Exemplo n.º 1
0
void vpmu_do_interrupt(struct cpu_user_regs *regs)
{
    struct vcpu *v = current;
    struct vpmu_struct *vpmu = vcpu_vpmu(v);

    if ( vpmu->arch_vpmu_ops )
    {
        struct vlapic *vlapic = vcpu_vlapic(v);
        u32 vlapic_lvtpc;

        if ( !vpmu->arch_vpmu_ops->do_interrupt(regs) ||
             !is_vlapic_lvtpc_enabled(vlapic) )
            return;

        vlapic_lvtpc = vlapic_get_reg(vlapic, APIC_LVTPC);

        switch ( GET_APIC_DELIVERY_MODE(vlapic_lvtpc) )
        {
        case APIC_MODE_FIXED:
            vlapic_set_irq(vlapic, vlapic_lvtpc & APIC_VECTOR_MASK, 0);
            break;
        case APIC_MODE_NMI:
            v->nmi_pending = 1;
            break;
        }
    }
}
Exemplo n.º 2
0
Arquivo: vpmu.c Projeto: Fantu/Xen
void vpmu_do_interrupt(struct cpu_user_regs *regs)
{
    struct vcpu *sampled = current, *sampling;
    struct vpmu_struct *vpmu;
    struct vlapic *vlapic;
    u32 vlapic_lvtpc;

    /*
     * dom0 will handle interrupt for special domains (e.g. idle domain) or,
     * in XENPMU_MODE_ALL, for everyone.
     */
    if ( (vpmu_mode & XENPMU_MODE_ALL) ||
         (sampled->domain->domain_id >= DOMID_FIRST_RESERVED) )
    {
        sampling = choose_hwdom_vcpu();
        if ( !sampling )
            return;
    }
    else
        sampling = sampled;

    vpmu = vcpu_vpmu(sampling);
    if ( !vpmu->arch_vpmu_ops )
        return;

    /* PV(H) guest */
    if ( !is_hvm_vcpu(sampling) || (vpmu_mode & XENPMU_MODE_ALL) )
    {
        const struct cpu_user_regs *cur_regs;
        uint64_t *flags = &vpmu->xenpmu_data->pmu.pmu_flags;
        domid_t domid;

        if ( !vpmu->xenpmu_data )
            return;

        if ( is_pvh_vcpu(sampling) &&
             !(vpmu_mode & XENPMU_MODE_ALL) &&
             !vpmu->arch_vpmu_ops->do_interrupt(regs) )
            return;

        if ( vpmu_is_set(vpmu, VPMU_CACHED) )
            return;

        /* PV guest will be reading PMU MSRs from xenpmu_data */
        vpmu_set(vpmu, VPMU_CONTEXT_SAVE | VPMU_CONTEXT_LOADED);
        vpmu->arch_vpmu_ops->arch_vpmu_save(sampling, 1);
        vpmu_reset(vpmu, VPMU_CONTEXT_SAVE | VPMU_CONTEXT_LOADED);

        if ( has_hvm_container_vcpu(sampled) )
            *flags = 0;
        else
            *flags = PMU_SAMPLE_PV;

        if ( sampled == sampling )
            domid = DOMID_SELF;
        else
            domid = sampled->domain->domain_id;

        /* Store appropriate registers in xenpmu_data */
        /* FIXME: 32-bit PVH should go here as well */
        if ( is_pv_32bit_vcpu(sampling) )
        {
            /*
             * 32-bit dom0 cannot process Xen's addresses (which are 64 bit)
             * and therefore we treat it the same way as a non-privileged
             * PV 32-bit domain.
             */
            struct compat_pmu_regs *cmp;

            cur_regs = guest_cpu_user_regs();

            cmp = (void *)&vpmu->xenpmu_data->pmu.r.regs;
            cmp->ip = cur_regs->rip;
            cmp->sp = cur_regs->rsp;
            cmp->flags = cur_regs->eflags;
            cmp->ss = cur_regs->ss;
            cmp->cs = cur_regs->cs;
            if ( (cmp->cs & 3) > 1 )
                *flags |= PMU_SAMPLE_USER;
        }
        else
        {
            struct xen_pmu_regs *r = &vpmu->xenpmu_data->pmu.r.regs;

            if ( (vpmu_mode & XENPMU_MODE_SELF) )
                cur_regs = guest_cpu_user_regs();
            else if ( !guest_mode(regs) &&
                      is_hardware_domain(sampling->domain) )
            {
                cur_regs = regs;
                domid = DOMID_XEN;
            }
            else
                cur_regs = guest_cpu_user_regs();

            r->ip = cur_regs->rip;
            r->sp = cur_regs->rsp;
            r->flags = cur_regs->eflags;

            if ( !has_hvm_container_vcpu(sampled) )
            {
                r->ss = cur_regs->ss;
                r->cs = cur_regs->cs;
                if ( !(sampled->arch.flags & TF_kernel_mode) )
                    *flags |= PMU_SAMPLE_USER;
            }
            else
            {
                struct segment_register seg;

                hvm_get_segment_register(sampled, x86_seg_cs, &seg);
                r->cs = seg.sel;
                hvm_get_segment_register(sampled, x86_seg_ss, &seg);
                r->ss = seg.sel;
                r->cpl = seg.attr.fields.dpl;
                if ( !(sampled->arch.hvm_vcpu.guest_cr[0] & X86_CR0_PE) )
                    *flags |= PMU_SAMPLE_REAL;
            }
        }

        vpmu->xenpmu_data->domain_id = domid;
        vpmu->xenpmu_data->vcpu_id = sampled->vcpu_id;
        if ( is_hardware_domain(sampling->domain) )
            vpmu->xenpmu_data->pcpu_id = smp_processor_id();
        else
            vpmu->xenpmu_data->pcpu_id = sampled->vcpu_id;

        vpmu->hw_lapic_lvtpc |= APIC_LVT_MASKED;
        apic_write(APIC_LVTPC, vpmu->hw_lapic_lvtpc);
        *flags |= PMU_CACHED;
        vpmu_set(vpmu, VPMU_CACHED);

        send_guest_vcpu_virq(sampling, VIRQ_XENPMU);

        return;
    }

    /* HVM guests */
    vlapic = vcpu_vlapic(sampling);

    /* We don't support (yet) HVM dom0 */
    ASSERT(sampling == sampled);

    if ( !vpmu->arch_vpmu_ops->do_interrupt(regs) ||
         !is_vlapic_lvtpc_enabled(vlapic) )
        return;

    vlapic_lvtpc = vlapic_get_reg(vlapic, APIC_LVTPC);

    switch ( GET_APIC_DELIVERY_MODE(vlapic_lvtpc) )
    {
    case APIC_MODE_FIXED:
        vlapic_set_irq(vlapic, vlapic_lvtpc & APIC_VECTOR_MASK, 0);
        break;
    case APIC_MODE_NMI:
        sampling->nmi_pending = 1;
        break;
    }
}