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virtualbox/include/VBox/vmm/hm_svm.h
Daniel Baumann df1bda4fe9
Adding upstream version 7.0.20-dfsg. 
Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>
2025-06-22 09:56:04 +02:00

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/** @file
* HM - SVM (AMD-V) 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 <https://www.gnu.org/licenses>.
*
* 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_svm_h
#define VBOX_INCLUDED_vmm_hm_svm_h
#ifndef RT_WITHOUT_PRAGMA_ONCE
# pragma once
#endif
#include <VBox/types.h>
#include <iprt/assert.h>
#include <iprt/asm.h>
#ifdef RT_OS_SOLARIS
# undef ES
# undef CS
# undef DS
# undef SS
# undef FS
# undef GS
#endif
/** @defgroup grp_hm_svm SVM (AMD-V) Types and Definitions
* @ingroup grp_hm
* @{
*/
/** @name SVM generic / convenient defines.
* @{
*/
/** Number of pages required for the VMCB. */
#define SVM_VMCB_PAGES 1
/** Number of pages required for the MSR permission bitmap. */
#define SVM_MSRPM_PAGES 2
/** Number of pages required for the IO permission bitmap. */
#define SVM_IOPM_PAGES 3
/** @} */
/*
* Ugly!
* When compiling the recompiler, its own svm.h defines clash with
* the following defines. Avoid just the duplicates here as we still
* require other definitions and structures in this header.
*/
#ifndef IN_REM_R3
/** @name SVM_EXIT_XXX - SVM Basic Exit Reasons.
* @{
*/
/** Invalid guest state in VMCB. */
# define SVM_EXIT_INVALID (uint64_t)(-1)
/** Read from CR0-CR15. */
# define SVM_EXIT_READ_CR0 0x0
# define SVM_EXIT_READ_CR1 0x1
# define SVM_EXIT_READ_CR2 0x2
# define SVM_EXIT_READ_CR3 0x3
# define SVM_EXIT_READ_CR4 0x4
# define SVM_EXIT_READ_CR5 0x5
# define SVM_EXIT_READ_CR6 0x6
# define SVM_EXIT_READ_CR7 0x7
# define SVM_EXIT_READ_CR8 0x8
# define SVM_EXIT_READ_CR9 0x9
# define SVM_EXIT_READ_CR10 0xa
# define SVM_EXIT_READ_CR11 0xb
# define SVM_EXIT_READ_CR12 0xc
# define SVM_EXIT_READ_CR13 0xd
# define SVM_EXIT_READ_CR14 0xe
# define SVM_EXIT_READ_CR15 0xf
/** Writes to CR0-CR15. */
# define SVM_EXIT_WRITE_CR0 0x10
# define SVM_EXIT_WRITE_CR1 0x11
# define SVM_EXIT_WRITE_CR2 0x12
# define SVM_EXIT_WRITE_CR3 0x13
# define SVM_EXIT_WRITE_CR4 0x14
# define SVM_EXIT_WRITE_CR5 0x15
# define SVM_EXIT_WRITE_CR6 0x16
# define SVM_EXIT_WRITE_CR7 0x17
# define SVM_EXIT_WRITE_CR8 0x18
# define SVM_EXIT_WRITE_CR9 0x19
# define SVM_EXIT_WRITE_CR10 0x1a
# define SVM_EXIT_WRITE_CR11 0x1b
# define SVM_EXIT_WRITE_CR12 0x1c
# define SVM_EXIT_WRITE_CR13 0x1d
# define SVM_EXIT_WRITE_CR14 0x1e
# define SVM_EXIT_WRITE_CR15 0x1f
/** Read from DR0-DR15. */
# define SVM_EXIT_READ_DR0 0x20
# define SVM_EXIT_READ_DR1 0x21
# define SVM_EXIT_READ_DR2 0x22
# define SVM_EXIT_READ_DR3 0x23
# define SVM_EXIT_READ_DR4 0x24
# define SVM_EXIT_READ_DR5 0x25
# define SVM_EXIT_READ_DR6 0x26
# define SVM_EXIT_READ_DR7 0x27
# define SVM_EXIT_READ_DR8 0x28
# define SVM_EXIT_READ_DR9 0x29
# define SVM_EXIT_READ_DR10 0x2a
# define SVM_EXIT_READ_DR11 0x2b
# define SVM_EXIT_READ_DR12 0x2c
# define SVM_EXIT_READ_DR13 0x2d
# define SVM_EXIT_READ_DR14 0x2e
# define SVM_EXIT_READ_DR15 0x2f
/** Writes to DR0-DR15. */
# define SVM_EXIT_WRITE_DR0 0x30
# define SVM_EXIT_WRITE_DR1 0x31
# define SVM_EXIT_WRITE_DR2 0x32
# define SVM_EXIT_WRITE_DR3 0x33
# define SVM_EXIT_WRITE_DR4 0x34
# define SVM_EXIT_WRITE_DR5 0x35
# define SVM_EXIT_WRITE_DR6 0x36
# define SVM_EXIT_WRITE_DR7 0x37
# define SVM_EXIT_WRITE_DR8 0x38
# define SVM_EXIT_WRITE_DR9 0x39
# define SVM_EXIT_WRITE_DR10 0x3a
# define SVM_EXIT_WRITE_DR11 0x3b
# define SVM_EXIT_WRITE_DR12 0x3c
# define SVM_EXIT_WRITE_DR13 0x3d
# define SVM_EXIT_WRITE_DR14 0x3e
# define SVM_EXIT_WRITE_DR15 0x3f
/* Exception 0-31. */
# define SVM_EXIT_XCPT_0 0x40
# define SVM_EXIT_XCPT_1 0x41
# define SVM_EXIT_XCPT_2 0x42
# define SVM_EXIT_XCPT_3 0x43
# define SVM_EXIT_XCPT_4 0x44
# define SVM_EXIT_XCPT_5 0x45
# define SVM_EXIT_XCPT_6 0x46
# define SVM_EXIT_XCPT_7 0x47
# define SVM_EXIT_XCPT_8 0x48
# define SVM_EXIT_XCPT_9 0x49
# define SVM_EXIT_XCPT_10 0x4a
# define SVM_EXIT_XCPT_11 0x4b
# define SVM_EXIT_XCPT_12 0x4c
# define SVM_EXIT_XCPT_13 0x4d
# define SVM_EXIT_XCPT_14 0x4e
# define SVM_EXIT_XCPT_15 0x4f
# define SVM_EXIT_XCPT_16 0x50
# define SVM_EXIT_XCPT_17 0x51
# define SVM_EXIT_XCPT_18 0x52
# define SVM_EXIT_XCPT_19 0x53
# define SVM_EXIT_XCPT_20 0x54
# define SVM_EXIT_XCPT_21 0x55
# define SVM_EXIT_XCPT_22 0x56
# define SVM_EXIT_XCPT_23 0x57
# define SVM_EXIT_XCPT_24 0x58
# define SVM_EXIT_XCPT_25 0x59
# define SVM_EXIT_XCPT_26 0x5a
# define SVM_EXIT_XCPT_27 0x5b
# define SVM_EXIT_XCPT_28 0x5c
# define SVM_EXIT_XCPT_29 0x5d
# define SVM_EXIT_XCPT_30 0x5e
# define SVM_EXIT_XCPT_31 0x5f
/* Exception (more readable) */
# define SVM_EXIT_XCPT_DE SVM_EXIT_XCPT_0
# define SVM_EXIT_XCPT_DB SVM_EXIT_XCPT_1
# define SVM_EXIT_XCPT_NMI SVM_EXIT_XCPT_2
# define SVM_EXIT_XCPT_BP SVM_EXIT_XCPT_3
# define SVM_EXIT_XCPT_OF SVM_EXIT_XCPT_4
# define SVM_EXIT_XCPT_BR SVM_EXIT_XCPT_5
# define SVM_EXIT_XCPT_UD SVM_EXIT_XCPT_6
# define SVM_EXIT_XCPT_NM SVM_EXIT_XCPT_7
# define SVM_EXIT_XCPT_DF SVM_EXIT_XCPT_8
# define SVM_EXIT_XCPT_CO_SEG_OVERRUN SVM_EXIT_XCPT_9
# define SVM_EXIT_XCPT_TS SVM_EXIT_XCPT_10
# define SVM_EXIT_XCPT_NP SVM_EXIT_XCPT_11
# define SVM_EXIT_XCPT_SS SVM_EXIT_XCPT_12
# define SVM_EXIT_XCPT_GP SVM_EXIT_XCPT_13
# define SVM_EXIT_XCPT_PF SVM_EXIT_XCPT_14
# define SVM_EXIT_XCPT_MF SVM_EXIT_XCPT_16
# define SVM_EXIT_XCPT_AC SVM_EXIT_XCPT_17
# define SVM_EXIT_XCPT_MC SVM_EXIT_XCPT_18
# define SVM_EXIT_XCPT_XF SVM_EXIT_XCPT_19
# define SVM_EXIT_XCPT_VE SVM_EXIT_XCPT_20
# define SVM_EXIT_XCPT_SX SVM_EXIT_XCPT_30
/** Physical maskable interrupt. */
# define SVM_EXIT_INTR 0x60
/** Non-maskable interrupt. */
# define SVM_EXIT_NMI 0x61
/** System Management interrupt. */
# define SVM_EXIT_SMI 0x62
/** Physical INIT signal. */
# define SVM_EXIT_INIT 0x63
/** Virtual interrupt. */
# define SVM_EXIT_VINTR 0x64
/** Write to CR0 that changed any bits other than CR0.TS or CR0.MP. */
# define SVM_EXIT_CR0_SEL_WRITE 0x65
/** IDTR read. */
# define SVM_EXIT_IDTR_READ 0x66
/** GDTR read. */
# define SVM_EXIT_GDTR_READ 0x67
/** LDTR read. */
# define SVM_EXIT_LDTR_READ 0x68
/** TR read. */
# define SVM_EXIT_TR_READ 0x69
/** IDTR write. */
# define SVM_EXIT_IDTR_WRITE 0x6a
/** GDTR write. */
# define SVM_EXIT_GDTR_WRITE 0x6b
/** LDTR write. */
# define SVM_EXIT_LDTR_WRITE 0x6c
/** TR write. */
# define SVM_EXIT_TR_WRITE 0x6d
/** RDTSC instruction. */
# define SVM_EXIT_RDTSC 0x6e
/** RDPMC instruction. */
# define SVM_EXIT_RDPMC 0x6f
/** PUSHF instruction. */
# define SVM_EXIT_PUSHF 0x70
/** POPF instruction. */
# define SVM_EXIT_POPF 0x71
/** CPUID instruction. */
# define SVM_EXIT_CPUID 0x72
/** RSM instruction. */
# define SVM_EXIT_RSM 0x73
/** IRET instruction. */
# define SVM_EXIT_IRET 0x74
/** Software interrupt (INTn instructions). */
# define SVM_EXIT_SWINT 0x75
/** INVD instruction. */
# define SVM_EXIT_INVD 0x76
/** PAUSE instruction. */
# define SVM_EXIT_PAUSE 0x77
/** HLT instruction. */
# define SVM_EXIT_HLT 0x78
/** INVLPG instructions. */
# define SVM_EXIT_INVLPG 0x79
/** INVLPGA instruction. */
# define SVM_EXIT_INVLPGA 0x7a
/** IN or OUT accessing protected port (the EXITINFO1 field provides more information). */
# define SVM_EXIT_IOIO 0x7b
/** RDMSR or WRMSR access to protected MSR. */
# define SVM_EXIT_MSR 0x7c
/** task switch. */
# define SVM_EXIT_TASK_SWITCH 0x7d
/** FP legacy handling enabled, and processor is frozen in an x87/mmx instruction waiting for an interrupt. */
# define SVM_EXIT_FERR_FREEZE 0x7e
/** Shutdown. */
# define SVM_EXIT_SHUTDOWN 0x7f
/** VMRUN instruction. */
# define SVM_EXIT_VMRUN 0x80
/** VMMCALL instruction. */
# define SVM_EXIT_VMMCALL 0x81
/** VMLOAD instruction. */
# define SVM_EXIT_VMLOAD 0x82
/** VMSAVE instruction. */
# define SVM_EXIT_VMSAVE 0x83
/** STGI instruction. */
# define SVM_EXIT_STGI 0x84
/** CLGI instruction. */
# define SVM_EXIT_CLGI 0x85
/** SKINIT instruction. */
# define SVM_EXIT_SKINIT 0x86
/** RDTSCP instruction. */
# define SVM_EXIT_RDTSCP 0x87
/** ICEBP instruction. */
# define SVM_EXIT_ICEBP 0x88
/** WBINVD instruction. */
# define SVM_EXIT_WBINVD 0x89
/** MONITOR instruction. */
# define SVM_EXIT_MONITOR 0x8a
/** MWAIT instruction. */
# define SVM_EXIT_MWAIT 0x8b
/** MWAIT instruction, when armed. */
# define SVM_EXIT_MWAIT_ARMED 0x8c
/** XSETBV instruction. */
# define SVM_EXIT_XSETBV 0x8d
/** RDPRU instruction. */
# define SVM_EXIT_RDPRU 0x8e
/** Write to EFER (after guest instruction completes). */
# define SVM_EXIT_WRITE_EFER_TRAP 0x8f
/** Write to CR0-CR15 (after guest instruction completes). */
# define SVM_EXIT_WRITE_CR0_TRAP 0x90
# define SVM_EXIT_WRITE_CR1_TRAP 0x91
# define SVM_EXIT_WRITE_CR2_TRAP 0x92
# define SVM_EXIT_WRITE_CR3_TRAP 0x93
# define SVM_EXIT_WRITE_CR4_TRAP 0x94
# define SVM_EXIT_WRITE_CR5_TRAP 0x95
# define SVM_EXIT_WRITE_CR6_TRAP 0x96
# define SVM_EXIT_WRITE_CR7_TRAP 0x97
# define SVM_EXIT_WRITE_CR8_TRAP 0x98
# define SVM_EXIT_WRITE_CR9_TRAP 0x99
# define SVM_EXIT_WRITE_CR10_TRAP 0x9a
# define SVM_EXIT_WRITE_CR11_TRAP 0x9b
# define SVM_EXIT_WRITE_CR12_TRAP 0x9c
# define SVM_EXIT_WRITE_CR13_TRAP 0x9d
# define SVM_EXIT_WRITE_CR14_TRAP 0x9e
# define SVM_EXIT_WRITE_CR15_TRAP 0x9f
/** MCOMMIT instruction. */
# define SVM_EXIT_MCOMMIT 0xa3
/** Nested paging: host-level page fault occurred (EXITINFO1 contains fault errorcode; EXITINFO2 contains the guest physical address causing the fault). */
# define SVM_EXIT_NPF 0x400
/** AVIC: Virtual IPI delivery not completed. */
# define SVM_EXIT_AVIC_INCOMPLETE_IPI 0x401
/** AVIC: Attempted access by guest to a vAPIC register not handled by AVIC
* hardware. */
# define SVM_EXIT_AVIC_NOACCEL 0x402
/** The maximum possible exit value. */
# define SVM_EXIT_MAX (SVM_EXIT_AVIC_NOACCEL)
/** @} */
#endif /* !IN_REM_R3*/
/** @name SVMVMCB.u64ExitInfo2 for task switches
* @{
*/
/** Set to 1 if the task switch was caused by an IRET; else cleared to 0. */
#define SVM_EXIT2_TASK_SWITCH_IRET RT_BIT_64(36)
/** Set to 1 if the task switch was caused by a far jump; else cleared to 0. */
#define SVM_EXIT2_TASK_SWITCH_JUMP RT_BIT_64(38)
/** Set to 1 if the task switch has an error code; else cleared to 0. */
#define SVM_EXIT2_TASK_SWITCH_HAS_ERROR_CODE RT_BIT_64(44)
/** The value of EFLAGS.RF that would be saved in the outgoing TSS if the task switch were not intercepted. */
#define SVM_EXIT2_TASK_SWITCH_EFLAGS_RF RT_BIT_64(48)
/** @} */
/** @name SVMVMCB.u64ExitInfo1 for MSR accesses
* @{
*/
/** The access was a read MSR. */
#define SVM_EXIT1_MSR_READ 0x0
/** The access was a write MSR. */
#define SVM_EXIT1_MSR_WRITE 0x1
/** @} */
/** @name SVMVMCB.u64ExitInfo1 for Mov CRx accesses.
* @{
*/
/** The mask of whether the access was via a Mov CRx instruction. */
#define SVM_EXIT1_MOV_CRX_MASK RT_BIT_64(63)
/** The mask for the GPR number of the Mov CRx instruction. */
#define SVM_EXIT1_MOV_CRX_GPR_NUMBER 0xf
/** @} */
/** @name SVMVMCB.u64ExitInfo1 for Mov DRx accesses.
* @{
*/
/** The mask for the GPR number of the Mov DRx instruction. */
#define SVM_EXIT1_MOV_DRX_GPR_NUMBER 0xf
/** @} */
/** @name SVMVMCB.ctrl.u64InterceptCtrl
* @{
*/
/** Intercept INTR (physical maskable interrupt). */
#define SVM_CTRL_INTERCEPT_INTR RT_BIT_64(0)
/** Intercept NMI. */
#define SVM_CTRL_INTERCEPT_NMI RT_BIT_64(1)
/** Intercept SMI. */
#define SVM_CTRL_INTERCEPT_SMI RT_BIT_64(2)
/** Intercept INIT. */
#define SVM_CTRL_INTERCEPT_INIT RT_BIT_64(3)
/** Intercept VINTR (virtual maskable interrupt). */
#define SVM_CTRL_INTERCEPT_VINTR RT_BIT_64(4)
/** Intercept CR0 writes that change bits other than CR0.TS or CR0.MP */
#define SVM_CTRL_INTERCEPT_CR0_SEL_WRITE RT_BIT_64(5)
/** Intercept reads of IDTR. */
#define SVM_CTRL_INTERCEPT_IDTR_READS RT_BIT_64(6)
/** Intercept reads of GDTR. */
#define SVM_CTRL_INTERCEPT_GDTR_READS RT_BIT_64(7)
/** Intercept reads of LDTR. */
#define SVM_CTRL_INTERCEPT_LDTR_READS RT_BIT_64(8)
/** Intercept reads of TR. */
#define SVM_CTRL_INTERCEPT_TR_READS RT_BIT_64(9)
/** Intercept writes of IDTR. */
#define SVM_CTRL_INTERCEPT_IDTR_WRITES RT_BIT_64(10)
/** Intercept writes of GDTR. */
#define SVM_CTRL_INTERCEPT_GDTR_WRITES RT_BIT_64(11)
/** Intercept writes of LDTR. */
#define SVM_CTRL_INTERCEPT_LDTR_WRITES RT_BIT_64(12)
/** Intercept writes of TR. */
#define SVM_CTRL_INTERCEPT_TR_WRITES RT_BIT_64(13)
/** Intercept RDTSC instruction. */
#define SVM_CTRL_INTERCEPT_RDTSC RT_BIT_64(14)
/** Intercept RDPMC instruction. */
#define SVM_CTRL_INTERCEPT_RDPMC RT_BIT_64(15)
/** Intercept PUSHF instruction. */
#define SVM_CTRL_INTERCEPT_PUSHF RT_BIT_64(16)
/** Intercept POPF instruction. */
#define SVM_CTRL_INTERCEPT_POPF RT_BIT_64(17)
/** Intercept CPUID instruction. */
#define SVM_CTRL_INTERCEPT_CPUID RT_BIT_64(18)
/** Intercept RSM instruction. */
#define SVM_CTRL_INTERCEPT_RSM RT_BIT_64(19)
/** Intercept IRET instruction. */
#define SVM_CTRL_INTERCEPT_IRET RT_BIT_64(20)
/** Intercept INTn instruction. */
#define SVM_CTRL_INTERCEPT_INTN RT_BIT_64(21)
/** Intercept INVD instruction. */
#define SVM_CTRL_INTERCEPT_INVD RT_BIT_64(22)
/** Intercept PAUSE instruction. */
#define SVM_CTRL_INTERCEPT_PAUSE RT_BIT_64(23)
/** Intercept HLT instruction. */
#define SVM_CTRL_INTERCEPT_HLT RT_BIT_64(24)
/** Intercept INVLPG instruction. */
#define SVM_CTRL_INTERCEPT_INVLPG RT_BIT_64(25)
/** Intercept INVLPGA instruction. */
#define SVM_CTRL_INTERCEPT_INVLPGA RT_BIT_64(26)
/** IOIO_PROT Intercept IN/OUT accesses to selected ports. */
#define SVM_CTRL_INTERCEPT_IOIO_PROT RT_BIT_64(27)
/** MSR_PROT Intercept RDMSR or WRMSR accesses to selected MSRs. */
#define SVM_CTRL_INTERCEPT_MSR_PROT RT_BIT_64(28)
/** Intercept task switches. */
#define SVM_CTRL_INTERCEPT_TASK_SWITCH RT_BIT_64(29)
/** FERR_FREEZE: intercept processor "freezing" during legacy FERR handling. */
#define SVM_CTRL_INTERCEPT_FERR_FREEZE RT_BIT_64(30)
/** Intercept shutdown events. */
#define SVM_CTRL_INTERCEPT_SHUTDOWN RT_BIT_64(31)
/** Intercept VMRUN instruction. */
#define SVM_CTRL_INTERCEPT_VMRUN RT_BIT_64(32 + 0)
/** Intercept VMMCALL instruction. */
#define SVM_CTRL_INTERCEPT_VMMCALL RT_BIT_64(32 + 1)
/** Intercept VMLOAD instruction. */
#define SVM_CTRL_INTERCEPT_VMLOAD RT_BIT_64(32 + 2)
/** Intercept VMSAVE instruction. */
#define SVM_CTRL_INTERCEPT_VMSAVE RT_BIT_64(32 + 3)
/** Intercept STGI instruction. */
#define SVM_CTRL_INTERCEPT_STGI RT_BIT_64(32 + 4)
/** Intercept CLGI instruction. */
#define SVM_CTRL_INTERCEPT_CLGI RT_BIT_64(32 + 5)
/** Intercept SKINIT instruction. */
#define SVM_CTRL_INTERCEPT_SKINIT RT_BIT_64(32 + 6)
/** Intercept RDTSCP instruction. */
#define SVM_CTRL_INTERCEPT_RDTSCP RT_BIT_64(32 + 7)
/** Intercept ICEBP instruction. */
#define SVM_CTRL_INTERCEPT_ICEBP RT_BIT_64(32 + 8)
/** Intercept WBINVD instruction. */
#define SVM_CTRL_INTERCEPT_WBINVD RT_BIT_64(32 + 9)
/** Intercept MONITOR instruction. */
#define SVM_CTRL_INTERCEPT_MONITOR RT_BIT_64(32 + 10)
/** Intercept MWAIT instruction unconditionally. */
#define SVM_CTRL_INTERCEPT_MWAIT RT_BIT_64(32 + 11)
/** Intercept MWAIT instruction when armed. */
#define SVM_CTRL_INTERCEPT_MWAIT_ARMED RT_BIT_64(32 + 12)
/** Intercept XSETBV instruction. */
#define SVM_CTRL_INTERCEPT_XSETBV RT_BIT_64(32 + 13)
/** Intercept RDPRU instruction. */
#define SVM_CTRL_INTERCEPT_RDPRU RT_BIT_64(32 + 14)
/** Intercept EFER writes after guest instruction finishes. */
#define SVM_CTRL_INTERCEPT_EFER_WRITES_TRAP RT_BIT_64(32 + 15)
/** Intercept CR0 writes after guest instruction finishes. */
#define SVM_CTRL_INTERCEPT_CR0_WRITES_TRAP RT_BIT_64(32 + 16)
/** Intercept CR0 writes after guest instruction finishes. */
#define SVM_CTRL_INTERCEPT_CR1_WRITES_TRAP RT_BIT_64(32 + 17)
/** Intercept CR0 writes after guest instruction finishes. */
#define SVM_CTRL_INTERCEPT_CR2_WRITES_TRAP RT_BIT_64(32 + 18)
/** Intercept CR0 writes after guest instruction finishes. */
#define SVM_CTRL_INTERCEPT_CR3_WRITES_TRAP RT_BIT_64(32 + 19)
/** Intercept CR0 writes after guest instruction finishes. */
#define SVM_CTRL_INTERCEPT_CR4_WRITES_TRAP RT_BIT_64(32 + 20)
/** Intercept CR0 writes after guest instruction finishes. */
#define SVM_CTRL_INTERCEPT_CR5_WRITES_TRAP RT_BIT_64(32 + 21)
/** Intercept CR0 writes after guest instruction finishes. */
#define SVM_CTRL_INTERCEPT_CR6_WRITES_TRAP RT_BIT_64(32 + 22)
/** Intercept CR0 writes after guest instruction finishes. */
#define SVM_CTRL_INTERCEPT_CR7_WRITES_TRAP RT_BIT_64(32 + 23)
/** Intercept CR0 writes after guest instruction finishes. */
#define SVM_CTRL_INTERCEPT_CR8_WRITES_TRAP RT_BIT_64(32 + 24)
/** Intercept CR0 writes after guest instruction finishes. */
#define SVM_CTRL_INTERCEPT_CR9_WRITES_TRAP RT_BIT_64(32 + 25)
/** Intercept CR0 writes after guest instruction finishes. */
#define SVM_CTRL_INTERCEPT_CR10_WRITES_TRAP RT_BIT_64(32 + 26)
/** Intercept CR0 writes after guest instruction finishes. */
#define SVM_CTRL_INTERCEPT_CR11_WRITES_TRAP RT_BIT_64(32 + 27)
/** Intercept CR0 writes after guest instruction finishes. */
#define SVM_CTRL_INTERCEPT_CR12_WRITES_TRAP RT_BIT_64(32 + 28)
/** Intercept CR0 writes after guest instruction finishes. */
#define SVM_CTRL_INTERCEPT_CR13_WRITES_TRAP RT_BIT_64(32 + 29)
/** Intercept CR0 writes after guest instruction finishes. */
#define SVM_CTRL_INTERCEPT_CR14_WRITES_TRAP RT_BIT_64(32 + 30)
/** Intercept CR0 writes after guest instruction finishes. */
#define SVM_CTRL_INTERCEPT_CR15_WRITES_TRAP RT_BIT_64(32 + 31)
/** @} */
/** @name SVMINTCTRL.u3Type
* @{
*/
/** External or virtual interrupt. */
#define SVM_EVENT_EXTERNAL_IRQ 0
/** Non-maskable interrupt. */
#define SVM_EVENT_NMI 2
/** Exception; fault or trap. */
#define SVM_EVENT_EXCEPTION 3
/** Software interrupt. */
#define SVM_EVENT_SOFTWARE_INT 4
/** @} */
/** @name SVMVMCB.ctrl.TLBCtrl.n.u8TLBFlush
* @{
*/
/** Flush nothing. */
#define SVM_TLB_FLUSH_NOTHING 0
/** Flush entire TLB (host+guest entries) */
#define SVM_TLB_FLUSH_ENTIRE 1
/** Flush this guest's TLB entries (by ASID) */
#define SVM_TLB_FLUSH_SINGLE_CONTEXT 3
/** Flush this guest's non-global TLB entries (by ASID) */
#define SVM_TLB_FLUSH_SINGLE_CONTEXT_RETAIN_GLOBALS 7
/** @} */
/**
* SVM selector/segment register type.
*/
typedef struct
{
uint16_t u16Sel;
uint16_t u16Attr;
uint32_t u32Limit;
uint64_t u64Base; /**< Only lower 32 bits are implemented for CS, DS, ES & SS. */
} SVMSELREG;
AssertCompileSize(SVMSELREG, 16);
/** Pointer to the SVMSELREG struct. */
typedef SVMSELREG *PSVMSELREG;
/** Pointer to a const SVMSELREG struct. */
typedef const SVMSELREG *PCSVMSELREG;
/**
* SVM GDTR/IDTR type.
*/
typedef struct
{
uint16_t u16Reserved0;
uint16_t u16Reserved1;
uint32_t u32Limit; /**< Only lower 16 bits are implemented. */
uint64_t u64Base;
} SVMXDTR;
AssertCompileSize(SVMXDTR, 16);
typedef SVMXDTR SVMIDTR;
typedef SVMXDTR SVMGDTR;
/** Pointer to the SVMXDTR struct. */
typedef SVMXDTR *PSVMXDTR;
/** Pointer to a const SVMXDTR struct. */
typedef const SVMXDTR *PCSVMXDTR;
/**
* SVM Event injection structure (EVENTINJ and EXITINTINFO).
*/
typedef union
{
struct
{
uint32_t u8Vector : 8;
uint32_t u3Type : 3;
uint32_t u1ErrorCodeValid : 1;
uint32_t u19Reserved : 19;
uint32_t u1Valid : 1;
uint32_t u32ErrorCode : 32;
} n;
uint64_t u;
} SVMEVENT;
/** Pointer to the SVMEVENT union. */
typedef SVMEVENT *PSVMEVENT;
/** Pointer to a const SVMEVENT union. */
typedef const SVMEVENT *PCSVMEVENT;
/** Gets the event type given an SVMEVENT parameter. */
#define SVM_EVENT_GET_TYPE(a_SvmEvent) (((a_SvmEvent) >> 8) & 7)
/**
* SVM Interrupt control structure (Virtual Interrupt Control).
*/
typedef union
{
struct
{
uint32_t u8VTPR : 8; /* V_TPR */
uint32_t u1VIrqPending : 1; /* V_IRQ */
uint32_t u1VGif : 1; /* VGIF */
uint32_t u6Reserved : 6;
uint32_t u4VIntrPrio : 4; /* V_INTR_PRIO */
uint32_t u1IgnoreTPR : 1; /* V_IGN_TPR */
uint32_t u3Reserved : 3;
uint32_t u1VIntrMasking : 1; /* V_INTR_MASKING */
uint32_t u1VGifEnable : 1; /* VGIF enable */
uint32_t u5Reserved : 5;
uint32_t u1AvicEnable : 1; /* AVIC enable */
uint32_t u8VIntrVector : 8; /* V_INTR_VECTOR */
uint32_t u24Reserved : 24;
} n;
uint64_t u;
} SVMINTCTRL;
/** Pointer to an SVMINTCTRL structure. */
typedef SVMINTCTRL *PSVMINTCTRL;
/** Pointer to a const SVMINTCTRL structure. */
typedef const SVMINTCTRL *PCSVMINTCTRL;
/**
* SVM TLB control structure.
*/
typedef union
{
struct
{
uint32_t u32ASID : 32;
uint32_t u8TLBFlush : 8;
uint32_t u24Reserved : 24;
} n;
uint64_t u;
} SVMTLBCTRL;
/**
* SVM IOIO exit info. structure (EXITINFO1 for IOIO intercepts).
*/
typedef union
{
struct
{
uint32_t u1Type : 1; /**< Bit 0: 0 = out, 1 = in */
uint32_t u1Reserved : 1; /**< Bit 1: Reserved */
uint32_t u1Str : 1; /**< Bit 2: String I/O (1) or not (0). */
uint32_t u1Rep : 1; /**< Bit 3: Repeat prefixed string I/O. */
uint32_t u1Op8 : 1; /**< Bit 4: 8-bit operand. */
uint32_t u1Op16 : 1; /**< Bit 5: 16-bit operand. */
uint32_t u1Op32 : 1; /**< Bit 6: 32-bit operand. */
uint32_t u1Addr16 : 1; /**< Bit 7: 16-bit address size. */
uint32_t u1Addr32 : 1; /**< Bit 8: 32-bit address size. */
uint32_t u1Addr64 : 1; /**< Bit 9: 64-bit address size. */
uint32_t u3Seg : 3; /**< Bits 12:10: Effective segment number. Added w/ decode assist in APM v3.17. */
uint32_t u3Reserved : 3;
uint32_t u16Port : 16; /**< Bits 31:16: Port number. */
} n;
uint32_t u;
} SVMIOIOEXITINFO;
/** Pointer to an SVM IOIO exit info. structure. */
typedef SVMIOIOEXITINFO *PSVMIOIOEXITINFO;
/** Pointer to a const SVM IOIO exit info. structure. */
typedef const SVMIOIOEXITINFO *PCSVMIOIOEXITINFO;
/** 8-bit IO transfer. */
#define SVM_IOIO_8_BIT_OP RT_BIT_32(4)
/** 16-bit IO transfer. */
#define SVM_IOIO_16_BIT_OP RT_BIT_32(5)
/** 32-bit IO transfer. */
#define SVM_IOIO_32_BIT_OP RT_BIT_32(6)
/** Number of bits to shift right to get the operand sizes. */
#define SVM_IOIO_OP_SIZE_SHIFT 4
/** Mask of all possible IO transfer sizes. */
#define SVM_IOIO_OP_SIZE_MASK (SVM_IOIO_8_BIT_OP | SVM_IOIO_16_BIT_OP | SVM_IOIO_32_BIT_OP)
/** 16-bit address for the IO buffer. */
#define SVM_IOIO_16_BIT_ADDR RT_BIT_32(7)
/** 32-bit address for the IO buffer. */
#define SVM_IOIO_32_BIT_ADDR RT_BIT_32(8)
/** 64-bit address for the IO buffer. */
#define SVM_IOIO_64_BIT_ADDR RT_BIT_32(9)
/** Number of bits to shift right to get the address sizes. */
#define SVM_IOIO_ADDR_SIZE_SHIFT 7
/** Mask of all the IO address sizes. */
#define SVM_IOIO_ADDR_SIZE_MASK (SVM_IOIO_16_BIT_ADDR | SVM_IOIO_32_BIT_ADDR | SVM_IOIO_64_BIT_ADDR)
/** Number of bits to shift right to get the IO port number. */
#define SVM_IOIO_PORT_SHIFT 16
/** IO write. */
#define SVM_IOIO_WRITE 0
/** IO read. */
#define SVM_IOIO_READ 1
/**
* SVM IOIO transfer type.
*/
typedef enum
{
SVMIOIOTYPE_OUT = SVM_IOIO_WRITE,
SVMIOIOTYPE_IN = SVM_IOIO_READ
} SVMIOIOTYPE;
/**
* SVM AVIC.
*/
typedef union
{
struct
{
RT_GCC_EXTENSION uint64_t u12Reserved0 : 12;
RT_GCC_EXTENSION uint64_t u40Addr : 40;
RT_GCC_EXTENSION uint64_t u12Reserved1 : 12;
} n;
uint64_t u;
} SVMAVIC;
AssertCompileSize(SVMAVIC, 8);
/**
* SVM AVIC PHYSICAL_TABLE pointer.
*/
typedef union
{
struct
{
RT_GCC_EXTENSION uint64_t u8LastGuestCoreId : 8;
RT_GCC_EXTENSION uint64_t u4Reserved : 4;
RT_GCC_EXTENSION uint64_t u40Addr : 40;
RT_GCC_EXTENSION uint64_t u12Reserved : 12;
} n;
uint64_t u;
} SVMAVICPHYS;
AssertCompileSize(SVMAVICPHYS, 8);
/**
* SVM Nested Paging struct.
*/
typedef union
{
struct
{
uint32_t u1NestedPaging : 1;
uint32_t u1Sev : 1;
uint32_t u1SevEs : 1;
uint32_t u29Reserved : 29;
} n;
uint64_t u;
} SVMNP;
AssertCompileSize(SVMNP, 8);
/**
* SVM Interrupt shadow struct.
*/
typedef union
{
struct
{
uint32_t u1IntShadow : 1;
uint32_t u1GuestIntMask : 1;
uint32_t u30Reserved : 30;
} n;
uint64_t u;
} SVMINTSHADOW;
AssertCompileSize(SVMINTSHADOW, 8);
/**
* SVM LBR virtualization struct.
*/
typedef union
{
struct
{
uint32_t u1LbrVirt : 1;
uint32_t u1VirtVmsaveVmload : 1;
uint32_t u30Reserved : 30;
} n;
uint64_t u;
} SVMLBRVIRT;
AssertCompileSize(SVMLBRVIRT, 8);
/** Maximum number of bytes in the Guest-instruction bytes field. */
#define SVM_CTRL_GUEST_INSTR_BYTES_MAX 15
/**
* SVM VMCB control area.
*/
#pragma pack(1)
typedef struct
{
/** Offset 0x00 - Intercept reads of CR0-CR15. */
uint16_t u16InterceptRdCRx;
/** Offset 0x02 - Intercept writes to CR0-CR15. */
uint16_t u16InterceptWrCRx;
/** Offset 0x04 - Intercept reads of DR0-DR15. */
uint16_t u16InterceptRdDRx;
/** Offset 0x06 - Intercept writes to DR0-DR15. */
uint16_t u16InterceptWrDRx;
/** Offset 0x08 - Intercept exception vectors 0-31. */
uint32_t u32InterceptXcpt;
/** Offset 0x0c - Intercept control. */
uint64_t u64InterceptCtrl;
/** Offset 0x14-0x3f - Reserved. */
uint8_t u8Reserved0[0x3c - 0x14];
/** Offset 0x3c - PAUSE filter threshold. */
uint16_t u16PauseFilterThreshold;
/** Offset 0x3e - PAUSE intercept filter count. */
uint16_t u16PauseFilterCount;
/** Offset 0x40 - Physical address of IOPM. */
uint64_t u64IOPMPhysAddr;
/** Offset 0x48 - Physical address of MSRPM. */
uint64_t u64MSRPMPhysAddr;
/** Offset 0x50 - TSC Offset. */
uint64_t u64TSCOffset;
/** Offset 0x58 - TLB control field. */
SVMTLBCTRL TLBCtrl;
/** Offset 0x60 - Interrupt control field. */
SVMINTCTRL IntCtrl;
/** Offset 0x68 - Interrupt shadow. */
SVMINTSHADOW IntShadow;
/** Offset 0x70 - Exit code. */
uint64_t u64ExitCode;
/** Offset 0x78 - Exit info 1. */
uint64_t u64ExitInfo1;
/** Offset 0x80 - Exit info 2. */
uint64_t u64ExitInfo2;
/** Offset 0x88 - Exit Interrupt info. */
SVMEVENT ExitIntInfo;
/** Offset 0x90 - Nested Paging control. */
SVMNP NestedPagingCtrl;
/** Offset 0x98 - AVIC APIC BAR. */
SVMAVIC AvicBar;
/** Offset 0xa0-0xa7 - Reserved. */
uint8_t u8Reserved1[0xa8 - 0xa0];
/** Offset 0xa8 - Event injection. */
SVMEVENT EventInject;
/** Offset 0xb0 - Host CR3 for nested paging. */
uint64_t u64NestedPagingCR3;
/** Offset 0xb8 - LBR Virtualization. */
SVMLBRVIRT LbrVirt;
/** Offset 0xc0 - VMCB Clean Bits. */
uint32_t u32VmcbCleanBits;
uint32_t u32Reserved0;
/** Offset 0xc8 - Next sequential instruction pointer. */
uint64_t u64NextRIP;
/** Offset 0xd0 - Number of bytes fetched. */
uint8_t cbInstrFetched;
/** Offset 0xd1 - Guest instruction bytes. */
uint8_t abInstr[SVM_CTRL_GUEST_INSTR_BYTES_MAX];
/** Offset 0xe0 - AVIC APIC_BACKING_PAGE pointer. */
SVMAVIC AvicBackingPagePtr;
/** Offset 0xe8-0xef - Reserved. */
uint8_t u8Reserved2[0xf0 - 0xe8];
/** Offset 0xf0 - AVIC LOGICAL_TABLE pointer. */
SVMAVIC AvicLogicalTablePtr;
/** Offset 0xf8 - AVIC PHYSICAL_TABLE pointer. */
SVMAVICPHYS AvicPhysicalTablePtr;
} SVMVMCBCTRL;
#pragma pack()
/** Pointer to the SVMVMCBSTATESAVE structure. */
typedef SVMVMCBCTRL *PSVMVMCBCTRL;
/** Pointer to a const SVMVMCBSTATESAVE structure. */
typedef const SVMVMCBCTRL *PCSVMVMCBCTRL;
AssertCompileSize(SVMVMCBCTRL, 0x100);
AssertCompileMemberOffset(SVMVMCBCTRL, u16InterceptRdCRx, 0x00);
AssertCompileMemberOffset(SVMVMCBCTRL, u16InterceptWrCRx, 0x02);
AssertCompileMemberOffset(SVMVMCBCTRL, u16InterceptRdDRx, 0x04);
AssertCompileMemberOffset(SVMVMCBCTRL, u16InterceptWrDRx, 0x06);
AssertCompileMemberOffset(SVMVMCBCTRL, u32InterceptXcpt, 0x08);
AssertCompileMemberOffset(SVMVMCBCTRL, u64InterceptCtrl, 0x0c);
AssertCompileMemberOffset(SVMVMCBCTRL, u8Reserved0, 0x14);
AssertCompileMemberOffset(SVMVMCBCTRL, u16PauseFilterThreshold, 0x3c);
AssertCompileMemberOffset(SVMVMCBCTRL, u16PauseFilterCount, 0x3e);
AssertCompileMemberOffset(SVMVMCBCTRL, u64IOPMPhysAddr, 0x40);
AssertCompileMemberOffset(SVMVMCBCTRL, u64MSRPMPhysAddr, 0x48);
AssertCompileMemberOffset(SVMVMCBCTRL, u64TSCOffset, 0x50);
AssertCompileMemberOffset(SVMVMCBCTRL, TLBCtrl, 0x58);
AssertCompileMemberOffset(SVMVMCBCTRL, IntCtrl, 0x60);
AssertCompileMemberOffset(SVMVMCBCTRL, IntShadow, 0x68);
AssertCompileMemberOffset(SVMVMCBCTRL, u64ExitCode, 0x70);
AssertCompileMemberOffset(SVMVMCBCTRL, u64ExitInfo1, 0x78);
AssertCompileMemberOffset(SVMVMCBCTRL, u64ExitInfo2, 0x80);
AssertCompileMemberOffset(SVMVMCBCTRL, ExitIntInfo, 0x88);
AssertCompileMemberOffset(SVMVMCBCTRL, NestedPagingCtrl, 0x90);
AssertCompileMemberOffset(SVMVMCBCTRL, AvicBar, 0x98);
AssertCompileMemberOffset(SVMVMCBCTRL, u8Reserved1, 0xa0);
AssertCompileMemberOffset(SVMVMCBCTRL, EventInject, 0xa8);
AssertCompileMemberOffset(SVMVMCBCTRL, u64NestedPagingCR3, 0xb0);
AssertCompileMemberOffset(SVMVMCBCTRL, LbrVirt, 0xb8);
AssertCompileMemberOffset(SVMVMCBCTRL, u32VmcbCleanBits, 0xc0);
AssertCompileMemberOffset(SVMVMCBCTRL, u64NextRIP, 0xc8);
AssertCompileMemberOffset(SVMVMCBCTRL, cbInstrFetched, 0xd0);
AssertCompileMemberOffset(SVMVMCBCTRL, abInstr, 0xd1);
AssertCompileMemberOffset(SVMVMCBCTRL, AvicBackingPagePtr, 0xe0);
AssertCompileMemberOffset(SVMVMCBCTRL, u8Reserved2, 0xe8);
AssertCompileMemberOffset(SVMVMCBCTRL, AvicLogicalTablePtr, 0xf0);
AssertCompileMemberOffset(SVMVMCBCTRL, AvicPhysicalTablePtr, 0xf8);
AssertCompileMemberSize(SVMVMCBCTRL, abInstr, 0x0f);
/**
* SVM VMCB state save area.
*/
#pragma pack(1)
typedef struct
{
/** Offset 0x400 - Guest ES register + hidden parts. */
SVMSELREG ES;
/** Offset 0x410 - Guest CS register + hidden parts. */
SVMSELREG CS;
/** Offset 0x420 - Guest SS register + hidden parts. */
SVMSELREG SS;
/** Offset 0x430 - Guest DS register + hidden parts. */
SVMSELREG DS;
/** Offset 0x440 - Guest FS register + hidden parts. */
SVMSELREG FS;
/** Offset 0x450 - Guest GS register + hidden parts. */
SVMSELREG GS;
/** Offset 0x460 - Guest GDTR register. */
SVMGDTR GDTR;
/** Offset 0x470 - Guest LDTR register + hidden parts. */
SVMSELREG LDTR;
/** Offset 0x480 - Guest IDTR register. */
SVMIDTR IDTR;
/** Offset 0x490 - Guest TR register + hidden parts. */
SVMSELREG TR;
/** Offset 0x4A0-0x4CA - Reserved. */
uint8_t u8Reserved0[0x4cb - 0x4a0];
/** Offset 0x4CB - CPL. */
uint8_t u8CPL;
/** Offset 0x4CC-0x4CF - Reserved. */
uint8_t u8Reserved1[0x4d0 - 0x4cc];
/** Offset 0x4D0 - EFER. */
uint64_t u64EFER;
/** Offset 0x4D8-0x547 - Reserved. */
uint8_t u8Reserved2[0x548 - 0x4d8];
/** Offset 0x548 - CR4. */
uint64_t u64CR4;
/** Offset 0x550 - CR3. */
uint64_t u64CR3;
/** Offset 0x558 - CR0. */
uint64_t u64CR0;
/** Offset 0x560 - DR7. */
uint64_t u64DR7;
/** Offset 0x568 - DR6. */
uint64_t u64DR6;
/** Offset 0x570 - RFLAGS. */
uint64_t u64RFlags;
/** Offset 0x578 - RIP. */
uint64_t u64RIP;
/** Offset 0x580-0x5D7 - Reserved. */
uint8_t u8Reserved3[0x5d8 - 0x580];
/** Offset 0x5D8 - RSP. */
uint64_t u64RSP;
/** Offset 0x5E0-0x5F7 - Reserved. */
uint8_t u8Reserved4[0x5f8 - 0x5e0];
/** Offset 0x5F8 - RAX. */
uint64_t u64RAX;
/** Offset 0x600 - STAR. */
uint64_t u64STAR;
/** Offset 0x608 - LSTAR. */
uint64_t u64LSTAR;
/** Offset 0x610 - CSTAR. */
uint64_t u64CSTAR;
/** Offset 0x618 - SFMASK. */
uint64_t u64SFMASK;
/** Offset 0x620 - KernelGSBase. */
uint64_t u64KernelGSBase;
/** Offset 0x628 - SYSENTER_CS. */
uint64_t u64SysEnterCS;
/** Offset 0x630 - SYSENTER_ESP. */
uint64_t u64SysEnterESP;
/** Offset 0x638 - SYSENTER_EIP. */
uint64_t u64SysEnterEIP;
/** Offset 0x640 - CR2. */
uint64_t u64CR2;
/** Offset 0x648-0x667 - Reserved. */
uint8_t u8Reserved5[0x668 - 0x648];
/** Offset 0x668 - PAT (Page Attribute Table) MSR. */
uint64_t u64PAT;
/** Offset 0x670 - DBGCTL. */
uint64_t u64DBGCTL;
/** Offset 0x678 - BR_FROM. */
uint64_t u64BR_FROM;
/** Offset 0x680 - BR_TO. */
uint64_t u64BR_TO;
/** Offset 0x688 - LASTEXCPFROM. */
uint64_t u64LASTEXCPFROM;
/** Offset 0x690 - LASTEXCPTO. */
uint64_t u64LASTEXCPTO;
} SVMVMCBSTATESAVE;
#pragma pack()
/** Pointer to the SVMVMCBSTATESAVE structure. */
typedef SVMVMCBSTATESAVE *PSVMVMCBSTATESAVE;
/** Pointer to a const SVMVMCBSTATESAVE structure. */
typedef const SVMVMCBSTATESAVE *PCSVMVMCBSTATESAVE;
AssertCompileSize(SVMVMCBSTATESAVE, 0x298);
AssertCompileMemberOffset(SVMVMCBSTATESAVE, ES, 0x400 - 0x400);
AssertCompileMemberOffset(SVMVMCBSTATESAVE, CS, 0x410 - 0x400);
AssertCompileMemberOffset(SVMVMCBSTATESAVE, SS, 0x420 - 0x400);
AssertCompileMemberOffset(SVMVMCBSTATESAVE, DS, 0x430 - 0x400);
AssertCompileMemberOffset(SVMVMCBSTATESAVE, FS, 0x440 - 0x400);
AssertCompileMemberOffset(SVMVMCBSTATESAVE, GS, 0x450 - 0x400);
AssertCompileMemberOffset(SVMVMCBSTATESAVE, GDTR, 0x460 - 0x400);
AssertCompileMemberOffset(SVMVMCBSTATESAVE, LDTR, 0x470 - 0x400);
AssertCompileMemberOffset(SVMVMCBSTATESAVE, IDTR, 0x480 - 0x400);
AssertCompileMemberOffset(SVMVMCBSTATESAVE, TR, 0x490 - 0x400);
AssertCompileMemberOffset(SVMVMCBSTATESAVE, u8Reserved0, 0x4a0 - 0x400);
AssertCompileMemberOffset(SVMVMCBSTATESAVE, u8CPL, 0x4cb - 0x400);
AssertCompileMemberOffset(SVMVMCBSTATESAVE, u8Reserved1, 0x4cc - 0x400);
AssertCompileMemberOffset(SVMVMCBSTATESAVE, u64EFER, 0x4d0 - 0x400);
AssertCompileMemberOffset(SVMVMCBSTATESAVE, u8Reserved2, 0x4d8 - 0x400);
AssertCompileMemberOffset(SVMVMCBSTATESAVE, u64CR4, 0x548 - 0x400);
AssertCompileMemberOffset(SVMVMCBSTATESAVE, u64CR3, 0x550 - 0x400);
AssertCompileMemberOffset(SVMVMCBSTATESAVE, u64CR0, 0x558 - 0x400);
AssertCompileMemberOffset(SVMVMCBSTATESAVE, u64DR7, 0x560 - 0x400);
AssertCompileMemberOffset(SVMVMCBSTATESAVE, u64DR6, 0x568 - 0x400);
AssertCompileMemberOffset(SVMVMCBSTATESAVE, u64RFlags, 0x570 - 0x400);
AssertCompileMemberOffset(SVMVMCBSTATESAVE, u64RIP, 0x578 - 0x400);
AssertCompileMemberOffset(SVMVMCBSTATESAVE, u8Reserved3, 0x580 - 0x400);
AssertCompileMemberOffset(SVMVMCBSTATESAVE, u64RSP, 0x5d8 - 0x400);
AssertCompileMemberOffset(SVMVMCBSTATESAVE, u8Reserved4, 0x5e0 - 0x400);
AssertCompileMemberOffset(SVMVMCBSTATESAVE, u64RAX, 0x5f8 - 0x400);
AssertCompileMemberOffset(SVMVMCBSTATESAVE, u64STAR, 0x600 - 0x400);
AssertCompileMemberOffset(SVMVMCBSTATESAVE, u64LSTAR, 0x608 - 0x400);
AssertCompileMemberOffset(SVMVMCBSTATESAVE, u64CSTAR, 0x610 - 0x400);
AssertCompileMemberOffset(SVMVMCBSTATESAVE, u64SFMASK, 0x618 - 0x400);
AssertCompileMemberOffset(SVMVMCBSTATESAVE, u64KernelGSBase, 0x620 - 0x400);
AssertCompileMemberOffset(SVMVMCBSTATESAVE, u64SysEnterCS, 0x628 - 0x400);
AssertCompileMemberOffset(SVMVMCBSTATESAVE, u64SysEnterESP, 0x630 - 0x400);
AssertCompileMemberOffset(SVMVMCBSTATESAVE, u64SysEnterEIP, 0x638 - 0x400);
AssertCompileMemberOffset(SVMVMCBSTATESAVE, u64CR2, 0x640 - 0x400);
AssertCompileMemberOffset(SVMVMCBSTATESAVE, u8Reserved5, 0x648 - 0x400);
AssertCompileMemberOffset(SVMVMCBSTATESAVE, u64PAT, 0x668 - 0x400);
AssertCompileMemberOffset(SVMVMCBSTATESAVE, u64DBGCTL, 0x670 - 0x400);
AssertCompileMemberOffset(SVMVMCBSTATESAVE, u64BR_FROM, 0x678 - 0x400);
AssertCompileMemberOffset(SVMVMCBSTATESAVE, u64BR_TO, 0x680 - 0x400);
AssertCompileMemberOffset(SVMVMCBSTATESAVE, u64LASTEXCPFROM, 0x688 - 0x400);
AssertCompileMemberOffset(SVMVMCBSTATESAVE, u64LASTEXCPTO, 0x690 - 0x400);
/**
* SVM VM Control Block. (VMCB)
*/
#pragma pack(1)
typedef struct SVMVMCB
{
/** Offset 0x00 - Control area. */
SVMVMCBCTRL ctrl;
/** Offset 0x100-0x3FF - Reserved. */
uint8_t u8Reserved0[0x400 - 0x100];
/** Offset 0x400 - State save area. */
SVMVMCBSTATESAVE guest;
/** Offset 0x698-0xFFF- Reserved. */
uint8_t u8Reserved1[0x1000 - 0x698];
} SVMVMCB;
#pragma pack()
/** Pointer to the SVMVMCB structure. */
typedef SVMVMCB *PSVMVMCB;
/** Pointer to a const SVMVMCB structure. */
typedef const SVMVMCB *PCSVMVMCB;
AssertCompileMemberOffset(SVMVMCB, ctrl, 0x00);
AssertCompileMemberOffset(SVMVMCB, u8Reserved0, 0x100);
AssertCompileMemberOffset(SVMVMCB, guest, 0x400);
AssertCompileMemberOffset(SVMVMCB, u8Reserved1, 0x698);
AssertCompileSize(SVMVMCB, 0x1000);
/**
* SVM MSRs.
*/
typedef struct SVMMSRS
{
/** HWCR MSR. */
uint64_t u64MsrHwcr;
/** Reserved for future. */
uint64_t u64Padding[27];
} SVMMSRS;
AssertCompileSizeAlignment(SVMMSRS, 8);
AssertCompileSize(SVMMSRS, 224);
/** Pointer to a SVMMSRS struct. */
typedef SVMMSRS *PSVMMSRS;
/** Pointer to a const SVMMSRS struct. */
typedef const SVMMSRS *PCSVMMSRS;
/**
* SVM VM-exit auxiliary information.
*
* This includes information that isn't necessarily stored in the guest-CPU
* context but provided as part of \#VMEXITs.
*/
typedef struct
{
uint64_t u64ExitCode;
uint64_t u64ExitInfo1;
uint64_t u64ExitInfo2;
SVMEVENT ExitIntInfo;
} SVMEXITAUX;
/** Pointer to a SVMEXITAUX struct. */
typedef SVMEXITAUX *PSVMEXITAUX;
/** Pointer to a const SVMEXITAUX struct. */
typedef const SVMEXITAUX *PCSVMEXITAUX;
/**
* Segment attribute conversion between CPU and AMD-V VMCB format.
*
* The CPU format of the segment attribute is described in X86DESCATTRBITS
* which is 16-bits (i.e. includes 4 bits of the segment limit).
*
* The AMD-V VMCB format the segment attribute is compact 12-bits (strictly
* only the attribute bits and nothing else). Upper 4-bits are unused.
*/
#define HMSVM_CPU_2_VMCB_SEG_ATTR(a) ( ((a) & 0xff) | (((a) & 0xf000) >> 4) )
#define HMSVM_VMCB_2_CPU_SEG_ATTR(a) ( ((a) & 0xff) | (((a) & 0x0f00) << 4) )
/** @def HMSVM_SEG_REG_COPY_TO_VMCB
* Copies the specified segment register to a VMCB from a virtual CPU context.
*
* @param a_pCtx The virtual-CPU context.
* @param a_pVmcbStateSave Pointer to the VMCB state-save area.
* @param a_REG The segment register in the VMCB state-save
* struct (ES/CS/SS/DS).
* @param a_reg The segment register in the virtual CPU struct
* (es/cs/ss/ds).
*/
#define HMSVM_SEG_REG_COPY_TO_VMCB(a_pCtx, a_pVmcbStateSave, a_REG, a_reg) \
do \
{ \
Assert((a_pCtx)->a_reg.fFlags & CPUMSELREG_FLAGS_VALID); \
Assert((a_pCtx)->a_reg.ValidSel == (a_pCtx)->a_reg.Sel); \
(a_pVmcbStateSave)->a_REG.u16Sel = (a_pCtx)->a_reg.Sel; \
(a_pVmcbStateSave)->a_REG.u32Limit = (a_pCtx)->a_reg.u32Limit; \
(a_pVmcbStateSave)->a_REG.u64Base = (a_pCtx)->a_reg.u64Base; \
(a_pVmcbStateSave)->a_REG.u16Attr = HMSVM_CPU_2_VMCB_SEG_ATTR((a_pCtx)->a_reg.Attr.u); \
} while (0)
/** @def HMSVM_SEG_REG_COPY_FROM_VMCB
* Copies the specified segment register from the VMCB to a virtual CPU
* context.
*
* @param a_pCtx The virtual-CPU context.
* @param a_pVmcbStateSave Pointer to the VMCB state-save area.
* @param a_REG The segment register in the VMCB state-save
* struct (ES/CS/SS/DS).
* @param a_reg The segment register in the virtual CPU struct
* (es/ds/ss/ds).
*/
#define HMSVM_SEG_REG_COPY_FROM_VMCB(a_pCtx, a_pVmcbStateSave, a_REG, a_reg) \
do \
{ \
(a_pCtx)->a_reg.Sel = (a_pVmcbStateSave)->a_REG.u16Sel; \
(a_pCtx)->a_reg.ValidSel = (a_pVmcbStateSave)->a_REG.u16Sel; \
(a_pCtx)->a_reg.fFlags = CPUMSELREG_FLAGS_VALID; \
(a_pCtx)->a_reg.u32Limit = (a_pVmcbStateSave)->a_REG.u32Limit; \
(a_pCtx)->a_reg.u64Base = (a_pVmcbStateSave)->a_REG.u64Base; \
(a_pCtx)->a_reg.Attr.u = HMSVM_VMCB_2_CPU_SEG_ATTR((a_pVmcbStateSave)->a_REG.u16Attr); \
} while (0)
/** @defgroup grp_hm_svm_hwexec SVM Hardware-assisted execution Helpers
*
* These functions are only here because the inline functions in cpum.h calls them.
* Don't add any more functions here unless there is no other option.
* @{
*/
VMM_INT_DECL(bool) HMGetGuestSvmCtrlIntercepts(PCVMCPU pVCpu, uint64_t *pu64Intercepts);
VMM_INT_DECL(bool) HMGetGuestSvmReadCRxIntercepts(PCVMCPU pVCpu, uint16_t *pu16Intercepts);
VMM_INT_DECL(bool) HMGetGuestSvmWriteCRxIntercepts(PCVMCPU pVCpu, uint16_t *pu16Intercepts);
VMM_INT_DECL(bool) HMGetGuestSvmReadDRxIntercepts(PCVMCPU pVCpu, uint16_t *pu16Intercepts);
VMM_INT_DECL(bool) HMGetGuestSvmWriteDRxIntercepts(PCVMCPU pVCpu, uint16_t *pu16Intercepts);
VMM_INT_DECL(bool) HMGetGuestSvmXcptIntercepts(PCVMCPU pVCpu, uint32_t *pu32Intercepts);
VMM_INT_DECL(bool) HMGetGuestSvmVirtIntrMasking(PCVMCPU pVCpu, bool *pfVIntrMasking);
VMM_INT_DECL(bool) HMGetGuestSvmNestedPaging(PCVMCPU pVCpu, bool *pfNestedPagingCtrl);
VMM_INT_DECL(bool) HMGetGuestSvmPauseFilterCount(PCVMCPU pVCpu, uint16_t *pu16PauseFilterCount);
VMM_INT_DECL(bool) HMGetGuestSvmTscOffset(PCVMCPU pVCpu, uint64_t *pu64TscOffset);
/** @} */
/** @} */
#endif /* !VBOX_INCLUDED_vmm_hm_svm_h */
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