[Date Prev][Date Next][Thread Prev][Thread Next][Date Index][Thread Index]

Re: [for-4.15][PATCH v3 3/3] xen/iommu: x86: Harden the IOMMU page-table allocator



On 18.02.2021 18:41, Julien Grall wrote:
> 
> 
> On 18/02/2021 17:04, Jan Beulich wrote:
>> On 18.02.2021 14:19, Julien Grall wrote:
>>>
>>>
>>> On 18/02/2021 13:10, Jan Beulich wrote:
>>>> On 17.02.2021 17:29, Julien Grall wrote:
>>>>> On 17/02/2021 15:13, Jan Beulich wrote:
>>>>>> On 17.02.2021 15:24, Julien Grall wrote:> --- 
>>>>>> a/xen/drivers/passthrough/x86/iommu.c> +++ 
>>>>>> b/xen/drivers/passthrough/x86/iommu.c> @@ -149,6 +149,13 @@ int 
>>>>>> arch_iommu_domain_init(struct domain *d)>  >  void 
>>>>>> arch_iommu_domain_destroy(struct domain *d)>  {> +    /*> +     * There 
>>>>>> should be not page-tables left allocated by the time the
>>>>>> Nit: s/not/no/ ?
>>>>>>
>>>>>>> +     * domain is destroyed. Note that arch_iommu_domain_destroy() is
>>>>>>> +     * called unconditionally, so pgtables may be unitialized.
>>>>>>> +     */
>>>>>>> +    ASSERT(dom_iommu(d)->platform_ops == NULL ||
>>>>>>> +           page_list_empty(&dom_iommu(d)->arch.pgtables.list));
>>>>>>>     }
>>>>>>>     
>>>>>>>     static bool __hwdom_init hwdom_iommu_map(const struct domain *d,
>>>>>>> @@ -279,6 +286,9 @@ int iommu_free_pgtables(struct domain *d)
>>>>>>>          */
>>>>>>>         hd->platform_ops->clear_root_pgtable(d);
>>>>>>>     
>>>>>>> +    /* After this barrier no new page allocations can occur. */
>>>>>>> +    spin_barrier(&hd->arch.pgtables.lock);
>>>>>>
>>>>>> Didn't patch 2 utilize the call to ->clear_root_pgtable() itself as
>>>>>> the barrier? Why introduce another one (with a similar comment)
>>>>>> explicitly now?
>>>>> The barriers act differently, one will get against any IOMMU page-tables
>>>>> modification. The other one will gate against allocation.
>>>>>
>>>>> There is no guarantee that the former will prevent the latter.
>>>>
>>>> Oh, right - different locks. I got confused here because in both
>>>> cases the goal is to prevent allocations.
>>>>
>>>>>>> @@ -315,9 +326,29 @@ struct page_info *iommu_alloc_pgtable(struct 
>>>>>>> domain *d)
>>>>>>>         unmap_domain_page(p);
>>>>>>>     
>>>>>>>         spin_lock(&hd->arch.pgtables.lock);
>>>>>>> -    page_list_add(pg, &hd->arch.pgtables.list);
>>>>>>> +    /*
>>>>>>> +     * The IOMMU page-tables are freed when relinquishing the domain, 
>>>>>>> but
>>>>>>> +     * nothing prevent allocation to happen afterwards. There is no 
>>>>>>> valid
>>>>>>> +     * reasons to continue to update the IOMMU page-tables while the
>>>>>>> +     * domain is dying.
>>>>>>> +     *
>>>>>>> +     * So prevent page-table allocation when the domain is dying.
>>>>>>> +     *
>>>>>>> +     * We relying on &hd->arch.pgtables.lock to synchronize 
>>>>>>> d->is_dying.
>>>>>>> +     */
>>>>>>> +    if ( likely(!d->is_dying) )
>>>>>>> +    {
>>>>>>> +        alive = true;
>>>>>>> +        page_list_add(pg, &hd->arch.pgtables.list);
>>>>>>> +    }
>>>>>>>         spin_unlock(&hd->arch.pgtables.lock);
>>>>>>>     
>>>>>>> +    if ( unlikely(!alive) )
>>>>>>> +    {
>>>>>>> +        free_domheap_page(pg);
>>>>>>> +        pg = NULL;
>>>>>>> +    }
>>>>>>> +
>>>>>>>         return pg;
>>>>>>>     }
>>>>>>
>>>>>> As before I'm concerned of this forcing error paths to be taken
>>>>>> elsewhere, in case an allocation still happens (e.g. from unmap
>>>>>> once super page mappings are supported). Considering some of the
>>>>>> error handling in the IOMMU code is to invoke domain_crash(), it
>>>>>> would be quite unfortunate if we ended up crashing a domain
>>>>>> while it is being cleaned up after.
>>>>>
>>>>> It is unfortunate, but I think this is better than having to leak page
>>>>> tables.
>>>>>
>>>>>>
>>>>>> Additionally, the (at present still hypothetical) unmap case, if
>>>>>> failing because of the change here, would then again chance to
>>>>>> leave mappings in place while the underlying pages get freed. As
>>>>>> this would likely require an XSA, the change doesn't feel like
>>>>>> "hardening" to me.
>>>>>
>>>>> I would agree with this if memory allocations could never fail. That's
>>>>> not that case and will become worse as we use IOMMU pool.
>>>>>
>>>>> Do you have callers in mind that doesn't check the returns of 
>>>>> iommu_unmap()?
>>>>
>>>> The function is marked __must_check, so there won't be any direct
>>>> callers ignoring errors (albeit I may be wrong here - we used to
>>>> have cases where we simply suppressed the resulting compiler
>>>> diagnostic, without really handling errors; not sure if all of
>>>> these are gone by now). Risks might be elsewhere.
>>>
>>> But this is not a new risk. So I don't understand why you think my patch
>>> is the one that may lead to an XSA in the future.
>>
>> I didn't mean to imply it would _lead_ to an XSA (you're
>> right that the problem was there already before), but the term
>> "harden" suggests to me that the patch aims at eliminating
>> possible conditions.
> 
> It elimitates the risk that someone inadvertently call 
> iommu_alloc_pgtable() when the domain is dying. If this is happening 
> after the page tables have been freed, then we would end up to leak memory.
> 
>> IOW the result here looks to me as if it
>> would yield a false sense of safety.
> 
> So you are concerned about the wording rather than the code itself. Is 
> that correct?

In a way, yes. First of all I'd like us to settle on what to do
with late unmap requests, for 4.15 (and if need be longer term).

Jan

> If so, how about "xen/iommu: Make the IOMMU page-table allocator 
> slightly firmer"?
> 
> Cheers,
> 




 


Rackspace

Lists.xenproject.org is hosted with RackSpace, monitoring our
servers 24x7x365 and backed by RackSpace's Fanatical Support®.