[PATCH RFC tip/core/rcu 0/4] Forbid static SRCU use in modules

Paul E. McKenney paulmck at linux.ibm.com
Mon Apr 8 15:46:16 UTC 2019


On Mon, Apr 08, 2019 at 10:49:32AM -0400, Mathieu Desnoyers wrote:
> ----- On Apr 8, 2019, at 10:22 AM, paulmck paulmck at linux.ibm.com wrote:
> 
> > On Mon, Apr 08, 2019 at 09:05:34AM -0400, Mathieu Desnoyers wrote:
> >> ----- On Apr 7, 2019, at 10:27 PM, paulmck paulmck at linux.ibm.com wrote:
> >> 
> >> > On Sun, Apr 07, 2019 at 09:07:18PM +0000, Joel Fernandes wrote:
> >> >> On Sun, Apr 07, 2019 at 04:41:36PM -0400, Mathieu Desnoyers wrote:
> >> >> > 
> >> >> > ----- On Apr 7, 2019, at 3:32 PM, Joel Fernandes, Google joel at joelfernandes.org
> >> >> > wrote:
> >> >> > 
> >> >> > > On Sun, Apr 07, 2019 at 03:26:16PM -0400, Mathieu Desnoyers wrote:
> >> >> > >> ----- On Apr 7, 2019, at 9:59 AM, paulmck paulmck at linux.ibm.com wrote:
> >> >> > >> 
> >> >> > >> > On Sun, Apr 07, 2019 at 06:39:41AM -0700, Paul E. McKenney wrote:
> >> >> > >> >> On Sat, Apr 06, 2019 at 07:06:13PM -0400, Joel Fernandes wrote:
> >> >> > >> > 
> >> >> > >> > [ . . . ]
> >> >> > >> > 
> >> >> > >> >> > > diff --git a/include/asm-generic/vmlinux.lds.h
> >> >> > >> >> > > b/include/asm-generic/vmlinux.lds.h
> >> >> > >> >> > > index f8f6f04c4453..c2d919a1566e 100644
> >> >> > >> >> > > --- a/include/asm-generic/vmlinux.lds.h
> >> >> > >> >> > > +++ b/include/asm-generic/vmlinux.lds.h
> >> >> > >> >> > > @@ -338,6 +338,10 @@
> >> >> > >> >> > >  		KEEP(*(__tracepoints_ptrs)) /* Tracepoints: pointer array */ \
> >> >> > >> >> > >  		__stop___tracepoints_ptrs = .;				\
> >> >> > >> >> > >  		*(__tracepoints_strings)/* Tracepoints: strings */	\
> >> >> > >> >> > > +		. = ALIGN(8);						\
> >> >> > >> >> > > +		__start___srcu_struct = .;				\
> >> >> > >> >> > > +		*(___srcu_struct_ptrs)					\
> >> >> > >> >> > > +		__end___srcu_struct = .;				\
> >> >> > >> >> > >  	}								\
> >> >> > >> >> > 
> >> >> > >> >> > This vmlinux linker modification is not needed. I tested without it and srcu
> >> >> > >> >> > torture works fine with rcutorture built as a module. Putting further prints
> >> >> > >> >> > in kernel/module.c verified that the kernel is able to find the srcu structs
> >> >> > >> >> > just fine. You could squash the below patch into this one or apply it on top
> >> >> > >> >> > of the dev branch.
> >> >> > >> >> 
> >> >> > >> >> Good point, given that otherwise FORTRAN named common blocks would not
> >> >> > >> >> work.
> >> >> > >> >> 
> >> >> > >> >> But isn't one advantage of leaving that stuff in the RO_DATA_SECTION()
> >> >> > >> >> macro that it can be mapped read-only?  Or am I suffering from excessive
> >> >> > >> >> optimism?
> >> >> > >> > 
> >> >> > >> > And to answer the other question, in the case where I am suffering from
> >> >> > >> > excessive optimism, it should be a separate commit.  Please see below
> >> >> > >> > for the updated original commit thus far.
> >> >> > >> > 
> >> >> > >> > And may I have your Tested-by?
> >> >> > >> 
> >> >> > >> Just to confirm: does the cleanup performed in the modules going
> >> >> > >> notifier end up acting as a barrier first before freeing the memory ?
> >> >> > >> If not, is it explicitly stated that a barrier must be issued before
> >> >> > >> module unload ?
> >> >> > >> 
> >> >> > > 
> >> >> > > You mean rcu_barrier? It is mentioned in the documentation that this is the
> >> >> > > responsibility of the module writer to prevent delays for all modules.
> >> >> > 
> >> >> > It's a srcu barrier yes. Considering it would be a barrier specific to the
> >> >> > srcu domain within that module, I don't see how it would cause delays for
> >> >> > "all" modules if we implicitly issue the barrier on module unload. What
> >> >> > am I missing ?
> >> >> 
> >> >> Yes you are right. I thought of this after I just sent my email. I think it
> >> >> makes sense for srcu case to do and could avoid a class of bugs.
> >> > 
> >> > If there are call_srcu() callbacks outstanding, the module writer still
> >> > needs the srcu_barrier() because otherwise callbacks arrive after
> >> > the module text has gone, which will be disappoint the CPU when it
> >> > tries fetching instructions that are no longer mapped.  If there are
> >> > no call_srcu() callbacks from that module, then there is no need for
> >> > srcu_barrier() either way.
> >> > 
> >> > So if an srcu_barrier() is needed, the module developer needs to
> >> > supply it.
> >> 
> >> When you say "callbacks arrive after the module text has gone",
> >> I think you assume that free_module() is invoked before the
> >> MODULE_STATE_GOING notifiers are called. But it's done in the
> >> opposite order: going notifiers are called first, and then
> >> free_module() is invoked.
> >> 
> >> So AFAIU it would be safe to issue the srcu_barrier() from the module
> >> going notifier.
> >> 
> >> Or am I missing something ?
> > 
> > We do seem to be talking past each other.  ;-)
> > 
> > This has nothing to do with the order of events at module-unload time.
> > 
> > So please let me try again.
> > 
> > If a given srcu_struct in a module never has call_srcu() invoked, there
> > is no need to invoke rcu_barrier() at any time, whether at module-unload
> > time or not.  Adding rcu_barrier() in this case adds overhead and latency
> > for no good reason.
> 
> Not if we invoke srcu_barrier() for that specific domain. If
> call_srcu was never invoked for a srcu domain, I don't see why
> srcu_barrier() should be more expensive than a simple check that
> the domain does not have any srcu work queued.

But that simple check does involve a cache miss for each possible CPU (not
just each online CPU), so it is non-trivial, especially on large systems.

> > If a given srcu_struct in a module does have at least one call_srcu()
> > invoked, it is already that module's responsibility to make sure that
> > the code sticks around long enough for the callback to be invoked.
> 
> I understand that when users do explicit dynamic allocation/cleanup of
> srcu domains, they indeed need to take care of doing explicit srcu_barrier().
> However, if they do static definition of srcu domains, it would be nice
> if we can handle the barriers under the hood.

All else being equal, of course.  But...

> > This means that correct SRCU users that invoke call_srcu() already
> > have srcu_barrier() at module-unload time.  Incorrect SRCU users, with
> > reasonable probability, now get a WARN_ON() at module-unload time, with
> > the per-CPU state getting leaked.  Before this change, they would (also
> > with reasonable probability) instead get an instruction-fetch fault when
> > the SRCU callback was invoked after the completion of the module unload.
> > Furthermore, in all cases where they would previously have gotten the
> > instruction-fetch fault, they now get the WARN_ON(), like this:
> > 
> >	if (WARN_ON(rcu_segcblist_n_cbs(&sdp->srcu_cblist)))
> >		return; /* Forgot srcu_barrier(), so just leak it! */
> > 
> > So this change already represents an improvement in usability.
> 
> Considering that we can do a srcu_barrier() for the specific domain,
> and that it should add no noticeable overhead if there is no queued
> callbacks, I don't see a good reason for leaving the srcu_barrier
> invocation to the user rather than implicitly doing it from the
> module going notifier.

Now, I could automatically add an indicator of whether or not a
call_srcu() had happened, but then again, that would either add a
call_srcu() scalability bottleneck or again require a scan of all possible
CPUs...  to figure out if it was necessary to scan all possible CPUs.

Or is scanning all possible CPUs down in the noise in this case?  Or
am I missing a trick that would reduce the overhead?

							Thanx, Paul



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