Re: [PATCH] mm/gup: continue VM_FAULT_RETRY processing event for pre-faults

From: Andrea Arcangeli
Date: Sat Jun 22 2019 - 13:51:46 EST


Hello everyone,

On Wed, May 22, 2019 at 02:18:03PM -0700, Andrew Morton wrote:
> > arch/x86/kernel/fpu/signal.c:198:8-31: -> gup with !pages

This simply had not to return -EFAULT if ret < nr_pages.. but ret >= 0.

Instead it did:

if (ret == nr_pages)
goto retry;
return -EFAULT;

That was the bug and the correct code would have been:

ret = get_user_pages_unlocked(pages=NULL)
if (ret < 0)
return -EFAULT;
goto retry;

This eventually should have worked fine but it was less efficient
because it's still acting in a full prefault mode and it just tells
GUP that pages = NULL and so all it is trying to do is to issue the
blocking I/O after the mmap_sem has been released already.

Overall the solution applied in commit
b81ff1013eb8eef2934ca7e8cf53d553c1029e84 looks nicer.

Alternatively it could have used down_read(); get_user_pages(); which
prevents get_user_pages to drop the mmap_sem and break the loop if
some blocking I/O had to be executed outside mmap_sem. But that would
have the side effect of breaking userfaultfd (uffd requires
gup_locked/unlocked and FAULT_FLAG_ALLOW_RETRY to be set in the fault
flags).

Eventually we need to allow VM_FAULT_RETRY to be returned even if
FOLL_TRIED is set, so in theory get_user_pages_unlocked(pages=NULL) in
a loop must eventually stop returning VM_FAULT_RETRY. FOLL_TRIED could
still disambiguate if VM_FAULT_RETRY should or should not be returned
so that it is only returned only if it cannnot be avoided
(i.e. userfaultfd case).

With gup_unlocked(pages=NULL) however all we are interested about is
to execute the blocking I/O and we don't care to map anything in the
pagetables. A later page fault has to happen anyway for sure because
pages was == NULL, it just needs to be a fast one.

> > arch/x86/mm/mpx.c:423:11-25: -> gup with !pages

Note that get_user_pages is never affected by whatever change after
the below, !locked check in gup_locked:

if (!locked)
/* VM_FAULT_RETRY couldn't trigger, bypass */
return ret;

The bypass means when locked is NULL, there is a 1:1 bypass from
__get_user_pages<->get_user_pages and the VM_FAULT_RETRY dance never
runs.

get_user_pages in fact can't support userfaultfd, which makes ptrace
and core dump and the hwpoison non blocking in VM_FAULT_RETRY.

All places that must support userfaultfd must use
get_user_pages_unlocked/locked or somehow end up with
FAULT_FLAG_ALLOW_RETRY set in the fault flags.

> > virt/kvm/async_pf.c:90:1-22: -> gup with !pages

Didn't this get slowed down with the commit
df17277b2a85c00f5710e33ce238ba4114687a28?

I mean it was a feature not a bug to skip that additional
__get_user_pages(FOLL_TRIED).

> > virt/kvm/kvm_main.c:1437:6-20: -> gup with !pages

Like for mpx.c get_user_pages is agnostic to all these gup_locked
changes because it sets locked = NULL, it couldn't break the loop
early because it couldn't return VM_FAULT_RETRY.

>
> OK.

Commit df17277b2a85c00f5710e33ce238ba4114687a28 is now applied.

So I think the effect it has is to make async_pf.c slower and we
didn't solve anything.

There are two __get_user_pages:

1) ret = __get_user_pages(tsk, mm, start, nr_pages, flags, pages,
vmas, locked);


if (called by get_user_pages)
return ret; /* bypass the whole VM_FAULT_RETRY logic */


*locked = 1;
lock_dropped = true;
down_read(&mm->mmap_sem);
2) ret = __get_user_pages(tsk, mm, start, 1, flags | FOLL_TRIED,
pages, NULL, NULL);


The problem introduced is that 2) is getting executed with pages==NULL
but there's no point to ever run 2) with pages = NULL.

async_pf especially uses nr_pages == 1, so it couldn't get any more
optimal than it already was.

Before df17277b2a85c00f5710e33ce238ba4114687a28 we broke the loop as
soon as the first __get_user_pages returned VM_FAULT_RETRY.

We can argue if we shouldn't have broken the loop and we should have
kept executing only the first __get_user_pages (marked "1)" above) for
the whole range, but nr_pages == 1 is common and in such case there's
no difference between the two behaviors.

The prefetch callers with nr_pages == 1, didn't even check the retval
at all:

down_read(&mm->mmap_sem);
get_user_pages_remote(NULL, mm, addr, 1, FOLL_WRITE, NULL, NULL,
&locked); ^^^^ pages NULL

// retval ignored

It should probably check for retval < 0... but the fault will be
retried for good later still with get_user_pages_unlocked() but with
pages != NULL, so it'll find out later if it's a segfault.

Now if we change the code to skip the second __get_user_pages it's not
clear if we can return nr_pages because we may still not have faulted
in the whole range in the pagetables. I guess we could still return
nr_pages even if we scanned the whole range with only the first of the
two __get_user_pages. However if you had mmu notifier registered in
the range nr_pages would have stronger semantics if you would execute
2) too, but then without pages array not-NULL such stronger semantics
cannot be taken advantage of anyway, because you don't know where
those pages are and you can't map them in a secondary MMU even if you
execute the line 2).

I personally preferred the older code which should at least in theory
run faster, it just required documentation that if "pages == NULL"
we'll break the loop early because it has to be a "prefetch" attempt
and it must be retried until nr_pages == ret.

Either that or add a "continue" to skip the second __get_user_pages in
line 2) above and then returning nr_pages to indicate VM_FAULT_RETRY
may very well have been returned on all page offsets in the virtual
range. That will behave the same for async_pf.c because nr_pages == 1.

When VM_FAULT_RETRY is returned all I/O should be complete (no matter
if network or disk with userfaultfd or just pagecache readpage on
filebacked kernel faults) and only a minor fault is required to obtain
the page. But it is better to defer that second minor fault to the
point where "pages" already become != NULL, so we end up calling
__get_user_pages 2 times instead of 3 times.

Thanks,
Andrea