When a domain is saved each VCPU's TSC value needs to be preserved. To get it we
use hvm_get_guest_tsc(). This routine (either itself or via get_s_time() which
it may call) calculates VCPU's TSC based on current host's TSC value (by doing a
rdtscll()). Since this is performed for each VCPU separately we end up with
un-synchronized TSCs.
Similarly, during a restore each VCPU is assigned its TSC based on host's current
tick, causing virtual TSCs to diverge further.
With this, we can easily get into situation where a guest may see time going
backwards.
Instead of reading new TSC value for each VCPU when saving/restoring it we should
use the same value across all VCPUs.
Reported-by: Philippe Coquard <philippe.coquard@mpsa.com>
Signed-off-by: Boris Ostrovsky <boris.ostrovsky@oracle.com>
Reviewed-by: Jan Beulich <jbeulich@suse.com>
return 1;
}
-void hvm_set_guest_tsc(struct vcpu *v, u64 guest_tsc)
+void hvm_set_guest_tsc_fixed(struct vcpu *v, u64 guest_tsc, u64 at_tsc)
{
uint64_t tsc;
uint64_t delta_tsc;
if ( v->domain->arch.vtsc )
{
- tsc = hvm_get_guest_time(v);
+ tsc = hvm_get_guest_time_fixed(v, at_tsc);
tsc = gtime_to_gtsc(v->domain, tsc);
}
+ else if ( at_tsc )
+ {
+ tsc = at_tsc;
+ }
else
{
rdtscll(tsc);
- v->arch.hvm_vcpu.cache_tsc_offset;
v->arch.hvm_vcpu.cache_tsc_offset = delta_tsc;
- hvm_funcs.set_tsc_offset(v, v->arch.hvm_vcpu.cache_tsc_offset, 0);
+ hvm_funcs.set_tsc_offset(v, v->arch.hvm_vcpu.cache_tsc_offset, at_tsc);
}
void hvm_set_guest_tsc_adjust(struct vcpu *v, u64 tsc_adjust)
/* Save guest's preferred TSC. */
hdr->gtsc_khz = d->arch.tsc_khz;
+
+ /* Time when saving started */
+ rdtscll(d->arch.hvm_domain.sync_tsc);
}
int arch_hvm_load(struct domain *d, struct hvm_save_header *hdr)
if ( d->arch.vtsc )
hvm_set_rdtsc_exiting(d, 1);
+ /* Time when restore started */
+ rdtscll(d->arch.hvm_domain.sync_tsc);
+
/* VGA state is not saved/restored, so we nobble the cache. */
d->arch.hvm_domain.stdvga.cache = 0;
data->msr_efer = v->arch.hvm_vcpu.guest_efer;
data->msr_flags = -1ULL;
- data->tsc = hvm_get_guest_tsc(v);
+ data->tsc = hvm_get_guest_tsc_fixed(v,
+ v->domain->arch.hvm_domain.sync_tsc);
}
v->arch.hvm_vcpu.guest_efer = data->msr_efer;
svm_update_guest_efer(v);
- hvm_set_guest_tsc(v, data->tsc);
+ hvm_set_guest_tsc_fixed(v, data->tsc, v->domain->arch.hvm_domain.sync_tsc);
}
static void svm_save_vmcb_ctxt(struct vcpu *v, struct hvm_hw_cpu *ctxt)
data->msr_star = guest_state->msrs[VMX_INDEX_MSR_STAR];
data->msr_syscall_mask = guest_state->msrs[VMX_INDEX_MSR_SYSCALL_MASK];
- data->tsc = hvm_get_guest_tsc(v);
+ data->tsc = hvm_get_guest_tsc_fixed(v,
+ v->domain->arch.hvm_domain.sync_tsc);
}
static void vmx_load_cpu_state(struct vcpu *v, struct hvm_hw_cpu *data)
v->arch.hvm_vmx.cstar = data->msr_cstar;
v->arch.hvm_vmx.shadow_gs = data->shadow_gs;
- hvm_set_guest_tsc(v, data->tsc);
+ hvm_set_guest_tsc_fixed(v, data->tsc, v->domain->arch.hvm_domain.sync_tsc);
}
void hvm_get_guest_pat(struct vcpu *v, u64 *guest_pat);
int hvm_set_guest_pat(struct vcpu *v, u64 guest_pat);
-void hvm_set_guest_tsc(struct vcpu *v, u64 guest_tsc);
+void hvm_set_guest_tsc_fixed(struct vcpu *v, u64 guest_tsc, u64 at_tsc);
+#define hvm_set_guest_tsc(v, t) hvm_set_guest_tsc_fixed(v, t, 0)
u64 hvm_get_guest_tsc_fixed(struct vcpu *v, u64 at_tsc);
#define hvm_get_guest_tsc(v) hvm_get_guest_tsc_fixed(v, 0)
projects / xen.git / commitdiff