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[Date Prev][Date Next][Thread Prev][Thread Next][Date Index][Thread Index] Re: [Xen-devel] [PATCH v2-resend 22/30] libxl: ocaml: event management [and 1 more messages]
Rob Hoes writes ("RE: [Xen-devel] [PATCH v2-resend 22/30] libxl: ocaml: event
management [and 1 more messages]"):
> [Ian Jackson:]
> > I'm not sure how that would help. libxl already has a mutex which it takes
> > on entry, so all calls into libxl are already mututally exclusive.
> >
> > What would happen if your fd registration callback ocaml code tried to make
> > a libxl call ?
>
> Ok, what I said was not quite right. You are referring to the fact
> that libxl keeps hold of its lock in the fd registration callback. A
> possible deadlock scenario like the following may then occur:
>
> [diagram]
Exactly.
> The experts here have suggested that the common thing to do is to
> release the ocaml heap lock when calling libxl functions, and
> reaquire it when returning or calling back into ocaml. I tried to
> avoid this, because it complicates things, but it seems I have no
> choice now :)
That would be one way to do it. It's the way it's done in libvirt.
Other possibilities that come to mind are:
* Somehow ensure in the ocaml code that a thread processing a libxl
fd registration registration never calls any blocking C functions
which would drop the ocaml lock. I'm not sure how easy this would
be in ocaml.
* Have fd and timeout registrations put on a queue in the C code in
the ocaml bindings, and process them later with the ocaml lock
held. Although if you do this you need to make sure that the
queue is looked at before delivering any events, and you would
need a way to wake up your event loop in another thread to tell it
that there were fd/timeout registrations which it needs to deal
with.
* Use the beforepoll/afterpoll functions rather than the
registration machinery. This would be quite workable from a
performance point of view if each of your processes handles a
single domain (or only a few).
> In this case, the ocaml heap lock is never held together with the
> libxl lock, except in the registration callbacks. If we then promise
> to not call any libxl functions inside the callback, I think we can
> avoid deadlocks.
Yes.
> The picture becomes as follows:
> [diagram]
Yes, precisely.
> Does that sound right?
>
> How about event_occurs callback, and async callbacks? Is the situation the
> same?
The event occurs and async completion callbacks are made by libxl with
the libxl lock _released_. The libxl machinery queues them up
internally to make this possible. So they aren't affected by these
restrictions.
Ian.
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