Re: [RFC PATCH for 4.17 02/21] rseq: Introduce restartable sequences system call (v12)
From: Alan Cox
Date: Sun Apr 01 2018 - 12:15:20 EST
On Tue, 27 Mar 2018 12:05:23 -0400
Mathieu Desnoyers <mathieu.desnoyers@xxxxxxxxxxxx> wrote:
> Expose a new system call allowing each thread to register one userspace
> memory area to be used as an ABI between kernel and user-space for two
> purposes: user-space restartable sequences and quick access to read the
> current CPU number value from user-space.
What is the *worst* case timing achievable by using the atomics ? What
does it do to real time performance requirements ? For cpu_opv you now
give an answer but your answer is assuming there isn't another thread
actively thrashing the cache or store buffers, and that the user didn't
sneakily pass in a page of uncacheable memory (eg framebuffer, or GPU
space).
I don't see anything that restricts it to cached pages. With that check
in place for x86 at least it would probably be ok and I think the sneaky
attacks to make it uncacheable would fail becuase you've got the pages
locked so trying to give them to an accelerator will block until you are
done.
I still like the idea it's just the latencies concern me.
> Restartable sequences are atomic with respect to preemption
> (making it atomic with respect to other threads running on the
> same CPU), as well as signal delivery (user-space execution
> contexts nested over the same thread).
CPU generally means 'big lump with legs on it'. You are not atomic to the
same CPU, because that CPU may have 30+ cores with 8 threads per core.
It could do with some better terminology (hardware thread, CPU context ?)
> In a typical usage scenario, the thread registering the rseq
> structure will be performing loads and stores from/to that
> structure. It is however also allowed to read that structure
> from other threads. The rseq field updates performed by the
> kernel provide relaxed atomicity semantics, which guarantee
> that other threads performing relaxed atomic reads of the cpu
> number cache will always observe a consistent value.
So what happens to your API if the kernel atomics get improved ? You are
effectively exporting rseq behaviour from private to public.
Alan