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mirror of https://github.com/edk2-porting/linux-next.git synced 2024-12-23 12:43:55 +08:00
linux-next/arch/x86/kvm/kvm_emulate.h
Linus Torvalds 8c1b724ddb ARM:
* GICv4.1 support
 * 32bit host removal
 
 PPC:
 * secure (encrypted) using under the Protected Execution Framework
 ultravisor
 
 s390:
 * allow disabling GISA (hardware interrupt injection) and protected
 VMs/ultravisor support.
 
 x86:
 * New dirty bitmap flag that sets all bits in the bitmap when dirty
 page logging is enabled; this is faster because it doesn't require bulk
 modification of the page tables.
 * Initial work on making nested SVM event injection more similar to VMX,
 and less buggy.
 * Various cleanups to MMU code (though the big ones and related
 optimizations were delayed to 5.8).  Instead of using cr3 in function
 names which occasionally means eptp, KVM too has standardized on "pgd".
 * A large refactoring of CPUID features, which now use an array that
 parallels the core x86_features.
 * Some removal of pointer chasing from kvm_x86_ops, which will also be
 switched to static calls as soon as they are available.
 * New Tigerlake CPUID features.
 * More bugfixes, optimizations and cleanups.
 
 Generic:
 * selftests: cleanups, new MMU notifier stress test, steal-time test
 * CSV output for kvm_stat.
 
 KVM/MIPS has been broken since 5.5, it does not compile due to a patch committed
 by MIPS maintainers.  I had already prepared a fix, but the MIPS maintainers
 prefer to fix it in generic code rather than KVM so they are taking care of it.
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Merge tag 'for-linus' of git://git.kernel.org/pub/scm/virt/kvm/kvm

Pull kvm updates from Paolo Bonzini:
 "ARM:
   - GICv4.1 support

   - 32bit host removal

  PPC:
   - secure (encrypted) using under the Protected Execution Framework
     ultravisor

  s390:
   - allow disabling GISA (hardware interrupt injection) and protected
     VMs/ultravisor support.

  x86:
   - New dirty bitmap flag that sets all bits in the bitmap when dirty
     page logging is enabled; this is faster because it doesn't require
     bulk modification of the page tables.

   - Initial work on making nested SVM event injection more similar to
     VMX, and less buggy.

   - Various cleanups to MMU code (though the big ones and related
     optimizations were delayed to 5.8). Instead of using cr3 in
     function names which occasionally means eptp, KVM too has
     standardized on "pgd".

   - A large refactoring of CPUID features, which now use an array that
     parallels the core x86_features.

   - Some removal of pointer chasing from kvm_x86_ops, which will also
     be switched to static calls as soon as they are available.

   - New Tigerlake CPUID features.

   - More bugfixes, optimizations and cleanups.

  Generic:
   - selftests: cleanups, new MMU notifier stress test, steal-time test

   - CSV output for kvm_stat"

* tag 'for-linus' of git://git.kernel.org/pub/scm/virt/kvm/kvm: (277 commits)
  x86/kvm: fix a missing-prototypes "vmread_error"
  KVM: x86: Fix BUILD_BUG() in __cpuid_entry_get_reg() w/ CONFIG_UBSAN=y
  KVM: VMX: Add a trampoline to fix VMREAD error handling
  KVM: SVM: Annotate svm_x86_ops as __initdata
  KVM: VMX: Annotate vmx_x86_ops as __initdata
  KVM: x86: Drop __exit from kvm_x86_ops' hardware_unsetup()
  KVM: x86: Copy kvm_x86_ops by value to eliminate layer of indirection
  KVM: x86: Set kvm_x86_ops only after ->hardware_setup() completes
  KVM: VMX: Configure runtime hooks using vmx_x86_ops
  KVM: VMX: Move hardware_setup() definition below vmx_x86_ops
  KVM: x86: Move init-only kvm_x86_ops to separate struct
  KVM: Pass kvm_init()'s opaque param to additional arch funcs
  s390/gmap: return proper error code on ksm unsharing
  KVM: selftests: Fix cosmetic copy-paste error in vm_mem_region_move()
  KVM: Fix out of range accesses to memslots
  KVM: X86: Micro-optimize IPI fastpath delay
  KVM: X86: Delay read msr data iff writes ICR MSR
  KVM: PPC: Book3S HV: Add a capability for enabling secure guests
  KVM: arm64: GICv4.1: Expose HW-based SGIs in debugfs
  KVM: arm64: GICv4.1: Allow non-trapping WFI when using HW SGIs
  ...
2020-04-02 15:13:15 -07:00

510 lines
17 KiB
C

/* SPDX-License-Identifier: GPL-2.0 */
/******************************************************************************
* x86_emulate.h
*
* Generic x86 (32-bit and 64-bit) instruction decoder and emulator.
*
* Copyright (c) 2005 Keir Fraser
*
* From: xen-unstable 10676:af9809f51f81a3c43f276f00c81a52ef558afda4
*/
#ifndef _ASM_X86_KVM_X86_EMULATE_H
#define _ASM_X86_KVM_X86_EMULATE_H
#include <asm/desc_defs.h>
struct x86_emulate_ctxt;
enum x86_intercept;
enum x86_intercept_stage;
struct x86_exception {
u8 vector;
bool error_code_valid;
u16 error_code;
bool nested_page_fault;
u64 address; /* cr2 or nested page fault gpa */
u8 async_page_fault;
};
/*
* This struct is used to carry enough information from the instruction
* decoder to main KVM so that a decision can be made whether the
* instruction needs to be intercepted or not.
*/
struct x86_instruction_info {
u8 intercept; /* which intercept */
u8 rep_prefix; /* rep prefix? */
u8 modrm_mod; /* mod part of modrm */
u8 modrm_reg; /* index of register used */
u8 modrm_rm; /* rm part of modrm */
u64 src_val; /* value of source operand */
u64 dst_val; /* value of destination operand */
u8 src_bytes; /* size of source operand */
u8 dst_bytes; /* size of destination operand */
u8 ad_bytes; /* size of src/dst address */
u64 next_rip; /* rip following the instruction */
};
/*
* x86_emulate_ops:
*
* These operations represent the instruction emulator's interface to memory.
* There are two categories of operation: those that act on ordinary memory
* regions (*_std), and those that act on memory regions known to require
* special treatment or emulation (*_emulated).
*
* The emulator assumes that an instruction accesses only one 'emulated memory'
* location, that this location is the given linear faulting address (cr2), and
* that this is one of the instruction's data operands. Instruction fetches and
* stack operations are assumed never to access emulated memory. The emulator
* automatically deduces which operand of a string-move operation is accessing
* emulated memory, and assumes that the other operand accesses normal memory.
*
* NOTES:
* 1. The emulator isn't very smart about emulated vs. standard memory.
* 'Emulated memory' access addresses should be checked for sanity.
* 'Normal memory' accesses may fault, and the caller must arrange to
* detect and handle reentrancy into the emulator via recursive faults.
* Accesses may be unaligned and may cross page boundaries.
* 2. If the access fails (cannot emulate, or a standard access faults) then
* it is up to the memop to propagate the fault to the guest VM via
* some out-of-band mechanism, unknown to the emulator. The memop signals
* failure by returning X86EMUL_PROPAGATE_FAULT to the emulator, which will
* then immediately bail.
* 3. Valid access sizes are 1, 2, 4 and 8 bytes. On x86/32 systems only
* cmpxchg8b_emulated need support 8-byte accesses.
* 4. The emulator cannot handle 64-bit mode emulation on an x86/32 system.
*/
/* Access completed successfully: continue emulation as normal. */
#define X86EMUL_CONTINUE 0
/* Access is unhandleable: bail from emulation and return error to caller. */
#define X86EMUL_UNHANDLEABLE 1
/* Terminate emulation but return success to the caller. */
#define X86EMUL_PROPAGATE_FAULT 2 /* propagate a generated fault to guest */
#define X86EMUL_RETRY_INSTR 3 /* retry the instruction for some reason */
#define X86EMUL_CMPXCHG_FAILED 4 /* cmpxchg did not see expected value */
#define X86EMUL_IO_NEEDED 5 /* IO is needed to complete emulation */
#define X86EMUL_INTERCEPTED 6 /* Intercepted by nested VMCB/VMCS */
struct x86_emulate_ops {
/*
* read_gpr: read a general purpose register (rax - r15)
*
* @reg: gpr number.
*/
ulong (*read_gpr)(struct x86_emulate_ctxt *ctxt, unsigned reg);
/*
* write_gpr: write a general purpose register (rax - r15)
*
* @reg: gpr number.
* @val: value to write.
*/
void (*write_gpr)(struct x86_emulate_ctxt *ctxt, unsigned reg, ulong val);
/*
* read_std: Read bytes of standard (non-emulated/special) memory.
* Used for descriptor reading.
* @addr: [IN ] Linear address from which to read.
* @val: [OUT] Value read from memory, zero-extended to 'u_long'.
* @bytes: [IN ] Number of bytes to read from memory.
* @system:[IN ] Whether the access is forced to be at CPL0.
*/
int (*read_std)(struct x86_emulate_ctxt *ctxt,
unsigned long addr, void *val,
unsigned int bytes,
struct x86_exception *fault, bool system);
/*
* read_phys: Read bytes of standard (non-emulated/special) memory.
* Used for descriptor reading.
* @addr: [IN ] Physical address from which to read.
* @val: [OUT] Value read from memory.
* @bytes: [IN ] Number of bytes to read from memory.
*/
int (*read_phys)(struct x86_emulate_ctxt *ctxt, unsigned long addr,
void *val, unsigned int bytes);
/*
* write_std: Write bytes of standard (non-emulated/special) memory.
* Used for descriptor writing.
* @addr: [IN ] Linear address to which to write.
* @val: [OUT] Value write to memory, zero-extended to 'u_long'.
* @bytes: [IN ] Number of bytes to write to memory.
* @system:[IN ] Whether the access is forced to be at CPL0.
*/
int (*write_std)(struct x86_emulate_ctxt *ctxt,
unsigned long addr, void *val, unsigned int bytes,
struct x86_exception *fault, bool system);
/*
* fetch: Read bytes of standard (non-emulated/special) memory.
* Used for instruction fetch.
* @addr: [IN ] Linear address from which to read.
* @val: [OUT] Value read from memory, zero-extended to 'u_long'.
* @bytes: [IN ] Number of bytes to read from memory.
*/
int (*fetch)(struct x86_emulate_ctxt *ctxt,
unsigned long addr, void *val, unsigned int bytes,
struct x86_exception *fault);
/*
* read_emulated: Read bytes from emulated/special memory area.
* @addr: [IN ] Linear address from which to read.
* @val: [OUT] Value read from memory, zero-extended to 'u_long'.
* @bytes: [IN ] Number of bytes to read from memory.
*/
int (*read_emulated)(struct x86_emulate_ctxt *ctxt,
unsigned long addr, void *val, unsigned int bytes,
struct x86_exception *fault);
/*
* write_emulated: Write bytes to emulated/special memory area.
* @addr: [IN ] Linear address to which to write.
* @val: [IN ] Value to write to memory (low-order bytes used as
* required).
* @bytes: [IN ] Number of bytes to write to memory.
*/
int (*write_emulated)(struct x86_emulate_ctxt *ctxt,
unsigned long addr, const void *val,
unsigned int bytes,
struct x86_exception *fault);
/*
* cmpxchg_emulated: Emulate an atomic (LOCKed) CMPXCHG operation on an
* emulated/special memory area.
* @addr: [IN ] Linear address to access.
* @old: [IN ] Value expected to be current at @addr.
* @new: [IN ] Value to write to @addr.
* @bytes: [IN ] Number of bytes to access using CMPXCHG.
*/
int (*cmpxchg_emulated)(struct x86_emulate_ctxt *ctxt,
unsigned long addr,
const void *old,
const void *new,
unsigned int bytes,
struct x86_exception *fault);
void (*invlpg)(struct x86_emulate_ctxt *ctxt, ulong addr);
int (*pio_in_emulated)(struct x86_emulate_ctxt *ctxt,
int size, unsigned short port, void *val,
unsigned int count);
int (*pio_out_emulated)(struct x86_emulate_ctxt *ctxt,
int size, unsigned short port, const void *val,
unsigned int count);
bool (*get_segment)(struct x86_emulate_ctxt *ctxt, u16 *selector,
struct desc_struct *desc, u32 *base3, int seg);
void (*set_segment)(struct x86_emulate_ctxt *ctxt, u16 selector,
struct desc_struct *desc, u32 base3, int seg);
unsigned long (*get_cached_segment_base)(struct x86_emulate_ctxt *ctxt,
int seg);
void (*get_gdt)(struct x86_emulate_ctxt *ctxt, struct desc_ptr *dt);
void (*get_idt)(struct x86_emulate_ctxt *ctxt, struct desc_ptr *dt);
void (*set_gdt)(struct x86_emulate_ctxt *ctxt, struct desc_ptr *dt);
void (*set_idt)(struct x86_emulate_ctxt *ctxt, struct desc_ptr *dt);
ulong (*get_cr)(struct x86_emulate_ctxt *ctxt, int cr);
int (*set_cr)(struct x86_emulate_ctxt *ctxt, int cr, ulong val);
int (*cpl)(struct x86_emulate_ctxt *ctxt);
int (*get_dr)(struct x86_emulate_ctxt *ctxt, int dr, ulong *dest);
int (*set_dr)(struct x86_emulate_ctxt *ctxt, int dr, ulong value);
u64 (*get_smbase)(struct x86_emulate_ctxt *ctxt);
void (*set_smbase)(struct x86_emulate_ctxt *ctxt, u64 smbase);
int (*set_msr)(struct x86_emulate_ctxt *ctxt, u32 msr_index, u64 data);
int (*get_msr)(struct x86_emulate_ctxt *ctxt, u32 msr_index, u64 *pdata);
int (*check_pmc)(struct x86_emulate_ctxt *ctxt, u32 pmc);
int (*read_pmc)(struct x86_emulate_ctxt *ctxt, u32 pmc, u64 *pdata);
void (*halt)(struct x86_emulate_ctxt *ctxt);
void (*wbinvd)(struct x86_emulate_ctxt *ctxt);
int (*fix_hypercall)(struct x86_emulate_ctxt *ctxt);
int (*intercept)(struct x86_emulate_ctxt *ctxt,
struct x86_instruction_info *info,
enum x86_intercept_stage stage);
bool (*get_cpuid)(struct x86_emulate_ctxt *ctxt, u32 *eax, u32 *ebx,
u32 *ecx, u32 *edx, bool exact_only);
bool (*guest_has_long_mode)(struct x86_emulate_ctxt *ctxt);
bool (*guest_has_movbe)(struct x86_emulate_ctxt *ctxt);
bool (*guest_has_fxsr)(struct x86_emulate_ctxt *ctxt);
void (*set_nmi_mask)(struct x86_emulate_ctxt *ctxt, bool masked);
unsigned (*get_hflags)(struct x86_emulate_ctxt *ctxt);
void (*set_hflags)(struct x86_emulate_ctxt *ctxt, unsigned hflags);
int (*pre_leave_smm)(struct x86_emulate_ctxt *ctxt,
const char *smstate);
void (*post_leave_smm)(struct x86_emulate_ctxt *ctxt);
int (*set_xcr)(struct x86_emulate_ctxt *ctxt, u32 index, u64 xcr);
};
typedef u32 __attribute__((vector_size(16))) sse128_t;
/* Type, address-of, and value of an instruction's operand. */
struct operand {
enum { OP_REG, OP_MEM, OP_MEM_STR, OP_IMM, OP_XMM, OP_MM, OP_NONE } type;
unsigned int bytes;
unsigned int count;
union {
unsigned long orig_val;
u64 orig_val64;
};
union {
unsigned long *reg;
struct segmented_address {
ulong ea;
unsigned seg;
} mem;
unsigned xmm;
unsigned mm;
} addr;
union {
unsigned long val;
u64 val64;
char valptr[sizeof(sse128_t)];
sse128_t vec_val;
u64 mm_val;
void *data;
};
};
struct fetch_cache {
u8 data[15];
u8 *ptr;
u8 *end;
};
struct read_cache {
u8 data[1024];
unsigned long pos;
unsigned long end;
};
/* Execution mode, passed to the emulator. */
enum x86emul_mode {
X86EMUL_MODE_REAL, /* Real mode. */
X86EMUL_MODE_VM86, /* Virtual 8086 mode. */
X86EMUL_MODE_PROT16, /* 16-bit protected mode. */
X86EMUL_MODE_PROT32, /* 32-bit protected mode. */
X86EMUL_MODE_PROT64, /* 64-bit (long) mode. */
};
/* These match some of the HF_* flags defined in kvm_host.h */
#define X86EMUL_GUEST_MASK (1 << 5) /* VCPU is in guest-mode */
#define X86EMUL_SMM_MASK (1 << 6)
#define X86EMUL_SMM_INSIDE_NMI_MASK (1 << 7)
/*
* fastop functions are declared as taking a never-defined fastop parameter,
* so they can't be called from C directly.
*/
struct fastop;
typedef void (*fastop_t)(struct fastop *);
struct x86_emulate_ctxt {
void *vcpu;
const struct x86_emulate_ops *ops;
/* Register state before/after emulation. */
unsigned long eflags;
unsigned long eip; /* eip before instruction emulation */
/* Emulated execution mode, represented by an X86EMUL_MODE value. */
enum x86emul_mode mode;
/* interruptibility state, as a result of execution of STI or MOV SS */
int interruptibility;
bool perm_ok; /* do not check permissions if true */
bool ud; /* inject an #UD if host doesn't support insn */
bool tf; /* TF value before instruction (after for syscall/sysret) */
bool have_exception;
struct x86_exception exception;
/* GPA available */
bool gpa_available;
gpa_t gpa_val;
/*
* decode cache
*/
/* current opcode length in bytes */
u8 opcode_len;
u8 b;
u8 intercept;
u8 op_bytes;
u8 ad_bytes;
union {
int (*execute)(struct x86_emulate_ctxt *ctxt);
fastop_t fop;
};
int (*check_perm)(struct x86_emulate_ctxt *ctxt);
/*
* The following six fields are cleared together,
* the rest are initialized unconditionally in x86_decode_insn
* or elsewhere
*/
bool rip_relative;
u8 rex_prefix;
u8 lock_prefix;
u8 rep_prefix;
/* bitmaps of registers in _regs[] that can be read */
u32 regs_valid;
/* bitmaps of registers in _regs[] that have been written */
u32 regs_dirty;
/* modrm */
u8 modrm;
u8 modrm_mod;
u8 modrm_reg;
u8 modrm_rm;
u8 modrm_seg;
u8 seg_override;
u64 d;
unsigned long _eip;
/* Here begins the usercopy section. */
struct operand src;
struct operand src2;
struct operand dst;
struct operand memop;
unsigned long _regs[NR_VCPU_REGS];
struct operand *memopp;
struct fetch_cache fetch;
struct read_cache io_read;
struct read_cache mem_read;
};
/* Repeat String Operation Prefix */
#define REPE_PREFIX 0xf3
#define REPNE_PREFIX 0xf2
/* CPUID vendors */
#define X86EMUL_CPUID_VENDOR_AuthenticAMD_ebx 0x68747541
#define X86EMUL_CPUID_VENDOR_AuthenticAMD_ecx 0x444d4163
#define X86EMUL_CPUID_VENDOR_AuthenticAMD_edx 0x69746e65
#define X86EMUL_CPUID_VENDOR_AMDisbetterI_ebx 0x69444d41
#define X86EMUL_CPUID_VENDOR_AMDisbetterI_ecx 0x21726574
#define X86EMUL_CPUID_VENDOR_AMDisbetterI_edx 0x74656273
#define X86EMUL_CPUID_VENDOR_HygonGenuine_ebx 0x6f677948
#define X86EMUL_CPUID_VENDOR_HygonGenuine_ecx 0x656e6975
#define X86EMUL_CPUID_VENDOR_HygonGenuine_edx 0x6e65476e
#define X86EMUL_CPUID_VENDOR_GenuineIntel_ebx 0x756e6547
#define X86EMUL_CPUID_VENDOR_GenuineIntel_ecx 0x6c65746e
#define X86EMUL_CPUID_VENDOR_GenuineIntel_edx 0x49656e69
#define X86EMUL_CPUID_VENDOR_CentaurHauls_ebx 0x746e6543
#define X86EMUL_CPUID_VENDOR_CentaurHauls_ecx 0x736c7561
#define X86EMUL_CPUID_VENDOR_CentaurHauls_edx 0x48727561
static inline bool is_guest_vendor_intel(u32 ebx, u32 ecx, u32 edx)
{
return ebx == X86EMUL_CPUID_VENDOR_GenuineIntel_ebx &&
ecx == X86EMUL_CPUID_VENDOR_GenuineIntel_ecx &&
edx == X86EMUL_CPUID_VENDOR_GenuineIntel_edx;
}
static inline bool is_guest_vendor_amd(u32 ebx, u32 ecx, u32 edx)
{
return (ebx == X86EMUL_CPUID_VENDOR_AuthenticAMD_ebx &&
ecx == X86EMUL_CPUID_VENDOR_AuthenticAMD_ecx &&
edx == X86EMUL_CPUID_VENDOR_AuthenticAMD_edx) ||
(ebx == X86EMUL_CPUID_VENDOR_AMDisbetterI_ebx &&
ecx == X86EMUL_CPUID_VENDOR_AMDisbetterI_ecx &&
edx == X86EMUL_CPUID_VENDOR_AMDisbetterI_edx);
}
static inline bool is_guest_vendor_hygon(u32 ebx, u32 ecx, u32 edx)
{
return ebx == X86EMUL_CPUID_VENDOR_HygonGenuine_ebx &&
ecx == X86EMUL_CPUID_VENDOR_HygonGenuine_ecx &&
edx == X86EMUL_CPUID_VENDOR_HygonGenuine_edx;
}
enum x86_intercept_stage {
X86_ICTP_NONE = 0, /* Allow zero-init to not match anything */
X86_ICPT_PRE_EXCEPT,
X86_ICPT_POST_EXCEPT,
X86_ICPT_POST_MEMACCESS,
};
enum x86_intercept {
x86_intercept_none,
x86_intercept_cr_read,
x86_intercept_cr_write,
x86_intercept_clts,
x86_intercept_lmsw,
x86_intercept_smsw,
x86_intercept_dr_read,
x86_intercept_dr_write,
x86_intercept_lidt,
x86_intercept_sidt,
x86_intercept_lgdt,
x86_intercept_sgdt,
x86_intercept_lldt,
x86_intercept_sldt,
x86_intercept_ltr,
x86_intercept_str,
x86_intercept_rdtsc,
x86_intercept_rdpmc,
x86_intercept_pushf,
x86_intercept_popf,
x86_intercept_cpuid,
x86_intercept_rsm,
x86_intercept_iret,
x86_intercept_intn,
x86_intercept_invd,
x86_intercept_pause,
x86_intercept_hlt,
x86_intercept_invlpg,
x86_intercept_invlpga,
x86_intercept_vmrun,
x86_intercept_vmload,
x86_intercept_vmsave,
x86_intercept_vmmcall,
x86_intercept_stgi,
x86_intercept_clgi,
x86_intercept_skinit,
x86_intercept_rdtscp,
x86_intercept_icebp,
x86_intercept_wbinvd,
x86_intercept_monitor,
x86_intercept_mwait,
x86_intercept_rdmsr,
x86_intercept_wrmsr,
x86_intercept_in,
x86_intercept_ins,
x86_intercept_out,
x86_intercept_outs,
x86_intercept_xsetbv,
nr_x86_intercepts
};
/* Host execution mode. */
#if defined(CONFIG_X86_32)
#define X86EMUL_MODE_HOST X86EMUL_MODE_PROT32
#elif defined(CONFIG_X86_64)
#define X86EMUL_MODE_HOST X86EMUL_MODE_PROT64
#endif
int x86_decode_insn(struct x86_emulate_ctxt *ctxt, void *insn, int insn_len);
bool x86_page_table_writing_insn(struct x86_emulate_ctxt *ctxt);
#define EMULATION_FAILED -1
#define EMULATION_OK 0
#define EMULATION_RESTART 1
#define EMULATION_INTERCEPTED 2
void init_decode_cache(struct x86_emulate_ctxt *ctxt);
int x86_emulate_insn(struct x86_emulate_ctxt *ctxt);
int emulator_task_switch(struct x86_emulate_ctxt *ctxt,
u16 tss_selector, int idt_index, int reason,
bool has_error_code, u32 error_code);
int emulate_int_real(struct x86_emulate_ctxt *ctxt, int irq);
void emulator_invalidate_register_cache(struct x86_emulate_ctxt *ctxt);
void emulator_writeback_register_cache(struct x86_emulate_ctxt *ctxt);
bool emulator_can_use_gpa(struct x86_emulate_ctxt *ctxt);
#endif /* _ASM_X86_KVM_X86_EMULATE_H */