Messages in this thread | | | Date | Fri, 7 Aug 2020 16:29:39 -0400 (EDT) | From | Mathieu Desnoyers <> | Subject | Re: [PATCH 2/2 v2] rseq/selftests: test MEMBARRIER_CMD_PRIVATE_RESTART_RSEQ_ON_CPU |
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----- On Aug 7, 2020, at 2:47 PM, Peter Oskolkov posk@posk.io wrote:
> On Fri, Aug 7, 2020 at 11:25 AM Mathieu Desnoyers > <mathieu.desnoyers@efficios.com> wrote: >> >> ----- On Aug 7, 2020, at 1:55 PM, Peter Oskolkov posk@posk.io wrote: >> >> > On Thu, Aug 6, 2020 at 5:27 PM Boqun Feng <boqun.feng@gmail.com> wrote: >> [...] >> >> What if the manager thread update ->percpu_list_ptr and call >> >> membarrier() here? I.e. >> >> >> >> CPU0 CPU1 >> >> list_ptr = atomic_load(&args->percpu_list_ptr); // read list_b >> >> >> >> atomic_store(&args->percpu_list_ptr, list_a); >> >> sys_membarrier(MEMBARRIER_CMD_PRIVATE_RESTART_RSEQ_ON_CPU, 1); // send ipi to >> >> restart rseq.cs on CPU1 >> >> >> >> <got IPI, but not in a rseq.cs, so nothing to do> >> >> cpu = rseq_cpu_start(); // start a rseq.cs and accessing list_b! >> >> >> >> The thing is, atomic_load() is an reference to ->percpu_list_ptr, which >> >> is outside the rseq.cs, simply restarting rseq doesn't kill this >> >> reference. >> >> >> >> Am I missing something subtle? >> > >> > rseq_cmpeqv_cmpeqv_store is used below to make sure the reference is >> > the one that should be used; if it is no longer "active", the >> > iteration is restarted. >> >> I suspect it "works" because the manager thread does not free and >> repurpose the memory where list_a is allocated, nor does it store to >> its list head (which would corrupt the pointer dereferenced by CPU 1 >> in the scenario above). This shares similarities with type-safe memory >> allocation (see SLAB_TYPESAFE_BY_RCU). >> >> Even though it is not documented as such (or otherwise) in the example code, >> I feel this example looks like it guarantees that the manager thread "owns" >> list_a after the rseq-fence, when in fact it can still be read by the rseq >> critical sections. >> >> AFAIU moving the atomic_load(&args->percpu_list_ptr) into the critical section >> should entirely solve this and guarantee exclusive access to the old list >> after the manager's rseq-fence. I wonder why this simpler approach is not >> favored ? > > I think the test code mimics our actual production code, where the concerns > you outlined are not particularly relevant. I'll see if the test can > be simplified > in v3 along the lines you suggested.
In order to implement that, you'll need to extend the rseq per-arch macros. Here is one I did for x86 (but not all other arch) which dereferences a pointer, adds an offset that the resulting address, and loads the contents of that memory location, all within a rseq critical section. See https://git.kernel.org/pub/scm/libs/librseq/librseq.git/tree/include/rseq/rseq-x86.h#n1292
int rseq_deref_loadoffp(intptr_t *p, off_t voffp, intptr_t *load, int cpu)
I did that following a discussion with Paul Turner about the requirements for the rseq fence.
For the use-case you have in this example, you will probably want to create a new
int rseq_deref_offset_addv(intptr_t *p, off_t voffp, intptr_t count, int cpu)
Which dereferences the list pointer and adds an offset within the critical section, and then increments the value at that memory location as a commit.
offsetof() is very useful to generate the voffp argument.
Thanks,
Mathieu
-- Mathieu Desnoyers EfficiOS Inc. http://www.efficios.com
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