Re: [PATCH] fs: fput() can be called from interrupt context
From: Andrew Morton
Date: Thu Mar 12 2009 - 01:51:16 EST
On Thu, 12 Mar 2009 06:18:26 +0100 Eric Dumazet <dada1@xxxxxxxxxxxxx> wrote:
> Eric Dumazet a __crit :
> > Eric Dumazet a __crit :
> >> Eric Dumazet a __crit :
> >>> Jeff Moyer a __crit :
> >>>> Avi Kivity <avi@xxxxxxxxxx> writes:
> >>>>
> >>>>> Jeff Moyer wrote:
> >>>>>> Hi,
> >>>>>>
> >>>>>> Believe it or not, I get numerous questions from customers about the
> >>>>>> suggested tuning value of aio-max-nr. aio-max-nr limits the total
> >>>>>> number of io events that can be reserved, system wide, for aio
> >>>>>> completions. Each time io_setup is called, a ring buffer is allocated
> >>>>>> that can hold nr_events I/O completions. That ring buffer is then
> >>>>>> mapped into the process' address space, and the pages are pinned in
> >>>>>> memory. So, the reason for this upper limit (I believe) is to keep a
> >>>>>> malicious user from pinning all of kernel memory. Now, this sounds like
> >>>>>> a much better job for the memlock rlimit to me, hence the following
> >>>>>> patch.
> >>>>>>
> >>>>> Is it not possible to get rid of the pinning entirely? Pinning
> >>>>> interferes with page migration which is important for NUMA, among
> >>>>> other issues.
> >>>> aio_complete is called from interrupt handlers, so can't block faulting
> >>>> in a page. Zach mentions there is a possibility of handing completions
> >>>> off to a kernel thread, with all of the performance worries and extra
> >>>> bookkeeping that go along with such a scheme (to help frame my concerns,
> >>>> I often get lambasted over .5% performance regressions).
> >>> This aio_completion from interrupt handlers keep us from using SLAB_DESTROY_BY_RCU
> >>> instead of call_rcu() for "struct file" freeing.
> >>>
> >>> http://lkml.org/lkml/2008/12/17/364
> >>>
> >>> I would love if we could get rid of this mess...
> >> Speaking of that, I tried to take a look at this aio stuff and have one question.
> >>
> >> Assuming that __fput() cannot be called from interrupt context.
> >> -> fput() should not be called from interrupt context as well.
> >>
> >> How comes we call fput(req->ki_eventfd) from really_put_req()
> >> from interrupt context ?
> >>
> >> If user program closes eventfd, then inflight AIO requests can trigger
> >> a bug.
> >>
> >
> > Path could be :
> >
> > 1) fput() changes so that calling it from interrupt context is possible
> > (Using a working queue to make sure __fput() is called from process context)
> >
> > 2) Changes aio to use fput() as is (and zap its internal work_queue and aio_fput_routine() stuff)
> >
> > 3) Once atomic_long_dec_and_test(&filp->f_count) only performed in fput(),
> > SLAB_DESTROY_BY_RCU for "struct file" get back :)
> >
>
> Please find first patch against linux-2.6
>
> Next patch (2) can cleanup aio code, but it probably can wait linux-2.6.30
>
> Thank you
>
> [PATCH] fs: fput() can be called from interrupt context
>
> Current aio/eventfd code can call fput() from interrupt context, which is
> not allowed.
The changelog forgot to tell us where this happens, and under what
circumstances.
See, there might be other ways of fixing the bug,
> In order to fix the problem and prepare SLAB_DESTROY_BY_RCU use for "struct file"
> allocation/freeing in 2.6.30, we might extend existing workqueue infrastructure and
> allow fput() to be called from interrupt context.
>
> This unfortunalty adds a pointer to 'struct file'.
>
> Signed-off-by: Eric Dumazet <dada1@xxxxxxxxxxxxx>
> ---
> fs/file.c | 55 ++++++++++++++++++++++++++------------
> fs/file_table.c | 10 +++++-
> include/linux/fdtable.h | 1
> include/linux/fs.h | 1
> 4 files changed, 49 insertions(+), 18 deletions(-)
which might not have some or all of the above problems.
I assume you're referring to really_put_req(), and commit
9c3060bedd84144653a2ad7bea32389f65598d40.
>From the above email straggle I extract "If user program closes
eventfd, then inflight AIO requests can trigger a bug" and I don't
immediately see anything in there which would prevent this.
Did you reproduce the bug, and confirm that the patch fixes it?
Are there simpler ways of fixing it? Maybe sneak a call to
wait_for_all_aios() into the right place? I doubt if it's performance
critical, as nobody seems to have ever hit the bug.
Bear in mind that if the bug _is_ real then it's now out there, and
we would like a fix which is usable by 2.6.<two-years-worth>.
etcetera..
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