1 #include "qemu/osdep.h"
3 #include "exec/exec-all.h"
4 #include "hw/isa/isa.h"
5 #include "migration/cpu.h"
6 #include "kvm/hyperv.h"
7 #include "hw/i386/x86.h"
8 #include "kvm/kvm_i386.h"
9 #include "hw/xen/xen.h"
11 #include "sysemu/kvm.h"
12 #include "sysemu/kvm_xen.h"
13 #include "sysemu/tcg.h"
15 #include "qemu/error-report.h"
17 static const VMStateDescription vmstate_segment
= {
20 .minimum_version_id
= 1,
21 .fields
= (VMStateField
[]) {
22 VMSTATE_UINT32(selector
, SegmentCache
),
23 VMSTATE_UINTTL(base
, SegmentCache
),
24 VMSTATE_UINT32(limit
, SegmentCache
),
25 VMSTATE_UINT32(flags
, SegmentCache
),
30 #define VMSTATE_SEGMENT(_field, _state) { \
31 .name = (stringify(_field)), \
32 .size = sizeof(SegmentCache), \
33 .vmsd = &vmstate_segment, \
34 .flags = VMS_STRUCT, \
35 .offset = offsetof(_state, _field) \
36 + type_check(SegmentCache,typeof_field(_state, _field)) \
39 #define VMSTATE_SEGMENT_ARRAY(_field, _state, _n) \
40 VMSTATE_STRUCT_ARRAY(_field, _state, _n, 0, vmstate_segment, SegmentCache)
42 static const VMStateDescription vmstate_xmm_reg
= {
45 .minimum_version_id
= 1,
46 .fields
= (VMStateField
[]) {
47 VMSTATE_UINT64(ZMM_Q(0), ZMMReg
),
48 VMSTATE_UINT64(ZMM_Q(1), ZMMReg
),
53 #define VMSTATE_XMM_REGS(_field, _state, _start) \
54 VMSTATE_STRUCT_SUB_ARRAY(_field, _state, _start, CPU_NB_REGS, 0, \
55 vmstate_xmm_reg, ZMMReg)
57 /* YMMH format is the same as XMM, but for bits 128-255 */
58 static const VMStateDescription vmstate_ymmh_reg
= {
61 .minimum_version_id
= 1,
62 .fields
= (VMStateField
[]) {
63 VMSTATE_UINT64(ZMM_Q(2), ZMMReg
),
64 VMSTATE_UINT64(ZMM_Q(3), ZMMReg
),
69 #define VMSTATE_YMMH_REGS_VARS(_field, _state, _start, _v) \
70 VMSTATE_STRUCT_SUB_ARRAY(_field, _state, _start, CPU_NB_REGS, _v, \
71 vmstate_ymmh_reg, ZMMReg)
73 static const VMStateDescription vmstate_zmmh_reg
= {
76 .minimum_version_id
= 1,
77 .fields
= (VMStateField
[]) {
78 VMSTATE_UINT64(ZMM_Q(4), ZMMReg
),
79 VMSTATE_UINT64(ZMM_Q(5), ZMMReg
),
80 VMSTATE_UINT64(ZMM_Q(6), ZMMReg
),
81 VMSTATE_UINT64(ZMM_Q(7), ZMMReg
),
86 #define VMSTATE_ZMMH_REGS_VARS(_field, _state, _start) \
87 VMSTATE_STRUCT_SUB_ARRAY(_field, _state, _start, CPU_NB_REGS, 0, \
88 vmstate_zmmh_reg, ZMMReg)
91 static const VMStateDescription vmstate_hi16_zmm_reg
= {
92 .name
= "hi16_zmm_reg",
94 .minimum_version_id
= 1,
95 .fields
= (VMStateField
[]) {
96 VMSTATE_UINT64(ZMM_Q(0), ZMMReg
),
97 VMSTATE_UINT64(ZMM_Q(1), ZMMReg
),
98 VMSTATE_UINT64(ZMM_Q(2), ZMMReg
),
99 VMSTATE_UINT64(ZMM_Q(3), ZMMReg
),
100 VMSTATE_UINT64(ZMM_Q(4), ZMMReg
),
101 VMSTATE_UINT64(ZMM_Q(5), ZMMReg
),
102 VMSTATE_UINT64(ZMM_Q(6), ZMMReg
),
103 VMSTATE_UINT64(ZMM_Q(7), ZMMReg
),
104 VMSTATE_END_OF_LIST()
108 #define VMSTATE_Hi16_ZMM_REGS_VARS(_field, _state, _start) \
109 VMSTATE_STRUCT_SUB_ARRAY(_field, _state, _start, CPU_NB_REGS, 0, \
110 vmstate_hi16_zmm_reg, ZMMReg)
113 static const VMStateDescription vmstate_bnd_regs
= {
116 .minimum_version_id
= 1,
117 .fields
= (VMStateField
[]) {
118 VMSTATE_UINT64(lb
, BNDReg
),
119 VMSTATE_UINT64(ub
, BNDReg
),
120 VMSTATE_END_OF_LIST()
124 #define VMSTATE_BND_REGS(_field, _state, _n) \
125 VMSTATE_STRUCT_ARRAY(_field, _state, _n, 0, vmstate_bnd_regs, BNDReg)
127 static const VMStateDescription vmstate_mtrr_var
= {
130 .minimum_version_id
= 1,
131 .fields
= (VMStateField
[]) {
132 VMSTATE_UINT64(base
, MTRRVar
),
133 VMSTATE_UINT64(mask
, MTRRVar
),
134 VMSTATE_END_OF_LIST()
138 #define VMSTATE_MTRR_VARS(_field, _state, _n, _v) \
139 VMSTATE_STRUCT_ARRAY(_field, _state, _n, _v, vmstate_mtrr_var, MTRRVar)
141 static const VMStateDescription vmstate_lbr_records_var
= {
142 .name
= "lbr_records_var",
144 .minimum_version_id
= 1,
145 .fields
= (VMStateField
[]) {
146 VMSTATE_UINT64(from
, LBREntry
),
147 VMSTATE_UINT64(to
, LBREntry
),
148 VMSTATE_UINT64(info
, LBREntry
),
149 VMSTATE_END_OF_LIST()
153 #define VMSTATE_LBR_VARS(_field, _state, _n, _v) \
154 VMSTATE_STRUCT_ARRAY(_field, _state, _n, _v, vmstate_lbr_records_var, \
157 typedef struct x86_FPReg_tmp
{
163 static void cpu_get_fp80(uint64_t *pmant
, uint16_t *pexp
, floatx80 f
)
168 *pmant
= temp
.l
.lower
;
169 *pexp
= temp
.l
.upper
;
172 static floatx80
cpu_set_fp80(uint64_t mant
, uint16_t upper
)
176 temp
.l
.upper
= upper
;
181 static int fpreg_pre_save(void *opaque
)
183 x86_FPReg_tmp
*tmp
= opaque
;
185 /* we save the real CPU data (in case of MMX usage only 'mant'
186 contains the MMX register */
187 cpu_get_fp80(&tmp
->tmp_mant
, &tmp
->tmp_exp
, tmp
->parent
->d
);
192 static int fpreg_post_load(void *opaque
, int version
)
194 x86_FPReg_tmp
*tmp
= opaque
;
196 tmp
->parent
->d
= cpu_set_fp80(tmp
->tmp_mant
, tmp
->tmp_exp
);
200 static const VMStateDescription vmstate_fpreg_tmp
= {
202 .post_load
= fpreg_post_load
,
203 .pre_save
= fpreg_pre_save
,
204 .fields
= (VMStateField
[]) {
205 VMSTATE_UINT64(tmp_mant
, x86_FPReg_tmp
),
206 VMSTATE_UINT16(tmp_exp
, x86_FPReg_tmp
),
207 VMSTATE_END_OF_LIST()
211 static const VMStateDescription vmstate_fpreg
= {
213 .fields
= (VMStateField
[]) {
214 VMSTATE_WITH_TMP(FPReg
, x86_FPReg_tmp
, vmstate_fpreg_tmp
),
215 VMSTATE_END_OF_LIST()
219 static int cpu_pre_save(void *opaque
)
221 X86CPU
*cpu
= opaque
;
222 CPUX86State
*env
= &cpu
->env
;
224 env
->v_tpr
= env
->int_ctl
& V_TPR_MASK
;
226 env
->fpus_vmstate
= (env
->fpus
& ~0x3800) | (env
->fpstt
& 0x7) << 11;
227 env
->fptag_vmstate
= 0;
228 for(i
= 0; i
< 8; i
++) {
229 env
->fptag_vmstate
|= ((!env
->fptags
[i
]) << i
);
232 env
->fpregs_format_vmstate
= 0;
235 * Real mode guest segments register DPL should be zero.
236 * Older KVM version were setting it wrongly.
237 * Fixing it will allow live migration to host with unrestricted guest
238 * support (otherwise the migration will fail with invalid guest state
241 if (!(env
->cr
[0] & CR0_PE_MASK
) &&
242 (env
->segs
[R_CS
].flags
>> DESC_DPL_SHIFT
& 3) != 0) {
243 env
->segs
[R_CS
].flags
&= ~(env
->segs
[R_CS
].flags
& DESC_DPL_MASK
);
244 env
->segs
[R_DS
].flags
&= ~(env
->segs
[R_DS
].flags
& DESC_DPL_MASK
);
245 env
->segs
[R_ES
].flags
&= ~(env
->segs
[R_ES
].flags
& DESC_DPL_MASK
);
246 env
->segs
[R_FS
].flags
&= ~(env
->segs
[R_FS
].flags
& DESC_DPL_MASK
);
247 env
->segs
[R_GS
].flags
&= ~(env
->segs
[R_GS
].flags
& DESC_DPL_MASK
);
248 env
->segs
[R_SS
].flags
&= ~(env
->segs
[R_SS
].flags
& DESC_DPL_MASK
);
253 * In case vCPU may have enabled VMX, we need to make sure kernel have
254 * required capabilities in order to perform migration correctly:
256 * 1) We must be able to extract vCPU nested-state from KVM.
258 * 2) In case vCPU is running in guest-mode and it has a pending exception,
259 * we must be able to determine if it's in a pending or injected state.
260 * Note that in case KVM don't have required capability to do so,
261 * a pending/injected exception will always appear as an
262 * injected exception.
264 if (kvm_enabled() && cpu_vmx_maybe_enabled(env
) &&
265 (!env
->nested_state
||
266 (!kvm_has_exception_payload() && (env
->hflags
& HF_GUEST_MASK
) &&
267 env
->exception_injected
))) {
268 error_report("Guest maybe enabled nested virtualization but kernel "
269 "does not support required capabilities to save vCPU "
276 * When vCPU is running L2 and exception is still pending,
277 * it can potentially be intercepted by L1 hypervisor.
278 * In contrast to an injected exception which cannot be
279 * intercepted anymore.
281 * Furthermore, when a L2 exception is intercepted by L1
282 * hypervisor, its exception payload (CR2/DR6 on #PF/#DB)
283 * should not be set yet in the respective vCPU register.
284 * Thus, in case an exception is pending, it is
285 * important to save the exception payload seperately.
287 * Therefore, if an exception is not in a pending state
288 * or vCPU is not in guest-mode, it is not important to
289 * distinguish between a pending and injected exception
290 * and we don't need to store seperately the exception payload.
292 * In order to preserve better backwards-compatible migration,
293 * convert a pending exception to an injected exception in
294 * case it is not important to distinguish between them
295 * as described above.
297 if (env
->exception_pending
&& !(env
->hflags
& HF_GUEST_MASK
)) {
298 env
->exception_pending
= 0;
299 env
->exception_injected
= 1;
301 if (env
->exception_has_payload
) {
302 if (env
->exception_nr
== EXCP01_DB
) {
303 env
->dr
[6] = env
->exception_payload
;
304 } else if (env
->exception_nr
== EXCP0E_PAGE
) {
305 env
->cr
[2] = env
->exception_payload
;
313 static int cpu_post_load(void *opaque
, int version_id
)
315 X86CPU
*cpu
= opaque
;
316 CPUState
*cs
= CPU(cpu
);
317 CPUX86State
*env
= &cpu
->env
;
320 if (env
->tsc_khz
&& env
->user_tsc_khz
&&
321 env
->tsc_khz
!= env
->user_tsc_khz
) {
322 error_report("Mismatch between user-specified TSC frequency and "
323 "migrated TSC frequency");
327 if (env
->fpregs_format_vmstate
) {
328 error_report("Unsupported old non-softfloat CPU state");
332 * Real mode guest segments register DPL should be zero.
333 * Older KVM version were setting it wrongly.
334 * Fixing it will allow live migration from such host that don't have
335 * restricted guest support to a host with unrestricted guest support
336 * (otherwise the migration will fail with invalid guest state
339 if (!(env
->cr
[0] & CR0_PE_MASK
) &&
340 (env
->segs
[R_CS
].flags
>> DESC_DPL_SHIFT
& 3) != 0) {
341 env
->segs
[R_CS
].flags
&= ~(env
->segs
[R_CS
].flags
& DESC_DPL_MASK
);
342 env
->segs
[R_DS
].flags
&= ~(env
->segs
[R_DS
].flags
& DESC_DPL_MASK
);
343 env
->segs
[R_ES
].flags
&= ~(env
->segs
[R_ES
].flags
& DESC_DPL_MASK
);
344 env
->segs
[R_FS
].flags
&= ~(env
->segs
[R_FS
].flags
& DESC_DPL_MASK
);
345 env
->segs
[R_GS
].flags
&= ~(env
->segs
[R_GS
].flags
& DESC_DPL_MASK
);
346 env
->segs
[R_SS
].flags
&= ~(env
->segs
[R_SS
].flags
& DESC_DPL_MASK
);
349 /* Older versions of QEMU incorrectly used CS.DPL as the CPL when
350 * running under KVM. This is wrong for conforming code segments.
351 * Luckily, in our implementation the CPL field of hflags is redundant
352 * and we can get the right value from the SS descriptor privilege level.
354 env
->hflags
&= ~HF_CPL_MASK
;
355 env
->hflags
|= (env
->segs
[R_SS
].flags
>> DESC_DPL_SHIFT
) & HF_CPL_MASK
;
358 if ((env
->hflags
& HF_GUEST_MASK
) &&
359 (!env
->nested_state
||
360 !(env
->nested_state
->flags
& KVM_STATE_NESTED_GUEST_MODE
))) {
361 error_report("vCPU set in guest-mode inconsistent with "
362 "migrated kernel nested state");
368 * There are cases that we can get valid exception_nr with both
369 * exception_pending and exception_injected being cleared.
370 * This can happen in one of the following scenarios:
371 * 1) Source is older QEMU without KVM_CAP_EXCEPTION_PAYLOAD support.
372 * 2) Source is running on kernel without KVM_CAP_EXCEPTION_PAYLOAD support.
373 * 3) "cpu/exception_info" subsection not sent because there is no exception
374 * pending or guest wasn't running L2 (See comment in cpu_pre_save()).
376 * In those cases, we can just deduce that a valid exception_nr means
377 * we can treat the exception as already injected.
379 if ((env
->exception_nr
!= -1) &&
380 !env
->exception_pending
&& !env
->exception_injected
) {
381 env
->exception_injected
= 1;
384 env
->fpstt
= (env
->fpus_vmstate
>> 11) & 7;
385 env
->fpus
= env
->fpus_vmstate
& ~0x3800;
386 env
->fptag_vmstate
^= 0xff;
387 for(i
= 0; i
< 8; i
++) {
388 env
->fptags
[i
] = (env
->fptag_vmstate
>> i
) & 1;
392 update_fp_status(env
);
393 update_mxcsr_status(env
);
395 cpu_breakpoint_remove_all(cs
, BP_CPU
);
396 cpu_watchpoint_remove_all(cs
, BP_CPU
);
398 /* Indicate all breakpoints disabled, as they are, then
399 let the helper re-enable them. */
401 env
->dr
[7] = dr7
& ~(DR7_GLOBAL_BP_MASK
| DR7_LOCAL_BP_MASK
);
402 cpu_x86_update_dr7(env
, dr7
);
408 static bool async_pf_msr_needed(void *opaque
)
410 X86CPU
*cpu
= opaque
;
412 return cpu
->env
.async_pf_en_msr
!= 0;
415 static bool async_pf_int_msr_needed(void *opaque
)
417 X86CPU
*cpu
= opaque
;
419 return cpu
->env
.async_pf_int_msr
!= 0;
422 static bool pv_eoi_msr_needed(void *opaque
)
424 X86CPU
*cpu
= opaque
;
426 return cpu
->env
.pv_eoi_en_msr
!= 0;
429 static bool steal_time_msr_needed(void *opaque
)
431 X86CPU
*cpu
= opaque
;
433 return cpu
->env
.steal_time_msr
!= 0;
436 static bool exception_info_needed(void *opaque
)
438 X86CPU
*cpu
= opaque
;
439 CPUX86State
*env
= &cpu
->env
;
442 * It is important to save exception-info only in case
443 * we need to distinguish between a pending and injected
444 * exception. Which is only required in case there is a
445 * pending exception and vCPU is running L2.
446 * For more info, refer to comment in cpu_pre_save().
448 return env
->exception_pending
&& (env
->hflags
& HF_GUEST_MASK
);
451 static const VMStateDescription vmstate_exception_info
= {
452 .name
= "cpu/exception_info",
454 .minimum_version_id
= 1,
455 .needed
= exception_info_needed
,
456 .fields
= (VMStateField
[]) {
457 VMSTATE_UINT8(env
.exception_pending
, X86CPU
),
458 VMSTATE_UINT8(env
.exception_injected
, X86CPU
),
459 VMSTATE_UINT8(env
.exception_has_payload
, X86CPU
),
460 VMSTATE_UINT64(env
.exception_payload
, X86CPU
),
461 VMSTATE_END_OF_LIST()
465 /* Poll control MSR enabled by default */
466 static bool poll_control_msr_needed(void *opaque
)
468 X86CPU
*cpu
= opaque
;
470 return cpu
->env
.poll_control_msr
!= 1;
473 static const VMStateDescription vmstate_steal_time_msr
= {
474 .name
= "cpu/steal_time_msr",
476 .minimum_version_id
= 1,
477 .needed
= steal_time_msr_needed
,
478 .fields
= (VMStateField
[]) {
479 VMSTATE_UINT64(env
.steal_time_msr
, X86CPU
),
480 VMSTATE_END_OF_LIST()
484 static const VMStateDescription vmstate_async_pf_msr
= {
485 .name
= "cpu/async_pf_msr",
487 .minimum_version_id
= 1,
488 .needed
= async_pf_msr_needed
,
489 .fields
= (VMStateField
[]) {
490 VMSTATE_UINT64(env
.async_pf_en_msr
, X86CPU
),
491 VMSTATE_END_OF_LIST()
495 static const VMStateDescription vmstate_async_pf_int_msr
= {
496 .name
= "cpu/async_pf_int_msr",
498 .minimum_version_id
= 1,
499 .needed
= async_pf_int_msr_needed
,
500 .fields
= (VMStateField
[]) {
501 VMSTATE_UINT64(env
.async_pf_int_msr
, X86CPU
),
502 VMSTATE_END_OF_LIST()
506 static const VMStateDescription vmstate_pv_eoi_msr
= {
507 .name
= "cpu/async_pv_eoi_msr",
509 .minimum_version_id
= 1,
510 .needed
= pv_eoi_msr_needed
,
511 .fields
= (VMStateField
[]) {
512 VMSTATE_UINT64(env
.pv_eoi_en_msr
, X86CPU
),
513 VMSTATE_END_OF_LIST()
517 static const VMStateDescription vmstate_poll_control_msr
= {
518 .name
= "cpu/poll_control_msr",
520 .minimum_version_id
= 1,
521 .needed
= poll_control_msr_needed
,
522 .fields
= (VMStateField
[]) {
523 VMSTATE_UINT64(env
.poll_control_msr
, X86CPU
),
524 VMSTATE_END_OF_LIST()
528 static bool fpop_ip_dp_needed(void *opaque
)
530 X86CPU
*cpu
= opaque
;
531 CPUX86State
*env
= &cpu
->env
;
533 return env
->fpop
!= 0 || env
->fpip
!= 0 || env
->fpdp
!= 0;
536 static const VMStateDescription vmstate_fpop_ip_dp
= {
537 .name
= "cpu/fpop_ip_dp",
539 .minimum_version_id
= 1,
540 .needed
= fpop_ip_dp_needed
,
541 .fields
= (VMStateField
[]) {
542 VMSTATE_UINT16(env
.fpop
, X86CPU
),
543 VMSTATE_UINT64(env
.fpip
, X86CPU
),
544 VMSTATE_UINT64(env
.fpdp
, X86CPU
),
545 VMSTATE_END_OF_LIST()
549 static bool tsc_adjust_needed(void *opaque
)
551 X86CPU
*cpu
= opaque
;
552 CPUX86State
*env
= &cpu
->env
;
554 return env
->tsc_adjust
!= 0;
557 static const VMStateDescription vmstate_msr_tsc_adjust
= {
558 .name
= "cpu/msr_tsc_adjust",
560 .minimum_version_id
= 1,
561 .needed
= tsc_adjust_needed
,
562 .fields
= (VMStateField
[]) {
563 VMSTATE_UINT64(env
.tsc_adjust
, X86CPU
),
564 VMSTATE_END_OF_LIST()
568 static bool msr_smi_count_needed(void *opaque
)
570 X86CPU
*cpu
= opaque
;
571 CPUX86State
*env
= &cpu
->env
;
573 return cpu
->migrate_smi_count
&& env
->msr_smi_count
!= 0;
576 static const VMStateDescription vmstate_msr_smi_count
= {
577 .name
= "cpu/msr_smi_count",
579 .minimum_version_id
= 1,
580 .needed
= msr_smi_count_needed
,
581 .fields
= (VMStateField
[]) {
582 VMSTATE_UINT64(env
.msr_smi_count
, X86CPU
),
583 VMSTATE_END_OF_LIST()
587 static bool tscdeadline_needed(void *opaque
)
589 X86CPU
*cpu
= opaque
;
590 CPUX86State
*env
= &cpu
->env
;
592 return env
->tsc_deadline
!= 0;
595 static const VMStateDescription vmstate_msr_tscdeadline
= {
596 .name
= "cpu/msr_tscdeadline",
598 .minimum_version_id
= 1,
599 .needed
= tscdeadline_needed
,
600 .fields
= (VMStateField
[]) {
601 VMSTATE_UINT64(env
.tsc_deadline
, X86CPU
),
602 VMSTATE_END_OF_LIST()
606 static bool misc_enable_needed(void *opaque
)
608 X86CPU
*cpu
= opaque
;
609 CPUX86State
*env
= &cpu
->env
;
611 return env
->msr_ia32_misc_enable
!= MSR_IA32_MISC_ENABLE_DEFAULT
;
614 static bool feature_control_needed(void *opaque
)
616 X86CPU
*cpu
= opaque
;
617 CPUX86State
*env
= &cpu
->env
;
619 return env
->msr_ia32_feature_control
!= 0;
622 static const VMStateDescription vmstate_msr_ia32_misc_enable
= {
623 .name
= "cpu/msr_ia32_misc_enable",
625 .minimum_version_id
= 1,
626 .needed
= misc_enable_needed
,
627 .fields
= (VMStateField
[]) {
628 VMSTATE_UINT64(env
.msr_ia32_misc_enable
, X86CPU
),
629 VMSTATE_END_OF_LIST()
633 static const VMStateDescription vmstate_msr_ia32_feature_control
= {
634 .name
= "cpu/msr_ia32_feature_control",
636 .minimum_version_id
= 1,
637 .needed
= feature_control_needed
,
638 .fields
= (VMStateField
[]) {
639 VMSTATE_UINT64(env
.msr_ia32_feature_control
, X86CPU
),
640 VMSTATE_END_OF_LIST()
644 static bool pmu_enable_needed(void *opaque
)
646 X86CPU
*cpu
= opaque
;
647 CPUX86State
*env
= &cpu
->env
;
650 if (env
->msr_fixed_ctr_ctrl
|| env
->msr_global_ctrl
||
651 env
->msr_global_status
|| env
->msr_global_ovf_ctrl
) {
654 for (i
= 0; i
< MAX_FIXED_COUNTERS
; i
++) {
655 if (env
->msr_fixed_counters
[i
]) {
659 for (i
= 0; i
< MAX_GP_COUNTERS
; i
++) {
660 if (env
->msr_gp_counters
[i
] || env
->msr_gp_evtsel
[i
]) {
668 static const VMStateDescription vmstate_msr_architectural_pmu
= {
669 .name
= "cpu/msr_architectural_pmu",
671 .minimum_version_id
= 1,
672 .needed
= pmu_enable_needed
,
673 .fields
= (VMStateField
[]) {
674 VMSTATE_UINT64(env
.msr_fixed_ctr_ctrl
, X86CPU
),
675 VMSTATE_UINT64(env
.msr_global_ctrl
, X86CPU
),
676 VMSTATE_UINT64(env
.msr_global_status
, X86CPU
),
677 VMSTATE_UINT64(env
.msr_global_ovf_ctrl
, X86CPU
),
678 VMSTATE_UINT64_ARRAY(env
.msr_fixed_counters
, X86CPU
, MAX_FIXED_COUNTERS
),
679 VMSTATE_UINT64_ARRAY(env
.msr_gp_counters
, X86CPU
, MAX_GP_COUNTERS
),
680 VMSTATE_UINT64_ARRAY(env
.msr_gp_evtsel
, X86CPU
, MAX_GP_COUNTERS
),
681 VMSTATE_END_OF_LIST()
685 static bool mpx_needed(void *opaque
)
687 X86CPU
*cpu
= opaque
;
688 CPUX86State
*env
= &cpu
->env
;
691 for (i
= 0; i
< 4; i
++) {
692 if (env
->bnd_regs
[i
].lb
|| env
->bnd_regs
[i
].ub
) {
697 if (env
->bndcs_regs
.cfgu
|| env
->bndcs_regs
.sts
) {
701 return !!env
->msr_bndcfgs
;
704 static const VMStateDescription vmstate_mpx
= {
707 .minimum_version_id
= 1,
708 .needed
= mpx_needed
,
709 .fields
= (VMStateField
[]) {
710 VMSTATE_BND_REGS(env
.bnd_regs
, X86CPU
, 4),
711 VMSTATE_UINT64(env
.bndcs_regs
.cfgu
, X86CPU
),
712 VMSTATE_UINT64(env
.bndcs_regs
.sts
, X86CPU
),
713 VMSTATE_UINT64(env
.msr_bndcfgs
, X86CPU
),
714 VMSTATE_END_OF_LIST()
718 static bool hyperv_hypercall_enable_needed(void *opaque
)
720 X86CPU
*cpu
= opaque
;
721 CPUX86State
*env
= &cpu
->env
;
723 return env
->msr_hv_hypercall
!= 0 || env
->msr_hv_guest_os_id
!= 0;
726 static const VMStateDescription vmstate_msr_hyperv_hypercall
= {
727 .name
= "cpu/msr_hyperv_hypercall",
729 .minimum_version_id
= 1,
730 .needed
= hyperv_hypercall_enable_needed
,
731 .fields
= (VMStateField
[]) {
732 VMSTATE_UINT64(env
.msr_hv_guest_os_id
, X86CPU
),
733 VMSTATE_UINT64(env
.msr_hv_hypercall
, X86CPU
),
734 VMSTATE_END_OF_LIST()
738 static bool hyperv_vapic_enable_needed(void *opaque
)
740 X86CPU
*cpu
= opaque
;
741 CPUX86State
*env
= &cpu
->env
;
743 return env
->msr_hv_vapic
!= 0;
746 static const VMStateDescription vmstate_msr_hyperv_vapic
= {
747 .name
= "cpu/msr_hyperv_vapic",
749 .minimum_version_id
= 1,
750 .needed
= hyperv_vapic_enable_needed
,
751 .fields
= (VMStateField
[]) {
752 VMSTATE_UINT64(env
.msr_hv_vapic
, X86CPU
),
753 VMSTATE_END_OF_LIST()
757 static bool hyperv_time_enable_needed(void *opaque
)
759 X86CPU
*cpu
= opaque
;
760 CPUX86State
*env
= &cpu
->env
;
762 return env
->msr_hv_tsc
!= 0;
765 static const VMStateDescription vmstate_msr_hyperv_time
= {
766 .name
= "cpu/msr_hyperv_time",
768 .minimum_version_id
= 1,
769 .needed
= hyperv_time_enable_needed
,
770 .fields
= (VMStateField
[]) {
771 VMSTATE_UINT64(env
.msr_hv_tsc
, X86CPU
),
772 VMSTATE_END_OF_LIST()
776 static bool hyperv_crash_enable_needed(void *opaque
)
778 X86CPU
*cpu
= opaque
;
779 CPUX86State
*env
= &cpu
->env
;
782 for (i
= 0; i
< HV_CRASH_PARAMS
; i
++) {
783 if (env
->msr_hv_crash_params
[i
]) {
790 static const VMStateDescription vmstate_msr_hyperv_crash
= {
791 .name
= "cpu/msr_hyperv_crash",
793 .minimum_version_id
= 1,
794 .needed
= hyperv_crash_enable_needed
,
795 .fields
= (VMStateField
[]) {
796 VMSTATE_UINT64_ARRAY(env
.msr_hv_crash_params
, X86CPU
, HV_CRASH_PARAMS
),
797 VMSTATE_END_OF_LIST()
801 static bool hyperv_runtime_enable_needed(void *opaque
)
803 X86CPU
*cpu
= opaque
;
804 CPUX86State
*env
= &cpu
->env
;
806 if (!hyperv_feat_enabled(cpu
, HYPERV_FEAT_RUNTIME
)) {
810 return env
->msr_hv_runtime
!= 0;
813 static const VMStateDescription vmstate_msr_hyperv_runtime
= {
814 .name
= "cpu/msr_hyperv_runtime",
816 .minimum_version_id
= 1,
817 .needed
= hyperv_runtime_enable_needed
,
818 .fields
= (VMStateField
[]) {
819 VMSTATE_UINT64(env
.msr_hv_runtime
, X86CPU
),
820 VMSTATE_END_OF_LIST()
824 static bool hyperv_synic_enable_needed(void *opaque
)
826 X86CPU
*cpu
= opaque
;
827 CPUX86State
*env
= &cpu
->env
;
830 if (env
->msr_hv_synic_control
!= 0 ||
831 env
->msr_hv_synic_evt_page
!= 0 ||
832 env
->msr_hv_synic_msg_page
!= 0) {
836 for (i
= 0; i
< ARRAY_SIZE(env
->msr_hv_synic_sint
); i
++) {
837 if (env
->msr_hv_synic_sint
[i
] != 0) {
845 static int hyperv_synic_post_load(void *opaque
, int version_id
)
847 X86CPU
*cpu
= opaque
;
848 hyperv_x86_synic_update(cpu
);
852 static const VMStateDescription vmstate_msr_hyperv_synic
= {
853 .name
= "cpu/msr_hyperv_synic",
855 .minimum_version_id
= 1,
856 .needed
= hyperv_synic_enable_needed
,
857 .post_load
= hyperv_synic_post_load
,
858 .fields
= (VMStateField
[]) {
859 VMSTATE_UINT64(env
.msr_hv_synic_control
, X86CPU
),
860 VMSTATE_UINT64(env
.msr_hv_synic_evt_page
, X86CPU
),
861 VMSTATE_UINT64(env
.msr_hv_synic_msg_page
, X86CPU
),
862 VMSTATE_UINT64_ARRAY(env
.msr_hv_synic_sint
, X86CPU
, HV_SINT_COUNT
),
863 VMSTATE_END_OF_LIST()
867 static bool hyperv_stimer_enable_needed(void *opaque
)
869 X86CPU
*cpu
= opaque
;
870 CPUX86State
*env
= &cpu
->env
;
873 for (i
= 0; i
< ARRAY_SIZE(env
->msr_hv_stimer_config
); i
++) {
874 if (env
->msr_hv_stimer_config
[i
] || env
->msr_hv_stimer_count
[i
]) {
881 static const VMStateDescription vmstate_msr_hyperv_stimer
= {
882 .name
= "cpu/msr_hyperv_stimer",
884 .minimum_version_id
= 1,
885 .needed
= hyperv_stimer_enable_needed
,
886 .fields
= (VMStateField
[]) {
887 VMSTATE_UINT64_ARRAY(env
.msr_hv_stimer_config
, X86CPU
,
889 VMSTATE_UINT64_ARRAY(env
.msr_hv_stimer_count
, X86CPU
, HV_STIMER_COUNT
),
890 VMSTATE_END_OF_LIST()
894 static bool hyperv_reenlightenment_enable_needed(void *opaque
)
896 X86CPU
*cpu
= opaque
;
897 CPUX86State
*env
= &cpu
->env
;
899 return env
->msr_hv_reenlightenment_control
!= 0 ||
900 env
->msr_hv_tsc_emulation_control
!= 0 ||
901 env
->msr_hv_tsc_emulation_status
!= 0;
904 static int hyperv_reenlightenment_post_load(void *opaque
, int version_id
)
906 X86CPU
*cpu
= opaque
;
907 CPUX86State
*env
= &cpu
->env
;
910 * KVM doesn't fully support re-enlightenment notifications so we need to
911 * make sure TSC frequency doesn't change upon migration.
913 if ((env
->msr_hv_reenlightenment_control
& HV_REENLIGHTENMENT_ENABLE_BIT
) &&
914 !env
->user_tsc_khz
) {
915 error_report("Guest enabled re-enlightenment notifications, "
916 "'tsc-frequency=' has to be specified");
923 static const VMStateDescription vmstate_msr_hyperv_reenlightenment
= {
924 .name
= "cpu/msr_hyperv_reenlightenment",
926 .minimum_version_id
= 1,
927 .needed
= hyperv_reenlightenment_enable_needed
,
928 .post_load
= hyperv_reenlightenment_post_load
,
929 .fields
= (VMStateField
[]) {
930 VMSTATE_UINT64(env
.msr_hv_reenlightenment_control
, X86CPU
),
931 VMSTATE_UINT64(env
.msr_hv_tsc_emulation_control
, X86CPU
),
932 VMSTATE_UINT64(env
.msr_hv_tsc_emulation_status
, X86CPU
),
933 VMSTATE_END_OF_LIST()
937 static bool avx512_needed(void *opaque
)
939 X86CPU
*cpu
= opaque
;
940 CPUX86State
*env
= &cpu
->env
;
943 for (i
= 0; i
< NB_OPMASK_REGS
; i
++) {
944 if (env
->opmask_regs
[i
]) {
949 for (i
= 0; i
< CPU_NB_REGS
; i
++) {
950 #define ENV_XMM(reg, field) (env->xmm_regs[reg].ZMM_Q(field))
951 if (ENV_XMM(i
, 4) || ENV_XMM(i
, 6) ||
952 ENV_XMM(i
, 5) || ENV_XMM(i
, 7)) {
956 if (ENV_XMM(i
+16, 0) || ENV_XMM(i
+16, 1) ||
957 ENV_XMM(i
+16, 2) || ENV_XMM(i
+16, 3) ||
958 ENV_XMM(i
+16, 4) || ENV_XMM(i
+16, 5) ||
959 ENV_XMM(i
+16, 6) || ENV_XMM(i
+16, 7)) {
968 static const VMStateDescription vmstate_avx512
= {
969 .name
= "cpu/avx512",
971 .minimum_version_id
= 1,
972 .needed
= avx512_needed
,
973 .fields
= (VMStateField
[]) {
974 VMSTATE_UINT64_ARRAY(env
.opmask_regs
, X86CPU
, NB_OPMASK_REGS
),
975 VMSTATE_ZMMH_REGS_VARS(env
.xmm_regs
, X86CPU
, 0),
977 VMSTATE_Hi16_ZMM_REGS_VARS(env
.xmm_regs
, X86CPU
, 16),
979 VMSTATE_END_OF_LIST()
983 static bool xss_needed(void *opaque
)
985 X86CPU
*cpu
= opaque
;
986 CPUX86State
*env
= &cpu
->env
;
988 return env
->xss
!= 0;
991 static const VMStateDescription vmstate_xss
= {
994 .minimum_version_id
= 1,
995 .needed
= xss_needed
,
996 .fields
= (VMStateField
[]) {
997 VMSTATE_UINT64(env
.xss
, X86CPU
),
998 VMSTATE_END_OF_LIST()
1002 static bool umwait_needed(void *opaque
)
1004 X86CPU
*cpu
= opaque
;
1005 CPUX86State
*env
= &cpu
->env
;
1007 return env
->umwait
!= 0;
1010 static const VMStateDescription vmstate_umwait
= {
1011 .name
= "cpu/umwait",
1013 .minimum_version_id
= 1,
1014 .needed
= umwait_needed
,
1015 .fields
= (VMStateField
[]) {
1016 VMSTATE_UINT32(env
.umwait
, X86CPU
),
1017 VMSTATE_END_OF_LIST()
1021 static bool pkru_needed(void *opaque
)
1023 X86CPU
*cpu
= opaque
;
1024 CPUX86State
*env
= &cpu
->env
;
1026 return env
->pkru
!= 0;
1029 static const VMStateDescription vmstate_pkru
= {
1032 .minimum_version_id
= 1,
1033 .needed
= pkru_needed
,
1034 .fields
= (VMStateField
[]){
1035 VMSTATE_UINT32(env
.pkru
, X86CPU
),
1036 VMSTATE_END_OF_LIST()
1040 static bool pkrs_needed(void *opaque
)
1042 X86CPU
*cpu
= opaque
;
1043 CPUX86State
*env
= &cpu
->env
;
1045 return env
->pkrs
!= 0;
1048 static const VMStateDescription vmstate_pkrs
= {
1051 .minimum_version_id
= 1,
1052 .needed
= pkrs_needed
,
1053 .fields
= (VMStateField
[]){
1054 VMSTATE_UINT32(env
.pkrs
, X86CPU
),
1055 VMSTATE_END_OF_LIST()
1059 static bool tsc_khz_needed(void *opaque
)
1061 X86CPU
*cpu
= opaque
;
1062 CPUX86State
*env
= &cpu
->env
;
1063 MachineClass
*mc
= MACHINE_GET_CLASS(qdev_get_machine());
1064 X86MachineClass
*x86mc
= X86_MACHINE_CLASS(mc
);
1065 return env
->tsc_khz
&& x86mc
->save_tsc_khz
;
1068 static const VMStateDescription vmstate_tsc_khz
= {
1069 .name
= "cpu/tsc_khz",
1071 .minimum_version_id
= 1,
1072 .needed
= tsc_khz_needed
,
1073 .fields
= (VMStateField
[]) {
1074 VMSTATE_INT64(env
.tsc_khz
, X86CPU
),
1075 VMSTATE_END_OF_LIST()
1081 static bool vmx_vmcs12_needed(void *opaque
)
1083 struct kvm_nested_state
*nested_state
= opaque
;
1084 return (nested_state
->size
>
1085 offsetof(struct kvm_nested_state
, data
.vmx
[0].vmcs12
));
1088 static const VMStateDescription vmstate_vmx_vmcs12
= {
1089 .name
= "cpu/kvm_nested_state/vmx/vmcs12",
1091 .minimum_version_id
= 1,
1092 .needed
= vmx_vmcs12_needed
,
1093 .fields
= (VMStateField
[]) {
1094 VMSTATE_UINT8_ARRAY(data
.vmx
[0].vmcs12
,
1095 struct kvm_nested_state
,
1096 KVM_STATE_NESTED_VMX_VMCS_SIZE
),
1097 VMSTATE_END_OF_LIST()
1101 static bool vmx_shadow_vmcs12_needed(void *opaque
)
1103 struct kvm_nested_state
*nested_state
= opaque
;
1104 return (nested_state
->size
>
1105 offsetof(struct kvm_nested_state
, data
.vmx
[0].shadow_vmcs12
));
1108 static const VMStateDescription vmstate_vmx_shadow_vmcs12
= {
1109 .name
= "cpu/kvm_nested_state/vmx/shadow_vmcs12",
1111 .minimum_version_id
= 1,
1112 .needed
= vmx_shadow_vmcs12_needed
,
1113 .fields
= (VMStateField
[]) {
1114 VMSTATE_UINT8_ARRAY(data
.vmx
[0].shadow_vmcs12
,
1115 struct kvm_nested_state
,
1116 KVM_STATE_NESTED_VMX_VMCS_SIZE
),
1117 VMSTATE_END_OF_LIST()
1121 static bool vmx_nested_state_needed(void *opaque
)
1123 struct kvm_nested_state
*nested_state
= opaque
;
1125 return (nested_state
->format
== KVM_STATE_NESTED_FORMAT_VMX
&&
1126 nested_state
->hdr
.vmx
.vmxon_pa
!= -1ull);
1129 static const VMStateDescription vmstate_vmx_nested_state
= {
1130 .name
= "cpu/kvm_nested_state/vmx",
1132 .minimum_version_id
= 1,
1133 .needed
= vmx_nested_state_needed
,
1134 .fields
= (VMStateField
[]) {
1135 VMSTATE_U64(hdr
.vmx
.vmxon_pa
, struct kvm_nested_state
),
1136 VMSTATE_U64(hdr
.vmx
.vmcs12_pa
, struct kvm_nested_state
),
1137 VMSTATE_U16(hdr
.vmx
.smm
.flags
, struct kvm_nested_state
),
1138 VMSTATE_END_OF_LIST()
1140 .subsections
= (const VMStateDescription
*[]) {
1141 &vmstate_vmx_vmcs12
,
1142 &vmstate_vmx_shadow_vmcs12
,
1147 static bool svm_nested_state_needed(void *opaque
)
1149 struct kvm_nested_state
*nested_state
= opaque
;
1152 * HF_GUEST_MASK and HF2_GIF_MASK are already serialized
1153 * via hflags and hflags2, all that's left is the opaque
1154 * nested state blob.
1156 return (nested_state
->format
== KVM_STATE_NESTED_FORMAT_SVM
&&
1157 nested_state
->size
> offsetof(struct kvm_nested_state
, data
));
1160 static const VMStateDescription vmstate_svm_nested_state
= {
1161 .name
= "cpu/kvm_nested_state/svm",
1163 .minimum_version_id
= 1,
1164 .needed
= svm_nested_state_needed
,
1165 .fields
= (VMStateField
[]) {
1166 VMSTATE_U64(hdr
.svm
.vmcb_pa
, struct kvm_nested_state
),
1167 VMSTATE_UINT8_ARRAY(data
.svm
[0].vmcb12
,
1168 struct kvm_nested_state
,
1169 KVM_STATE_NESTED_SVM_VMCB_SIZE
),
1170 VMSTATE_END_OF_LIST()
1174 static bool nested_state_needed(void *opaque
)
1176 X86CPU
*cpu
= opaque
;
1177 CPUX86State
*env
= &cpu
->env
;
1179 return (env
->nested_state
&&
1180 (vmx_nested_state_needed(env
->nested_state
) ||
1181 svm_nested_state_needed(env
->nested_state
)));
1184 static int nested_state_post_load(void *opaque
, int version_id
)
1186 X86CPU
*cpu
= opaque
;
1187 CPUX86State
*env
= &cpu
->env
;
1188 struct kvm_nested_state
*nested_state
= env
->nested_state
;
1189 int min_nested_state_len
= offsetof(struct kvm_nested_state
, data
);
1190 int max_nested_state_len
= kvm_max_nested_state_length();
1193 * If our kernel don't support setting nested state
1194 * and we have received nested state from migration stream,
1195 * we need to fail migration
1197 if (max_nested_state_len
<= 0) {
1198 error_report("Received nested state when kernel cannot restore it");
1203 * Verify that the size of received nested_state struct
1204 * at least cover required header and is not larger
1205 * than the max size that our kernel support
1207 if (nested_state
->size
< min_nested_state_len
) {
1208 error_report("Received nested state size less than min: "
1210 nested_state
->size
, min_nested_state_len
);
1213 if (nested_state
->size
> max_nested_state_len
) {
1214 error_report("Received unsupported nested state size: "
1215 "nested_state->size=%d, max=%d",
1216 nested_state
->size
, max_nested_state_len
);
1220 /* Verify format is valid */
1221 if ((nested_state
->format
!= KVM_STATE_NESTED_FORMAT_VMX
) &&
1222 (nested_state
->format
!= KVM_STATE_NESTED_FORMAT_SVM
)) {
1223 error_report("Received invalid nested state format: %d",
1224 nested_state
->format
);
1231 static const VMStateDescription vmstate_kvm_nested_state
= {
1232 .name
= "cpu/kvm_nested_state",
1234 .minimum_version_id
= 1,
1235 .fields
= (VMStateField
[]) {
1236 VMSTATE_U16(flags
, struct kvm_nested_state
),
1237 VMSTATE_U16(format
, struct kvm_nested_state
),
1238 VMSTATE_U32(size
, struct kvm_nested_state
),
1239 VMSTATE_END_OF_LIST()
1241 .subsections
= (const VMStateDescription
*[]) {
1242 &vmstate_vmx_nested_state
,
1243 &vmstate_svm_nested_state
,
1248 static const VMStateDescription vmstate_nested_state
= {
1249 .name
= "cpu/nested_state",
1251 .minimum_version_id
= 1,
1252 .needed
= nested_state_needed
,
1253 .post_load
= nested_state_post_load
,
1254 .fields
= (VMStateField
[]) {
1255 VMSTATE_STRUCT_POINTER(env
.nested_state
, X86CPU
,
1256 vmstate_kvm_nested_state
,
1257 struct kvm_nested_state
),
1258 VMSTATE_END_OF_LIST()
1262 static bool xen_vcpu_needed(void *opaque
)
1264 return (xen_mode
== XEN_EMULATE
);
1267 static const VMStateDescription vmstate_xen_vcpu
= {
1268 .name
= "cpu/xen_vcpu",
1270 .minimum_version_id
= 1,
1271 .needed
= xen_vcpu_needed
,
1272 .fields
= (VMStateField
[]) {
1273 VMSTATE_UINT64(env
.xen_vcpu_info_gpa
, X86CPU
),
1274 VMSTATE_UINT64(env
.xen_vcpu_info_default_gpa
, X86CPU
),
1275 VMSTATE_UINT64(env
.xen_vcpu_time_info_gpa
, X86CPU
),
1276 VMSTATE_UINT64(env
.xen_vcpu_runstate_gpa
, X86CPU
),
1277 VMSTATE_UINT8(env
.xen_vcpu_callback_vector
, X86CPU
),
1278 VMSTATE_UINT16_ARRAY(env
.xen_virq
, X86CPU
, XEN_NR_VIRQS
),
1279 VMSTATE_UINT64(env
.xen_singleshot_timer_ns
, X86CPU
),
1280 VMSTATE_UINT64(env
.xen_periodic_timer_period
, X86CPU
),
1281 VMSTATE_END_OF_LIST()
1286 static bool mcg_ext_ctl_needed(void *opaque
)
1288 X86CPU
*cpu
= opaque
;
1289 CPUX86State
*env
= &cpu
->env
;
1290 return cpu
->enable_lmce
&& env
->mcg_ext_ctl
;
1293 static const VMStateDescription vmstate_mcg_ext_ctl
= {
1294 .name
= "cpu/mcg_ext_ctl",
1296 .minimum_version_id
= 1,
1297 .needed
= mcg_ext_ctl_needed
,
1298 .fields
= (VMStateField
[]) {
1299 VMSTATE_UINT64(env
.mcg_ext_ctl
, X86CPU
),
1300 VMSTATE_END_OF_LIST()
1304 static bool spec_ctrl_needed(void *opaque
)
1306 X86CPU
*cpu
= opaque
;
1307 CPUX86State
*env
= &cpu
->env
;
1309 return env
->spec_ctrl
!= 0;
1312 static const VMStateDescription vmstate_spec_ctrl
= {
1313 .name
= "cpu/spec_ctrl",
1315 .minimum_version_id
= 1,
1316 .needed
= spec_ctrl_needed
,
1317 .fields
= (VMStateField
[]){
1318 VMSTATE_UINT64(env
.spec_ctrl
, X86CPU
),
1319 VMSTATE_END_OF_LIST()
1324 static bool amd_tsc_scale_msr_needed(void *opaque
)
1326 X86CPU
*cpu
= opaque
;
1327 CPUX86State
*env
= &cpu
->env
;
1329 return (env
->features
[FEAT_SVM
] & CPUID_SVM_TSCSCALE
);
1332 static const VMStateDescription amd_tsc_scale_msr_ctrl
= {
1333 .name
= "cpu/amd_tsc_scale_msr",
1335 .minimum_version_id
= 1,
1336 .needed
= amd_tsc_scale_msr_needed
,
1337 .fields
= (VMStateField
[]){
1338 VMSTATE_UINT64(env
.amd_tsc_scale_msr
, X86CPU
),
1339 VMSTATE_END_OF_LIST()
1344 static bool intel_pt_enable_needed(void *opaque
)
1346 X86CPU
*cpu
= opaque
;
1347 CPUX86State
*env
= &cpu
->env
;
1350 if (env
->msr_rtit_ctrl
|| env
->msr_rtit_status
||
1351 env
->msr_rtit_output_base
|| env
->msr_rtit_output_mask
||
1352 env
->msr_rtit_cr3_match
) {
1356 for (i
= 0; i
< MAX_RTIT_ADDRS
; i
++) {
1357 if (env
->msr_rtit_addrs
[i
]) {
1365 static const VMStateDescription vmstate_msr_intel_pt
= {
1366 .name
= "cpu/intel_pt",
1368 .minimum_version_id
= 1,
1369 .needed
= intel_pt_enable_needed
,
1370 .fields
= (VMStateField
[]) {
1371 VMSTATE_UINT64(env
.msr_rtit_ctrl
, X86CPU
),
1372 VMSTATE_UINT64(env
.msr_rtit_status
, X86CPU
),
1373 VMSTATE_UINT64(env
.msr_rtit_output_base
, X86CPU
),
1374 VMSTATE_UINT64(env
.msr_rtit_output_mask
, X86CPU
),
1375 VMSTATE_UINT64(env
.msr_rtit_cr3_match
, X86CPU
),
1376 VMSTATE_UINT64_ARRAY(env
.msr_rtit_addrs
, X86CPU
, MAX_RTIT_ADDRS
),
1377 VMSTATE_END_OF_LIST()
1381 static bool virt_ssbd_needed(void *opaque
)
1383 X86CPU
*cpu
= opaque
;
1384 CPUX86State
*env
= &cpu
->env
;
1386 return env
->virt_ssbd
!= 0;
1389 static const VMStateDescription vmstate_msr_virt_ssbd
= {
1390 .name
= "cpu/virt_ssbd",
1392 .minimum_version_id
= 1,
1393 .needed
= virt_ssbd_needed
,
1394 .fields
= (VMStateField
[]){
1395 VMSTATE_UINT64(env
.virt_ssbd
, X86CPU
),
1396 VMSTATE_END_OF_LIST()
1400 static bool svm_npt_needed(void *opaque
)
1402 X86CPU
*cpu
= opaque
;
1403 CPUX86State
*env
= &cpu
->env
;
1405 return !!(env
->hflags2
& HF2_NPT_MASK
);
1408 static const VMStateDescription vmstate_svm_npt
= {
1409 .name
= "cpu/svn_npt",
1411 .minimum_version_id
= 1,
1412 .needed
= svm_npt_needed
,
1413 .fields
= (VMStateField
[]){
1414 VMSTATE_UINT64(env
.nested_cr3
, X86CPU
),
1415 VMSTATE_UINT32(env
.nested_pg_mode
, X86CPU
),
1416 VMSTATE_END_OF_LIST()
1420 static bool svm_guest_needed(void *opaque
)
1422 X86CPU
*cpu
= opaque
;
1423 CPUX86State
*env
= &cpu
->env
;
1425 return tcg_enabled() && env
->int_ctl
;
1428 static const VMStateDescription vmstate_svm_guest
= {
1429 .name
= "cpu/svm_guest",
1431 .minimum_version_id
= 1,
1432 .needed
= svm_guest_needed
,
1433 .fields
= (VMStateField
[]){
1434 VMSTATE_UINT32(env
.int_ctl
, X86CPU
),
1435 VMSTATE_END_OF_LIST()
1439 #ifndef TARGET_X86_64
1440 static bool intel_efer32_needed(void *opaque
)
1442 X86CPU
*cpu
= opaque
;
1443 CPUX86State
*env
= &cpu
->env
;
1445 return env
->efer
!= 0;
1448 static const VMStateDescription vmstate_efer32
= {
1449 .name
= "cpu/efer32",
1451 .minimum_version_id
= 1,
1452 .needed
= intel_efer32_needed
,
1453 .fields
= (VMStateField
[]) {
1454 VMSTATE_UINT64(env
.efer
, X86CPU
),
1455 VMSTATE_END_OF_LIST()
1460 static bool msr_tsx_ctrl_needed(void *opaque
)
1462 X86CPU
*cpu
= opaque
;
1463 CPUX86State
*env
= &cpu
->env
;
1465 return env
->features
[FEAT_ARCH_CAPABILITIES
] & ARCH_CAP_TSX_CTRL_MSR
;
1468 static const VMStateDescription vmstate_msr_tsx_ctrl
= {
1469 .name
= "cpu/msr_tsx_ctrl",
1471 .minimum_version_id
= 1,
1472 .needed
= msr_tsx_ctrl_needed
,
1473 .fields
= (VMStateField
[]) {
1474 VMSTATE_UINT32(env
.tsx_ctrl
, X86CPU
),
1475 VMSTATE_END_OF_LIST()
1479 static bool intel_sgx_msrs_needed(void *opaque
)
1481 X86CPU
*cpu
= opaque
;
1482 CPUX86State
*env
= &cpu
->env
;
1484 return !!(env
->features
[FEAT_7_0_ECX
] & CPUID_7_0_ECX_SGX_LC
);
1487 static const VMStateDescription vmstate_msr_intel_sgx
= {
1488 .name
= "cpu/intel_sgx",
1490 .minimum_version_id
= 1,
1491 .needed
= intel_sgx_msrs_needed
,
1492 .fields
= (VMStateField
[]) {
1493 VMSTATE_UINT64_ARRAY(env
.msr_ia32_sgxlepubkeyhash
, X86CPU
, 4),
1494 VMSTATE_END_OF_LIST()
1498 static bool pdptrs_needed(void *opaque
)
1500 X86CPU
*cpu
= opaque
;
1501 CPUX86State
*env
= &cpu
->env
;
1502 return env
->pdptrs_valid
;
1505 static int pdptrs_post_load(void *opaque
, int version_id
)
1507 X86CPU
*cpu
= opaque
;
1508 CPUX86State
*env
= &cpu
->env
;
1509 env
->pdptrs_valid
= true;
1514 static const VMStateDescription vmstate_pdptrs
= {
1515 .name
= "cpu/pdptrs",
1517 .minimum_version_id
= 1,
1518 .needed
= pdptrs_needed
,
1519 .post_load
= pdptrs_post_load
,
1520 .fields
= (VMStateField
[]) {
1521 VMSTATE_UINT64_ARRAY(env
.pdptrs
, X86CPU
, 4),
1522 VMSTATE_END_OF_LIST()
1526 static bool xfd_msrs_needed(void *opaque
)
1528 X86CPU
*cpu
= opaque
;
1529 CPUX86State
*env
= &cpu
->env
;
1531 return !!(env
->features
[FEAT_XSAVE
] & CPUID_D_1_EAX_XFD
);
1534 static const VMStateDescription vmstate_msr_xfd
= {
1535 .name
= "cpu/msr_xfd",
1537 .minimum_version_id
= 1,
1538 .needed
= xfd_msrs_needed
,
1539 .fields
= (VMStateField
[]) {
1540 VMSTATE_UINT64(env
.msr_xfd
, X86CPU
),
1541 VMSTATE_UINT64(env
.msr_xfd_err
, X86CPU
),
1542 VMSTATE_END_OF_LIST()
1546 #ifdef TARGET_X86_64
1547 static bool amx_xtile_needed(void *opaque
)
1549 X86CPU
*cpu
= opaque
;
1550 CPUX86State
*env
= &cpu
->env
;
1552 return !!(env
->features
[FEAT_7_0_EDX
] & CPUID_7_0_EDX_AMX_TILE
);
1555 static const VMStateDescription vmstate_amx_xtile
= {
1556 .name
= "cpu/intel_amx_xtile",
1558 .minimum_version_id
= 1,
1559 .needed
= amx_xtile_needed
,
1560 .fields
= (VMStateField
[]) {
1561 VMSTATE_UINT8_ARRAY(env
.xtilecfg
, X86CPU
, 64),
1562 VMSTATE_UINT8_ARRAY(env
.xtiledata
, X86CPU
, 8192),
1563 VMSTATE_END_OF_LIST()
1568 static bool arch_lbr_needed(void *opaque
)
1570 X86CPU
*cpu
= opaque
;
1571 CPUX86State
*env
= &cpu
->env
;
1573 return !!(env
->features
[FEAT_7_0_EDX
] & CPUID_7_0_EDX_ARCH_LBR
);
1576 static const VMStateDescription vmstate_arch_lbr
= {
1577 .name
= "cpu/arch_lbr",
1579 .minimum_version_id
= 1,
1580 .needed
= arch_lbr_needed
,
1581 .fields
= (VMStateField
[]) {
1582 VMSTATE_UINT64(env
.msr_lbr_ctl
, X86CPU
),
1583 VMSTATE_UINT64(env
.msr_lbr_depth
, X86CPU
),
1584 VMSTATE_LBR_VARS(env
.lbr_records
, X86CPU
, ARCH_LBR_NR_ENTRIES
, 1),
1585 VMSTATE_END_OF_LIST()
1589 static bool triple_fault_needed(void *opaque
)
1591 X86CPU
*cpu
= opaque
;
1592 CPUX86State
*env
= &cpu
->env
;
1594 return env
->triple_fault_pending
;
1597 static const VMStateDescription vmstate_triple_fault
= {
1598 .name
= "cpu/triple_fault",
1600 .minimum_version_id
= 1,
1601 .needed
= triple_fault_needed
,
1602 .fields
= (VMStateField
[]) {
1603 VMSTATE_UINT8(env
.triple_fault_pending
, X86CPU
),
1604 VMSTATE_END_OF_LIST()
1608 const VMStateDescription vmstate_x86_cpu
= {
1611 .minimum_version_id
= 11,
1612 .pre_save
= cpu_pre_save
,
1613 .post_load
= cpu_post_load
,
1614 .fields
= (VMStateField
[]) {
1615 VMSTATE_UINTTL_ARRAY(env
.regs
, X86CPU
, CPU_NB_REGS
),
1616 VMSTATE_UINTTL(env
.eip
, X86CPU
),
1617 VMSTATE_UINTTL(env
.eflags
, X86CPU
),
1618 VMSTATE_UINT32(env
.hflags
, X86CPU
),
1620 VMSTATE_UINT16(env
.fpuc
, X86CPU
),
1621 VMSTATE_UINT16(env
.fpus_vmstate
, X86CPU
),
1622 VMSTATE_UINT16(env
.fptag_vmstate
, X86CPU
),
1623 VMSTATE_UINT16(env
.fpregs_format_vmstate
, X86CPU
),
1625 VMSTATE_STRUCT_ARRAY(env
.fpregs
, X86CPU
, 8, 0, vmstate_fpreg
, FPReg
),
1627 VMSTATE_SEGMENT_ARRAY(env
.segs
, X86CPU
, 6),
1628 VMSTATE_SEGMENT(env
.ldt
, X86CPU
),
1629 VMSTATE_SEGMENT(env
.tr
, X86CPU
),
1630 VMSTATE_SEGMENT(env
.gdt
, X86CPU
),
1631 VMSTATE_SEGMENT(env
.idt
, X86CPU
),
1633 VMSTATE_UINT32(env
.sysenter_cs
, X86CPU
),
1634 VMSTATE_UINTTL(env
.sysenter_esp
, X86CPU
),
1635 VMSTATE_UINTTL(env
.sysenter_eip
, X86CPU
),
1637 VMSTATE_UINTTL(env
.cr
[0], X86CPU
),
1638 VMSTATE_UINTTL(env
.cr
[2], X86CPU
),
1639 VMSTATE_UINTTL(env
.cr
[3], X86CPU
),
1640 VMSTATE_UINTTL(env
.cr
[4], X86CPU
),
1641 VMSTATE_UINTTL_ARRAY(env
.dr
, X86CPU
, 8),
1643 VMSTATE_INT32(env
.a20_mask
, X86CPU
),
1645 VMSTATE_UINT32(env
.mxcsr
, X86CPU
),
1646 VMSTATE_XMM_REGS(env
.xmm_regs
, X86CPU
, 0),
1648 #ifdef TARGET_X86_64
1649 VMSTATE_UINT64(env
.efer
, X86CPU
),
1650 VMSTATE_UINT64(env
.star
, X86CPU
),
1651 VMSTATE_UINT64(env
.lstar
, X86CPU
),
1652 VMSTATE_UINT64(env
.cstar
, X86CPU
),
1653 VMSTATE_UINT64(env
.fmask
, X86CPU
),
1654 VMSTATE_UINT64(env
.kernelgsbase
, X86CPU
),
1656 VMSTATE_UINT32(env
.smbase
, X86CPU
),
1658 VMSTATE_UINT64(env
.pat
, X86CPU
),
1659 VMSTATE_UINT32(env
.hflags2
, X86CPU
),
1661 VMSTATE_UINT64(env
.vm_hsave
, X86CPU
),
1662 VMSTATE_UINT64(env
.vm_vmcb
, X86CPU
),
1663 VMSTATE_UINT64(env
.tsc_offset
, X86CPU
),
1664 VMSTATE_UINT64(env
.intercept
, X86CPU
),
1665 VMSTATE_UINT16(env
.intercept_cr_read
, X86CPU
),
1666 VMSTATE_UINT16(env
.intercept_cr_write
, X86CPU
),
1667 VMSTATE_UINT16(env
.intercept_dr_read
, X86CPU
),
1668 VMSTATE_UINT16(env
.intercept_dr_write
, X86CPU
),
1669 VMSTATE_UINT32(env
.intercept_exceptions
, X86CPU
),
1670 VMSTATE_UINT8(env
.v_tpr
, X86CPU
),
1672 VMSTATE_UINT64_ARRAY(env
.mtrr_fixed
, X86CPU
, 11),
1673 VMSTATE_UINT64(env
.mtrr_deftype
, X86CPU
),
1674 VMSTATE_MTRR_VARS(env
.mtrr_var
, X86CPU
, MSR_MTRRcap_VCNT
, 8),
1675 /* KVM-related states */
1676 VMSTATE_INT32(env
.interrupt_injected
, X86CPU
),
1677 VMSTATE_UINT32(env
.mp_state
, X86CPU
),
1678 VMSTATE_UINT64(env
.tsc
, X86CPU
),
1679 VMSTATE_INT32(env
.exception_nr
, X86CPU
),
1680 VMSTATE_UINT8(env
.soft_interrupt
, X86CPU
),
1681 VMSTATE_UINT8(env
.nmi_injected
, X86CPU
),
1682 VMSTATE_UINT8(env
.nmi_pending
, X86CPU
),
1683 VMSTATE_UINT8(env
.has_error_code
, X86CPU
),
1684 VMSTATE_UINT32(env
.sipi_vector
, X86CPU
),
1686 VMSTATE_UINT64(env
.mcg_cap
, X86CPU
),
1687 VMSTATE_UINT64(env
.mcg_status
, X86CPU
),
1688 VMSTATE_UINT64(env
.mcg_ctl
, X86CPU
),
1689 VMSTATE_UINT64_ARRAY(env
.mce_banks
, X86CPU
, MCE_BANKS_DEF
* 4),
1691 VMSTATE_UINT64(env
.tsc_aux
, X86CPU
),
1692 /* KVM pvclock msr */
1693 VMSTATE_UINT64(env
.system_time_msr
, X86CPU
),
1694 VMSTATE_UINT64(env
.wall_clock_msr
, X86CPU
),
1695 /* XSAVE related fields */
1696 VMSTATE_UINT64_V(env
.xcr0
, X86CPU
, 12),
1697 VMSTATE_UINT64_V(env
.xstate_bv
, X86CPU
, 12),
1698 VMSTATE_YMMH_REGS_VARS(env
.xmm_regs
, X86CPU
, 0, 12),
1699 VMSTATE_END_OF_LIST()
1700 /* The above list is not sorted /wrt version numbers, watch out! */
1702 .subsections
= (const VMStateDescription
*[]) {
1703 &vmstate_exception_info
,
1704 &vmstate_async_pf_msr
,
1705 &vmstate_async_pf_int_msr
,
1706 &vmstate_pv_eoi_msr
,
1707 &vmstate_steal_time_msr
,
1708 &vmstate_poll_control_msr
,
1709 &vmstate_fpop_ip_dp
,
1710 &vmstate_msr_tsc_adjust
,
1711 &vmstate_msr_tscdeadline
,
1712 &vmstate_msr_ia32_misc_enable
,
1713 &vmstate_msr_ia32_feature_control
,
1714 &vmstate_msr_architectural_pmu
,
1716 &vmstate_msr_hyperv_hypercall
,
1717 &vmstate_msr_hyperv_vapic
,
1718 &vmstate_msr_hyperv_time
,
1719 &vmstate_msr_hyperv_crash
,
1720 &vmstate_msr_hyperv_runtime
,
1721 &vmstate_msr_hyperv_synic
,
1722 &vmstate_msr_hyperv_stimer
,
1723 &vmstate_msr_hyperv_reenlightenment
,
1728 &vmstate_msr_smi_count
,
1732 &amd_tsc_scale_msr_ctrl
,
1733 &vmstate_mcg_ext_ctl
,
1734 &vmstate_msr_intel_pt
,
1735 &vmstate_msr_virt_ssbd
,
1738 #ifndef TARGET_X86_64
1742 &vmstate_nested_state
,
1745 &vmstate_msr_tsx_ctrl
,
1746 &vmstate_msr_intel_sgx
,
1749 #ifdef TARGET_X86_64
1753 &vmstate_triple_fault
,