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/* SPDX-License-Identifier: GPL-2.0-only */
/*
* tools/testing/selftests/kvm/include/x86_64/processor.h
*
* Copyright (C) 2018, Google LLC.
*/
#ifndef SELFTEST_KVM_PROCESSOR_H
#define SELFTEST_KVM_PROCESSOR_H
#include <assert.h>
#include <stdint.h>
#include <asm/msr-index.h>
#define X86_EFLAGS_FIXED (1u << 1)
#define X86_CR4_VME (1ul << 0)
#define X86_CR4_PVI (1ul << 1)
#define X86_CR4_TSD (1ul << 2)
#define X86_CR4_DE (1ul << 3)
#define X86_CR4_PSE (1ul << 4)
#define X86_CR4_PAE (1ul << 5)
#define X86_CR4_MCE (1ul << 6)
#define X86_CR4_PGE (1ul << 7)
#define X86_CR4_PCE (1ul << 8)
#define X86_CR4_OSFXSR (1ul << 9)
#define X86_CR4_OSXMMEXCPT (1ul << 10)
#define X86_CR4_UMIP (1ul << 11)
#define X86_CR4_LA57 (1ul << 12)
#define X86_CR4_VMXE (1ul << 13)
#define X86_CR4_SMXE (1ul << 14)
#define X86_CR4_FSGSBASE (1ul << 16)
#define X86_CR4_PCIDE (1ul << 17)
#define X86_CR4_OSXSAVE (1ul << 18)
#define X86_CR4_SMEP (1ul << 20)
#define X86_CR4_SMAP (1ul << 21)
#define X86_CR4_PKE (1ul << 22)
/* CPUID.1.ECX */
#define CPUID_VMX (1ul << 5)
#define CPUID_SMX (1ul << 6)
#define CPUID_PCID (1ul << 17)
#define CPUID_XSAVE (1ul << 26)
/* CPUID.7.EBX */
#define CPUID_FSGSBASE (1ul << 0)
#define CPUID_SMEP (1ul << 7)
#define CPUID_SMAP (1ul << 20)
/* CPUID.7.ECX */
#define CPUID_UMIP (1ul << 2)
#define CPUID_PKU (1ul << 3)
#define CPUID_LA57 (1ul << 16)
#define UNEXPECTED_VECTOR_PORT 0xfff0u
/* General Registers in 64-Bit Mode */
struct gpr64_regs {
u64 rax;
u64 rcx;
u64 rdx;
u64 rbx;
u64 rsp;
u64 rbp;
u64 rsi;
u64 rdi;
u64 r8;
u64 r9;
u64 r10;
u64 r11;
u64 r12;
u64 r13;
u64 r14;
u64 r15;
};
struct desc64 {
uint16_t limit0;
uint16_t base0;
unsigned base1:8, type:4, s:1, dpl:2, p:1;
unsigned limit1:4, avl:1, l:1, db:1, g:1, base2:8;
uint32_t base3;
uint32_t zero1;
} __attribute__((packed));
struct desc_ptr {
uint16_t size;
uint64_t address;
} __attribute__((packed));
static inline uint64_t get_desc64_base(const struct desc64 *desc)
{
return ((uint64_t)desc->base3 << 32) |
(desc->base0 | ((desc->base1) << 16) | ((desc->base2) << 24));
}
static inline uint64_t rdtsc(void)
{
uint32_t eax, edx;
uint64_t tsc_val;
/*
* The lfence is to wait (on Intel CPUs) until all previous
* instructions have been executed. If software requires RDTSC to be
* executed prior to execution of any subsequent instruction, it can
* execute LFENCE immediately after RDTSC
*/
__asm__ __volatile__("lfence; rdtsc; lfence" : "=a"(eax), "=d"(edx));
tsc_val = ((uint64_t)edx) << 32 | eax;
return tsc_val;
}
static inline uint64_t rdtscp(uint32_t *aux)
{
uint32_t eax, edx;
__asm__ __volatile__("rdtscp" : "=a"(eax), "=d"(edx), "=c"(*aux));
return ((uint64_t)edx) << 32 | eax;
}
static inline uint64_t rdmsr(uint32_t msr)
{
uint32_t a, d;
__asm__ __volatile__("rdmsr" : "=a"(a), "=d"(d) : "c"(msr) : "memory");
return a | ((uint64_t) d << 32);
}
static inline void wrmsr(uint32_t msr, uint64_t value)
{
uint32_t a = value;
uint32_t d = value >> 32;
__asm__ __volatile__("wrmsr" :: "a"(a), "d"(d), "c"(msr) : "memory");
}
static inline uint16_t inw(uint16_t port)
{
uint16_t tmp;
__asm__ __volatile__("in %%dx, %%ax"
: /* output */ "=a" (tmp)
: /* input */ "d" (port));
return tmp;
}
static inline uint16_t get_es(void)
{
uint16_t es;
__asm__ __volatile__("mov %%es, %[es]"
: /* output */ [es]"=rm"(es));
return es;
}
static inline uint16_t get_cs(void)
{
uint16_t cs;
__asm__ __volatile__("mov %%cs, %[cs]"
: /* output */ [cs]"=rm"(cs));
return cs;
}
static inline uint16_t get_ss(void)
{
uint16_t ss;
__asm__ __volatile__("mov %%ss, %[ss]"
: /* output */ [ss]"=rm"(ss));
return ss;
}
static inline uint16_t get_ds(void)
{
uint16_t ds;
__asm__ __volatile__("mov %%ds, %[ds]"
: /* output */ [ds]"=rm"(ds));
return ds;
}
static inline uint16_t get_fs(void)
{
uint16_t fs;
__asm__ __volatile__("mov %%fs, %[fs]"
: /* output */ [fs]"=rm"(fs));
return fs;
}
static inline uint16_t get_gs(void)
{
uint16_t gs;
__asm__ __volatile__("mov %%gs, %[gs]"
: /* output */ [gs]"=rm"(gs));
return gs;
}
static inline uint16_t get_tr(void)
{
uint16_t tr;
__asm__ __volatile__("str %[tr]"
: /* output */ [tr]"=rm"(tr));
return tr;
}
static inline uint64_t get_cr0(void)
{
uint64_t cr0;
__asm__ __volatile__("mov %%cr0, %[cr0]"
: /* output */ [cr0]"=r"(cr0));
return cr0;
}
static inline uint64_t get_cr3(void)
{
uint64_t cr3;
__asm__ __volatile__("mov %%cr3, %[cr3]"
: /* output */ [cr3]"=r"(cr3));
return cr3;
}
static inline uint64_t get_cr4(void)
{
uint64_t cr4;
__asm__ __volatile__("mov %%cr4, %[cr4]"
: /* output */ [cr4]"=r"(cr4));
return cr4;
}
static inline void set_cr4(uint64_t val)
{
__asm__ __volatile__("mov %0, %%cr4" : : "r" (val) : "memory");
}
static inline struct desc_ptr get_gdt(void)
{
struct desc_ptr gdt;
__asm__ __volatile__("sgdt %[gdt]"
: /* output */ [gdt]"=m"(gdt));
return gdt;
}
static inline struct desc_ptr get_idt(void)
{
struct desc_ptr idt;
__asm__ __volatile__("sidt %[idt]"
: /* output */ [idt]"=m"(idt));
return idt;
}
static inline void outl(uint16_t port, uint32_t value)
{
__asm__ __volatile__("outl %%eax, %%dx" : : "d"(port), "a"(value));
}
#define SET_XMM(__var, __xmm) \
asm volatile("movq %0, %%"#__xmm : : "r"(__var) : #__xmm)
static inline void set_xmm(int n, unsigned long val)
{
switch (n) {
case 0:
SET_XMM(val, xmm0);
break;
case 1:
SET_XMM(val, xmm1);
break;
case 2:
SET_XMM(val, xmm2);
break;
case 3:
SET_XMM(val, xmm3);
break;
case 4:
SET_XMM(val, xmm4);
break;
case 5:
SET_XMM(val, xmm5);
break;
case 6:
SET_XMM(val, xmm6);
break;
case 7:
SET_XMM(val, xmm7);
break;
}
}
typedef unsigned long v1di __attribute__ ((vector_size (8)));
static inline unsigned long get_xmm(int n)
{
assert(n >= 0 && n <= 7);
register v1di xmm0 __asm__("%xmm0");
register v1di xmm1 __asm__("%xmm1");
register v1di xmm2 __asm__("%xmm2");
register v1di xmm3 __asm__("%xmm3");
register v1di xmm4 __asm__("%xmm4");
register v1di xmm5 __asm__("%xmm5");
register v1di xmm6 __asm__("%xmm6");
register v1di xmm7 __asm__("%xmm7");
switch (n) {
case 0:
return (unsigned long)xmm0;
case 1:
return (unsigned long)xmm1;
case 2:
return (unsigned long)xmm2;
case 3:
return (unsigned long)xmm3;
case 4:
return (unsigned long)xmm4;
case 5:
return (unsigned long)xmm5;
case 6:
return (unsigned long)xmm6;
case 7:
return (unsigned long)xmm7;
}
return 0;
}
bool is_intel_cpu(void);
struct kvm_x86_state;
struct kvm_x86_state *vcpu_save_state(struct kvm_vm *vm, uint32_t vcpuid);
void vcpu_load_state(struct kvm_vm *vm, uint32_t vcpuid,
struct kvm_x86_state *state);
struct kvm_msr_list *kvm_get_msr_index_list(void);
struct kvm_cpuid2 *kvm_get_supported_cpuid(void);
void vcpu_set_cpuid(struct kvm_vm *vm, uint32_t vcpuid,
struct kvm_cpuid2 *cpuid);
struct kvm_cpuid_entry2 *
kvm_get_supported_cpuid_index(uint32_t function, uint32_t index);
static inline struct kvm_cpuid_entry2 *
kvm_get_supported_cpuid_entry(uint32_t function)
{
return kvm_get_supported_cpuid_index(function, 0);
}
uint64_t vcpu_get_msr(struct kvm_vm *vm, uint32_t vcpuid, uint64_t msr_index);
int _vcpu_set_msr(struct kvm_vm *vm, uint32_t vcpuid, uint64_t msr_index,
uint64_t msr_value);
void vcpu_set_msr(struct kvm_vm *vm, uint32_t vcpuid, uint64_t msr_index,
uint64_t msr_value);
uint32_t kvm_get_cpuid_max_basic(void);
uint32_t kvm_get_cpuid_max_extended(void);
void kvm_get_cpu_address_width(unsigned int *pa_bits, unsigned int *va_bits);
struct ex_regs {
uint64_t rax, rcx, rdx, rbx;
uint64_t rbp, rsi, rdi;
uint64_t r8, r9, r10, r11;
uint64_t r12, r13, r14, r15;
uint64_t vector;
uint64_t error_code;
uint64_t rip;
uint64_t cs;
uint64_t rflags;
};
void vm_init_descriptor_tables(struct kvm_vm *vm);
void vcpu_init_descriptor_tables(struct kvm_vm *vm, uint32_t vcpuid);
void vm_handle_exception(struct kvm_vm *vm, int vector,
void (*handler)(struct ex_regs *));
/*
* set_cpuid() - overwrites a matching cpuid entry with the provided value.
* matches based on ent->function && ent->index. returns true
* if a match was found and successfully overwritten.
* @cpuid: the kvm cpuid list to modify.
* @ent: cpuid entry to insert
*/
bool set_cpuid(struct kvm_cpuid2 *cpuid, struct kvm_cpuid_entry2 *ent);
uint64_t kvm_hypercall(uint64_t nr, uint64_t a0, uint64_t a1, uint64_t a2,
uint64_t a3);
/*
* Basic CPU control in CR0
*/
#define X86_CR0_PE (1UL<<0) /* Protection Enable */
#define X86_CR0_MP (1UL<<1) /* Monitor Coprocessor */
#define X86_CR0_EM (1UL<<2) /* Emulation */
#define X86_CR0_TS (1UL<<3) /* Task Switched */
#define X86_CR0_ET (1UL<<4) /* Extension Type */
#define X86_CR0_NE (1UL<<5) /* Numeric Error */
#define X86_CR0_WP (1UL<<16) /* Write Protect */
#define X86_CR0_AM (1UL<<18) /* Alignment Mask */
#define X86_CR0_NW (1UL<<29) /* Not Write-through */
#define X86_CR0_CD (1UL<<30) /* Cache Disable */
#define X86_CR0_PG (1UL<<31) /* Paging */
#define APIC_BASE_MSR 0x800
#define X2APIC_ENABLE (1UL << 10)
#define APIC_ICR 0x300
#define APIC_DEST_SELF 0x40000
#define APIC_DEST_ALLINC 0x80000
#define APIC_DEST_ALLBUT 0xC0000
#define APIC_ICR_RR_MASK 0x30000
#define APIC_ICR_RR_INVALID 0x00000
#define APIC_ICR_RR_INPROG 0x10000
#define APIC_ICR_RR_VALID 0x20000
#define APIC_INT_LEVELTRIG 0x08000
#define APIC_INT_ASSERT 0x04000
#define APIC_ICR_BUSY 0x01000
#define APIC_DEST_LOGICAL 0x00800
#define APIC_DEST_PHYSICAL 0x00000
#define APIC_DM_FIXED 0x00000
#define APIC_DM_FIXED_MASK 0x00700
#define APIC_DM_LOWEST 0x00100
#define APIC_DM_SMI 0x00200
#define APIC_DM_REMRD 0x00300
#define APIC_DM_NMI 0x00400
#define APIC_DM_INIT 0x00500
#define APIC_DM_STARTUP 0x00600
#define APIC_DM_EXTINT 0x00700
#define APIC_VECTOR_MASK 0x000FF
#define APIC_ICR2 0x310
/* VMX_EPT_VPID_CAP bits */
#define VMX_EPT_VPID_CAP_AD_BITS (1ULL << 21)
#endif /* SELFTEST_KVM_PROCESSOR_H */
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