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SubjectRe: [PATCH v2 4/5] locking/qspinlock: Introduce starvation avoidance into CNA
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> On Apr 2, 2019, at 6:37 AM, Peter Zijlstra <peterz@infradead.org> wrote:
>
> On Fri, Mar 29, 2019 at 11:20:05AM -0400, Alex Kogan wrote:
>> @@ -25,6 +29,18 @@
>>
>> #define MCS_NODE(ptr) ((struct mcs_spinlock *)(ptr))
>>
>> +/* Per-CPU pseudo-random number seed */
>> +static DEFINE_PER_CPU(u32, seed);
>> +
>> +/*
>> + * Controls the probability for intra-node lock hand-off. It can be
>> + * tuned and depend, e.g., on the number of CPUs per node. For now,
>> + * choose a value that provides reasonable long-term fairness without
>> + * sacrificing performance compared to a version that does not have any
>> + * fairness guarantees.
>> + */
>> +#define INTRA_NODE_HANDOFF_PROB_ARG 0x10000
>> +
>> static inline __pure int decode_numa_node(u32 node_and_count)
>> {
>> int node = (node_and_count >> _Q_NODE_OFFSET) - 1;
>> @@ -102,6 +118,35 @@ static struct mcs_spinlock *find_successor(struct mcs_spinlock *me)
>> return NULL;
>> }
>>
>> +/*
>> + * xorshift function for generating pseudo-random numbers:
>> + * https://urldefense.proofpoint.com/v2/url?u=https-3A__en.wikipedia.org_wiki_Xorshift&d=DwIBAg&c=RoP1YumCXCgaWHvlZYR8PZh8Bv7qIrMUB65eapI_JnE&r=Hvhk3F4omdCk-GE1PTOm3Kn0A7ApWOZ2aZLTuVxFK4k&m=btYIeJJfSDAM0UloKh-zrG4-PgdCMjQMKnvDIqPuEQk&s=1UYM9Qd5nozlImYHub0yqRmQCja5hJtnzbHuudtz-nM&e=
>
> Cute; so clearly you've read that page, but then you provide us a
> variant that isn't actually listed there.
>
> Your naming is also non-standard in that it does not relay the period.
> The type seems to suggest 32bit, so the name should then have been:
>
> xorshift32()
>
> Now, where did you get those parameters from; is this a proper
> xorshift32 ?
Apologies for the confusion.
We are using one of the shift tuples from the Xorshift paper (https://www.jstatsoft.org/v08/i14/paper), which is referenced by the wiki page.
Those tuples happen to be different from the ones on the wiki page itself.
I do not think we care much, though — if we keep using xorshift (see below), we will switch to the variant from the wiki to avoid any confusion.

>
> Now, you've read that page and you know there's 'trivial' improvements
> on the pure xorshift, why not pick one of those? xorwow seems cheap
> enough, or that xorshift128plus() one.
Xorshift seems to be working well enough for our purposes, while those other variants are slightly more expensive and have a larger state.

>
>> +
>> +/*
>> + * Return false with probability 1 / @range.
>> + * @range must be a power of 2.
>> + */
>> +static bool probably(unsigned int range)
>> +{
>> + return xor_random() & (range - 1);
>> +}
>
> Uhh, you sure that's what it does? The only way for that to return false
> is when all @range bits are 0, which happens once (2^32/range)-1 times,
> or am I mistaken?

probably() would return 0 if and only if xor_random() returns 0 in the lowest log_2(range) bits,
which should happen with probability of 1/(2^log_2(range))=1/range.

>
> Also, linux/random.h includes next_pseudo_random32(), should we be using
> that? Arguably that's more expensive on a number of platforms due to the
> multiplication.
We will check the impact of using next_pseudo_random32().

> Also, we actually have xorshift32 already in tree in
> lib/test_hash.c.
I see that now. We can certainly use this function instead.
If we end up doing that, any suggestion where it should be moved to be called from multiple places (the original lib/test_hash.c and our CNA code)?

Thanks,
— Alex
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