/* $Id: HWACCMInternal.h 40656 2012-03-26 20:07:36Z vboxsync $ */ /** @file * HM - Internal header file. */ /* * Copyright (C) 2006-2011 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 ___HWACCMInternal_h #define ___HWACCMInternal_h #include #include #include #include #include #include #include #include #include #include #include #include #include #if HC_ARCH_BITS == 64 || defined(VBOX_WITH_HYBRID_32BIT_KERNEL) || defined (VBOX_WITH_64_BITS_GUESTS) /* Enable 64 bits guest support. */ # define VBOX_ENABLE_64_BITS_GUESTS #endif #define VMX_USE_CACHED_VMCS_ACCESSES #define HWACCM_VMX_EMULATE_REALMODE #define HWACCM_VTX_WITH_EPT #define HWACCM_VTX_WITH_VPID #if 0 /* Seeing somewhat random behaviour on my Nehalem system with auto-save of guest MSRs; * for some strange reason the CPU doesn't save the MSRs during the VM-exit. * Clearly visible with a dual VCPU configured OpenSolaris 200906 live cd VM. * * Note: change the assembly files when enabling this! (remove the manual auto load/save) */ #define VBOX_WITH_AUTO_MSR_LOAD_RESTORE #endif RT_C_DECLS_BEGIN /** @defgroup grp_hwaccm_int Internal * @ingroup grp_hwaccm * @internal * @{ */ /** Maximum number of exit reason statistics counters. */ #define MAX_EXITREASON_STAT 0x100 #define MASK_EXITREASON_STAT 0xff #define MASK_INJECT_IRQ_STAT 0xff /** @name Changed flags * These flags are used to keep track of which important registers that * have been changed since last they were reset. * @{ */ #define HWACCM_CHANGED_GUEST_FPU RT_BIT(0) #define HWACCM_CHANGED_GUEST_CR0 RT_BIT(1) #define HWACCM_CHANGED_GUEST_CR3 RT_BIT(2) #define HWACCM_CHANGED_GUEST_CR4 RT_BIT(3) #define HWACCM_CHANGED_GUEST_GDTR RT_BIT(4) #define HWACCM_CHANGED_GUEST_IDTR RT_BIT(5) #define HWACCM_CHANGED_GUEST_LDTR RT_BIT(6) #define HWACCM_CHANGED_GUEST_TR RT_BIT(7) #define HWACCM_CHANGED_GUEST_MSR RT_BIT(8) #define HWACCM_CHANGED_GUEST_SEGMENT_REGS RT_BIT(9) #define HWACCM_CHANGED_GUEST_DEBUG RT_BIT(10) #define HWACCM_CHANGED_HOST_CONTEXT RT_BIT(11) #define HWACCM_CHANGED_ALL ( HWACCM_CHANGED_GUEST_SEGMENT_REGS \ | HWACCM_CHANGED_GUEST_CR0 \ | HWACCM_CHANGED_GUEST_CR3 \ | HWACCM_CHANGED_GUEST_CR4 \ | HWACCM_CHANGED_GUEST_GDTR \ | HWACCM_CHANGED_GUEST_IDTR \ | HWACCM_CHANGED_GUEST_LDTR \ | HWACCM_CHANGED_GUEST_TR \ | HWACCM_CHANGED_GUEST_MSR \ | HWACCM_CHANGED_GUEST_FPU \ | HWACCM_CHANGED_GUEST_DEBUG \ | HWACCM_CHANGED_HOST_CONTEXT) #define HWACCM_CHANGED_ALL_GUEST ( HWACCM_CHANGED_GUEST_SEGMENT_REGS \ | HWACCM_CHANGED_GUEST_CR0 \ | HWACCM_CHANGED_GUEST_CR3 \ | HWACCM_CHANGED_GUEST_CR4 \ | HWACCM_CHANGED_GUEST_GDTR \ | HWACCM_CHANGED_GUEST_IDTR \ | HWACCM_CHANGED_GUEST_LDTR \ | HWACCM_CHANGED_GUEST_TR \ | HWACCM_CHANGED_GUEST_MSR \ | HWACCM_CHANGED_GUEST_DEBUG \ | HWACCM_CHANGED_GUEST_FPU) /** @} */ /** @name Intercepted traps * Traps that need to be intercepted so we can correctly dispatch them to the guest if required. * Currently #NM and #PF only */ #ifdef VBOX_STRICT #define HWACCM_VMX_TRAP_MASK RT_BIT(X86_XCPT_BP) | RT_BIT(X86_XCPT_DB) | RT_BIT(X86_XCPT_DE) | RT_BIT(X86_XCPT_NM) | RT_BIT(X86_XCPT_PF) | RT_BIT(X86_XCPT_UD) | RT_BIT(X86_XCPT_NP) | RT_BIT(X86_XCPT_SS) | RT_BIT(X86_XCPT_GP) | RT_BIT(X86_XCPT_MF) #define HWACCM_SVM_TRAP_MASK HWACCM_VMX_TRAP_MASK #else #define HWACCM_VMX_TRAP_MASK RT_BIT(X86_XCPT_DB) | RT_BIT(X86_XCPT_NM) | RT_BIT(X86_XCPT_PF) #define HWACCM_SVM_TRAP_MASK RT_BIT(X86_XCPT_NM) | RT_BIT(X86_XCPT_PF) #endif /* All exceptions have to be intercept in emulated real-mode (minus NM & PF as they are always intercepted. */ #define HWACCM_VMX_TRAP_MASK_REALMODE RT_BIT(X86_XCPT_DE) | RT_BIT(X86_XCPT_DB) | RT_BIT(X86_XCPT_NMI) | RT_BIT(X86_XCPT_BP) | RT_BIT(X86_XCPT_OF) | RT_BIT(X86_XCPT_BR) | RT_BIT(X86_XCPT_UD) | RT_BIT(X86_XCPT_DF) | RT_BIT(X86_XCPT_CO_SEG_OVERRUN) | RT_BIT(X86_XCPT_TS) | RT_BIT(X86_XCPT_NP) | RT_BIT(X86_XCPT_SS) | RT_BIT(X86_XCPT_GP) | RT_BIT(X86_XCPT_MF) | RT_BIT(X86_XCPT_AC) | RT_BIT(X86_XCPT_MC) | RT_BIT(X86_XCPT_XF) /** @} */ /** Maximum number of page flushes we are willing to remember before considering a full TLB flush. */ #define HWACCM_MAX_TLB_SHOOTDOWN_PAGES 8 /** Size for the EPT identity page table (1024 4 MB pages to cover the entire address space). */ #define HWACCM_EPT_IDENTITY_PG_TABLE_SIZE PAGE_SIZE /** Size of the TSS structure + 2 pages for the IO bitmap + end byte. */ #define HWACCM_VTX_TSS_SIZE (sizeof(VBOXTSS) + 2*PAGE_SIZE + 1) /** Total guest mapped memory needed. */ #define HWACCM_VTX_TOTAL_DEVHEAP_MEM (HWACCM_EPT_IDENTITY_PG_TABLE_SIZE + HWACCM_VTX_TSS_SIZE) /** Enable for TPR guest patching. */ #define VBOX_HWACCM_WITH_GUEST_PATCHING /** HWACCM SSM version */ #ifdef VBOX_HWACCM_WITH_GUEST_PATCHING # define HWACCM_SSM_VERSION 5 # define HWACCM_SSM_VERSION_NO_PATCHING 4 #else # define HWACCM_SSM_VERSION 4 # define HWACCM_SSM_VERSION_NO_PATCHING 4 #endif #define HWACCM_SSM_VERSION_2_0_X 3 /** * Global per-cpu information. (host) */ typedef struct HMGLOBLCPUINFO { /** The CPU ID. */ RTCPUID idCpu; /** The memory object */ RTR0MEMOBJ hMemObj; /** Current ASID (AMD-V) / VPID (Intel). */ uint32_t uCurrentASID; /** TLB flush count. */ uint32_t cTLBFlushes; /** Set the first time a cpu is used to make sure we start with a clean TLB. */ bool fFlushTLB; /** Configured for VT-x or AMD-V. */ bool fConfigured; /** Set if the VBOX_HWVIRTEX_IGNORE_SVM_IN_USE hack is active. */ bool fIgnoreAMDVInUseError; /** In use by our code. (for power suspend) */ volatile bool fInUse; } HMGLOBLCPUINFO; /** Pointer to the per-cpu global information. */ typedef HMGLOBLCPUINFO *PHMGLOBLCPUINFO; typedef enum { HWACCMPENDINGIO_INVALID = 0, HWACCMPENDINGIO_PORT_READ, HWACCMPENDINGIO_PORT_WRITE, HWACCMPENDINGIO_STRING_READ, HWACCMPENDINGIO_STRING_WRITE, /** The usual 32-bit paranoia. */ HWACCMPENDINGIO_32BIT_HACK = 0x7fffffff } HWACCMPENDINGIO; typedef enum { HWACCMTPRINSTR_INVALID, HWACCMTPRINSTR_READ, HWACCMTPRINSTR_READ_SHR4, HWACCMTPRINSTR_WRITE_REG, HWACCMTPRINSTR_WRITE_IMM, HWACCMTPRINSTR_JUMP_REPLACEMENT, /** The usual 32-bit paranoia. */ HWACCMTPRINSTR_32BIT_HACK = 0x7fffffff } HWACCMTPRINSTR; 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. */ HWACCMTPRINSTR 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; } HWACCMTPRPATCH; /** Pointer to HWACCMTPRPATCH. */ typedef HWACCMTPRPATCH *PHWACCMTPRPATCH; /** * Switcher function, HC to RC. * * @param pVM The VM handle. * @param uOffsetVMCPU VMCPU offset from pVM * @returns Return code indicating the action to take. */ typedef DECLCALLBACK (int) FNHWACCMSWITCHERHC(PVM pVM, uint32_t uOffsetVMCPU); /** Pointer to switcher function. */ typedef FNHWACCMSWITCHERHC *PFNHWACCMSWITCHERHC; /** * HWACCM VM Instance data. * Changes to this must checked against the padding of the hwaccm union in VM! */ typedef struct HWACCM { /** Set when we've initialized VMX or SVM. */ bool fInitialized; /** Set when hardware acceleration is allowed. */ bool fAllowed; /** Set if nested paging is enabled. */ bool fNestedPaging; /** Set if nested paging is allowed. */ bool fAllowNestedPaging; /** Set if large pages are enabled (requires nested paging). */ bool fLargePages; /** Set if we can support 64-bit guests or not. */ bool fAllow64BitGuests; /** Set if an IO-APIC is configured for this VM. */ bool fHasIoApic; /** Set when TPR patching is allowed. */ bool fTRPPatchingAllowed; /** Set when we initialize VT-x or AMD-V once for all CPUs. */ bool fGlobalInit; /** Set when TPR patching is active. */ bool fTPRPatchingActive; bool u8Alignment[6]; /** And mask for copying register contents. */ uint64_t u64RegisterMask; /** Maximum ASID allowed. */ uint32_t uMaxASID; /** 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; /** 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 uPadding1; #if HC_ARCH_BITS == 32 && defined(VBOX_ENABLE_64_BITS_GUESTS) && !defined(VBOX_WITH_HYBRID_32BIT_KERNEL) /** 32 to 64 bits switcher entrypoint. */ R0PTRTYPE(PFNHWACCMSWITCHERHC) pfnHost32ToGuest64R0; /* AMD-V 64 bits vmrun handler */ RTRCPTR pfnSVMGCVMRun64; /* VT-x 64 bits vmlaunch handler */ RTRCPTR pfnVMXGCStartVM64; /* RC handler to setup the 64 bits FPU state. */ RTRCPTR pfnSaveGuestFPU64; /* RC handler to setup the 64 bits debug state. */ RTRCPTR pfnSaveGuestDebug64; /* Test handler */ RTRCPTR pfnTest64; RTRCPTR uAlignment[2]; /*#elif defined(VBOX_WITH_HYBRID_32BIT_KERNEL) uint32_t u32Alignment[1]; */ #endif struct { /** Set by the ring-0 side of HWACCM to indicate VMX is supported by the * CPU. */ bool fSupported; /** Set when we've enabled VMX. */ bool fEnabled; /** Set if VPID is supported. */ bool fVPID; /** Set if VT-x VPID is allowed. */ bool fAllowVPID; /** Set if unrestricted guest execution is allowed (real and protected mode without paging). */ bool fUnrestrictedGuest; /** Whether we're using the preemption timer or not. */ bool fUsePreemptTimer; /** The shift mask employed by the VMX-Preemption timer. */ uint8_t cPreemptTimerShift; bool uAlignment[1]; /** 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; /** R0 memory object for the APIC physical page (serves for filtering accesses). */ RTR0MEMOBJ pMemObjAPIC; /** Physical address of the APIC physical page (serves for filtering accesses). */ RTHCPHYS pAPICPhys; /** Virtual address of the APIC physical page (serves for filtering accesses). */ R0PTRTYPE(uint8_t *) pAPIC; /** R0 memory object for the MSR entry load page (guest MSRs). */ RTR0MEMOBJ pMemObjMSREntryLoad; /** Physical address of the MSR entry load page (guest MSRs). */ RTHCPHYS pMSREntryLoadPhys; /** Virtual address of the MSR entry load page (guest MSRs). */ R0PTRTYPE(uint8_t *) pMSREntryLoad; #ifdef VBOX_WITH_CRASHDUMP_MAGIC RTR0MEMOBJ pMemObjScratch; RTHCPHYS pScratchPhys; R0PTRTYPE(uint8_t *) pScratch; #endif /** R0 memory object for the MSR exit store page (guest MSRs). */ RTR0MEMOBJ pMemObjMSRExitStore; /** Physical address of the MSR exit store page (guest MSRs). */ RTHCPHYS pMSRExitStorePhys; /** Virtual address of the MSR exit store page (guest MSRs). */ R0PTRTYPE(uint8_t *) pMSRExitStore; /** R0 memory object for the MSR exit load page (host MSRs). */ RTR0MEMOBJ pMemObjMSRExitLoad; /** Physical address of the MSR exit load page (host MSRs). */ RTHCPHYS pMSRExitLoadPhys; /** Virtual address of the MSR exit load page (host MSRs). */ R0PTRTYPE(uint8_t *) pMSRExitLoad; /** Ring 0 handlers for VT-x. */ DECLR0CALLBACKMEMBER(void, pfnSetupTaggedTLB, (PVM pVM, PVMCPU pVCpu)); #if HC_ARCH_BITS == 32 && defined(VBOX_ENABLE_64_BITS_GUESTS) uint32_t u32Alignment; #endif /** Host CR4 value (set by ring-0 VMX init) */ uint64_t hostCR4; /** Host EFER value (set by ring-0 VMX init) */ uint64_t hostEFER; /** VMX MSR values */ struct { uint64_t feature_ctrl; uint64_t vmx_basic_info; VMX_CAPABILITY vmx_pin_ctls; VMX_CAPABILITY vmx_proc_ctls; VMX_CAPABILITY vmx_proc_ctls2; VMX_CAPABILITY vmx_exit; VMX_CAPABILITY vmx_entry; uint64_t vmx_misc; uint64_t vmx_cr0_fixed0; uint64_t vmx_cr0_fixed1; uint64_t vmx_cr4_fixed0; uint64_t vmx_cr4_fixed1; uint64_t vmx_vmcs_enum; uint64_t vmx_eptcaps; } msr; /** Flush types for invept & invvpid; they depend on capabilities. */ VMX_FLUSH enmFlushPage; VMX_FLUSH enmFlushContext; } vmx; struct { /** Set by the ring-0 side of HWACCM to indicate SVM is supported by the * CPU. */ bool fSupported; /** Set when we've enabled SVM. */ bool fEnabled; /** Set if erratum 170 affects the AMD cpu. */ bool fAlwaysFlushTLB; /** Set when the hack to ignore VERR_SVM_IN_USE is active. */ bool fIgnoreInUseError; /** R0 memory object for the IO bitmap (12kb). */ RTR0MEMOBJ pMemObjIOBitmap; /** Physical address of the IO bitmap (12kb). */ RTHCPHYS pIOBitmapPhys; /** Virtual address of the IO bitmap. */ R0PTRTYPE(void *) pIOBitmap; /* HWCR msr (for diagnostics) */ uint64_t msrHWCR; /** SVM revision. */ uint32_t u32Rev; /** SVM feature bits from cpuid 0x8000000a */ uint32_t u32Features; } svm; /** * AVL tree with all patches (active or disabled) sorted by guest instruction address */ AVLOU32TREE PatchTree; uint32_t cPatches; HWACCMTPRPATCH aPatches[64]; struct { uint32_t u32AMDFeatureECX; uint32_t u32AMDFeatureEDX; } cpuid; /** Saved error from detection */ int32_t lLastError; /** HWACCMR0Init was run */ bool fHWACCMR0Init; bool u8Alignment1[7]; STAMCOUNTER StatTPRPatchSuccess; STAMCOUNTER StatTPRPatchFailure; STAMCOUNTER StatTPRReplaceSuccess; STAMCOUNTER StatTPRReplaceFailure; } HWACCM; /** Pointer to HWACCM VM instance data. */ typedef HWACCM *PHWACCM; /* Maximum number of cached entries. */ #define VMCSCACHE_MAX_ENTRY 128 /* Structure for storing read and write VMCS actions. */ typedef struct VMCSCACHE { #ifdef VBOX_WITH_CRASHDUMP_MAGIC /* Magic marker for searching in crash dumps. */ uint8_t aMagic[16]; uint64_t uMagic; uint64_t u64TimeEntry; uint64_t u64TimeSwitch; uint64_t cResume; uint64_t interPD; uint64_t pSwitcher; uint32_t uPos; uint32_t idCpu; #endif /* CR2 is saved here for EPT syncing. */ uint64_t cr2; struct { uint32_t cValidEntries; uint32_t uAlignment; uint32_t aField[VMCSCACHE_MAX_ENTRY]; uint64_t aFieldVal[VMCSCACHE_MAX_ENTRY]; } Write; struct { uint32_t cValidEntries; uint32_t uAlignment; uint32_t aField[VMCSCACHE_MAX_ENTRY]; uint64_t aFieldVal[VMCSCACHE_MAX_ENTRY]; } Read; #ifdef DEBUG struct { RTHCPHYS HCPhysCpuPage; RTHCPHYS HCPhysVMCS; RTGCPTR pCache; RTGCPTR pCtx; } TestIn; struct { RTHCPHYS HCPhysVMCS; RTGCPTR pCache; RTGCPTR pCtx; uint64_t eflags; uint64_t cr8; } TestOut; struct { uint64_t param1; uint64_t param2; uint64_t param3; uint64_t param4; } ScratchPad; #endif } VMCSCACHE; /** Pointer to VMCSCACHE. */ typedef VMCSCACHE *PVMCSCACHE; /** VMX StartVM function. */ typedef DECLCALLBACK(int) FNHWACCMVMXSTARTVM(RTHCUINT fResume, PCPUMCTX pCtx, PVMCSCACHE pCache, PVM pVM, PVMCPU pVCpu); /** Pointer to a VMX StartVM function. */ typedef R0PTRTYPE(FNHWACCMVMXSTARTVM *) PFNHWACCMVMXSTARTVM; /** SVM VMRun function. */ typedef DECLCALLBACK(int) FNHWACCMSVMVMRUN(RTHCPHYS pVMCBHostPhys, RTHCPHYS pVMCBPhys, PCPUMCTX pCtx, PVM pVM, PVMCPU pVCpu); /** Pointer to a SVM VMRun function. */ typedef R0PTRTYPE(FNHWACCMSVMVMRUN *) PFNHWACCMSVMVMRUN; /** * HWACCM VMCPU Instance data. */ typedef struct HWACCMCPU { /** Old style FPU reporting trap mask override performed (optimization) */ bool fFPUOldStyleOverride; /** Set if we don't have to flush the TLB on VM entry. */ bool fResumeVM; /** Set if we need to flush the TLB during the world switch. */ bool fForceTLBFlush; /** Set when we're using VT-x or AMD-V at that moment. */ bool fActive; /** Set when the TLB has been checked until we return from the world switch. */ volatile bool fCheckedTLBFlush; uint8_t bAlignment[3]; /** World switch exit counter. */ volatile uint32_t cWorldSwitchExits; /** HWACCM_CHANGED_* flags. */ uint32_t fContextUseFlags; /** Id of the last cpu we were executing code on (NIL_RTCPUID for the first time) */ RTCPUID idLastCpu; /** TLB flush count */ uint32_t cTLBFlushes; /** Current ASID in use by the VM */ uint32_t uCurrentASID; uint32_t u32Alignment; struct { /** Physical address of the VM control structure (VMCS). */ RTHCPHYS HCPhysVMCS; /** R0 memory object for the VM control structure (VMCS). */ RTR0MEMOBJ hMemObjVMCS; /** Virtual address of the VM control structure (VMCS). */ R0PTRTYPE(void *) pvVMCS; /** Ring 0 handlers for VT-x. */ PFNHWACCMVMXSTARTVM pfnStartVM; #if HC_ARCH_BITS == 32 uint32_t u32Alignment; #endif /** Current VMX_VMCS_CTRL_PROC_EXEC_CONTROLS. */ uint64_t proc_ctls; /** Current VMX_VMCS_CTRL_PROC_EXEC2_CONTROLS. */ uint64_t proc_ctls2; /** Physical address of the virtual APIC page for TPR caching. */ RTHCPHYS HCPhysVAPIC; /** R0 memory object for the virtual APIC page for TPR caching. */ RTR0MEMOBJ hMemObjVAPIC; /** Virtual address of the virtual APIC page for TPR caching. */ R0PTRTYPE(uint8_t *) pbVAPIC; /** Current CR0 mask. */ uint64_t cr0_mask; /** Current CR4 mask. */ uint64_t cr4_mask; /** Current EPTP. */ RTHCPHYS GCPhysEPTP; /** Physical address of the MSR bitmap (1 page). */ RTHCPHYS pMSRBitmapPhys; /** R0 memory object for the MSR bitmap (1 page). */ RTR0MEMOBJ pMemObjMSRBitmap; /** Virtual address of the MSR bitmap (1 page). */ R0PTRTYPE(uint8_t *) pMSRBitmap; #ifdef VBOX_WITH_AUTO_MSR_LOAD_RESTORE /** Physical address of the guest MSR load area (1 page). */ RTHCPHYS pGuestMSRPhys; /** R0 memory object for the guest MSR load area (1 page). */ RTR0MEMOBJ pMemObjGuestMSR; /** Virtual address of the guest MSR load area (1 page). */ R0PTRTYPE(uint8_t *) pGuestMSR; /** Physical address of the MSR load area (1 page). */ RTHCPHYS pHostMSRPhys; /** R0 memory object for the MSR load area (1 page). */ RTR0MEMOBJ pMemObjHostMSR; /** Virtual address of the MSR load area (1 page). */ R0PTRTYPE(uint8_t *) pHostMSR; #endif /* VBOX_WITH_AUTO_MSR_LOAD_RESTORE */ /* Number of automatically loaded/restored MSRs. */ uint32_t cCachedMSRs; uint32_t uAlignement; /* Last use TSC offset value. (cached) */ uint64_t u64TSCOffset; /** VMCS cache. */ VMCSCACHE VMCSCache; /** Real-mode emulation state. */ struct { X86EFLAGS eflags; uint32_t fValid; } RealMode; struct { uint64_t u64VMCSPhys; uint32_t ulVMCSRevision; uint32_t ulInstrError; uint32_t ulExitReason; RTCPUID idEnteredCpu; RTCPUID idCurrentCpu; uint32_t padding; } lasterror; /** The last seen guest paging mode (by VT-x). */ PGMMODE enmLastSeenGuestMode; /** Current guest paging mode (as seen by HWACCMR3PagingModeChanged). */ PGMMODE enmCurrGuestMode; /** Previous guest paging mode (as seen by HWACCMR3PagingModeChanged). */ PGMMODE enmPrevGuestMode; } vmx; struct { /** R0 memory object for the host VM control block (VMCB). */ RTR0MEMOBJ pMemObjVMCBHost; /** Physical address of the host VM control block (VMCB). */ RTHCPHYS pVMCBHostPhys; /** Virtual address of the host VM control block (VMCB). */ R0PTRTYPE(void *) pVMCBHost; /** R0 memory object for the VM control block (VMCB). */ RTR0MEMOBJ pMemObjVMCB; /** Physical address of the VM control block (VMCB). */ RTHCPHYS pVMCBPhys; /** Virtual address of the VM control block (VMCB). */ R0PTRTYPE(void *) pVMCB; /** Ring 0 handlers for VT-x. */ PFNHWACCMSVMVMRUN pfnVMRun; /** R0 memory object for the MSR bitmap (8kb). */ RTR0MEMOBJ pMemObjMSRBitmap; /** Physical address of the MSR bitmap (8kb). */ RTHCPHYS pMSRBitmapPhys; /** Virtual address of the MSR bitmap. */ R0PTRTYPE(void *) pMSRBitmap; } svm; /** Event injection state. */ struct { uint32_t fPending; uint32_t errCode; uint64_t intInfo; } Event; /** IO Block emulation state. */ struct { bool fEnabled; uint8_t u8Align[7]; /** RIP at the start of the io code we wish to emulate in the recompiler. */ RTGCPTR GCPtrFunctionEip; uint64_t cr0; } EmulateIoBlock; struct { /* Pending IO operation type. */ HWACCMPENDINGIO enmType; uint32_t uPadding; RTGCPTR GCPtrRip; RTGCPTR GCPtrRipNext; union { struct { unsigned uPort; unsigned uAndVal; unsigned cbSize; } Port; uint64_t aRaw[2]; } s; } PendingIO; /** Currently shadow paging mode. */ PGMMODE enmShadowMode; /** The CPU ID of the CPU currently owning the VMCS. Set in * HWACCMR0Enter and cleared in HWACCMR0Leave. */ RTCPUID idEnteredCpu; /** To keep track of pending TLB shootdown pages. (SMP guest only) */ struct { RTGCPTR aPages[HWACCM_MAX_TLB_SHOOTDOWN_PAGES]; unsigned cPages; } TlbShootdown; /** For saving stack space, the disassembler state is allocated here instead of * on the stack. * @note The DISCPUSTATE structure is not R3/R0/RZ clean! */ union { /** The disassembler scratch space. */ DISCPUSTATE DisState; /** Padding. */ uint8_t abDisStatePadding[DISCPUSTATE_PADDING_SIZE]; }; uint32_t padding2[1]; STAMPROFILEADV StatEntry; STAMPROFILEADV StatExit1; STAMPROFILEADV StatExit2; #if 1 /* temporary for tracking down darwin issues. */ STAMPROFILEADV StatExit2Sub1; STAMPROFILEADV StatExit2Sub2; STAMPROFILEADV StatExit2Sub3; #endif STAMPROFILEADV StatInGC; #if HC_ARCH_BITS == 32 && defined(VBOX_ENABLE_64_BITS_GUESTS) && !defined(VBOX_WITH_HYBRID_32BIT_KERNEL) STAMPROFILEADV StatWorldSwitch3264; #endif STAMPROFILEADV StatPoke; STAMPROFILEADV StatSpinPoke; STAMPROFILEADV StatSpinPokeFailed; STAMCOUNTER StatIntInject; STAMCOUNTER StatExitShadowNM; STAMCOUNTER StatExitGuestNM; STAMCOUNTER StatExitShadowPF; STAMCOUNTER StatExitShadowPFEM; STAMCOUNTER StatExitGuestPF; STAMCOUNTER StatExitGuestUD; STAMCOUNTER StatExitGuestSS; STAMCOUNTER StatExitGuestNP; STAMCOUNTER StatExitGuestGP; STAMCOUNTER StatExitGuestDE; STAMCOUNTER StatExitGuestDB; STAMCOUNTER StatExitGuestMF; STAMCOUNTER StatExitGuestBP; STAMCOUNTER StatExitGuestXF; STAMCOUNTER StatExitGuestXcpUnk; STAMCOUNTER StatExitInvpg; STAMCOUNTER StatExitInvd; STAMCOUNTER StatExitCpuid; STAMCOUNTER StatExitRdtsc; STAMCOUNTER StatExitRdpmc; STAMCOUNTER StatExitCli; STAMCOUNTER StatExitSti; STAMCOUNTER StatExitPushf; STAMCOUNTER StatExitPopf; STAMCOUNTER StatExitIret; STAMCOUNTER StatExitInt; STAMCOUNTER StatExitCRxWrite[16]; STAMCOUNTER StatExitCRxRead[16]; STAMCOUNTER StatExitDRxWrite; STAMCOUNTER StatExitDRxRead; STAMCOUNTER StatExitRdmsr; STAMCOUNTER StatExitWrmsr; STAMCOUNTER StatExitCLTS; STAMCOUNTER StatExitHlt; STAMCOUNTER StatExitMwait; STAMCOUNTER StatExitMonitor; STAMCOUNTER StatExitLMSW; STAMCOUNTER StatExitIOWrite; STAMCOUNTER StatExitIORead; STAMCOUNTER StatExitIOStringWrite; STAMCOUNTER StatExitIOStringRead; STAMCOUNTER StatExitIrqWindow; STAMCOUNTER StatExitMaxResume; STAMCOUNTER StatExitPreemptPending; STAMCOUNTER StatExitMTF; STAMCOUNTER StatIntReinject; STAMCOUNTER StatPendingHostIrq; STAMCOUNTER StatFlushPage; STAMCOUNTER StatFlushPageManual; STAMCOUNTER StatFlushPhysPageManual; STAMCOUNTER StatFlushTLB; STAMCOUNTER StatFlushTLBManual; STAMCOUNTER StatFlushPageInvlpg; STAMCOUNTER StatFlushTLBWorldSwitch; STAMCOUNTER StatNoFlushTLBWorldSwitch; STAMCOUNTER StatFlushTLBCRxChange; STAMCOUNTER StatFlushASID; STAMCOUNTER StatFlushTLBInvlpga; STAMCOUNTER StatTlbShootdown; STAMCOUNTER StatTlbShootdownFlush; STAMCOUNTER StatSwitchGuestIrq; STAMCOUNTER StatSwitchToR3; STAMCOUNTER StatTSCOffset; STAMCOUNTER StatTSCIntercept; STAMCOUNTER StatTSCInterceptOverFlow; STAMCOUNTER StatExitReasonNPF; STAMCOUNTER StatDRxArmed; STAMCOUNTER StatDRxContextSwitch; STAMCOUNTER StatDRxIOCheck; STAMCOUNTER StatLoadMinimal; STAMCOUNTER StatLoadFull; #if HC_ARCH_BITS == 32 && defined(VBOX_ENABLE_64_BITS_GUESTS) && !defined(VBOX_WITH_HYBRID_32BIT_KERNEL) STAMCOUNTER StatFpu64SwitchBack; STAMCOUNTER StatDebug64SwitchBack; #endif #ifdef VBOX_WITH_STATISTICS R3PTRTYPE(PSTAMCOUNTER) paStatExitReason; R0PTRTYPE(PSTAMCOUNTER) paStatExitReasonR0; R3PTRTYPE(PSTAMCOUNTER) paStatInjectedIrqs; R0PTRTYPE(PSTAMCOUNTER) paStatInjectedIrqsR0; #endif } HWACCMCPU; /** Pointer to HWACCM VM instance data. */ typedef HWACCMCPU *PHWACCMCPU; #ifdef IN_RING0 VMMR0DECL(PHMGLOBLCPUINFO) HWACCMR0GetCurrentCpu(void); VMMR0DECL(PHMGLOBLCPUINFO) HWACCMR0GetCurrentCpuEx(RTCPUID idCpu); #ifdef VBOX_STRICT VMMR0DECL(void) HWACCMDumpRegs(PVM pVM, PVMCPU pVCpu, PCPUMCTX pCtx); VMMR0DECL(void) HWACCMR0DumpDescriptor(PCX86DESCHC pDesc, RTSEL Sel, const char *pszMsg); #else # define HWACCMDumpRegs(a, b ,c) do { } while (0) # define HWACCMR0DumpDescriptor(a, b, c) do { } while (0) #endif # ifdef VBOX_WITH_KERNEL_USING_XMM DECLASM(int) hwaccmR0VMXStartVMWrapXMM(RTHCUINT fResume, PCPUMCTX pCtx, PVMCSCACHE pCache, PVM pVM, PVMCPU pVCpu, PFNHWACCMVMXSTARTVM pfnStartVM); DECLASM(int) hwaccmR0SVMRunWrapXMM(RTHCPHYS pVMCBHostPhys, RTHCPHYS pVMCBPhys, PCPUMCTX pCtx, PVM pVM, PVMCPU pVCpu, PFNHWACCMSVMVMRUN pfnVMRun); # endif # ifdef VBOX_WITH_HYBRID_32BIT_KERNEL /** * Gets 64-bit GDTR and IDTR on darwin. * @param pGdtr Where to store the 64-bit GDTR. * @param pIdtr Where to store the 64-bit IDTR. */ DECLASM(void) hwaccmR0Get64bitGDTRandIDTR(PX86XDTR64 pGdtr, PX86XDTR64 pIdtr); /** * Gets 64-bit CR3 on darwin. * @returns CR3 */ DECLASM(uint64_t) hwaccmR0Get64bitCR3(void); # endif #endif /* IN_RING0 */ /** @} */ RT_C_DECLS_END #endif