */ bool fNestedPagingCfg; /** Set if large pages are enabled (requires nested paging). * Config only, passed on the PGM where it really belongs. * @todo move to PGM */ bool fLargePages; /** Set if we can support 64-bit guests or not. * Config value that is copied to HMR0PERVM::fAllow64BitGuests on setup. */ bool fAllow64BitGuestsCfg; /** Set when we initialize VT-x or AMD-V once for all CPUs. */ bool fGlobalInit; /** Set if hardware APIC virtualization is enabled. * @todo Not really used by HM, move to APIC where it's actually used. */ bool fVirtApicRegs; /** Set if posted interrupt processing is enabled. * @todo Not really used by HM, move to APIC where it's actually used. */ bool fPostedIntrs; /** @} */ /** @name Processed into HMR0PERVCPU::fWorldSwitcher by ring-0 on VM init. * @{ */ /** Set if indirect branch prediction barrier on VM exit. */ bool fIbpbOnVmExit; /** Set if indirect branch prediction barrier on VM entry. */ bool fIbpbOnVmEntry; /** Set if level 1 data cache should be flushed on VM entry. */ bool fL1dFlushOnVmEntry; /** Set if level 1 data cache should be flushed on EMT scheduling. */ bool fL1dFlushOnSched; /** Set if MDS related buffers should be cleared on VM entry. */ bool fMdsClearOnVmEntry; /** Set if MDS related buffers should be cleared on EMT scheduling. */ bool fMdsClearOnSched; /** Set if host manages speculation control settings. * @todo doesn't do anything ... */ bool fSpecCtrlByHost; /** @} */ /** Set when we've finalized the VMX / SVM initialization in ring-3 * (hmR3InitFinalizeR0Intel / hmR3InitFinalizeR0Amd). */ bool fInitialized; bool afAlignment2[6]; STAMCOUNTER StatTprPatchSuccess; STAMCOUNTER StatTprPatchFailure; STAMCOUNTER StatTprReplaceSuccessCr8; STAMCOUNTER StatTprReplaceSuccessVmc; STAMCOUNTER StatTprReplaceFailure; } HM; /** Pointer to HM VM instance data. */ typedef HM *PHM; AssertCompileMemberAlignment(HM, StatTprPatchSuccess, 8); AssertCompileMemberAlignment(HM, vmx, 8); AssertCompileMemberAlignment(HM, svm, 8); AssertCompileMemberAlignment(HM, StatTprPatchSuccess, 8); AssertCompile(RTASSERT_OFFSET_OF(HM, PatchTree) <= 64); /* First cache line has the essentials for both VT-x and SVM operation. */ /** * Per-VM ring-0 instance data for HM. */ typedef struct HMR0PERVM { /** The maximum number of resumes loops allowed in ring-0 (safety precaution). * This number is set much higher when RTThreadPreemptIsPending is reliable. */ uint32_t cMaxResumeLoops; /** Set if nested paging is enabled. */ bool fNestedPaging; /** Set if we can support 64-bit guests or not. */ bool fAllow64BitGuests; bool afAlignment1[1]; /** AMD-V specific data. */ struct HMR0SVMVM { /** Set if erratum 170 affects the AMD cpu. */ bool fAlwaysFlushTLB; } svm; /** VT-x specific data. */ struct HMR0VMXVM { /** Set if unrestricted guest execution is in use (real and protected mode * without paging). */ bool fUnrestrictedGuest; /** Set if the preemption timer is in use. */ bool fUsePreemptTimer; /** Whether to use VMCS shadowing. */ bool fUseVmcsShadowing; /** Set if Last Branch Record (LBR) is enabled. */ bool fLbr; bool afAlignment2[3]; /** Set if VPID is supported (copy in HM::vmx::fVpidForRing3). */ bool fVpid; /** Tagged-TLB flush type. */ VMXTLBFLUSHTYPE enmTlbFlushType; /** Flush type to use for INVEPT. */ VMXTLBFLUSHEPT enmTlbFlushEpt; /** Flush type to use for INVVPID. */ VMXTLBFLUSHVPID enmTlbFlushVpid; /** The host LBR TOS (top-of-stack) MSR id. */ uint32_t idLbrTosMsr; /** The first valid host LBR branch-from-IP stack range. */ uint32_t idLbrFromIpMsrFirst; /** The last valid host LBR branch-from-IP stack range. */ uint32_t idLbrFromIpMsrLast; /** The first valid host LBR branch-to-IP stack range. */ uint32_t idLbrToIpMsrFirst; /** The last valid host LBR branch-to-IP stack range. */ uint32_t idLbrToIpMsrLast; /** Pointer to the VMREAD bitmap. */ R0PTRTYPE(void *) pvVmreadBitmap; /** Pointer to the VMWRITE bitmap. */ R0PTRTYPE(void *) pvVmwriteBitmap; /** Pointer to the shadow VMCS read-only fields array. */ R0PTRTYPE(uint32_t *) paShadowVmcsRoFields; /** Pointer to the shadow VMCS read/write fields array. */ R0PTRTYPE(uint32_t *) paShadowVmcsFields; /** Number of elements in the shadow VMCS read-only fields array. */ uint32_t cShadowVmcsRoFields; /** Number of elements in the shadow VMCS read-write fields array. */ uint32_t cShadowVmcsFields; /** Host-physical address of the APIC-access page. */ RTHCPHYS HCPhysApicAccess; /** Host-physical address of the VMREAD bitmap. */ RTHCPHYS HCPhysVmreadBitmap; /** Host-physical address of the VMWRITE bitmap. */ RTHCPHYS HCPhysVmwriteBitmap; #ifdef VBOX_WITH_CRASHDUMP_MAGIC /** Host-physical address of the crash-dump scratch area. */ RTHCPHYS HCPhysScratch; /** Pointer to the crash-dump scratch bitmap. */ R0PTRTYPE(uint8_t *) pbScratch; #endif /** Ring-0 memory object for per-VM VMX structures. */ RTR0MEMOBJ hMemObj; /** Virtual address of the APIC-access page (not used). */ R0PTRTYPE(uint8_t *) pbApicAccess; } vmx; } HMR0PERVM; /** Pointer to HM's per-VM ring-0 instance data. */ typedef HMR0PERVM *PHMR0PERVM; /** @addtogroup grp_hm_int_svm SVM Internal * @{ */ /** SVM VMRun function, see SVMR0VMRun(). */ typedef DECLCALLBACKTYPE(int, FNHMSVMVMRUN,(PVMCC pVM, PVMCPUCC pVCpu, RTHCPHYS HCPhysVMCB)); /** Pointer to a SVM VMRun function. */ typedef R0PTRTYPE(FNHMSVMVMRUN *) PFNHMSVMVMRUN; /** * SVM nested-guest VMCB cache. * * Contains VMCB fields from the nested-guest VMCB before they're modified by * SVM R0 code for hardware-assisted SVM execution of a nested-guest. * * A VMCB field needs to be cached when it needs to be modified for execution using * hardware-assisted SVM and any of the following are true: * - If the original field needs to be inspected during execution of the * nested-guest or \#VMEXIT processing. * - If the field is written back to memory on \#VMEXIT by the physical CPU. * * A VMCB field needs to be restored only when the field is written back to * memory on \#VMEXIT by the physical CPU and thus would be visible to the * guest. * * @remarks Please update hmR3InfoSvmNstGstVmcbCache() when changes are made to * this structure. */ typedef struct SVMNESTEDVMCBCACHE { /** Cache of CRX read intercepts. */ uint16_t u16InterceptRdCRx; /** Cache of CRX write intercepts. */ uint16_t u16InterceptWrCRx; /** Cache of DRX read intercepts. */ uint16_t u16InterceptRdDRx; /** Cache of DRX write intercepts. */ uint16_t u16InterceptWrDRx; /** Cache of the pause-filter threshold. */ uint16_t u16PauseFilterThreshold; /** Cache of the pause-filter count. */ uint16_t u16PauseFilterCount; /** Cache of exception intercepts. */ uint32_t u32InterceptXcpt; /** Cache of control intercepts. */ uint64_t u64InterceptCtrl; /** Cache of the TSC offset. */ uint64_t u64TSCOffset; /** Cache of V_INTR_MASKING bit. */ bool fVIntrMasking; /** Cache of the nested-paging bit. */ bool fNestedPaging; /** Cache of the LBR virtualization bit. */ bool fLbrVirt; /** Whether the VMCB is cached by HM. */ bool fCacheValid; /** Alignment. */ bool afPadding0[4]; } SVMNESTEDVMCBCACHE; /** Pointer to the SVMNESTEDVMCBCACHE structure. */ typedef SVMNESTEDVMCBCACHE *PSVMNESTEDVMCBCACHE; /** Pointer to a const SVMNESTEDVMCBCACHE structure. */ typedef const SVMNESTEDVMCBCACHE *PCSVMNESTEDVMCBCACHE; AssertCompileSizeAlignment(SVMNESTEDVMCBCACHE, 8); /** @} */ /** @name Host-state restoration flags. * @note If you change these values don't forget to update the assembly * defines as well! * @{ */ #define VMX_RESTORE_HOST_SEL_DS RT_BIT(0) #define VMX_RESTORE_HOST_SEL_ES RT_BIT(1) #define VMX_RESTORE_HOST_SEL_FS RT_BIT(2) #define VMX_RESTORE_HOST_SEL_GS RT_BIT(3) #define VMX_RESTORE_HOST_SEL_TR RT_BIT(4) #define VMX_RESTORE_HOST_GDTR RT_BIT(5) #define VMX_RESTORE_HOST_IDTR RT_BIT(6) #define VMX_RESTORE_HOST_GDT_READ_ONLY RT_BIT(7) #define VMX_RESTORE_HOST_GDT_NEED_WRITABLE RT_BIT(8) #define VMX_RESTORE_HOST_CAN_USE_WRFSBASE_AND_WRGSBASE RT_BIT(9) /** * This _must_ be the top most bit, so that we can easily check that it and * something else is set w/o having to do two checks like this: * @code * if ( (pVCpu->hm.s.vmx.fRestoreHostFlags & VMX_RESTORE_HOST_REQUIRED) * && (pVCpu->hm.s.vmx.fRestoreHostFlags & ~VMX_RESTORE_HOST_REQUIRED)) * @endcode * Instead we can then do: * @code * if (pVCpu->hm.s.vmx.fRestoreHostFlags > VMX_RESTORE_HOST_REQUIRED) * @endcode */ #define VMX_RESTORE_HOST_REQUIRED RT_BIT(10) /** @} */ /** * Host-state restoration structure. * * This holds host-state fields that require manual restoration. * Assembly version found in HMInternal.mac (should be automatically verified). */ typedef struct VMXRESTOREHOST { RTSEL uHostSelDS; /**< 0x00 */ RTSEL uHostSelES; /**< 0x02 */ RTSEL uHostSelFS; /**< 0x04 */ X86XDTR64 HostGdtr; /**< 0x06 - should be aligned by its 64-bit member. */ RTSEL uHostSelGS; /**< 0x10 */ RTSEL uHostSelTR; /**< 0x12 */ RTSEL uHostSelSS; /**< 0x14 - not restored, just for fetching */ X86XDTR64 HostGdtrRw; /**< 0x16 - should be aligned by its 64-bit member. */ RTSEL uHostSelCS; /**< 0x20 - not restored, just for fetching */ uint8_t abPadding1[4]; /**< 0x22 */ X86XDTR64 HostIdtr; /**< 0x26 - should be aligned by its 64-bit member. */ uint64_t uHostFSBase; /**< 0x30 */ uint64_t uHostGSBase; /**< 0x38 */ } VMXRESTOREHOST; /** Pointer to VMXRESTOREHOST. */ typedef VMXRESTOREHOST *PVMXRESTOREHOST; AssertCompileSize(X86XDTR64, 10); AssertCompileMemberOffset(VMXRESTOREHOST, HostGdtr.uAddr, 0x08); AssertCompileMemberOffset(VMXRESTOREHOST, HostGdtrRw.uAddr, 0x18); AssertCompileMemberOffset(VMXRESTOREHOST, HostIdtr.uAddr, 0x28); AssertCompileMemberOffset(VMXRESTOREHOST, uHostFSBase, 0x30); AssertCompileSize(VMXRESTOREHOST, 64); AssertCompileSizeAlignment(VMXRESTOREHOST, 8); /** * VMX StartVM function. * * @returns VBox status code (no informational stuff). * @param pVmcsInfo Pointer to the VMCS info (for cached host RIP and RSP). * @param pVCpu Pointer to the cross context per-CPU structure. * @param fResume Whether to use VMRESUME (true) or VMLAUNCH (false). */ typedef DECLCALLBACKTYPE(int, FNHMVMXSTARTVM,(PVMXVMCSINFO pVmcsInfo, PVMCPUCC pVCpu, bool fResume)); /** Pointer to a VMX StartVM function. */ typedef R0PTRTYPE(FNHMVMXSTARTVM *) PFNHMVMXSTARTVM; /** @} */ /** * HM VMCPU Instance data. * * Note! If you change members of this struct, make sure to check if the * assembly counterpart in HMInternal.mac needs to be updated as well. * * Note! The members here are ordered and aligned based on estimated frequency of * usage and grouped to fit within a cache line in hot code paths. Even subtle * changes here have a noticeable effect in the bootsector benchmarks. Modify with * care. */ typedef struct HMCPU { /** Set when the TLB has been checked until we return from the world switch. */ bool volatile fCheckedTLBFlush; /** Set when we're using VT-x or AMD-V at that moment. * @todo r=bird: Misleading description. For AMD-V this will be set the first * time HMCanExecuteGuest() is called and only cleared again by * HMR3ResetCpu(). For VT-x it will be set by HMCanExecuteGuest when we * can execute something in VT-x mode, and cleared if we cannot. * * The field is much more about recording the last HMCanExecuteGuest * return value than anything about any "moment". */ bool fActive; /** Whether we should use the debug loop because of single stepping or special * debug breakpoints / events are armed. */ bool fUseDebugLoop; /** Whether \#UD needs to be intercepted (required by certain GIM providers). */ bool fGIMTrapXcptUD; /** Whether \#GP needs to be intercepted for mesa driver workaround. */ bool fTrapXcptGpForLovelyMesaDrv; /** Whether we're executing a single instruction. */ bool fSingleInstruction; bool afAlignment0[2]; /** An additional error code used for some gurus. */ uint32_t u32HMError; /** The last exit-to-ring-3 reason. */ int32_t rcLastExitToR3; /** CPU-context changed flags (see HM_CHANGED_xxx). */ uint64_t fCtxChanged; /** VT-x data. */ struct HMCPUVMX { /** @name Guest information. * @{ */ /** Guest VMCS information shared with ring-3. */ VMXVMCSINFOSHARED VmcsInfo; /** Nested-guest VMCS information shared with ring-3. */ VMXVMCSINFOSHARED VmcsInfoNstGst; /** Whether the nested-guest VMCS was the last current VMCS (shadow copy for ring-3). * @see HMR0PERVCPU::vmx.fSwitchedToNstGstVmcs */ bool fSwitchedToNstGstVmcsCopyForRing3; /** Whether the static guest VMCS controls has been merged with the * nested-guest VMCS controls. */ bool fMergedNstGstCtls; /** Whether the nested-guest VMCS has been copied to the shadow VMCS. */ bool fCopiedNstGstToShadowVmcs; /** Whether flushing the TLB is required due to switching to/from the * nested-guest. */ bool fSwitchedNstGstFlushTlb; /** Alignment. */ bool afAlignment0[4]; /** Cached guest APIC-base MSR for identifying when to map the APIC-access page. */ uint64_t u64GstMsrApicBase; /** @} */ /** @name Error reporting and diagnostics. * @{ */ /** VT-x error-reporting (mainly for ring-3 propagation). */ struct { RTCPUID idCurrentCpu; RTCPUID idEnteredCpu; RTHCPHYS HCPhysCurrentVmcs; uint32_t u32VmcsRev; uint32_t u32InstrError; uint32_t u32ExitReason; uint32_t u32GuestIntrState; } LastError; /** @} */ } vmx; /** SVM data. */ struct HMCPUSVM { /** Whether to emulate long mode support for sysenter/sysexit like intel CPUs * does. This means intercepting \#UD to emulate the instructions in * long-mode and to intercept reads and writes to the SYSENTER MSRs in order to * preserve the upper 32 bits written to them (AMD will ignore and discard). */ bool fEmulateLongModeSysEnterExit; uint8_t au8Alignment0[7]; /** Cache of the nested-guest's VMCB fields that we modify in order to run the * nested-guest using AMD-V. This will be restored on \#VMEXIT. */ SVMNESTEDVMCBCACHE NstGstVmcbCache; } svm; /** Event injection state. */ HMEVENT Event; /** Current shadow paging mode for updating CR4. * @todo move later (@bugref{9217}). */ PGMMODE enmShadowMode; uint32_t u32TemporaryPadding; /** The PAE PDPEs used with Nested Paging (only valid when * VMCPU_FF_HM_UPDATE_PAE_PDPES is set). */ X86PDPE aPdpes[4]; /* These two comes because they are accessed from assembly and we don't want to detail all the stats in the assembly version of this structure. */ STAMCOUNTER StatVmxWriteHostRip; STAMCOUNTER StatVmxWriteHostRsp; STAMCOUNTER StatVmxVmLaunch; STAMCOUNTER StatVmxVmResume; STAMPROFILEADV StatEntry; STAMPROFILEADV StatPreExit; STAMPROFILEADV StatExitHandling; STAMPROFILEADV StatExitIO; STAMPROFILEADV StatExitMovCRx; STAMPROFILEADV StatExitXcptNmi; STAMPROFILEADV StatExitVmentry; STAMPROFILEADV StatImportGuestState; STAMPROFILEADV StatExportGuestState; STAMPROFILEADV StatLoadGuestFpuState; STAMPROFILEADV StatInGC; STAMPROFILEADV StatPoke; STAMPROFILEADV StatSpinPoke; STAMPROFILEADV StatSpinPokeFailed; STAMCOUNTER StatInjectInterrupt; STAMCOUNTER StatInjectXcpt; STAMCOUNTER StatInjectReflect; STAMCOUNTER StatInjectConvertDF; STAMCOUNTER StatInjectInterpret; STAMCOUNTER StatInjectReflectNPF; STAMCOUNTER StatExitAll; STAMCOUNTER StatNestedExitAll; STAMCOUNTER StatExitShadowNM; STAMCOUNTER StatExitGuestNM; STAMCOUNTER StatExitShadowPF; /**< Misleading, currently used for MMIO \#PFs as well. */ STAMCOUNTER StatExitShadowPFEM; STAMCOUNTER StatExitGuestPF; STAMCOUNTER StatExitGuestUD; STAMCOUNTER StatExitGuestSS; STAMCOUNTER StatExitGuestNP; STAMCOUNTER StatExitGuestTS; STAMCOUNTER StatExitGuestOF; STAMCOUNTER StatExitGuestGP; STAMCOUNTER StatExitGuestDE; STAMCOUNTER StatExitGuestDF; STAMCOUNTER StatExitGuestBR; STAMCOUNTER StatExitGuestAC; STAMCOUNTER StatExitGuestACSplitLock; STAMCOUNTER StatExitGuestDB; STAMCOUNTER StatExitGuestMF; STAMCOUNTER StatExitGuestBP; STAMCOUNTER StatExitGuestXF; STAMCOUNTER StatExitGuestXcpUnk; STAMCOUNTER StatExitDRxWrite; STAMCOUNTER StatExitDRxRead; STAMCOUNTER StatExitCR0Read; STAMCOUNTER StatExitCR2Read; STAMCOUNTER StatExitCR3Read; STAMCOUNTER StatExitCR4Read; STAMCOUNTER StatExitCR8Read; STAMCOUNTER StatExitCR0Write; STAMCOUNTER StatExitCR2Write; STAMCOUNTER StatExitCR3Write; STAMCOUNTER StatExitCR4Write; STAMCOUNTER StatExitCR8Write; STAMCOUNTER StatExitRdmsr; STAMCOUNTER StatExitWrmsr; STAMCOUNTER StatExitClts; STAMCOUNTER StatExitXdtrAccess; STAMCOUNTER StatExitLmsw; STAMCOUNTER StatExitIOWrite; STAMCOUNTER StatExitIORead; STAMCOUNTER StatExitIOStringWrite; STAMCOUNTER StatExitIOStringRead; STAMCOUNTER StatExitIntWindow; STAMCOUNTER StatExitExtInt; STAMCOUNTER StatExitHostNmiInGC; STAMCOUNTER StatExitHostNmiInGCIpi; STAMCOUNTER StatExitPreemptTimer; STAMCOUNTER StatExitTprBelowThreshold; STAMCOUNTER StatExitTaskSwitch; STAMCOUNTER StatExitApicAccess; STAMCOUNTER StatExitReasonNpf; STAMCOUNTER StatNestedExitReasonNpf; STAMCOUNTER StatFlushPage; STAMCOUNTER StatFlushPageManual; STAMCOUNTER StatFlushPhysPageManual; STAMCOUNTER StatFlushTlb; STAMCOUNTER StatFlushTlbNstGst; STAMCOUNTER StatFlushTlbManual; STAMCOUNTER StatFlushTlbWorldSwitch; STAMCOUNTER StatNoFlushTlbWorldSwitch; STAMCOUNTER StatFlushEntire; STAMCOUNTER StatFlushAsid; STAMCOUNTER StatFlushNestedPaging; STAMCOUNTER StatFlushTlbInvlpgVirt; STAMCOUNTER StatFlushTlbInvlpgPhys; STAMCOUNTER StatTlbShootdown; STAMCOUNTER StatTlbShootdownFlush; STAMCOUNTER StatSwitchPendingHostIrq; STAMCOUNTER StatSwitchTprMaskedIrq; STAMCOUNTER StatSwitchGuestIrq; STAMCOUNTER StatSwitchHmToR3FF; STAMCOUNTER StatSwitchVmReq; STAMCOUNTER StatSwitchPgmPoolFlush; STAMCOUNTER StatSwitchDma; STAMCOUNTER StatSwitchExitToR3; STAMCOUNTER StatSwitchLongJmpToR3; STAMCOUNTER StatSwitchMaxResumeLoops; STAMCOUNTER StatSwitchHltToR3; STAMCOUNTER StatSwitchApicAccessToR3; STAMCOUNTER StatSwitchPreempt; STAMCOUNTER StatSwitchNstGstVmexit; STAMCOUNTER StatTscParavirt; STAMCOUNTER StatTscOffset; STAMCOUNTER StatTscIntercept; STAMCOUNTER StatDRxArmed; STAMCOUNTER StatDRxContextSwitch; STAMCOUNTER StatDRxIoCheck; STAMCOUNTER StatExportMinimal; STAMCOUNTER StatExportFull; STAMCOUNTER StatLoadGuestFpu; STAMCOUNTER StatExportHostState; STAMCOUNTER StatVmxCheckBadRmSelBase; STAMCOUNTER StatVmxCheckBadRmSelLimit; STAMCOUNTER StatVmxCheckBadRmSelAttr; STAMCOUNTER StatVmxCheckBadV86SelBase; STAMCOUNTER StatVmxCheckBadV86SelLimit; STAMCOUNTER StatVmxCheckBadV86SelAttr; STAMCOUNTER StatVmxCheckRmOk; STAMCOUNTER StatVmxCheckBadSel; STAMCOUNTER StatVmxCheckBadRpl; STAMCOUNTER StatVmxCheckPmOk; STAMCOUNTER StatVmxPreemptionRecalcingDeadline; STAMCOUNTER StatVmxPreemptionRecalcingDeadlineExpired; STAMCOUNTER StatVmxPreemptionReusingDeadline; STAMCOUNTER StatVmxPreemptionReusingDeadlineExpired; #ifdef VBOX_WITH_STATISTICS STAMCOUNTER aStatExitReason[MAX_EXITREASON_STAT]; STAMCOUNTER aStatNestedExitReason[MAX_EXITREASON_STAT]; STAMCOUNTER aStatInjectedIrqs[256]; STAMCOUNTER aStatInjectedXcpts[X86_XCPT_LAST + 1]; #endif #ifdef HM_PROFILE_EXIT_DISPATCH STAMPROFILEADV StatExitDispatch; #endif } HMCPU; /** Pointer to HM VMCPU instance data. */ typedef HMCPU *PHMCPU; AssertCompileMemberAlignment(HMCPU, fCheckedTLBFlush, 4); AssertCompileMemberAlignment(HMCPU, fCtxChanged, 8); AssertCompileMemberAlignment(HMCPU, vmx, 8); AssertCompileMemberAlignment(HMCPU, vmx.VmcsInfo, 8); AssertCompileMemberAlignment(HMCPU, vmx.VmcsInfoNstGst, 8); AssertCompileMemberAlignment(HMCPU, svm, 8); AssertCompileMemberAlignment(HMCPU, Event, 8); /** * HM per-VCpu ring-0 only instance data. */ typedef struct HMR0PERVCPU { /** World switch exit counter. */ uint32_t volatile cWorldSwitchExits; /** TLB flush count. */ uint32_t cTlbFlushes; /** The last CPU we were executing code on (NIL_RTCPUID for the first time). */ RTCPUID idLastCpu; /** The CPU ID of the CPU currently owning the VMCS. Set in * HMR0Enter and cleared in HMR0Leave. */ RTCPUID idEnteredCpu; /** Current ASID in use by the VM. */ uint32_t uCurrentAsid; /** Set if we need to flush the TLB during the world switch. */ bool fForceTLBFlush; /** Whether we've completed the inner HM leave function. */ bool fLeaveDone; /** Whether we're using the hyper DR7 or guest DR7. */ bool fUsingHyperDR7; /** Whether we are currently executing in the debug loop. * Mainly for assertions. */ bool fUsingDebugLoop; /** Set if we using the debug loop and wish to intercept RDTSC. */ bool fDebugWantRdTscExit; /** Set if XCR0 needs to be saved/restored when entering/exiting guest code * execution. */ bool fLoadSaveGuestXcr0; /** Set if we need to clear the trap flag because of single stepping. */ bool fClearTrapFlag; bool afPadding1[1]; /** World switcher flags (HM_WSF_XXX - was CPUMCTX::fWorldSwitcher in 6.1). */ uint32_t fWorldSwitcher; /** The raw host TSC value from the last VM exit (set by HMR0A.asm). */ uint64_t uTscExit; /** VT-x data. */ struct HMR0CPUVMX { /** Ring-0 pointer to the hardware-assisted VMX execution function. */ PFNHMVMXSTARTVM pfnStartVm; /** Absolute TSC deadline. */ uint64_t uTscDeadline; /** The deadline version number. */ uint64_t uTscDeadlineVersion; /** @name Guest information. * @{ */ /** Guest VMCS information. */ VMXVMCSINFO VmcsInfo; /** Nested-guest VMCS information. */ VMXVMCSINFO VmcsInfoNstGst; /* Whether the nested-guest VMCS was the last current VMCS (authoritative copy). * @see HMCPU::vmx.fSwitchedToNstGstVmcsCopyForRing3 */ bool fSwitchedToNstGstVmcs; bool afAlignment0[7]; /** @} */ /** @name Host information. * @{ */ /** Host LSTAR MSR to restore lazily while leaving VT-x. */ uint64_t u64HostMsrLStar; /** Host STAR MSR to restore lazily while leaving VT-x. */ uint64_t u64HostMsrStar; /** Host SF_MASK MSR to restore lazily while leaving VT-x. */ uint64_t u64HostMsrSfMask; /** Host KernelGS-Base MSR to restore lazily while leaving VT-x. */ uint64_t u64HostMsrKernelGsBase; /** The mask of lazy MSRs swap/restore state, see VMX_LAZY_MSRS_XXX. */ uint32_t fLazyMsrs; /** Whether the host MSR values are up-to-date in the auto-load/store MSR area. */ bool fUpdatedHostAutoMsrs; /** Alignment. */ uint8_t au8Alignment0[3]; /** Which host-state bits to restore before being preempted, see * VMX_RESTORE_HOST_XXX. */ uint32_t fRestoreHostFlags; /** Alignment. */ uint32_t u32Alignment0; /** The host-state restoration structure. */ VMXRESTOREHOST RestoreHost; /** @} */ } vmx; /** SVM data. */ struct HMR0CPUSVM { /** Ring 0 handlers for VT-x. */ PFNHMSVMVMRUN pfnVMRun; /** Physical address of the host VMCB which holds additional host-state. */ RTHCPHYS HCPhysVmcbHost; /** R0 memory object for the host VMCB which holds additional host-state. */ RTR0MEMOBJ hMemObjVmcbHost; /** Physical address of the guest VMCB. */ RTHCPHYS HCPhysVmcb; /** R0 memory object for the guest VMCB. */ RTR0MEMOBJ hMemObjVmcb; /** Pointer to the guest VMCB. */ R0PTRTYPE(PSVMVMCB) pVmcb; /** Physical address of the MSR bitmap (8 KB). */ RTHCPHYS HCPhysMsrBitmap; /** R0 memory object for the MSR bitmap (8 KB). */ RTR0MEMOBJ hMemObjMsrBitmap; /** Pointer to the MSR bitmap. */ R0PTRTYPE(void *) pvMsrBitmap; /** Whether VTPR with V_INTR_MASKING set is in effect, indicating * we should check if the VTPR changed on every VM-exit. */ bool fSyncVTpr; bool afAlignment[7]; /** Host's TSC_AUX MSR (used when RDTSCP doesn't cause VM-exits). */ uint64_t u64HostTscAux; /** For saving stack space, the disassembler state is allocated here * instead of on the stack. */ DISCPUSTATE DisState; } svm; } HMR0PERVCPU; /** Pointer to HM ring-0 VMCPU instance data. */ typedef HMR0PERVCPU *PHMR0PERVCPU; AssertCompileMemberAlignment(HMR0PERVCPU, cWorldSwitchExits, 4); AssertCompileMemberAlignment(HMR0PERVCPU, fForceTLBFlush, 4); AssertCompileMemberAlignment(HMR0PERVCPU, vmx.RestoreHost, 8); /** @name HM_WSF_XXX - @bugref{9453}, @bugref{9087} * @note If you change these values don't forget to update the assembly * defines as well! * @{ */ /** Touch IA32_PRED_CMD.IBPB on VM exit. */ #define HM_WSF_IBPB_EXIT RT_BIT_32(0) /** Touch IA32_PRED_CMD.IBPB on VM entry. */ #define HM_WSF_IBPB_ENTRY RT_BIT_32(1) /** Touch IA32_FLUSH_CMD.L1D on VM entry. */ #define HM_WSF_L1D_ENTRY RT_BIT_32(2) /** Flush MDS buffers on VM entry. */ #define HM_WSF_MDS_ENTRY RT_BIT_32(3) /** Touch IA32_FLUSH_CMD.L1D on VM scheduling. */ #define HM_WSF_L1D_SCHED RT_BIT_32(16) /** Flush MDS buffers on VM scheduling. */ #define HM_WSF_MDS_SCHED RT_BIT_32(17) /** @} */ #ifdef IN_RING0 extern bool g_fHmVmxSupported; extern uint32_t g_fHmHostKernelFeatures; extern uint32_t g_uHmMaxAsid; extern bool g_fHmVmxUsePreemptTimer; extern uint8_t g_cHmVmxPreemptTimerShift; extern bool g_fHmVmxSupportsVmcsEfer; extern uint64_t g_uHmVmxHostCr4; extern uint64_t g_uHmVmxHostMsrEfer; extern uint64_t g_uHmVmxHostSmmMonitorCtl; extern bool g_fHmSvmSupported; extern uint32_t g_uHmSvmRev; extern uint32_t g_fHmSvmFeatures; extern SUPHWVIRTMSRS g_HmMsrs; VMMR0_INT_DECL(PHMPHYSCPU) hmR0GetCurrentCpu(void); VMMR0_INT_DECL(int) hmR0EnterCpu(PVMCPUCC pVCpu); # ifdef VBOX_STRICT # define HM_DUMP_REG_FLAGS_GPRS RT_BIT(0) # define HM_DUMP_REG_FLAGS_FPU RT_BIT(1) # define HM_DUMP_REG_FLAGS_MSRS RT_BIT(2) # define HM_DUMP_REG_FLAGS_ALL (HM_DUMP_REG_FLAGS_GPRS | HM_DUMP_REG_FLAGS_FPU | HM_DUMP_REG_FLAGS_MSRS) VMMR0_INT_DECL(void) hmR0DumpRegs(PVMCPUCC pVCpu, uint32_t fFlags); VMMR0_INT_DECL(void) hmR0DumpDescriptor(PCX86DESCHC pDesc, RTSEL Sel, const char *pszMsg); # endif DECLASM(void) hmR0MdsClear(void); #endif /* IN_RING0 */ /** @addtogroup grp_hm_int_svm SVM Internal * @{ */ VMM_INT_DECL(int) hmEmulateSvmMovTpr(PVMCC pVM, PVMCPUCC pVCpu); /** * Prepares for and executes VMRUN (64-bit register context). * * @returns VBox status code (no informational stuff). * @param pVM The cross context VM structure. (Not used.) * @param pVCpu The cross context virtual CPU structure. * @param HCPhyspVMCB Physical address of the VMCB. * * @remarks With spectre mitigations and the usual need for speed (/ micro * optimizations), we have a bunch of variations of this code depending * on a few precoditions. In release builds, the code is entirely * without conditionals. Debug builds have a couple of assertions that * shouldn't ever be triggered. * * @{ */ DECLASM(int) hmR0SvmVmRun_SansXcr0_SansIbpbEntry_SansIbpbExit(PVMCC pVM, PVMCPUCC pVCpu, RTHCPHYS HCPhyspVMCB); DECLASM(int) hmR0SvmVmRun_WithXcr0_SansIbpbEntry_SansIbpbExit(PVMCC pVM, PVMCPUCC pVCpu, RTHCPHYS HCPhyspVMCB); DECLASM(int) hmR0SvmVmRun_SansXcr0_WithIbpbEntry_SansIbpbExit(PVMCC pVM, PVMCPUCC pVCpu, RTHCPHYS HCPhyspVMCB); DECLASM(int) hmR0SvmVmRun_WithXcr0_WithIbpbEntry_SansIbpbExit(PVMCC pVM, PVMCPUCC pVCpu, RTHCPHYS HCPhyspVMCB); DECLASM(int) hmR0SvmVmRun_SansXcr0_SansIbpbEntry_WithIbpbExit(PVMCC pVM, PVMCPUCC pVCpu, RTHCPHYS HCPhyspVMCB); DECLASM(int) hmR0SvmVmRun_WithXcr0_SansIbpbEntry_WithIbpbExit(PVMCC pVM, PVMCPUCC pVCpu, RTHCPHYS HCPhyspVMCB); DECLASM(int) hmR0SvmVmRun_SansXcr0_WithIbpbEntry_WithIbpbExit(PVMCC pVM, PVMCPUCC pVCpu, RTHCPHYS HCPhyspVMCB); DECLASM(int) hmR0SvmVmRun_WithXcr0_WithIbpbEntry_WithIbpbExit(PVMCC pVM, PVMCPUCC pVCpu, RTHCPHYS HCPhyspVMCB); /** @} */ /** @} */ /** @addtogroup grp_hm_int_vmx VMX Internal * @{ */ VMM_INT_DECL(PVMXVMCSINFOSHARED) hmGetVmxActiveVmcsInfoShared(PVMCPUCC pVCpu); /** * Used on platforms with poor inline assembly support to retrieve all the * info from the CPU and put it in the @a pRestoreHost structure. */ DECLASM(void) hmR0VmxExportHostSegmentRegsAsmHlp(PVMXRESTOREHOST pRestoreHost, bool fHaveFsGsBase); /** * Restores some host-state fields that need not be done on every VM-exit. * * @returns VBox status code. * @param fRestoreHostFlags Flags of which host registers needs to be * restored. * @param pRestoreHost Pointer to the host-restore structure. */ DECLASM(int) VMXRestoreHostState(uint32_t fRestoreHostFlags, PVMXRESTOREHOST pRestoreHost); /** * VMX StartVM functions. * * @returns VBox status code (no informational stuff). * @param pVmcsInfo Pointer to the VMCS info (for cached host RIP and RSP). * @param pVCpu Pointer to the cross context per-CPU structure of the * calling EMT. * @param fResume Whether to use VMRESUME (true) or VMLAUNCH (false). * * @remarks With spectre mitigations and the usual need for speed (/ micro * optimizations), we have a bunch of variations of this code depending * on a few precoditions. In release builds, the code is entirely * without conditionals. Debug builds have a couple of assertions that * shouldn't ever be triggered. * * @{ */ DECLASM(int) hmR0VmxStartVm_SansXcr0_SansIbpbEntry_SansL1dEntry_SansMdsEntry_SansIbpbExit(PVMXVMCSINFO pVmcsInfo, PVMCPUCC pVCpu, bool fResume); DECLASM(int) hmR0VmxStartVm_WithXcr0_SansIbpbEntry_SansL1dEntry_SansMdsEntry_SansIbpbExit(PVMXVMCSINFO pVmcsInfo, PVMCPUCC pVCpu, bool fResume); DECLASM(int) hmR0VmxStartVm_SansXcr0_WithIbpbEntry_SansL1dEntry_SansMdsEntry_SansIbpbExit(PVMXVMCSINFO pVmcsInfo, PVMCPUCC pVCpu, bool fResume); DECLASM(int) hmR0VmxStartVm_WithXcr0_WithIbpbEntry_SansL1dEntry_SansMdsEntry_SansIbpbExit(PVMXVMCSINFO pVmcsInfo, PVMCPUCC pVCpu, bool fResume); DECLASM(int) hmR0VmxStartVm_SansXcr0_SansIbpbEntry_WithL1dEntry_SansMdsEntry_SansIbpbExit(PVMXVMCSINFO pVmcsInfo, PVMCPUCC pVCpu, bool fResume); DECLASM(int) hmR0VmxStartVm_WithXcr0_SansIbpbEntry_WithL1dEntry_SansMdsEntry_SansIbpbExit(PVMXVMCSINFO pVmcsInfo, PVMCPUCC pVCpu, bool fResume); DECLASM(int) hmR0VmxStartVm_SansXcr0_WithIbpbEntry_WithL1dEntry_SansMdsEntry_SansIbpbExit(PVMXVMCSINFO pVmcsInfo, PVMCPUCC pVCpu, bool fResume); DECLASM(int) hmR0VmxStartVm_WithXcr0_WithIbpbEntry_WithL1dEntry_SansMdsEntry_SansIbpbExit(PVMXVMCSINFO pVmcsInfo, PVMCPUCC pVCpu, bool fResume); DECLASM(int) hmR0VmxStartVm_SansXcr0_SansIbpbEntry_SansL1dEntry_WithMdsEntry_SansIbpbExit(PVMXVMCSINFO pVmcsInfo, PVMCPUCC pVCpu, bool fResume); DECLASM(int) hmR0VmxStartVm_WithXcr0_SansIbpbEntry_SansL1dEntry_WithMdsEntry_SansIbpbExit(PVMXVMCSINFO pVmcsInfo, PVMCPUCC pVCpu, bool fResume); DECLASM(int) hmR0VmxStartVm_SansXcr0_WithIbpbEntry_SansL1dEntry_WithMdsEntry_SansIbpbExit(PVMXVMCSINFO pVmcsInfo, PVMCPUCC pVCpu, bool fResume); DECLASM(int) hmR0VmxStartVm_WithXcr0_WithIbpbEntry_SansL1dEntry_WithMdsEntry_SansIbpbExit(PVMXVMCSINFO pVmcsInfo, PVMCPUCC pVCpu, bool fResume); DECLASM(int) hmR0VmxStartVm_SansXcr0_SansIbpbEntry_WithL1dEntry_WithMdsEntry_SansIbpbExit(PVMXVMCSINFO pVmcsInfo, PVMCPUCC pVCpu, bool fResume); DECLASM(int) hmR0VmxStartVm_WithXcr0_SansIbpbEntry_WithL1dEntry_WithMdsEntry_SansIbpbExit(PVMXVMCSINFO pVmcsInfo, PVMCPUCC pVCpu, bool fResume); DECLASM(int) hmR0VmxStartVm_SansXcr0_WithIbpbEntry_WithL1dEntry_WithMdsEntry_SansIbpbExit(PVMXVMCSINFO pVmcsInfo, PVMCPUCC pVCpu, bool fResume); DECLASM(int) hmR0VmxStartVm_WithXcr0_WithIbpbEntry_WithL1dEntry_WithMdsEntry_SansIbpbExit(PVMXVMCSINFO pVmcsInfo, PVMCPUCC pVCpu, bool fResume); DECLASM(int) hmR0VmxStartVm_SansXcr0_SansIbpbEntry_SansL1dEntry_SansMdsEntry_WithIbpbExit(PVMXVMCSINFO pVmcsInfo, PVMCPUCC pVCpu, bool fResume); DECLASM(int) hmR0VmxStartVm_WithXcr0_SansIbpbEntry_SansL1dEntry_SansMdsEntry_WithIbpbExit(PVMXVMCSINFO pVmcsInfo, PVMCPUCC pVCpu, bool fResume); DECLASM(int) hmR0VmxStartVm_SansXcr0_WithIbpbEntry_SansL1dEntry_SansMdsEntry_WithIbpbExit(PVMXVMCSINFO pVmcsInfo, PVMCPUCC pVCpu, bool fResume); DECLASM(int) hmR0VmxStartVm_WithXcr0_WithIbpbEntry_SansL1dEntry_SansMdsEntry_WithIbpbExit(PVMXVMCSINFO pVmcsInfo, PVMCPUCC pVCpu, bool fResume); DECLASM(int) hmR0VmxStartVm_SansXcr0_SansIbpbEntry_WithL1dEntry_SansMdsEntry_WithIbpbExit(PVMXVMCSINFO pVmcsInfo, PVMCPUCC pVCpu, bool fResume); DECLASM(int) hmR0VmxStartVm_WithXcr0_SansIbpbEntry_WithL1dEntry_SansMdsEntry_WithIbpbExit(PVMXVMCSINFO pVmcsInfo, PVMCPUCC pVCpu, bool fResume); DECLASM(int) hmR0VmxStartVm_SansXcr0_WithIbpbEntry_WithL1dEntry_SansMdsEntry_WithIbpbExit(PVMXVMCSINFO pVmcsInfo, PVMCPUCC pVCpu, bool fResume); DECLASM(int) hmR0VmxStartVm_WithXcr0_WithIbpbEntry_WithL1dEntry_SansMdsEntry_WithIbpbExit(PVMXVMCSINFO pVmcsInfo, PVMCPUCC pVCpu, bool fResume); DECLASM(int) hmR0VmxStartVm_SansXcr0_SansIbpbEntry_SansL1dEntry_WithMdsEntry_WithIbpbExit(PVMXVMCSINFO pVmcsInfo, PVMCPUCC pVCpu, bool fResume); DECLASM(int) hmR0VmxStartVm_WithXcr0_SansIbpbEntry_SansL1dEntry_WithMdsEntry_WithIbpbExit(PVMXVMCSINFO pVmcsInfo, PVMCPUCC pVCpu, bool fResume); DECLASM(int) hmR0VmxStartVm_SansXcr0_WithIbpbEntry_SansL1dEntry_WithMdsEntry_WithIbpbExit(PVMXVMCSINFO pVmcsInfo, PVMCPUCC pVCpu, bool fResume); DECLASM(int) hmR0VmxStartVm_WithXcr0_WithIbpbEntry_SansL1dEntry_WithMdsEntry_WithIbpbExit(PVMXVMCSINFO pVmcsInfo, PVMCPUCC pVCpu, bool fResume); DECLASM(int) hmR0VmxStartVm_SansXcr0_SansIbpbEntry_WithL1dEntry_WithMdsEntry_WithIbpbExit(PVMXVMCSINFO pVmcsInfo, PVMCPUCC pVCpu, bool fResume); DECLASM(int) hmR0VmxStartVm_WithXcr0_SansIbpbEntry_WithL1dEntry_WithMdsEntry_WithIbpbExit(PVMXVMCSINFO pVmcsInfo, PVMCPUCC pVCpu, bool fResume); DECLASM(int) hmR0VmxStartVm_SansXcr0_WithIbpbEntry_WithL1dEntry_WithMdsEntry_WithIbpbExit(PVMXVMCSINFO pVmcsInfo, PVMCPUCC pVCpu, bool fResume); DECLASM(int) hmR0VmxStartVm_WithXcr0_WithIbpbEntry_WithL1dEntry_WithMdsEntry_WithIbpbExit(PVMXVMCSINFO pVmcsInfo, PVMCPUCC pVCpu, bool fResume); /** @} */ /** @} */ /** @} */ RT_C_DECLS_END #endif /* !VMM_INCLUDED_SRC_include_HMInternal_h */