hi, Alexey Gladkov, On Fri, Apr 23, 2021 at 09:44:31AM +0200, Alexey Gladkov wrote: > On Fri, Apr 23, 2021 at 10:47:22AM +0800, Oliver Sang wrote: > > hi, Eric, > > > > On Thu, Apr 08, 2021 at 01:44:43PM -0500, Eric W. Biederman wrote: > > > Linus Torvalds <torvalds@xxxxxxxxxxxxxxxxxxxx> writes: > > > > > > > On Thu, Apr 8, 2021 at 1:32 AM kernel test robot <oliver.sang@xxxxxxxxx> wrote: > > > >> > > > >> FYI, we noticed a -41.9% regression of stress-ng.sigsegv.ops_per_sec due to commit > > > >> 08ed4efad684 ("[PATCH v10 6/9] Reimplement RLIMIT_SIGPENDING on top of ucounts") > > > > > > > > Ouch. > > > > > > We were cautiously optimistic when no test problems showed up from > > > the last posting that there was nothing to look at here. > > > > > > Unfortunately it looks like the bots just missed the last posting. > > > > this report is upon v10. do you have newer version which hope bot test? > > Yes. I posted a new version of this patch set. I would be very grateful if > you could test it. > > https://lore.kernel.org/lkml/cover.1619094428.git.legion@xxxxxxxxxx/ > we tested this v11 version, and found the regression reduced to about 1.6%. please be noted, according to our previous experience, the stress-ng is kind of sensitive testsuite, so we normally wouldn't report <3% regression. ========================================================================================= class/compiler/cpufreq_governor/disk/kconfig/nr_threads/rootfs/tbox_group/test/testcase/testtime/ucode: interrupt/gcc-9/performance/1HDD/x86_64-rhel-8.3/100%/debian-10.4-x86_64-20200603.cgz/lkp-ivb-2ep1/sigsegv/stress-ng/60s/0x42e commit: 00a58a6af1c4 ("Reimplement RLIMIT_MSGQUEUE on top of ucounts") 8932738fc10c ("Reimplement RLIMIT_SIGPENDING on top of ucounts") 00a58a6af1c473c5 8932738fc10c4398521892adfe6 ---------------- --------------------------- %stddev %change %stddev \ | \ 4.745e+08 -1.6% 4.669e+08 stress-ng.sigsegv.ops 7908964 -1.6% 7781343 stress-ng.sigsegv.ops_per_sec Below is some data of results from your new branch and base. b3ad8e1fa3fd8 ucounts: Set ucount_max to the largest positive value the type can hold 7783421.61 7794441.59 7775793.52 7773683.6 7760744.1 7757720.33 8932738fc10c4 Reimplement RLIMIT_SIGPENDING on top of ucounts 7755985.06 7780646.72 7783944.12 7809090.98 7798193.32 7760202.59 00a58a6af1c47 Reimplement RLIMIT_MSGQUEUE on top of ucounts 7940474.72 7912442.26 7879195.61 7869803.63 7912693.69 7939175.48 e75074781f173 selftests/resctrl: Change a few printed messages 7660254.5 7676124.45 7745330.79 7736754.88 7716834.93 7660143.13 87f1c20e2effd Documentation: kselftest: fix path to test module files 7729609.16 7726906.92 7760819.26 06bd03a57f8c2 selftests/resctrl: Fix MBA/MBM results reporting format 7692866.06 7730606.11 7681414.48 a38fd87484648 Linux 5.12-rc2 7724932.06 > > please be noted, sorry to say, due to various reasons, it will be a > > big challenge for us to capture each version of a patch set. > > > > e.g. we didn't make out a similar performance regression for > > v8/v9 version of this one.. > > > > > > > > So it seems we are finally pretty much at correct code in need > > > of performance tuning. > > > > > > > I *think* this test may be testing "send so many signals that it > > > > triggers the signal queue overflow case". > > > > > > > > And I *think* that the performance degradation may be due to lots of > > > > unnecessary allocations, because ity looks like that commit changes > > > > __sigqueue_alloc() to do > > > > > > > > struct sigqueue *q = kmem_cache_alloc(sigqueue_cachep, flags); > > > > > > > > *before* checking the signal limit, and then if the signal limit was > > > > exceeded, it will just be free'd instead. > > > > > > > > The old code would check the signal count against RLIMIT_SIGPENDING > > > > *first*, and if there were m ore pending signals then it wouldn't do > > > > anything at all (including not incrementing that expensive atomic > > > > count). > > > > > > This is an interesting test in a lot of ways as it is testing the > > > synchronous signal delivery path caused by an exception. The test > > > is either executing *ptr = 0 (where ptr points to a read-only page) > > > or it executes an x86 instruction that is excessively long. > > > > > > I have found the code but I haven't figured out how it is being > > > called yet. The core loop is just: > > > for(;;) { > > > sigaction(SIGSEGV, &action, NULL); > > > sigaction(SIGILL, &action, NULL); > > > sigaction(SIGBUS, &action, NULL); > > > > > > ret = sigsetjmp(jmp_env, 1); > > > if (done()) > > > break; > > > if (ret) { > > > /* verify signal */ > > > } else { > > > *ptr = 0; > > > } > > > } > > > > > > Code like that fundamentally can not be multi-threaded. So the only way > > > the sigpending limit is being hit is if there are more processes running > > > that code simultaneously than the size of the limit. > > > > > > Further it looks like stress-ng pushes RLIMIT_SIGPENDING as high as it > > > will go before the test starts. > > > > > > > > > > Also, the old code was very careful to only do the "get_user()" for > > > > the *first* signal it added to the queue, and do the "put_user()" for > > > > when removing the last signal. Exactly because those atomics are very > > > > expensive. > > > > > > > > The new code just does a lot of these atomics unconditionally. > > > > > > Yes. That seems a likely culprit. > > > > > > > I dunno. The profile data in there is a bit hard to read, but there's > > > > a lot more cachee misses, and a *lot* of node crossers: > > > > > > > >> 5961544 +190.4% 17314361 perf-stat.i.cache-misses > > > >> 22107466 +119.2% 48457656 perf-stat.i.cache-references > > > >> 163292 ą 3% +4582.0% 7645410 perf-stat.i.node-load-misses > > > >> 227388 ą 2% +3708.8% 8660824 perf-stat.i.node-loads > > > > > > > > and (probably as a result) average instruction costs have gone up enormously: > > > > > > > >> 3.47 +66.8% 5.79 perf-stat.overall.cpi > > > >> 22849 -65.6% 7866 perf-stat.overall.cycles-between-cache-misses > > > > > > > > and it does seem to be at least partly about "put_ucounts()": > > > > > > > >> 0.00 +4.5 4.46 perf-profile.calltrace.cycles-pp.put_ucounts.__sigqueue_free.get_signal.arch_do_signal_or_restart.exit_to_user_mode_prepare > > > > > > > > and a lot of "get_ucounts()". > > > > > > > > But it may also be that the new "get sigpending" is just *so* much > > > > more expensive than it used to be. > > > > > > That too is possible. > > > > > > That node-load-misses number does look like something is bouncing back > > > and forth between the nodes a lot more. So I suspect stress-ng is > > > running multiple copies of the sigsegv test in different processes at > > > once. > > > > > > > > > > > > That really suggests cache line ping pong from get_ucounts and > > > incrementing sigpending. > > > > > > It surprises me that obtaining the cache lines exclusively is > > > the dominant cost on this code path but obtaining two cache lines > > > exclusively instead of one cache cache line exclusively is consistent > > > with a causing the exception delivery to take nearly twice as long. > > > > > > For the optimization we only care about the leaf count so with a little > > > care we can restore the optimization. So that is probably the thing > > > to do here. The fewer changes to worry about the less likely to find > > > surprises. > > > > > > > > > > > > That said for this specific case there is a lot of potential room for > > > improvement. As this is a per thread signal the code update sigpending > > > in commit_cred and never worry about needing to pin the struct > > > user_struct or struct ucounts. As this is a synchronous signal we could > > > skip the sigpending increment, skip the signal queue entirely, and > > > deliver the signal to user-space immediately. The removal of all cache > > > ping pongs might make it worth it. > > > > > > There is also Thomas Gleixner's recent optimization to cache one > > > sigqueue entry per task to give more predictable behavior. That > > > would remove the cost of the allocation. > > > > > > Eric > > > > -- > Rgrds, legion >