/** @file * X86 (and AMD64) Structures and Definitions. */ /* * Copyright (C) 2006-2007 Sun Microsystems, Inc. * * This file is part of VirtualBox Open Source Edition (OSE), as * available from http://www.virtualbox.org. This file is free software; * you can redistribute it and/or modify it under the terms of the GNU * General Public License (GPL) as published by the Free Software * Foundation, in version 2 as it comes in the "COPYING" file of the * VirtualBox OSE distribution. VirtualBox OSE is distributed in the * hope that it will be useful, but WITHOUT ANY WARRANTY of any kind. * * The contents of this file may alternatively be used under the terms * of the Common Development and Distribution License Version 1.0 * (CDDL) only, as it comes in the "COPYING.CDDL" file of the * VirtualBox OSE 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. * * Please contact Sun Microsystems, Inc., 4150 Network Circle, Santa * Clara, CA 95054 USA or visit http://www.sun.com if you need * additional information or have any questions. */ /* * x86.mac is generated from this file using: * sed -e '/__VBox_x86_h__/d' -e '/#define/!d' -e 's/#define/%define/' include/VBox/x86.h */ #ifndef ___VBox_x86_h #define ___VBox_x86_h #include /* Workaround for Solaris sys/regset.h defining CS, DS */ #if defined(RT_OS_SOLARIS) # undef CS # undef DS #endif /** @defgroup grp_x86 x86 Types and Definitions * @{ */ /** * EFLAGS Bits. */ typedef struct X86EFLAGSBITS { /** Bit 0 - CF - Carry flag - Status flag. */ unsigned u1CF : 1; /** Bit 1 - 1 - Reserved flag. */ unsigned u1Reserved0 : 1; /** Bit 2 - PF - Parity flag - Status flag. */ unsigned u1PF : 1; /** Bit 3 - 0 - Reserved flag. */ unsigned u1Reserved1 : 1; /** Bit 4 - AF - Auxiliary carry flag - Status flag. */ unsigned u1AF : 1; /** Bit 5 - 0 - Reserved flag. */ unsigned u1Reserved2 : 1; /** Bit 6 - ZF - Zero flag - Status flag. */ unsigned u1ZF : 1; /** Bit 7 - SF - Signed flag - Status flag. */ unsigned u1SF : 1; /** Bit 8 - TF - Trap flag - System flag. */ unsigned u1TF : 1; /** Bit 9 - IF - Interrupt flag - System flag. */ unsigned u1IF : 1; /** Bit 10 - DF - Direction flag - Control flag. */ unsigned u1DF : 1; /** Bit 11 - OF - Overflow flag - Status flag. */ unsigned u1OF : 1; /** Bit 12-13 - IOPL - I/O prvilege level flag - System flag. */ unsigned u2IOPL : 2; /** Bit 14 - NT - Nested task flag - System flag. */ unsigned u1NT : 1; /** Bit 15 - 0 - Reserved flag. */ unsigned u1Reserved3 : 1; /** Bit 16 - RF - Resume flag - System flag. */ unsigned u1RF : 1; /** Bit 17 - VM - Virtual 8086 mode - System flag. */ unsigned u1VM : 1; /** Bit 18 - AC - Alignment check flag - System flag. Works with CR0.AM. */ unsigned u1AC : 1; /** Bit 19 - VIF - Virtual interupt flag - System flag. */ unsigned u1VIF : 1; /** Bit 20 - VIP - Virtual interupt pending flag - System flag. */ unsigned u1VIP : 1; /** Bit 21 - ID - CPUID flag - System flag. If this responds to flipping CPUID is supported. */ unsigned u1ID : 1; /** Bit 22-31 - 0 - Reserved flag. */ unsigned u10Reserved4 : 10; } X86EFLAGSBITS; /** Pointer to EFLAGS bits. */ typedef X86EFLAGSBITS *PX86EFLAGSBITS; /** Pointer to const EFLAGS bits. */ typedef const X86EFLAGSBITS *PCX86EFLAGSBITS; /** * EFLAGS. */ typedef union X86EFLAGS { /** The bitfield view. */ X86EFLAGSBITS Bits; /** The 8-bit view. */ uint8_t au8[4]; /** The 16-bit view. */ uint16_t au16[2]; /** The 32-bit view. */ uint32_t au32[1]; /** The 32-bit view. */ uint32_t u32; /** The plain unsigned view. */ uint32_t u; } X86EFLAGS; /** Pointer to EFLAGS. */ typedef X86EFLAGS *PX86EFLAGS; /** Pointer to const EFLAGS. */ typedef const X86EFLAGS *PCX86EFLAGS; /** * RFLAGS (32 upper bits are reserved). */ typedef union X86RFLAGS { /** The bitfield view. */ X86EFLAGSBITS Bits; /** The 8-bit view. */ uint8_t au8[8]; /** The 16-bit view. */ uint16_t au16[4]; /** The 32-bit view. */ uint32_t au32[2]; /** The 64-bit view. */ uint64_t au64[1]; /** The 64-bit view. */ uint64_t u64; /** The plain unsigned view. */ uint64_t u; } X86RFLAGS; /** Pointer to RFLAGS. */ typedef X86RFLAGS *PX86RFLAGS; /** Pointer to const RFLAGS. */ typedef const X86RFLAGS *PCX86RFLAGS; /** @name EFLAGS * @{ */ /** Bit 0 - CF - Carry flag - Status flag. */ #define X86_EFL_CF RT_BIT(0) /** Bit 2 - PF - Parity flag - Status flag. */ #define X86_EFL_PF RT_BIT(2) /** Bit 4 - AF - Auxiliary carry flag - Status flag. */ #define X86_EFL_AF RT_BIT(4) /** Bit 6 - ZF - Zero flag - Status flag. */ #define X86_EFL_ZF RT_BIT(6) /** Bit 7 - SF - Signed flag - Status flag. */ #define X86_EFL_SF RT_BIT(7) /** Bit 8 - TF - Trap flag - System flag. */ #define X86_EFL_TF RT_BIT(8) /** Bit 9 - IF - Interrupt flag - System flag. */ #define X86_EFL_IF RT_BIT(9) /** Bit 10 - DF - Direction flag - Control flag. */ #define X86_EFL_DF RT_BIT(10) /** Bit 11 - OF - Overflow flag - Status flag. */ #define X86_EFL_OF RT_BIT(11) /** Bit 12-13 - IOPL - I/O prvilege level flag - System flag. */ #define X86_EFL_IOPL (RT_BIT(12) | RT_BIT(13)) /** Bit 14 - NT - Nested task flag - System flag. */ #define X86_EFL_NT RT_BIT(14) /** Bit 16 - RF - Resume flag - System flag. */ #define X86_EFL_RF RT_BIT(16) /** Bit 17 - VM - Virtual 8086 mode - System flag. */ #define X86_EFL_VM RT_BIT(17) /** Bit 18 - AC - Alignment check flag - System flag. Works with CR0.AM. */ #define X86_EFL_AC RT_BIT(18) /** Bit 19 - VIF - Virtual interupt flag - System flag. */ #define X86_EFL_VIF RT_BIT(19) /** Bit 20 - VIP - Virtual interupt pending flag - System flag. */ #define X86_EFL_VIP RT_BIT(20) /** Bit 21 - ID - CPUID flag - System flag. If this responds to flipping CPUID is supported. */ #define X86_EFL_ID RT_BIT(21) /** IOPL shift. */ #define X86_EFL_IOPL_SHIFT 12 /** The the IOPL level from the flags. */ #define X86_EFL_GET_IOPL(efl) (((efl) >> X86_EFL_IOPL_SHIFT) & 3) /** @} */ /** CPUID Feature information - ECX. * CPUID query with EAX=1. */ typedef struct X86CPUIDFEATECX { /** Bit 0 - SSE3 - Supports SSE3 or not. */ unsigned u1SSE3 : 1; /** Reserved. */ unsigned u2Reserved1 : 2; /** Bit 3 - MONITOR - Supports MONITOR/MWAIT. */ unsigned u1Monitor : 1; /** Bit 4 - CPL-DS - CPL Qualified Debug Store. */ unsigned u1CPLDS : 1; /** Bit 5 - VMX - Virtual Machine Technology. */ unsigned u1VMX : 1; /** Reserved. */ unsigned u1Reserved2 : 1; /** Bit 7 - EST - Enh. SpeedStep Tech. */ unsigned u1EST : 1; /** Bit 8 - TM2 - Terminal Monitor 2. */ unsigned u1TM2 : 1; /** Bit 9 - SSSE3 - Supplemental Streaming SIMD Extensions 3. */ unsigned u1SSSE3 : 1; /** Bit 10 - CNTX-ID - L1 Context ID. */ unsigned u1CNTXID : 1; /** Reserved. */ unsigned u2Reserved4 : 2; /** Bit 13 - CX16 - CMPXCHG16B. */ unsigned u1CX16 : 1; /** Bit 14 - xTPR Update Control. Processor supports changing IA32_MISC_ENABLES[bit 23]. */ unsigned u1TPRUpdate : 1; /** Reserved. */ unsigned u17Reserved5 : 17; } X86CPUIDFEATECX; /** Pointer to CPUID Feature Information - ECX. */ typedef X86CPUIDFEATECX *PX86CPUIDFEATECX; /** Pointer to const CPUID Feature Information - ECX. */ typedef const X86CPUIDFEATECX *PCX86CPUIDFEATECX; /** CPUID Feature Information - EDX. * CPUID query with EAX=1. */ typedef struct X86CPUIDFEATEDX { /** Bit 0 - FPU - x87 FPU on Chip. */ unsigned u1FPU : 1; /** Bit 1 - VME - Virtual 8086 Mode Enhancements. */ unsigned u1VME : 1; /** Bit 2 - DE - Debugging extensions. */ unsigned u1DE : 1; /** Bit 3 - PSE - Page Size Extension. */ unsigned u1PSE : 1; /** Bit 4 - TSC - Time Stamp Counter. */ unsigned u1TSC : 1; /** Bit 5 - MSR - Model Specific Registers RDMSR and WRMSR Instructions. */ unsigned u1MSR : 1; /** Bit 6 - PAE - Physical Address Extension. */ unsigned u1PAE : 1; /** Bit 7 - MCE - Machine Check Exception. */ unsigned u1MCE : 1; /** Bit 8 - CX8 - CMPXCHG8B instruction. */ unsigned u1CX8 : 1; /** Bit 9 - APIC - APIC On-Chip. */ unsigned u1APIC : 1; /** Bit 10 - Reserved. */ unsigned u1Reserved1 : 1; /** Bit 11 - SEP - SYSENTER and SYSEXIT. */ unsigned u1SEP : 1; /** Bit 12 - MTRR - Memory Type Range Registers. */ unsigned u1MTRR : 1; /** Bit 13 - PGE - PTE Global Bit. */ unsigned u1PGE : 1; /** Bit 14 - MCA - Machine Check Architecture. */ unsigned u1MCA : 1; /** Bit 15 - CMOV - Conditional Move Instructions. */ unsigned u1CMOV : 1; /** Bit 16 - PAT - Page Attribute Table. */ unsigned u1PAT : 1; /** Bit 17 - PSE-36 - 36-bit Page Size Extention. */ unsigned u1PSE36 : 1; /** Bit 18 - PSN - Processor Serial Number. */ unsigned u1PSN : 1; /** Bit 19 - CLFSH - CLFLUSH Instruction. */ unsigned u1CLFSH : 1; /** Bit 20 - Reserved. */ unsigned u1Reserved2 : 1; /** Bit 21 - DS - Debug Store. */ unsigned u1DS : 1; /** Bit 22 - ACPI - Thermal Monitor and Software Controlled Clock Facilities. */ unsigned u1ACPI : 1; /** Bit 23 - MMX - Intel MMX 'Technology'. */ unsigned u1MMX : 1; /** Bit 24 - FXSR - FXSAVE and FXRSTOR Instructions. */ unsigned u1FXSR : 1; /** Bit 25 - SSE - SSE Support. */ unsigned u1SSE : 1; /** Bit 26 - SSE2 - SSE2 Support. */ unsigned u1SSE2 : 1; /** Bit 27 - SS - Self Snoop. */ unsigned u1SS : 1; /** Bit 28 - HTT - Hyper-Threading Technology. */ unsigned u1HTT : 1; /** Bit 29 - TM - Thermal Monitor. */ unsigned u1TM : 1; /** Bit 30 - Reserved - . */ unsigned u1Reserved3 : 1; /** Bit 31 - PBE - Pending Break Enabled. */ unsigned u1PBE : 1; } X86CPUIDFEATEDX; /** Pointer to CPUID Feature Information - EDX. */ typedef X86CPUIDFEATEDX *PX86CPUIDFEATEDX; /** Pointer to const CPUID Feature Information - EDX. */ typedef const X86CPUIDFEATEDX *PCX86CPUIDFEATEDX; /** @name CPUID Vendor information. * CPUID query with EAX=0. * @{ */ #define X86_CPUID_VENDOR_INTEL_EBX 0x756e6547 /* Genu */ #define X86_CPUID_VENDOR_INTEL_ECX 0x6c65746e /* ntel */ #define X86_CPUID_VENDOR_INTEL_EDX 0x49656e69 /* ineI */ #define X86_CPUID_VENDOR_AMD_EBX 0x68747541 /* Auth */ #define X86_CPUID_VENDOR_AMD_ECX 0x444d4163 /* cAMD */ #define X86_CPUID_VENDOR_AMD_EDX 0x69746e65 /* enti */ /** @} */ /** @name CPUID Feature information. * CPUID query with EAX=1. * @{ */ /** ECX Bit 0 - SSE3 - Supports SSE3 or not. */ #define X86_CPUID_FEATURE_ECX_SSE3 RT_BIT(0) /** ECX Bit 3 - MONITOR - Supports MONITOR/MWAIT. */ #define X86_CPUID_FEATURE_ECX_MONITOR RT_BIT(3) /** ECX Bit 4 - CPL-DS - CPL Qualified Debug Store. */ #define X86_CPUID_FEATURE_ECX_CPLDS RT_BIT(4) /** ECX Bit 5 - VMX - Virtual Machine Technology. */ #define X86_CPUID_FEATURE_ECX_VMX RT_BIT(5) /** ECX Bit 7 - EST - Enh. SpeedStep Tech. */ #define X86_CPUID_FEATURE_ECX_EST RT_BIT(7) /** ECX Bit 8 - TM2 - Terminal Monitor 2. */ #define X86_CPUID_FEATURE_ECX_TM2 RT_BIT(8) /** ECX Bit 9 - SSSE3 - Supplemental Streaming SIMD Extensions 3. */ #define X86_CPUID_FEATURE_ECX_SSSE3 RT_BIT(9) /** ECX Bit 10 - CNTX-ID - L1 Context ID. */ #define X86_CPUID_FEATURE_ECX_CNTXID RT_BIT(10) /** ECX Bit 13 - CX16 - CMPXCHG16B. */ #define X86_CPUID_FEATURE_ECX_CX16 RT_BIT(13) /** ECX Bit 14 - xTPR Update Control. Processor supports changing IA32_MISC_ENABLES[bit 23]. */ #define X86_CPUID_FEATURE_ECX_TPRUPDATE RT_BIT(14) /** ECX Bit 21 - x2APIC support. */ #define X86_CPUID_FEATURE_ECX_X2APIC RT_BIT(21) /** ECX Bit 23 - POPCOUNT instruction. */ #define X86_CPUID_FEATURE_ECX_POPCOUNT RT_BIT(23) /** Bit 0 - FPU - x87 FPU on Chip. */ #define X86_CPUID_FEATURE_EDX_FPU RT_BIT(0) /** Bit 1 - VME - Virtual 8086 Mode Enhancements. */ #define X86_CPUID_FEATURE_EDX_VME RT_BIT(1) /** Bit 2 - DE - Debugging extensions. */ #define X86_CPUID_FEATURE_EDX_DE RT_BIT(2) /** Bit 3 - PSE - Page Size Extension. */ #define X86_CPUID_FEATURE_EDX_PSE RT_BIT(3) /** Bit 4 - TSC - Time Stamp Counter. */ #define X86_CPUID_FEATURE_EDX_TSC RT_BIT(4) /** Bit 5 - MSR - Model Specific Registers RDMSR and WRMSR Instructions. */ #define X86_CPUID_FEATURE_EDX_MSR RT_BIT(5) /** Bit 6 - PAE - Physical Address Extension. */ #define X86_CPUID_FEATURE_EDX_PAE RT_BIT(6) /** Bit 7 - MCE - Machine Check Exception. */ #define X86_CPUID_FEATURE_EDX_MCE RT_BIT(7) /** Bit 8 - CX8 - CMPXCHG8B instruction. */ #define X86_CPUID_FEATURE_EDX_CX8 RT_BIT(8) /** Bit 9 - APIC - APIC On-Chip. */ #define X86_CPUID_FEATURE_EDX_APIC RT_BIT(9) /** Bit 11 - SEP - SYSENTER and SYSEXIT. */ #define X86_CPUID_FEATURE_EDX_SEP RT_BIT(11) /** Bit 12 - MTRR - Memory Type Range Registers. */ #define X86_CPUID_FEATURE_EDX_MTRR RT_BIT(12) /** Bit 13 - PGE - PTE Global Bit. */ #define X86_CPUID_FEATURE_EDX_PGE RT_BIT(13) /** Bit 14 - MCA - Machine Check Architecture. */ #define X86_CPUID_FEATURE_EDX_MCA RT_BIT(14) /** Bit 15 - CMOV - Conditional Move Instructions. */ #define X86_CPUID_FEATURE_EDX_CMOV RT_BIT(15) /** Bit 16 - PAT - Page Attribute Table. */ #define X86_CPUID_FEATURE_EDX_PAT RT_BIT(16) /** Bit 17 - PSE-36 - 36-bit Page Size Extention. */ #define X86_CPUID_FEATURE_EDX_PSE36 RT_BIT(17) /** Bit 18 - PSN - Processor Serial Number. */ #define X86_CPUID_FEATURE_EDX_PSN RT_BIT(18) /** Bit 19 - CLFSH - CLFLUSH Instruction. */ #define X86_CPUID_FEATURE_EDX_CLFSH RT_BIT(19) /** Bit 21 - DS - Debug Store. */ #define X86_CPUID_FEATURE_EDX_DS RT_BIT(21) /** Bit 22 - ACPI - Termal Monitor and Software Controlled Clock Facilities. */ #define X86_CPUID_FEATURE_EDX_ACPI RT_BIT(22) /** Bit 23 - MMX - Intel MMX Technology. */ #define X86_CPUID_FEATURE_EDX_MMX RT_BIT(23) /** Bit 24 - FXSR - FXSAVE and FXRSTOR Instructions. */ #define X86_CPUID_FEATURE_EDX_FXSR RT_BIT(24) /** Bit 25 - SSE - SSE Support. */ #define X86_CPUID_FEATURE_EDX_SSE RT_BIT(25) /** Bit 26 - SSE2 - SSE2 Support. */ #define X86_CPUID_FEATURE_EDX_SSE2 RT_BIT(26) /** Bit 27 - SS - Self Snoop. */ #define X86_CPUID_FEATURE_EDX_SS RT_BIT(27) /** Bit 28 - HTT - Hyper-Threading Technology. */ #define X86_CPUID_FEATURE_EDX_HTT RT_BIT(28) /** Bit 29 - TM - Therm. Monitor. */ #define X86_CPUID_FEATURE_EDX_TM RT_BIT(29) /** Bit 31 - PBE - Pending Break Enabled. */ #define X86_CPUID_FEATURE_EDX_PBE RT_BIT(31) /** @} */ /** @name CPUID AMD Feature information. * CPUID query with EAX=0x80000001. * @{ */ /** Bit 0 - FPU - x87 FPU on Chip. */ #define X86_CPUID_AMD_FEATURE_EDX_FPU RT_BIT(0) /** Bit 1 - VME - Virtual 8086 Mode Enhancements. */ #define X86_CPUID_AMD_FEATURE_EDX_VME RT_BIT(1) /** Bit 2 - DE - Debugging extensions. */ #define X86_CPUID_AMD_FEATURE_EDX_DE RT_BIT(2) /** Bit 3 - PSE - Page Size Extension. */ #define X86_CPUID_AMD_FEATURE_EDX_PSE RT_BIT(3) /** Bit 4 - TSC - Time Stamp Counter. */ #define X86_CPUID_AMD_FEATURE_EDX_TSC RT_BIT(4) /** Bit 5 - MSR - K86 Model Specific Registers RDMSR and WRMSR Instructions. */ #define X86_CPUID_AMD_FEATURE_EDX_MSR RT_BIT(5) /** Bit 6 - PAE - Physical Address Extension. */ #define X86_CPUID_AMD_FEATURE_EDX_PAE RT_BIT(6) /** Bit 7 - MCE - Machine Check Exception. */ #define X86_CPUID_AMD_FEATURE_EDX_MCE RT_BIT(7) /** Bit 8 - CX8 - CMPXCHG8B instruction. */ #define X86_CPUID_AMD_FEATURE_EDX_CX8 RT_BIT(8) /** Bit 9 - APIC - APIC On-Chip. */ #define X86_CPUID_AMD_FEATURE_EDX_APIC RT_BIT(9) /** Bit 11 - SEP - AMD SYSCALL and SYSRET. */ #define X86_CPUID_AMD_FEATURE_EDX_SEP RT_BIT(11) /** Bit 12 - MTRR - Memory Type Range Registers. */ #define X86_CPUID_AMD_FEATURE_EDX_MTRR RT_BIT(12) /** Bit 13 - PGE - PTE Global Bit. */ #define X86_CPUID_AMD_FEATURE_EDX_PGE RT_BIT(13) /** Bit 14 - MCA - Machine Check Architecture. */ #define X86_CPUID_AMD_FEATURE_EDX_MCA RT_BIT(14) /** Bit 15 - CMOV - Conditional Move Instructions. */ #define X86_CPUID_AMD_FEATURE_EDX_CMOV RT_BIT(15) /** Bit 16 - PAT - Page Attribute Table. */ #define X86_CPUID_AMD_FEATURE_EDX_PAT RT_BIT(16) /** Bit 17 - PSE-36 - 36-bit Page Size Extention. */ #define X86_CPUID_AMD_FEATURE_EDX_PSE36 RT_BIT(17) /** Bit 20 - NX - AMD No-Execute Page Protection. */ #define X86_CPUID_AMD_FEATURE_EDX_NX RT_BIT(20) /** Bit 22 - AXMMX - AMD Extensions to MMX Instructions. */ #define X86_CPUID_AMD_FEATURE_EDX_AXMMX RT_BIT(22) /** Bit 23 - MMX - Intel MMX Technology. */ #define X86_CPUID_AMD_FEATURE_EDX_MMX RT_BIT(23) /** Bit 24 - FXSR - FXSAVE and FXRSTOR Instructions. */ #define X86_CPUID_AMD_FEATURE_EDX_FXSR RT_BIT(24) /** Bit 25 - FFXSR - AMD fast FXSAVE and FXRSTOR Instructions. */ #define X86_CPUID_AMD_FEATURE_EDX_FFXSR RT_BIT(25) /** Bit 26 - PAGE1GB - AMD 1GB large page support. */ #define X86_CPUID_AMD_FEATURE_EDX_PAGE1GB RT_BIT(26) /** Bit 27 - RDTSCP - AMD RDTSCP instruction. */ #define X86_CPUID_AMD_FEATURE_EDX_RDTSCP RT_BIT(27) /** Bit 29 - LM - AMD Long Mode. */ #define X86_CPUID_AMD_FEATURE_EDX_LONG_MODE RT_BIT(29) /** Bit 30 - 3DNOWEXT - AMD Extensions to 3DNow. */ #define X86_CPUID_AMD_FEATURE_EDX_3DNOW_EX RT_BIT(30) /** Bit 31 - 3DNOW - AMD 3DNow. */ #define X86_CPUID_AMD_FEATURE_EDX_3DNOW RT_BIT(31) /** Bit 0 - LAHF/SAHF - AMD LAHF and SAHF in 64-bit mode. */ #define X86_CPUID_AMD_FEATURE_ECX_LAHF_SAHF RT_BIT(0) /** Bit 1 - CMPL - Core multi-processing legacy mode. */ #define X86_CPUID_AMD_FEATURE_ECX_CMPL RT_BIT(1) /** Bit 2 - SVM - AMD VM extensions. */ #define X86_CPUID_AMD_FEATURE_ECX_SVM RT_BIT(2) /** Bit 3 - EXTAPIC - AMD extended APIC registers starting at 0x400. */ #define X86_CPUID_AMD_FEATURE_ECX_EXT_APIC RT_BIT(3) /** Bit 4 - CR8L - AMD LOCK MOV CR0 means MOV CR8. */ #define X86_CPUID_AMD_FEATURE_ECX_CR8L RT_BIT(4) /** Bit 5 - ABM - AMD Advanced bit manipulation. LZCNT instruction support. */ #define X86_CPUID_AMD_FEATURE_ECX_ABM RT_BIT(5) /** Bit 6 - SSE4A - AMD EXTRQ, INSERTQ, MOVNTSS, and MOVNTSD instruction support. */ #define X86_CPUID_AMD_FEATURE_ECX_SSE4A RT_BIT(6) /** Bit 7 - MISALIGNSSE - AMD Misaligned SSE mode. */ #define X86_CPUID_AMD_FEATURE_ECX_MISALNSSE RT_BIT(7) /** Bit 8 - 3DNOWPRF - AMD PREFETCH and PREFETCHW instruction support. */ #define X86_CPUID_AMD_FEATURE_ECX_3DNOWPRF RT_BIT(8) /** Bit 9 - OSVW - AMD OS visible workaround. */ #define X86_CPUID_AMD_FEATURE_ECX_OSVW RT_BIT(9) /** Bit 12 - SKINIT - AMD SKINIT: SKINIT, STGI, and DEV support. */ #define X86_CPUID_AMD_FEATURE_ECX_SKINIT RT_BIT(12) /** Bit 13 - WDT - AMD Watchdog timer support. */ #define X86_CPUID_AMD_FEATURE_ECX_WDT RT_BIT(13) /** @} */ /** @name CPUID AMD Feature information. * CPUID query with EAX=0x80000007. * @{ */ /** Bit 0 - TS - Temperature Sensor. */ #define X86_CPUID_AMD_ADVPOWER_EDX_TS RT_BIT(0) /** Bit 1 - FID - Frequency ID Control. */ #define X86_CPUID_AMD_ADVPOWER_EDX_FID RT_BIT(1) /** Bit 2 - VID - Voltage ID Control. */ #define X86_CPUID_AMD_ADVPOWER_EDX_VID RT_BIT(2) /** Bit 3 - TTP - THERMTRIP. */ #define X86_CPUID_AMD_ADVPOWER_EDX_TTP RT_BIT(3) /** Bit 4 - TM - Hardware Thermal Control. */ #define X86_CPUID_AMD_ADVPOWER_EDX_TM RT_BIT(4) /** Bit 5 - STC - Software Thermal Control. */ #define X86_CPUID_AMD_ADVPOWER_EDX_STC RT_BIT(5) /** Bit 6 - MC - 100 Mhz Multiplier Control. */ #define X86_CPUID_AMD_ADVPOWER_EDX_MC RT_BIT(6) /** Bit 7 - HWPSTATE - Hardware P-State Control. */ #define X86_CPUID_AMD_ADVPOWER_EDX_HWPSTATE RT_BIT(7) /** Bit 8 - TSCINVAR - TSC Invariant. */ #define X86_CPUID_AMD_ADVPOWER_EDX_TSCINVAR RT_BIT(8) /** @} */ /** @name CR0 * @{ */ /** Bit 0 - PE - Protection Enabled */ #define X86_CR0_PE RT_BIT(0) #define X86_CR0_PROTECTION_ENABLE RT_BIT(0) /** Bit 1 - MP - Monitor Coprocessor */ #define X86_CR0_MP RT_BIT(1) #define X86_CR0_MONITOR_COPROCESSOR RT_BIT(1) /** Bit 2 - EM - Emulation. */ #define X86_CR0_EM RT_BIT(2) #define X86_CR0_EMULATE_FPU RT_BIT(2) /** Bit 3 - TS - Task Switch. */ #define X86_CR0_TS RT_BIT(3) #define X86_CR0_TASK_SWITCH RT_BIT(3) /** Bit 4 - ET - Extension flag. ('hardcoded' to 1) */ #define X86_CR0_ET RT_BIT(4) #define X86_CR0_EXTENSION_TYPE RT_BIT(4) /** Bit 5 - NE - Numeric error. */ #define X86_CR0_NE RT_BIT(5) #define X86_CR0_NUMERIC_ERROR RT_BIT(5) /** Bit 16 - WP - Write Protect. */ #define X86_CR0_WP RT_BIT(16) #define X86_CR0_WRITE_PROTECT RT_BIT(16) /** Bit 18 - AM - Alignment Mask. */ #define X86_CR0_AM RT_BIT(18) #define X86_CR0_ALIGMENT_MASK RT_BIT(18) /** Bit 29 - NW - Not Write-though. */ #define X86_CR0_NW RT_BIT(29) #define X86_CR0_NOT_WRITE_THROUGH RT_BIT(29) /** Bit 30 - WP - Cache Disable. */ #define X86_CR0_CD RT_BIT(30) #define X86_CR0_CACHE_DISABLE RT_BIT(30) /** Bit 31 - PG - Paging. */ #define X86_CR0_PG RT_BIT(31) #define X86_CR0_PAGING RT_BIT(31) /** @} */ /** @name CR3 * @{ */ /** Bit 3 - PWT - Page-level Writes Transparent. */ #define X86_CR3_PWT RT_BIT(3) /** Bit 4 - PCD - Page-level Cache Disable. */ #define X86_CR3_PCD RT_BIT(4) /** Bits 12-31 - - Page directory page number. */ #define X86_CR3_PAGE_MASK (0xfffff000) /** Bits 5-31 - - PAE Page directory page number. */ #define X86_CR3_PAE_PAGE_MASK (0xffffffe0) /** Bits 12-51 - - AMD64 Page directory page number. */ #define X86_CR3_AMD64_PAGE_MASK UINT64_C(0x000ffffffffff000) /** @} */ /** @name CR4 * @{ */ /** Bit 0 - VME - Virtual-8086 Mode Extensions. */ #define X86_CR4_VME RT_BIT(0) /** Bit 1 - PVI - Protected-Mode Virtual Interrupts. */ #define X86_CR4_PVI RT_BIT(1) /** Bit 2 - TSD - Time Stamp Disable. */ #define X86_CR4_TSD RT_BIT(2) /** Bit 3 - DE - Debugging Extensions. */ #define X86_CR4_DE RT_BIT(3) /** Bit 4 - PSE - Page Size Extension. */ #define X86_CR4_PSE RT_BIT(4) /** Bit 5 - PAE - Physical Address Extension. */ #define X86_CR4_PAE RT_BIT(5) /** Bit 6 - MCE - Machine-Check Enable. */ #define X86_CR4_MCE RT_BIT(6) /** Bit 7 - PGE - Page Global Enable. */ #define X86_CR4_PGE RT_BIT(7) /** Bit 8 - PCE - Performance-Monitoring Counter Enable. */ #define X86_CR4_PCE RT_BIT(8) /** Bit 9 - OSFSXR - Operating System Support for FXSAVE and FXRSTORE instruction. */ #define X86_CR4_OSFSXR RT_BIT(9) /** Bit 10 - OSXMMEEXCPT - Operating System Support for Unmasked SIMD Floating-Point Exceptions. */ #define X86_CR4_OSXMMEEXCPT RT_BIT(10) /** Bit 13 - VMXE - VMX mode is enabled. */ #define X86_CR4_VMXE RT_BIT(13) /** @} */ /** @name DR6 * @{ */ /** Bit 0 - B0 - Breakpoint 0 condition detected. */ #define X86_DR6_B0 RT_BIT(0) /** Bit 1 - B1 - Breakpoint 1 condition detected. */ #define X86_DR6_B1 RT_BIT(1) /** Bit 2 - B2 - Breakpoint 2 condition detected. */ #define X86_DR6_B2 RT_BIT(2) /** Bit 3 - B3 - Breakpoint 3 condition detected. */ #define X86_DR6_B3 RT_BIT(3) /** Bit 13 - BD - Debug register access detected. Corresponds to the X86_DR7_GD bit. */ #define X86_DR6_BD RT_BIT(13) /** Bit 14 - BS - Single step */ #define X86_DR6_BS RT_BIT(14) /** Bit 15 - BT - Task switch. (TSS T bit.) */ #define X86_DR6_BT RT_BIT(15) /** Value of DR6 after powerup/reset. */ #define X86_DR6_INIT_VAL UINT64_C(0xFFFF0FF0) /** @} */ /** @name DR7 * @{ */ /** Bit 0 - L0 - Local breakpoint enable. Cleared on task switch. */ #define X86_DR7_L0 RT_BIT(0) /** Bit 1 - G0 - Global breakpoint enable. Not cleared on task switch. */ #define X86_DR7_G0 RT_BIT(1) /** Bit 2 - L1 - Local breakpoint enable. Cleared on task switch. */ #define X86_DR7_L1 RT_BIT(2) /** Bit 3 - G1 - Global breakpoint enable. Not cleared on task switch. */ #define X86_DR7_G1 RT_BIT(3) /** Bit 4 - L2 - Local breakpoint enable. Cleared on task switch. */ #define X86_DR7_L2 RT_BIT(4) /** Bit 5 - G2 - Global breakpoint enable. Not cleared on task switch. */ #define X86_DR7_G2 RT_BIT(5) /** Bit 6 - L3 - Local breakpoint enable. Cleared on task switch. */ #define X86_DR7_L3 RT_BIT(6) /** Bit 7 - G3 - Global breakpoint enable. Not cleared on task switch. */ #define X86_DR7_G3 RT_BIT(7) /** Bit 8 - LE - Local breakpoint exact. (Not supported (read ignored) by P6 and later.) */ #define X86_DR7_LE RT_BIT(8) /** Bit 9 - GE - Local breakpoint exact. (Not supported (read ignored) by P6 and later.) */ #define X86_DR7_GE RT_BIT(9) /** Bit 13 - GD - General detect enable. Enables emulators to get exceptions when * any DR register is accessed. */ #define X86_DR7_GD RT_BIT(13) /** Bit 16 & 17 - R/W0 - Read write field 0. Values X86_DR7_RW_*. */ #define X86_DR7_RW0_MASK (3 << 16) /** Bit 18 & 19 - LEN0 - Length field 0. Values X86_DR7_LEN_*. */ #define X86_DR7_LEN0_MASK (3 << 18) /** Bit 20 & 21 - R/W1 - Read write field 0. Values X86_DR7_RW_*. */ #define X86_DR7_RW1_MASK (3 << 20) /** Bit 22 & 23 - LEN1 - Length field 0. Values X86_DR7_LEN_*. */ #define X86_DR7_LEN1_MASK (3 << 22) /** Bit 24 & 25 - R/W2 - Read write field 0. Values X86_DR7_RW_*. */ #define X86_DR7_RW2_MASK (3 << 24) /** Bit 26 & 27 - LEN2 - Length field 0. Values X86_DR7_LEN_*. */ #define X86_DR7_LEN2_MASK (3 << 26) /** Bit 28 & 29 - R/W3 - Read write field 0. Values X86_DR7_RW_*. */ #define X86_DR7_RW3_MASK (3 << 28) /** Bit 30 & 31 - LEN3 - Length field 0. Values X86_DR7_LEN_*. */ #define X86_DR7_LEN3_MASK (3 << 30) /** Bits which must be 1s. */ #define X86_DR7_MB1_MASK (RT_BIT(10)) /** Calcs the L bit of Nth breakpoint. * @param iBp The breakpoint number [0..3]. */ #define X86_DR7_L(iBp) ( UINT32_C(1) << (iBp * 2) ) /** Calcs the G bit of Nth breakpoint. * @param iBp The breakpoint number [0..3]. */ #define X86_DR7_G(iBp) ( UINT32_C(1) << (iBp * 2 + 1) ) /** @name Read/Write values. * @{ */ /** Break on instruction fetch only. */ #define X86_DR7_RW_EO 0U /** Break on write only. */ #define X86_DR7_RW_WO 1U /** Break on I/O read/write. This is only defined if CR4.DE is set. */ #define X86_DR7_RW_IO 2U /** Break on read or write (but not instruction fetches). */ #define X86_DR7_RW_RW 3U /** @} */ /** Shifts a X86_DR7_RW_* value to its right place. * @param iBp The breakpoint number [0..3]. * @param fRw One of the X86_DR7_RW_* value. */ #define X86_DR7_RW(iBp, fRw) ( (fRw) << ((iBp) * 4 + 16) ) /** @name Length values. * @{ */ #define X86_DR7_LEN_BYTE 0U #define X86_DR7_LEN_WORD 1U #define X86_DR7_LEN_QWORD 2U /**< AMD64 long mode only. */ #define X86_DR7_LEN_DWORD 3U /** @} */ /** Shifts a X86_DR7_LEN_* value to its right place. * @param iBp The breakpoint number [0..3]. * @param cb One of the X86_DR7_LEN_* values. */ #define X86_DR7_LEN(iBp, cb) ( (cb) << ((iBp) * 4 + 18) ) /** Fetch the breakpoint length bits from the DR7 value. * @param uDR7 DR7 value * @param iBp The breakpoint number [0..3]. */ #define X86_DR7_GET_LEN(uDR7, iBp) ( ( (uDR7) >> ((iBp) * 4 + 18) ) & 0x3U) /** Mask used to check if any breakpoints are enabled. */ #define X86_DR7_ENABLED_MASK (RT_BIT(0) | RT_BIT(1) | RT_BIT(2) | RT_BIT(3) | RT_BIT(4) | RT_BIT(5) | RT_BIT(6) | RT_BIT(7)) /** Mask used to check if any io breakpoints are set. */ #define X86_DR7_IO_ENABLED_MASK (X86_DR7_RW(0, X86_DR7_RW_IO) | X86_DR7_RW(1, X86_DR7_RW_IO) | X86_DR7_RW(2, X86_DR7_RW_IO) | X86_DR7_RW(3, X86_DR7_RW_IO)) /** Value of DR7 after powerup/reset. */ #define X86_DR7_INIT_VAL 0x400 /** @} */ /** @name Machine Specific Registers * @{ */ /** Time Stamp Counter. */ #define MSR_IA32_TSC 0x10 #define MSR_IA32_PLATFORM_ID 0x17 #ifndef MSR_IA32_APICBASE /* qemu cpu.h klugde */ #define MSR_IA32_APICBASE 0x1b #endif /** CPU Feature control. */ #define MSR_IA32_FEATURE_CONTROL 0x3A #define MSR_IA32_FEATURE_CONTROL_LOCK RT_BIT(0) #define MSR_IA32_FEATURE_CONTROL_VMXON RT_BIT(2) /** BIOS update trigger (microcode update). */ #define MSR_IA32_BIOS_UPDT_TRIG 0x79 /** BIOS update signature (microcode). */ #define MSR_IA32_BIOS_SIGN_ID 0x8B /** MTRR Capabilities. */ #define MSR_IA32_MTRR_CAP 0xFE #ifndef MSR_IA32_SYSENTER_CS /* qemu cpu.h klugde */ /** SYSENTER_CS - the R0 CS, indirectly giving R0 SS, R3 CS and R3 DS. * R0 SS == CS + 8 * R3 CS == CS + 16 * R3 SS == CS + 24 */ #define MSR_IA32_SYSENTER_CS 0x174 /** SYSENTER_ESP - the R0 ESP. */ #define MSR_IA32_SYSENTER_ESP 0x175 /** SYSENTER_EIP - the R0 EIP. */ #define MSR_IA32_SYSENTER_EIP 0x176 #endif /** Machine Check Global Capabilities Register. */ #define MSR_IA32_MCP_CAP 0x179 /** Machine Check Global Status Register. */ #define MSR_IA32_MCP_STATUS 0x17A /** Machine Check Global Control Register. */ #define MSR_IA32_MCP_CTRL 0x17B /* Page Attribute Table. */ #define MSR_IA32_CR_PAT 0x277 /** MTRR Default Range. */ #define MSR_IA32_MTRR_DEF_TYPE 0x2FF #define MSR_IA32_MC0_CTL 0x400 #define MSR_IA32_MC0_STATUS 0x401 /** Basic VMX information. */ #define MSR_IA32_VMX_BASIC_INFO 0x480 /** Allowed settings for pin-based VM execution controls */ #define MSR_IA32_VMX_PINBASED_CTLS 0x481 /** Allowed settings for proc-based VM execution controls */ #define MSR_IA32_VMX_PROCBASED_CTLS 0x482 /** Allowed settings for the VMX exit controls. */ #define MSR_IA32_VMX_EXIT_CTLS 0x483 /** Allowed settings for the VMX entry controls. */ #define MSR_IA32_VMX_ENTRY_CTLS 0x484 /** Misc VMX info. */ #define MSR_IA32_VMX_MISC 0x485 /** Fixed cleared bits in CR0. */ #define MSR_IA32_VMX_CR0_FIXED0 0x486 /** Fixed set bits in CR0. */ #define MSR_IA32_VMX_CR0_FIXED1 0x487 /** Fixed cleared bits in CR4. */ #define MSR_IA32_VMX_CR4_FIXED0 0x488 /** Fixed set bits in CR4. */ #define MSR_IA32_VMX_CR4_FIXED1 0x489 /** Information for enumerating fields in the VMCS. */ #define MSR_IA32_VMX_VMCS_ENUM 0x48A /** Allowed settings for secondary proc-based VM execution controls */ #define MSR_IA32_VMX_PROCBASED_CTLS2 0x48B /** EPT capabilities. */ #define MSR_IA32_VMX_EPT_CAPS 0x48C /** K6 EFER - Extended Feature Enable Register. */ #define MSR_K6_EFER 0xc0000080 /** @todo document EFER */ /** Bit 0 - SCE - System call extensions (SYSCALL / SYSRET). (R/W) */ #define MSR_K6_EFER_SCE RT_BIT(0) /** Bit 8 - LME - Long mode enabled. (R/W) */ #define MSR_K6_EFER_LME RT_BIT(8) /** Bit 10 - LMA - Long mode active. (R) */ #define MSR_K6_EFER_LMA RT_BIT(10) /** Bit 11 - NXE - No-Execute Page Protection Enabled. (R/W) */ #define MSR_K6_EFER_NXE RT_BIT(11) /** Bit 12 - SVME - Secure VM Extension Enabled. (R/W) */ #define MSR_K6_EFER_SVME RT_BIT(12) /** Bit 13 - LMSLE - Long Mode Segment Limit Enable. (R/W?) */ #define MSR_K6_EFER_LMSLE RT_BIT(13) /** Bit 14 - FFXSR - Fast FXSAVE / FXRSTOR (skip XMM*). (R/W) */ #define MSR_K6_EFER_FFXSR RT_BIT(14) /** K6 STAR - SYSCALL/RET targets. */ #define MSR_K6_STAR 0xc0000081 /** Shift value for getting the SYSRET CS and SS value. */ #define MSR_K6_STAR_SYSRET_CS_SS_SHIFT 48 /** Shift value for getting the SYSCALL CS and SS value. */ #define MSR_K6_STAR_SYSCALL_CS_SS_SHIFT 32 /** Selector mask for use after shifting. */ #define MSR_K6_STAR_SEL_MASK 0xffff /** The mask which give the SYSCALL EIP. */ #define MSR_K6_STAR_SYSCALL_EIP_MASK 0xffffffff /** K6 WHCR - Write Handling Control Register. */ #define MSR_K6_WHCR 0xc0000082 /** K6 UWCCR - UC/WC Cacheability Control Register. */ #define MSR_K6_UWCCR 0xc0000085 /** K6 PSOR - Processor State Observability Register. */ #define MSR_K6_PSOR 0xc0000087 /** K6 PFIR - Page Flush/Invalidate Register. */ #define MSR_K6_PFIR 0xc0000088 #define MSR_K7_EVNTSEL0 0xc0010000 #define MSR_K7_EVNTSEL1 0xc0010001 #define MSR_K7_EVNTSEL2 0xc0010002 #define MSR_K7_EVNTSEL3 0xc0010003 #define MSR_K7_PERFCTR0 0xc0010004 #define MSR_K7_PERFCTR1 0xc0010005 #define MSR_K7_PERFCTR2 0xc0010006 #define MSR_K7_PERFCTR3 0xc0010007 /** K8 LSTAR - Long mode SYSCALL target (RIP). */ #define MSR_K8_LSTAR 0xc0000082 /** K8 CSTAR - Compatibility mode SYSCALL target (RIP). */ #define MSR_K8_CSTAR 0xc0000083 /** K8 SF_MASK - SYSCALL flag mask. (aka SFMASK) */ #define MSR_K8_SF_MASK 0xc0000084 /** K8 FS.base - The 64-bit base FS register. */ #define MSR_K8_FS_BASE 0xc0000100 /** K8 GS.base - The 64-bit base GS register. */ #define MSR_K8_GS_BASE 0xc0000101 /** K8 KernelGSbase - Used with SWAPGS. */ #define MSR_K8_KERNEL_GS_BASE 0xc0000102 #define MSR_K8_TSC_AUX 0xc0000103 #define MSR_K8_SYSCFG 0xc0010010 #define MSR_K8_HWCR 0xc0010015 #define MSR_K8_IORRBASE0 0xc0010016 #define MSR_K8_IORRMASK0 0xc0010017 #define MSR_K8_IORRBASE1 0xc0010018 #define MSR_K8_IORRMASK1 0xc0010019 #define MSR_K8_TOP_MEM1 0xc001001a #define MSR_K8_TOP_MEM2 0xc001001d #define MSR_K8_VM_CR 0xc0010114 #define MSR_K8_VM_CR_SVM_DISABLE RT_BIT(4) #define MSR_K8_IGNNE 0xc0010115 #define MSR_K8_SMM_CTL 0xc0010116 /** SVM - VM_HSAVE_PA - Physical address for saving and restoring * host state during world switch. */ #define MSR_K8_VM_HSAVE_PA 0xc0010117 /** @} */ /** @name Page Table / Directory / Directory Pointers / L4. * @{ */ /** Page table/directory entry as an unsigned integer. */ typedef uint32_t X86PGUINT; /** Pointer to a page table/directory table entry as an unsigned integer. */ typedef X86PGUINT *PX86PGUINT; /** Number of entries in a 32-bit PT/PD. */ #define X86_PG_ENTRIES 1024 /** PAE page table/page directory/pdpt/l4/l5 entry as an unsigned integer. */ typedef uint64_t X86PGPAEUINT; /** Pointer to a PAE page table/page directory/pdpt/l4/l5 entry as an unsigned integer. */ typedef X86PGPAEUINT *PX86PGPAEUINT; /** Number of entries in a PAE PT/PD. */ #define X86_PG_PAE_ENTRIES 512 /** Number of entries in a PAE PDPT. */ #define X86_PG_PAE_PDPE_ENTRIES 4 /** Number of entries in an AMD64 PT/PD/PDPT/L4/L5. */ #define X86_PG_AMD64_ENTRIES X86_PG_PAE_ENTRIES /** Number of entries in an AMD64 PDPT. * Just for complementing X86_PG_PAE_PDPE_ENTRIES, using X86_PG_AMD64_ENTRIES for this is fine too. */ #define X86_PG_AMD64_PDPE_ENTRIES X86_PG_AMD64_ENTRIES /** The size of a 4KB page. */ #define X86_PAGE_4K_SIZE _4K /** The page shift of a 4KB page. */ #define X86_PAGE_4K_SHIFT 12 /** The 4KB page offset mask. */ #define X86_PAGE_4K_OFFSET_MASK 0xfff /** The 4KB page base mask for virtual addresses. */ #define X86_PAGE_4K_BASE_MASK 0xfffffffffffff000ULL /** The 4KB page base mask for virtual addresses - 32bit version. */ #define X86_PAGE_4K_BASE_MASK_32 0xfffff000U /** The size of a 2MB page. */ #define X86_PAGE_2M_SIZE _2M /** The page shift of a 2MB page. */ #define X86_PAGE_2M_SHIFT 21 /** The 2MB page offset mask. */ #define X86_PAGE_2M_OFFSET_MASK 0x001fffff /** The 2MB page base mask for virtual addresses. */ #define X86_PAGE_2M_BASE_MASK 0xffffffffffe00000ULL /** The 2MB page base mask for virtual addresses - 32bit version. */ #define X86_PAGE_2M_BASE_MASK_32 0xffe00000U /** The size of a 4MB page. */ #define X86_PAGE_4M_SIZE _4M /** The page shift of a 4MB page. */ #define X86_PAGE_4M_SHIFT 22 /** The 4MB page offset mask. */ #define X86_PAGE_4M_OFFSET_MASK 0x003fffff /** The 4MB page base mask for virtual addresses. */ #define X86_PAGE_4M_BASE_MASK 0xffffffffffc00000ULL /** The 4MB page base mask for virtual addresses - 32bit version. */ #define X86_PAGE_4M_BASE_MASK_32 0xffc00000U /** @name Page Table Entry * @{ */ /** Bit 0 - P - Present bit. */ #define X86_PTE_P RT_BIT(0) /** Bit 1 - R/W - Read (clear) / Write (set) bit. */ #define X86_PTE_RW RT_BIT(1) /** Bit 2 - U/S - User (set) / Supervisor (clear) bit. */ #define X86_PTE_US RT_BIT(2) /** Bit 3 - PWT - Page level write thru bit. */ #define X86_PTE_PWT RT_BIT(3) /** Bit 4 - PCD - Page level cache disable bit. */ #define X86_PTE_PCD RT_BIT(4) /** Bit 5 - A - Access bit. */ #define X86_PTE_A RT_BIT(5) /** Bit 6 - D - Dirty bit. */ #define X86_PTE_D RT_BIT(6) /** Bit 7 - PAT - Page Attribute Table index bit. Reserved and 0 if not supported. */ #define X86_PTE_PAT RT_BIT(7) /** Bit 8 - G - Global flag. */ #define X86_PTE_G RT_BIT(8) /** Bits 9-11 - - Available for use to system software. */ #define X86_PTE_AVL_MASK (RT_BIT(9) | RT_BIT(10) | RT_BIT(11)) /** Bits 12-31 - - Physical Page number of the next level. */ #define X86_PTE_PG_MASK ( 0xfffff000 ) /** Bits 12-51 - - PAE - Physical Page number of the next level. */ #if 1 /* we're using this internally and have to mask of the top 16-bit. */ #define X86_PTE_PAE_PG_MASK ( 0x0000fffffffff000ULL ) /** @todo Get rid of the above hack; makes code unreadable. */ #define X86_PTE_PAE_PG_MASK_FULL ( 0x000ffffffffff000ULL ) #else #define X86_PTE_PAE_PG_MASK ( 0x000ffffffffff000ULL ) #endif /** Bits 63 - NX - PAE - No execution flag. */ #define X86_PTE_PAE_NX RT_BIT_64(63) /** * Page table entry. */ typedef struct X86PTEBITS { /** Flags whether(=1) or not the page is present. */ unsigned u1Present : 1; /** Read(=0) / Write(=1) flag. */ unsigned u1Write : 1; /** User(=1) / Supervisor (=0) flag. */ unsigned u1User : 1; /** Write Thru flag. If PAT enabled, bit 0 of the index. */ unsigned u1WriteThru : 1; /** Cache disabled flag. If PAT enabled, bit 1 of the index. */ unsigned u1CacheDisable : 1; /** Accessed flag. * Indicates that the page have been read or written to. */ unsigned u1Accessed : 1; /** Dirty flag. * Indicates that the page have been written to. */ unsigned u1Dirty : 1; /** Reserved / If PAT enabled, bit 2 of the index. */ unsigned u1PAT : 1; /** Global flag. (Ignored in all but final level.) */ unsigned u1Global : 1; /** Available for use to system software. */ unsigned u3Available : 3; /** Physical Page number of the next level. */ unsigned u20PageNo : 20; } X86PTEBITS; /** Pointer to a page table entry. */ typedef X86PTEBITS *PX86PTEBITS; /** Pointer to a const page table entry. */ typedef const X86PTEBITS *PCX86PTEBITS; /** * Page table entry. */ typedef union X86PTE { /** Bit field view. */ X86PTEBITS n; /** Unsigned integer view */ X86PGUINT u; /** 32-bit view. */ uint32_t au32[1]; /** 16-bit view. */ uint16_t au16[2]; /** 8-bit view. */ uint8_t au8[4]; } X86PTE; /** Pointer to a page table entry. */ typedef X86PTE *PX86PTE; /** Pointer to a const page table entry. */ typedef const X86PTE *PCX86PTE; /** * PAE page table entry. */ typedef struct X86PTEPAEBITS { /** Flags whether(=1) or not the page is present. */ uint32_t u1Present : 1; /** Read(=0) / Write(=1) flag. */ uint32_t u1Write : 1; /** User(=1) / Supervisor(=0) flag. */ uint32_t u1User : 1; /** Write Thru flag. If PAT enabled, bit 0 of the index. */ uint32_t u1WriteThru : 1; /** Cache disabled flag. If PAT enabled, bit 1 of the index. */ uint32_t u1CacheDisable : 1; /** Accessed flag. * Indicates that the page have been read or written to. */ uint32_t u1Accessed : 1; /** Dirty flag. * Indicates that the page have been written to. */ uint32_t u1Dirty : 1; /** Reserved / If PAT enabled, bit 2 of the index. */ uint32_t u1PAT : 1; /** Global flag. (Ignored in all but final level.) */ uint32_t u1Global : 1; /** Available for use to system software. */ uint32_t u3Available : 3; /** Physical Page number of the next level - Low Part. Don't use this. */ uint32_t u20PageNoLow : 20; /** Physical Page number of the next level - High Part. Don't use this. */ uint32_t u20PageNoHigh : 20; /** MBZ bits */ uint32_t u11Reserved : 11; /** No Execute flag. */ uint32_t u1NoExecute : 1; } X86PTEPAEBITS; /** Pointer to a page table entry. */ typedef X86PTEPAEBITS *PX86PTEPAEBITS; /** Pointer to a page table entry. */ typedef const X86PTEPAEBITS *PCX86PTEPAEBITS; /** * PAE Page table entry. */ typedef union X86PTEPAE { /** Bit field view. */ X86PTEPAEBITS n; /** Unsigned integer view */ X86PGPAEUINT u; /** 32-bit view. */ uint32_t au32[2]; /** 16-bit view. */ uint16_t au16[4]; /** 8-bit view. */ uint8_t au8[8]; } X86PTEPAE; /** Pointer to a PAE page table entry. */ typedef X86PTEPAE *PX86PTEPAE; /** Pointer to a const PAE page table entry. */ typedef const X86PTEPAE *PCX86PTEPAE; /** @} */ /** * Page table. */ typedef struct X86PT { /** PTE Array. */ X86PTE a[X86_PG_ENTRIES]; } X86PT; /** Pointer to a page table. */ typedef X86PT *PX86PT; /** Pointer to a const page table. */ typedef const X86PT *PCX86PT; /** The page shift to get the PT index. */ #define X86_PT_SHIFT 12 /** The PT index mask (apply to a shifted page address). */ #define X86_PT_MASK 0x3ff /** * Page directory. */ typedef struct X86PTPAE { /** PTE Array. */ X86PTEPAE a[X86_PG_PAE_ENTRIES]; } X86PTPAE; /** Pointer to a page table. */ typedef X86PTPAE *PX86PTPAE; /** Pointer to a const page table. */ typedef const X86PTPAE *PCX86PTPAE; /** The page shift to get the PA PTE index. */ #define X86_PT_PAE_SHIFT 12 /** The PAE PT index mask (apply to a shifted page address). */ #define X86_PT_PAE_MASK 0x1ff /** @name 4KB Page Directory Entry * @{ */ /** Bit 0 - P - Present bit. */ #define X86_PDE_P RT_BIT(0) /** Bit 1 - R/W - Read (clear) / Write (set) bit. */ #define X86_PDE_RW RT_BIT(1) /** Bit 2 - U/S - User (set) / Supervisor (clear) bit. */ #define X86_PDE_US RT_BIT(2) /** Bit 3 - PWT - Page level write thru bit. */ #define X86_PDE_PWT RT_BIT(3) /** Bit 4 - PCD - Page level cache disable bit. */ #define X86_PDE_PCD RT_BIT(4) /** Bit 5 - A - Access bit. */ #define X86_PDE_A RT_BIT(5) /** Bit 7 - PS - Page size attribute. * Clear mean 4KB pages, set means large pages (2/4MB). */ #define X86_PDE_PS RT_BIT(7) /** Bits 9-11 - - Available for use to system software. */ #define X86_PDE_AVL_MASK (RT_BIT(9) | RT_BIT(10) | RT_BIT(11)) /** Bits 12-31 - - Physical Page number of the next level. */ #define X86_PDE_PG_MASK ( 0xfffff000 ) /** Bits 12-51 - - PAE - Physical Page number of the next level. */ #if 1 /* we're using this internally and have to mask of the top 16-bit. */ /* Note: This is kind of dangerous if the guest uses these bits (legally or illegally); * we partly or that part into shadow page table entries. Will be corrected * soon. */ #define X86_PDE_PAE_PG_MASK ( 0x0000fffffffff000ULL ) #define X86_PDE_PAE_PG_MASK_FULL ( 0x000ffffffffff000ULL ) #else #define X86_PDE_PAE_PG_MASK ( 0x000ffffffffff000ULL ) #endif /** Bits 63 - NX - PAE - No execution flag. */ #define X86_PDE_PAE_NX RT_BIT_64(63) /** * Page directory entry. */ typedef struct X86PDEBITS { /** Flags whether(=1) or not the page is present. */ unsigned u1Present : 1; /** Read(=0) / Write(=1) flag. */ unsigned u1Write : 1; /** User(=1) / Supervisor (=0) flag. */ unsigned u1User : 1; /** Write Thru flag. If PAT enabled, bit 0 of the index. */ unsigned u1WriteThru : 1; /** Cache disabled flag. If PAT enabled, bit 1 of the index. */ unsigned u1CacheDisable : 1; /** Accessed flag. * Indicates that the page have been read or written to. */ unsigned u1Accessed : 1; /** Reserved / Ignored (dirty bit). */ unsigned u1Reserved0 : 1; /** Size bit if PSE is enabled - in any event it's 0. */ unsigned u1Size : 1; /** Reserved / Ignored (global bit). */ unsigned u1Reserved1 : 1; /** Available for use to system software. */ unsigned u3Available : 3; /** Physical Page number of the next level. */ unsigned u20PageNo : 20; } X86PDEBITS; /** Pointer to a page directory entry. */ typedef X86PDEBITS *PX86PDEBITS; /** Pointer to a const page directory entry. */ typedef const X86PDEBITS *PCX86PDEBITS; /** * PAE page directory entry. */ typedef struct X86PDEPAEBITS { /** Flags whether(=1) or not the page is present. */ uint32_t u1Present : 1; /** Read(=0) / Write(=1) flag. */ uint32_t u1Write : 1; /** User(=1) / Supervisor (=0) flag. */ uint32_t u1User : 1; /** Write Thru flag. If PAT enabled, bit 0 of the index. */ uint32_t u1WriteThru : 1; /** Cache disabled flag. If PAT enabled, bit 1 of the index. */ uint32_t u1CacheDisable : 1; /** Accessed flag. * Indicates that the page have been read or written to. */ uint32_t u1Accessed : 1; /** Reserved / Ignored (dirty bit). */ uint32_t u1Reserved0 : 1; /** Size bit if PSE is enabled - in any event it's 0. */ uint32_t u1Size : 1; /** Reserved / Ignored (global bit). / */ uint32_t u1Reserved1 : 1; /** Available for use to system software. */ uint32_t u3Available : 3; /** Physical Page number of the next level - Low Part. Don't use! */ uint32_t u20PageNoLow : 20; /** Physical Page number of the next level - High Part. Don't use! */ uint32_t u20PageNoHigh : 20; /** MBZ bits */ uint32_t u11Reserved : 11; /** No Execute flag. */ uint32_t u1NoExecute : 1; } X86PDEPAEBITS; /** Pointer to a page directory entry. */ typedef X86PDEPAEBITS *PX86PDEPAEBITS; /** Pointer to a const page directory entry. */ typedef const X86PDEPAEBITS *PCX86PDEPAEBITS; /** @} */ /** @name 2/4MB Page Directory Entry * @{ */ /** Bit 0 - P - Present bit. */ #define X86_PDE4M_P RT_BIT(0) /** Bit 1 - R/W - Read (clear) / Write (set) bit. */ #define X86_PDE4M_RW RT_BIT(1) /** Bit 2 - U/S - User (set) / Supervisor (clear) bit. */ #define X86_PDE4M_US RT_BIT(2) /** Bit 3 - PWT - Page level write thru bit. */ #define X86_PDE4M_PWT RT_BIT(3) /** Bit 4 - PCD - Page level cache disable bit. */ #define X86_PDE4M_PCD RT_BIT(4) /** Bit 5 - A - Access bit. */ #define X86_PDE4M_A RT_BIT(5) /** Bit 6 - D - Dirty bit. */ #define X86_PDE4M_D RT_BIT(6) /** Bit 7 - PS - Page size attribute. Clear mean 4KB pages, set means large pages (2/4MB). */ #define X86_PDE4M_PS RT_BIT(7) /** Bit 8 - G - Global flag. */ #define X86_PDE4M_G RT_BIT(8) /** Bits 9-11 - AVL - Available for use to system software. */ #define X86_PDE4M_AVL (RT_BIT(9) | RT_BIT(10) | RT_BIT(11)) /** Bit 12 - PAT - Page Attribute Table index bit. Reserved and 0 if not supported. */ #define X86_PDE4M_PAT RT_BIT(12) /** Shift to get from X86_PTE_PAT to X86_PDE4M_PAT. */ #define X86_PDE4M_PAT_SHIFT (12 - 7) /** Bits 22-31 - - Physical Page number. */ #define X86_PDE4M_PG_MASK ( 0xffc00000 ) /** Bits 13-20 - - Physical Page number high part (32-39 bits). AMD64 hack. */ #define X86_PDE4M_PG_HIGH_MASK ( 0x001fe000 ) /** The number of bits to the high part of the page number. */ #define X86_PDE4M_PG_HIGH_SHIFT 19 /** Bits 21-51 - - PAE & AMD64 - Physical Page number. * (Bits 40-51 (long mode) & bits 36-51 (pae legacy) are reserved according to the Intel docs; AMD allows for more.) */ #define X86_PDE2M_PAE_PG_MASK ( 0x000fffffffe00000ULL ) /** Bits 63 - NX - PAE & AMD64 - No execution flag. */ #define X86_PDE2M_PAE_NX X86_PDE2M_PAE_NX /** * 4MB page directory entry. */ typedef struct X86PDE4MBITS { /** Flags whether(=1) or not the page is present. */ unsigned u1Present : 1; /** Read(=0) / Write(=1) flag. */ unsigned u1Write : 1; /** User(=1) / Supervisor (=0) flag. */ unsigned u1User : 1; /** Write Thru flag. If PAT enabled, bit 0 of the index. */ unsigned u1WriteThru : 1; /** Cache disabled flag. If PAT enabled, bit 1 of the index. */ unsigned u1CacheDisable : 1; /** Accessed flag. * Indicates that the page have been read or written to. */ unsigned u1Accessed : 1; /** Dirty flag. * Indicates that the page have been written to. */ unsigned u1Dirty : 1; /** Page size flag - always 1 for 4MB entries. */ unsigned u1Size : 1; /** Global flag. */ unsigned u1Global : 1; /** Available for use to system software. */ unsigned u3Available : 3; /** Reserved / If PAT enabled, bit 2 of the index. */ unsigned u1PAT : 1; /** Bits 32-39 of the page number on AMD64. * This AMD64 hack allows accessing 40bits of physical memory without PAE. */ unsigned u8PageNoHigh : 8; /** Reserved. */ unsigned u1Reserved : 1; /** Physical Page number of the page. */ unsigned u10PageNo : 10; } X86PDE4MBITS; /** Pointer to a page table entry. */ typedef X86PDE4MBITS *PX86PDE4MBITS; /** Pointer to a const page table entry. */ typedef const X86PDE4MBITS *PCX86PDE4MBITS; /** * 2MB PAE page directory entry. */ typedef struct X86PDE2MPAEBITS { /** Flags whether(=1) or not the page is present. */ uint32_t u1Present : 1; /** Read(=0) / Write(=1) flag. */ uint32_t u1Write : 1; /** User(=1) / Supervisor(=0) flag. */ uint32_t u1User : 1; /** Write Thru flag. If PAT enabled, bit 0 of the index. */ uint32_t u1WriteThru : 1; /** Cache disabled flag. If PAT enabled, bit 1 of the index. */ uint32_t u1CacheDisable : 1; /** Accessed flag. * Indicates that the page have been read or written to. */ uint32_t u1Accessed : 1; /** Dirty flag. * Indicates that the page have been written to. */ uint32_t u1Dirty : 1; /** Page size flag - always 1 for 2MB entries. */ uint32_t u1Size : 1; /** Global flag. */ uint32_t u1Global : 1; /** Available for use to system software. */ uint32_t u3Available : 3; /** Reserved / If PAT enabled, bit 2 of the index. */ uint32_t u1PAT : 1; /** Reserved. */ uint32_t u9Reserved : 9; /** Physical Page number of the next level - Low part. Don't use! */ uint32_t u10PageNoLow : 10; /** Physical Page number of the next level - High part. Don't use! */ uint32_t u20PageNoHigh : 20; /** MBZ bits */ uint32_t u11Reserved : 11; /** No Execute flag. */ uint32_t u1NoExecute : 1; } X86PDE2MPAEBITS; /** Pointer to a 4MB PAE page table entry. */ typedef X86PDE2MPAEBITS *PX86PDE2MPAEBITS; /** Pointer to a 4MB PAE page table entry. */ typedef const X86PDE2MPAEBITS *PCX86PDE2MPAEBITS; /** @} */ /** * Page directory entry. */ typedef union X86PDE { /** Normal view. */ X86PDEBITS n; /** 4MB view (big). */ X86PDE4MBITS b; /** Unsigned integer view. */ X86PGUINT u; /** 8 bit unsigned integer view. */ uint8_t au8[4]; /** 16 bit unsigned integer view. */ uint16_t au16[2]; /** 32 bit unsigned integer view. */ uint32_t au32[1]; } X86PDE; /** Pointer to a page directory entry. */ typedef X86PDE *PX86PDE; /** Pointer to a const page directory entry. */ typedef const X86PDE *PCX86PDE; /** * PAE page directory entry. */ typedef union X86PDEPAE { /** Normal view. */ X86PDEPAEBITS n; /** 2MB page view (big). */ X86PDE2MPAEBITS b; /** Unsigned integer view. */ X86PGPAEUINT u; /** 8 bit unsigned integer view. */ uint8_t au8[8]; /** 16 bit unsigned integer view. */ uint16_t au16[4]; /** 32 bit unsigned integer view. */ uint32_t au32[2]; } X86PDEPAE; /** Pointer to a page directory entry. */ typedef X86PDEPAE *PX86PDEPAE; /** Pointer to a const page directory entry. */ typedef const X86PDEPAE *PCX86PDEPAE; /** * Page directory. */ typedef struct X86PD { /** PDE Array. */ X86PDE a[X86_PG_ENTRIES]; } X86PD; /** Pointer to a page directory. */ typedef X86PD *PX86PD; /** Pointer to a const page directory. */ typedef const X86PD *PCX86PD; /** The page shift to get the PD index. */ #define X86_PD_SHIFT 22 /** The PD index mask (apply to a shifted page address). */ #define X86_PD_MASK 0x3ff /** * PAE page directory. */ typedef struct X86PDPAE { /** PDE Array. */ X86PDEPAE a[X86_PG_PAE_ENTRIES]; } X86PDPAE; /** Pointer to a PAE page directory. */ typedef X86PDPAE *PX86PDPAE; /** Pointer to a const PAE page directory. */ typedef const X86PDPAE *PCX86PDPAE; /** The page shift to get the PAE PD index. */ #define X86_PD_PAE_SHIFT 21 /** The PAE PD index mask (apply to a shifted page address). */ #define X86_PD_PAE_MASK 0x1ff /** @name Page Directory Pointer Table Entry (PAE) * @{ */ /** Bit 0 - P - Present bit. */ #define X86_PDPE_P RT_BIT(0) /** Bit 1 - R/W - Read (clear) / Write (set) bit. Long Mode only. */ #define X86_PDPE_RW RT_BIT(1) /** Bit 2 - U/S - User (set) / Supervisor (clear) bit. Long Mode only. */ #define X86_PDPE_US RT_BIT(2) /** Bit 3 - PWT - Page level write thru bit. */ #define X86_PDPE_PWT RT_BIT(3) /** Bit 4 - PCD - Page level cache disable bit. */ #define X86_PDPE_PCD RT_BIT(4) /** Bit 5 - A - Access bit. Long Mode only. */ #define X86_PDPE_A RT_BIT(5) /** Bits 9-11 - - Available for use to system software. */ #define X86_PDPE_AVL_MASK (RT_BIT(9) | RT_BIT(10) | RT_BIT(11)) /** Bits 12-51 - - PAE - Physical Page number of the next level. */ #if 1 /* we're using this internally and have to mask of the top 16-bit. */ #define X86_PDPE_PG_MASK ( 0x0000fffffffff000ULL ) /** @todo Get rid of the above hack; makes code unreadable. */ #define X86_PDPE_PG_MASK_FULL ( 0x000ffffffffff000ULL ) #else #define X86_PDPE_PG_MASK ( 0x000ffffffffff000ULL ) #endif /** Bits 63 - NX - PAE - No execution flag. Long Mode only. */ #define X86_PDPE_NX RT_BIT_64(63) /** * Page directory pointer table entry. */ typedef struct X86PDPEBITS { /** Flags whether(=1) or not the page is present. */ uint32_t u1Present : 1; /** Chunk of reserved bits. */ uint32_t u2Reserved : 2; /** Write Thru flag. If PAT enabled, bit 0 of the index. */ uint32_t u1WriteThru : 1; /** Cache disabled flag. If PAT enabled, bit 1 of the index. */ uint32_t u1CacheDisable : 1; /** Chunk of reserved bits. */ uint32_t u4Reserved : 4; /** Available for use to system software. */ uint32_t u3Available : 3; /** Physical Page number of the next level - Low Part. Don't use! */ uint32_t u20PageNoLow : 20; /** Physical Page number of the next level - High Part. Don't use! */ uint32_t u20PageNoHigh : 20; /** MBZ bits */ uint32_t u12Reserved : 12; } X86PDPEBITS; /** Pointer to a page directory pointer table entry. */ typedef X86PDPEBITS *PX86PTPEBITS; /** Pointer to a const page directory pointer table entry. */ typedef const X86PDPEBITS *PCX86PTPEBITS; /** * Page directory pointer table entry. AMD64 version */ typedef struct X86PDPEAMD64BITS { /** Flags whether(=1) or not the page is present. */ uint32_t u1Present : 1; /** Read(=0) / Write(=1) flag. */ uint32_t u1Write : 1; /** User(=1) / Supervisor (=0) flag. */ uint32_t u1User : 1; /** Write Thru flag. If PAT enabled, bit 0 of the index. */ uint32_t u1WriteThru : 1; /** Cache disabled flag. If PAT enabled, bit 1 of the index. */ uint32_t u1CacheDisable : 1; /** Accessed flag. * Indicates that the page have been read or written to. */ uint32_t u1Accessed : 1; /** Chunk of reserved bits. */ uint32_t u3Reserved : 3; /** Available for use to system software. */ uint32_t u3Available : 3; /** Physical Page number of the next level - Low Part. Don't use! */ uint32_t u20PageNoLow : 20; /** Physical Page number of the next level - High Part. Don't use! */ uint32_t u20PageNoHigh : 20; /** MBZ bits */ uint32_t u11Reserved : 11; /** No Execute flag. */ uint32_t u1NoExecute : 1; } X86PDPEAMD64BITS; /** Pointer to a page directory pointer table entry. */ typedef X86PDPEAMD64BITS *PX86PDPEAMD64BITS; /** Pointer to a const page directory pointer table entry. */ typedef const X86PDPEBITS *PCX86PDPEAMD64BITS; /** * Page directory pointer table entry. */ typedef union X86PDPE { /** Normal view. */ X86PDPEBITS n; /** AMD64 view. */ X86PDPEAMD64BITS lm; /** Unsigned integer view. */ X86PGPAEUINT u; /** 8 bit unsigned integer view. */ uint8_t au8[8]; /** 16 bit unsigned integer view. */ uint16_t au16[4]; /** 32 bit unsigned integer view. */ uint32_t au32[2]; } X86PDPE; /** Pointer to a page directory pointer table entry. */ typedef X86PDPE *PX86PDPE; /** Pointer to a const page directory pointer table entry. */ typedef const X86PDPE *PCX86PDPE; /** * Page directory pointer table. */ typedef struct X86PDPT { /** PDE Array. */ X86PDPE a[X86_PG_AMD64_PDPE_ENTRIES]; } X86PDPT; /** Pointer to a page directory pointer table. */ typedef X86PDPT *PX86PDPT; /** Pointer to a const page directory pointer table. */ typedef const X86PDPT *PCX86PDPT; /** The page shift to get the PDPT index. */ #define X86_PDPT_SHIFT 30 /** The PDPT index mask (apply to a shifted page address). (32 bits PAE) */ #define X86_PDPT_MASK_PAE 0x3 /** The PDPT index mask (apply to a shifted page address). (64 bits PAE)*/ #define X86_PDPT_MASK_AMD64 0x1ff /** @} */ /** @name Page Map Level-4 Entry (Long Mode PAE) * @{ */ /** Bit 0 - P - Present bit. */ #define X86_PML4E_P RT_BIT(0) /** Bit 1 - R/W - Read (clear) / Write (set) bit. */ #define X86_PML4E_RW RT_BIT(1) /** Bit 2 - U/S - User (set) / Supervisor (clear) bit. */ #define X86_PML4E_US RT_BIT(2) /** Bit 3 - PWT - Page level write thru bit. */ #define X86_PML4E_PWT RT_BIT(3) /** Bit 4 - PCD - Page level cache disable bit. */ #define X86_PML4E_PCD RT_BIT(4) /** Bit 5 - A - Access bit. */ #define X86_PML4E_A RT_BIT(5) /** Bits 9-11 - - Available for use to system software. */ #define X86_PML4E_AVL_MASK (RT_BIT(9) | RT_BIT(10) | RT_BIT(11)) /** Bits 12-51 - - PAE - Physical Page number of the next level. */ #if 1 /* we're using this internally and have to mask of the top 16-bit. */ #define X86_PML4E_PG_MASK ( 0x0000fffffffff000ULL ) #define X86_PML4E_PG_MASK_FULL ( 0x000ffffffffff000ULL ) #else #define X86_PML4E_PG_MASK ( 0x000ffffffffff000ULL ) #endif /** Bits 63 - NX - PAE - No execution flag. */ #define X86_PML4E_NX RT_BIT_64(63) /** * Page Map Level-4 Entry */ typedef struct X86PML4EBITS { /** Flags whether(=1) or not the page is present. */ uint32_t u1Present : 1; /** Read(=0) / Write(=1) flag. */ uint32_t u1Write : 1; /** User(=1) / Supervisor (=0) flag. */ uint32_t u1User : 1; /** Write Thru flag. If PAT enabled, bit 0 of the index. */ uint32_t u1WriteThru : 1; /** Cache disabled flag. If PAT enabled, bit 1 of the index. */ uint32_t u1CacheDisable : 1; /** Accessed flag. * Indicates that the page have been read or written to. */ uint32_t u1Accessed : 1; /** Chunk of reserved bits. */ uint32_t u3Reserved : 3; /** Available for use to system software. */ uint32_t u3Available : 3; /** Physical Page number of the next level - Low Part. Don't use! */ uint32_t u20PageNoLow : 20; /** Physical Page number of the next level - High Part. Don't use! */ uint32_t u20PageNoHigh : 20; /** MBZ bits */ uint32_t u11Reserved : 11; /** No Execute flag. */ uint32_t u1NoExecute : 1; } X86PML4EBITS; /** Pointer to a page map level-4 entry. */ typedef X86PML4EBITS *PX86PML4EBITS; /** Pointer to a const page map level-4 entry. */ typedef const X86PML4EBITS *PCX86PML4EBITS; /** * Page Map Level-4 Entry. */ typedef union X86PML4E { /** Normal view. */ X86PML4EBITS n; /** Unsigned integer view. */ X86PGPAEUINT u; /** 8 bit unsigned integer view. */ uint8_t au8[8]; /** 16 bit unsigned integer view. */ uint16_t au16[4]; /** 32 bit unsigned integer view. */ uint32_t au32[2]; } X86PML4E; /** Pointer to a page map level-4 entry. */ typedef X86PML4E *PX86PML4E; /** Pointer to a const page map level-4 entry. */ typedef const X86PML4E *PCX86PML4E; /** * Page Map Level-4. */ typedef struct X86PML4 { /** PDE Array. */ X86PML4E a[X86_PG_PAE_ENTRIES]; } X86PML4; /** Pointer to a page map level-4. */ typedef X86PML4 *PX86PML4; /** Pointer to a const page map level-4. */ typedef const X86PML4 *PCX86PML4; /** The page shift to get the PML4 index. */ #define X86_PML4_SHIFT 39 /** The PML4 index mask (apply to a shifted page address). */ #define X86_PML4_MASK 0x1ff /** @} */ /** @} */ /** * 80-bit MMX/FPU register type. */ typedef struct X86FPUMMX { uint8_t reg[10]; } X86FPUMMX; /** Pointer to a 80-bit MMX/FPU register type. */ typedef X86FPUMMX *PX86FPUMMX; /** Pointer to a const 80-bit MMX/FPU register type. */ typedef const X86FPUMMX *PCX86FPUMMX; /** * FPU state (aka FSAVE/FRSTOR Memory Region). */ #pragma pack(1) typedef struct X86FPUSTATE { /** Control word. */ uint16_t FCW; /** Alignment word */ uint16_t Dummy1; /** Status word. */ uint16_t FSW; /** Alignment word */ uint16_t Dummy2; /** Tag word */ uint16_t FTW; /** Alignment word */ uint16_t Dummy3; /** Instruction pointer. */ uint32_t FPUIP; /** Code selector. */ uint16_t CS; /** Opcode. */ uint16_t FOP; /** FOO. */ uint32_t FPUOO; /** FOS. */ uint32_t FPUOS; /** FPU view - todo. */ X86FPUMMX regs[8]; } X86FPUSTATE; #pragma pack() /** Pointer to a FPU state. */ typedef X86FPUSTATE *PX86FPUSTATE; /** Pointer to a const FPU state. */ typedef const X86FPUSTATE *PCX86FPUSTATE; /** * FPU Extended state (aka FXSAVE/FXRSTORE Memory Region). */ #pragma pack(1) typedef struct X86FXSTATE { /** Control word. */ uint16_t FCW; /** Status word. */ uint16_t FSW; /** Tag word (it's a byte actually). */ uint8_t FTW; uint8_t huh1; /** Opcode. */ uint16_t FOP; /** Instruction pointer. */ uint32_t FPUIP; /** Code selector. */ uint16_t CS; uint16_t Rsvrd1; /* - offset 16 - */ /** Data pointer. */ uint32_t FPUDP; /** Data segment */ uint16_t DS; uint16_t Rsrvd2; uint32_t MXCSR; uint32_t MXCSR_MASK; /* - offset 32 - */ union { /** MMX view. */ uint64_t mmx; /** FPU view - todo. */ X86FPUMMX fpu; /** 8-bit view. */ uint8_t au8[16]; /** 16-bit view. */ uint16_t au16[8]; /** 32-bit view. */ uint32_t au32[4]; /** 64-bit view. */ uint64_t au64[2]; /** 128-bit view. (yeah, very helpful) */ uint128_t au128[1]; } aRegs[8]; /* - offset 160 - */ union { /** XMM Register view *. */ uint128_t xmm; /** 8-bit view. */ uint8_t au8[16]; /** 16-bit view. */ uint16_t au16[8]; /** 32-bit view. */ uint32_t au32[4]; /** 64-bit view. */ uint64_t au64[2]; /** 128-bit view. (yeah, very helpful) */ uint128_t au128[1]; } aXMM[16]; /* 8 registers in 32 bits mode; 16 in long mode */ /* - offset 416 - */ uint32_t au32RsrvdRest[(512 - 416) / sizeof(uint32_t)]; } X86FXSTATE; #pragma pack() /** Pointer to a FPU Extended state. */ typedef X86FXSTATE *PX86FXSTATE; /** Pointer to a const FPU Extended state. */ typedef const X86FXSTATE *PCX86FXSTATE; /** @name Selector Descriptor * @{ */ /** * Generic descriptor table entry */ #pragma pack(1) typedef struct X86DESCGENERIC { /** Limit - Low word. */ unsigned u16LimitLow : 16; /** Base address - lowe word. * Don't try set this to 24 because MSC is doing studing things then. */ unsigned u16BaseLow : 16; /** Base address - first 8 bits of high word. */ unsigned u8BaseHigh1 : 8; /** Segment Type. */ unsigned u4Type : 4; /** Descriptor Type. System(=0) or code/data selector */ unsigned u1DescType : 1; /** Descriptor Privelege level. */ unsigned u2Dpl : 2; /** Flags selector present(=1) or not. */ unsigned u1Present : 1; /** Segment limit 16-19. */ unsigned u4LimitHigh : 4; /** Available for system software. */ unsigned u1Available : 1; /** 32 bits mode: Reserved - 0, long mode: Long Attribute Bit. */ unsigned u1Long : 1; /** This flags meaning depends on the segment type. Try make sense out * of the intel manual yourself. */ unsigned u1DefBig : 1; /** Granularity of the limit. If set 4KB granularity is used, if * clear byte. */ unsigned u1Granularity : 1; /** Base address - highest 8 bits. */ unsigned u8BaseHigh2 : 8; } X86DESCGENERIC; #pragma pack() /** Pointer to a generic descriptor entry. */ typedef X86DESCGENERIC *PX86DESCGENERIC; /** Pointer to a const generic descriptor entry. */ typedef const X86DESCGENERIC *PCX86DESCGENERIC; /** * Descriptor attributes. */ typedef struct X86DESCATTRBITS { /** Segment Type. */ unsigned u4Type : 4; /** Descriptor Type. System(=0) or code/data selector */ unsigned u1DescType : 1; /** Descriptor Privelege level. */ unsigned u2Dpl : 2; /** Flags selector present(=1) or not. */ unsigned u1Present : 1; /** Segment limit 16-19. */ unsigned u4LimitHigh : 4; /** Available for system software. */ unsigned u1Available : 1; /** 32 bits mode: Reserved - 0, long mode: Long Attribute Bit. */ unsigned u1Long : 1; /** This flags meaning depends on the segment type. Try make sense out * of the intel manual yourself. */ unsigned u1DefBig : 1; /** Granularity of the limit. If set 4KB granularity is used, if * clear byte. */ unsigned u1Granularity : 1; } X86DESCATTRBITS; #pragma pack(1) typedef union X86DESCATTR { /** Normal view. */ X86DESCATTRBITS n; /** Unsigned integer view. */ uint32_t u; } X86DESCATTR; #pragma pack() /** Pointer to descriptor attributes. */ typedef X86DESCATTR *PX86DESCATTR; /** Pointer to const descriptor attributes. */ typedef const X86DESCATTR *PCX86DESCATTR; /** * Descriptor table entry. */ #pragma pack(1) typedef union X86DESC { /** Generic descriptor view. */ X86DESCGENERIC Gen; #if 0 /** IDT view. */ VBOXIDTE Idt; #endif /** 8 bit unsigned interger view. */ uint8_t au8[8]; /** 16 bit unsigned interger view. */ uint16_t au16[4]; /** 32 bit unsigned interger view. */ uint32_t au32[2]; } X86DESC; #pragma pack() /** Pointer to descriptor table entry. */ typedef X86DESC *PX86DESC; /** Pointer to const descriptor table entry. */ typedef const X86DESC *PCX86DESC; /** @def X86DESC_BASE * Return the base address of a descriptor. */ #define X86DESC_BASE(desc) \ ( ((uint32_t)((desc).Gen.u8BaseHigh2) << 24) \ | ( (desc).Gen.u8BaseHigh1 << 16) \ | ( (desc).Gen.u16BaseLow ) ) /** @def X86DESC_LIMIT * Return the limit of a descriptor. */ #define X86DESC_LIMIT(desc) \ ( ((uint32_t)((desc).Gen.u4LimitHigh) << 16) \ | ( (desc).Gen.u16LimitLow ) ) /** * 64 bits generic descriptor table entry * Note: most of these bits have no meaning in long mode. */ #pragma pack(1) typedef struct X86DESC64GENERIC { /** Limit - Low word - *IGNORED*. */ unsigned u16LimitLow : 16; /** Base address - lowe word. - *IGNORED* * Don't try set this to 24 because MSC is doing studing things then. */ unsigned u16BaseLow : 16; /** Base address - first 8 bits of high word. - *IGNORED* */ unsigned u8BaseHigh1 : 8; /** Segment Type. */ unsigned u4Type : 4; /** Descriptor Type. System(=0) or code/data selector */ unsigned u1DescType : 1; /** Descriptor Privelege level. */ unsigned u2Dpl : 2; /** Flags selector present(=1) or not. */ unsigned u1Present : 1; /** Segment limit 16-19. - *IGNORED* */ unsigned u4LimitHigh : 4; /** Available for system software. - *IGNORED* */ unsigned u1Available : 1; /** Long mode flag. */ unsigned u1Long : 1; /** This flags meaning depends on the segment type. Try make sense out * of the intel manual yourself. */ unsigned u1DefBig : 1; /** Granularity of the limit. If set 4KB granularity is used, if * clear byte. - *IGNORED* */ unsigned u1Granularity : 1; /** Base address - highest 8 bits. - *IGNORED* */ unsigned u8BaseHigh2 : 8; /** Base address - bits 63-32. */ unsigned u32BaseHigh3 : 32; unsigned u8Reserved : 8; unsigned u5Zeros : 5; unsigned u19Reserved : 19; } X86DESC64GENERIC; #pragma pack() /** Pointer to a generic descriptor entry. */ typedef X86DESC64GENERIC *PX86DESC64GENERIC; /** Pointer to a const generic descriptor entry. */ typedef const X86DESC64GENERIC *PCX86DESC64GENERIC; /** * System descriptor table entry (64 bits) */ #pragma pack(1) typedef struct X86DESC64SYSTEM { /** Limit - Low word. */ unsigned u16LimitLow : 16; /** Base address - lowe word. * Don't try set this to 24 because MSC is doing studing things then. */ unsigned u16BaseLow : 16; /** Base address - first 8 bits of high word. */ unsigned u8BaseHigh1 : 8; /** Segment Type. */ unsigned u4Type : 4; /** Descriptor Type. System(=0) or code/data selector */ unsigned u1DescType : 1; /** Descriptor Privelege level. */ unsigned u2Dpl : 2; /** Flags selector present(=1) or not. */ unsigned u1Present : 1; /** Segment limit 16-19. */ unsigned u4LimitHigh : 4; /** Available for system software. */ unsigned u1Available : 1; /** Reserved - 0. */ unsigned u1Reserved : 1; /** This flags meaning depends on the segment type. Try make sense out * of the intel manual yourself. */ unsigned u1DefBig : 1; /** Granularity of the limit. If set 4KB granularity is used, if * clear byte. */ unsigned u1Granularity : 1; /** Base address - bits 31-24. */ unsigned u8BaseHigh2 : 8; /** Base address - bits 63-32. */ unsigned u32BaseHigh3 : 32; unsigned u8Reserved : 8; unsigned u5Zeros : 5; unsigned u19Reserved : 19; } X86DESC64SYSTEM; #pragma pack() /** Pointer to a generic descriptor entry. */ typedef X86DESC64SYSTEM *PX86DESC64SYSTEM; /** Pointer to a const generic descriptor entry. */ typedef const X86DESC64SYSTEM *PCX86DESC64SYSTEM; /** * Descriptor table entry. */ #pragma pack(1) typedef union X86DESC64 { /** Generic descriptor view. */ X86DESC64GENERIC Gen; /** System descriptor view. */ X86DESC64SYSTEM System; #if 0 X86DESC64GATE Gate; #endif /** 8 bit unsigned interger view. */ uint8_t au8[16]; /** 16 bit unsigned interger view. */ uint16_t au16[8]; /** 32 bit unsigned interger view. */ uint32_t au32[4]; /** 64 bit unsigned interger view. */ uint64_t au64[2]; } X86DESC64; #pragma pack() /** Pointer to descriptor table entry. */ typedef X86DESC64 *PX86DESC64; /** Pointer to const descriptor table entry. */ typedef const X86DESC64 *PCX86DESC64; #if HC_ARCH_BITS == 64 typedef X86DESC64 X86DESCHC; typedef X86DESC64 *PX86DESCHC; #else typedef X86DESC X86DESCHC; typedef X86DESC *PX86DESCHC; #endif /** @def X86DESC_LIMIT * Return the base of a 64-bit descriptor. */ #define X86DESC64_BASE(desc) \ ( ((uint64_t)((desc).Gen.u32BaseHigh3) << 32) \ | ((uint32_t)((desc).Gen.u8BaseHigh2) << 24) \ | ( (desc).Gen.u8BaseHigh1 << 16) \ | ( (desc).Gen.u16BaseLow ) ) /** @name Selector Descriptor Types. * @{ */ /** @name Non-System Selector Types. * @{ */ /** Code(=set)/Data(=clear) bit. */ #define X86_SEL_TYPE_CODE 8 /** Memory(=set)/System(=clear) bit. */ #define X86_SEL_TYPE_MEMORY RT_BIT(4) /** Accessed bit. */ #define X86_SEL_TYPE_ACCESSED 1 /** Expand down bit (for data selectors only). */ #define X86_SEL_TYPE_DOWN 4 /** Conforming bit (for code selectors only). */ #define X86_SEL_TYPE_CONF 4 /** Write bit (for data selectors only). */ #define X86_SEL_TYPE_WRITE 2 /** Read bit (for code selectors only). */ #define X86_SEL_TYPE_READ 2 /** Read only selector type. */ #define X86_SEL_TYPE_RO 0 /** Accessed read only selector type. */ #define X86_SEL_TYPE_RO_ACC (0 | X86_SEL_TYPE_ACCESSED) /** Read write selector type. */ #define X86_SEL_TYPE_RW 2 /** Accessed read write selector type. */ #define X86_SEL_TYPE_RW_ACC (2 | X86_SEL_TYPE_ACCESSED) /** Expand down read only selector type. */ #define X86_SEL_TYPE_RO_DOWN 4 /** Accessed expand down read only selector type. */ #define X86_SEL_TYPE_RO_DOWN_ACC (4 | X86_SEL_TYPE_ACCESSED) /** Expand down read write selector type. */ #define X86_SEL_TYPE_RW_DOWN 6 /** Accessed expand down read write selector type. */ #define X86_SEL_TYPE_RW_DOWN_ACC (6 | X86_SEL_TYPE_ACCESSED) /** Execute only selector type. */ #define X86_SEL_TYPE_EO (0 | X86_SEL_TYPE_CODE) /** Accessed execute only selector type. */ #define X86_SEL_TYPE_EO_ACC (0 | X86_SEL_TYPE_CODE | X86_SEL_TYPE_ACCESSED) /** Execute and read selector type. */ #define X86_SEL_TYPE_ER (2 | X86_SEL_TYPE_CODE) /** Accessed execute and read selector type. */ #define X86_SEL_TYPE_ER_ACC (2 | X86_SEL_TYPE_CODE | X86_SEL_TYPE_ACCESSED) /** Conforming execute only selector type. */ #define X86_SEL_TYPE_EO_CONF (4 | X86_SEL_TYPE_CODE) /** Accessed Conforming execute only selector type. */ #define X86_SEL_TYPE_EO_CONF_ACC (4 | X86_SEL_TYPE_CODE | X86_SEL_TYPE_ACCESSED) /** Conforming execute and write selector type. */ #define X86_SEL_TYPE_ER_CONF (6 | X86_SEL_TYPE_CODE) /** Accessed Conforming execute and write selector type. */ #define X86_SEL_TYPE_ER_CONF_ACC (6 | X86_SEL_TYPE_CODE | X86_SEL_TYPE_ACCESSED) /** @} */ /** @name System Selector Types. * @{ */ /** Undefined system selector type. */ #define X86_SEL_TYPE_SYS_UNDEFINED 0 /** 286 TSS selector. */ #define X86_SEL_TYPE_SYS_286_TSS_AVAIL 1 /** LDT selector. */ #define X86_SEL_TYPE_SYS_LDT 2 /** 286 TSS selector - Busy. */ #define X86_SEL_TYPE_SYS_286_TSS_BUSY 3 /** 286 Callgate selector. */ #define X86_SEL_TYPE_SYS_286_CALL_GATE 4 /** Taskgate selector. */ #define X86_SEL_TYPE_SYS_TASK_GATE 5 /** 286 Interrupt gate selector. */ #define X86_SEL_TYPE_SYS_286_INT_GATE 6 /** 286 Trapgate selector. */ #define X86_SEL_TYPE_SYS_286_TRAP_GATE 7 /** Undefined system selector. */ #define X86_SEL_TYPE_SYS_UNDEFINED2 8 /** 386 TSS selector. */ #define X86_SEL_TYPE_SYS_386_TSS_AVAIL 9 /** Undefined system selector. */ #define X86_SEL_TYPE_SYS_UNDEFINED3 0xA /** 386 TSS selector - Busy. */ #define X86_SEL_TYPE_SYS_386_TSS_BUSY 0xB /** 386 Callgate selector. */ #define X86_SEL_TYPE_SYS_386_CALL_GATE 0xC /** Undefined system selector. */ #define X86_SEL_TYPE_SYS_UNDEFINED4 0xD /** 386 Interruptgate selector. */ #define X86_SEL_TYPE_SYS_386_INT_GATE 0xE /** 386 Trapgate selector. */ #define X86_SEL_TYPE_SYS_386_TRAP_GATE 0xF /** @} */ /** @name AMD64 System Selector Types. * @{ */ #define AMD64_SEL_TYPE_SYS_LDT 2 /** 286 TSS selector - Busy. */ #define AMD64_SEL_TYPE_SYS_TSS_AVAIL 9 /** 386 TSS selector - Busy. */ #define AMD64_SEL_TYPE_SYS_TSS_BUSY 0xB /** 386 Callgate selector. */ #define AMD64_SEL_TYPE_SYS_CALL_GATE 0xC /** 386 Interruptgate selector. */ #define AMD64_SEL_TYPE_SYS_INT_GATE 0xE /** 386 Trapgate selector. */ #define AMD64_SEL_TYPE_SYS_TRAP_GATE 0xF /** @} */ /** @} */ /** @name Descriptor Table Entry Flag Masks. * These are for the 2nd 32-bit word of a descriptor. * @{ */ /** Bits 8-11 - TYPE - Descriptor type mask. */ #define X86_DESC_TYPE_MASK (RT_BIT(8) | RT_BIT(9) | RT_BIT(10) | RT_BIT(11)) /** Bit 12 - S - System (=0) or Code/Data (=1). */ #define X86_DESC_S RT_BIT(12) /** Bits 13-14 - DPL - Descriptor Privilege Level. */ #define X86_DESC_DPL (RT_BIT(13) | RT_BIT(14)) /** Bit 15 - P - Present. */ #define X86_DESC_P RT_BIT(15) /** Bit 20 - AVL - Available for system software. */ #define X86_DESC_AVL RT_BIT(20) /** Bit 22 - DB - Default operation size. 0 = 16 bit, 1 = 32 bit. */ #define X86_DESC_DB RT_BIT(22) /** Bit 23 - G - Granularity of the limit. If set 4KB granularity is * used, if clear byte. */ #define X86_DESC_G RT_BIT(23) /** @} */ /** @} */ /** @name Selectors. * @{ */ /** * The shift used to convert a selector from and to index an index (C). */ #define X86_SEL_SHIFT 3 /** * The shift used to convert a selector from and to index an index (C). */ #define AMD64_SEL_SHIFT 4 #if HC_ARCH_BITS == 64 #define X86_SEL_SHIFT_HC AMD64_SEL_SHIFT #else #define X86_SEL_SHIFT_HC X86_SEL_SHIFT #endif /** * The mask used to mask off the table indicator and CPL of an selector. */ #define X86_SEL_MASK 0xfff8 /** * The bit indicating that a selector is in the LDT and not in the GDT. */ #define X86_SEL_LDT 0x0004 /** * The bit mask for getting the RPL of a selector. */ #define X86_SEL_RPL 0x0003 /** @} */ /** * x86 Exceptions/Faults/Traps. */ typedef enum X86XCPT { /** \#DE - Divide error. */ X86_XCPT_DE = 0x00, /** \#DB - Debug event (single step, DRx, ..) */ X86_XCPT_DB = 0x01, /** NMI - Non-Maskable Interrupt */ X86_XCPT_NMI = 0x02, /** \#BP - Breakpoint (INT3). */ X86_XCPT_BP = 0x03, /** \#OF - Overflow (INTO). */ X86_XCPT_OF = 0x04, /** \#BR - Bound range exceeded (BOUND). */ X86_XCPT_BR = 0x05, /** \#UD - Undefined opcode. */ X86_XCPT_UD = 0x06, /** \#NM - Device not available (math coprocessor device). */ X86_XCPT_NM = 0x07, /** \#DF - Double fault. */ X86_XCPT_DF = 0x08, /** ??? - Coprocessor segment overrun (obsolete). */ X86_XCPT_CO_SEG_OVERRUN = 0x09, /** \#TS - Taskswitch (TSS). */ X86_XCPT_TS = 0x0a, /** \#NP - Segment no present. */ X86_XCPT_NP = 0x0b, /** \#SS - Stack segment fault. */ X86_XCPT_SS = 0x0c, /** \#GP - General protection fault. */ X86_XCPT_GP = 0x0d, /** \#PF - Page fault. */ X86_XCPT_PF = 0x0e, /* 0x0f is reserved. */ /** \#MF - Math fault (FPU). */ X86_XCPT_MF = 0x10, /** \#AC - Alignment check. */ X86_XCPT_AC = 0x11, /** \#MC - Machine check. */ X86_XCPT_MC = 0x12, /** \#XF - SIMD Floating-Pointer Exception. */ X86_XCPT_XF = 0x13 } X86XCPT; /** Pointer to a x86 exception code. */ typedef X86XCPT *PX86XCPT; /** Pointer to a const x86 exception code. */ typedef const X86XCPT *PCX86XCPT; /** @name Trap Error Codes * @{ */ /** External indicator. */ #define X86_TRAP_ERR_EXTERNAL 1 /** IDT indicator. */ #define X86_TRAP_ERR_IDT 2 /** Descriptor table indicator - If set LDT, if clear GDT. */ #define X86_TRAP_ERR_TI 4 /** Mask for getting the selector. */ #define X86_TRAP_ERR_SEL_MASK 0xfff8 /** Shift for getting the selector table index (C type index). */ #define X86_TRAP_ERR_SEL_SHIFT 3 /** @} */ /** @name \#PF Trap Error Codes * @{ */ /** Bit 0 - P - Not present (clear) or page level protection (set) fault. */ #define X86_TRAP_PF_P RT_BIT(0) /** Bit 1 - R/W - Read (clear) or write (set) access. */ #define X86_TRAP_PF_RW RT_BIT(1) /** Bit 2 - U/S - CPU executing in user mode (set) or supervisor mode (clear). */ #define X86_TRAP_PF_US RT_BIT(2) /** Bit 3 - RSVD- Reserved bit violation (set), i.e. reserved bit was set to 1. */ #define X86_TRAP_PF_RSVD RT_BIT(3) /** Bit 4 - I/D - Instruction fetch (set) / Data access (clear) - PAE + NXE. */ #define X86_TRAP_PF_ID RT_BIT(4) /** @} */ #pragma pack(1) /** * 32-bit IDTR/GDTR. */ typedef struct X86XDTR32 { /** Size of the descriptor table. */ uint16_t cb; /** Address of the descriptor table. */ uint32_t uAddr; } X86XDTR32, *PX86XDTR32; #pragma pack() #pragma pack(1) /** * 64-bit IDTR/GDTR. */ typedef struct X86XDTR64 { /** Size of the descriptor table. */ uint16_t cb; /** Address of the descriptor table. */ uint64_t uAddr; } X86XDTR64, *PX86XDTR64; #pragma pack() /** @} */ #endif