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Re: [Xen-devel] [PATCH v10 03/11] x86/hvm: Introduce hvm_save_cpu_ctxt_one func



> -----Original Message-----
> From: Alexandru Isaila [mailto:aisaila@xxxxxxxxxxxxxxx]
> Sent: 04 July 2018 14:32
> To: xen-devel@xxxxxxxxxxxxx
> Cc: Ian Jackson <Ian.Jackson@xxxxxxxxxx>; Wei Liu <wei.liu2@xxxxxxxxxx>;
> jbeulich@xxxxxxxx; Andrew Cooper <Andrew.Cooper3@xxxxxxxxxx>; Paul
> Durrant <Paul.Durrant@xxxxxxxxxx>; Alexandru Isaila
> <aisaila@xxxxxxxxxxxxxxx>
> Subject: [PATCH v10 03/11] x86/hvm: Introduce hvm_save_cpu_ctxt_one
> func
> 
> This is used to save data from a single instance.
> 
> Signed-off-by: Alexandru Isaila <aisaila@xxxxxxxxxxxxxxx>

Reviewed-by: Paul Durrant <paul.durrant@xxxxxxxxxx>

> 
> ---
> Changes since V8:
>       - Change return of the save_one func to return hvm_save_entry
>       - Move continue out of on func
>       - Remove #define CONTINUE.
> ---
>  xen/arch/x86/hvm/hvm.c | 211 ++++++++++++++++++++++++++------------
> -----------
>  1 file changed, 110 insertions(+), 101 deletions(-)
> 
> diff --git a/xen/arch/x86/hvm/hvm.c b/xen/arch/x86/hvm/hvm.c
> index c47d162..c343ba8 100644
> --- a/xen/arch/x86/hvm/hvm.c
> +++ b/xen/arch/x86/hvm/hvm.c
> @@ -786,117 +786,126 @@ static int hvm_load_tsc_adjust(struct domain *d,
> hvm_domain_context_t *h)
>  HVM_REGISTER_SAVE_RESTORE(TSC_ADJUST, hvm_save_tsc_adjust,
>                            hvm_load_tsc_adjust, 1, HVMSR_PER_VCPU);
> 
> +static int hvm_save_cpu_ctxt_one(struct vcpu *v, hvm_domain_context_t
> *h)
> +{
> +    struct segment_register seg;
> +    struct hvm_hw_cpu ctxt;
> +
> +    memset(&ctxt, 0, sizeof(ctxt));
> +
> +    /* Architecture-specific vmcs/vmcb bits */
> +    hvm_funcs.save_cpu_ctxt(v, &ctxt);
> +
> +    ctxt.tsc = hvm_get_guest_tsc_fixed(v, v->domain-
> >arch.hvm_domain.sync_tsc);
> +
> +    ctxt.msr_tsc_aux = hvm_msr_tsc_aux(v);
> +
> +    hvm_get_segment_register(v, x86_seg_idtr, &seg);
> +    ctxt.idtr_limit = seg.limit;
> +    ctxt.idtr_base = seg.base;
> +
> +    hvm_get_segment_register(v, x86_seg_gdtr, &seg);
> +    ctxt.gdtr_limit = seg.limit;
> +    ctxt.gdtr_base = seg.base;
> +
> +    hvm_get_segment_register(v, x86_seg_cs, &seg);
> +    ctxt.cs_sel = seg.sel;
> +    ctxt.cs_limit = seg.limit;
> +    ctxt.cs_base = seg.base;
> +    ctxt.cs_arbytes = seg.attr;
> +
> +    hvm_get_segment_register(v, x86_seg_ds, &seg);
> +    ctxt.ds_sel = seg.sel;
> +    ctxt.ds_limit = seg.limit;
> +    ctxt.ds_base = seg.base;
> +    ctxt.ds_arbytes = seg.attr;
> +
> +    hvm_get_segment_register(v, x86_seg_es, &seg);
> +    ctxt.es_sel = seg.sel;
> +    ctxt.es_limit = seg.limit;
> +    ctxt.es_base = seg.base;
> +    ctxt.es_arbytes = seg.attr;
> +
> +    hvm_get_segment_register(v, x86_seg_ss, &seg);
> +    ctxt.ss_sel = seg.sel;
> +    ctxt.ss_limit = seg.limit;
> +    ctxt.ss_base = seg.base;
> +    ctxt.ss_arbytes = seg.attr;
> +
> +    hvm_get_segment_register(v, x86_seg_fs, &seg);
> +    ctxt.fs_sel = seg.sel;
> +    ctxt.fs_limit = seg.limit;
> +    ctxt.fs_base = seg.base;
> +    ctxt.fs_arbytes = seg.attr;
> +
> +    hvm_get_segment_register(v, x86_seg_gs, &seg);
> +    ctxt.gs_sel = seg.sel;
> +    ctxt.gs_limit = seg.limit;
> +    ctxt.gs_base = seg.base;
> +    ctxt.gs_arbytes = seg.attr;
> +
> +    hvm_get_segment_register(v, x86_seg_tr, &seg);
> +    ctxt.tr_sel = seg.sel;
> +    ctxt.tr_limit = seg.limit;
> +    ctxt.tr_base = seg.base;
> +    ctxt.tr_arbytes = seg.attr;
> +
> +    hvm_get_segment_register(v, x86_seg_ldtr, &seg);
> +    ctxt.ldtr_sel = seg.sel;
> +    ctxt.ldtr_limit = seg.limit;
> +    ctxt.ldtr_base = seg.base;
> +    ctxt.ldtr_arbytes = seg.attr;
> +
> +    if ( v->fpu_initialised )
> +    {
> +        memcpy(ctxt.fpu_regs, v->arch.fpu_ctxt, sizeof(ctxt.fpu_regs));
> +        ctxt.flags = XEN_X86_FPU_INITIALISED;
> +    }
> +
> +    ctxt.rax = v->arch.user_regs.rax;
> +    ctxt.rbx = v->arch.user_regs.rbx;
> +    ctxt.rcx = v->arch.user_regs.rcx;
> +    ctxt.rdx = v->arch.user_regs.rdx;
> +    ctxt.rbp = v->arch.user_regs.rbp;
> +    ctxt.rsi = v->arch.user_regs.rsi;
> +    ctxt.rdi = v->arch.user_regs.rdi;
> +    ctxt.rsp = v->arch.user_regs.rsp;
> +    ctxt.rip = v->arch.user_regs.rip;
> +    ctxt.rflags = v->arch.user_regs.rflags;
> +    ctxt.r8  = v->arch.user_regs.r8;
> +    ctxt.r9  = v->arch.user_regs.r9;
> +    ctxt.r10 = v->arch.user_regs.r10;
> +    ctxt.r11 = v->arch.user_regs.r11;
> +    ctxt.r12 = v->arch.user_regs.r12;
> +    ctxt.r13 = v->arch.user_regs.r13;
> +    ctxt.r14 = v->arch.user_regs.r14;
> +    ctxt.r15 = v->arch.user_regs.r15;
> +    ctxt.dr0 = v->arch.debugreg[0];
> +    ctxt.dr1 = v->arch.debugreg[1];
> +    ctxt.dr2 = v->arch.debugreg[2];
> +    ctxt.dr3 = v->arch.debugreg[3];
> +    ctxt.dr6 = v->arch.debugreg[6];
> +    ctxt.dr7 = v->arch.debugreg[7];
> +
> +    return hvm_save_entry(CPU, v->vcpu_id, h, &ctxt);
> +}
> +
>  static int hvm_save_cpu_ctxt(struct domain *d, hvm_domain_context_t *h)
>  {
>      struct vcpu *v;
> -    struct hvm_hw_cpu ctxt;
> -    struct segment_register seg;
> 
>      for_each_vcpu ( d, v )
>      {
> -        /* We don't need to save state for a vcpu that is down; the restore
> -         * code will leave it down if there is nothing saved. */
> +        /*
> +         * We don't need to save state for a vcpu that is down; the restore
> +         * code will leave it down if there is nothing saved.
> +         */
>          if ( v->pause_flags & VPF_down )
>              continue;
> 
> -        memset(&ctxt, 0, sizeof(ctxt));
> -
> -        /* Architecture-specific vmcs/vmcb bits */
> -        hvm_funcs.save_cpu_ctxt(v, &ctxt);
> -
> -        ctxt.tsc = hvm_get_guest_tsc_fixed(v, d->arch.hvm_domain.sync_tsc);
> -
> -        ctxt.msr_tsc_aux = hvm_msr_tsc_aux(v);
> -
> -        hvm_get_segment_register(v, x86_seg_idtr, &seg);
> -        ctxt.idtr_limit = seg.limit;
> -        ctxt.idtr_base = seg.base;
> -
> -        hvm_get_segment_register(v, x86_seg_gdtr, &seg);
> -        ctxt.gdtr_limit = seg.limit;
> -        ctxt.gdtr_base = seg.base;
> -
> -        hvm_get_segment_register(v, x86_seg_cs, &seg);
> -        ctxt.cs_sel = seg.sel;
> -        ctxt.cs_limit = seg.limit;
> -        ctxt.cs_base = seg.base;
> -        ctxt.cs_arbytes = seg.attr;
> -
> -        hvm_get_segment_register(v, x86_seg_ds, &seg);
> -        ctxt.ds_sel = seg.sel;
> -        ctxt.ds_limit = seg.limit;
> -        ctxt.ds_base = seg.base;
> -        ctxt.ds_arbytes = seg.attr;
> -
> -        hvm_get_segment_register(v, x86_seg_es, &seg);
> -        ctxt.es_sel = seg.sel;
> -        ctxt.es_limit = seg.limit;
> -        ctxt.es_base = seg.base;
> -        ctxt.es_arbytes = seg.attr;
> -
> -        hvm_get_segment_register(v, x86_seg_ss, &seg);
> -        ctxt.ss_sel = seg.sel;
> -        ctxt.ss_limit = seg.limit;
> -        ctxt.ss_base = seg.base;
> -        ctxt.ss_arbytes = seg.attr;
> -
> -        hvm_get_segment_register(v, x86_seg_fs, &seg);
> -        ctxt.fs_sel = seg.sel;
> -        ctxt.fs_limit = seg.limit;
> -        ctxt.fs_base = seg.base;
> -        ctxt.fs_arbytes = seg.attr;
> -
> -        hvm_get_segment_register(v, x86_seg_gs, &seg);
> -        ctxt.gs_sel = seg.sel;
> -        ctxt.gs_limit = seg.limit;
> -        ctxt.gs_base = seg.base;
> -        ctxt.gs_arbytes = seg.attr;
> -
> -        hvm_get_segment_register(v, x86_seg_tr, &seg);
> -        ctxt.tr_sel = seg.sel;
> -        ctxt.tr_limit = seg.limit;
> -        ctxt.tr_base = seg.base;
> -        ctxt.tr_arbytes = seg.attr;
> -
> -        hvm_get_segment_register(v, x86_seg_ldtr, &seg);
> -        ctxt.ldtr_sel = seg.sel;
> -        ctxt.ldtr_limit = seg.limit;
> -        ctxt.ldtr_base = seg.base;
> -        ctxt.ldtr_arbytes = seg.attr;
> -
> -        if ( v->fpu_initialised )
> -        {
> -            memcpy(ctxt.fpu_regs, v->arch.fpu_ctxt, sizeof(ctxt.fpu_regs));
> -            ctxt.flags = XEN_X86_FPU_INITIALISED;
> -        }
> 
> -        ctxt.rax = v->arch.user_regs.rax;
> -        ctxt.rbx = v->arch.user_regs.rbx;
> -        ctxt.rcx = v->arch.user_regs.rcx;
> -        ctxt.rdx = v->arch.user_regs.rdx;
> -        ctxt.rbp = v->arch.user_regs.rbp;
> -        ctxt.rsi = v->arch.user_regs.rsi;
> -        ctxt.rdi = v->arch.user_regs.rdi;
> -        ctxt.rsp = v->arch.user_regs.rsp;
> -        ctxt.rip = v->arch.user_regs.rip;
> -        ctxt.rflags = v->arch.user_regs.rflags;
> -        ctxt.r8  = v->arch.user_regs.r8;
> -        ctxt.r9  = v->arch.user_regs.r9;
> -        ctxt.r10 = v->arch.user_regs.r10;
> -        ctxt.r11 = v->arch.user_regs.r11;
> -        ctxt.r12 = v->arch.user_regs.r12;
> -        ctxt.r13 = v->arch.user_regs.r13;
> -        ctxt.r14 = v->arch.user_regs.r14;
> -        ctxt.r15 = v->arch.user_regs.r15;
> -        ctxt.dr0 = v->arch.debugreg[0];
> -        ctxt.dr1 = v->arch.debugreg[1];
> -        ctxt.dr2 = v->arch.debugreg[2];
> -        ctxt.dr3 = v->arch.debugreg[3];
> -        ctxt.dr6 = v->arch.debugreg[6];
> -        ctxt.dr7 = v->arch.debugreg[7];
> -
> -        if ( hvm_save_entry(CPU, v->vcpu_id, h, &ctxt) != 0 )
> -            return 1;
> +        if ( hvm_save_cpu_ctxt_one(v, h) != 0 )
> +            return 1;
>      }
>      return 0;
>  }
> --
> 2.7.4


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