/** @file * HM - VMX Structures and Definitions. (VMM) */ /* * Copyright (C) 2006-2023 Oracle and/or its affiliates. * * This file is part of VirtualBox base platform packages, as * available from https://www.virtualbox.org. * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation, in version 3 of the * License. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, see . * * The contents of this file may alternatively be used under the terms * of the Common Development and Distribution License Version 1.0 * (CDDL), a copy of it is provided in the "COPYING.CDDL" file included * in the VirtualBox distribution, in which case the provisions of the * CDDL are applicable instead of those of the GPL. * * You may elect to license modified versions of this file under the * terms and conditions of either the GPL or the CDDL or both. * * SPDX-License-Identifier: GPL-3.0-only OR CDDL-1.0 */ #ifndef VBOX_INCLUDED_vmm_hm_vmx_h #define VBOX_INCLUDED_vmm_hm_vmx_h #ifndef RT_WITHOUT_PRAGMA_ONCE # pragma once #endif #include #include #include /** @defgroup grp_hm_vmx VMX Types and Definitions * @ingroup grp_hm * @{ */ /** @name Host-state MSR lazy-restoration flags. * @{ */ /** The host MSRs have been saved. */ #define VMX_LAZY_MSRS_SAVED_HOST RT_BIT(0) /** The guest MSRs are loaded and in effect. */ #define VMX_LAZY_MSRS_LOADED_GUEST RT_BIT(1) /** @} */ /** @name VMX HM-error codes for VERR_HM_UNSUPPORTED_CPU_FEATURE_COMBO. * UFC = Unsupported Feature Combination. * @{ */ /** Unsupported pin-based VM-execution controls combo. */ #define VMX_UFC_CTRL_PIN_EXEC 1 /** Unsupported processor-based VM-execution controls combo. */ #define VMX_UFC_CTRL_PROC_EXEC 2 /** Unsupported move debug register VM-exit combo. */ #define VMX_UFC_CTRL_PROC_MOV_DRX_EXIT 3 /** Unsupported VM-entry controls combo. */ #define VMX_UFC_CTRL_ENTRY 4 /** Unsupported VM-exit controls combo. */ #define VMX_UFC_CTRL_EXIT 5 /** MSR storage capacity of the VMCS autoload/store area is not sufficient * for storing host MSRs. */ #define VMX_UFC_INSUFFICIENT_HOST_MSR_STORAGE 6 /** MSR storage capacity of the VMCS autoload/store area is not sufficient * for storing guest MSRs. */ #define VMX_UFC_INSUFFICIENT_GUEST_MSR_STORAGE 7 /** Invalid VMCS size. */ #define VMX_UFC_INVALID_VMCS_SIZE 8 /** Unsupported secondary processor-based VM-execution controls combo. */ #define VMX_UFC_CTRL_PROC_EXEC2 9 /** Invalid unrestricted-guest execution controls combo. */ #define VMX_UFC_INVALID_UX_COMBO 10 /** EPT flush type not supported. */ #define VMX_UFC_EPT_FLUSH_TYPE_UNSUPPORTED 11 /** EPT paging structure memory type is not write-back. */ #define VMX_UFC_EPT_MEM_TYPE_NOT_WB 12 /** EPT requires INVEPT instr. support but it's not available. */ #define VMX_UFC_EPT_INVEPT_UNAVAILABLE 13 /** EPT requires page-walk length of 4. */ #define VMX_UFC_EPT_PAGE_WALK_LENGTH_UNSUPPORTED 14 /** VMX VMWRITE all feature exposed to the guest but not supported on host. */ #define VMX_UFC_GST_HOST_VMWRITE_ALL 15 /** LBR stack size cannot be determined for the current CPU. */ #define VMX_UFC_LBR_STACK_SIZE_UNKNOWN 16 /** LBR stack size of the CPU exceeds our buffer size. */ #define VMX_UFC_LBR_STACK_SIZE_OVERFLOW 17 /** @} */ /** @name VMX HM-error codes for VERR_VMX_VMCS_FIELD_CACHE_INVALID. * VCI = VMCS-field Cache Invalid. * @{ */ /** Cache of VM-entry controls invalid. */ #define VMX_VCI_CTRL_ENTRY 300 /** Cache of VM-exit controls invalid. */ #define VMX_VCI_CTRL_EXIT 301 /** Cache of pin-based VM-execution controls invalid. */ #define VMX_VCI_CTRL_PIN_EXEC 302 /** Cache of processor-based VM-execution controls invalid. */ #define VMX_VCI_CTRL_PROC_EXEC 303 /** Cache of secondary processor-based VM-execution controls invalid. */ #define VMX_VCI_CTRL_PROC_EXEC2 304 /** Cache of exception bitmap invalid. */ #define VMX_VCI_CTRL_XCPT_BITMAP 305 /** Cache of TSC offset invalid. */ #define VMX_VCI_CTRL_TSC_OFFSET 306 /** Cache of tertiary processor-based VM-execution controls invalid. */ #define VMX_VCI_CTRL_PROC_EXEC3 307 /** @} */ /** @name VMX HM-error codes for VERR_VMX_INVALID_GUEST_STATE. * IGS = Invalid Guest State. * @{ */ /** An error occurred while checking invalid-guest-state. */ #define VMX_IGS_ERROR 500 /** The invalid guest-state checks did not find any reason why. */ #define VMX_IGS_REASON_NOT_FOUND 501 /** CR0 fixed1 bits invalid. */ #define VMX_IGS_CR0_FIXED1 502 /** CR0 fixed0 bits invalid. */ #define VMX_IGS_CR0_FIXED0 503 /** CR0.PE and CR0.PE invalid VT-x/host combination. */ #define VMX_IGS_CR0_PG_PE_COMBO 504 /** CR4 fixed1 bits invalid. */ #define VMX_IGS_CR4_FIXED1 505 /** CR4 fixed0 bits invalid. */ #define VMX_IGS_CR4_FIXED0 506 /** Reserved bits in VMCS' DEBUGCTL MSR field not set to 0 when * VMX_VMCS_CTRL_ENTRY_LOAD_DEBUG is used. */ #define VMX_IGS_DEBUGCTL_MSR_RESERVED 507 /** CR0.PG not set for long-mode when not using unrestricted guest. */ #define VMX_IGS_CR0_PG_LONGMODE 508 /** CR4.PAE not set for long-mode guest when not using unrestricted guest. */ #define VMX_IGS_CR4_PAE_LONGMODE 509 /** CR4.PCIDE set for 32-bit guest. */ #define VMX_IGS_CR4_PCIDE 510 /** VMCS' DR7 reserved bits not set to 0. */ #define VMX_IGS_DR7_RESERVED 511 /** VMCS' PERF_GLOBAL MSR reserved bits not set to 0. */ #define VMX_IGS_PERF_GLOBAL_MSR_RESERVED 512 /** VMCS' EFER MSR reserved bits not set to 0. */ #define VMX_IGS_EFER_MSR_RESERVED 513 /** VMCS' EFER MSR.LMA does not match the IA32e mode guest control. */ #define VMX_IGS_EFER_LMA_GUEST_MODE_MISMATCH 514 /** VMCS' EFER MSR.LMA does not match EFER.LME of the guest when using paging * without unrestricted guest. */ #define VMX_IGS_EFER_LMA_LME_MISMATCH 515 /** CS.Attr.P bit invalid. */ #define VMX_IGS_CS_ATTR_P_INVALID 516 /** CS.Attr reserved bits not set to 0. */ #define VMX_IGS_CS_ATTR_RESERVED 517 /** CS.Attr.G bit invalid. */ #define VMX_IGS_CS_ATTR_G_INVALID 518 /** CS is unusable. */ #define VMX_IGS_CS_ATTR_UNUSABLE 519 /** CS and SS DPL unequal. */ #define VMX_IGS_CS_SS_ATTR_DPL_UNEQUAL 520 /** CS and SS DPL mismatch. */ #define VMX_IGS_CS_SS_ATTR_DPL_MISMATCH 521 /** CS Attr.Type invalid. */ #define VMX_IGS_CS_ATTR_TYPE_INVALID 522 /** CS and SS RPL unequal. */ #define VMX_IGS_SS_CS_RPL_UNEQUAL 523 /** SS.Attr.DPL and SS RPL unequal. */ #define VMX_IGS_SS_ATTR_DPL_RPL_UNEQUAL 524 /** SS.Attr.DPL invalid for segment type. */ #define VMX_IGS_SS_ATTR_DPL_INVALID 525 /** SS.Attr.Type invalid. */ #define VMX_IGS_SS_ATTR_TYPE_INVALID 526 /** SS.Attr.P bit invalid. */ #define VMX_IGS_SS_ATTR_P_INVALID 527 /** SS.Attr reserved bits not set to 0. */ #define VMX_IGS_SS_ATTR_RESERVED 528 /** SS.Attr.G bit invalid. */ #define VMX_IGS_SS_ATTR_G_INVALID 529 /** DS.Attr.A bit invalid. */ #define VMX_IGS_DS_ATTR_A_INVALID 530 /** DS.Attr.P bit invalid. */ #define VMX_IGS_DS_ATTR_P_INVALID 531 /** DS.Attr.DPL and DS RPL unequal. */ #define VMX_IGS_DS_ATTR_DPL_RPL_UNEQUAL 532 /** DS.Attr reserved bits not set to 0. */ #define VMX_IGS_DS_ATTR_RESERVED 533 /** DS.Attr.G bit invalid. */ #define VMX_IGS_DS_ATTR_G_INVALID 534 /** DS.Attr.Type invalid. */ #define VMX_IGS_DS_ATTR_TYPE_INVALID 535 /** ES.Attr.A bit invalid. */ #define VMX_IGS_ES_ATTR_A_INVALID 536 /** ES.Attr.P bit invalid. */ #define VMX_IGS_ES_ATTR_P_INVALID 537 /** ES.Attr.DPL and DS RPL unequal. */ #define VMX_IGS_ES_ATTR_DPL_RPL_UNEQUAL 538 /** ES.Attr reserved bits not set to 0. */ #define VMX_IGS_ES_ATTR_RESERVED 539 /** ES.Attr.G bit invalid. */ #define VMX_IGS_ES_ATTR_G_INVALID 540 /** ES.Attr.Type invalid. */ #define VMX_IGS_ES_ATTR_TYPE_INVALID 541 /** FS.Attr.A bit invalid. */ #define VMX_IGS_FS_ATTR_A_INVALID 542 /** FS.Attr.P bit invalid. */ #define VMX_IGS_FS_ATTR_P_INVALID 543 /** FS.Attr.DPL and DS RPL unequal. */ #define VMX_IGS_FS_ATTR_DPL_RPL_UNEQUAL 544 /** FS.Attr reserved bits not set to 0. */ #define VMX_IGS_FS_ATTR_RESERVED 545 /** FS.Attr.G bit invalid. */ #define VMX_IGS_FS_ATTR_G_INVALID 546 /** FS.Attr.Type invalid. */ #define VMX_IGS_FS_ATTR_TYPE_INVALID 547 /** GS.Attr.A bit invalid. */ #define VMX_IGS_GS_ATTR_A_INVALID 548 /** GS.Attr.P bit invalid. */ #define VMX_IGS_GS_ATTR_P_INVALID 549 /** GS.Attr.DPL and DS RPL unequal. */ #define VMX_IGS_GS_ATTR_DPL_RPL_UNEQUAL 550 /** GS.Attr reserved bits not set to 0. */ #define VMX_IGS_GS_ATTR_RESERVED 551 /** GS.Attr.G bit invalid. */ #define VMX_IGS_GS_ATTR_G_INVALID 552 /** GS.Attr.Type invalid. */ #define VMX_IGS_GS_ATTR_TYPE_INVALID 553 /** V86 mode CS.Base invalid. */ #define VMX_IGS_V86_CS_BASE_INVALID 554 /** V86 mode CS.Limit invalid. */ #define VMX_IGS_V86_CS_LIMIT_INVALID 555 /** V86 mode CS.Attr invalid. */ #define VMX_IGS_V86_CS_ATTR_INVALID 556 /** V86 mode SS.Base invalid. */ #define VMX_IGS_V86_SS_BASE_INVALID 557 /** V86 mode SS.Limit invalid. */ #define VMX_IGS_V86_SS_LIMIT_INVALID 558 /** V86 mode SS.Attr invalid. */ #define VMX_IGS_V86_SS_ATTR_INVALID 559 /** V86 mode DS.Base invalid. */ #define VMX_IGS_V86_DS_BASE_INVALID 560 /** V86 mode DS.Limit invalid. */ #define VMX_IGS_V86_DS_LIMIT_INVALID 561 /** V86 mode DS.Attr invalid. */ #define VMX_IGS_V86_DS_ATTR_INVALID 562 /** V86 mode ES.Base invalid. */ #define VMX_IGS_V86_ES_BASE_INVALID 563 /** V86 mode ES.Limit invalid. */ #define VMX_IGS_V86_ES_LIMIT_INVALID 564 /** V86 mode ES.Attr invalid. */ #define VMX_IGS_V86_ES_ATTR_INVALID 565 /** V86 mode FS.Base invalid. */ #define VMX_IGS_V86_FS_BASE_INVALID 566 /** V86 mode FS.Limit invalid. */ #define VMX_IGS_V86_FS_LIMIT_INVALID 567 /** V86 mode FS.Attr invalid. */ #define VMX_IGS_V86_FS_ATTR_INVALID 568 /** V86 mode GS.Base invalid. */ #define VMX_IGS_V86_GS_BASE_INVALID 569 /** V86 mode GS.Limit invalid. */ #define VMX_IGS_V86_GS_LIMIT_INVALID 570 /** V86 mode GS.Attr invalid. */ #define VMX_IGS_V86_GS_ATTR_INVALID 571 /** Longmode CS.Base invalid. */ #define VMX_IGS_LONGMODE_CS_BASE_INVALID 572 /** Longmode SS.Base invalid. */ #define VMX_IGS_LONGMODE_SS_BASE_INVALID 573 /** Longmode DS.Base invalid. */ #define VMX_IGS_LONGMODE_DS_BASE_INVALID 574 /** Longmode ES.Base invalid. */ #define VMX_IGS_LONGMODE_ES_BASE_INVALID 575 /** SYSENTER ESP is not canonical. */ #define VMX_IGS_SYSENTER_ESP_NOT_CANONICAL 576 /** SYSENTER EIP is not canonical. */ #define VMX_IGS_SYSENTER_EIP_NOT_CANONICAL 577 /** PAT MSR invalid. */ #define VMX_IGS_PAT_MSR_INVALID 578 /** PAT MSR reserved bits not set to 0. */ #define VMX_IGS_PAT_MSR_RESERVED 579 /** GDTR.Base is not canonical. */ #define VMX_IGS_GDTR_BASE_NOT_CANONICAL 580 /** IDTR.Base is not canonical. */ #define VMX_IGS_IDTR_BASE_NOT_CANONICAL 581 /** GDTR.Limit invalid. */ #define VMX_IGS_GDTR_LIMIT_INVALID 582 /** IDTR.Limit invalid. */ #define VMX_IGS_IDTR_LIMIT_INVALID 583 /** Longmode RIP is invalid. */ #define VMX_IGS_LONGMODE_RIP_INVALID 584 /** RFLAGS reserved bits not set to 0. */ #define VMX_IGS_RFLAGS_RESERVED 585 /** RFLAGS RA1 reserved bits not set to 1. */ #define VMX_IGS_RFLAGS_RESERVED1 586 /** RFLAGS.VM (V86 mode) invalid. */ #define VMX_IGS_RFLAGS_VM_INVALID 587 /** RFLAGS.IF invalid. */ #define VMX_IGS_RFLAGS_IF_INVALID 588 /** Activity state invalid. */ #define VMX_IGS_ACTIVITY_STATE_INVALID 589 /** Activity state HLT invalid when SS.Attr.DPL is not zero. */ #define VMX_IGS_ACTIVITY_STATE_HLT_INVALID 590 /** Activity state ACTIVE invalid when block-by-STI or MOV SS. */ #define VMX_IGS_ACTIVITY_STATE_ACTIVE_INVALID 591 /** Activity state SIPI WAIT invalid. */ #define VMX_IGS_ACTIVITY_STATE_SIPI_WAIT_INVALID 592 /** Interruptibility state reserved bits not set to 0. */ #define VMX_IGS_INTERRUPTIBILITY_STATE_RESERVED 593 /** Interruptibility state cannot be block-by-STI -and- MOV SS. */ #define VMX_IGS_INTERRUPTIBILITY_STATE_STI_MOVSS_INVALID 594 /** Interruptibility state block-by-STI invalid for EFLAGS. */ #define VMX_IGS_INTERRUPTIBILITY_STATE_STI_EFL_INVALID 595 /** Interruptibility state invalid while trying to deliver external * interrupt. */ #define VMX_IGS_INTERRUPTIBILITY_STATE_EXT_INT_INVALID 596 /** Interruptibility state block-by-MOVSS invalid while trying to deliver an * NMI. */ #define VMX_IGS_INTERRUPTIBILITY_STATE_MOVSS_INVALID 597 /** Interruptibility state block-by-SMI invalid when CPU is not in SMM. */ #define VMX_IGS_INTERRUPTIBILITY_STATE_SMI_INVALID 598 /** Interruptibility state block-by-SMI invalid when trying to enter SMM. */ #define VMX_IGS_INTERRUPTIBILITY_STATE_SMI_SMM_INVALID 599 /** Interruptibility state block-by-STI (maybe) invalid when trying to * deliver an NMI. */ #define VMX_IGS_INTERRUPTIBILITY_STATE_STI_INVALID 600 /** Interruptibility state block-by-NMI invalid when virtual-NMIs control is * active. */ #define VMX_IGS_INTERRUPTIBILITY_STATE_NMI_INVALID 601 /** Pending debug exceptions reserved bits not set to 0. */ #define VMX_IGS_PENDING_DEBUG_RESERVED 602 /** Longmode pending debug exceptions reserved bits not set to 0. */ #define VMX_IGS_LONGMODE_PENDING_DEBUG_RESERVED 603 /** Pending debug exceptions.BS bit is not set when it should be. */ #define VMX_IGS_PENDING_DEBUG_XCPT_BS_NOT_SET 604 /** Pending debug exceptions.BS bit is not clear when it should be. */ #define VMX_IGS_PENDING_DEBUG_XCPT_BS_NOT_CLEAR 605 /** VMCS link pointer reserved bits not set to 0. */ #define VMX_IGS_VMCS_LINK_PTR_RESERVED 606 /** TR cannot index into LDT, TI bit MBZ. */ #define VMX_IGS_TR_TI_INVALID 607 /** LDTR cannot index into LDT. TI bit MBZ. */ #define VMX_IGS_LDTR_TI_INVALID 608 /** TR.Base is not canonical. */ #define VMX_IGS_TR_BASE_NOT_CANONICAL 609 /** FS.Base is not canonical. */ #define VMX_IGS_FS_BASE_NOT_CANONICAL 610 /** GS.Base is not canonical. */ #define VMX_IGS_GS_BASE_NOT_CANONICAL 611 /** LDTR.Base is not canonical. */ #define VMX_IGS_LDTR_BASE_NOT_CANONICAL 612 /** TR is unusable. */ #define VMX_IGS_TR_ATTR_UNUSABLE 613 /** TR.Attr.S bit invalid. */ #define VMX_IGS_TR_ATTR_S_INVALID 614 /** TR is not present. */ #define VMX_IGS_TR_ATTR_P_INVALID 615 /** TR.Attr reserved bits not set to 0. */ #define VMX_IGS_TR_ATTR_RESERVED 616 /** TR.Attr.G bit invalid. */ #define VMX_IGS_TR_ATTR_G_INVALID 617 /** Longmode TR.Attr.Type invalid. */ #define VMX_IGS_LONGMODE_TR_ATTR_TYPE_INVALID 618 /** TR.Attr.Type invalid. */ #define VMX_IGS_TR_ATTR_TYPE_INVALID 619 /** CS.Attr.S invalid. */ #define VMX_IGS_CS_ATTR_S_INVALID 620 /** CS.Attr.DPL invalid. */ #define VMX_IGS_CS_ATTR_DPL_INVALID 621 /** PAE PDPTE reserved bits not set to 0. */ #define VMX_IGS_PAE_PDPTE_RESERVED 623 /** VMCS link pointer does not point to a shadow VMCS. */ #define VMX_IGS_VMCS_LINK_PTR_NOT_SHADOW 624 /** VMCS link pointer to a shadow VMCS with invalid VMCS revision identifer. */ #define VMX_IGS_VMCS_LINK_PTR_SHADOW_VMCS_ID_INVALID 625 /** @} */ /** @name VMX VMCS-Read cache indices. * @{ */ #define VMX_VMCS_GUEST_ES_BASE_CACHE_IDX 0 #define VMX_VMCS_GUEST_CS_BASE_CACHE_IDX 1 #define VMX_VMCS_GUEST_SS_BASE_CACHE_IDX 2 #define VMX_VMCS_GUEST_DS_BASE_CACHE_IDX 3 #define VMX_VMCS_GUEST_FS_BASE_CACHE_IDX 4 #define VMX_VMCS_GUEST_GS_BASE_CACHE_IDX 5 #define VMX_VMCS_GUEST_LDTR_BASE_CACHE_IDX 6 #define VMX_VMCS_GUEST_TR_BASE_CACHE_IDX 7 #define VMX_VMCS_GUEST_GDTR_BASE_CACHE_IDX 8 #define VMX_VMCS_GUEST_IDTR_BASE_CACHE_IDX 9 #define VMX_VMCS_GUEST_RSP_CACHE_IDX 10 #define VMX_VMCS_GUEST_RIP_CACHE_IDX 11 #define VMX_VMCS_GUEST_SYSENTER_ESP_CACHE_IDX 12 #define VMX_VMCS_GUEST_SYSENTER_EIP_CACHE_IDX 13 #define VMX_VMCS_RO_EXIT_QUALIFICATION_CACHE_IDX 14 #define VMX_VMCS_RO_GUEST_LINEAR_ADDR_CACHE_IDX 15 #define VMX_VMCS_MAX_CACHE_IDX (VMX_VMCS_RO_GUEST_LINEAR_ADDR_CACHE_IDX + 1) #define VMX_VMCS_GUEST_CR3_CACHE_IDX 16 #define VMX_VMCS_MAX_NESTED_PAGING_CACHE_IDX (VMX_VMCS_GUEST_CR3_CACHE_IDX + 1) /** @} */ /** @name VMX EPT memory type encodings. * @{ */ #define VMX_EPT_MT_UC UINT64_C(0) #define VMX_EPT_MT_WC UINT64_C(1) #define VMX_EPT_MT_RSVD_2 UINT64_C(2) #define VMX_EPT_MT_RSVD_3 UINT64_C(3) #define VMX_EPT_MT_WT UINT64_C(4) #define VMX_EPT_MT_WP UINT64_C(5) #define VMX_EPT_MT_WB UINT64_C(6) #define VMX_EPT_MT_RSVD_7 UINT64_C(7) /** @} */ /** @name VMX Extended Page Tables (EPT) Common Bits. * @{ */ /** Bit 0 - Readable (we often think of it as present). */ #define EPT_E_BIT_READ 0 #define EPT_E_READ RT_BIT_64(EPT_E_BIT_READ) /**< @see EPT_E_BIT_READ */ /** Bit 1 - Writable. */ #define EPT_E_BIT_WRITE 1 #define EPT_E_WRITE RT_BIT_64(EPT_E_BIT_WRITE) /**< @see EPT_E_BIT_WRITE */ /** Bit 2 - Executable. * @note This controls supervisor instruction fetching if mode-based * execution control is enabled. */ #define EPT_E_BIT_EXECUTE 2 #define EPT_E_EXECUTE RT_BIT_64(EPT_E_BIT_EXECUTE) /**< @see EPT_E_BIT_EXECUTE */ /** Bits 3-5 - Memory type mask (leaf only, MBZ). * The memory type is only applicable for leaf entries and MBZ for * non-leaf (causes miconfiguration exit). */ #define EPT_E_MEMTYPE_MASK UINT64_C(0x0038) /** Bits 3-5 - Memory type shifted mask. */ #define EPT_E_MEMTYPE_SMASK UINT64_C(0x0007) /** Bits 3-5 - Memory type shift count. */ #define EPT_E_MEMTYPE_SHIFT 3 /** Bits 3-5 - Memory type: UC (Uncacheable). */ #define EPT_E_MEMTYPE_UC (VMX_EPT_MT_UC << EPT_E_MEMTYPE_SHIFT) /** Bits 3-5 - Memory type: WC (Write Combining). */ #define EPT_E_MEMTYPE_WC (VMX_EPT_MT_WC << EPT_E_MEMTYPE_SHIFT) /** Bits 3-5 - Memory type: Invalid (2). */ #define EPT_E_MEMTYPE_INVALID_2 (VMX_EPT_MT_RSVD_2 << EPT_E_MEMTYPE_SHIFT) /** Bits 3-5 - Memory type: Invalid (3). */ #define EPT_E_MEMTYPE_INVALID_3 (VMX_EPT_MT_RSVD_3 << EPT_E_MEMTYPE_SHIFT) /** Bits 3-5 - Memory type: WT (Write Through). */ #define EPT_E_MEMTYPE_WT (VMX_EPT_MT_WT << EPT_E_MEMTYPE_SHIFT) /** Bits 3-5 - Memory type: WP (Write Protected). */ #define EPT_E_MEMTYPE_WP (VMX_EPT_MT_WP << EPT_E_MEMTYPE_SHIFT) /** Bits 3-5 - Memory type: WB (Write Back). */ #define EPT_E_MEMTYPE_WB (VMX_EPT_MT_WB << EPT_E_MEMTYPE_SHIFT) /** Bits 3-5 - Memory type: Invalid (7). */ #define EPT_E_MEMTYPE_INVALID_7 (VMX_EPT_MT_RSVD_7 << EPT_E_MEMTYPE_SHIFT) /** Bit 6 - Ignore page attribute table (leaf, MBZ). */ #define EPT_E_BIT_IGNORE_PAT 6 #define EPT_E_IGNORE_PAT RT_BIT_64(EPT_E_BIT_IGNORE_PAT) /**< @see EPT_E_BIT_IGNORE_PAT */ /** Bit 7 - Leaf entry (MBZ in PML4, ignored in PT). */ #define EPT_E_BIT_LEAF 7 #define EPT_E_LEAF RT_BIT_64(EPT_E_BIT_LEAF) /**< @see EPT_E_BIT_LEAF */ /** Bit 8 - Accessed (all levels). * @note Ignored and not written when EPTP bit 6 is 0. */ #define EPT_E_BIT_ACCESSED 8 #define EPT_E_ACCESSED RT_BIT_64(EPT_E_BIT_ACCESSED) /**< @see EPT_E_BIT_ACCESSED */ /** Bit 9 - Dirty (leaf only). * @note Ignored and not written when EPTP bit 6 is 0. */ #define EPT_E_BIT_DIRTY 9 #define EPT_E_DIRTY RT_BIT_64(EPT_E_BIT_DIRTY) /**< @see EPT_E_BIT_DIRTY */ /** Bit 10 - Executable for usermode. * @note This ignored if mode-based execution control is disabled. */ #define EPT_E_BIT_USER_EXECUTE 10 #define EPT_E_USER_EXECUTE RT_BIT_64(EPT_E_BIT_USER_EXECUTE) /**< @see EPT_E_BIT_USER_EXECUTE */ /* Bit 11 is always ignored. */ /** Bits 12-51 - Physical Page number of the next level. */ #define EPT_E_PG_MASK UINT64_C(0x000ffffffffff000) /** Bit 58 - Page-write access (leaf only, ignored). * @note Ignored if EPT page-write control is disabled. */ #define EPT_E_BIT_PAGING_WRITE 58 #define EPT_E_PAGING_WRITE RT_BIT_64(EPT_E_BIT_PAGING_WRITE) /**< @see EPT_E_BIT_PAGING_WRITE*/ /* Bit 59 is always ignored. */ /** Bit 60 - Supervisor shadow stack (leaf only, ignored). * @note Ignored if EPT bit 7 is 0. */ #define EPT_E_BIT_SUPER_SHW_STACK 60 #define EPT_E_SUPER_SHW_STACK RT_BIT_64(EPT_E_BIT_SUPER_SHW_STACK) /**< @see EPT_E_BIT_SUPER_SHW_STACK */ /** Bit 61 - Sub-page write permission (leaf only, ignored). * @note Ignored if sub-page write permission for EPT is disabled. */ #define EPT_E_BIT_SUBPAGE_WRITE_PERM 61 #define EPT_E_SUBPAGE_WRITE_PERM RT_BIT_64(EPT_E_BIT_SUBPAGE_WRITE_PERM) /**< @see EPT_E_BIT_SUBPAGE_WRITE_PERM*/ /* Bit 62 is always ignored. */ /** Bit 63 - Suppress \#VE (leaf only, ignored). * @note Ignored if EPT violation to \#VE conversion is disabled. */ #define EPT_E_BIT_SUPPRESS_VE 63 #define EPT_E_SUPPRESS_VE RT_BIT_64(EPT_E_BIT_SUPPRESS_VE) /**< @see EPT_E_BIT_SUPPRESS_VE */ /** @} */ /**@name Bit fields for common EPT attributes. @{ */ /** Read access. */ #define VMX_BF_EPT_PT_READ_SHIFT 0 #define VMX_BF_EPT_PT_READ_MASK UINT64_C(0x0000000000000001) /** Write access. */ #define VMX_BF_EPT_PT_WRITE_SHIFT 1 #define VMX_BF_EPT_PT_WRITE_MASK UINT64_C(0x0000000000000002) /** Execute access or execute access for supervisor-mode linear-addresses. */ #define VMX_BF_EPT_PT_EXECUTE_SHIFT 2 #define VMX_BF_EPT_PT_EXECUTE_MASK UINT64_C(0x0000000000000004) /** EPT memory type. */ #define VMX_BF_EPT_PT_MEMTYPE_SHIFT 3 #define VMX_BF_EPT_PT_MEMTYPE_MASK UINT64_C(0x0000000000000038) /** Ignore PAT. */ #define VMX_BF_EPT_PT_IGNORE_PAT_SHIFT 6 #define VMX_BF_EPT_PT_IGNORE_PAT_MASK UINT64_C(0x0000000000000040) /** Ignored (bit 7). */ #define VMX_BF_EPT_PT_IGN_7_SHIFT 7 #define VMX_BF_EPT_PT_IGN_7_MASK UINT64_C(0x0000000000000080) /** Accessed flag. */ #define VMX_BF_EPT_PT_ACCESSED_SHIFT 8 #define VMX_BF_EPT_PT_ACCESSED_MASK UINT64_C(0x0000000000000100) /** Dirty flag. */ #define VMX_BF_EPT_PT_DIRTY_SHIFT 9 #define VMX_BF_EPT_PT_DIRTY_MASK UINT64_C(0x0000000000000200) /** Execute access for user-mode linear addresses. */ #define VMX_BF_EPT_PT_EXECUTE_USER_SHIFT 10 #define VMX_BF_EPT_PT_EXECUTE_USER_MASK UINT64_C(0x0000000000000400) /** Ignored (bit 59:11). */ #define VMX_BF_EPT_PT_IGN_59_11_SHIFT 11 #define VMX_BF_EPT_PT_IGN_59_11_MASK UINT64_C(0x0ffffffffffff800) /** Supervisor shadow stack. */ #define VMX_BF_EPT_PT_SUPER_SHW_STACK_SHIFT 60 #define VMX_BF_EPT_PT_SUPER_SHW_STACK_MASK UINT64_C(0x1000000000000000) /** Ignored (bits 62:61). */ #define VMX_BF_EPT_PT_IGN_62_61_SHIFT 61 #define VMX_BF_EPT_PT_IGN_62_61_MASK UINT64_C(0x6000000000000000) /** Suppress \#VE. */ #define VMX_BF_EPT_PT_SUPPRESS_VE_SHIFT 63 #define VMX_BF_EPT_PT_SUPPRESS_VE_MASK UINT64_C(0x8000000000000000) RT_BF_ASSERT_COMPILE_CHECKS(VMX_BF_EPT_PT_, UINT64_C(0), UINT64_MAX, (READ, WRITE, EXECUTE, MEMTYPE, IGNORE_PAT, IGN_7, ACCESSED, DIRTY, EXECUTE_USER, IGN_59_11, SUPER_SHW_STACK, IGN_62_61, SUPPRESS_VE)); /** @} */ /** @name VMX Extended Page Tables (EPT) Structures * @{ */ /** * Number of page table entries in the EPT. (PDPTE/PDE/PTE) */ #define EPT_PG_ENTRIES X86_PG_PAE_ENTRIES /** * EPT present mask. * These are ONLY the common bits in all EPT page-table entries which does * not rely on any CPU feature. It isn't necessarily the complete mask (e.g. when * mode-based excute control is active). */ #define EPT_PRESENT_MASK (EPT_E_READ | EPT_E_WRITE | EPT_E_EXECUTE) /** * EPT Page Directory Pointer Entry. Bit view. * In accordance with the VT-x spec. * * @todo uint64_t isn't safe for bitfields (gcc pedantic warnings, and IIRC, * this did cause trouble with one compiler/version). */ typedef struct EPTPML4EBITS { /** Present bit. */ RT_GCC_EXTENSION uint64_t u1Present : 1; /** Writable bit. */ RT_GCC_EXTENSION uint64_t u1Write : 1; /** Executable bit. */ RT_GCC_EXTENSION uint64_t u1Execute : 1; /** Reserved (must be 0). */ RT_GCC_EXTENSION uint64_t u5Reserved : 5; /** Available for software. */ RT_GCC_EXTENSION uint64_t u4Available : 4; /** Physical address of the next level (PD). Restricted by maximum physical address width of the cpu. */ RT_GCC_EXTENSION uint64_t u40PhysAddr : 40; /** Available for software. */ RT_GCC_EXTENSION uint64_t u12Available : 12; } EPTPML4EBITS; AssertCompileSize(EPTPML4EBITS, 8); /** Bits 12-51 - - EPT - Physical Page number of the next level. */ #define EPT_PML4E_PG_MASK X86_PML4E_PG_MASK /** The page shift to get the PML4 index. */ #define EPT_PML4_SHIFT X86_PML4_SHIFT /** The PML4 index mask (apply to a shifted page address). */ #define EPT_PML4_MASK X86_PML4_MASK /** Bits - - EPT - PML4 MBZ mask. */ #define EPT_PML4E_MBZ_MASK UINT64_C(0x00000000000000f8) /** Mask of all possible EPT PML4E attribute bits. */ #define EPT_PML4E_ATTR_MASK (EPT_E_READ | EPT_E_WRITE | EPT_E_EXECUTE | EPT_E_ACCESSED | EPT_E_USER_EXECUTE) /** * EPT PML4E. * In accordance with the VT-x spec. */ typedef union EPTPML4E { #ifndef VBOX_WITHOUT_PAGING_BIT_FIELDS /** Normal view. */ EPTPML4EBITS n; #endif /** Unsigned integer view. */ X86PGPAEUINT u; /** 64 bit unsigned integer view. */ uint64_t au64[1]; /** 32 bit unsigned integer view. */ uint32_t au32[2]; } EPTPML4E; AssertCompileSize(EPTPML4E, 8); /** Pointer to a PML4 table entry. */ typedef EPTPML4E *PEPTPML4E; /** Pointer to a const PML4 table entry. */ typedef const EPTPML4E *PCEPTPML4E; /** * EPT PML4 Table. * In accordance with the VT-x spec. */ typedef struct EPTPML4 { EPTPML4E a[EPT_PG_ENTRIES]; } EPTPML4; AssertCompileSize(EPTPML4, 0x1000); /** Pointer to an EPT PML4 Table. */ typedef EPTPML4 *PEPTPML4; /** Pointer to a const EPT PML4 Table. */ typedef const EPTPML4 *PCEPTPML4; /** * EPT Page Directory Pointer Entry. Bit view. * In accordance with the VT-x spec. */ typedef struct EPTPDPTEBITS { /** Present bit. */ RT_GCC_EXTENSION uint64_t u1Present : 1; /** Writable bit. */ RT_GCC_EXTENSION uint64_t u1Write : 1; /** Executable bit. */ RT_GCC_EXTENSION uint64_t u1Execute : 1; /** Reserved (must be 0). */ RT_GCC_EXTENSION uint64_t u5Reserved : 5; /** Available for software. */ RT_GCC_EXTENSION uint64_t u4Available : 4; /** Physical address of the next level (PD). Restricted by maximum physical address width of the cpu. */ RT_GCC_EXTENSION uint64_t u40PhysAddr : 40; /** Available for software. */ RT_GCC_EXTENSION uint64_t u12Available : 12; } EPTPDPTEBITS; AssertCompileSize(EPTPDPTEBITS, 8); /** Bit 7 - - EPT - PDPTE maps a 1GB page. */ #define EPT_PDPTE1G_SIZE_MASK RT_BIT_64(7) /** Bits 12-51 - - EPT - Physical Page number of the next level. */ #define EPT_PDPTE_PG_MASK X86_PDPE_PG_MASK /** Bits 30-51 - - EPT - Physical Page number of the 1G large page. */ #define EPT_PDPTE1G_PG_MASK X86_PDPE1G_PG_MASK /** The page shift to get the PDPT index. */ #define EPT_PDPT_SHIFT X86_PDPT_SHIFT /** The PDPT index mask (apply to a shifted page address). */ #define EPT_PDPT_MASK X86_PDPT_MASK_AMD64 /** Bits 3-7 - - EPT - PDPTE MBZ Mask. */ #define EPT_PDPTE_MBZ_MASK UINT64_C(0x00000000000000f8) /** Bits 12-29 - - EPT - 1GB PDPTE MBZ Mask. */ #define EPT_PDPTE1G_MBZ_MASK UINT64_C(0x000000003ffff000) /** Mask of all possible EPT PDPTE (1GB) attribute bits. */ #define EPT_PDPTE1G_ATTR_MASK ( EPT_E_READ | EPT_E_WRITE | EPT_E_EXECUTE | EPT_E_MEMTYPE_MASK | EPT_E_IGNORE_PAT \ | EPT_E_ACCESSED | EPT_E_DIRTY | EPT_E_USER_EXECUTE) /** Mask of all possible EPT PDPTE attribute bits. */ #define EPT_PDPTE_ATTR_MASK (EPT_E_READ | EPT_E_WRITE | EPT_E_EXECUTE | EPT_E_ACCESSED | EPT_E_USER_EXECUTE) /** */ /** * EPT Page Directory Pointer. * In accordance with the VT-x spec. */ typedef union EPTPDPTE { #ifndef VBOX_WITHOUT_PAGING_BIT_FIELDS /** Normal view. */ EPTPDPTEBITS n; #endif /** Unsigned integer view. */ X86PGPAEUINT u; /** 64 bit unsigned integer view. */ uint64_t au64[1]; /** 32 bit unsigned integer view. */ uint32_t au32[2]; } EPTPDPTE; AssertCompileSize(EPTPDPTE, 8); /** Pointer to an EPT Page Directory Pointer Entry. */ typedef EPTPDPTE *PEPTPDPTE; /** Pointer to a const EPT Page Directory Pointer Entry. */ typedef const EPTPDPTE *PCEPTPDPTE; /** * EPT Page Directory Pointer Table. * In accordance with the VT-x spec. */ typedef struct EPTPDPT { EPTPDPTE a[EPT_PG_ENTRIES]; } EPTPDPT; AssertCompileSize(EPTPDPT, 0x1000); /** Pointer to an EPT Page Directory Pointer Table. */ typedef EPTPDPT *PEPTPDPT; /** Pointer to a const EPT Page Directory Pointer Table. */ typedef const EPTPDPT *PCEPTPDPT; /** * EPT Page Directory Table Entry. Bit view. * In accordance with the VT-x spec. */ typedef struct EPTPDEBITS { /** Present bit. */ RT_GCC_EXTENSION uint64_t u1Present : 1; /** Writable bit. */ RT_GCC_EXTENSION uint64_t u1Write : 1; /** Executable bit. */ RT_GCC_EXTENSION uint64_t u1Execute : 1; /** Reserved (must be 0). */ RT_GCC_EXTENSION uint64_t u4Reserved : 4; /** Big page (must be 0 here). */ RT_GCC_EXTENSION uint64_t u1Size : 1; /** Available for software. */ RT_GCC_EXTENSION uint64_t u4Available : 4; /** Physical address of page table. Restricted by maximum physical address width of the cpu. */ RT_GCC_EXTENSION uint64_t u40PhysAddr : 40; /** Available for software. */ RT_GCC_EXTENSION uint64_t u12Available : 12; } EPTPDEBITS; AssertCompileSize(EPTPDEBITS, 8); /** Bits 12-51 - - EPT - Physical Page number of the next level. */ #define EPT_PDE_PG_MASK X86_PDE_PAE_PG_MASK /** The page shift to get the PD index. */ #define EPT_PD_SHIFT X86_PD_PAE_SHIFT /** The PD index mask (apply to a shifted page address). */ #define EPT_PD_MASK X86_PD_PAE_MASK /** Bits 3-7 - EPT - PDE MBZ Mask. */ #define EPT_PDE_MBZ_MASK UINT64_C(0x00000000000000f8) /** Mask of all possible EPT PDE (2M) attribute bits. */ #define EPT_PDE2M_ATTR_MASK ( EPT_E_READ | EPT_E_WRITE | EPT_E_EXECUTE | EPT_E_MEMTYPE_MASK | EPT_E_IGNORE_PAT \ | EPT_E_ACCESSED | EPT_E_DIRTY | EPT_E_USER_EXECUTE) /** Mask of all possible EPT PDE attribute bits. */ #define EPT_PDE_ATTR_MASK (EPT_E_READ | EPT_E_WRITE | EPT_E_EXECUTE | EPT_E_ACCESSED | EPT_E_USER_EXECUTE) /** * EPT 2MB Page Directory Table Entry. Bit view. * In accordance with the VT-x spec. */ typedef struct EPTPDE2MBITS { /** Present bit. */ RT_GCC_EXTENSION uint64_t u1Present : 1; /** Writable bit. */ RT_GCC_EXTENSION uint64_t u1Write : 1; /** Executable bit. */ RT_GCC_EXTENSION uint64_t u1Execute : 1; /** EPT Table Memory Type. MBZ for non-leaf nodes. */ RT_GCC_EXTENSION uint64_t u3EMT : 3; /** Ignore PAT memory type */ RT_GCC_EXTENSION uint64_t u1IgnorePAT : 1; /** Big page (must be 1 here). */ RT_GCC_EXTENSION uint64_t u1Size : 1; /** Available for software. */ RT_GCC_EXTENSION uint64_t u4Available : 4; /** Reserved (must be 0). */ RT_GCC_EXTENSION uint64_t u9Reserved : 9; /** Physical address of the 2MB page. Restricted by maximum physical address width of the cpu. */ RT_GCC_EXTENSION uint64_t u31PhysAddr : 31; /** Available for software. */ RT_GCC_EXTENSION uint64_t u12Available : 12; } EPTPDE2MBITS; AssertCompileSize(EPTPDE2MBITS, 8); /** Bits 21-51 - - EPT - Physical Page number of the next level. */ #define EPT_PDE2M_PG_MASK X86_PDE2M_PAE_PG_MASK /** Bits 20-12 - - EPT - PDE 2M MBZ Mask. */ #define EPT_PDE2M_MBZ_MASK UINT64_C(0x00000000001ff000) /** * EPT Page Directory Table Entry. * In accordance with the VT-x spec. */ typedef union EPTPDE { #ifndef VBOX_WITHOUT_PAGING_BIT_FIELDS /** Normal view. */ EPTPDEBITS n; /** 2MB view (big). */ EPTPDE2MBITS b; #endif /** Unsigned integer view. */ X86PGPAEUINT u; /** 64 bit unsigned integer view. */ uint64_t au64[1]; /** 32 bit unsigned integer view. */ uint32_t au32[2]; } EPTPDE; AssertCompileSize(EPTPDE, 8); /** Pointer to an EPT Page Directory Table Entry. */ typedef EPTPDE *PEPTPDE; /** Pointer to a const EPT Page Directory Table Entry. */ typedef const EPTPDE *PCEPTPDE; /** * EPT Page Directory Table. * In accordance with the VT-x spec. */ typedef struct EPTPD { EPTPDE a[EPT_PG_ENTRIES]; } EPTPD; AssertCompileSize(EPTPD, 0x1000); /** Pointer to an EPT Page Directory Table. */ typedef EPTPD *PEPTPD; /** Pointer to a const EPT Page Directory Table. */ typedef const EPTPD *PCEPTPD; /** * EPT Page Table Entry. Bit view. * In accordance with the VT-x spec. */ typedef struct EPTPTEBITS { /** 0 - Present bit. * @remarks This is a convenience "misnomer". The bit actually indicates read access * and the CPU will consider an entry with any of the first three bits set * as present. Since all our valid entries will have this bit set, it can * be used as a present indicator and allow some code sharing. */ RT_GCC_EXTENSION uint64_t u1Present : 1; /** 1 - Writable bit. */ RT_GCC_EXTENSION uint64_t u1Write : 1; /** 2 - Executable bit. */ RT_GCC_EXTENSION uint64_t u1Execute : 1; /** 5:3 - EPT Memory Type. MBZ for non-leaf nodes. */ RT_GCC_EXTENSION uint64_t u3EMT : 3; /** 6 - Ignore PAT memory type */ RT_GCC_EXTENSION uint64_t u1IgnorePAT : 1; /** 11:7 - Available for software. */ RT_GCC_EXTENSION uint64_t u5Available : 5; /** 51:12 - Physical address of page. Restricted by maximum physical * address width of the cpu. */ RT_GCC_EXTENSION uint64_t u40PhysAddr : 40; /** 63:52 - Available for software. */ RT_GCC_EXTENSION uint64_t u12Available : 12; } EPTPTEBITS; AssertCompileSize(EPTPTEBITS, 8); /** Bits 12-51 - - EPT - Physical Page number of the next level. */ #define EPT_PTE_PG_MASK X86_PTE_PAE_PG_MASK /** The page shift to get the EPT PTE index. */ #define EPT_PT_SHIFT X86_PT_PAE_SHIFT /** The EPT PT index mask (apply to a shifted page address). */ #define EPT_PT_MASK X86_PT_PAE_MASK /** No bits - - EPT - PTE MBZ bits. */ #define EPT_PTE_MBZ_MASK UINT64_C(0x0000000000000000) /** Mask of all possible EPT PTE attribute bits. */ #define EPT_PTE_ATTR_MASK ( EPT_E_READ | EPT_E_WRITE | EPT_E_EXECUTE | EPT_E_MEMTYPE_MASK | EPT_E_IGNORE_PAT \ | EPT_E_ACCESSED | EPT_E_USER_EXECUTE) /** * EPT Page Table Entry. * In accordance with the VT-x spec. */ typedef union EPTPTE { #ifndef VBOX_WITHOUT_PAGING_BIT_FIELDS /** Normal view. */ EPTPTEBITS n; #endif /** Unsigned integer view. */ X86PGPAEUINT u; /** 64 bit unsigned integer view. */ uint64_t au64[1]; /** 32 bit unsigned integer view. */ uint32_t au32[2]; } EPTPTE; AssertCompileSize(EPTPTE, 8); /** Pointer to an EPT Page Directory Table Entry. */ typedef EPTPTE *PEPTPTE; /** Pointer to a const EPT Page Directory Table Entry. */ typedef const EPTPTE *PCEPTPTE; /** * EPT Page Table. * In accordance with the VT-x spec. */ typedef struct EPTPT { EPTPTE a[EPT_PG_ENTRIES]; } EPTPT; AssertCompileSize(EPTPT, 0x1000); /** Pointer to an extended page table. */ typedef EPTPT *PEPTPT; /** Pointer to a const extended table. */ typedef const EPTPT *PCEPTPT; /** EPTP page mask for the EPT PML4 table. */ #define EPT_EPTP_PG_MASK X86_CR3_AMD64_PAGE_MASK /** @} */ /** * VMX VPID flush types. * Valid enum members are in accordance with the VT-x spec. */ typedef enum { /** Invalidate a specific page. */ VMXTLBFLUSHVPID_INDIV_ADDR = 0, /** Invalidate one context (specific VPID). */ VMXTLBFLUSHVPID_SINGLE_CONTEXT = 1, /** Invalidate all contexts (all VPIDs). */ VMXTLBFLUSHVPID_ALL_CONTEXTS = 2, /** Invalidate a single VPID context retaining global mappings. */ VMXTLBFLUSHVPID_SINGLE_CONTEXT_RETAIN_GLOBALS = 3, /** Unsupported by VirtualBox. */ VMXTLBFLUSHVPID_NOT_SUPPORTED = 0xbad0, /** Unsupported by CPU. */ VMXTLBFLUSHVPID_NONE = 0xbad1 } VMXTLBFLUSHVPID; AssertCompileSize(VMXTLBFLUSHVPID, 4); /** Mask of all valid INVVPID flush types. */ #define VMX_INVVPID_VALID_MASK ( VMXTLBFLUSHVPID_INDIV_ADDR \ | VMXTLBFLUSHVPID_SINGLE_CONTEXT \ | VMXTLBFLUSHVPID_ALL_CONTEXTS \ | VMXTLBFLUSHVPID_SINGLE_CONTEXT_RETAIN_GLOBALS) /** * VMX EPT flush types. * @note Valid enums values are in accordance with the VT-x spec. */ typedef enum { /** Invalidate one context (specific EPT). */ VMXTLBFLUSHEPT_SINGLE_CONTEXT = 1, /* Invalidate all contexts (all EPTs) */ VMXTLBFLUSHEPT_ALL_CONTEXTS = 2, /** Unsupported by VirtualBox. */ VMXTLBFLUSHEPT_NOT_SUPPORTED = 0xbad0, /** Unsupported by CPU. */ VMXTLBFLUSHEPT_NONE = 0xbad1 } VMXTLBFLUSHEPT; AssertCompileSize(VMXTLBFLUSHEPT, 4); /** Mask of all valid INVEPT flush types. */ #define VMX_INVEPT_VALID_MASK ( VMXTLBFLUSHEPT_SINGLE_CONTEXT \ | VMXTLBFLUSHEPT_ALL_CONTEXTS) /** * VMX Posted Interrupt Descriptor. * In accordance with the VT-x spec. */ typedef struct VMXPOSTEDINTRDESC { uint32_t aVectorBitmap[8]; uint32_t fOutstandingNotification : 1; uint32_t uReserved0 : 31; uint8_t au8Reserved0[28]; } VMXPOSTEDINTRDESC; AssertCompileMemberSize(VMXPOSTEDINTRDESC, aVectorBitmap, 32); AssertCompileSize(VMXPOSTEDINTRDESC, 64); /** Pointer to a posted interrupt descriptor. */ typedef VMXPOSTEDINTRDESC *PVMXPOSTEDINTRDESC; /** Pointer to a const posted interrupt descriptor. */ typedef const VMXPOSTEDINTRDESC *PCVMXPOSTEDINTRDESC; /** * VMX VMCS revision identifier. * In accordance with the VT-x spec. */ typedef union { struct { /** Revision identifier. */ uint32_t u31RevisionId : 31; /** Whether this is a shadow VMCS. */ uint32_t fIsShadowVmcs : 1; } n; /* The unsigned integer view. */ uint32_t u; } VMXVMCSREVID; AssertCompileSize(VMXVMCSREVID, 4); /** Pointer to the VMXVMCSREVID union. */ typedef VMXVMCSREVID *PVMXVMCSREVID; /** Pointer to a const VMXVMCSREVID union. */ typedef const VMXVMCSREVID *PCVMXVMCSREVID; /** * VMX VM-exit instruction information. * In accordance with the VT-x spec. */ typedef union { /** Plain unsigned int representation. */ uint32_t u; /** INS and OUTS information. */ struct { uint32_t u7Reserved0 : 7; /** The address size; 0=16-bit, 1=32-bit, 2=64-bit, rest undefined. */ uint32_t u3AddrSize : 3; uint32_t u5Reserved1 : 5; /** The segment register (X86_SREG_XXX). */ uint32_t iSegReg : 3; uint32_t uReserved2 : 14; } StrIo; /** INVEPT, INVPCID, INVVPID information. */ struct { /** Scaling; 0=no scaling, 1=scale-by-2, 2=scale-by-4, 3=scale-by-8. */ uint32_t u2Scaling : 2; uint32_t u5Undef0 : 5; /** The address size; 0=16-bit, 1=32-bit, 2=64-bit, rest undefined. */ uint32_t u3AddrSize : 3; /** Cleared to 0. */ uint32_t u1Cleared0 : 1; uint32_t u4Undef0 : 4; /** The segment register (X86_SREG_XXX). */ uint32_t iSegReg : 3; /** The index register (X86_GREG_XXX). */ uint32_t iIdxReg : 4; /** Set if index register is invalid. */ uint32_t fIdxRegInvalid : 1; /** The base register (X86_GREG_XXX). */ uint32_t iBaseReg : 4; /** Set if base register is invalid. */ uint32_t fBaseRegInvalid : 1; /** Register 2 (X86_GREG_XXX). */ uint32_t iReg2 : 4; } Inv; /** VMCLEAR, VMPTRLD, VMPTRST, VMXON, XRSTORS, XSAVES information. */ struct { /** Scaling; 0=no scaling, 1=scale-by-2, 2=scale-by-4, 3=scale-by-8. */ uint32_t u2Scaling : 2; uint32_t u5Reserved0 : 5; /** The address size; 0=16-bit, 1=32-bit, 2=64-bit, rest undefined. */ uint32_t u3AddrSize : 3; /** Cleared to 0. */ uint32_t u1Cleared0 : 1; uint32_t u4Reserved0 : 4; /** The segment register (X86_SREG_XXX). */ uint32_t iSegReg : 3; /** The index register (X86_GREG_XXX). */ uint32_t iIdxReg : 4; /** Set if index register is invalid. */ uint32_t fIdxRegInvalid : 1; /** The base register (X86_GREG_XXX). */ uint32_t iBaseReg : 4; /** Set if base register is invalid. */ uint32_t fBaseRegInvalid : 1; /** Register 2 (X86_GREG_XXX). */ uint32_t iReg2 : 4; } VmxXsave; /** LIDT, LGDT, SIDT, SGDT information. */ struct { /** Scaling; 0=no scaling, 1=scale-by-2, 2=scale-by-4, 3=scale-by-8. */ uint32_t u2Scaling : 2; uint32_t u5Undef0 : 5; /** The address size; 0=16-bit, 1=32-bit, 2=64-bit, rest undefined. */ uint32_t u3AddrSize : 3; /** Always cleared to 0. */ uint32_t u1Cleared0 : 1; /** Operand size; 0=16-bit, 1=32-bit, undefined for 64-bit. */ uint32_t uOperandSize : 1; uint32_t u3Undef0 : 3; /** The segment register (X86_SREG_XXX). */ uint32_t iSegReg : 3; /** The index register (X86_GREG_XXX). */ uint32_t iIdxReg : 4; /** Set if index register is invalid. */ uint32_t fIdxRegInvalid : 1; /** The base register (X86_GREG_XXX). */ uint32_t iBaseReg : 4; /** Set if base register is invalid. */ uint32_t fBaseRegInvalid : 1; /** Instruction identity (VMX_INSTR_ID_XXX). */ uint32_t u2InstrId : 2; uint32_t u2Undef0 : 2; } GdtIdt; /** LLDT, LTR, SLDT, STR information. */ struct { /** Scaling; 0=no scaling, 1=scale-by-2, 2=scale-by-4, 3=scale-by-8. */ uint32_t u2Scaling : 2; uint32_t u1Undef0 : 1; /** Register 1 (X86_GREG_XXX). */ uint32_t iReg1 : 4; /** The address size; 0=16-bit, 1=32-bit, 2=64-bit, rest undefined. */ uint32_t u3AddrSize : 3; /** Memory/Register - Always cleared to 0 to indicate memory operand. */ uint32_t fIsRegOperand : 1; uint32_t u4Undef0 : 4; /** The segment register (X86_SREG_XXX). */ uint32_t iSegReg : 3; /** The index register (X86_GREG_XXX). */ uint32_t iIdxReg : 4; /** Set if index register is invalid. */ uint32_t fIdxRegInvalid : 1; /** The base register (X86_GREG_XXX). */ uint32_t iBaseReg : 4; /** Set if base register is invalid. */ uint32_t fBaseRegInvalid : 1; /** Instruction identity (VMX_INSTR_ID_XXX). */ uint32_t u2InstrId : 2; uint32_t u2Undef0 : 2; } LdtTr; /** RDRAND, RDSEED information. */ struct { uint32_t u3Undef0 : 3; /** Destination register (X86_GREG_XXX). */ uint32_t iReg1 : 4; uint32_t u4Undef0 : 4; /** Operand size; 0=16-bit, 1=32-bit, 2=64-bit, 3=unused. */ uint32_t u2OperandSize : 2; uint32_t u19Undef0 : 19; } RdrandRdseed; /** VMREAD, VMWRITE information. */ struct { /** Scaling; 0=no scaling, 1=scale-by-2, 2=scale-by-4, 3=scale-by-8. */ uint32_t u2Scaling : 2; uint32_t u1Undef0 : 1; /** Register 1 (X86_GREG_XXX). */ uint32_t iReg1 : 4; /** The address size; 0=16-bit, 1=32-bit, 2=64-bit, rest undefined. */ uint32_t u3AddrSize : 3; /** Memory or register operand. */ uint32_t fIsRegOperand : 1; /** Operand size; 0=16-bit, 1=32-bit, 2=64-bit, 3=unused. */ uint32_t u4Undef0 : 4; /** The segment register (X86_SREG_XXX). */ uint32_t iSegReg : 3; /** The index register (X86_GREG_XXX). */ uint32_t iIdxReg : 4; /** Set if index register is invalid. */ uint32_t fIdxRegInvalid : 1; /** The base register (X86_GREG_XXX). */ uint32_t iBaseReg : 4; /** Set if base register is invalid. */ uint32_t fBaseRegInvalid : 1; /** Register 2 (X86_GREG_XXX). */ uint32_t iReg2 : 4; } VmreadVmwrite; /** LOADIWKEY information. */ struct { uint32_t u2Undef0 : 3; /** First XMM register operand. */ uint32_t u4XmmReg1 : 4; uint32_t u23Undef1 : 21; /** Second XMM register operand. */ uint32_t u4XmmReg2 : 4; } LoadIwkey; /** This is a combination field of all instruction information. Note! Not all field * combinations are valid (e.g., iReg1 is undefined for memory operands) and * specialized fields are overwritten by their generic counterparts (e.g. no * instruction identity field). */ struct { /** Scaling; 0=no scaling, 1=scale-by-2, 2=scale-by-4, 3=scale-by-8. */ uint32_t u2Scaling : 2; uint32_t u1Undef0 : 1; /** Register 1 (X86_GREG_XXX). */ uint32_t iReg1 : 4; /** The address size; 0=16-bit, 1=32-bit, 2=64-bit, rest undefined. */ uint32_t u3AddrSize : 3; /** Memory/Register - Always cleared to 0 to indicate memory operand. */ uint32_t fIsRegOperand : 1; /** Operand size; 0=16-bit, 1=32-bit, 2=64-bit, 3=unused. */ uint32_t uOperandSize : 2; uint32_t u2Undef0 : 2; /** The segment register (X86_SREG_XXX). */ uint32_t iSegReg : 3; /** The index register (X86_GREG_XXX). */ uint32_t iIdxReg : 4; /** Set if index register is invalid. */ uint32_t fIdxRegInvalid : 1; /** The base register (X86_GREG_XXX). */ uint32_t iBaseReg : 4; /** Set if base register is invalid. */ uint32_t fBaseRegInvalid : 1; /** Register 2 (X86_GREG_XXX) or instruction identity. */ uint32_t iReg2 : 4; } All; } VMXEXITINSTRINFO; AssertCompileSize(VMXEXITINSTRINFO, 4); /** Pointer to a VMX VM-exit instruction info. struct. */ typedef VMXEXITINSTRINFO *PVMXEXITINSTRINFO; /** Pointer to a const VMX VM-exit instruction info. struct. */ typedef const VMXEXITINSTRINFO *PCVMXEXITINSTRINFO; /** @name VM-entry failure reported in Exit qualification. * See Intel spec. 26.7 "VM-entry failures during or after loading guest-state". * @{ */ /** No errors during VM-entry. */ #define VMX_ENTRY_FAIL_QUAL_NO_ERROR (0) /** Not used. */ #define VMX_ENTRY_FAIL_QUAL_NOT_USED (1) /** Error while loading PDPTEs. */ #define VMX_ENTRY_FAIL_QUAL_PDPTE (2) /** NMI injection when blocking-by-STI is set. */ #define VMX_ENTRY_FAIL_QUAL_NMI_INJECT (3) /** Invalid VMCS link pointer. */ #define VMX_ENTRY_FAIL_QUAL_VMCS_LINK_PTR (4) /** @} */ /** @name VMXMSRPM_XXX - VMX MSR-bitmap permissions. * These are -not- specified by Intel but used internally by VirtualBox. * @{ */ /** Guest software reads of this MSR must not cause a VM-exit. */ #define VMXMSRPM_ALLOW_RD RT_BIT(0) /** Guest software reads of this MSR must cause a VM-exit. */ #define VMXMSRPM_EXIT_RD RT_BIT(1) /** Guest software writes to this MSR must not cause a VM-exit. */ #define VMXMSRPM_ALLOW_WR RT_BIT(2) /** Guest software writes to this MSR must cause a VM-exit. */ #define VMXMSRPM_EXIT_WR RT_BIT(3) /** Guest software reads or writes of this MSR must not cause a VM-exit. */ #define VMXMSRPM_ALLOW_RD_WR (VMXMSRPM_ALLOW_RD | VMXMSRPM_ALLOW_WR) /** Guest software reads or writes of this MSR must cause a VM-exit. */ #define VMXMSRPM_EXIT_RD_WR (VMXMSRPM_EXIT_RD | VMXMSRPM_EXIT_WR) /** Mask of valid MSR read permissions. */ #define VMXMSRPM_RD_MASK (VMXMSRPM_ALLOW_RD | VMXMSRPM_EXIT_RD) /** Mask of valid MSR write permissions. */ #define VMXMSRPM_WR_MASK (VMXMSRPM_ALLOW_WR | VMXMSRPM_EXIT_WR) /** Mask of valid MSR permissions. */ #define VMXMSRPM_MASK (VMXMSRPM_RD_MASK | VMXMSRPM_WR_MASK) /** */ /** Gets whether the MSR permission is valid or not. */ #define VMXMSRPM_IS_FLAG_VALID(a_Msrpm) ( (a_Msrpm) != 0 \ && ((a_Msrpm) & ~VMXMSRPM_MASK) == 0 \ && ((a_Msrpm) & VMXMSRPM_RD_MASK) != VMXMSRPM_RD_MASK \ && ((a_Msrpm) & VMXMSRPM_WR_MASK) != VMXMSRPM_WR_MASK) /** @} */ /** * VMX MSR autoload/store slot. * In accordance with the VT-x spec. */ typedef struct VMXAUTOMSR { /** The MSR Id. */ uint32_t u32Msr; /** Reserved (MBZ). */ uint32_t u32Reserved; /** The MSR value. */ uint64_t u64Value; } VMXAUTOMSR; AssertCompileSize(VMXAUTOMSR, 16); /** Pointer to an MSR load/store element. */ typedef VMXAUTOMSR *PVMXAUTOMSR; /** Pointer to a const MSR load/store element. */ typedef const VMXAUTOMSR *PCVMXAUTOMSR; /** VMX auto load-store MSR (VMXAUTOMSR) offset mask. */ #define VMX_AUTOMSR_OFFSET_MASK 0xf /** * VMX tagged-TLB flush types. */ typedef enum { VMXTLBFLUSHTYPE_EPT, VMXTLBFLUSHTYPE_VPID, VMXTLBFLUSHTYPE_EPT_VPID, VMXTLBFLUSHTYPE_NONE } VMXTLBFLUSHTYPE; /** Pointer to a VMXTLBFLUSHTYPE enum. */ typedef VMXTLBFLUSHTYPE *PVMXTLBFLUSHTYPE; /** Pointer to a const VMXTLBFLUSHTYPE enum. */ typedef const VMXTLBFLUSHTYPE *PCVMXTLBFLUSHTYPE; /** * VMX controls MSR. * In accordance with the VT-x spec. */ typedef union { struct { /** Bits set here -must- be set in the corresponding VM-execution controls. */ uint32_t allowed0; /** Bits cleared here -must- be cleared in the corresponding VM-execution * controls. */ uint32_t allowed1; } n; uint64_t u; } VMXCTLSMSR; AssertCompileSize(VMXCTLSMSR, 8); /** Pointer to a VMXCTLSMSR union. */ typedef VMXCTLSMSR *PVMXCTLSMSR; /** Pointer to a const VMXCTLSMSR union. */ typedef const VMXCTLSMSR *PCVMXCTLSMSR; /** * VMX MSRs. */ typedef struct VMXMSRS { /** Basic information. */ uint64_t u64Basic; /** Pin-based VM-execution controls. */ VMXCTLSMSR PinCtls; /** Processor-based VM-execution controls. */ VMXCTLSMSR ProcCtls; /** Secondary processor-based VM-execution controls. */ VMXCTLSMSR ProcCtls2; /** VM-exit controls. */ VMXCTLSMSR ExitCtls; /** VM-entry controls. */ VMXCTLSMSR EntryCtls; /** True pin-based VM-execution controls. */ VMXCTLSMSR TruePinCtls; /** True processor-based VM-execution controls. */ VMXCTLSMSR TrueProcCtls; /** True VM-entry controls. */ VMXCTLSMSR TrueEntryCtls; /** True VM-exit controls. */ VMXCTLSMSR TrueExitCtls; /** Miscellaneous data. */ uint64_t u64Misc; /** CR0 fixed-0 - bits set here must be set in VMX operation. */ uint64_t u64Cr0Fixed0; /** CR0 fixed-1 - bits clear here must be clear in VMX operation. */ uint64_t u64Cr0Fixed1; /** CR4 fixed-0 - bits set here must be set in VMX operation. */ uint64_t u64Cr4Fixed0; /** CR4 fixed-1 - bits clear here must be clear in VMX operation. */ uint64_t u64Cr4Fixed1; /** VMCS enumeration. */ uint64_t u64VmcsEnum; /** VM Functions. */ uint64_t u64VmFunc; /** EPT, VPID capabilities. */ uint64_t u64EptVpidCaps; /** Tertiary processor-based VM-execution controls. */ uint64_t u64ProcCtls3; /** Secondary VM-exit controls. */ uint64_t u64ExitCtls2; /** Reserved for future. */ uint64_t a_u64Reserved[8]; } VMXMSRS; AssertCompileSizeAlignment(VMXMSRS, 8); AssertCompileSize(VMXMSRS, 224); /** Pointer to a VMXMSRS struct. */ typedef VMXMSRS *PVMXMSRS; /** Pointer to a const VMXMSRS struct. */ typedef const VMXMSRS *PCVMXMSRS; /** * LBR MSRs. */ typedef struct LBRMSRS { /** List of LastBranch-From-IP MSRs. */ uint64_t au64BranchFromIpMsr[32]; /** List of LastBranch-To-IP MSRs. */ uint64_t au64BranchToIpMsr[32]; /** The MSR containing the index to the most recent branch record. */ uint64_t uBranchTosMsr; } LBRMSRS; AssertCompileSizeAlignment(LBRMSRS, 8); /** Pointer to a VMXMSRS struct. */ typedef LBRMSRS *PLBRMSRS; /** Pointer to a const VMXMSRS struct. */ typedef const LBRMSRS *PCLBRMSRS; /** @name VMX Basic Exit Reasons. * In accordance with the VT-x spec. * Update g_aVMExitHandlers if new VM-exit reasons are added. * @{ */ /** Invalid exit code */ #define VMX_EXIT_INVALID (-1) /** Exception or non-maskable interrupt (NMI). */ #define VMX_EXIT_XCPT_OR_NMI 0 /** External interrupt. */ #define VMX_EXIT_EXT_INT 1 /** Triple fault. */ #define VMX_EXIT_TRIPLE_FAULT 2 /** INIT signal. */ #define VMX_EXIT_INIT_SIGNAL 3 /** Start-up IPI (SIPI). */ #define VMX_EXIT_SIPI 4 /** I/O system-management interrupt (SMI). */ #define VMX_EXIT_IO_SMI 5 /** Other SMI. */ #define VMX_EXIT_SMI 6 /** Interrupt window exiting. */ #define VMX_EXIT_INT_WINDOW 7 /** NMI window exiting. */ #define VMX_EXIT_NMI_WINDOW 8 /** Task switch. */ #define VMX_EXIT_TASK_SWITCH 9 /** CPUID. */ #define VMX_EXIT_CPUID 10 /** GETSEC. */ #define VMX_EXIT_GETSEC 11 /** HLT. */ #define VMX_EXIT_HLT 12 /** INVD. */ #define VMX_EXIT_INVD 13 /** INVLPG. */ #define VMX_EXIT_INVLPG 14 /** RDPMC. */ #define VMX_EXIT_RDPMC 15 /** RDTSC. */ #define VMX_EXIT_RDTSC 16 /** RSM in SMM. */ #define VMX_EXIT_RSM 17 /** VMCALL. */ #define VMX_EXIT_VMCALL 18 /** VMCLEAR. */ #define VMX_EXIT_VMCLEAR 19 /** VMLAUNCH. */ #define VMX_EXIT_VMLAUNCH 20 /** VMPTRLD. */ #define VMX_EXIT_VMPTRLD 21 /** VMPTRST. */ #define VMX_EXIT_VMPTRST 22 /** VMREAD. */ #define VMX_EXIT_VMREAD 23 /** VMRESUME. */ #define VMX_EXIT_VMRESUME 24 /** VMWRITE. */ #define VMX_EXIT_VMWRITE 25 /** VMXOFF. */ #define VMX_EXIT_VMXOFF 26 /** VMXON. */ #define VMX_EXIT_VMXON 27 /** Control-register accesses. */ #define VMX_EXIT_MOV_CRX 28 /** Debug-register accesses. */ #define VMX_EXIT_MOV_DRX 29 /** I/O instruction. */ #define VMX_EXIT_IO_INSTR 30 /** RDMSR. */ #define VMX_EXIT_RDMSR 31 /** WRMSR. */ #define VMX_EXIT_WRMSR 32 /** VM-entry failure due to invalid guest state. */ #define VMX_EXIT_ERR_INVALID_GUEST_STATE 33 /** VM-entry failure due to MSR loading. */ #define VMX_EXIT_ERR_MSR_LOAD 34 /** MWAIT. */ #define VMX_EXIT_MWAIT 36 /** VM-exit due to monitor trap flag. */ #define VMX_EXIT_MTF 37 /** MONITOR. */ #define VMX_EXIT_MONITOR 39 /** PAUSE. */ #define VMX_EXIT_PAUSE 40 /** VM-entry failure due to machine-check. */ #define VMX_EXIT_ERR_MACHINE_CHECK 41 /** TPR below threshold. Guest software executed MOV to CR8. */ #define VMX_EXIT_TPR_BELOW_THRESHOLD 43 /** VM-exit due to guest accessing physical address in the APIC-access page. */ #define VMX_EXIT_APIC_ACCESS 44 /** VM-exit due to EOI virtualization. */ #define VMX_EXIT_VIRTUALIZED_EOI 45 /** Access to GDTR/IDTR using LGDT, LIDT, SGDT or SIDT. */ #define VMX_EXIT_GDTR_IDTR_ACCESS 46 /** Access to LDTR/TR due to LLDT, LTR, SLDT, or STR. */ #define VMX_EXIT_LDTR_TR_ACCESS 47 /** EPT violation. */ #define VMX_EXIT_EPT_VIOLATION 48 /** EPT misconfiguration. */ #define VMX_EXIT_EPT_MISCONFIG 49 /** INVEPT. */ #define VMX_EXIT_INVEPT 50 /** RDTSCP. */ #define VMX_EXIT_RDTSCP 51 /** VMX-preemption timer expired. */ #define VMX_EXIT_PREEMPT_TIMER 52 /** INVVPID. */ #define VMX_EXIT_INVVPID 53 /** WBINVD. */ #define VMX_EXIT_WBINVD 54 /** XSETBV. */ #define VMX_EXIT_XSETBV 55 /** Guest completed write to virtual-APIC. */ #define VMX_EXIT_APIC_WRITE 56 /** RDRAND. */ #define VMX_EXIT_RDRAND 57 /** INVPCID. */ #define VMX_EXIT_INVPCID 58 /** VMFUNC. */ #define VMX_EXIT_VMFUNC 59 /** ENCLS. */ #define VMX_EXIT_ENCLS 60 /** RDSEED. */ #define VMX_EXIT_RDSEED 61 /** Page-modification log full. */ #define VMX_EXIT_PML_FULL 62 /** XSAVES. */ #define VMX_EXIT_XSAVES 63 /** XRSTORS. */ #define VMX_EXIT_XRSTORS 64 /** SPP-related event (SPP miss or misconfiguration). */ #define VMX_EXIT_SPP_EVENT 66 /* UMWAIT. */ #define VMX_EXIT_UMWAIT 67 /** TPAUSE. */ #define VMX_EXIT_TPAUSE 68 /** LOADIWKEY. */ #define VMX_EXIT_LOADIWKEY 69 /** The maximum VM-exit value (inclusive). */ #define VMX_EXIT_MAX (VMX_EXIT_LOADIWKEY) /** @} */ /** @name VM Instruction Errors. * In accordance with the VT-x spec. * See Intel spec. "30.4 VM Instruction Error Numbers" * @{ */ typedef enum { /** VMCALL executed in VMX root operation. */ VMXINSTRERR_VMCALL_VMXROOTMODE = 1, /** VMCLEAR with invalid physical address. */ VMXINSTRERR_VMCLEAR_INVALID_PHYSADDR = 2, /** VMCLEAR with VMXON pointer. */ VMXINSTRERR_VMCLEAR_VMXON_PTR = 3, /** VMLAUNCH with non-clear VMCS. */ VMXINSTRERR_VMLAUNCH_NON_CLEAR_VMCS = 4, /** VMRESUME with non-launched VMCS. */ VMXINSTRERR_VMRESUME_NON_LAUNCHED_VMCS = 5, /** VMRESUME after VMXOFF (VMXOFF and VMXON between VMLAUNCH and VMRESUME). */ VMXINSTRERR_VMRESUME_AFTER_VMXOFF = 6, /** VM-entry with invalid control field(s). */ VMXINSTRERR_VMENTRY_INVALID_CTLS = 7, /** VM-entry with invalid host-state field(s). */ VMXINSTRERR_VMENTRY_INVALID_HOST_STATE = 8, /** VMPTRLD with invalid physical address. */ VMXINSTRERR_VMPTRLD_INVALID_PHYSADDR = 9, /** VMPTRLD with VMXON pointer. */ VMXINSTRERR_VMPTRLD_VMXON_PTR = 10, /** VMPTRLD with incorrect VMCS revision identifier. */ VMXINSTRERR_VMPTRLD_INCORRECT_VMCS_REV = 11, /** VMREAD from unsupported VMCS component. */ VMXINSTRERR_VMREAD_INVALID_COMPONENT = 12, /** VMWRITE to unsupported VMCS component. */ VMXINSTRERR_VMWRITE_INVALID_COMPONENT = 12, /** VMWRITE to read-only VMCS component. */ VMXINSTRERR_VMWRITE_RO_COMPONENT = 13, /** VMXON executed in VMX root operation. */ VMXINSTRERR_VMXON_IN_VMXROOTMODE = 15, /** VM-entry with invalid executive-VMCS pointer. */ VMXINSTRERR_VMENTRY_EXEC_VMCS_INVALID_PTR = 16, /** VM-entry with non-launched executive VMCS. */ VMXINSTRERR_VMENTRY_EXEC_VMCS_NON_LAUNCHED = 17, /** VM-entry with executive-VMCS pointer not VMXON pointer. */ VMXINSTRERR_VMENTRY_EXEC_VMCS_PTR = 18, /** VMCALL with non-clear VMCS. */ VMXINSTRERR_VMCALL_NON_CLEAR_VMCS = 19, /** VMCALL with invalid VM-exit control fields. */ VMXINSTRERR_VMCALL_INVALID_EXITCTLS = 20, /** VMCALL with incorrect MSEG revision identifier. */ VMXINSTRERR_VMCALL_INVALID_MSEG_ID = 22, /** VMXOFF under dual-monitor treatment of SMIs and SMM. */ VMXINSTRERR_VMXOFF_DUAL_MON = 23, /** VMCALL with invalid SMM-monitor features. */ VMXINSTRERR_VMCALL_INVALID_SMMCTLS = 24, /** VM-entry with invalid VM-execution control fields in executive VMCS. */ VMXINSTRERR_VMENTRY_EXEC_VMCS_INVALID_CTLS = 25, /** VM-entry with events blocked by MOV SS. */ VMXINSTRERR_VMENTRY_BLOCK_MOVSS = 26, /** Invalid operand to INVEPT/INVVPID. */ VMXINSTRERR_INVEPT_INVVPID_INVALID_OPERAND = 28 } VMXINSTRERR; /** @} */ /** @name VMX abort reasons. * In accordance with the VT-x spec. * See Intel spec. "27.7 VMX Aborts". * Update HMGetVmxAbortDesc() if new reasons are added. * @{ */ typedef enum { /** None - don't use this / uninitialized value. */ VMXABORT_NONE = 0, /** VMX abort caused during saving of guest MSRs. */ VMXABORT_SAVE_GUEST_MSRS = 1, /** VMX abort caused during host PDPTE checks. */ VMXBOART_HOST_PDPTE = 2, /** VMX abort caused due to current VMCS being corrupted. */ VMXABORT_CURRENT_VMCS_CORRUPT = 3, /** VMX abort caused during loading of host MSRs. */ VMXABORT_LOAD_HOST_MSR = 4, /** VMX abort caused due to a machine-check exception during VM-exit. */ VMXABORT_MACHINE_CHECK_XCPT = 5, /** VMX abort caused due to invalid return from long mode. */ VMXABORT_HOST_NOT_IN_LONG_MODE = 6, /* Type size hack. */ VMXABORT_32BIT_HACK = 0x7fffffff } VMXABORT; AssertCompileSize(VMXABORT, 4); /** @} */ /** @name VMX MSR - Basic VMX information. * @{ */ /** VMCS (and related regions) memory type - Uncacheable. */ #define VMX_BASIC_MEM_TYPE_UC 0 /** VMCS (and related regions) memory type - Write back. */ #define VMX_BASIC_MEM_TYPE_WB 6 /** Width of physical addresses used for VMCS and associated memory regions * (1=32-bit, 0=processor's physical address width). */ #define VMX_BASIC_PHYSADDR_WIDTH_32BIT RT_BIT_64(48) /** Bit fields for MSR_IA32_VMX_BASIC. */ /** VMCS revision identifier used by the processor. */ #define VMX_BF_BASIC_VMCS_ID_SHIFT 0 #define VMX_BF_BASIC_VMCS_ID_MASK UINT64_C(0x000000007fffffff) /** Bit 31 is reserved and RAZ. */ #define VMX_BF_BASIC_RSVD_32_SHIFT 31 #define VMX_BF_BASIC_RSVD_32_MASK UINT64_C(0x0000000080000000) /** VMCS size in bytes. */ #define VMX_BF_BASIC_VMCS_SIZE_SHIFT 32 #define VMX_BF_BASIC_VMCS_SIZE_MASK UINT64_C(0x00001fff00000000) /** Bits 45:47 are reserved. */ #define VMX_BF_BASIC_RSVD_45_47_SHIFT 45 #define VMX_BF_BASIC_RSVD_45_47_MASK UINT64_C(0x0000e00000000000) /** Width of physical addresses used for the VMCS and associated memory regions * (always 0 on CPUs that support Intel 64 architecture). */ #define VMX_BF_BASIC_PHYSADDR_WIDTH_SHIFT 48 #define VMX_BF_BASIC_PHYSADDR_WIDTH_MASK UINT64_C(0x0001000000000000) /** Dual-monitor treatment of SMI and SMM supported. */ #define VMX_BF_BASIC_DUAL_MON_SHIFT 49 #define VMX_BF_BASIC_DUAL_MON_MASK UINT64_C(0x0002000000000000) /** Memory type that must be used for the VMCS and associated memory regions. */ #define VMX_BF_BASIC_VMCS_MEM_TYPE_SHIFT 50 #define VMX_BF_BASIC_VMCS_MEM_TYPE_MASK UINT64_C(0x003c000000000000) /** VM-exit instruction information for INS/OUTS. */ #define VMX_BF_BASIC_VMCS_INS_OUTS_SHIFT 54 #define VMX_BF_BASIC_VMCS_INS_OUTS_MASK UINT64_C(0x0040000000000000) /** Whether 'true' VMX controls MSRs are supported for handling of default1 class * bits in VMX control MSRs. */ #define VMX_BF_BASIC_TRUE_CTLS_SHIFT 55 #define VMX_BF_BASIC_TRUE_CTLS_MASK UINT64_C(0x0080000000000000) /** Whether VM-entry can delivery error code for all hardware exception vectors. */ #define VMX_BF_BASIC_XCPT_ERRCODE_SHIFT 56 #define VMX_BF_BASIC_XCPT_ERRCODE_MASK UINT64_C(0x0100000000000000) /** Bits 57:63 are reserved and RAZ. */ #define VMX_BF_BASIC_RSVD_56_63_SHIFT 57 #define VMX_BF_BASIC_RSVD_56_63_MASK UINT64_C(0xfe00000000000000) RT_BF_ASSERT_COMPILE_CHECKS(VMX_BF_BASIC_, UINT64_C(0), UINT64_MAX, (VMCS_ID, RSVD_32, VMCS_SIZE, RSVD_45_47, PHYSADDR_WIDTH, DUAL_MON, VMCS_MEM_TYPE, VMCS_INS_OUTS, TRUE_CTLS, XCPT_ERRCODE, RSVD_56_63)); /** @} */ /** @name VMX MSR - Miscellaneous data. * @{ */ /** Whether VM-exit stores EFER.LMA into the "IA32e mode guest" field. */ #define VMX_MISC_EXIT_SAVE_EFER_LMA RT_BIT(5) /** Whether Intel PT is supported in VMX operation. */ #define VMX_MISC_INTEL_PT RT_BIT(14) /** Whether VMWRITE to any valid VMCS field incl. read-only fields, otherwise * VMWRITE cannot modify read-only VM-exit information fields. */ #define VMX_MISC_VMWRITE_ALL RT_BIT(29) /** Whether VM-entry can inject software interrupts, INT1 (ICEBP) with 0-length * instructions. */ #define VMX_MISC_ENTRY_INJECT_SOFT_INT RT_BIT(30) /** Maximum number of MSRs in the auto-load/store MSR areas, (n+1) * 512. */ #define VMX_MISC_MAX_MSRS(a_MiscMsr) (512 * (RT_BF_GET((a_MiscMsr), VMX_BF_MISC_MAX_MSRS) + 1)) /** Maximum CR3-target count supported by the CPU. */ #define VMX_MISC_CR3_TARGET_COUNT(a_MiscMsr) (((a) >> 16) & 0xff) /** Bit fields for MSR_IA32_VMX_MISC. */ /** Relationship between the preemption timer and tsc. */ #define VMX_BF_MISC_PREEMPT_TIMER_TSC_SHIFT 0 #define VMX_BF_MISC_PREEMPT_TIMER_TSC_MASK UINT64_C(0x000000000000001f) /** Whether VM-exit stores EFER.LMA into the "IA32e mode guest" field. */ #define VMX_BF_MISC_EXIT_SAVE_EFER_LMA_SHIFT 5 #define VMX_BF_MISC_EXIT_SAVE_EFER_LMA_MASK UINT64_C(0x0000000000000020) /** Activity states supported by the implementation. */ #define VMX_BF_MISC_ACTIVITY_STATES_SHIFT 6 #define VMX_BF_MISC_ACTIVITY_STATES_MASK UINT64_C(0x00000000000001c0) /** Bits 9:13 is reserved and RAZ. */ #define VMX_BF_MISC_RSVD_9_13_SHIFT 9 #define VMX_BF_MISC_RSVD_9_13_MASK UINT64_C(0x0000000000003e00) /** Whether Intel PT (Processor Trace) can be used in VMX operation. */ #define VMX_BF_MISC_INTEL_PT_SHIFT 14 #define VMX_BF_MISC_INTEL_PT_MASK UINT64_C(0x0000000000004000) /** Whether RDMSR can be used to read IA32_SMBASE MSR in SMM. */ #define VMX_BF_MISC_SMM_READ_SMBASE_MSR_SHIFT 15 #define VMX_BF_MISC_SMM_READ_SMBASE_MSR_MASK UINT64_C(0x0000000000008000) /** Number of CR3 target values supported by the processor. (0-256) */ #define VMX_BF_MISC_CR3_TARGET_SHIFT 16 #define VMX_BF_MISC_CR3_TARGET_MASK UINT64_C(0x0000000001ff0000) /** Maximum number of MSRs in the VMCS. */ #define VMX_BF_MISC_MAX_MSRS_SHIFT 25 #define VMX_BF_MISC_MAX_MSRS_MASK UINT64_C(0x000000000e000000) /** Whether IA32_SMM_MONITOR_CTL MSR can be modified to allow VMXOFF to block * SMIs. */ #define VMX_BF_MISC_VMXOFF_BLOCK_SMI_SHIFT 28 #define VMX_BF_MISC_VMXOFF_BLOCK_SMI_MASK UINT64_C(0x0000000010000000) /** Whether VMWRITE to any valid VMCS field incl. read-only fields, otherwise * VMWRITE cannot modify read-only VM-exit information fields. */ #define VMX_BF_MISC_VMWRITE_ALL_SHIFT 29 #define VMX_BF_MISC_VMWRITE_ALL_MASK UINT64_C(0x0000000020000000) /** Whether VM-entry can inject software interrupts, INT1 (ICEBP) with 0-length * instructions. */ #define VMX_BF_MISC_ENTRY_INJECT_SOFT_INT_SHIFT 30 #define VMX_BF_MISC_ENTRY_INJECT_SOFT_INT_MASK UINT64_C(0x0000000040000000) /** Bit 31 is reserved and RAZ. */ #define VMX_BF_MISC_RSVD_31_SHIFT 31 #define VMX_BF_MISC_RSVD_31_MASK UINT64_C(0x0000000080000000) /** 32-bit MSEG revision ID used by the processor. */ #define VMX_BF_MISC_MSEG_ID_SHIFT 32 #define VMX_BF_MISC_MSEG_ID_MASK UINT64_C(0xffffffff00000000) RT_BF_ASSERT_COMPILE_CHECKS(VMX_BF_MISC_, UINT64_C(0), UINT64_MAX, (PREEMPT_TIMER_TSC, EXIT_SAVE_EFER_LMA, ACTIVITY_STATES, RSVD_9_13, INTEL_PT, SMM_READ_SMBASE_MSR, CR3_TARGET, MAX_MSRS, VMXOFF_BLOCK_SMI, VMWRITE_ALL, ENTRY_INJECT_SOFT_INT, RSVD_31, MSEG_ID)); /** @} */ /** @name VMX MSR - VMCS enumeration. * Bit fields for MSR_IA32_VMX_VMCS_ENUM. * @{ */ /** Bit 0 is reserved and RAZ. */ #define VMX_BF_VMCS_ENUM_RSVD_0_SHIFT 0 #define VMX_BF_VMCS_ENUM_RSVD_0_MASK UINT64_C(0x0000000000000001) /** Highest index value used in VMCS field encoding. */ #define VMX_BF_VMCS_ENUM_HIGHEST_IDX_SHIFT 1 #define VMX_BF_VMCS_ENUM_HIGHEST_IDX_MASK UINT64_C(0x00000000000003fe) /** Bit 10:63 is reserved and RAZ. */ #define VMX_BF_VMCS_ENUM_RSVD_10_63_SHIFT 10 #define VMX_BF_VMCS_ENUM_RSVD_10_63_MASK UINT64_C(0xfffffffffffffc00) RT_BF_ASSERT_COMPILE_CHECKS(VMX_BF_VMCS_ENUM_, UINT64_C(0), UINT64_MAX, (RSVD_0, HIGHEST_IDX, RSVD_10_63)); /** @} */ /** @name VMX MSR - VM Functions. * Bit fields for MSR_IA32_VMX_VMFUNC. * @{ */ /** EPTP-switching function changes the value of the EPTP to one chosen from the EPTP list. */ #define VMX_BF_VMFUNC_EPTP_SWITCHING_SHIFT 0 #define VMX_BF_VMFUNC_EPTP_SWITCHING_MASK UINT64_C(0x0000000000000001) /** Bits 1:63 are reserved and RAZ. */ #define VMX_BF_VMFUNC_RSVD_1_63_SHIFT 1 #define VMX_BF_VMFUNC_RSVD_1_63_MASK UINT64_C(0xfffffffffffffffe) RT_BF_ASSERT_COMPILE_CHECKS(VMX_BF_VMFUNC_, UINT64_C(0), UINT64_MAX, (EPTP_SWITCHING, RSVD_1_63)); /** @} */ /** @name VMX MSR - EPT/VPID capabilities. * @{ */ /** Supports execute-only translations by EPT. */ #define MSR_IA32_VMX_EPT_VPID_CAP_RWX_X_ONLY RT_BIT_64(0) /** Supports page-walk length of 4. */ #define MSR_IA32_VMX_EPT_VPID_CAP_PAGE_WALK_LENGTH_4 RT_BIT_64(6) /** Supports page-walk length of 5. */ #define MSR_IA32_VMX_EPT_VPID_CAP_PAGE_WALK_LENGTH_5 RT_BIT_64(7) /** Supports EPT paging-structure memory type to be uncacheable. */ #define MSR_IA32_VMX_EPT_VPID_CAP_MEMTYPE_UC RT_BIT_64(8) /** Supports EPT paging structure memory type to be write-back. */ #define MSR_IA32_VMX_EPT_VPID_CAP_MEMTYPE_WB RT_BIT_64(14) /** Supports EPT PDE to map a 2 MB page. */ #define MSR_IA32_VMX_EPT_VPID_CAP_PDE_2M RT_BIT_64(16) /** Supports EPT PDPTE to map a 1 GB page. */ #define MSR_IA32_VMX_EPT_VPID_CAP_PDPTE_1G RT_BIT_64(17) /** Supports INVEPT instruction. */ #define MSR_IA32_VMX_EPT_VPID_CAP_INVEPT RT_BIT_64(20) /** Supports accessed and dirty flags for EPT. */ #define MSR_IA32_VMX_EPT_VPID_CAP_ACCESS_DIRTY RT_BIT_64(21) /** Supports advanced VM-exit info. for EPT violations. */ #define MSR_IA32_VMX_EPT_VPID_CAP_ADVEXITINFO_EPT_VIOLATION RT_BIT_64(22) /** Supports supervisor shadow-stack control. */ #define MSR_IA32_VMX_EPT_VPID_CAP_SUPER_SHW_STACK RT_BIT_64(23) /** Supports single-context INVEPT type. */ #define MSR_IA32_VMX_EPT_VPID_CAP_INVEPT_SINGLE_CONTEXT RT_BIT_64(25) /** Supports all-context INVEPT type. */ #define MSR_IA32_VMX_EPT_VPID_CAP_INVEPT_ALL_CONTEXTS RT_BIT_64(26) /** Supports INVVPID instruction. */ #define MSR_IA32_VMX_EPT_VPID_CAP_INVVPID RT_BIT_64(32) /** Supports individual-address INVVPID type. */ #define MSR_IA32_VMX_EPT_VPID_CAP_INVVPID_INDIV_ADDR RT_BIT_64(40) /** Supports single-context INVVPID type. */ #define MSR_IA32_VMX_EPT_VPID_CAP_INVVPID_SINGLE_CONTEXT RT_BIT_64(41) /** Supports all-context INVVPID type. */ #define MSR_IA32_VMX_EPT_VPID_CAP_INVVPID_ALL_CONTEXTS RT_BIT_64(42) /** Supports singe-context-retaining-globals INVVPID type. */ #define MSR_IA32_VMX_EPT_VPID_CAP_INVVPID_SINGLE_CONTEXT_RETAIN_GLOBALS RT_BIT_64(43) /** Bit fields for MSR_IA32_VMX_EPT_VPID_CAP. */ #define VMX_BF_EPT_VPID_CAP_EXEC_ONLY_SHIFT 0 #define VMX_BF_EPT_VPID_CAP_EXEC_ONLY_MASK UINT64_C(0x0000000000000001) #define VMX_BF_EPT_VPID_CAP_RSVD_1_5_SHIFT 1 #define VMX_BF_EPT_VPID_CAP_RSVD_1_5_MASK UINT64_C(0x000000000000003e) #define VMX_BF_EPT_VPID_CAP_PAGE_WALK_LENGTH_4_SHIFT 6 #define VMX_BF_EPT_VPID_CAP_PAGE_WALK_LENGTH_4_MASK UINT64_C(0x0000000000000040) #define VMX_BF_EPT_VPID_CAP_RSVD_7_SHIFT 7 #define VMX_BF_EPT_VPID_CAP_RSVD_7_MASK UINT64_C(0x0000000000000080) #define VMX_BF_EPT_VPID_CAP_MEMTYPE_UC_SHIFT 8 #define VMX_BF_EPT_VPID_CAP_MEMTYPE_UC_MASK UINT64_C(0x0000000000000100) #define VMX_BF_EPT_VPID_CAP_RSVD_9_13_SHIFT 9 #define VMX_BF_EPT_VPID_CAP_RSVD_9_13_MASK UINT64_C(0x0000000000003e00) #define VMX_BF_EPT_VPID_CAP_MEMTYPE_WB_SHIFT 14 #define VMX_BF_EPT_VPID_CAP_MEMTYPE_WB_MASK UINT64_C(0x0000000000004000) #define VMX_BF_EPT_VPID_CAP_RSVD_15_SHIFT 15 #define VMX_BF_EPT_VPID_CAP_RSVD_15_MASK UINT64_C(0x0000000000008000) #define VMX_BF_EPT_VPID_CAP_PDE_2M_SHIFT 16 #define VMX_BF_EPT_VPID_CAP_PDE_2M_MASK UINT64_C(0x0000000000010000) #define VMX_BF_EPT_VPID_CAP_PDPTE_1G_SHIFT 17 #define VMX_BF_EPT_VPID_CAP_PDPTE_1G_MASK UINT64_C(0x0000000000020000) #define VMX_BF_EPT_VPID_CAP_RSVD_18_19_SHIFT 18 #define VMX_BF_EPT_VPID_CAP_RSVD_18_19_MASK UINT64_C(0x00000000000c0000) #define VMX_BF_EPT_VPID_CAP_INVEPT_SHIFT 20 #define VMX_BF_EPT_VPID_CAP_INVEPT_MASK UINT64_C(0x0000000000100000) #define VMX_BF_EPT_VPID_CAP_ACCESS_DIRTY_SHIFT 21 #define VMX_BF_EPT_VPID_CAP_ACCESS_DIRTY_MASK UINT64_C(0x0000000000200000) #define VMX_BF_EPT_VPID_CAP_ADVEXITINFO_EPT_VIOLATION_SHIFT 22 #define VMX_BF_EPT_VPID_CAP_ADVEXITINFO_EPT_VIOLATION_MASK UINT64_C(0x0000000000400000) #define VMX_BF_EPT_VPID_CAP_SUPER_SHW_STACK_SHIFT 23 #define VMX_BF_EPT_VPID_CAP_SUPER_SHW_STACK_MASK UINT64_C(0x0000000000800000) #define VMX_BF_EPT_VPID_CAP_RSVD_24_SHIFT 24 #define VMX_BF_EPT_VPID_CAP_RSVD_24_MASK UINT64_C(0x0000000001000000) #define VMX_BF_EPT_VPID_CAP_INVEPT_SINGLE_CTX_SHIFT 25 #define VMX_BF_EPT_VPID_CAP_INVEPT_SINGLE_CTX_MASK UINT64_C(0x0000000002000000) #define VMX_BF_EPT_VPID_CAP_INVEPT_ALL_CTX_SHIFT 26 #define VMX_BF_EPT_VPID_CAP_INVEPT_ALL_CTX_MASK UINT64_C(0x0000000004000000) #define VMX_BF_EPT_VPID_CAP_RSVD_27_31_SHIFT 27 #define VMX_BF_EPT_VPID_CAP_RSVD_27_31_MASK UINT64_C(0x00000000f8000000) #define VMX_BF_EPT_VPID_CAP_INVVPID_SHIFT 32 #define VMX_BF_EPT_VPID_CAP_INVVPID_MASK UINT64_C(0x0000000100000000) #define VMX_BF_EPT_VPID_CAP_RSVD_33_39_SHIFT 33 #define VMX_BF_EPT_VPID_CAP_RSVD_33_39_MASK UINT64_C(0x000000fe00000000) #define VMX_BF_EPT_VPID_CAP_INVVPID_INDIV_ADDR_SHIFT 40 #define VMX_BF_EPT_VPID_CAP_INVVPID_INDIV_ADDR_MASK UINT64_C(0x0000010000000000) #define VMX_BF_EPT_VPID_CAP_INVVPID_SINGLE_CTX_SHIFT 41 #define VMX_BF_EPT_VPID_CAP_INVVPID_SINGLE_CTX_MASK UINT64_C(0x0000020000000000) #define VMX_BF_EPT_VPID_CAP_INVVPID_ALL_CTX_SHIFT 42 #define VMX_BF_EPT_VPID_CAP_INVVPID_ALL_CTX_MASK UINT64_C(0x0000040000000000) #define VMX_BF_EPT_VPID_CAP_INVVPID_SINGLE_CTX_RETAIN_GLOBALS_SHIFT 43 #define VMX_BF_EPT_VPID_CAP_INVVPID_SINGLE_CTX_RETAIN_GLOBALS_MASK UINT64_C(0x0000080000000000) #define VMX_BF_EPT_VPID_CAP_RSVD_44_63_SHIFT 44 #define VMX_BF_EPT_VPID_CAP_RSVD_44_63_MASK UINT64_C(0xfffff00000000000) RT_BF_ASSERT_COMPILE_CHECKS(VMX_BF_EPT_VPID_CAP_, UINT64_C(0), UINT64_MAX, (EXEC_ONLY, RSVD_1_5, PAGE_WALK_LENGTH_4, RSVD_7, MEMTYPE_UC, RSVD_9_13, MEMTYPE_WB, RSVD_15, PDE_2M, PDPTE_1G, RSVD_18_19, INVEPT, ACCESS_DIRTY, ADVEXITINFO_EPT_VIOLATION, SUPER_SHW_STACK, RSVD_24, INVEPT_SINGLE_CTX, INVEPT_ALL_CTX, RSVD_27_31, INVVPID, RSVD_33_39, INVVPID_INDIV_ADDR, INVVPID_SINGLE_CTX, INVVPID_ALL_CTX, INVVPID_SINGLE_CTX_RETAIN_GLOBALS, RSVD_44_63)); /** @} */ /** @name Extended Page Table Pointer (EPTP) * In accordance with the VT-x spec. * See Intel spec. 23.6.11 "Extended-Page-Table Pointer (EPTP)". * @{ */ /** EPTP memory type: Uncachable. */ #define VMX_EPTP_MEMTYPE_UC 0 /** EPTP memory type: Write Back. */ #define VMX_EPTP_MEMTYPE_WB 6 /** Page-walk length for PML4 (4-level paging). */ #define VMX_EPTP_PAGE_WALK_LENGTH_4 3 /** Bit fields for EPTP. */ #define VMX_BF_EPTP_MEMTYPE_SHIFT 0 #define VMX_BF_EPTP_MEMTYPE_MASK UINT64_C(0x0000000000000007) #define VMX_BF_EPTP_PAGE_WALK_LENGTH_SHIFT 3 #define VMX_BF_EPTP_PAGE_WALK_LENGTH_MASK UINT64_C(0x0000000000000038) #define VMX_BF_EPTP_ACCESS_DIRTY_SHIFT 6 #define VMX_BF_EPTP_ACCESS_DIRTY_MASK UINT64_C(0x0000000000000040) #define VMX_BF_EPTP_SUPER_SHW_STACK_SHIFT 7 #define VMX_BF_EPTP_SUPER_SHW_STACK_MASK UINT64_C(0x0000000000000080) #define VMX_BF_EPTP_RSVD_8_11_SHIFT 8 #define VMX_BF_EPTP_RSVD_8_11_MASK UINT64_C(0x0000000000000f00) #define VMX_BF_EPTP_PML4_TABLE_ADDR_SHIFT 12 #define VMX_BF_EPTP_PML4_TABLE_ADDR_MASK UINT64_C(0xfffffffffffff000) RT_BF_ASSERT_COMPILE_CHECKS(VMX_BF_EPTP_, UINT64_C(0), UINT64_MAX, (MEMTYPE, PAGE_WALK_LENGTH, ACCESS_DIRTY, SUPER_SHW_STACK, RSVD_8_11, PML4_TABLE_ADDR)); /* Mask of valid EPTP bits sans physically non-addressable bits. */ #define VMX_EPTP_VALID_MASK ( VMX_BF_EPTP_MEMTYPE_MASK \ | VMX_BF_EPTP_PAGE_WALK_LENGTH_MASK \ | VMX_BF_EPTP_ACCESS_DIRTY_MASK \ | VMX_BF_EPTP_SUPER_SHW_STACK_MASK \ | VMX_BF_EPTP_PML4_TABLE_ADDR_MASK) /** @} */ /** @name VMCS fields and encoding. * * When adding a new field: * - Always add it to g_aVmcsFields. * - Consider if it needs to be added to VMXVVMCS. * @{ */ /** 16-bit control fields. */ #define VMX_VMCS16_VPID 0x0000 #define VMX_VMCS16_POSTED_INT_NOTIFY_VECTOR 0x0002 #define VMX_VMCS16_EPTP_INDEX 0x0004 #define VMX_VMCS16_HLAT_PREFIX_SIZE 0x0006 #define VMX_VMCS16_LAST_PID_PTR_INDEX 0x0008 /** 16-bit guest-state fields. */ #define VMX_VMCS16_GUEST_ES_SEL 0x0800 #define VMX_VMCS16_GUEST_CS_SEL 0x0802 #define VMX_VMCS16_GUEST_SS_SEL 0x0804 #define VMX_VMCS16_GUEST_DS_SEL 0x0806 #define VMX_VMCS16_GUEST_FS_SEL 0x0808 #define VMX_VMCS16_GUEST_GS_SEL 0x080a #define VMX_VMCS16_GUEST_LDTR_SEL 0x080c #define VMX_VMCS16_GUEST_TR_SEL 0x080e #define VMX_VMCS16_GUEST_INTR_STATUS 0x0810 #define VMX_VMCS16_GUEST_PML_INDEX 0x0812 #define VMX_VMCS16_GUEST_UINV 0x0814 /** 16-bits host-state fields. */ #define VMX_VMCS16_HOST_ES_SEL 0x0c00 #define VMX_VMCS16_HOST_CS_SEL 0x0c02 #define VMX_VMCS16_HOST_SS_SEL 0x0c04 #define VMX_VMCS16_HOST_DS_SEL 0x0c06 #define VMX_VMCS16_HOST_FS_SEL 0x0c08 #define VMX_VMCS16_HOST_GS_SEL 0x0c0a #define VMX_VMCS16_HOST_TR_SEL 0x0c0c /** 64-bit control fields. */ #define VMX_VMCS64_CTRL_IO_BITMAP_A_FULL 0x2000 #define VMX_VMCS64_CTRL_IO_BITMAP_A_HIGH 0x2001 #define VMX_VMCS64_CTRL_IO_BITMAP_B_FULL 0x2002 #define VMX_VMCS64_CTRL_IO_BITMAP_B_HIGH 0x2003 #define VMX_VMCS64_CTRL_MSR_BITMAP_FULL 0x2004 #define VMX_VMCS64_CTRL_MSR_BITMAP_HIGH 0x2005 #define VMX_VMCS64_CTRL_EXIT_MSR_STORE_FULL 0x2006 #define VMX_VMCS64_CTRL_EXIT_MSR_STORE_HIGH 0x2007 #define VMX_VMCS64_CTRL_EXIT_MSR_LOAD_FULL 0x2008 #define VMX_VMCS64_CTRL_EXIT_MSR_LOAD_HIGH 0x2009 #define VMX_VMCS64_CTRL_ENTRY_MSR_LOAD_FULL 0x200a #define VMX_VMCS64_CTRL_ENTRY_MSR_LOAD_HIGH 0x200b #define VMX_VMCS64_CTRL_EXEC_VMCS_PTR_FULL 0x200c #define VMX_VMCS64_CTRL_EXEC_VMCS_PTR_HIGH 0x200d #define VMX_VMCS64_CTRL_EXEC_PML_ADDR_FULL 0x200e #define VMX_VMCS64_CTRL_EXEC_PML_ADDR_HIGH 0x200f #define VMX_VMCS64_CTRL_TSC_OFFSET_FULL 0x2010 #define VMX_VMCS64_CTRL_TSC_OFFSET_HIGH 0x2011 #define VMX_VMCS64_CTRL_VIRT_APIC_PAGEADDR_FULL 0x2012 #define VMX_VMCS64_CTRL_VIRT_APIC_PAGEADDR_HIGH 0x2013 #define VMX_VMCS64_CTRL_APIC_ACCESSADDR_FULL 0x2014 #define VMX_VMCS64_CTRL_APIC_ACCESSADDR_HIGH 0x2015 #define VMX_VMCS64_CTRL_POSTED_INTR_DESC_FULL 0x2016 #define VMX_VMCS64_CTRL_POSTED_INTR_DESC_HIGH 0x2017 #define VMX_VMCS64_CTRL_VMFUNC_CTRLS_FULL 0x2018 #define VMX_VMCS64_CTRL_VMFUNC_CTRLS_HIGH 0x2019 #define VMX_VMCS64_CTRL_EPTP_FULL 0x201a #define VMX_VMCS64_CTRL_EPTP_HIGH 0x201b #define VMX_VMCS64_CTRL_EOI_BITMAP_0_FULL 0x201c #define VMX_VMCS64_CTRL_EOI_BITMAP_0_HIGH 0x201d #define VMX_VMCS64_CTRL_EOI_BITMAP_1_FULL 0x201e #define VMX_VMCS64_CTRL_EOI_BITMAP_1_HIGH 0x201f #define VMX_VMCS64_CTRL_EOI_BITMAP_2_FULL 0x2020 #define VMX_VMCS64_CTRL_EOI_BITMAP_2_HIGH 0x2021 #define VMX_VMCS64_CTRL_EOI_BITMAP_3_FULL 0x2022 #define VMX_VMCS64_CTRL_EOI_BITMAP_3_HIGH 0x2023 #define VMX_VMCS64_CTRL_EPTP_LIST_FULL 0x2024 #define VMX_VMCS64_CTRL_EPTP_LIST_HIGH 0x2025 #define VMX_VMCS64_CTRL_VMREAD_BITMAP_FULL 0x2026 #define VMX_VMCS64_CTRL_VMREAD_BITMAP_HIGH 0x2027 #define VMX_VMCS64_CTRL_VMWRITE_BITMAP_FULL 0x2028 #define VMX_VMCS64_CTRL_VMWRITE_BITMAP_HIGH 0x2029 #define VMX_VMCS64_CTRL_VE_XCPT_INFO_ADDR_FULL 0x202a #define VMX_VMCS64_CTRL_VE_XCPT_INFO_ADDR_HIGH 0x202b #define VMX_VMCS64_CTRL_XSS_EXITING_BITMAP_FULL 0x202c #define VMX_VMCS64_CTRL_XSS_EXITING_BITMAP_HIGH 0x202d #define VMX_VMCS64_CTRL_ENCLS_EXITING_BITMAP_FULL 0x202e #define VMX_VMCS64_CTRL_ENCLS_EXITING_BITMAP_HIGH 0x202f #define VMX_VMCS64_CTRL_SPPTP_FULL 0x2030 #define VMX_VMCS64_CTRL_SPPTP_HIGH 0x2031 #define VMX_VMCS64_CTRL_TSC_MULTIPLIER_FULL 0x2032 #define VMX_VMCS64_CTRL_TSC_MULTIPLIER_HIGH 0x2033 #define VMX_VMCS64_CTRL_PROC_EXEC3_FULL 0x2034 #define VMX_VMCS64_CTRL_PROC_EXEC3_HIGH 0x2035 #define VMX_VMCS64_CTRL_ENCLV_EXITING_BITMAP_FULL 0x2036 #define VMX_VMCS64_CTRL_ENCLV_EXITING_BITMAP_HIGH 0x2037 #define VMX_VMCS64_CTRL_PCONFIG_EXITING_BITMAP_FULL 0x203e #define VMX_VMCS64_CTRL_PCONFIG_EXITING_BITMAP_HIGH 0x203f #define VMX_VMCS64_CTRL_HLAT_PTR_FULL 0x2040 #define VMX_VMCS64_CTRL_HLAT_PTR_HIGH 0x2041 #define VMX_VMCS64_CTRL_EXIT2_FULL 0x2044 #define VMX_VMCS64_CTRL_EXIT2_HIGH 0x2045 #define VMX_VMCS64_CTRL_SPEC_CTRL_MASK_FULL 0x204a #define VMX_VMCS64_CTRL_SPEC_CTRL_MASK_HIGH 0x204b #define VMX_VMCS64_CTRL_SPEC_CTRL_SHADOW_FULL 0x204c #define VMX_VMCS64_CTRL_SPEC_CTRL_SHADOW_HIGH 0x204d /** 64-bit read-only data fields. */ #define VMX_VMCS64_RO_GUEST_PHYS_ADDR_FULL 0x2400 #define VMX_VMCS64_RO_GUEST_PHYS_ADDR_HIGH 0x2401 /** 64-bit guest-state fields. */ #define VMX_VMCS64_GUEST_VMCS_LINK_PTR_FULL 0x2800 #define VMX_VMCS64_GUEST_VMCS_LINK_PTR_HIGH 0x2801 #define VMX_VMCS64_GUEST_DEBUGCTL_FULL 0x2802 #define VMX_VMCS64_GUEST_DEBUGCTL_HIGH 0x2803 #define VMX_VMCS64_GUEST_PAT_FULL 0x2804 #define VMX_VMCS64_GUEST_PAT_HIGH 0x2805 #define VMX_VMCS64_GUEST_EFER_FULL 0x2806 #define VMX_VMCS64_GUEST_EFER_HIGH 0x2807 #define VMX_VMCS64_GUEST_PERF_GLOBAL_CTRL_FULL 0x2808 #define VMX_VMCS64_GUEST_PERF_GLOBAL_CTRL_HIGH 0x2809 #define VMX_VMCS64_GUEST_PDPTE0_FULL 0x280a #define VMX_VMCS64_GUEST_PDPTE0_HIGH 0x280b #define VMX_VMCS64_GUEST_PDPTE1_FULL 0x280c #define VMX_VMCS64_GUEST_PDPTE1_HIGH 0x280d #define VMX_VMCS64_GUEST_PDPTE2_FULL 0x280e #define VMX_VMCS64_GUEST_PDPTE2_HIGH 0x280f #define VMX_VMCS64_GUEST_PDPTE3_FULL 0x2810 #define VMX_VMCS64_GUEST_PDPTE3_HIGH 0x2811 #define VMX_VMCS64_GUEST_BNDCFGS_FULL 0x2812 #define VMX_VMCS64_GUEST_BNDCFGS_HIGH 0x2813 #define VMX_VMCS64_GUEST_RTIT_CTL_FULL 0x2814 #define VMX_VMCS64_GUEST_RTIT_CTL_HIGH 0x2815 #define VMX_VMCS64_GUEST_PKRS_FULL 0x2818 #define VMX_VMCS64_GUEST_PKRS_HIGH 0x2819 /** 64-bit host-state fields. */ #define VMX_VMCS64_HOST_PAT_FULL 0x2c00 #define VMX_VMCS64_HOST_PAT_HIGH 0x2c01 #define VMX_VMCS64_HOST_EFER_FULL 0x2c02 #define VMX_VMCS64_HOST_EFER_HIGH 0x2c03 #define VMX_VMCS64_HOST_PERF_GLOBAL_CTRL_FULL 0x2c04 #define VMX_VMCS64_HOST_PERF_GLOBAL_CTRL_HIGH 0x2c05 #define VMX_VMCS64_HOST_PKRS_FULL 0x2c06 #define VMX_VMCS64_HOST_PKRS_HIGH 0x2c07 /** 32-bit control fields. */ #define VMX_VMCS32_CTRL_PIN_EXEC 0x4000 #define VMX_VMCS32_CTRL_PROC_EXEC 0x4002 #define VMX_VMCS32_CTRL_EXCEPTION_BITMAP 0x4004 #define VMX_VMCS32_CTRL_PAGEFAULT_ERROR_MASK 0x4006 #define VMX_VMCS32_CTRL_PAGEFAULT_ERROR_MATCH 0x4008 #define VMX_VMCS32_CTRL_CR3_TARGET_COUNT 0x400a #define VMX_VMCS32_CTRL_EXIT 0x400c #define VMX_VMCS32_CTRL_EXIT_MSR_STORE_COUNT 0x400e #define VMX_VMCS32_CTRL_EXIT_MSR_LOAD_COUNT 0x4010 #define VMX_VMCS32_CTRL_ENTRY 0x4012 #define VMX_VMCS32_CTRL_ENTRY_MSR_LOAD_COUNT 0x4014 #define VMX_VMCS32_CTRL_ENTRY_INTERRUPTION_INFO 0x4016 #define VMX_VMCS32_CTRL_ENTRY_EXCEPTION_ERRCODE 0x4018 #define VMX_VMCS32_CTRL_ENTRY_INSTR_LENGTH 0x401a #define VMX_VMCS32_CTRL_TPR_THRESHOLD 0x401c #define VMX_VMCS32_CTRL_PROC_EXEC2 0x401e #define VMX_VMCS32_CTRL_PLE_GAP 0x4020 #define VMX_VMCS32_CTRL_PLE_WINDOW 0x4022 #define VMX_VMCS32_CTRL_INSTR_TIMEOUT 0x4024 /** 32-bits read-only fields. */ #define VMX_VMCS32_RO_VM_INSTR_ERROR 0x4400 #define VMX_VMCS32_RO_EXIT_REASON 0x4402 #define VMX_VMCS32_RO_EXIT_INTERRUPTION_INFO 0x4404 #define VMX_VMCS32_RO_EXIT_INTERRUPTION_ERROR_CODE 0x4406 #define VMX_VMCS32_RO_IDT_VECTORING_INFO 0x4408 #define VMX_VMCS32_RO_IDT_VECTORING_ERROR_CODE 0x440a #define VMX_VMCS32_RO_EXIT_INSTR_LENGTH 0x440c #define VMX_VMCS32_RO_EXIT_INSTR_INFO 0x440e /** 32-bit guest-state fields. */ #define VMX_VMCS32_GUEST_ES_LIMIT 0x4800 #define VMX_VMCS32_GUEST_CS_LIMIT 0x4802 #define VMX_VMCS32_GUEST_SS_LIMIT 0x4804 #define VMX_VMCS32_GUEST_DS_LIMIT 0x4806 #define VMX_VMCS32_GUEST_FS_LIMIT 0x4808 #define VMX_VMCS32_GUEST_GS_LIMIT 0x480a #define VMX_VMCS32_GUEST_LDTR_LIMIT 0x480c #define VMX_VMCS32_GUEST_TR_LIMIT 0x480e #define VMX_VMCS32_GUEST_GDTR_LIMIT 0x4810 #define VMX_VMCS32_GUEST_IDTR_LIMIT 0x4812 #define VMX_VMCS32_GUEST_ES_ACCESS_RIGHTS 0x4814 #define VMX_VMCS32_GUEST_CS_ACCESS_RIGHTS 0x4816 #define VMX_VMCS32_GUEST_SS_ACCESS_RIGHTS 0x4818 #define VMX_VMCS32_GUEST_DS_ACCESS_RIGHTS 0x481a #define VMX_VMCS32_GUEST_FS_ACCESS_RIGHTS 0x481c #define VMX_VMCS32_GUEST_GS_ACCESS_RIGHTS 0x481e #define VMX_VMCS32_GUEST_LDTR_ACCESS_RIGHTS 0x4820 #define VMX_VMCS32_GUEST_TR_ACCESS_RIGHTS 0x4822 #define VMX_VMCS32_GUEST_INT_STATE 0x4824 #define VMX_VMCS32_GUEST_ACTIVITY_STATE 0x4826 #define VMX_VMCS32_GUEST_SMBASE 0x4828 #define VMX_VMCS32_GUEST_SYSENTER_CS 0x482a #define VMX_VMCS32_PREEMPT_TIMER_VALUE 0x482e /** 32-bit host-state fields. */ #define VMX_VMCS32_HOST_SYSENTER_CS 0x4C00 /** Natural-width control fields. */ #define VMX_VMCS_CTRL_CR0_MASK 0x6000 #define VMX_VMCS_CTRL_CR4_MASK 0x6002 #define VMX_VMCS_CTRL_CR0_READ_SHADOW 0x6004 #define VMX_VMCS_CTRL_CR4_READ_SHADOW 0x6006 #define VMX_VMCS_CTRL_CR3_TARGET_VAL0 0x6008 #define VMX_VMCS_CTRL_CR3_TARGET_VAL1 0x600a #define VMX_VMCS_CTRL_CR3_TARGET_VAL2 0x600c #define VMX_VMCS_CTRL_CR3_TARGET_VAL3 0x600e /** Natural-width read-only data fields. */ #define VMX_VMCS_RO_EXIT_QUALIFICATION 0x6400 #define VMX_VMCS_RO_IO_RCX 0x6402 #define VMX_VMCS_RO_IO_RSI 0x6404 #define VMX_VMCS_RO_IO_RDI 0x6406 #define VMX_VMCS_RO_IO_RIP 0x6408 #define VMX_VMCS_RO_GUEST_LINEAR_ADDR 0x640a /** Natural-width guest-state fields. */ #define VMX_VMCS_GUEST_CR0 0x6800 #define VMX_VMCS_GUEST_CR3 0x6802 #define VMX_VMCS_GUEST_CR4 0x6804 #define VMX_VMCS_GUEST_ES_BASE 0x6806 #define VMX_VMCS_GUEST_CS_BASE 0x6808 #define VMX_VMCS_GUEST_SS_BASE 0x680a #define VMX_VMCS_GUEST_DS_BASE 0x680c #define VMX_VMCS_GUEST_FS_BASE 0x680e #define VMX_VMCS_GUEST_GS_BASE 0x6810 #define VMX_VMCS_GUEST_LDTR_BASE 0x6812 #define VMX_VMCS_GUEST_TR_BASE 0x6814 #define VMX_VMCS_GUEST_GDTR_BASE 0x6816 #define VMX_VMCS_GUEST_IDTR_BASE 0x6818 #define VMX_VMCS_GUEST_DR7 0x681a #define VMX_VMCS_GUEST_RSP 0x681c #define VMX_VMCS_GUEST_RIP 0x681e #define VMX_VMCS_GUEST_RFLAGS 0x6820 #define VMX_VMCS_GUEST_PENDING_DEBUG_XCPTS 0x6822 #define VMX_VMCS_GUEST_SYSENTER_ESP 0x6824 #define VMX_VMCS_GUEST_SYSENTER_EIP 0x6826 #define VMX_VMCS_GUEST_S_CET 0x6828 #define VMX_VMCS_GUEST_SSP 0x682a #define VMX_VMCS_GUEST_INTR_SSP_TABLE_ADDR 0x682c /** Natural-width host-state fields. */ #define VMX_VMCS_HOST_CR0 0x6c00 #define VMX_VMCS_HOST_CR3 0x6c02 #define VMX_VMCS_HOST_CR4 0x6c04 #define VMX_VMCS_HOST_FS_BASE 0x6c06 #define VMX_VMCS_HOST_GS_BASE 0x6c08 #define VMX_VMCS_HOST_TR_BASE 0x6c0a #define VMX_VMCS_HOST_GDTR_BASE 0x6c0c #define VMX_VMCS_HOST_IDTR_BASE 0x6c0e #define VMX_VMCS_HOST_SYSENTER_ESP 0x6c10 #define VMX_VMCS_HOST_SYSENTER_EIP 0x6c12 #define VMX_VMCS_HOST_RSP 0x6c14 #define VMX_VMCS_HOST_RIP 0x6c16 #define VMX_VMCS_HOST_S_CET 0x6c18 #define VMX_VMCS_HOST_SSP 0x6c1a #define VMX_VMCS_HOST_INTR_SSP_TABLE_ADDR 0x6c1c #define VMX_VMCS16_GUEST_SEG_SEL(a_iSegReg) (VMX_VMCS16_GUEST_ES_SEL + (a_iSegReg) * 2) #define VMX_VMCS_GUEST_SEG_BASE(a_iSegReg) (VMX_VMCS_GUEST_ES_BASE + (a_iSegReg) * 2) #define VMX_VMCS32_GUEST_SEG_LIMIT(a_iSegReg) (VMX_VMCS32_GUEST_ES_LIMIT + (a_iSegReg) * 2) #define VMX_VMCS32_GUEST_SEG_ACCESS_RIGHTS(a_iSegReg) (VMX_VMCS32_GUEST_ES_ACCESS_RIGHTS + (a_iSegReg) * 2) /** * VMCS field. * In accordance with the VT-x spec. */ typedef union { struct { /** The access type; 0=full, 1=high of 64-bit fields. */ uint32_t fAccessType : 1; /** The index. */ uint32_t u8Index : 8; /** The type; 0=control, 1=VM-exit info, 2=guest-state, 3=host-state. */ uint32_t u2Type : 2; /** Reserved (MBZ). */ uint32_t u1Reserved0 : 1; /** The width; 0=16-bit, 1=64-bit, 2=32-bit, 3=natural-width. */ uint32_t u2Width : 2; /** Reserved (MBZ). */ uint32_t u18Reserved0 : 18; } n; /* The unsigned integer view. */ uint32_t u; } VMXVMCSFIELD; AssertCompileSize(VMXVMCSFIELD, 4); /** Pointer to a VMCS field. */ typedef VMXVMCSFIELD *PVMXVMCSFIELD; /** Pointer to a const VMCS field. */ typedef const VMXVMCSFIELD *PCVMXVMCSFIELD; /** VMCS field: Mask of reserved bits (bits 63:15 MBZ), bit 12 is not included! */ #define VMX_VMCSFIELD_RSVD_MASK UINT64_C(0xffffffffffff8000) /** Bits fields for a VMCS field. */ #define VMX_BF_VMCSFIELD_ACCESS_TYPE_SHIFT 0 #define VMX_BF_VMCSFIELD_ACCESS_TYPE_MASK UINT32_C(0x00000001) #define VMX_BF_VMCSFIELD_INDEX_SHIFT 1 #define VMX_BF_VMCSFIELD_INDEX_MASK UINT32_C(0x000003fe) #define VMX_BF_VMCSFIELD_TYPE_SHIFT 10 #define VMX_BF_VMCSFIELD_TYPE_MASK UINT32_C(0x00000c00) #define VMX_BF_VMCSFIELD_RSVD_12_SHIFT 12 #define VMX_BF_VMCSFIELD_RSVD_12_MASK UINT32_C(0x00001000) #define VMX_BF_VMCSFIELD_WIDTH_SHIFT 13 #define VMX_BF_VMCSFIELD_WIDTH_MASK UINT32_C(0x00006000) #define VMX_BF_VMCSFIELD_RSVD_15_31_SHIFT 15 #define VMX_BF_VMCSFIELD_RSVD_15_31_MASK UINT32_C(0xffff8000) RT_BF_ASSERT_COMPILE_CHECKS(VMX_BF_VMCSFIELD_, UINT32_C(0), UINT32_MAX, (ACCESS_TYPE, INDEX, TYPE, RSVD_12, WIDTH, RSVD_15_31)); /** * VMCS field encoding: Access type. * In accordance with the VT-x spec. */ typedef enum { VMXVMCSFIELDACCESS_FULL = 0, VMXVMCSFIELDACCESS_HIGH } VMXVMCSFIELDACCESS; AssertCompileSize(VMXVMCSFIELDACCESS, 4); /** VMCS field encoding type: Full. */ #define VMX_VMCSFIELD_ACCESS_FULL 0 /** VMCS field encoding type: High. */ #define VMX_VMCSFIELD_ACCESS_HIGH 1 /** * VMCS field encoding: Type. * In accordance with the VT-x spec. */ typedef enum { VMXVMCSFIELDTYPE_CONTROL = 0, VMXVMCSFIELDTYPE_VMEXIT_INFO, VMXVMCSFIELDTYPE_GUEST_STATE, VMXVMCSFIELDTYPE_HOST_STATE } VMXVMCSFIELDTYPE; AssertCompileSize(VMXVMCSFIELDTYPE, 4); /** VMCS field encoding type: Control. */ #define VMX_VMCSFIELD_TYPE_CONTROL 0 /** VMCS field encoding type: VM-exit information / read-only fields. */ #define VMX_VMCSFIELD_TYPE_VMEXIT_INFO 1 /** VMCS field encoding type: Guest-state. */ #define VMX_VMCSFIELD_TYPE_GUEST_STATE 2 /** VMCS field encoding type: Host-state. */ #define VMX_VMCSFIELD_TYPE_HOST_STATE 3 /** * VMCS field encoding: Width. * In accordance with the VT-x spec. */ typedef enum { VMXVMCSFIELDWIDTH_16BIT = 0, VMXVMCSFIELDWIDTH_64BIT, VMXVMCSFIELDWIDTH_32BIT, VMXVMCSFIELDWIDTH_NATURAL } VMXVMCSFIELDWIDTH; AssertCompileSize(VMXVMCSFIELDWIDTH, 4); /** VMCS field encoding width: 16-bit. */ #define VMX_VMCSFIELD_WIDTH_16BIT 0 /** VMCS field encoding width: 64-bit. */ #define VMX_VMCSFIELD_WIDTH_64BIT 1 /** VMCS field encoding width: 32-bit. */ #define VMX_VMCSFIELD_WIDTH_32BIT 2 /** VMCS field encoding width: Natural width. */ #define VMX_VMCSFIELD_WIDTH_NATURAL 3 /** @} */ /** @name VM-entry instruction length. * @{ */ /** The maximum valid value for VM-entry instruction length while injecting a * software interrupt, software exception or privileged software exception. */ #define VMX_ENTRY_INSTR_LEN_MAX 15 /** @} */ /** @name VM-entry register masks. * @{ */ /** CR0 bits ignored on VM-entry while loading guest CR0 (ET, CD, NW, bits 6:15, * bit 17 and bits 19:28). * * I don't know the Intel spec. excludes the high bits here while includes them in * the corresponding VM-exit mask. Nonetheless, I'm including the high bits here * (by making it identical to the VM-exit CR0 mask) since they are reserved anyway * and to prevent omission of the high bits with hardware-assisted VMX execution. */ #define VMX_ENTRY_GUEST_CR0_IGNORE_MASK VMX_EXIT_HOST_CR0_IGNORE_MASK /** DR7 bits set here are always cleared on VM-entry while loading guest DR7 (bit * 12, bits 14:15). */ #define VMX_ENTRY_GUEST_DR7_MBZ_MASK UINT64_C(0xd000) /** DR7 bits set here are always set on VM-entry while loading guest DR7 (bit * 10). */ #define VMX_ENTRY_GUEST_DR7_MB1_MASK UINT64_C(0x400) /** @} */ /** @name VM-exit register masks. * @{ */ /** CR0 bits ignored on VM-exit while loading host CR0 (ET, CD, NW, bits 6:15, * bit 17, bits 19:28 and bits 32:63). */ #define VMX_EXIT_HOST_CR0_IGNORE_MASK UINT64_C(0xffffffff7ffaffd0) /** @} */ /** @name Pin-based VM-execution controls. * @{ */ /** External interrupt exiting. */ #define VMX_PIN_CTLS_EXT_INT_EXIT RT_BIT(0) /** NMI exiting. */ #define VMX_PIN_CTLS_NMI_EXIT RT_BIT(3) /** Virtual NMIs. */ #define VMX_PIN_CTLS_VIRT_NMI RT_BIT(5) /** Activate VMX preemption timer. */ #define VMX_PIN_CTLS_PREEMPT_TIMER RT_BIT(6) /** Process interrupts with the posted-interrupt notification vector. */ #define VMX_PIN_CTLS_POSTED_INT RT_BIT(7) /** Default1 class when true capability MSRs are not supported. */ #define VMX_PIN_CTLS_DEFAULT1 UINT32_C(0x00000016) /** Bit fields for MSR_IA32_VMX_PINBASED_CTLS and Pin-based VM-execution * controls field in the VMCS. */ #define VMX_BF_PIN_CTLS_EXT_INT_EXIT_SHIFT 0 #define VMX_BF_PIN_CTLS_EXT_INT_EXIT_MASK UINT32_C(0x00000001) #define VMX_BF_PIN_CTLS_RSVD_1_2_SHIFT 1 #define VMX_BF_PIN_CTLS_RSVD_1_2_MASK UINT32_C(0x00000006) #define VMX_BF_PIN_CTLS_NMI_EXIT_SHIFT 3 #define VMX_BF_PIN_CTLS_NMI_EXIT_MASK UINT32_C(0x00000008) #define VMX_BF_PIN_CTLS_RSVD_4_SHIFT 4 #define VMX_BF_PIN_CTLS_RSVD_4_MASK UINT32_C(0x00000010) #define VMX_BF_PIN_CTLS_VIRT_NMI_SHIFT 5 #define VMX_BF_PIN_CTLS_VIRT_NMI_MASK UINT32_C(0x00000020) #define VMX_BF_PIN_CTLS_PREEMPT_TIMER_SHIFT 6 #define VMX_BF_PIN_CTLS_PREEMPT_TIMER_MASK UINT32_C(0x00000040) #define VMX_BF_PIN_CTLS_POSTED_INT_SHIFT 7 #define VMX_BF_PIN_CTLS_POSTED_INT_MASK UINT32_C(0x00000080) #define VMX_BF_PIN_CTLS_RSVD_8_31_SHIFT 8 #define VMX_BF_PIN_CTLS_RSVD_8_31_MASK UINT32_C(0xffffff00) RT_BF_ASSERT_COMPILE_CHECKS(VMX_BF_PIN_CTLS_, UINT32_C(0), UINT32_MAX, (EXT_INT_EXIT, RSVD_1_2, NMI_EXIT, RSVD_4, VIRT_NMI, PREEMPT_TIMER, POSTED_INT, RSVD_8_31)); /** @} */ /** @name Processor-based VM-execution controls. * @{ */ /** VM-exit as soon as RFLAGS.IF=1 and no blocking is active. */ #define VMX_PROC_CTLS_INT_WINDOW_EXIT RT_BIT(2) /** Use timestamp counter offset. */ #define VMX_PROC_CTLS_USE_TSC_OFFSETTING RT_BIT(3) /** VM-exit when executing the HLT instruction. */ #define VMX_PROC_CTLS_HLT_EXIT RT_BIT(7) /** VM-exit when executing the INVLPG instruction. */ #define VMX_PROC_CTLS_INVLPG_EXIT RT_BIT(9) /** VM-exit when executing the MWAIT instruction. */ #define VMX_PROC_CTLS_MWAIT_EXIT RT_BIT(10) /** VM-exit when executing the RDPMC instruction. */ #define VMX_PROC_CTLS_RDPMC_EXIT RT_BIT(11) /** VM-exit when executing the RDTSC/RDTSCP instruction. */ #define VMX_PROC_CTLS_RDTSC_EXIT RT_BIT(12) /** VM-exit when executing the MOV to CR3 instruction. (forced to 1 on the * 'first' VT-x capable CPUs; this actually includes the newest Nehalem CPUs) */ #define VMX_PROC_CTLS_CR3_LOAD_EXIT RT_BIT(15) /** VM-exit when executing the MOV from CR3 instruction. (forced to 1 on the * 'first' VT-x capable CPUs; this actually includes the newest Nehalem CPUs) */ #define VMX_PROC_CTLS_CR3_STORE_EXIT RT_BIT(16) /** Whether the secondary processor based VM-execution controls are used. */ #define VMX_PROC_CTLS_USE_TERTIARY_CTLS RT_BIT(17) /** VM-exit on CR8 loads. */ #define VMX_PROC_CTLS_CR8_LOAD_EXIT RT_BIT(19) /** VM-exit on CR8 stores. */ #define VMX_PROC_CTLS_CR8_STORE_EXIT RT_BIT(20) /** Use TPR shadow. */ #define VMX_PROC_CTLS_USE_TPR_SHADOW RT_BIT(21) /** VM-exit when virtual NMI blocking is disabled. */ #define VMX_PROC_CTLS_NMI_WINDOW_EXIT RT_BIT(22) /** VM-exit when executing a MOV DRx instruction. */ #define VMX_PROC_CTLS_MOV_DR_EXIT RT_BIT(23) /** VM-exit when executing IO instructions. */ #define VMX_PROC_CTLS_UNCOND_IO_EXIT RT_BIT(24) /** Use IO bitmaps. */ #define VMX_PROC_CTLS_USE_IO_BITMAPS RT_BIT(25) /** Monitor trap flag. */ #define VMX_PROC_CTLS_MONITOR_TRAP_FLAG RT_BIT(27) /** Use MSR bitmaps. */ #define VMX_PROC_CTLS_USE_MSR_BITMAPS RT_BIT(28) /** VM-exit when executing the MONITOR instruction. */ #define VMX_PROC_CTLS_MONITOR_EXIT RT_BIT(29) /** VM-exit when executing the PAUSE instruction. */ #define VMX_PROC_CTLS_PAUSE_EXIT RT_BIT(30) /** Whether the secondary processor based VM-execution controls are used. */ #define VMX_PROC_CTLS_USE_SECONDARY_CTLS RT_BIT(31) /** Default1 class when true-capability MSRs are not supported. */ #define VMX_PROC_CTLS_DEFAULT1 UINT32_C(0x0401e172) /** Bit fields for MSR_IA32_VMX_PROCBASED_CTLS and Processor-based VM-execution * controls field in the VMCS. */ #define VMX_BF_PROC_CTLS_RSVD_0_1_SHIFT 0 #define VMX_BF_PROC_CTLS_RSVD_0_1_MASK UINT32_C(0x00000003) #define VMX_BF_PROC_CTLS_INT_WINDOW_EXIT_SHIFT 2 #define VMX_BF_PROC_CTLS_INT_WINDOW_EXIT_MASK UINT32_C(0x00000004) #define VMX_BF_PROC_CTLS_USE_TSC_OFFSETTING_SHIFT 3 #define VMX_BF_PROC_CTLS_USE_TSC_OFFSETTING_MASK UINT32_C(0x00000008) #define VMX_BF_PROC_CTLS_RSVD_4_6_SHIFT 4 #define VMX_BF_PROC_CTLS_RSVD_4_6_MASK UINT32_C(0x00000070) #define VMX_BF_PROC_CTLS_HLT_EXIT_SHIFT 7 #define VMX_BF_PROC_CTLS_HLT_EXIT_MASK UINT32_C(0x00000080) #define VMX_BF_PROC_CTLS_RSVD_8_SHIFT 8 #define VMX_BF_PROC_CTLS_RSVD_8_MASK UINT32_C(0x00000100) #define VMX_BF_PROC_CTLS_INVLPG_EXIT_SHIFT 9 #define VMX_BF_PROC_CTLS_INVLPG_EXIT_MASK UINT32_C(0x00000200) #define VMX_BF_PROC_CTLS_MWAIT_EXIT_SHIFT 10 #define VMX_BF_PROC_CTLS_MWAIT_EXIT_MASK UINT32_C(0x00000400) #define VMX_BF_PROC_CTLS_RDPMC_EXIT_SHIFT 11 #define VMX_BF_PROC_CTLS_RDPMC_EXIT_MASK UINT32_C(0x00000800) #define VMX_BF_PROC_CTLS_RDTSC_EXIT_SHIFT 12 #define VMX_BF_PROC_CTLS_RDTSC_EXIT_MASK UINT32_C(0x00001000) #define VMX_BF_PROC_CTLS_RSVD_13_14_SHIFT 13 #define VMX_BF_PROC_CTLS_RSVD_13_14_MASK UINT32_C(0x00006000) #define VMX_BF_PROC_CTLS_CR3_LOAD_EXIT_SHIFT 15 #define VMX_BF_PROC_CTLS_CR3_LOAD_EXIT_MASK UINT32_C(0x00008000) #define VMX_BF_PROC_CTLS_CR3_STORE_EXIT_SHIFT 16 #define VMX_BF_PROC_CTLS_CR3_STORE_EXIT_MASK UINT32_C(0x00010000) #define VMX_BF_PROC_CTLS_USE_TERTIARY_CTLS_SHIFT 17 #define VMX_BF_PROC_CTLS_USE_TERTIARY_CTLS_MASK UINT32_C(0x00020000) #define VMX_BF_PROC_CTLS_RSVD_18_SHIFT 18 #define VMX_BF_PROC_CTLS_RSVD_18_MASK UINT32_C(0x00040000) #define VMX_BF_PROC_CTLS_CR8_LOAD_EXIT_SHIFT 19 #define VMX_BF_PROC_CTLS_CR8_LOAD_EXIT_MASK UINT32_C(0x00080000) #define VMX_BF_PROC_CTLS_CR8_STORE_EXIT_SHIFT 20 #define VMX_BF_PROC_CTLS_CR8_STORE_EXIT_MASK UINT32_C(0x00100000) #define VMX_BF_PROC_CTLS_USE_TPR_SHADOW_SHIFT 21 #define VMX_BF_PROC_CTLS_USE_TPR_SHADOW_MASK UINT32_C(0x00200000) #define VMX_BF_PROC_CTLS_NMI_WINDOW_EXIT_SHIFT 22 #define VMX_BF_PROC_CTLS_NMI_WINDOW_EXIT_MASK UINT32_C(0x00400000) #define VMX_BF_PROC_CTLS_MOV_DR_EXIT_SHIFT 23 #define VMX_BF_PROC_CTLS_MOV_DR_EXIT_MASK UINT32_C(0x00800000) #define VMX_BF_PROC_CTLS_UNCOND_IO_EXIT_SHIFT 24 #define VMX_BF_PROC_CTLS_UNCOND_IO_EXIT_MASK UINT32_C(0x01000000) #define VMX_BF_PROC_CTLS_USE_IO_BITMAPS_SHIFT 25 #define VMX_BF_PROC_CTLS_USE_IO_BITMAPS_MASK UINT32_C(0x02000000) #define VMX_BF_PROC_CTLS_RSVD_26_SHIFT 26 #define VMX_BF_PROC_CTLS_RSVD_26_MASK UINT32_C(0x4000000) #define VMX_BF_PROC_CTLS_MONITOR_TRAP_FLAG_SHIFT 27 #define VMX_BF_PROC_CTLS_MONITOR_TRAP_FLAG_MASK UINT32_C(0x08000000) #define VMX_BF_PROC_CTLS_USE_MSR_BITMAPS_SHIFT 28 #define VMX_BF_PROC_CTLS_USE_MSR_BITMAPS_MASK UINT32_C(0x10000000) #define VMX_BF_PROC_CTLS_MONITOR_EXIT_SHIFT 29 #define VMX_BF_PROC_CTLS_MONITOR_EXIT_MASK UINT32_C(0x20000000) #define VMX_BF_PROC_CTLS_PAUSE_EXIT_SHIFT 30 #define VMX_BF_PROC_CTLS_PAUSE_EXIT_MASK UINT32_C(0x40000000) #define VMX_BF_PROC_CTLS_USE_SECONDARY_CTLS_SHIFT 31 #define VMX_BF_PROC_CTLS_USE_SECONDARY_CTLS_MASK UINT32_C(0x80000000) RT_BF_ASSERT_COMPILE_CHECKS(VMX_BF_PROC_CTLS_, UINT32_C(0), UINT32_MAX, (RSVD_0_1, INT_WINDOW_EXIT, USE_TSC_OFFSETTING, RSVD_4_6, HLT_EXIT, RSVD_8, INVLPG_EXIT, MWAIT_EXIT, RDPMC_EXIT, RDTSC_EXIT, RSVD_13_14, CR3_LOAD_EXIT, CR3_STORE_EXIT, USE_TERTIARY_CTLS, RSVD_18, CR8_LOAD_EXIT, CR8_STORE_EXIT, USE_TPR_SHADOW, NMI_WINDOW_EXIT, MOV_DR_EXIT, UNCOND_IO_EXIT, USE_IO_BITMAPS, RSVD_26, MONITOR_TRAP_FLAG, USE_MSR_BITMAPS, MONITOR_EXIT, PAUSE_EXIT, USE_SECONDARY_CTLS)); /** @} */ /** @name Secondary Processor-based VM-execution controls. * @{ */ /** Virtualize APIC accesses. */ #define VMX_PROC_CTLS2_VIRT_APIC_ACCESS RT_BIT(0) /** EPT supported/enabled. */ #define VMX_PROC_CTLS2_EPT RT_BIT(1) /** Descriptor table instructions cause VM-exits. */ #define VMX_PROC_CTLS2_DESC_TABLE_EXIT RT_BIT(2) /** RDTSCP supported/enabled. */ #define VMX_PROC_CTLS2_RDTSCP RT_BIT(3) /** Virtualize x2APIC mode. */ #define VMX_PROC_CTLS2_VIRT_X2APIC_MODE RT_BIT(4) /** VPID supported/enabled. */ #define VMX_PROC_CTLS2_VPID RT_BIT(5) /** VM-exit when executing the WBINVD instruction. */ #define VMX_PROC_CTLS2_WBINVD_EXIT RT_BIT(6) /** Unrestricted guest execution. */ #define VMX_PROC_CTLS2_UNRESTRICTED_GUEST RT_BIT(7) /** APIC register virtualization. */ #define VMX_PROC_CTLS2_APIC_REG_VIRT RT_BIT(8) /** Virtual-interrupt delivery. */ #define VMX_PROC_CTLS2_VIRT_INT_DELIVERY RT_BIT(9) /** A specified number of pause loops cause a VM-exit. */ #define VMX_PROC_CTLS2_PAUSE_LOOP_EXIT RT_BIT(10) /** VM-exit when executing RDRAND instructions. */ #define VMX_PROC_CTLS2_RDRAND_EXIT RT_BIT(11) /** Enables INVPCID instructions. */ #define VMX_PROC_CTLS2_INVPCID RT_BIT(12) /** Enables VMFUNC instructions. */ #define VMX_PROC_CTLS2_VMFUNC RT_BIT(13) /** Enables VMCS shadowing. */ #define VMX_PROC_CTLS2_VMCS_SHADOWING RT_BIT(14) /** Enables ENCLS VM-exits. */ #define VMX_PROC_CTLS2_ENCLS_EXIT RT_BIT(15) /** VM-exit when executing RDSEED. */ #define VMX_PROC_CTLS2_RDSEED_EXIT RT_BIT(16) /** Enables page-modification logging. */ #define VMX_PROC_CTLS2_PML RT_BIT(17) /** Controls whether EPT-violations may cause \#VE instead of exits. */ #define VMX_PROC_CTLS2_EPT_XCPT_VE RT_BIT(18) /** Conceal VMX non-root operation from Intel processor trace (PT). */ #define VMX_PROC_CTLS2_CONCEAL_VMX_FROM_PT RT_BIT(19) /** Enables XSAVES/XRSTORS instructions. */ #define VMX_PROC_CTLS2_XSAVES_XRSTORS RT_BIT(20) /** Enables PASID translation. */ #define VMX_PROC_CTLS2_PASID_TRANSLATE RT_BIT(21) /** Enables supervisor/user mode based EPT execute permission for linear * addresses. */ #define VMX_PROC_CTLS2_MODE_BASED_EPT_PERM RT_BIT(22) /** Enables EPT write permissions to be specified at granularity of 128 bytes. */ #define VMX_PROC_CTLS2_SPP_EPT RT_BIT(23) /** Intel PT output addresses are treated as guest-physical addresses and * translated using EPT. */ #define VMX_PROC_CTLS2_PT_EPT RT_BIT(24) /** Use TSC scaling. */ #define VMX_PROC_CTLS2_TSC_SCALING RT_BIT(25) /** Enables TPAUSE, UMONITOR and UMWAIT instructions. */ #define VMX_PROC_CTLS2_USER_WAIT_PAUSE RT_BIT(26) /** Enables PCONFIG instruction. */ #define VMX_PROC_CTLS2_PCONFIG RT_BIT(27) /** Enables consulting ENCLV-exiting bitmap when executing ENCLV. */ #define VMX_PROC_CTLS2_ENCLV_EXIT RT_BIT(28) /** Enables VMM Bus-lock detection. */ #define VMX_PROC_CTLS2_BUS_LOCK_DETECT RT_BIT(30) /** Enables instruction timeout VM-exits. */ #define VMX_PROC_CTLS2_INSTR_TIMEOUT RT_BIT(31) /** Bit fields for MSR_IA32_VMX_PROCBASED_CTLS2 and Secondary processor-based * VM-execution controls field in the VMCS. */ #define VMX_BF_PROC_CTLS2_VIRT_APIC_ACCESS_SHIFT 0 #define VMX_BF_PROC_CTLS2_VIRT_APIC_ACCESS_MASK UINT32_C(0x00000001) #define VMX_BF_PROC_CTLS2_EPT_SHIFT 1 #define VMX_BF_PROC_CTLS2_EPT_MASK UINT32_C(0x00000002) #define VMX_BF_PROC_CTLS2_DESC_TABLE_EXIT_SHIFT 2 #define VMX_BF_PROC_CTLS2_DESC_TABLE_EXIT_MASK UINT32_C(0x00000004) #define VMX_BF_PROC_CTLS2_RDTSCP_SHIFT 3 #define VMX_BF_PROC_CTLS2_RDTSCP_MASK UINT32_C(0x00000008) #define VMX_BF_PROC_CTLS2_VIRT_X2APIC_MODE_SHIFT 4 #define VMX_BF_PROC_CTLS2_VIRT_X2APIC_MODE_MASK UINT32_C(0x00000010) #define VMX_BF_PROC_CTLS2_VPID_SHIFT 5 #define VMX_BF_PROC_CTLS2_VPID_MASK UINT32_C(0x00000020) #define VMX_BF_PROC_CTLS2_WBINVD_EXIT_SHIFT 6 #define VMX_BF_PROC_CTLS2_WBINVD_EXIT_MASK UINT32_C(0x00000040) #define VMX_BF_PROC_CTLS2_UNRESTRICTED_GUEST_SHIFT 7 #define VMX_BF_PROC_CTLS2_UNRESTRICTED_GUEST_MASK UINT32_C(0x00000080) #define VMX_BF_PROC_CTLS2_APIC_REG_VIRT_SHIFT 8 #define VMX_BF_PROC_CTLS2_APIC_REG_VIRT_MASK UINT32_C(0x00000100) #define VMX_BF_PROC_CTLS2_VIRT_INT_DELIVERY_SHIFT 9 #define VMX_BF_PROC_CTLS2_VIRT_INT_DELIVERY_MASK UINT32_C(0x00000200) #define VMX_BF_PROC_CTLS2_PAUSE_LOOP_EXIT_SHIFT 10 #define VMX_BF_PROC_CTLS2_PAUSE_LOOP_EXIT_MASK UINT32_C(0x00000400) #define VMX_BF_PROC_CTLS2_RDRAND_EXIT_SHIFT 11 #define VMX_BF_PROC_CTLS2_RDRAND_EXIT_MASK UINT32_C(0x00000800) #define VMX_BF_PROC_CTLS2_INVPCID_SHIFT 12 #define VMX_BF_PROC_CTLS2_INVPCID_MASK UINT32_C(0x00001000) #define VMX_BF_PROC_CTLS2_VMFUNC_SHIFT 13 #define VMX_BF_PROC_CTLS2_VMFUNC_MASK UINT32_C(0x00002000) #define VMX_BF_PROC_CTLS2_VMCS_SHADOWING_SHIFT 14 #define VMX_BF_PROC_CTLS2_VMCS_SHADOWING_MASK UINT32_C(0x00004000) #define VMX_BF_PROC_CTLS2_ENCLS_EXIT_SHIFT 15 #define VMX_BF_PROC_CTLS2_ENCLS_EXIT_MASK UINT32_C(0x00008000) #define VMX_BF_PROC_CTLS2_RDSEED_EXIT_SHIFT 16 #define VMX_BF_PROC_CTLS2_RDSEED_EXIT_MASK UINT32_C(0x00010000) #define VMX_BF_PROC_CTLS2_PML_SHIFT 17 #define VMX_BF_PROC_CTLS2_PML_MASK UINT32_C(0x00020000) #define VMX_BF_PROC_CTLS2_EPT_VE_SHIFT 18 #define VMX_BF_PROC_CTLS2_EPT_VE_MASK UINT32_C(0x00040000) #define VMX_BF_PROC_CTLS2_CONCEAL_VMX_FROM_PT_SHIFT 19 #define VMX_BF_PROC_CTLS2_CONCEAL_VMX_FROM_PT_MASK UINT32_C(0x00080000) #define VMX_BF_PROC_CTLS2_XSAVES_XRSTORS_SHIFT 20 #define VMX_BF_PROC_CTLS2_XSAVES_XRSTORS_MASK UINT32_C(0x00100000) #define VMX_BF_PROC_CTLS2_PASID_TRANSLATE_SHIFT 21 #define VMX_BF_PROC_CTLS2_PASID_TRANSLATE_MASK UINT32_C(0x00200000) #define VMX_BF_PROC_CTLS2_MODE_BASED_EPT_PERM_SHIFT 22 #define VMX_BF_PROC_CTLS2_MODE_BASED_EPT_PERM_MASK UINT32_C(0x00400000) #define VMX_BF_PROC_CTLS2_SPP_EPT_SHIFT 23 #define VMX_BF_PROC_CTLS2_SPP_EPT_MASK UINT32_C(0x00800000) #define VMX_BF_PROC_CTLS2_PT_EPT_SHIFT 24 #define VMX_BF_PROC_CTLS2_PT_EPT_MASK UINT32_C(0x01000000) #define VMX_BF_PROC_CTLS2_TSC_SCALING_SHIFT 25 #define VMX_BF_PROC_CTLS2_TSC_SCALING_MASK UINT32_C(0x02000000) #define VMX_BF_PROC_CTLS2_USER_WAIT_PAUSE_SHIFT 26 #define VMX_BF_PROC_CTLS2_USER_WAIT_PAUSE_MASK UINT32_C(0x04000000) #define VMX_BF_PROC_CTLS2_PCONFIG_SHIFT 27 #define VMX_BF_PROC_CTLS2_PCONFIG_MASK UINT32_C(0x08000000) #define VMX_BF_PROC_CTLS2_ENCLV_EXIT_SHIFT 28 #define VMX_BF_PROC_CTLS2_ENCLV_EXIT_MASK UINT32_C(0x10000000) #define VMX_BF_PROC_CTLS2_RSVD_29_SHIFT 29 #define VMX_BF_PROC_CTLS2_RSVD_29_MASK UINT32_C(0x20000000) #define VMX_BF_PROC_CTLS2_BUSLOCK_DETECT_SHIFT 30 #define VMX_BF_PROC_CTLS2_BUSLOCK_DETECT_MASK UINT32_C(0x40000000) #define VMX_BF_PROC_CTLS2_INSTR_TIMEOUT_SHIFT 31 #define VMX_BF_PROC_CTLS2_INSTR_TIMEOUT_MASK UINT32_C(0x80000000) RT_BF_ASSERT_COMPILE_CHECKS(VMX_BF_PROC_CTLS2_, UINT32_C(0), UINT32_MAX, (VIRT_APIC_ACCESS, EPT, DESC_TABLE_EXIT, RDTSCP, VIRT_X2APIC_MODE, VPID, WBINVD_EXIT, UNRESTRICTED_GUEST, APIC_REG_VIRT, VIRT_INT_DELIVERY, PAUSE_LOOP_EXIT, RDRAND_EXIT, INVPCID, VMFUNC, VMCS_SHADOWING, ENCLS_EXIT, RDSEED_EXIT, PML, EPT_VE, CONCEAL_VMX_FROM_PT, XSAVES_XRSTORS, PASID_TRANSLATE, MODE_BASED_EPT_PERM, SPP_EPT, PT_EPT, TSC_SCALING, USER_WAIT_PAUSE, PCONFIG, ENCLV_EXIT, RSVD_29, BUSLOCK_DETECT, INSTR_TIMEOUT)); /** @} */ /** @name Tertiary Processor-based VM-execution controls. * @{ */ /** VM-exit when executing LOADIWKEY. */ #define VMX_PROC_CTLS3_LOADIWKEY_EXIT RT_BIT_64(0) /** Enables hypervisor-managed linear-address translation (HLAT). */ #define VMX_PROC_CTLS3_HLAT RT_BIT_64(1) /** Enables EPT paging-write control. */ #define VMX_PROC_CTLS3_EPT_PAGING_WRITE RT_BIT_64(2) /** Enables Guest-paging verification. */ #define VMX_PROC_CTLS3_GST_PAGING_VERIFY RT_BIT_64(3) /** Enables IPI virtualization. */ #define VMX_PROC_CTLS3_IPI_VIRT RT_BIT_64(4) /** Virtualize IA32_SPEC_CTRL. */ #define VMX_PROC_CTLS3_VIRT_SPEC_CTRL RT_BIT_64(7) /** Bit fields for Tertiary processor-based VM-execution controls field in the VMCS. */ #define VMX_BF_PROC_CTLS3_LOADIWKEY_EXIT_SHIFT 0 #define VMX_BF_PROC_CTLS3_LOADIWKEY_EXIT_MASK UINT64_C(0x0000000000000001) #define VMX_BF_PROC_CTLS3_HLAT_SHIFT 1 #define VMX_BF_PROC_CTLS3_HLAT_MASK UINT64_C(0x0000000000000002) #define VMX_BF_PROC_CTLS3_EPT_PAGING_WRITE_SHIFT 2 #define VMX_BF_PROC_CTLS3_EPT_PAGING_WRITE_MASK UINT64_C(0x0000000000000004) #define VMX_BF_PROC_CTLS3_GST_PAGING_VERIFY_SHIFT 3 #define VMX_BF_PROC_CTLS3_GST_PAGING_VERIFY_MASK UINT64_C(0x0000000000000008) #define VMX_BF_PROC_CTLS3_IPI_VIRT_SHIFT 4 #define VMX_BF_PROC_CTLS3_IPI_VIRT_MASK UINT64_C(0x0000000000000010) #define VMX_BF_PROC_CTLS3_RSVD_5_6_SHIFT 5 #define VMX_BF_PROC_CTLS3_RSVD_5_6_MASK UINT64_C(0x0000000000000060) #define VMX_BF_PROC_CTLS3_VIRT_SPEC_CTRL_SHIFT 7 #define VMX_BF_PROC_CTLS3_VIRT_SPEC_CTRL_MASK UINT64_C(0x0000000000000080) #define VMX_BF_PROC_CTLS3_RSVD_8_63_SHIFT 8 #define VMX_BF_PROC_CTLS3_RSVD_8_63_MASK UINT64_C(0xffffffffffffff00) RT_BF_ASSERT_COMPILE_CHECKS(VMX_BF_PROC_CTLS3_, UINT64_C(0), UINT64_MAX, (LOADIWKEY_EXIT, HLAT, EPT_PAGING_WRITE, GST_PAGING_VERIFY, IPI_VIRT, RSVD_5_6, VIRT_SPEC_CTRL, RSVD_8_63)); /** @} */ /** @name VM-entry controls. * @{ */ /** Load guest debug controls (dr7 & IA32_DEBUGCTL_MSR) (forced to 1 on the * 'first' VT-x capable CPUs; this actually includes the newest Nehalem CPUs) */ #define VMX_ENTRY_CTLS_LOAD_DEBUG RT_BIT(2) /** 64-bit guest mode. Must be 0 for CPUs that don't support AMD64. */ #define VMX_ENTRY_CTLS_IA32E_MODE_GUEST RT_BIT(9) /** In SMM mode after VM-entry. */ #define VMX_ENTRY_CTLS_ENTRY_TO_SMM RT_BIT(10) /** Disable dual treatment of SMI and SMM; must be zero for VM-entry outside of SMM. */ #define VMX_ENTRY_CTLS_DEACTIVATE_DUAL_MON RT_BIT(11) /** Whether the guest IA32_PERF_GLOBAL_CTRL MSR is loaded on VM-entry. */ #define VMX_ENTRY_CTLS_LOAD_PERF_MSR RT_BIT(13) /** Whether the guest IA32_PAT MSR is loaded on VM-entry. */ #define VMX_ENTRY_CTLS_LOAD_PAT_MSR RT_BIT(14) /** Whether the guest IA32_EFER MSR is loaded on VM-entry. */ #define VMX_ENTRY_CTLS_LOAD_EFER_MSR RT_BIT(15) /** Whether the guest IA32_BNDCFGS MSR is loaded on VM-entry. */ #define VMX_ENTRY_CTLS_LOAD_BNDCFGS_MSR RT_BIT(16) /** Whether to conceal VMX from Intel PT (Processor Trace). */ #define VMX_ENTRY_CTLS_CONCEAL_VMX_FROM_PT RT_BIT(17) /** Whether the guest IA32_RTIT MSR is loaded on VM-entry. */ #define VMX_ENTRY_CTLS_LOAD_RTIT_CTL_MSR RT_BIT(18) /** Whether the guest UINV is loaded on VM-entry. */ #define VMX_ENTRY_CTLS_LOAD_UINV RT_BIT(19) /** Whether the guest CET-related MSRs and SPP are loaded on VM-entry. */ #define VMX_ENTRY_CTLS_LOAD_CET_STATE RT_BIT(20) /** Whether the guest IA32_LBR_CTL MSR is loaded on VM-entry. */ #define VMX_ENTRY_CTLS_LOAD_LBR_CTL_MSR RT_BIT(21) /** Whether the guest IA32_PKRS MSR is loaded on VM-entry. */ #define VMX_ENTRY_CTLS_LOAD_PKRS_MSR RT_BIT(22) /** Default1 class when true-capability MSRs are not supported. */ #define VMX_ENTRY_CTLS_DEFAULT1 UINT32_C(0x000011ff) /** Bit fields for MSR_IA32_VMX_ENTRY_CTLS and VM-entry controls field in the * VMCS. */ #define VMX_BF_ENTRY_CTLS_RSVD_0_1_SHIFT 0 #define VMX_BF_ENTRY_CTLS_RSVD_0_1_MASK UINT32_C(0x00000003) #define VMX_BF_ENTRY_CTLS_LOAD_DEBUG_SHIFT 2 #define VMX_BF_ENTRY_CTLS_LOAD_DEBUG_MASK UINT32_C(0x00000004) #define VMX_BF_ENTRY_CTLS_RSVD_3_8_SHIFT 3 #define VMX_BF_ENTRY_CTLS_RSVD_3_8_MASK UINT32_C(0x000001f8) #define VMX_BF_ENTRY_CTLS_IA32E_MODE_GUEST_SHIFT 9 #define VMX_BF_ENTRY_CTLS_IA32E_MODE_GUEST_MASK UINT32_C(0x00000200) #define VMX_BF_ENTRY_CTLS_ENTRY_SMM_SHIFT 10 #define VMX_BF_ENTRY_CTLS_ENTRY_SMM_MASK UINT32_C(0x00000400) #define VMX_BF_ENTRY_CTLS_DEACTIVATE_DUAL_MON_SHIFT 11 #define VMX_BF_ENTRY_CTLS_DEACTIVATE_DUAL_MON_MASK UINT32_C(0x00000800) #define VMX_BF_ENTRY_CTLS_RSVD_12_SHIFT 12 #define VMX_BF_ENTRY_CTLS_RSVD_12_MASK UINT32_C(0x00001000) #define VMX_BF_ENTRY_CTLS_LOAD_PERF_MSR_SHIFT 13 #define VMX_BF_ENTRY_CTLS_LOAD_PERF_MSR_MASK UINT32_C(0x00002000) #define VMX_BF_ENTRY_CTLS_LOAD_PAT_MSR_SHIFT 14 #define VMX_BF_ENTRY_CTLS_LOAD_PAT_MSR_MASK UINT32_C(0x00004000) #define VMX_BF_ENTRY_CTLS_LOAD_EFER_MSR_SHIFT 15 #define VMX_BF_ENTRY_CTLS_LOAD_EFER_MSR_MASK UINT32_C(0x00008000) #define VMX_BF_ENTRY_CTLS_LOAD_BNDCFGS_MSR_SHIFT 16 #define VMX_BF_ENTRY_CTLS_LOAD_BNDCFGS_MSR_MASK UINT32_C(0x00010000) #define VMX_BF_ENTRY_CTLS_CONCEAL_VMX_FROM_PT_SHIFT 17 #define VMX_BF_ENTRY_CTLS_CONCEAL_VMX_FROM_PT_MASK UINT32_C(0x00020000) #define VMX_BF_ENTRY_CTLS_LOAD_RTIT_CTL_MSR_SHIFT 18 #define VMX_BF_ENTRY_CTLS_LOAD_RTIT_CTL_MSR_MASK UINT32_C(0x00040000) #define VMX_BF_ENTRY_CTLS_LOAD_UINV_SHIFT 19 #define VMX_BF_ENTRY_CTLS_LOAD_UINV_MASK UINT32_C(0x00080000) #define VMX_BF_ENTRY_CTLS_LOAD_CET_SHIFT 20 #define VMX_BF_ENTRY_CTLS_LOAD_CET_MASK UINT32_C(0x00100000) #define VMX_BF_ENTRY_CTLS_LOAD_LBR_CTL_MSR_SHIFT 21 #define VMX_BF_ENTRY_CTLS_LOAD_LBR_CTL_MSR_MASK UINT32_C(0x00200000) #define VMX_BF_ENTRY_CTLS_LOAD_PKRS_MSR_SHIFT 22 #define VMX_BF_ENTRY_CTLS_LOAD_PKRS_MSR_MASK UINT32_C(0x00400000) #define VMX_BF_ENTRY_CTLS_RSVD_23_31_SHIFT 23 #define VMX_BF_ENTRY_CTLS_RSVD_23_31_MASK UINT32_C(0xff800000) RT_BF_ASSERT_COMPILE_CHECKS(VMX_BF_ENTRY_CTLS_, UINT32_C(0), UINT32_MAX, (RSVD_0_1, LOAD_DEBUG, RSVD_3_8, IA32E_MODE_GUEST, ENTRY_SMM, DEACTIVATE_DUAL_MON, RSVD_12, LOAD_PERF_MSR, LOAD_PAT_MSR, LOAD_EFER_MSR, LOAD_BNDCFGS_MSR, CONCEAL_VMX_FROM_PT, LOAD_RTIT_CTL_MSR, LOAD_UINV, LOAD_CET, LOAD_LBR_CTL_MSR, LOAD_PKRS_MSR, RSVD_23_31)); /** @} */ /** @name VM-exit controls. * @{ */ /** Save guest debug controls (dr7 & IA32_DEBUGCTL_MSR) (forced to 1 on the * 'first' VT-x capable CPUs; this actually includes the newest Nehalem CPUs) */ #define VMX_EXIT_CTLS_SAVE_DEBUG RT_BIT(2) /** Return to long mode after a VM-exit. */ #define VMX_EXIT_CTLS_HOST_ADDR_SPACE_SIZE RT_BIT(9) /** Whether the host IA32_PERF_GLOBAL_CTRL MSR is loaded on VM-exit. */ #define VMX_EXIT_CTLS_LOAD_PERF_MSR RT_BIT(12) /** Acknowledge external interrupts with the irq controller if one caused a VM-exit. */ #define VMX_EXIT_CTLS_ACK_EXT_INT RT_BIT(15) /** Whether the guest IA32_PAT MSR is saved on VM-exit. */ #define VMX_EXIT_CTLS_SAVE_PAT_MSR RT_BIT(18) /** Whether the host IA32_PAT MSR is loaded on VM-exit. */ #define VMX_EXIT_CTLS_LOAD_PAT_MSR RT_BIT(19) /** Whether the guest IA32_EFER MSR is saved on VM-exit. */ #define VMX_EXIT_CTLS_SAVE_EFER_MSR RT_BIT(20) /** Whether the host IA32_EFER MSR is loaded on VM-exit. */ #define VMX_EXIT_CTLS_LOAD_EFER_MSR RT_BIT(21) /** Whether the value of the VMX preemption timer is saved on every VM-exit. */ #define VMX_EXIT_CTLS_SAVE_PREEMPT_TIMER RT_BIT(22) /** Whether IA32_BNDCFGS MSR is cleared on VM-exit. */ #define VMX_EXIT_CTLS_CLEAR_BNDCFGS_MSR RT_BIT(23) /** Whether to conceal VMX from Intel PT. */ #define VMX_EXIT_CTLS_CONCEAL_VMX_FROM_PT RT_BIT(24) /** Whether IA32_RTIT_CTL MSR is cleared on VM-exit. */ #define VMX_EXIT_CTLS_CLEAR_RTIT_CTL_MSR RT_BIT(25) /** Whether IA32_LBR_CTL MSR is cleared on VM-exit. */ #define VMX_EXIT_CTLS_CLEAR_LBR_CTL_MSR RT_BIT(26) /** Whether UINV is cleared on VM-exit. */ #define VMX_EXIT_CTLS_CLEAR_UINV RT_BIT(27) /** Whether CET-related MSRs and SPP are loaded on VM-exit. */ #define VMX_EXIT_CTLS_LOAD_CET_STATE RT_BIT(28) /** Whether the host IA32_PKRS MSR is loaded on VM-exit. */ #define VMX_EXIT_CTLS_LOAD_PKRS_MSR RT_BIT(29) /** Whether the host IA32_PERF_GLOBAL_CTRL MSR is saved on VM-exit. */ #define VMX_EXIT_CTLS_SAVE_PERF_MSR RT_BIT(30) /** Whether secondary VM-exit controls are used. */ #define VMX_EXIT_CTLS_USE_SECONDARY_CTLS RT_BIT(31) /** Default1 class when true-capability MSRs are not supported. */ #define VMX_EXIT_CTLS_DEFAULT1 UINT32_C(0x00036dff) /** Bit fields for MSR_IA32_VMX_EXIT_CTLS and VM-exit controls field in the * VMCS. */ #define VMX_BF_EXIT_CTLS_RSVD_0_1_SHIFT 0 #define VMX_BF_EXIT_CTLS_RSVD_0_1_MASK UINT32_C(0x00000003) #define VMX_BF_EXIT_CTLS_SAVE_DEBUG_SHIFT 2 #define VMX_BF_EXIT_CTLS_SAVE_DEBUG_MASK UINT32_C(0x00000004) #define VMX_BF_EXIT_CTLS_RSVD_3_8_SHIFT 3 #define VMX_BF_EXIT_CTLS_RSVD_3_8_MASK UINT32_C(0x000001f8) #define VMX_BF_EXIT_CTLS_HOST_ADDR_SPACE_SIZE_SHIFT 9 #define VMX_BF_EXIT_CTLS_HOST_ADDR_SPACE_SIZE_MASK UINT32_C(0x00000200) #define VMX_BF_EXIT_CTLS_RSVD_10_11_SHIFT 10 #define VMX_BF_EXIT_CTLS_RSVD_10_11_MASK UINT32_C(0x00000c00) #define VMX_BF_EXIT_CTLS_LOAD_PERF_MSR_SHIFT 12 #define VMX_BF_EXIT_CTLS_LOAD_PERF_MSR_MASK UINT32_C(0x00001000) #define VMX_BF_EXIT_CTLS_RSVD_13_14_SHIFT 13 #define VMX_BF_EXIT_CTLS_RSVD_13_14_MASK UINT32_C(0x00006000) #define VMX_BF_EXIT_CTLS_ACK_EXT_INT_SHIFT 15 #define VMX_BF_EXIT_CTLS_ACK_EXT_INT_MASK UINT32_C(0x00008000) #define VMX_BF_EXIT_CTLS_RSVD_16_17_SHIFT 16 #define VMX_BF_EXIT_CTLS_RSVD_16_17_MASK UINT32_C(0x00030000) #define VMX_BF_EXIT_CTLS_SAVE_PAT_MSR_SHIFT 18 #define VMX_BF_EXIT_CTLS_SAVE_PAT_MSR_MASK UINT32_C(0x00040000) #define VMX_BF_EXIT_CTLS_LOAD_PAT_MSR_SHIFT 19 #define VMX_BF_EXIT_CTLS_LOAD_PAT_MSR_MASK UINT32_C(0x00080000) #define VMX_BF_EXIT_CTLS_SAVE_EFER_MSR_SHIFT 20 #define VMX_BF_EXIT_CTLS_SAVE_EFER_MSR_MASK UINT32_C(0x00100000) #define VMX_BF_EXIT_CTLS_LOAD_EFER_MSR_SHIFT 21 #define VMX_BF_EXIT_CTLS_LOAD_EFER_MSR_MASK UINT32_C(0x00200000) #define VMX_BF_EXIT_CTLS_SAVE_PREEMPT_TIMER_SHIFT 22 #define VMX_BF_EXIT_CTLS_SAVE_PREEMPT_TIMER_MASK UINT32_C(0x00400000) #define VMX_BF_EXIT_CTLS_CLEAR_BNDCFGS_MSR_SHIFT 23 #define VMX_BF_EXIT_CTLS_CLEAR_BNDCFGS_MSR_MASK UINT32_C(0x00800000) #define VMX_BF_EXIT_CTLS_CONCEAL_VMX_FROM_PT_SHIFT 24 #define VMX_BF_EXIT_CTLS_CONCEAL_VMX_FROM_PT_MASK UINT32_C(0x01000000) #define VMX_BF_EXIT_CTLS_CLEAR_RTIT_CTL_MSR_SHIFT 25 #define VMX_BF_EXIT_CTLS_CLEAR_RTIT_CTL_MSR_MASK UINT32_C(0x02000000) #define VMX_BF_EXIT_CTLS_CLEAR_LBR_CTL_MSR_SHIFT 26 #define VMX_BF_EXIT_CTLS_CLEAR_LBR_CTL_MSR_MASK UINT32_C(0x04000000) #define VMX_BF_EXIT_CTLS_CLEAR_UINV_SHIFT 27 #define VMX_BF_EXIT_CTLS_CLEAR_UINV_MASK UINT32_C(0x08000000) #define VMX_BF_EXIT_CTLS_LOAD_CET_SHIFT 28 #define VMX_BF_EXIT_CTLS_LOAD_CET_MASK UINT32_C(0x10000000) #define VMX_BF_EXIT_CTLS_LOAD_PKRS_MSR_SHIFT 29 #define VMX_BF_EXIT_CTLS_LOAD_PKRS_MSR_MASK UINT32_C(0x20000000) #define VMX_BF_EXIT_CTLS_SAVE_PERF_MSR_SHIFT 30 #define VMX_BF_EXIT_CTLS_SAVE_PERF_MSR_MASK UINT32_C(0x40000000) #define VMX_BF_EXIT_CTLS_USE_SECONDARY_CTLS_SHIFT 31 #define VMX_BF_EXIT_CTLS_USE_SECONDARY_CTLS_MASK UINT32_C(0x80000000) RT_BF_ASSERT_COMPILE_CHECKS(VMX_BF_EXIT_CTLS_, UINT32_C(0), UINT32_MAX, (RSVD_0_1, SAVE_DEBUG, RSVD_3_8, HOST_ADDR_SPACE_SIZE, RSVD_10_11, LOAD_PERF_MSR, RSVD_13_14, ACK_EXT_INT, RSVD_16_17, SAVE_PAT_MSR, LOAD_PAT_MSR, SAVE_EFER_MSR, LOAD_EFER_MSR, SAVE_PREEMPT_TIMER, CLEAR_BNDCFGS_MSR, CONCEAL_VMX_FROM_PT, CLEAR_RTIT_CTL_MSR, CLEAR_LBR_CTL_MSR, CLEAR_UINV, LOAD_CET, LOAD_PKRS_MSR, SAVE_PERF_MSR, USE_SECONDARY_CTLS)); /** @} */ /** @name VM-exit reason. * @{ */ #define VMX_EXIT_REASON_BASIC(a) ((a) & 0xffff) #define VMX_EXIT_REASON_HAS_ENTRY_FAILED(a) (((a) >> 31) & 1) #define VMX_EXIT_REASON_ENTRY_FAILED RT_BIT(31) /** Bit fields for VM-exit reason. */ /** The exit reason. */ #define VMX_BF_EXIT_REASON_BASIC_SHIFT 0 #define VMX_BF_EXIT_REASON_BASIC_MASK UINT32_C(0x0000ffff) /** Bits 16:26 are reseved and MBZ. */ #define VMX_BF_EXIT_REASON_RSVD_16_26_SHIFT 16 #define VMX_BF_EXIT_REASON_RSVD_16_26_MASK UINT32_C(0x07ff0000) /** Whether the VM-exit was incident to enclave mode. */ #define VMX_BF_EXIT_REASON_ENCLAVE_MODE_SHIFT 27 #define VMX_BF_EXIT_REASON_ENCLAVE_MODE_MASK UINT32_C(0x08000000) /** Pending MTF (Monitor Trap Flag) during VM-exit (only applicable in SMM mode). */ #define VMX_BF_EXIT_REASON_SMM_PENDING_MTF_SHIFT 28 #define VMX_BF_EXIT_REASON_SMM_PENDING_MTF_MASK UINT32_C(0x10000000) /** VM-exit from VMX root operation (only possible with SMM). */ #define VMX_BF_EXIT_REASON_VMX_ROOT_MODE_SHIFT 29 #define VMX_BF_EXIT_REASON_VMX_ROOT_MODE_MASK UINT32_C(0x20000000) /** Bit 30 is reserved and MBZ. */ #define VMX_BF_EXIT_REASON_RSVD_30_SHIFT 30 #define VMX_BF_EXIT_REASON_RSVD_30_MASK UINT32_C(0x40000000) /** Whether VM-entry failed (currently only happens during loading guest-state * or MSRs or machine check exceptions). */ #define VMX_BF_EXIT_REASON_ENTRY_FAILED_SHIFT 31 #define VMX_BF_EXIT_REASON_ENTRY_FAILED_MASK UINT32_C(0x80000000) RT_BF_ASSERT_COMPILE_CHECKS(VMX_BF_EXIT_REASON_, UINT32_C(0), UINT32_MAX, (BASIC, RSVD_16_26, ENCLAVE_MODE, SMM_PENDING_MTF, VMX_ROOT_MODE, RSVD_30, ENTRY_FAILED)); /** @} */ /** @name VM-entry interruption information. * @{ */ #define VMX_ENTRY_INT_INFO_IS_VALID(a) (((a) >> 31) & 1) #define VMX_ENTRY_INT_INFO_VECTOR(a) ((a) & 0xff) #define VMX_ENTRY_INT_INFO_TYPE_SHIFT 8 #define VMX_ENTRY_INT_INFO_TYPE(a) (((a) >> 8) & 7) #define VMX_ENTRY_INT_INFO_ERROR_CODE_VALID RT_BIT(11) #define VMX_ENTRY_INT_INFO_IS_ERROR_CODE_VALID(a) (((a) >> 11) & 1) #define VMX_ENTRY_INT_INFO_NMI_UNBLOCK_IRET 12 #define VMX_ENTRY_INT_INFO_IS_NMI_UNBLOCK_IRET(a) (((a) >> 12) & 1) #define VMX_ENTRY_INT_INFO_VALID RT_BIT(31) #define VMX_ENTRY_INT_INFO_IS_VALID(a) (((a) >> 31) & 1) /** Construct an VM-entry interruption information field from a VM-exit interruption * info value (same except that bit 12 is reserved). */ #define VMX_ENTRY_INT_INFO_FROM_EXIT_INT_INFO(a) ((a) & ~RT_BIT(12)) /** Construct a VM-entry interruption information field from an IDT-vectoring * information field (same except that bit 12 is reserved). */ #define VMX_ENTRY_INT_INFO_FROM_EXIT_IDT_INFO(a) ((a) & ~RT_BIT(12)) /** If the VM-entry interruption information field indicates a page-fault. */ #define VMX_ENTRY_INT_INFO_IS_XCPT_PF(a) (((a) & ( VMX_BF_ENTRY_INT_INFO_VALID_MASK \ | VMX_BF_ENTRY_INT_INFO_TYPE_MASK \ | VMX_BF_ENTRY_INT_INFO_VECTOR_MASK)) \ == ( RT_BF_MAKE(VMX_BF_ENTRY_INT_INFO_VALID, 1) \ | RT_BF_MAKE(VMX_BF_ENTRY_INT_INFO_TYPE, VMX_ENTRY_INT_INFO_TYPE_HW_XCPT) \ | RT_BF_MAKE(VMX_BF_ENTRY_INT_INFO_VECTOR, X86_XCPT_PF))) /** If the VM-entry interruption information field indicates an external * interrupt. */ #define VMX_ENTRY_INT_INFO_IS_EXT_INT(a) (((a) & ( VMX_BF_ENTRY_INT_INFO_VALID_MASK \ | VMX_BF_ENTRY_INT_INFO_TYPE_MASK)) \ == ( RT_BF_MAKE(VMX_BF_ENTRY_INT_INFO_VALID, 1) \ | RT_BF_MAKE(VMX_BF_ENTRY_INT_INFO_TYPE, VMX_ENTRY_INT_INFO_TYPE_EXT_INT))) /** If the VM-entry interruption information field indicates an NMI. */ #define VMX_ENTRY_INT_INFO_IS_XCPT_NMI(a) (((a) & ( VMX_BF_ENTRY_INT_INFO_VALID_MASK \ | VMX_BF_ENTRY_INT_INFO_TYPE_MASK \ | VMX_BF_ENTRY_INT_INFO_VECTOR_MASK)) \ == ( RT_BF_MAKE(VMX_BF_ENTRY_INT_INFO_VALID, 1) \ | RT_BF_MAKE(VMX_BF_ENTRY_INT_INFO_TYPE, VMX_ENTRY_INT_INFO_TYPE_NMI) \ | RT_BF_MAKE(VMX_BF_ENTRY_INT_INFO_VECTOR, X86_XCPT_NMI))) /** Bit fields for VM-entry interruption information. */ /** The VM-entry interruption vector. */ #define VMX_BF_ENTRY_INT_INFO_VECTOR_SHIFT 0 #define VMX_BF_ENTRY_INT_INFO_VECTOR_MASK UINT32_C(0x000000ff) /** The VM-entry interruption type (see VMX_ENTRY_INT_INFO_TYPE_XXX). */ #define VMX_BF_ENTRY_INT_INFO_TYPE_SHIFT 8 #define VMX_BF_ENTRY_INT_INFO_TYPE_MASK UINT32_C(0x00000700) /** Whether this event has an error code. */ #define VMX_BF_ENTRY_INT_INFO_ERR_CODE_VALID_SHIFT 11 #define VMX_BF_ENTRY_INT_INFO_ERR_CODE_VALID_MASK UINT32_C(0x00000800) /** Bits 12:30 are reserved and MBZ. */ #define VMX_BF_ENTRY_INT_INFO_RSVD_12_30_SHIFT 12 #define VMX_BF_ENTRY_INT_INFO_RSVD_12_30_MASK UINT32_C(0x7ffff000) /** Whether this VM-entry interruption info is valid. */ #define VMX_BF_ENTRY_INT_INFO_VALID_SHIFT 31 #define VMX_BF_ENTRY_INT_INFO_VALID_MASK UINT32_C(0x80000000) RT_BF_ASSERT_COMPILE_CHECKS(VMX_BF_ENTRY_INT_INFO_, UINT32_C(0), UINT32_MAX, (VECTOR, TYPE, ERR_CODE_VALID, RSVD_12_30, VALID)); /** @} */ /** @name VM-entry exception error code. * @{ */ /** Error code valid mask. */ /** @todo r=ramshankar: Intel spec. 26.2.1.3 "VM-Entry Control Fields" states that * bits 31:15 MBZ. However, Intel spec. 6.13 "Error Code" states "To keep the * stack aligned for doubleword pushes, the upper half of the error code is * reserved" which implies bits 31:16 MBZ (and not 31:15) which is what we * use below. */ #define VMX_ENTRY_INT_XCPT_ERR_CODE_VALID_MASK UINT32_C(0xffff) /** @} */ /** @name VM-entry interruption information types. * @{ */ #define VMX_ENTRY_INT_INFO_TYPE_EXT_INT 0 #define VMX_ENTRY_INT_INFO_TYPE_RSVD 1 #define VMX_ENTRY_INT_INFO_TYPE_NMI 2 #define VMX_ENTRY_INT_INFO_TYPE_HW_XCPT 3 #define VMX_ENTRY_INT_INFO_TYPE_SW_INT 4 #define VMX_ENTRY_INT_INFO_TYPE_PRIV_SW_XCPT 5 #define VMX_ENTRY_INT_INFO_TYPE_SW_XCPT 6 #define VMX_ENTRY_INT_INFO_TYPE_OTHER_EVENT 7 /** @} */ /** @name VM-entry interruption information vector types for * VMX_ENTRY_INT_INFO_TYPE_OTHER_EVENT. * @{ */ #define VMX_ENTRY_INT_INFO_VECTOR_MTF 0 /** @} */ /** @name VM-exit interruption information. * @{ */ #define VMX_EXIT_INT_INFO_VECTOR(a) ((a) & 0xff) #define VMX_EXIT_INT_INFO_TYPE_SHIFT 8 #define VMX_EXIT_INT_INFO_TYPE(a) (((a) >> 8) & 7) #define VMX_EXIT_INT_INFO_ERROR_CODE_VALID RT_BIT(11) #define VMX_EXIT_INT_INFO_IS_ERROR_CODE_VALID(a) (((a) >> 11) & 1) #define VMX_EXIT_INT_INFO_NMI_UNBLOCK_IRET 12 #define VMX_EXIT_INT_INFO_IS_NMI_UNBLOCK_IRET(a) (((a) >> 12) & 1) #define VMX_EXIT_INT_INFO_VALID RT_BIT(31) #define VMX_EXIT_INT_INFO_IS_VALID(a) (((a) >> 31) & 1) /** If the VM-exit interruption information field indicates an page-fault. */ #define VMX_EXIT_INT_INFO_IS_XCPT_PF(a) (((a) & ( VMX_BF_EXIT_INT_INFO_VALID_MASK \ | VMX_BF_EXIT_INT_INFO_TYPE_MASK \ | VMX_BF_EXIT_INT_INFO_VECTOR_MASK)) \ == ( RT_BF_MAKE(VMX_BF_EXIT_INT_INFO_VALID, 1) \ | RT_BF_MAKE(VMX_BF_EXIT_INT_INFO_TYPE, VMX_EXIT_INT_INFO_TYPE_HW_XCPT) \ | RT_BF_MAKE(VMX_BF_EXIT_INT_INFO_VECTOR, X86_XCPT_PF))) /** If the VM-exit interruption information field indicates an double-fault. */ #define VMX_EXIT_INT_INFO_IS_XCPT_DF(a) (((a) & ( VMX_BF_EXIT_INT_INFO_VALID_MASK \ | VMX_BF_EXIT_INT_INFO_TYPE_MASK \ | VMX_BF_EXIT_INT_INFO_VECTOR_MASK)) \ == ( RT_BF_MAKE(VMX_BF_EXIT_INT_INFO_VALID, 1) \ | RT_BF_MAKE(VMX_BF_EXIT_INT_INFO_TYPE, VMX_EXIT_INT_INFO_TYPE_HW_XCPT) \ | RT_BF_MAKE(VMX_BF_EXIT_INT_INFO_VECTOR, X86_XCPT_DF))) /** If the VM-exit interruption information field indicates an NMI. */ #define VMX_EXIT_INT_INFO_IS_XCPT_NMI(a) (((a) & ( VMX_BF_EXIT_INT_INFO_VALID_MASK \ | VMX_BF_EXIT_INT_INFO_TYPE_MASK \ | VMX_BF_EXIT_INT_INFO_VECTOR_MASK)) \ == ( RT_BF_MAKE(VMX_BF_EXIT_INT_INFO_VALID, 1) \ | RT_BF_MAKE(VMX_BF_EXIT_INT_INFO_TYPE, VMX_EXIT_INT_INFO_TYPE_NMI) \ | RT_BF_MAKE(VMX_BF_EXIT_INT_INFO_VECTOR, X86_XCPT_NMI))) /** Bit fields for VM-exit interruption infomration. */ /** The VM-exit interruption vector. */ #define VMX_BF_EXIT_INT_INFO_VECTOR_SHIFT 0 #define VMX_BF_EXIT_INT_INFO_VECTOR_MASK UINT32_C(0x000000ff) /** The VM-exit interruption type (see VMX_EXIT_INT_INFO_TYPE_XXX). */ #define VMX_BF_EXIT_INT_INFO_TYPE_SHIFT 8 #define VMX_BF_EXIT_INT_INFO_TYPE_MASK UINT32_C(0x00000700) /** Whether this event has an error code. */ #define VMX_BF_EXIT_INT_INFO_ERR_CODE_VALID_SHIFT 11 #define VMX_BF_EXIT_INT_INFO_ERR_CODE_VALID_MASK UINT32_C(0x00000800) /** Whether NMI-unblocking due to IRET is active. */ #define VMX_BF_EXIT_INT_INFO_NMI_UNBLOCK_IRET_SHIFT 12 #define VMX_BF_EXIT_INT_INFO_NMI_UNBLOCK_IRET_MASK UINT32_C(0x00001000) /** Bits 13:30 is reserved (MBZ). */ #define VMX_BF_EXIT_INT_INFO_RSVD_13_30_SHIFT 13 #define VMX_BF_EXIT_INT_INFO_RSVD_13_30_MASK UINT32_C(0x7fffe000) /** Whether this VM-exit interruption info is valid. */ #define VMX_BF_EXIT_INT_INFO_VALID_SHIFT 31 #define VMX_BF_EXIT_INT_INFO_VALID_MASK UINT32_C(0x80000000) RT_BF_ASSERT_COMPILE_CHECKS(VMX_BF_EXIT_INT_INFO_, UINT32_C(0), UINT32_MAX, (VECTOR, TYPE, ERR_CODE_VALID, NMI_UNBLOCK_IRET, RSVD_13_30, VALID)); /** @} */ /** @name VM-exit interruption information types. * @{ */ #define VMX_EXIT_INT_INFO_TYPE_EXT_INT 0 #define VMX_EXIT_INT_INFO_TYPE_NMI 2 #define VMX_EXIT_INT_INFO_TYPE_HW_XCPT 3 #define VMX_EXIT_INT_INFO_TYPE_SW_INT 4 #define VMX_EXIT_INT_INFO_TYPE_PRIV_SW_XCPT 5 #define VMX_EXIT_INT_INFO_TYPE_SW_XCPT 6 #define VMX_EXIT_INT_INFO_TYPE_UNUSED 7 /** @} */ /** @name VM-exit instruction identity. * * These are found in VM-exit instruction information fields for certain * instructions. * @{ */ typedef uint32_t VMXINSTRID; /** Whether the instruction ID field is valid. */ #define VMXINSTRID_VALID RT_BIT_32(31) /** Whether the instruction's primary operand in the Mod R/M byte (bits 0:3) is a * read or write. */ #define VMXINSTRID_MODRM_PRIMARY_OP_W RT_BIT_32(30) /** Gets whether the instruction ID is valid or not. */ #define VMXINSTRID_IS_VALID(a) (((a) >> 31) & 1) #define VMXINSTRID_IS_MODRM_PRIMARY_OP_W(a) (((a) >> 30) & 1) /** Gets the instruction ID. */ #define VMXINSTRID_GET_ID(a) ((a) & ~(VMXINSTRID_VALID | VMXINSTRID_MODRM_PRIMARY_OP_W)) /** No instruction ID info. */ #define VMXINSTRID_NONE 0 /** The OR'd rvalues are from the VT-x spec (valid bit is VBox specific): */ #define VMXINSTRID_SGDT (0x0 | VMXINSTRID_VALID | VMXINSTRID_MODRM_PRIMARY_OP_W) #define VMXINSTRID_SIDT (0x1 | VMXINSTRID_VALID | VMXINSTRID_MODRM_PRIMARY_OP_W) #define VMXINSTRID_LGDT (0x2 | VMXINSTRID_VALID) #define VMXINSTRID_LIDT (0x3 | VMXINSTRID_VALID) #define VMXINSTRID_SLDT (0x0 | VMXINSTRID_VALID | VMXINSTRID_MODRM_PRIMARY_OP_W) #define VMXINSTRID_STR (0x1 | VMXINSTRID_VALID | VMXINSTRID_MODRM_PRIMARY_OP_W) #define VMXINSTRID_LLDT (0x2 | VMXINSTRID_VALID) #define VMXINSTRID_LTR (0x3 | VMXINSTRID_VALID) /** The following IDs are used internally (some for logging, others for conveying * the ModR/M primary operand write bit): */ #define VMXINSTRID_VMLAUNCH (0x10 | VMXINSTRID_VALID) #define VMXINSTRID_VMRESUME (0x11 | VMXINSTRID_VALID) #define VMXINSTRID_VMREAD (0x12 | VMXINSTRID_VALID) #define VMXINSTRID_VMWRITE (0x13 | VMXINSTRID_VALID | VMXINSTRID_MODRM_PRIMARY_OP_W) #define VMXINSTRID_IO_IN (0x14 | VMXINSTRID_VALID) #define VMXINSTRID_IO_INS (0x15 | VMXINSTRID_VALID) #define VMXINSTRID_IO_OUT (0x16 | VMXINSTRID_VALID) #define VMXINSTRID_IO_OUTS (0x17 | VMXINSTRID_VALID) #define VMXINSTRID_MOV_TO_DRX (0x18 | VMXINSTRID_VALID) #define VMXINSTRID_MOV_FROM_DRX (0x19 | VMXINSTRID_VALID) #define VMXINSTRID_RDSEED (0x20 | VMXINSTRID_VALID | VMXINSTRID_MODRM_PRIMARY_OP_W) #define VMXINSTRID_RDRAND (0x21 | VMXINSTRID_VALID | VMXINSTRID_MODRM_PRIMARY_OP_W) /** @} */ /** @name IDT-vectoring information. * @{ */ #define VMX_IDT_VECTORING_INFO_VECTOR(a) ((a) & 0xff) #define VMX_IDT_VECTORING_INFO_TYPE_SHIFT 8 #define VMX_IDT_VECTORING_INFO_TYPE(a) (((a) >> 8) & 7) #define VMX_IDT_VECTORING_INFO_ERROR_CODE_VALID RT_BIT(11) #define VMX_IDT_VECTORING_INFO_IS_ERROR_CODE_VALID(a) (((a) >> 11) & 1) #define VMX_IDT_VECTORING_INFO_IS_VALID(a) (((a) >> 31) & 1) #define VMX_IDT_VECTORING_INFO_VALID RT_BIT(31) /** Construct an IDT-vectoring information field from an VM-entry interruption * information field (same except that bit 12 is reserved). */ #define VMX_IDT_VECTORING_INFO_FROM_ENTRY_INT_INFO(a) ((a) & ~RT_BIT(12)) /** If the IDT-vectoring information field indicates a page-fault. */ #define VMX_IDT_VECTORING_INFO_IS_XCPT_PF(a) (((a) & ( VMX_BF_IDT_VECTORING_INFO_VALID_MASK \ | VMX_BF_IDT_VECTORING_INFO_TYPE_MASK \ | VMX_BF_IDT_VECTORING_INFO_VECTOR_MASK)) \ == ( RT_BF_MAKE(VMX_BF_IDT_VECTORING_INFO_VALID, 1) \ | RT_BF_MAKE(VMX_BF_IDT_VECTORING_INFO_TYPE, VMX_IDT_VECTORING_INFO_TYPE_HW_XCPT) \ | RT_BF_MAKE(VMX_BF_IDT_VECTORING_INFO_VECTOR, X86_XCPT_PF))) /** If the IDT-vectoring information field indicates an NMI. */ #define VMX_IDT_VECTORING_INFO_IS_XCPT_NMI(a) (((a) & ( VMX_BF_IDT_VECTORING_INFO_VALID_MASK \ | VMX_BF_IDT_VECTORING_INFO_TYPE_MASK \ | VMX_BF_IDT_VECTORING_INFO_VECTOR_MASK)) \ == ( RT_BF_MAKE(VMX_BF_IDT_VECTORING_INFO_VALID, 1) \ | RT_BF_MAKE(VMX_BF_IDT_VECTORING_INFO_TYPE, VMX_IDT_VECTORING_INFO_TYPE_NMI) \ | RT_BF_MAKE(VMX_BF_IDT_VECTORING_INFO_VECTOR, X86_XCPT_NMI))) /** Bit fields for IDT-vectoring information. */ /** The IDT-vectoring info vector. */ #define VMX_BF_IDT_VECTORING_INFO_VECTOR_SHIFT 0 #define VMX_BF_IDT_VECTORING_INFO_VECTOR_MASK UINT32_C(0x000000ff) /** The IDT-vectoring info type (see VMX_IDT_VECTORING_INFO_TYPE_XXX). */ #define VMX_BF_IDT_VECTORING_INFO_TYPE_SHIFT 8 #define VMX_BF_IDT_VECTORING_INFO_TYPE_MASK UINT32_C(0x00000700) /** Whether the event has an error code. */ #define VMX_BF_IDT_VECTORING_INFO_ERR_CODE_VALID_SHIFT 11 #define VMX_BF_IDT_VECTORING_INFO_ERR_CODE_VALID_MASK UINT32_C(0x00000800) /** Bit 12 is undefined. */ #define VMX_BF_IDT_VECTORING_INFO_UNDEF_12_SHIFT 12 #define VMX_BF_IDT_VECTORING_INFO_UNDEF_12_MASK UINT32_C(0x00001000) /** Bits 13:30 is reserved (MBZ). */ #define VMX_BF_IDT_VECTORING_INFO_RSVD_13_30_SHIFT 13 #define VMX_BF_IDT_VECTORING_INFO_RSVD_13_30_MASK UINT32_C(0x7fffe000) /** Whether this IDT-vectoring info is valid. */ #define VMX_BF_IDT_VECTORING_INFO_VALID_SHIFT 31 #define VMX_BF_IDT_VECTORING_INFO_VALID_MASK UINT32_C(0x80000000) RT_BF_ASSERT_COMPILE_CHECKS(VMX_BF_IDT_VECTORING_INFO_, UINT32_C(0), UINT32_MAX, (VECTOR, TYPE, ERR_CODE_VALID, UNDEF_12, RSVD_13_30, VALID)); /** @} */ /** @name IDT-vectoring information vector types. * @{ */ #define VMX_IDT_VECTORING_INFO_TYPE_EXT_INT 0 #define VMX_IDT_VECTORING_INFO_TYPE_NMI 2 #define VMX_IDT_VECTORING_INFO_TYPE_HW_XCPT 3 #define VMX_IDT_VECTORING_INFO_TYPE_SW_INT 4 #define VMX_IDT_VECTORING_INFO_TYPE_PRIV_SW_XCPT 5 #define VMX_IDT_VECTORING_INFO_TYPE_SW_XCPT 6 #define VMX_IDT_VECTORING_INFO_TYPE_UNUSED 7 /** @} */ /** @name TPR threshold. * @{ */ /** Mask of the TPR threshold field (bits 31:4 MBZ). */ #define VMX_TPR_THRESHOLD_MASK UINT32_C(0xf) /** Bit fields for TPR threshold. */ #define VMX_BF_TPR_THRESHOLD_TPR_SHIFT 0 #define VMX_BF_TPR_THRESHOLD_TPR_MASK UINT32_C(0x0000000f) #define VMX_BF_TPR_THRESHOLD_RSVD_4_31_SHIFT 4 #define VMX_BF_TPR_THRESHOLD_RSVD_4_31_MASK UINT32_C(0xfffffff0) RT_BF_ASSERT_COMPILE_CHECKS(VMX_BF_TPR_THRESHOLD_, UINT32_C(0), UINT32_MAX, (TPR, RSVD_4_31)); /** @} */ /** @name Guest-activity states. * @{ */ /** The logical processor is active. */ #define VMX_VMCS_GUEST_ACTIVITY_ACTIVE 0x0 /** The logical processor is inactive, because it executed a HLT instruction. */ #define VMX_VMCS_GUEST_ACTIVITY_HLT 0x1 /** The logical processor is inactive, because of a triple fault or other serious error. */ #define VMX_VMCS_GUEST_ACTIVITY_SHUTDOWN 0x2 /** The logical processor is inactive, because it's waiting for a startup-IPI */ #define VMX_VMCS_GUEST_ACTIVITY_SIPI_WAIT 0x3 /** @} */ /** @name Guest-interruptibility states. * @{ */ #define VMX_VMCS_GUEST_INT_STATE_BLOCK_STI RT_BIT(0) #define VMX_VMCS_GUEST_INT_STATE_BLOCK_MOVSS RT_BIT(1) #define VMX_VMCS_GUEST_INT_STATE_BLOCK_SMI RT_BIT(2) #define VMX_VMCS_GUEST_INT_STATE_BLOCK_NMI RT_BIT(3) #define VMX_VMCS_GUEST_INT_STATE_ENCLAVE RT_BIT(4) /** Mask of the guest-interruptibility state field (bits 31:5 MBZ). */ #define VMX_VMCS_GUEST_INT_STATE_MASK UINT32_C(0x1f) /** @} */ /** @name Exit qualification for debug exceptions. * @{ */ /** Hardware breakpoint 0 was met. */ #define VMX_VMCS_EXIT_QUAL_DEBUG_XCPT_BP0 RT_BIT_64(0) /** Hardware breakpoint 1 was met. */ #define VMX_VMCS_EXIT_QUAL_DEBUG_XCPT_BP1 RT_BIT_64(1) /** Hardware breakpoint 2 was met. */ #define VMX_VMCS_EXIT_QUAL_DEBUG_XCPT_BP2 RT_BIT_64(2) /** Hardware breakpoint 3 was met. */ #define VMX_VMCS_EXIT_QUAL_DEBUG_XCPT_BP3 RT_BIT_64(3) /** Debug register access detected. */ #define VMX_VMCS_EXIT_QUAL_DEBUG_XCPT_BD RT_BIT_64(13) /** A debug exception would have been triggered by single-step execution mode. */ #define VMX_VMCS_EXIT_QUAL_DEBUG_XCPT_BS RT_BIT_64(14) /** Mask of all valid bits. */ #define VMX_VMCS_EXIT_QUAL_VALID_MASK ( VMX_VMCS_EXIT_QUAL_DEBUG_XCPT_BP0 \ | VMX_VMCS_EXIT_QUAL_DEBUG_XCPT_BP1 \ | VMX_VMCS_EXIT_QUAL_DEBUG_XCPT_BP2 \ | VMX_VMCS_EXIT_QUAL_DEBUG_XCPT_BP3 \ | VMX_VMCS_EXIT_QUAL_DEBUG_XCPT_BD \ | VMX_VMCS_EXIT_QUAL_DEBUG_XCPT_BS) /** Bit fields for Exit qualifications due to debug exceptions. */ #define VMX_BF_EXIT_QUAL_DEBUG_XCPT_BP0_SHIFT 0 #define VMX_BF_EXIT_QUAL_DEBUG_XCPT_BP0_MASK UINT64_C(0x0000000000000001) #define VMX_BF_EXIT_QUAL_DEBUG_XCPT_BP1_SHIFT 1 #define VMX_BF_EXIT_QUAL_DEBUG_XCPT_BP1_MASK UINT64_C(0x0000000000000002) #define VMX_BF_EXIT_QUAL_DEBUG_XCPT_BP2_SHIFT 2 #define VMX_BF_EXIT_QUAL_DEBUG_XCPT_BP2_MASK UINT64_C(0x0000000000000004) #define VMX_BF_EXIT_QUAL_DEBUG_XCPT_BP3_SHIFT 3 #define VMX_BF_EXIT_QUAL_DEBUG_XCPT_BP3_MASK UINT64_C(0x0000000000000008) #define VMX_BF_EXIT_QUAL_DEBUG_XCPT_RSVD_4_12_SHIFT 4 #define VMX_BF_EXIT_QUAL_DEBUG_XCPT_RSVD_4_12_MASK UINT64_C(0x0000000000001ff0) #define VMX_BF_EXIT_QUAL_DEBUG_XCPT_BD_SHIFT 13 #define VMX_BF_EXIT_QUAL_DEBUG_XCPT_BD_MASK UINT64_C(0x0000000000002000) #define VMX_BF_EXIT_QUAL_DEBUG_XCPT_BS_SHIFT 14 #define VMX_BF_EXIT_QUAL_DEBUG_XCPT_BS_MASK UINT64_C(0x0000000000004000) #define VMX_BF_EXIT_QUAL_DEBUG_XCPT_RSVD_15_63_SHIFT 15 #define VMX_BF_EXIT_QUAL_DEBUG_XCPT_RSVD_15_63_MASK UINT64_C(0xffffffffffff8000) RT_BF_ASSERT_COMPILE_CHECKS(VMX_BF_EXIT_QUAL_DEBUG_XCPT_, UINT64_C(0), UINT64_MAX, (BP0, BP1, BP2, BP3, RSVD_4_12, BD, BS, RSVD_15_63)); /** @} */ /** @name Exit qualification for Mov DRx. * @{ */ /** 0-2: Debug register number */ #define VMX_EXIT_QUAL_DRX_REGISTER(a) ((a) & 7) /** 3: Reserved; cleared to 0. */ #define VMX_EXIT_QUAL_DRX_RES1(a) (((a) >> 3) & 1) /** 4: Direction of move (0 = write, 1 = read) */ #define VMX_EXIT_QUAL_DRX_DIRECTION(a) (((a) >> 4) & 1) /** 5-7: Reserved; cleared to 0. */ #define VMX_EXIT_QUAL_DRX_RES2(a) (((a) >> 5) & 7) /** 8-11: General purpose register number. */ #define VMX_EXIT_QUAL_DRX_GENREG(a) (((a) >> 8) & 0xf) /** Bit fields for Exit qualification due to Mov DRx. */ #define VMX_BF_EXIT_QUAL_DRX_REGISTER_SHIFT 0 #define VMX_BF_EXIT_QUAL_DRX_REGISTER_MASK UINT64_C(0x0000000000000007) #define VMX_BF_EXIT_QUAL_DRX_RSVD_1_SHIFT 3 #define VMX_BF_EXIT_QUAL_DRX_RSVD_1_MASK UINT64_C(0x0000000000000008) #define VMX_BF_EXIT_QUAL_DRX_DIRECTION_SHIFT 4 #define VMX_BF_EXIT_QUAL_DRX_DIRECTION_MASK UINT64_C(0x0000000000000010) #define VMX_BF_EXIT_QUAL_DRX_RSVD_5_7_SHIFT 5 #define VMX_BF_EXIT_QUAL_DRX_RSVD_5_7_MASK UINT64_C(0x00000000000000e0) #define VMX_BF_EXIT_QUAL_DRX_GENREG_SHIFT 8 #define VMX_BF_EXIT_QUAL_DRX_GENREG_MASK UINT64_C(0x0000000000000f00) #define VMX_BF_EXIT_QUAL_DRX_RSVD_12_63_SHIFT 12 #define VMX_BF_EXIT_QUAL_DRX_RSVD_12_63_MASK UINT64_C(0xfffffffffffff000) RT_BF_ASSERT_COMPILE_CHECKS(VMX_BF_EXIT_QUAL_DRX_, UINT64_C(0), UINT64_MAX, (REGISTER, RSVD_1, DIRECTION, RSVD_5_7, GENREG, RSVD_12_63)); /** @} */ /** @name Exit qualification for debug exceptions types. * @{ */ #define VMX_EXIT_QUAL_DRX_DIRECTION_WRITE 0 #define VMX_EXIT_QUAL_DRX_DIRECTION_READ 1 /** @} */ /** @name Exit qualification for control-register accesses. * @{ */ /** 0-3: Control register number (0 for CLTS & LMSW) */ #define VMX_EXIT_QUAL_CRX_REGISTER(a) ((a) & 0xf) /** 4-5: Access type. */ #define VMX_EXIT_QUAL_CRX_ACCESS(a) (((a) >> 4) & 3) /** 6: LMSW operand type memory (1 for memory, 0 for register). */ #define VMX_EXIT_QUAL_CRX_LMSW_OP_MEM(a) (((a) >> 6) & 1) /** 7: Reserved; cleared to 0. */ #define VMX_EXIT_QUAL_CRX_RES1(a) (((a) >> 7) & 1) /** 8-11: General purpose register number (0 for CLTS & LMSW). */ #define VMX_EXIT_QUAL_CRX_GENREG(a) (((a) >> 8) & 0xf) /** 12-15: Reserved; cleared to 0. */ #define VMX_EXIT_QUAL_CRX_RES2(a) (((a) >> 12) & 0xf) /** 16-31: LMSW source data (else 0). */ #define VMX_EXIT_QUAL_CRX_LMSW_DATA(a) (((a) >> 16) & 0xffff) /** Bit fields for Exit qualification for control-register accesses. */ #define VMX_BF_EXIT_QUAL_CRX_REGISTER_SHIFT 0 #define VMX_BF_EXIT_QUAL_CRX_REGISTER_MASK UINT64_C(0x000000000000000f) #define VMX_BF_EXIT_QUAL_CRX_ACCESS_SHIFT 4 #define VMX_BF_EXIT_QUAL_CRX_ACCESS_MASK UINT64_C(0x0000000000000030) #define VMX_BF_EXIT_QUAL_CRX_LMSW_OP_SHIFT 6 #define VMX_BF_EXIT_QUAL_CRX_LMSW_OP_MASK UINT64_C(0x0000000000000040) #define VMX_BF_EXIT_QUAL_CRX_RSVD_7_SHIFT 7 #define VMX_BF_EXIT_QUAL_CRX_RSVD_7_MASK UINT64_C(0x0000000000000080) #define VMX_BF_EXIT_QUAL_CRX_GENREG_SHIFT 8 #define VMX_BF_EXIT_QUAL_CRX_GENREG_MASK UINT64_C(0x0000000000000f00) #define VMX_BF_EXIT_QUAL_CRX_RSVD_12_15_SHIFT 12 #define VMX_BF_EXIT_QUAL_CRX_RSVD_12_15_MASK UINT64_C(0x000000000000f000) #define VMX_BF_EXIT_QUAL_CRX_LMSW_DATA_SHIFT 16 #define VMX_BF_EXIT_QUAL_CRX_LMSW_DATA_MASK UINT64_C(0x00000000ffff0000) #define VMX_BF_EXIT_QUAL_CRX_RSVD_32_63_SHIFT 32 #define VMX_BF_EXIT_QUAL_CRX_RSVD_32_63_MASK UINT64_C(0xffffffff00000000) RT_BF_ASSERT_COMPILE_CHECKS(VMX_BF_EXIT_QUAL_CRX_, UINT64_C(0), UINT64_MAX, (REGISTER, ACCESS, LMSW_OP, RSVD_7, GENREG, RSVD_12_15, LMSW_DATA, RSVD_32_63)); /** @} */ /** @name Exit qualification for control-register access types. * @{ */ #define VMX_EXIT_QUAL_CRX_ACCESS_WRITE 0 #define VMX_EXIT_QUAL_CRX_ACCESS_READ 1 #define VMX_EXIT_QUAL_CRX_ACCESS_CLTS 2 #define VMX_EXIT_QUAL_CRX_ACCESS_LMSW 3 /** @} */ /** @name Exit qualification for task switch. * @{ */ #define VMX_EXIT_QUAL_TASK_SWITCH_SELECTOR(a) ((a) & 0xffff) #define VMX_EXIT_QUAL_TASK_SWITCH_TYPE(a) (((a) >> 30) & 0x3) /** Task switch caused by a call instruction. */ #define VMX_EXIT_QUAL_TASK_SWITCH_TYPE_CALL 0 /** Task switch caused by an iret instruction. */ #define VMX_EXIT_QUAL_TASK_SWITCH_TYPE_IRET 1 /** Task switch caused by a jmp instruction. */ #define VMX_EXIT_QUAL_TASK_SWITCH_TYPE_JMP 2 /** Task switch caused by an interrupt gate. */ #define VMX_EXIT_QUAL_TASK_SWITCH_TYPE_IDT 3 /** Bit fields for Exit qualification for task switches. */ #define VMX_BF_EXIT_QUAL_TASK_SWITCH_NEW_TSS_SHIFT 0 #define VMX_BF_EXIT_QUAL_TASK_SWITCH_NEW_TSS_MASK UINT64_C(0x000000000000ffff) #define VMX_BF_EXIT_QUAL_TASK_SWITCH_RSVD_16_29_SHIFT 16 #define VMX_BF_EXIT_QUAL_TASK_SWITCH_RSVD_16_29_MASK UINT64_C(0x000000003fff0000) #define VMX_BF_EXIT_QUAL_TASK_SWITCH_SOURCE_SHIFT 30 #define VMX_BF_EXIT_QUAL_TASK_SWITCH_SOURCE_MASK UINT64_C(0x00000000c0000000) #define VMX_BF_EXIT_QUAL_TASK_SWITCH_RSVD_32_63_SHIFT 32 #define VMX_BF_EXIT_QUAL_TASK_SWITCH_RSVD_32_63_MASK UINT64_C(0xffffffff00000000) RT_BF_ASSERT_COMPILE_CHECKS(VMX_BF_EXIT_QUAL_TASK_SWITCH_, UINT64_C(0), UINT64_MAX, (NEW_TSS, RSVD_16_29, SOURCE, RSVD_32_63)); /** @} */ /** @name Exit qualification for EPT violations. * @{ */ /** Set if acess causing the violation was a data read. */ #define VMX_EXIT_QUAL_EPT_ACCESS_READ RT_BIT_64(0) /** Set if acess causing the violation was a data write. */ #define VMX_EXIT_QUAL_EPT_ACCESS_WRITE RT_BIT_64(1) /** Set if the violation was caused by an instruction fetch. */ #define VMX_EXIT_QUAL_EPT_ACCESS_INSTR_FETCH RT_BIT_64(2) /** AND of the read bit of all EPT structures. */ #define VMX_EXIT_QUAL_EPT_ENTRY_READ RT_BIT_64(3) /** AND of the write bit of all EPT structures. */ #define VMX_EXIT_QUAL_EPT_ENTRY_WRITE RT_BIT_64(4) /** AND of the execute bit of all EPT structures. */ #define VMX_EXIT_QUAL_EPT_ENTRY_EXECUTE RT_BIT_64(5) /** And of the execute bit of all EPT structures for user-mode addresses * (requires mode-based execute control). */ #define VMX_EXIT_QUAL_EPT_ENTRY_EXECUTE_USER RT_BIT_64(6) /** Set if the guest linear address field is valid. */ #define VMX_EXIT_QUAL_EPT_LINEAR_ADDR_VALID RT_BIT_64(7) /** If bit 7 is one: (reserved otherwise) * 1 - violation due to physical address access. * 0 - violation caused by page walk or access/dirty bit updates. */ #define VMX_EXIT_QUAL_EPT_LINEAR_TO_PHYS_ADDR RT_BIT_64(8) /** If bit 7, 8 and advanced VM-exit info. for EPT is one: (reserved otherwise) * 1 - linear address is user-mode address. * 0 - linear address is supervisor-mode address. */ #define VMX_EXIT_QUAL_EPT_LINEAR_ADDR_USER RT_BIT_64(9) /** If bit 7, 8 and advanced VM-exit info. for EPT is one: (reserved otherwise) * 1 - linear address translates to read-only page. * 0 - linear address translates to read-write page. */ #define VMX_EXIT_QUAL_EPT_LINEAR_ADDR_RO RT_BIT_64(10) /** If bit 7, 8 and advanced VM-exit info. for EPT is one: (reserved otherwise) * 1 - linear address translates to executable-disabled page. * 0 - linear address translates to executable page. */ #define VMX_EXIT_QUAL_EPT_LINEAR_ADDR_XD RT_BIT_64(11) /** NMI unblocking due to IRET. */ #define VMX_EXIT_QUAL_EPT_NMI_UNBLOCK_IRET RT_BIT_64(12) /** Set if acess causing the violation was a shadow-stack access. */ #define VMX_EXIT_QUAL_EPT_ACCESS_SHW_STACK RT_BIT_64(13) /** If supervisor-shadow stack is enabled: (reserved otherwise) * 1 - supervisor shadow-stack access allowed. * 0 - supervisor shadow-stack access disallowed. */ #define VMX_EXIT_QUAL_EPT_ENTRY_SHW_STACK_SUPER RT_BIT_64(14) /** Set if access is related to trace output by Intel PT (reserved otherwise). */ #define VMX_EXIT_QUAL_EPT_ACCESS_PT_TRACE RT_BIT_64(16) /** Checks whether NMI unblocking due to IRET. */ #define VMX_EXIT_QUAL_EPT_IS_NMI_UNBLOCK_IRET(a) (((a) >> 12) & 1) /** Bit fields for Exit qualification for EPT violations. */ #define VMX_BF_EXIT_QUAL_EPT_ACCESS_READ_SHIFT 0 #define VMX_BF_EXIT_QUAL_EPT_ACCESS_READ_MASK UINT64_C(0x0000000000000001) #define VMX_BF_EXIT_QUAL_EPT_ACCESS_WRITE_SHIFT 1 #define VMX_BF_EXIT_QUAL_EPT_ACCESS_WRITE_MASK UINT64_C(0x0000000000000002) #define VMX_BF_EXIT_QUAL_EPT_ACCESS_INSTR_FETCH_SHIFT 2 #define VMX_BF_EXIT_QUAL_EPT_ACCESS_INSTR_FETCH_MASK UINT64_C(0x0000000000000004) #define VMX_BF_EXIT_QUAL_EPT_ENTRY_READ_SHIFT 3 #define VMX_BF_EXIT_QUAL_EPT_ENTRY_READ_MASK UINT64_C(0x0000000000000008) #define VMX_BF_EXIT_QUAL_EPT_ENTRY_WRITE_SHIFT 4 #define VMX_BF_EXIT_QUAL_EPT_ENTRY_WRITE_MASK UINT64_C(0x0000000000000010) #define VMX_BF_EXIT_QUAL_EPT_ENTRY_EXECUTE_SHIFT 5 #define VMX_BF_EXIT_QUAL_EPT_ENTRY_EXECUTE_MASK UINT64_C(0x0000000000000020) #define VMX_BF_EXIT_QUAL_EPT_ENTRY_EXECUTE_USER_SHIFT 6 #define VMX_BF_EXIT_QUAL_EPT_ENTRY_EXECUTE_USER_MASK UINT64_C(0x0000000000000040) #define VMX_BF_EXIT_QUAL_EPT_LINEAR_ADDR_VALID_SHIFT 7 #define VMX_BF_EXIT_QUAL_EPT_LINEAR_ADDR_VALID_MASK UINT64_C(0x0000000000000080) #define VMX_BF_EXIT_QUAL_EPT_LINEAR_TO_PHYS_ADDR_SHIFT 8 #define VMX_BF_EXIT_QUAL_EPT_LINEAR_TO_PHYS_ADDR_MASK UINT64_C(0x0000000000000100) #define VMX_BF_EXIT_QUAL_EPT_LINEAR_ADDR_USER_SHIFT 9 #define VMX_BF_EXIT_QUAL_EPT_LINEAR_ADDR_USER_MASK UINT64_C(0x0000000000000200) #define VMX_BF_EXIT_QUAL_EPT_LINEAR_ADDR_RO_SHIFT 10 #define VMX_BF_EXIT_QUAL_EPT_LINEAR_ADDR_RO_MASK UINT64_C(0x0000000000000400) #define VMX_BF_EXIT_QUAL_EPT_LINEAR_ADDR_XD_SHIFT 11 #define VMX_BF_EXIT_QUAL_EPT_LINEAR_ADDR_XD_MASK UINT64_C(0x0000000000000800) #define VMX_BF_EXIT_QUAL_EPT_NMI_UNBLOCK_IRET_SHIFT 12 #define VMX_BF_EXIT_QUAL_EPT_NMI_UNBLOCK_IRET_MASK UINT64_C(0x0000000000001000) #define VMX_BF_EXIT_QUAL_EPT_ACCESS_SHW_STACK_SHIFT 13 #define VMX_BF_EXIT_QUAL_EPT_ACCESS_SHW_STACK_MASK UINT64_C(0x0000000000002000) #define VMX_BF_EXIT_QUAL_EPT_ENTRY_SHW_STACK_SUPER_SHIFT 14 #define VMX_BF_EXIT_QUAL_EPT_ENTRY_SHW_STACK_SUPER_MASK UINT64_C(0x0000000000004000) #define VMX_BF_EXIT_QUAL_EPT_RSVD_15_SHIFT 15 #define VMX_BF_EXIT_QUAL_EPT_RSVD_15_MASK UINT64_C(0x0000000000008000) #define VMX_BF_EXIT_QUAL_EPT_ACCESS_PT_TRACE_SHIFT 16 #define VMX_BF_EXIT_QUAL_EPT_ACCESS_PT_TRACE_MASK UINT64_C(0x0000000000010000) #define VMX_BF_EXIT_QUAL_EPT_RSVD_17_63_SHIFT 17 #define VMX_BF_EXIT_QUAL_EPT_RSVD_17_63_MASK UINT64_C(0xfffffffffffe0000) RT_BF_ASSERT_COMPILE_CHECKS(VMX_BF_EXIT_QUAL_EPT_, UINT64_C(0), UINT64_MAX, (ACCESS_READ, ACCESS_WRITE, ACCESS_INSTR_FETCH, ENTRY_READ, ENTRY_WRITE, ENTRY_EXECUTE, ENTRY_EXECUTE_USER, LINEAR_ADDR_VALID, LINEAR_TO_PHYS_ADDR, LINEAR_ADDR_USER, LINEAR_ADDR_RO, LINEAR_ADDR_XD, NMI_UNBLOCK_IRET, ACCESS_SHW_STACK, ENTRY_SHW_STACK_SUPER, RSVD_15, ACCESS_PT_TRACE, RSVD_17_63)); /** @} */ /** @name Exit qualification for I/O instructions. * @{ */ /** 0-2: IO operation size 0(=1 byte), 1(=2 bytes) and 3(=4 bytes). */ #define VMX_EXIT_QUAL_IO_SIZE(a) ((a) & 7) /** 3: IO operation direction. */ #define VMX_EXIT_QUAL_IO_DIRECTION(a) (((a) >> 3) & 1) /** 4: String IO operation (INS / OUTS). */ #define VMX_EXIT_QUAL_IO_IS_STRING(a) (((a) >> 4) & 1) /** 5: Repeated IO operation. */ #define VMX_EXIT_QUAL_IO_IS_REP(a) (((a) >> 5) & 1) /** 6: Operand encoding. */ #define VMX_EXIT_QUAL_IO_ENCODING(a) (((a) >> 6) & 1) /** 16-31: IO Port (0-0xffff). */ #define VMX_EXIT_QUAL_IO_PORT(a) (((a) >> 16) & 0xffff) /** Bit fields for Exit qualification for I/O instructions. */ #define VMX_BF_EXIT_QUAL_IO_WIDTH_SHIFT 0 #define VMX_BF_EXIT_QUAL_IO_WIDTH_MASK UINT64_C(0x0000000000000007) #define VMX_BF_EXIT_QUAL_IO_DIRECTION_SHIFT 3 #define VMX_BF_EXIT_QUAL_IO_DIRECTION_MASK UINT64_C(0x0000000000000008) #define VMX_BF_EXIT_QUAL_IO_IS_STRING_SHIFT 4 #define VMX_BF_EXIT_QUAL_IO_IS_STRING_MASK UINT64_C(0x0000000000000010) #define VMX_BF_EXIT_QUAL_IO_IS_REP_SHIFT 5 #define VMX_BF_EXIT_QUAL_IO_IS_REP_MASK UINT64_C(0x0000000000000020) #define VMX_BF_EXIT_QUAL_IO_ENCODING_SHIFT 6 #define VMX_BF_EXIT_QUAL_IO_ENCODING_MASK UINT64_C(0x0000000000000040) #define VMX_BF_EXIT_QUAL_IO_RSVD_7_15_SHIFT 7 #define VMX_BF_EXIT_QUAL_IO_RSVD_7_15_MASK UINT64_C(0x000000000000ff80) #define VMX_BF_EXIT_QUAL_IO_PORT_SHIFT 16 #define VMX_BF_EXIT_QUAL_IO_PORT_MASK UINT64_C(0x00000000ffff0000) #define VMX_BF_EXIT_QUAL_IO_RSVD_32_63_SHIFT 32 #define VMX_BF_EXIT_QUAL_IO_RSVD_32_63_MASK UINT64_C(0xffffffff00000000) RT_BF_ASSERT_COMPILE_CHECKS(VMX_BF_EXIT_QUAL_IO_, UINT64_C(0), UINT64_MAX, (WIDTH, DIRECTION, IS_STRING, IS_REP, ENCODING, RSVD_7_15, PORT, RSVD_32_63)); /** @} */ /** @name Exit qualification for I/O instruction types. * @{ */ #define VMX_EXIT_QUAL_IO_DIRECTION_OUT 0 #define VMX_EXIT_QUAL_IO_DIRECTION_IN 1 /** @} */ /** @name Exit qualification for I/O instruction encoding. * @{ */ #define VMX_EXIT_QUAL_IO_ENCODING_DX 0 #define VMX_EXIT_QUAL_IO_ENCODING_IMM 1 /** @} */ /** @name Exit qualification for APIC-access VM-exits from linear and * guest-physical accesses. * @{ */ /** 0-11: If the APIC-access VM-exit is due to a linear access, the offset of * access within the APIC page. */ #define VMX_EXIT_QUAL_APIC_ACCESS_OFFSET(a) ((a) & 0xfff) /** 12-15: Access type. */ #define VMX_EXIT_QUAL_APIC_ACCESS_TYPE(a) (((a) & 0xf000) >> 12) /* Rest reserved. */ /** Bit fields for Exit qualification for APIC-access VM-exits. */ #define VMX_BF_EXIT_QUAL_APIC_ACCESS_OFFSET_SHIFT 0 #define VMX_BF_EXIT_QUAL_APIC_ACCESS_OFFSET_MASK UINT64_C(0x0000000000000fff) #define VMX_BF_EXIT_QUAL_APIC_ACCESS_TYPE_SHIFT 12 #define VMX_BF_EXIT_QUAL_APIC_ACCESS_TYPE_MASK UINT64_C(0x000000000000f000) #define VMX_BF_EXIT_QUAL_APIC_ACCESS_RSVD_16_63_SHIFT 16 #define VMX_BF_EXIT_QUAL_APIC_ACCESS_RSVD_16_63_MASK UINT64_C(0xffffffffffff0000) RT_BF_ASSERT_COMPILE_CHECKS(VMX_BF_EXIT_QUAL_APIC_ACCESS_, UINT64_C(0), UINT64_MAX, (OFFSET, TYPE, RSVD_16_63)); /** @} */ /** @name Exit qualification for linear address APIC-access types. * @{ */ /** Linear access for a data read during instruction execution. */ #define VMX_APIC_ACCESS_TYPE_LINEAR_READ 0 /** Linear access for a data write during instruction execution. */ #define VMX_APIC_ACCESS_TYPE_LINEAR_WRITE 1 /** Linear access for an instruction fetch. */ #define VMX_APIC_ACCESS_TYPE_LINEAR_INSTR_FETCH 2 /** Linear read/write access during event delivery. */ #define VMX_APIC_ACCESS_TYPE_LINEAR_EVENT_DELIVERY 3 /** Physical read/write access during event delivery. */ #define VMX_APIC_ACCESS_TYPE_PHYSICAL_EVENT_DELIVERY 10 /** Physical access for an instruction fetch or during instruction execution. */ #define VMX_APIC_ACCESS_TYPE_PHYSICAL_INSTR 15 /** * APIC-access type. * In accordance with the VT-x spec. */ typedef enum { VMXAPICACCESS_LINEAR_READ = VMX_APIC_ACCESS_TYPE_LINEAR_READ, VMXAPICACCESS_LINEAR_WRITE = VMX_APIC_ACCESS_TYPE_LINEAR_WRITE, VMXAPICACCESS_LINEAR_INSTR_FETCH = VMX_APIC_ACCESS_TYPE_LINEAR_INSTR_FETCH, VMXAPICACCESS_LINEAR_EVENT_DELIVERY = VMX_APIC_ACCESS_TYPE_LINEAR_EVENT_DELIVERY, VMXAPICACCESS_PHYSICAL_EVENT_DELIVERY = VMX_APIC_ACCESS_TYPE_PHYSICAL_EVENT_DELIVERY, VMXAPICACCESS_PHYSICAL_INSTR = VMX_APIC_ACCESS_TYPE_PHYSICAL_INSTR } VMXAPICACCESS; AssertCompileSize(VMXAPICACCESS, 4); /** @} */ /** @name VMX_BF_XXTR_INSINFO_XXX - VMX_EXIT_XDTR_ACCESS instruction information. * Found in VMX_VMCS32_RO_EXIT_INSTR_INFO. * @{ */ /** Address calculation scaling field (powers of two). */ #define VMX_BF_XDTR_INSINFO_SCALE_SHIFT 0 #define VMX_BF_XDTR_INSINFO_SCALE_MASK UINT32_C(0x00000003) /** Bits 2 thru 6 are undefined. */ #define VMX_BF_XDTR_INSINFO_UNDEF_2_6_SHIFT 2 #define VMX_BF_XDTR_INSINFO_UNDEF_2_6_MASK UINT32_C(0x0000007c) /** Address size, only 0(=16), 1(=32) and 2(=64) are defined. * @remarks anyone's guess why this is a 3 bit field... */ #define VMX_BF_XDTR_INSINFO_ADDR_SIZE_SHIFT 7 #define VMX_BF_XDTR_INSINFO_ADDR_SIZE_MASK UINT32_C(0x00000380) /** Bit 10 is defined as zero. */ #define VMX_BF_XDTR_INSINFO_ZERO_10_SHIFT 10 #define VMX_BF_XDTR_INSINFO_ZERO_10_MASK UINT32_C(0x00000400) /** Operand size, either (1=)32-bit or (0=)16-bit, but get this, it's undefined * for exits from 64-bit code as the operand size there is fixed. */ #define VMX_BF_XDTR_INSINFO_OP_SIZE_SHIFT 11 #define VMX_BF_XDTR_INSINFO_OP_SIZE_MASK UINT32_C(0x00000800) /** Bits 12 thru 14 are undefined. */ #define VMX_BF_XDTR_INSINFO_UNDEF_12_14_SHIFT 12 #define VMX_BF_XDTR_INSINFO_UNDEF_12_14_MASK UINT32_C(0x00007000) /** Applicable segment register (X86_SREG_XXX values). */ #define VMX_BF_XDTR_INSINFO_SREG_SHIFT 15 #define VMX_BF_XDTR_INSINFO_SREG_MASK UINT32_C(0x00038000) /** Index register (X86_GREG_XXX values). Undefined if HAS_INDEX_REG is clear. */ #define VMX_BF_XDTR_INSINFO_INDEX_REG_SHIFT 18 #define VMX_BF_XDTR_INSINFO_INDEX_REG_MASK UINT32_C(0x003c0000) /** Is VMX_BF_XDTR_INSINFO_INDEX_REG_XXX valid (=1) or not (=0). */ #define VMX_BF_XDTR_INSINFO_HAS_INDEX_REG_SHIFT 22 #define VMX_BF_XDTR_INSINFO_HAS_INDEX_REG_MASK UINT32_C(0x00400000) /** Base register (X86_GREG_XXX values). Undefined if HAS_BASE_REG is clear. */ #define VMX_BF_XDTR_INSINFO_BASE_REG_SHIFT 23 #define VMX_BF_XDTR_INSINFO_BASE_REG_MASK UINT32_C(0x07800000) /** Is VMX_XDTR_INSINFO_BASE_REG_XXX valid (=1) or not (=0). */ #define VMX_BF_XDTR_INSINFO_HAS_BASE_REG_SHIFT 27 #define VMX_BF_XDTR_INSINFO_HAS_BASE_REG_MASK UINT32_C(0x08000000) /** The instruction identity (VMX_XDTR_INSINFO_II_XXX values). */ #define VMX_BF_XDTR_INSINFO_INSTR_ID_SHIFT 28 #define VMX_BF_XDTR_INSINFO_INSTR_ID_MASK UINT32_C(0x30000000) #define VMX_XDTR_INSINFO_II_SGDT 0 /**< Instruction ID: SGDT */ #define VMX_XDTR_INSINFO_II_SIDT 1 /**< Instruction ID: SIDT */ #define VMX_XDTR_INSINFO_II_LGDT 2 /**< Instruction ID: LGDT */ #define VMX_XDTR_INSINFO_II_LIDT 3 /**< Instruction ID: LIDT */ /** Bits 30 & 31 are undefined. */ #define VMX_BF_XDTR_INSINFO_UNDEF_30_31_SHIFT 30 #define VMX_BF_XDTR_INSINFO_UNDEF_30_31_MASK UINT32_C(0xc0000000) RT_BF_ASSERT_COMPILE_CHECKS(VMX_BF_XDTR_INSINFO_, UINT32_C(0), UINT32_MAX, (SCALE, UNDEF_2_6, ADDR_SIZE, ZERO_10, OP_SIZE, UNDEF_12_14, SREG, INDEX_REG, HAS_INDEX_REG, BASE_REG, HAS_BASE_REG, INSTR_ID, UNDEF_30_31)); /** @} */ /** @name VMX_BF_YYTR_INSINFO_XXX - VMX_EXIT_TR_ACCESS instruction information. * Found in VMX_VMCS32_RO_EXIT_INSTR_INFO. * This is similar to VMX_BF_XDTR_INSINFO_XXX. * @{ */ /** Address calculation scaling field (powers of two). */ #define VMX_BF_YYTR_INSINFO_SCALE_SHIFT 0 #define VMX_BF_YYTR_INSINFO_SCALE_MASK UINT32_C(0x00000003) /** Bit 2 is undefined. */ #define VMX_BF_YYTR_INSINFO_UNDEF_2_SHIFT 2 #define VMX_BF_YYTR_INSINFO_UNDEF_2_MASK UINT32_C(0x00000004) /** Register operand 1. Undefined if VMX_YYTR_INSINFO_HAS_REG1 is clear. */ #define VMX_BF_YYTR_INSINFO_REG1_SHIFT 3 #define VMX_BF_YYTR_INSINFO_REG1_MASK UINT32_C(0x00000078) /** Address size, only 0(=16), 1(=32) and 2(=64) are defined. * @remarks anyone's guess why this is a 3 bit field... */ #define VMX_BF_YYTR_INSINFO_ADDR_SIZE_SHIFT 7 #define VMX_BF_YYTR_INSINFO_ADDR_SIZE_MASK UINT32_C(0x00000380) /** Is VMX_YYTR_INSINFO_REG1_XXX valid (=1) or not (=0). */ #define VMX_BF_YYTR_INSINFO_HAS_REG1_SHIFT 10 #define VMX_BF_YYTR_INSINFO_HAS_REG1_MASK UINT32_C(0x00000400) /** Bits 11 thru 14 are undefined. */ #define VMX_BF_YYTR_INSINFO_UNDEF_11_14_SHIFT 11 #define VMX_BF_YYTR_INSINFO_UNDEF_11_14_MASK UINT32_C(0x00007800) /** Applicable segment register (X86_SREG_XXX values). */ #define VMX_BF_YYTR_INSINFO_SREG_SHIFT 15 #define VMX_BF_YYTR_INSINFO_SREG_MASK UINT32_C(0x00038000) /** Index register (X86_GREG_XXX values). Undefined if HAS_INDEX_REG is clear. */ #define VMX_BF_YYTR_INSINFO_INDEX_REG_SHIFT 18 #define VMX_BF_YYTR_INSINFO_INDEX_REG_MASK UINT32_C(0x003c0000) /** Is VMX_YYTR_INSINFO_INDEX_REG_XXX valid (=1) or not (=0). */ #define VMX_BF_YYTR_INSINFO_HAS_INDEX_REG_SHIFT 22 #define VMX_BF_YYTR_INSINFO_HAS_INDEX_REG_MASK UINT32_C(0x00400000) /** Base register (X86_GREG_XXX values). Undefined if HAS_BASE_REG is clear. */ #define VMX_BF_YYTR_INSINFO_BASE_REG_SHIFT 23 #define VMX_BF_YYTR_INSINFO_BASE_REG_MASK UINT32_C(0x07800000) /** Is VMX_YYTR_INSINFO_BASE_REG_XXX valid (=1) or not (=0). */ #define VMX_BF_YYTR_INSINFO_HAS_BASE_REG_SHIFT 27 #define VMX_BF_YYTR_INSINFO_HAS_BASE_REG_MASK UINT32_C(0x08000000) /** The instruction identity (VMX_YYTR_INSINFO_II_XXX values) */ #define VMX_BF_YYTR_INSINFO_INSTR_ID_SHIFT 28 #define VMX_BF_YYTR_INSINFO_INSTR_ID_MASK UINT32_C(0x30000000) #define VMX_YYTR_INSINFO_II_SLDT 0 /**< Instruction ID: SLDT */ #define VMX_YYTR_INSINFO_II_STR 1 /**< Instruction ID: STR */ #define VMX_YYTR_INSINFO_II_LLDT 2 /**< Instruction ID: LLDT */ #define VMX_YYTR_INSINFO_II_LTR 3 /**< Instruction ID: LTR */ /** Bits 30 & 31 are undefined. */ #define VMX_BF_YYTR_INSINFO_UNDEF_30_31_SHIFT 30 #define VMX_BF_YYTR_INSINFO_UNDEF_30_31_MASK UINT32_C(0xc0000000) RT_BF_ASSERT_COMPILE_CHECKS(VMX_BF_YYTR_INSINFO_, UINT32_C(0), UINT32_MAX, (SCALE, UNDEF_2, REG1, ADDR_SIZE, HAS_REG1, UNDEF_11_14, SREG, INDEX_REG, HAS_INDEX_REG, BASE_REG, HAS_BASE_REG, INSTR_ID, UNDEF_30_31)); /** @} */ /** @name Format of Pending-Debug-Exceptions. * Bits 4-11, 13, 15 and 17-63 are reserved. * Similar to DR6 except bit 12 (breakpoint enabled) and bit 16 (RTM) are both * possibly valid here but not in DR6. * @{ */ /** Hardware breakpoint 0 was met. */ #define VMX_VMCS_GUEST_PENDING_DEBUG_XCPT_BP0 RT_BIT_64(0) /** Hardware breakpoint 1 was met. */ #define VMX_VMCS_GUEST_PENDING_DEBUG_XCPT_BP1 RT_BIT_64(1) /** Hardware breakpoint 2 was met. */ #define VMX_VMCS_GUEST_PENDING_DEBUG_XCPT_BP2 RT_BIT_64(2) /** Hardware breakpoint 3 was met. */ #define VMX_VMCS_GUEST_PENDING_DEBUG_XCPT_BP3 RT_BIT_64(3) /** At least one data or IO breakpoint was hit. */ #define VMX_VMCS_GUEST_PENDING_DEBUG_XCPT_EN_BP RT_BIT_64(12) /** A debug exception would have been triggered by single-step execution mode. */ #define VMX_VMCS_GUEST_PENDING_DEBUG_XCPT_BS RT_BIT_64(14) /** A debug exception occurred inside an RTM region. */ #define VMX_VMCS_GUEST_PENDING_DEBUG_RTM RT_BIT_64(16) /** Mask of valid bits. */ #define VMX_VMCS_GUEST_PENDING_DEBUG_VALID_MASK ( VMX_VMCS_GUEST_PENDING_DEBUG_XCPT_BP0 \ | VMX_VMCS_GUEST_PENDING_DEBUG_XCPT_BP1 \ | VMX_VMCS_GUEST_PENDING_DEBUG_XCPT_BP2 \ | VMX_VMCS_GUEST_PENDING_DEBUG_XCPT_BP3 \ | VMX_VMCS_GUEST_PENDING_DEBUG_XCPT_EN_BP \ | VMX_VMCS_GUEST_PENDING_DEBUG_XCPT_BS \ | VMX_VMCS_GUEST_PENDING_DEBUG_RTM) #define VMX_VMCS_GUEST_PENDING_DEBUG_RTM_MASK ( VMX_VMCS_GUEST_PENDING_DEBUG_XCPT_EN_BP \ | VMX_VMCS_GUEST_PENDING_DEBUG_XCPT_BS \ | VMX_VMCS_GUEST_PENDING_DEBUG_RTM) /** Bit fields for Pending debug exceptions. */ #define VMX_BF_VMCS_PENDING_DBG_XCPT_BP0_SHIFT 0 #define VMX_BF_VMCS_PENDING_DBG_XCPT_BP0_MASK UINT64_C(0x0000000000000001) #define VMX_BF_VMCS_PENDING_DBG_XCPT_BP1_SHIFT 1 #define VMX_BF_VMCS_PENDING_DBG_XCPT_BP1_MASK UINT64_C(0x0000000000000002) #define VMX_BF_VMCS_PENDING_DBG_XCPT_BP2_SHIFT 2 #define VMX_BF_VMCS_PENDING_DBG_XCPT_BP2_MASK UINT64_C(0x0000000000000004) #define VMX_BF_VMCS_PENDING_DBG_XCPT_BP3_SHIFT 3 #define VMX_BF_VMCS_PENDING_DBG_XCPT_BP3_MASK UINT64_C(0x0000000000000008) #define VMX_BF_VMCS_PENDING_DBG_XCPT_RSVD_4_11_SHIFT 4 #define VMX_BF_VMCS_PENDING_DBG_XCPT_RSVD_4_11_MASK UINT64_C(0x0000000000000ff0) #define VMX_BF_VMCS_PENDING_DBG_XCPT_EN_BP_SHIFT 12 #define VMX_BF_VMCS_PENDING_DBG_XCPT_EN_BP_MASK UINT64_C(0x0000000000001000) #define VMX_BF_VMCS_PENDING_DBG_XCPT_RSVD_13_SHIFT 13 #define VMX_BF_VMCS_PENDING_DBG_XCPT_RSVD_13_MASK UINT64_C(0x0000000000002000) #define VMX_BF_VMCS_PENDING_DBG_XCPT_BS_SHIFT 14 #define VMX_BF_VMCS_PENDING_DBG_XCPT_BS_MASK UINT64_C(0x0000000000004000) #define VMX_BF_VMCS_PENDING_DBG_XCPT_RSVD_15_SHIFT 15 #define VMX_BF_VMCS_PENDING_DBG_XCPT_RSVD_15_MASK UINT64_C(0x0000000000008000) #define VMX_BF_VMCS_PENDING_DBG_XCPT_RTM_SHIFT 16 #define VMX_BF_VMCS_PENDING_DBG_XCPT_RTM_MASK UINT64_C(0x0000000000010000) #define VMX_BF_VMCS_PENDING_DBG_XCPT_RSVD_17_63_SHIFT 17 #define VMX_BF_VMCS_PENDING_DBG_XCPT_RSVD_17_63_MASK UINT64_C(0xfffffffffffe0000) RT_BF_ASSERT_COMPILE_CHECKS(VMX_BF_VMCS_PENDING_DBG_XCPT_, UINT64_C(0), UINT64_MAX, (BP0, BP1, BP2, BP3, RSVD_4_11, EN_BP, RSVD_13, BS, RSVD_15, RTM, RSVD_17_63)); /** @} */ /** * VM-exit auxiliary information. * * This includes information that isn't necessarily stored in the guest-CPU * context but provided as part of VM-exits. */ typedef struct { /** The VM-exit reason. */ uint32_t uReason; /** The Exit qualification field. */ uint64_t u64Qual; /** The Guest-linear address field. */ uint64_t u64GuestLinearAddr; /** The Guest-physical address field. */ uint64_t u64GuestPhysAddr; /** The guest pending-debug exceptions. */ uint64_t u64GuestPendingDbgXcpts; /** The VM-exit instruction length. */ uint32_t cbInstr; /** The VM-exit instruction information. */ VMXEXITINSTRINFO InstrInfo; /** VM-exit interruption information. */ uint32_t uExitIntInfo; /** VM-exit interruption error code. */ uint32_t uExitIntErrCode; /** IDT-vectoring information. */ uint32_t uIdtVectoringInfo; /** IDT-vectoring error code. */ uint32_t uIdtVectoringErrCode; } VMXEXITAUX; /** Pointer to a VMXEXITAUX struct. */ typedef VMXEXITAUX *PVMXEXITAUX; /** Pointer to a const VMXEXITAUX struct. */ typedef const VMXEXITAUX *PCVMXEXITAUX; /** @defgroup grp_hm_vmx_virt VMX virtualization. * @{ */ /** @name Virtual VMX MSR - Miscellaneous data. * @{ */ /** Number of CR3-target values supported. */ #define VMX_V_CR3_TARGET_COUNT 4 /** Activity states supported. */ #define VMX_V_GUEST_ACTIVITY_STATE_MASK (VMX_VMCS_GUEST_ACTIVITY_HLT | VMX_VMCS_GUEST_ACTIVITY_SHUTDOWN) /** VMX preemption-timer shift (Core i7-2600 taken as reference). */ #define VMX_V_PREEMPT_TIMER_SHIFT 5 /** Maximum number of MSRs in the auto-load/store MSR areas, (n+1) * 512. */ #define VMX_V_AUTOMSR_COUNT_MAX 0 /** SMM MSEG revision ID. */ #define VMX_V_MSEG_REV_ID 0 /** @} */ /** @name VMX_V_VMCS_STATE_XXX - Virtual VMCS launch state. * @{ */ /** VMCS launch state clear legacy value -- deprecated!!!. */ #define VMX_V_VMCS_LAUNCH_STATE_CLEAR_LEGACY RT_BIT(0) /** VMCS launch state clear. */ #define VMX_V_VMCS_LAUNCH_STATE_CLEAR (0) /* Bit 1 used to be "active", no longer used. */ /* Bit 2 used to be "current", no longer used. */ /** VMCS launch state launched. */ #define VMX_V_VMCS_LAUNCH_STATE_LAUNCHED RT_BIT(3) /** @} */ /** CR0 bits set here must always be set when in VMX operation. */ #define VMX_V_CR0_FIXED0 (X86_CR0_PE | X86_CR0_NE | X86_CR0_PG) /** CR0 bits set here must always be set when in VMX non-root operation with * unrestricted-guest control enabled. */ #define VMX_V_CR0_FIXED0_UX (X86_CR0_NE) /** CR0 bits cleared here must always be cleared when in VMX operation. */ #define VMX_V_CR0_FIXED1 UINT32_C(0xffffffff) /** CR4 bits set here must always be set when in VMX operation. */ #define VMX_V_CR4_FIXED0 (X86_CR4_VMXE) /** Virtual VMCS revision ID. Bump this arbitarily chosen identifier if incompatible * changes to the layout of VMXVVMCS is done. Bit 31 MBZ. */ #define VMX_V_VMCS_REVISION_ID UINT32_C(0x40000001) AssertCompile(!(VMX_V_VMCS_REVISION_ID & RT_BIT(31))); /** The size of the virtual VMCS region (we use the maximum allowed size to avoid * complications when teleporation may be implemented). */ #define VMX_V_VMCS_SIZE X86_PAGE_4K_SIZE /** The size of the virtual VMCS region (in pages). */ #define VMX_V_VMCS_PAGES 1 /** The size of the virtual shadow VMCS region. */ #define VMX_V_SHADOW_VMCS_SIZE VMX_V_VMCS_SIZE /** The size of the virtual shadow VMCS region (in pages). */ #define VMX_V_SHADOW_VMCS_PAGES VMX_V_VMCS_PAGES /** The size of the Virtual-APIC page (in bytes). */ #define VMX_V_VIRT_APIC_SIZE X86_PAGE_4K_SIZE /** The size of the Virtual-APIC page (in pages). */ #define VMX_V_VIRT_APIC_PAGES 1 /** The size of the VMREAD/VMWRITE bitmap (in bytes). */ #define VMX_V_VMREAD_VMWRITE_BITMAP_SIZE X86_PAGE_4K_SIZE /** The size of the VMREAD/VMWRITE-bitmap (in pages). */ #define VMX_V_VMREAD_VMWRITE_BITMAP_PAGES 1 /** The size of the MSR bitmap (in bytes). */ #define VMX_V_MSR_BITMAP_SIZE X86_PAGE_4K_SIZE /** The size of the MSR bitmap (in pages). */ #define VMX_V_MSR_BITMAP_PAGES 1 /** The size of I/O bitmap A (in bytes). */ #define VMX_V_IO_BITMAP_A_SIZE X86_PAGE_4K_SIZE /** The size of I/O bitmap A (in pages). */ #define VMX_V_IO_BITMAP_A_PAGES 1 /** The size of I/O bitmap B (in bytes). */ #define VMX_V_IO_BITMAP_B_SIZE X86_PAGE_4K_SIZE /** The size of I/O bitmap B (in pages). */ #define VMX_V_IO_BITMAP_B_PAGES 1 /** The size of the auto-load/store MSR area (in bytes). */ #define VMX_V_AUTOMSR_AREA_SIZE ((512 * (VMX_V_AUTOMSR_COUNT_MAX + 1)) * sizeof(VMXAUTOMSR)) /* Assert that the size is page aligned or adjust the VMX_V_AUTOMSR_AREA_PAGES macro below. */ AssertCompile(RT_ALIGN_Z(VMX_V_AUTOMSR_AREA_SIZE, X86_PAGE_4K_SIZE) == VMX_V_AUTOMSR_AREA_SIZE); /** The size of the auto-load/store MSR area (in pages). */ #define VMX_V_AUTOMSR_AREA_PAGES ((VMX_V_AUTOMSR_AREA_SIZE) >> X86_PAGE_4K_SHIFT) /** The highest index value used for supported virtual VMCS field encoding. */ #define VMX_V_VMCS_MAX_INDEX RT_BF_GET(VMX_VMCS64_CTRL_EXIT2_HIGH, VMX_BF_VMCSFIELD_INDEX) /** * Virtual VM-exit information. * * This is a convenience structure that bundles some VM-exit information related * fields together. */ typedef struct { /** The VM-exit reason. */ uint32_t uReason; /** The VM-exit instruction length. */ uint32_t cbInstr; /** The VM-exit instruction information. */ VMXEXITINSTRINFO InstrInfo; /** The VM-exit instruction ID. */ VMXINSTRID uInstrId; /** The Exit qualification field. */ uint64_t u64Qual; /** The Guest-linear address field. */ uint64_t u64GuestLinearAddr; /** The Guest-physical address field. */ uint64_t u64GuestPhysAddr; /** The guest pending-debug exceptions. */ uint64_t u64GuestPendingDbgXcpts; /** The effective guest-linear address if @a InstrInfo indicates a memory-based * instruction VM-exit. */ RTGCPTR GCPtrEffAddr; } VMXVEXITINFO; /** Pointer to the VMXVEXITINFO struct. */ typedef VMXVEXITINFO *PVMXVEXITINFO; /** Pointer to a const VMXVEXITINFO struct. */ typedef const VMXVEXITINFO *PCVMXVEXITINFO; AssertCompileMemberAlignment(VMXVEXITINFO, u64Qual, 8); /** Initialize a VMXVEXITINFO structure from only an exit reason. */ #define VMXVEXITINFO_INIT_ONLY_REASON(a_uReason) \ { (a_uReason), 0, { 0 }, VMXINSTRID_NONE, 0, 0, 0, 0, 0 } /** Initialize a VMXVEXITINFO structure from exit reason and instruction length (no info). */ #define VMXVEXITINFO_INIT_WITH_INSTR_LEN(a_uReason, a_cbInstr) \ { (a_uReason), (a_cbInstr), { 0 }, VMXINSTRID_NONE, 0, 0, 0, 0, 0 } /** Initialize a VMXVEXITINFO structure from exit reason and exit qualification. */ #define VMXVEXITINFO_INIT_WITH_QUAL(a_uReason, a_uQual) \ { (a_uReason), 0, { 0 }, VMXINSTRID_NONE, (a_uQual), 0, 0, 0, 0 } /** Initialize a VMXVEXITINFO structure from exit reason, exit qualification, * instruction info and length. */ #define VMXVEXITINFO_INIT_WITH_QUAL_AND_INSTR_INFO(a_uReason, a_uQual, a_uInstrInfo, a_cbInstr) \ { (a_uReason), (a_cbInstr), { a_uInstrInfo }, VMXINSTRID_NONE, (a_uQual), 0, 0, 0, 0 } /** Initialize a VMXVEXITINFO structure from exit reason, exit qualification, * instruction info and length all copied from a VMXTRANSIENT structure. */ #define VMXVEXITINFO_INIT_WITH_QUAL_AND_INSTR_INFO_FROM_TRANSIENT(a_pVmxTransient) \ VMXVEXITINFO_INIT_WITH_QUAL_AND_INSTR_INFO((a_pVmxTransient)->uExitReason, \ (a_pVmxTransient)->uExitQual, \ (a_pVmxTransient)->ExitInstrInfo.u, \ (a_pVmxTransient)->cbExitInstr) /** Initialize a VMXVEXITINFO structure from exit reason, exit qualification, * instruction length (no info). */ #define VMXVEXITINFO_INIT_WITH_QUAL_AND_INSTR_LEN(a_uReason, a_uQual, a_cbInstr) \ { (a_uReason), (a_cbInstr), { 0 }, VMXINSTRID_NONE, (a_uQual), 0, 0, 0, 0 } /** Initialize a VMXVEXITINFO structure from exit reason, exit qualification and * instruction length (no info) all copied from a VMXTRANSIENT structure. */ #define VMXVEXITINFO_INIT_WITH_QUAL_AND_INSTR_LEN_FROM_TRANSIENT(a_pVmxTransient) \ VMXVEXITINFO_INIT_WITH_QUAL_AND_INSTR_LEN((a_pVmxTransient)->uExitReason, \ (a_pVmxTransient)->uExitQual, \ (a_pVmxTransient)->cbExitInstr) /** Initialize a VMXVEXITINFO structure from exit reason, exit qualification, * instruction info, instruction length and guest linear address. */ #define VMXVEXITINFO_INIT_WITH_QUAL_AND_INSTR_INFO_AND_LIN_ADDR(a_uReason, a_uQual, a_uInstrInfo, \ a_cbInstr, a_uGstLinAddr) \ { (a_uReason), (a_cbInstr), { (a_uInstrInfo) }, VMXINSTRID_NONE, (a_uQual), (a_uGstLinAddr), 0, 0, 0 } /** Initialize a VMXVEXITINFO structure from exit reason, exit qualification, * instruction info, instruction length and guest linear address all copied * from a VMXTRANSIENT structure. */ #define VMXVEXITINFO_INIT_WITH_QUAL_AND_INSTR_INFO_AND_LIN_ADDR_FROM_TRANSIENT(a_pVmxTransient) \ VMXVEXITINFO_INIT_WITH_QUAL_AND_INSTR_INFO_AND_LIN_ADDR((a_pVmxTransient)->uExitReason, \ (a_pVmxTransient)->uExitQual, \ (a_pVmxTransient)->ExitInstrInfo.u, \ (a_pVmxTransient)->cbExitInstr, \ (a_pVmxTransient)->uGuestLinearAddr) /** Initialize a VMXVEXITINFO structure from exit reason and pending debug * exceptions. */ #define VMXVEXITINFO_INIT_WITH_DBG_XCPTS(a_uReason, a_uPendingDbgXcpts) \ { (a_uReason), 0, { 0 }, VMXINSTRID_NONE, 0, 0, 0, (a_uPendingDbgXcpts), 0 } /** Initialize a VMXVEXITINFO structure from exit reason and pending debug * exceptions both copied from a VMXTRANSIENT structure. */ #define VMXVEXITINFO_INIT_WITH_DBG_XCPTS_FROM_TRANSIENT(a_pVmxTransient) \ VMXVEXITINFO_INIT_WITH_DBG_XCPTS((a_pVmxTransient)->uExitReason, (a_pVmxTransient)->uGuestPendingDbgXcpts) /** Initialize a VMXVEXITINFO structure from exit reason, exit qualification, * instruction length, guest linear address and guest physical address. */ #define VMXVEXITINFO_INIT_WITH_QUAL_AND_INSTR_LEN_AND_GST_ADDRESSES(a_uReason, a_uQual, a_cbInstr, \ a_uGstLinAddr, a_uGstPhysAddr) \ { (a_uReason), (a_cbInstr), { 0 }, VMXINSTRID_NONE, (a_uQual), (a_uGstLinAddr), (a_uGstPhysAddr), 0, 0 } /** * Virtual VM-exit information for events. * * This is a convenience structure that bundles some event-based VM-exit information * related fields together that are not included in VMXVEXITINFO. * * This is kept as a separate structure and not included in VMXVEXITINFO, to make it * easier to distinguish that IEM VM-exit handlers will set one or more of the * following fields in the virtual VMCS. Including it in the VMXVEXITINFO will not * make it ovbious which fields may get set (or cleared). */ typedef struct { /** VM-exit interruption information. */ uint32_t uExitIntInfo; /** VM-exit interruption error code. */ uint32_t uExitIntErrCode; /** IDT-vectoring information. */ uint32_t uIdtVectoringInfo; /** IDT-vectoring error code. */ uint32_t uIdtVectoringErrCode; } VMXVEXITEVENTINFO; /** Pointer to the VMXVEXITEVENTINFO struct. */ typedef VMXVEXITEVENTINFO *PVMXVEXITEVENTINFO; /** Pointer to a const VMXVEXITEVENTINFO struct. */ typedef const VMXVEXITEVENTINFO *PCVMXVEXITEVENTINFO; /** Initialize a VMXVEXITEVENTINFO. */ #define VMXVEXITEVENTINFO_INIT(a_uExitIntInfo, a_uExitIntErrCode, a_uIdtVectoringInfo, a_uIdtVectoringErrCode) \ { (a_uExitIntInfo), (a_uExitIntErrCode), (a_uIdtVectoringInfo), (a_uIdtVectoringErrCode) } /** Initialize a VMXVEXITEVENTINFO with VM-exit interruption info and VM-exit * interruption error code. */ #define VMXVEXITEVENTINFO_INIT_ONLY_INT(a_uExitIntInfo, a_uExitIntErrCode) \ VMXVEXITEVENTINFO_INIT(a_uExitIntInfo, a_uExitIntErrCode, 0, 0) /** Initialize a VMXVEXITEVENTINFO with IDT vectoring info and IDT * vectoring error code. */ #define VMXVEXITEVENTINFO_INIT_ONLY_IDT(a_uIdtVectoringInfo, a_uIdtVectoringErrCode) \ VMXVEXITEVENTINFO_INIT(0, 0, a_uIdtVectoringInfo, a_uIdtVectoringErrCode) /** * Virtual VMCS. * * This is our custom format. Relevant fields from this VMCS will be merged into the * actual/shadow VMCS when we execute nested-guest code using hardware-assisted * VMX. * * The first 8 bytes must be in accordance with the Intel VT-x spec. * See Intel spec. 24.2 "Format of the VMCS Region". * * The offset and size of the VMCS state field (@a fVmcsState) is also fixed (not by * the Intel spec. but for our own requirements) as we use it to offset into guest * memory. * * Although the guest is supposed to access the VMCS only through the execution of * VMX instructions (VMREAD, VMWRITE etc.), since the VMCS may reside in guest * memory (e.g, active but not current VMCS), for saved-states compatibility, and * for teleportation purposes, any newly added fields should be added to the * appropriate reserved sections or at the end of the structure. * * We always treat natural-width fields as 64-bit in our implementation since * it's easier, allows for teleporation in the future and does not affect guest * software. * * @note Any fields that are added or modified here, make sure to update the * corresponding fields in IEM (g_aoffVmcsMap), the corresponding saved * state structure in CPUM (g_aVmxHwvirtVmcs) and bump the SSM version. * Also consider updating CPUMIsGuestVmxVmcsFieldValid and cpumR3InfoVmxVmcs. */ #pragma pack(1) typedef struct { /** @name Header. * @{ */ VMXVMCSREVID u32VmcsRevId; /**< 0x000 - VMX VMCS revision identifier. */ VMXABORT enmVmxAbort; /**< 0x004 - VMX-abort indicator. */ uint8_t fVmcsState; /**< 0x008 - VMCS launch state, see VMX_V_VMCS_LAUNCH_STATE_XXX. */ uint8_t au8Padding0[3]; /**< 0x009 - Reserved for future. */ uint32_t u32RestoreProcCtls2; /**< 0x00c - Secondary VM-execution controls to restore, see iemVmxVmentryCheckCtls(). */ uint32_t au32Reserved0[11]; /**< 0x010 - Reserved for future. */ /** @} */ /** @name Read-only fields. * @{ */ /** 16-bit fields. */ uint16_t u16Reserved0[14]; /**< 0x03c - Reserved for future. */ /** 32-bit fields. */ uint32_t u32RoVmInstrError; /**< 0x058 - VM-instruction error. */ uint32_t u32RoExitReason; /**< 0x05c - VM-exit reason. */ uint32_t u32RoExitIntInfo; /**< 0x060 - VM-exit interruption information. */ uint32_t u32RoExitIntErrCode; /**< 0x064 - VM-exit interruption error code. */ uint32_t u32RoIdtVectoringInfo; /**< 0x068 - IDT-vectoring information. */ uint32_t u32RoIdtVectoringErrCode; /**< 0x06c - IDT-vectoring error code. */ uint32_t u32RoExitInstrLen; /**< 0x070 - VM-exit instruction length. */ uint32_t u32RoExitInstrInfo; /**< 0x074 - VM-exit instruction information. */ uint32_t au32RoReserved2[16]; /**< 0x078 - Reserved for future. */ /** 64-bit fields. */ RTUINT64U u64RoGuestPhysAddr; /**< 0x0b8 - Guest-physical address. */ RTUINT64U au64Reserved1[8]; /**< 0x0c0 - Reserved for future. */ /** Natural-width fields. */ RTUINT64U u64RoExitQual; /**< 0x100 - Exit qualification. */ RTUINT64U u64RoIoRcx; /**< 0x108 - I/O RCX. */ RTUINT64U u64RoIoRsi; /**< 0x110 - I/O RSI. */ RTUINT64U u64RoIoRdi; /**< 0x118 - I/O RDI. */ RTUINT64U u64RoIoRip; /**< 0x120 - I/O RIP. */ RTUINT64U u64RoGuestLinearAddr; /**< 0x128 - Guest-linear address. */ RTUINT64U au64Reserved5[16]; /**< 0x130 - Reserved for future. */ /** @} */ /** @name Control fields. * @{ */ /** 16-bit fields. */ uint16_t u16Vpid; /**< 0x1b0 - Virtual processor ID. */ uint16_t u16PostIntNotifyVector; /**< 0x1b2 - Posted interrupt notify vector. */ uint16_t u16EptpIndex; /**< 0x1b4 - EPTP index. */ uint16_t u16HlatPrefixSize; /**< 0x1b6 - HLAT prefix size. */ uint16_t au16Reserved0[12]; /**< 0x1b8 - Reserved for future. */ /** 32-bit fields. */ uint32_t u32PinCtls; /**< 0x1d0 - Pin-based VM-execution controls. */ uint32_t u32ProcCtls; /**< 0x1d4 - Processor-based VM-execution controls. */ uint32_t u32XcptBitmap; /**< 0x1d8 - Exception bitmap. */ uint32_t u32XcptPFMask; /**< 0x1dc - Page-fault exception error mask. */ uint32_t u32XcptPFMatch; /**< 0x1e0 - Page-fault exception error match. */ uint32_t u32Cr3TargetCount; /**< 0x1e4 - CR3-target count. */ uint32_t u32ExitCtls; /**< 0x1e8 - VM-exit controls. */ uint32_t u32ExitMsrStoreCount; /**< 0x1ec - VM-exit MSR store count. */ uint32_t u32ExitMsrLoadCount; /**< 0x1f0 - VM-exit MSR load count. */ uint32_t u32EntryCtls; /**< 0x1f4 - VM-entry controls. */ uint32_t u32EntryMsrLoadCount; /**< 0x1f8 - VM-entry MSR load count. */ uint32_t u32EntryIntInfo; /**< 0x1fc - VM-entry interruption information. */ uint32_t u32EntryXcptErrCode; /**< 0x200 - VM-entry exception error code. */ uint32_t u32EntryInstrLen; /**< 0x204 - VM-entry instruction length. */ uint32_t u32TprThreshold; /**< 0x208 - TPR-threshold. */ uint32_t u32ProcCtls2; /**< 0x20c - Secondary-processor based VM-execution controls. */ uint32_t u32PleGap; /**< 0x210 - Pause-loop exiting Gap. */ uint32_t u32PleWindow; /**< 0x214 - Pause-loop exiting Window. */ uint32_t au32Reserved1[16]; /**< 0x218 - Reserved for future. */ /** 64-bit fields. */ RTUINT64U u64AddrIoBitmapA; /**< 0x258 - I/O bitmap A address. */ RTUINT64U u64AddrIoBitmapB; /**< 0x260 - I/O bitmap B address. */ RTUINT64U u64AddrMsrBitmap; /**< 0x268 - MSR bitmap address. */ RTUINT64U u64AddrExitMsrStore; /**< 0x270 - VM-exit MSR-store area address. */ RTUINT64U u64AddrExitMsrLoad; /**< 0x278 - VM-exit MSR-load area address. */ RTUINT64U u64AddrEntryMsrLoad; /**< 0x280 - VM-entry MSR-load area address. */ RTUINT64U u64ExecVmcsPtr; /**< 0x288 - Executive-VMCS pointer. */ RTUINT64U u64AddrPml; /**< 0x290 - Page-modification log address (PML). */ RTUINT64U u64TscOffset; /**< 0x298 - TSC offset. */ RTUINT64U u64AddrVirtApic; /**< 0x2a0 - Virtual-APIC address. */ RTUINT64U u64AddrApicAccess; /**< 0x2a8 - APIC-access address. */ RTUINT64U u64AddrPostedIntDesc; /**< 0x2b0 - Posted-interrupt descriptor address. */ RTUINT64U u64VmFuncCtls; /**< 0x2b8 - VM-functions control. */ RTUINT64U u64EptPtr; /**< 0x2c0 - EPT pointer. */ RTUINT64U u64EoiExitBitmap0; /**< 0x2c8 - EOI-exit bitmap 0. */ RTUINT64U u64EoiExitBitmap1; /**< 0x2d0 - EOI-exit bitmap 1. */ RTUINT64U u64EoiExitBitmap2; /**< 0x2d8 - EOI-exit bitmap 2. */ RTUINT64U u64EoiExitBitmap3; /**< 0x2e0 - EOI-exit bitmap 3. */ RTUINT64U u64AddrEptpList; /**< 0x2e8 - EPTP-list address. */ RTUINT64U u64AddrVmreadBitmap; /**< 0x2f0 - VMREAD-bitmap address. */ RTUINT64U u64AddrVmwriteBitmap; /**< 0x2f8 - VMWRITE-bitmap address. */ RTUINT64U u64AddrXcptVeInfo; /**< 0x300 - Virtualization-exception information address. */ RTUINT64U u64XssExitBitmap; /**< 0x308 - XSS-exiting bitmap. */ RTUINT64U u64EnclsExitBitmap; /**< 0x310 - ENCLS-exiting bitmap address. */ RTUINT64U u64SppTablePtr; /**< 0x318 - Sub-page-permission-table pointer (SPPTP). */ RTUINT64U u64TscMultiplier; /**< 0x320 - TSC multiplier. */ RTUINT64U u64ProcCtls3; /**< 0x328 - Tertiary-Processor based VM-execution controls. */ RTUINT64U u64EnclvExitBitmap; /**< 0x330 - ENCLV-exiting bitmap. */ RTUINT64U u64PconfigExitBitmap; /**< 0x338 - PCONFIG-exiting bitmap. */ RTUINT64U u64HlatPtr; /**< 0x340 - HLAT pointer. */ RTUINT64U u64ExitCtls2; /**< 0x348 - Secondary VM-exit controls. */ RTUINT64U au64Reserved0[10]; /**< 0x350 - Reserved for future. */ /** Natural-width fields. */ RTUINT64U u64Cr0Mask; /**< 0x3a0 - CR0 guest/host Mask. */ RTUINT64U u64Cr4Mask; /**< 0x3a8 - CR4 guest/host Mask. */ RTUINT64U u64Cr0ReadShadow; /**< 0x3b0 - CR0 read shadow. */ RTUINT64U u64Cr4ReadShadow; /**< 0x3b8 - CR4 read shadow. */ RTUINT64U u64Cr3Target0; /**< 0x3c0 - CR3-target value 0. */ RTUINT64U u64Cr3Target1; /**< 0x3c8 - CR3-target value 1. */ RTUINT64U u64Cr3Target2; /**< 0x3d0 - CR3-target value 2. */ RTUINT64U u64Cr3Target3; /**< 0x3d8 - CR3-target value 3. */ RTUINT64U au64Reserved4[32]; /**< 0x3e0 - Reserved for future. */ /** @} */ /** @name Host-state fields. * @{ */ /** 16-bit fields. */ /* Order of [Es..Gs] fields below must match [X86_SREG_ES..X86_SREG_GS]. */ RTSEL HostEs; /**< 0x4e0 - Host ES selector. */ RTSEL HostCs; /**< 0x4e2 - Host CS selector. */ RTSEL HostSs; /**< 0x4e4 - Host SS selector. */ RTSEL HostDs; /**< 0x4e6 - Host DS selector. */ RTSEL HostFs; /**< 0x4e8 - Host FS selector. */ RTSEL HostGs; /**< 0x4ea - Host GS selector. */ RTSEL HostTr; /**< 0x4ec - Host TR selector. */ uint16_t au16Reserved2[13]; /**< 0x4ee - Reserved for future. */ /** 32-bit fields. */ uint32_t u32HostSysenterCs; /**< 0x508 - Host SYSENTER CS. */ uint32_t au32Reserved4[11]; /**< 0x50c - Reserved for future. */ /** 64-bit fields. */ RTUINT64U u64HostPatMsr; /**< 0x538 - Host PAT MSR. */ RTUINT64U u64HostEferMsr; /**< 0x540 - Host EFER MSR. */ RTUINT64U u64HostPerfGlobalCtlMsr; /**< 0x548 - Host global performance-control MSR. */ RTUINT64U u64HostPkrsMsr; /**< 0x550 - Host PKRS MSR. */ RTUINT64U au64Reserved3[15]; /**< 0x558 - Reserved for future. */ /** Natural-width fields. */ RTUINT64U u64HostCr0; /**< 0x5d0 - Host CR0. */ RTUINT64U u64HostCr3; /**< 0x5d8 - Host CR3. */ RTUINT64U u64HostCr4; /**< 0x5e0 - Host CR4. */ RTUINT64U u64HostFsBase; /**< 0x5e8 - Host FS base. */ RTUINT64U u64HostGsBase; /**< 0x5f0 - Host GS base. */ RTUINT64U u64HostTrBase; /**< 0x5f8 - Host TR base. */ RTUINT64U u64HostGdtrBase; /**< 0x600 - Host GDTR base. */ RTUINT64U u64HostIdtrBase; /**< 0x608 - Host IDTR base. */ RTUINT64U u64HostSysenterEsp; /**< 0x610 - Host SYSENTER ESP base. */ RTUINT64U u64HostSysenterEip; /**< 0x618 - Host SYSENTER ESP base. */ RTUINT64U u64HostRsp; /**< 0x620 - Host RSP. */ RTUINT64U u64HostRip; /**< 0x628 - Host RIP. */ RTUINT64U u64HostSCetMsr; /**< 0x630 - Host S_CET MSR. */ RTUINT64U u64HostSsp; /**< 0x638 - Host SSP. */ RTUINT64U u64HostIntrSspTableAddrMsr; /**< 0x640 - Host Interrupt SSP table address MSR. */ RTUINT64U au64Reserved7[29]; /**< 0x648 - Reserved for future. */ /** @} */ /** @name Guest-state fields. * @{ */ /** 16-bit fields. */ /* Order of [Es..Gs] fields below must match [X86_SREG_ES..X86_SREG_GS]. */ RTSEL GuestEs; /**< 0x730 - Guest ES selector. */ RTSEL GuestCs; /**< 0x732 - Guest ES selector. */ RTSEL GuestSs; /**< 0x734 - Guest ES selector. */ RTSEL GuestDs; /**< 0x736 - Guest ES selector. */ RTSEL GuestFs; /**< 0x738 - Guest ES selector. */ RTSEL GuestGs; /**< 0x73a - Guest ES selector. */ RTSEL GuestLdtr; /**< 0x73c - Guest LDTR selector. */ RTSEL GuestTr; /**< 0x73e - Guest TR selector. */ uint16_t u16GuestIntStatus; /**< 0x740 - Guest interrupt status (virtual-interrupt delivery). */ uint16_t u16PmlIndex; /**< 0x742 - PML index. */ uint16_t au16Reserved1[14]; /**< 0x744 - Reserved for future. */ /** 32-bit fields. */ /* Order of [Es..Gs] fields below must match [X86_SREG_ES..X86_SREG_GS]. */ uint32_t u32GuestEsLimit; /**< 0x760 - Guest ES limit. */ uint32_t u32GuestCsLimit; /**< 0x764 - Guest CS limit. */ uint32_t u32GuestSsLimit; /**< 0x768 - Guest SS limit. */ uint32_t u32GuestDsLimit; /**< 0x76c - Guest DS limit. */ uint32_t u32GuestFsLimit; /**< 0x770 - Guest FS limit. */ uint32_t u32GuestGsLimit; /**< 0x774 - Guest GS limit. */ uint32_t u32GuestLdtrLimit; /**< 0x778 - Guest LDTR limit. */ uint32_t u32GuestTrLimit; /**< 0x77c - Guest TR limit. */ uint32_t u32GuestGdtrLimit; /**< 0x780 - Guest GDTR limit. */ uint32_t u32GuestIdtrLimit; /**< 0x784 - Guest IDTR limit. */ uint32_t u32GuestEsAttr; /**< 0x788 - Guest ES attributes. */ uint32_t u32GuestCsAttr; /**< 0x78c - Guest CS attributes. */ uint32_t u32GuestSsAttr; /**< 0x790 - Guest SS attributes. */ uint32_t u32GuestDsAttr; /**< 0x794 - Guest DS attributes. */ uint32_t u32GuestFsAttr; /**< 0x798 - Guest FS attributes. */ uint32_t u32GuestGsAttr; /**< 0x79c - Guest GS attributes. */ uint32_t u32GuestLdtrAttr; /**< 0x7a0 - Guest LDTR attributes. */ uint32_t u32GuestTrAttr; /**< 0x7a4 - Guest TR attributes. */ uint32_t u32GuestIntrState; /**< 0x7a8 - Guest interruptibility state. */ uint32_t u32GuestActivityState; /**< 0x7ac - Guest activity state. */ uint32_t u32GuestSmBase; /**< 0x7b0 - Guest SMBASE. */ uint32_t u32GuestSysenterCS; /**< 0x7b4 - Guest SYSENTER CS. */ uint32_t u32PreemptTimer; /**< 0x7b8 - Preemption timer value. */ uint32_t au32Reserved3[11]; /**< 0x7bc - Reserved for future. */ /** 64-bit fields. */ RTUINT64U u64VmcsLinkPtr; /**< 0x7e8 - VMCS link pointer. */ RTUINT64U u64GuestDebugCtlMsr; /**< 0x7f0 - Guest debug-control MSR. */ RTUINT64U u64GuestPatMsr; /**< 0x7f8 - Guest PAT MSR. */ RTUINT64U u64GuestEferMsr; /**< 0x800 - Guest EFER MSR. */ RTUINT64U u64GuestPerfGlobalCtlMsr; /**< 0x808 - Guest global performance-control MSR. */ RTUINT64U u64GuestPdpte0; /**< 0x810 - Guest PDPTE 0. */ RTUINT64U u64GuestPdpte1; /**< 0x818 - Guest PDPTE 0. */ RTUINT64U u64GuestPdpte2; /**< 0x820 - Guest PDPTE 1. */ RTUINT64U u64GuestPdpte3; /**< 0x828 - Guest PDPTE 2. */ RTUINT64U u64GuestBndcfgsMsr; /**< 0x830 - Guest Bounds config MPX MSR (Intel Memory Protection Extensions). */ RTUINT64U u64GuestRtitCtlMsr; /**< 0x838 - Guest RTIT control MSR (Intel Real Time Instruction Trace). */ RTUINT64U u64GuestPkrsMsr; /**< 0x840 - Guest PKRS MSR. */ RTUINT64U au64Reserved2[31]; /**< 0x848 - Reserved for future. */ /** Natural-width fields. */ RTUINT64U u64GuestCr0; /**< 0x940 - Guest CR0. */ RTUINT64U u64GuestCr3; /**< 0x948 - Guest CR3. */ RTUINT64U u64GuestCr4; /**< 0x950 - Guest CR4. */ RTUINT64U u64GuestEsBase; /**< 0x958 - Guest ES base. */ RTUINT64U u64GuestCsBase; /**< 0x960 - Guest CS base. */ RTUINT64U u64GuestSsBase; /**< 0x968 - Guest SS base. */ RTUINT64U u64GuestDsBase; /**< 0x970 - Guest DS base. */ RTUINT64U u64GuestFsBase; /**< 0x978 - Guest FS base. */ RTUINT64U u64GuestGsBase; /**< 0x980 - Guest GS base. */ RTUINT64U u64GuestLdtrBase; /**< 0x988 - Guest LDTR base. */ RTUINT64U u64GuestTrBase; /**< 0x990 - Guest TR base. */ RTUINT64U u64GuestGdtrBase; /**< 0x998 - Guest GDTR base. */ RTUINT64U u64GuestIdtrBase; /**< 0x9a0 - Guest IDTR base. */ RTUINT64U u64GuestDr7; /**< 0x9a8 - Guest DR7. */ RTUINT64U u64GuestRsp; /**< 0x9b0 - Guest RSP. */ RTUINT64U u64GuestRip; /**< 0x9b8 - Guest RIP. */ RTUINT64U u64GuestRFlags; /**< 0x9c0 - Guest RFLAGS. */ RTUINT64U u64GuestPendingDbgXcpts; /**< 0x9c8 - Guest pending debug exceptions. */ RTUINT64U u64GuestSysenterEsp; /**< 0x9d0 - Guest SYSENTER ESP. */ RTUINT64U u64GuestSysenterEip; /**< 0x9d8 - Guest SYSENTER EIP. */ RTUINT64U u64GuestSCetMsr; /**< 0x9e0 - Guest S_CET MSR. */ RTUINT64U u64GuestSsp; /**< 0x9e8 - Guest SSP. */ RTUINT64U u64GuestIntrSspTableAddrMsr; /**< 0x9f0 - Guest Interrupt SSP table address MSR. */ RTUINT64U au64Reserved6[29]; /**< 0x9f8 - Reserved for future. */ /** @} */ /** 0xae0 - Padding / reserved for future use. */ uint8_t abPadding[X86_PAGE_4K_SIZE - 0xae0]; } VMXVVMCS; #pragma pack() /** Pointer to the VMXVVMCS struct. */ typedef VMXVVMCS *PVMXVVMCS; /** Pointer to a const VMXVVMCS struct. */ typedef const VMXVVMCS *PCVMXVVMCS; AssertCompileSize(VMXVVMCS, X86_PAGE_4K_SIZE); AssertCompileMemberSize(VMXVVMCS, fVmcsState, sizeof(uint8_t)); AssertCompileMemberOffset(VMXVVMCS, enmVmxAbort, 0x004); AssertCompileMemberOffset(VMXVVMCS, fVmcsState, 0x008); AssertCompileMemberOffset(VMXVVMCS, u32RoVmInstrError, 0x058); AssertCompileMemberOffset(VMXVVMCS, u64RoGuestPhysAddr, 0x0b8); AssertCompileMemberOffset(VMXVVMCS, u64RoExitQual, 0x100); AssertCompileMemberOffset(VMXVVMCS, u16Vpid, 0x1b0); AssertCompileMemberOffset(VMXVVMCS, u32PinCtls, 0x1d0); AssertCompileMemberOffset(VMXVVMCS, u64AddrIoBitmapA, 0x258); AssertCompileMemberOffset(VMXVVMCS, u64Cr0Mask, 0x3a0); AssertCompileMemberOffset(VMXVVMCS, HostEs, 0x4e0); AssertCompileMemberOffset(VMXVVMCS, u32HostSysenterCs, 0x508); AssertCompileMemberOffset(VMXVVMCS, u64HostPatMsr, 0x538); AssertCompileMemberOffset(VMXVVMCS, u64HostCr0, 0x5d0); AssertCompileMemberOffset(VMXVVMCS, GuestEs, 0x730); AssertCompileMemberOffset(VMXVVMCS, u32GuestEsLimit, 0x760); AssertCompileMemberOffset(VMXVVMCS, u64VmcsLinkPtr, 0x7e8); AssertCompileMemberOffset(VMXVVMCS, u64GuestCr0, 0x940); /** * Virtual VMX-instruction and VM-exit diagnostics. * * These are not the same as VM instruction errors that are enumerated in the Intel * spec. These are purely internal, fine-grained definitions used for diagnostic * purposes and are not reported to guest software under the VM-instruction error * field in its VMCS. * * @note Members of this enum are used as array indices, so no gaps are allowed. * Please update g_apszVmxVDiagDesc when you add new fields to this enum. */ typedef enum { /* Internal processing errors. */ kVmxVDiag_None = 0, kVmxVDiag_Ipe_1, kVmxVDiag_Ipe_2, kVmxVDiag_Ipe_3, kVmxVDiag_Ipe_4, kVmxVDiag_Ipe_5, kVmxVDiag_Ipe_6, kVmxVDiag_Ipe_7, kVmxVDiag_Ipe_8, kVmxVDiag_Ipe_9, kVmxVDiag_Ipe_10, kVmxVDiag_Ipe_11, kVmxVDiag_Ipe_12, kVmxVDiag_Ipe_13, kVmxVDiag_Ipe_14, kVmxVDiag_Ipe_15, kVmxVDiag_Ipe_16, /* VMXON. */ kVmxVDiag_Vmxon_A20M, kVmxVDiag_Vmxon_Cpl, kVmxVDiag_Vmxon_Cr0Fixed0, kVmxVDiag_Vmxon_Cr0Fixed1, kVmxVDiag_Vmxon_Cr4Fixed0, kVmxVDiag_Vmxon_Cr4Fixed1, kVmxVDiag_Vmxon_Intercept, kVmxVDiag_Vmxon_LongModeCS, kVmxVDiag_Vmxon_MsrFeatCtl, kVmxVDiag_Vmxon_PtrAbnormal, kVmxVDiag_Vmxon_PtrAlign, kVmxVDiag_Vmxon_PtrMap, kVmxVDiag_Vmxon_PtrReadPhys, kVmxVDiag_Vmxon_PtrWidth, kVmxVDiag_Vmxon_RealOrV86Mode, kVmxVDiag_Vmxon_ShadowVmcs, kVmxVDiag_Vmxon_VmxAlreadyRoot, kVmxVDiag_Vmxon_Vmxe, kVmxVDiag_Vmxon_VmcsRevId, kVmxVDiag_Vmxon_VmxRootCpl, /* VMXOFF. */ kVmxVDiag_Vmxoff_Cpl, kVmxVDiag_Vmxoff_Intercept, kVmxVDiag_Vmxoff_LongModeCS, kVmxVDiag_Vmxoff_RealOrV86Mode, kVmxVDiag_Vmxoff_Vmxe, kVmxVDiag_Vmxoff_VmxRoot, /* VMPTRLD. */ kVmxVDiag_Vmptrld_Cpl, kVmxVDiag_Vmptrld_LongModeCS, kVmxVDiag_Vmptrld_PtrAbnormal, kVmxVDiag_Vmptrld_PtrAlign, kVmxVDiag_Vmptrld_PtrMap, kVmxVDiag_Vmptrld_PtrReadPhys, kVmxVDiag_Vmptrld_PtrVmxon, kVmxVDiag_Vmptrld_PtrWidth, kVmxVDiag_Vmptrld_RealOrV86Mode, kVmxVDiag_Vmptrld_RevPtrReadPhys, kVmxVDiag_Vmptrld_ShadowVmcs, kVmxVDiag_Vmptrld_VmcsRevId, kVmxVDiag_Vmptrld_VmxRoot, /* VMPTRST. */ kVmxVDiag_Vmptrst_Cpl, kVmxVDiag_Vmptrst_LongModeCS, kVmxVDiag_Vmptrst_PtrMap, kVmxVDiag_Vmptrst_RealOrV86Mode, kVmxVDiag_Vmptrst_VmxRoot, /* VMCLEAR. */ kVmxVDiag_Vmclear_Cpl, kVmxVDiag_Vmclear_LongModeCS, kVmxVDiag_Vmclear_PtrAbnormal, kVmxVDiag_Vmclear_PtrAlign, kVmxVDiag_Vmclear_PtrMap, kVmxVDiag_Vmclear_PtrReadPhys, kVmxVDiag_Vmclear_PtrVmxon, kVmxVDiag_Vmclear_PtrWidth, kVmxVDiag_Vmclear_RealOrV86Mode, kVmxVDiag_Vmclear_VmxRoot, /* VMWRITE. */ kVmxVDiag_Vmwrite_Cpl, kVmxVDiag_Vmwrite_FieldInvalid, kVmxVDiag_Vmwrite_FieldRo, kVmxVDiag_Vmwrite_LinkPtrInvalid, kVmxVDiag_Vmwrite_LongModeCS, kVmxVDiag_Vmwrite_PtrInvalid, kVmxVDiag_Vmwrite_PtrMap, kVmxVDiag_Vmwrite_RealOrV86Mode, kVmxVDiag_Vmwrite_VmxRoot, /* VMREAD. */ kVmxVDiag_Vmread_Cpl, kVmxVDiag_Vmread_FieldInvalid, kVmxVDiag_Vmread_LinkPtrInvalid, kVmxVDiag_Vmread_LongModeCS, kVmxVDiag_Vmread_PtrInvalid, kVmxVDiag_Vmread_PtrMap, kVmxVDiag_Vmread_RealOrV86Mode, kVmxVDiag_Vmread_VmxRoot, /* INVVPID. */ kVmxVDiag_Invvpid_Cpl, kVmxVDiag_Invvpid_DescRsvd, kVmxVDiag_Invvpid_LongModeCS, kVmxVDiag_Invvpid_RealOrV86Mode, kVmxVDiag_Invvpid_TypeInvalid, kVmxVDiag_Invvpid_Type0InvalidAddr, kVmxVDiag_Invvpid_Type0InvalidVpid, kVmxVDiag_Invvpid_Type1InvalidVpid, kVmxVDiag_Invvpid_Type3InvalidVpid, kVmxVDiag_Invvpid_VmxRoot, /* INVEPT. */ kVmxVDiag_Invept_Cpl, kVmxVDiag_Invept_DescRsvd, kVmxVDiag_Invept_EptpInvalid, kVmxVDiag_Invept_LongModeCS, kVmxVDiag_Invept_RealOrV86Mode, kVmxVDiag_Invept_TypeInvalid, kVmxVDiag_Invept_VmxRoot, /* VMLAUNCH/VMRESUME. */ kVmxVDiag_Vmentry_AddrApicAccess, kVmxVDiag_Vmentry_AddrApicAccessEqVirtApic, kVmxVDiag_Vmentry_AddrApicAccessHandlerReg, kVmxVDiag_Vmentry_AddrEntryMsrLoad, kVmxVDiag_Vmentry_AddrExitMsrLoad, kVmxVDiag_Vmentry_AddrExitMsrStore, kVmxVDiag_Vmentry_AddrIoBitmapA, kVmxVDiag_Vmentry_AddrIoBitmapB, kVmxVDiag_Vmentry_AddrMsrBitmap, kVmxVDiag_Vmentry_AddrVirtApicPage, kVmxVDiag_Vmentry_AddrVmcsLinkPtr, kVmxVDiag_Vmentry_AddrVmreadBitmap, kVmxVDiag_Vmentry_AddrVmwriteBitmap, kVmxVDiag_Vmentry_ApicRegVirt, kVmxVDiag_Vmentry_BlocKMovSS, kVmxVDiag_Vmentry_Cpl, kVmxVDiag_Vmentry_Cr3TargetCount, kVmxVDiag_Vmentry_EntryCtlsAllowed1, kVmxVDiag_Vmentry_EntryCtlsDisallowed0, kVmxVDiag_Vmentry_EntryInstrLen, kVmxVDiag_Vmentry_EntryInstrLenZero, kVmxVDiag_Vmentry_EntryIntInfoErrCodePe, kVmxVDiag_Vmentry_EntryIntInfoErrCodeVec, kVmxVDiag_Vmentry_EntryIntInfoTypeVecRsvd, kVmxVDiag_Vmentry_EntryXcptErrCodeRsvd, kVmxVDiag_Vmentry_EptpAccessDirty, kVmxVDiag_Vmentry_EptpPageWalkLength, kVmxVDiag_Vmentry_EptpMemType, kVmxVDiag_Vmentry_EptpRsvd, kVmxVDiag_Vmentry_ExitCtlsAllowed1, kVmxVDiag_Vmentry_ExitCtlsDisallowed0, kVmxVDiag_Vmentry_GuestActStateHlt, kVmxVDiag_Vmentry_GuestActStateRsvd, kVmxVDiag_Vmentry_GuestActStateShutdown, kVmxVDiag_Vmentry_GuestActStateSsDpl, kVmxVDiag_Vmentry_GuestActStateStiMovSs, kVmxVDiag_Vmentry_GuestCr0Fixed0, kVmxVDiag_Vmentry_GuestCr0Fixed1, kVmxVDiag_Vmentry_GuestCr0PgPe, kVmxVDiag_Vmentry_GuestCr3, kVmxVDiag_Vmentry_GuestCr4Fixed0, kVmxVDiag_Vmentry_GuestCr4Fixed1, kVmxVDiag_Vmentry_GuestDebugCtl, kVmxVDiag_Vmentry_GuestDr7, kVmxVDiag_Vmentry_GuestEferMsr, kVmxVDiag_Vmentry_GuestEferMsrRsvd, kVmxVDiag_Vmentry_GuestGdtrBase, kVmxVDiag_Vmentry_GuestGdtrLimit, kVmxVDiag_Vmentry_GuestIdtrBase, kVmxVDiag_Vmentry_GuestIdtrLimit, kVmxVDiag_Vmentry_GuestIntStateEnclave, kVmxVDiag_Vmentry_GuestIntStateExtInt, kVmxVDiag_Vmentry_GuestIntStateNmi, kVmxVDiag_Vmentry_GuestIntStateRFlagsSti, kVmxVDiag_Vmentry_GuestIntStateRsvd, kVmxVDiag_Vmentry_GuestIntStateSmi, kVmxVDiag_Vmentry_GuestIntStateStiMovSs, kVmxVDiag_Vmentry_GuestIntStateVirtNmi, kVmxVDiag_Vmentry_GuestPae, kVmxVDiag_Vmentry_GuestPatMsr, kVmxVDiag_Vmentry_GuestPcide, kVmxVDiag_Vmentry_GuestPdpte, kVmxVDiag_Vmentry_GuestPndDbgXcptBsNoTf, kVmxVDiag_Vmentry_GuestPndDbgXcptBsTf, kVmxVDiag_Vmentry_GuestPndDbgXcptRsvd, kVmxVDiag_Vmentry_GuestPndDbgXcptRtm, kVmxVDiag_Vmentry_GuestRip, kVmxVDiag_Vmentry_GuestRipRsvd, kVmxVDiag_Vmentry_GuestRFlagsIf, kVmxVDiag_Vmentry_GuestRFlagsRsvd, kVmxVDiag_Vmentry_GuestRFlagsVm, kVmxVDiag_Vmentry_GuestSegAttrCsDefBig, kVmxVDiag_Vmentry_GuestSegAttrCsDplEqSs, kVmxVDiag_Vmentry_GuestSegAttrCsDplLtSs, kVmxVDiag_Vmentry_GuestSegAttrCsDplZero, kVmxVDiag_Vmentry_GuestSegAttrCsType, kVmxVDiag_Vmentry_GuestSegAttrCsTypeRead, kVmxVDiag_Vmentry_GuestSegAttrDescTypeCs, kVmxVDiag_Vmentry_GuestSegAttrDescTypeDs, kVmxVDiag_Vmentry_GuestSegAttrDescTypeEs, kVmxVDiag_Vmentry_GuestSegAttrDescTypeFs, kVmxVDiag_Vmentry_GuestSegAttrDescTypeGs, kVmxVDiag_Vmentry_GuestSegAttrDescTypeSs, kVmxVDiag_Vmentry_GuestSegAttrDplRplCs, kVmxVDiag_Vmentry_GuestSegAttrDplRplDs, kVmxVDiag_Vmentry_GuestSegAttrDplRplEs, kVmxVDiag_Vmentry_GuestSegAttrDplRplFs, kVmxVDiag_Vmentry_GuestSegAttrDplRplGs, kVmxVDiag_Vmentry_GuestSegAttrDplRplSs, kVmxVDiag_Vmentry_GuestSegAttrGranCs, kVmxVDiag_Vmentry_GuestSegAttrGranDs, kVmxVDiag_Vmentry_GuestSegAttrGranEs, kVmxVDiag_Vmentry_GuestSegAttrGranFs, kVmxVDiag_Vmentry_GuestSegAttrGranGs, kVmxVDiag_Vmentry_GuestSegAttrGranSs, kVmxVDiag_Vmentry_GuestSegAttrLdtrDescType, kVmxVDiag_Vmentry_GuestSegAttrLdtrGran, kVmxVDiag_Vmentry_GuestSegAttrLdtrPresent, kVmxVDiag_Vmentry_GuestSegAttrLdtrRsvd, kVmxVDiag_Vmentry_GuestSegAttrLdtrType, kVmxVDiag_Vmentry_GuestSegAttrPresentCs, kVmxVDiag_Vmentry_GuestSegAttrPresentDs, kVmxVDiag_Vmentry_GuestSegAttrPresentEs, kVmxVDiag_Vmentry_GuestSegAttrPresentFs, kVmxVDiag_Vmentry_GuestSegAttrPresentGs, kVmxVDiag_Vmentry_GuestSegAttrPresentSs, kVmxVDiag_Vmentry_GuestSegAttrRsvdCs, kVmxVDiag_Vmentry_GuestSegAttrRsvdDs, kVmxVDiag_Vmentry_GuestSegAttrRsvdEs, kVmxVDiag_Vmentry_GuestSegAttrRsvdFs, kVmxVDiag_Vmentry_GuestSegAttrRsvdGs, kVmxVDiag_Vmentry_GuestSegAttrRsvdSs, kVmxVDiag_Vmentry_GuestSegAttrSsDplEqRpl, kVmxVDiag_Vmentry_GuestSegAttrSsDplZero, kVmxVDiag_Vmentry_GuestSegAttrSsType, kVmxVDiag_Vmentry_GuestSegAttrTrDescType, kVmxVDiag_Vmentry_GuestSegAttrTrGran, kVmxVDiag_Vmentry_GuestSegAttrTrPresent, kVmxVDiag_Vmentry_GuestSegAttrTrRsvd, kVmxVDiag_Vmentry_GuestSegAttrTrType, kVmxVDiag_Vmentry_GuestSegAttrTrUnusable, kVmxVDiag_Vmentry_GuestSegAttrTypeAccCs, kVmxVDiag_Vmentry_GuestSegAttrTypeAccDs, kVmxVDiag_Vmentry_GuestSegAttrTypeAccEs, kVmxVDiag_Vmentry_GuestSegAttrTypeAccFs, kVmxVDiag_Vmentry_GuestSegAttrTypeAccGs, kVmxVDiag_Vmentry_GuestSegAttrTypeAccSs, kVmxVDiag_Vmentry_GuestSegAttrV86Cs, kVmxVDiag_Vmentry_GuestSegAttrV86Ds, kVmxVDiag_Vmentry_GuestSegAttrV86Es, kVmxVDiag_Vmentry_GuestSegAttrV86Fs, kVmxVDiag_Vmentry_GuestSegAttrV86Gs, kVmxVDiag_Vmentry_GuestSegAttrV86Ss, kVmxVDiag_Vmentry_GuestSegBaseCs, kVmxVDiag_Vmentry_GuestSegBaseDs, kVmxVDiag_Vmentry_GuestSegBaseEs, kVmxVDiag_Vmentry_GuestSegBaseFs, kVmxVDiag_Vmentry_GuestSegBaseGs, kVmxVDiag_Vmentry_GuestSegBaseLdtr, kVmxVDiag_Vmentry_GuestSegBaseSs, kVmxVDiag_Vmentry_GuestSegBaseTr, kVmxVDiag_Vmentry_GuestSegBaseV86Cs, kVmxVDiag_Vmentry_GuestSegBaseV86Ds, kVmxVDiag_Vmentry_GuestSegBaseV86Es, kVmxVDiag_Vmentry_GuestSegBaseV86Fs, kVmxVDiag_Vmentry_GuestSegBaseV86Gs, kVmxVDiag_Vmentry_GuestSegBaseV86Ss, kVmxVDiag_Vmentry_GuestSegLimitV86Cs, kVmxVDiag_Vmentry_GuestSegLimitV86Ds, kVmxVDiag_Vmentry_GuestSegLimitV86Es, kVmxVDiag_Vmentry_GuestSegLimitV86Fs, kVmxVDiag_Vmentry_GuestSegLimitV86Gs, kVmxVDiag_Vmentry_GuestSegLimitV86Ss, kVmxVDiag_Vmentry_GuestSegSelCsSsRpl, kVmxVDiag_Vmentry_GuestSegSelLdtr, kVmxVDiag_Vmentry_GuestSegSelTr, kVmxVDiag_Vmentry_GuestSysenterEspEip, kVmxVDiag_Vmentry_VmcsLinkPtrCurVmcs, kVmxVDiag_Vmentry_VmcsLinkPtrReadPhys, kVmxVDiag_Vmentry_VmcsLinkPtrRevId, kVmxVDiag_Vmentry_VmcsLinkPtrShadow, kVmxVDiag_Vmentry_HostCr0Fixed0, kVmxVDiag_Vmentry_HostCr0Fixed1, kVmxVDiag_Vmentry_HostCr3, kVmxVDiag_Vmentry_HostCr4Fixed0, kVmxVDiag_Vmentry_HostCr4Fixed1, kVmxVDiag_Vmentry_HostCr4Pae, kVmxVDiag_Vmentry_HostCr4Pcide, kVmxVDiag_Vmentry_HostCsTr, kVmxVDiag_Vmentry_HostEferMsr, kVmxVDiag_Vmentry_HostEferMsrRsvd, kVmxVDiag_Vmentry_HostGuestLongMode, kVmxVDiag_Vmentry_HostGuestLongModeNoCpu, kVmxVDiag_Vmentry_HostLongMode, kVmxVDiag_Vmentry_HostPatMsr, kVmxVDiag_Vmentry_HostRip, kVmxVDiag_Vmentry_HostRipRsvd, kVmxVDiag_Vmentry_HostSel, kVmxVDiag_Vmentry_HostSegBase, kVmxVDiag_Vmentry_HostSs, kVmxVDiag_Vmentry_HostSysenterEspEip, kVmxVDiag_Vmentry_IoBitmapAPtrReadPhys, kVmxVDiag_Vmentry_IoBitmapBPtrReadPhys, kVmxVDiag_Vmentry_LongModeCS, kVmxVDiag_Vmentry_MsrBitmapPtrReadPhys, kVmxVDiag_Vmentry_MsrLoad, kVmxVDiag_Vmentry_MsrLoadCount, kVmxVDiag_Vmentry_MsrLoadPtrReadPhys, kVmxVDiag_Vmentry_MsrLoadRing3, kVmxVDiag_Vmentry_MsrLoadRsvd, kVmxVDiag_Vmentry_NmiWindowExit, kVmxVDiag_Vmentry_PinCtlsAllowed1, kVmxVDiag_Vmentry_PinCtlsDisallowed0, kVmxVDiag_Vmentry_ProcCtlsAllowed1, kVmxVDiag_Vmentry_ProcCtlsDisallowed0, kVmxVDiag_Vmentry_ProcCtls2Allowed1, kVmxVDiag_Vmentry_ProcCtls2Disallowed0, kVmxVDiag_Vmentry_PtrInvalid, kVmxVDiag_Vmentry_PtrShadowVmcs, kVmxVDiag_Vmentry_RealOrV86Mode, kVmxVDiag_Vmentry_SavePreemptTimer, kVmxVDiag_Vmentry_TprThresholdRsvd, kVmxVDiag_Vmentry_TprThresholdVTpr, kVmxVDiag_Vmentry_VirtApicPagePtrReadPhys, kVmxVDiag_Vmentry_VirtIntDelivery, kVmxVDiag_Vmentry_VirtNmi, kVmxVDiag_Vmentry_VirtX2ApicTprShadow, kVmxVDiag_Vmentry_VirtX2ApicVirtApic, kVmxVDiag_Vmentry_VmcsClear, kVmxVDiag_Vmentry_VmcsLaunch, kVmxVDiag_Vmentry_VmreadBitmapPtrReadPhys, kVmxVDiag_Vmentry_VmwriteBitmapPtrReadPhys, kVmxVDiag_Vmentry_VmxRoot, kVmxVDiag_Vmentry_Vpid, kVmxVDiag_Vmexit_HostPdpte, kVmxVDiag_Vmexit_MsrLoad, kVmxVDiag_Vmexit_MsrLoadCount, kVmxVDiag_Vmexit_MsrLoadPtrReadPhys, kVmxVDiag_Vmexit_MsrLoadRing3, kVmxVDiag_Vmexit_MsrLoadRsvd, kVmxVDiag_Vmexit_MsrStore, kVmxVDiag_Vmexit_MsrStoreCount, kVmxVDiag_Vmexit_MsrStorePtrReadPhys, kVmxVDiag_Vmexit_MsrStorePtrWritePhys, kVmxVDiag_Vmexit_MsrStoreRing3, kVmxVDiag_Vmexit_MsrStoreRsvd, kVmxVDiag_Vmexit_VirtApicPagePtrWritePhys, /* Last member for determining array index limit. */ kVmxVDiag_End } VMXVDIAG; AssertCompileSize(VMXVDIAG, 4); /** @} */ /** @} */ #endif /* !VBOX_INCLUDED_vmm_hm_vmx_h */