On 2024/10/25 20:21, Huang, Ying wrote:
Kefeng Wang <wangkefeng.wang@xxxxxxxxxx> writes:On 2024/10/25 15:47, Huang, Ying wrote:Kefeng Wang <wangkefeng.wang@xxxxxxxxxx> writes:On 2024/10/25 10:59, Huang, Ying wrote:Hi, Kefeng, Kefeng Wang <wangkefeng.wang@xxxxxxxxxx> writes:+CC Huang Ying, On 2024/10/23 6:56, Barry Song wrote:On Wed, Oct 23, 2024 at 4:10 AM Kefeng Wang <wangkefeng.wang@xxxxxxxxxx> wrote:...On 2024/10/17 23:09, Matthew Wilcox wrote:On Thu, Oct 17, 2024 at 10:25:04PM +0800, Kefeng Wang wrote:Directly use folio_zero_range() to cleanup code.Are you sure there's no performance regression introduced by this? clear_highpage() is often optimised in ways that we can't optimise for a plain memset(). On the other hand, if the folio is large, maybe a modern CPU will be able to do better than clear-one-page-at-a-time.Right, I missing this, clear_page might be better than memset, I change this one when look at the shmem_writepage(), which already convert to use folio_zero_range() from clear_highpage(), also I grep folio_zero_range(), there are some other to use folio_zero_range(). fs/bcachefs/fs-io-buffered.c: folio_zero_range(folio, 0, folio_size(folio)); fs/bcachefs/fs-io-buffered.c: folio_zero_range(f, 0, folio_size(f)); fs/bcachefs/fs-io-buffered.c: folio_zero_range(f, 0, folio_size(f)); fs/libfs.c: folio_zero_range(folio, 0, folio_size(folio)); fs/ntfs3/frecord.c: folio_zero_range(folio, 0, folio_size(folio)); mm/page_io.c: folio_zero_range(folio, 0, folio_size(folio)); mm/shmem.c: folio_zero_range(folio, 0, folio_size(folio));IOW, what performance testing have you done with this patch?No performance test before, but I write a testcase, 1) allocate N large folios (folio_alloc(PMD_ORDER)) 2) then calculate the diff(us) when clear all N folios clear_highpage/folio_zero_range/folio_zero_user 3) release N folios the result(run 5 times) shown below on my machine, N=1, clear_highpage folio_zero_range folio_zero_user 1 69 74 177 2 57 62 168 3 54 58 234 4 54 58 157 5 56 62 148 avg 58 62.8 176.8 N=100 clear_highpage folio_zero_range folio_zero_user 1 11015 11309 32833 2 10385 11110 49751 3 10369 11056 33095 4 10332 11017 33106 5 10483 11000 49032 avg 10516.8 11098.4 39563.4 N=512 clear_highpage folio_zero_range folio_zero_user 1 55560 60055 156876 2 55485 60024 157132 3 55474 60129 156658 4 55555 59867 157259 5 55528 59932 157108 avg 55520.4 60001.4 157006.6 folio_zero_user with many cond_resched(), so time fluctuates a lot, clear_highpage is better folio_zero_range as you said. Maybe add a new helper to convert all folio_zero_range(folio, 0, folio_size(folio)) to use clear_highpage + flush_dcache_folio?If this also improves performance for other existing callers of folio_zero_range(), then that's a positive outcome....hi Kefeng, what's your point? providing a helper like clear_highfolio() or similar?Yes, from above test, using clear_highpage/flush_dcache_folio is better than using folio_zero_range() for folio zero(especially for large folio), so I'd like to add a new helper, maybe name it folio_zero() since it zero the whole folio.we already have a helper like folio_zero_user()? it is not good enough?Since it is with many cond_resched(), the performance is worst...Not exactly? It should have zero cost for a preemptible kernel. For a non-preemptible kernel, it helps avoid clearing the folio from occupying the CPU and starving other processes, right?--- a/mm/shmem.c +++ b/mm/shmem.c @@ -2393,10 +2393,7 @@ static int shmem_get_folio_gfp(struct inode *inode, pgoff_t index, * it now, lest undo on failure cancel our earlier guarantee. */ if (sgp != SGP_WRITE && !folio_test_uptodate(folio)) { - long i, n = folio_nr_pages(folio); - - for (i = 0; i < n; i++) - clear_highpage(folio_page(folio, i)); + folio_zero_user(folio, vmf->address); flush_dcache_folio(folio); folio_mark_uptodate(folio); } Do we perform better or worse with the following?Here is for SGP_FALLOC, vmf = NULL, we could use folio_zero_user(folio, 0), I think the performance is worse, will retest once I can access hardware.Perhaps, since the current code uses clear_hugepage(). Does using index << PAGE_SHIFT as the addr_hint offer any benefit?when use folio_zero_user(), the performance is vary bad with above fallocate test(mount huge=always), folio_zero_range clear_highpage folio_zero_user real 0m1.214s 0m1.111s 0m3.159s user 0m0.000s 0m0.000s 0m0.000s sys 0m1.210s 0m1.109s 0m3.152s I tried with addr_hint = 0/index << PAGE_SHIFT, no obvious different.Interesting. Does your kernel have preemption disabled or preemption_debug enabled?ARM64 server, CONFIG_PREEMPT_NONE=ythis explains why the performance is much worse.If not, it makes me wonder whether folio_zero_user() in alloc_anon_folio() is actually improving performance as expected, compared to the simpler folio_zero() you plan to implement. :-)Yes, maybe, the folio_zero_user(was clear_huge_page) is from 47ad8475c000 ("thp: clear_copy_huge_page"), so original clear_huge_page is used in HugeTLB, clear PUD size maybe spend many time, but for PMD or other size of large folio, cond_resched is not necessary since we already have some folio_zero_range() to clear large folio, and no issue was reported.probably worth an optimization. calling cond_resched() for each page seems too aggressive and useless.After some test, I think the cond_resched() is not the root cause, no performance gained with batched cond_resched(), even I kill cond_resched() from process_huge_page, no improvement. But when I unconditionally use clear_gigantic_page() in folio_zero_user(patched), there is big improvement with above fallocate on tmpfs(mount huge=always), also I test some other testcase, 1) case-anon-w-seq-mt: (2M PMD THP) base: real 0m2.490s 0m2.254s 0m2.272s user 1m59.980s 2m23.431s 2m18.739s sys 1m3.675s 1m15.462s 1m15.030s patched: real 0m2.234s 0m2.225s 0m2.159s user 2m56.105s 2m57.117s 3m0.489s sys 0m17.064s 0m17.564s 0m16.150s Patched kernel win on sys and bad in user, but real is almost same, maybe a little better than base.We can find user time difference. That means the original cache hot behavior still applies on your system. However, it appears that the performance to clear page from end to begin is really bad on your system. So, I suggest to revise the current implementation to use sequential clearing as much as possible.I test case-anon-cow-seq-hugetlb for copy_user_large_folio() base: real 0m6.259s 0m6.197s 0m6.316s user 1m31.176s 1m27.195s 1m29.594s sys 7m44.199s 7m51.490s 8m21.149s patched(use copy_user_gigantic_page for 2M hugetlb too) real 0m3.182s 0m3.002s 0m2.963s user 1m19.456s 1m3.107s 1m6.447s sys 2m59.222s 3m10.899s 3m1.027s and sequential copy is better than the current implementation, so I will use sequential clear and copy.Sorry, it appears that you misunderstanding my suggestion. I suggest to revise process_huge_page() to use more sequential memory clearing and copying to improve its performance on your platform. -- Best Regards, Huang, Ying2) case-anon-w-seq-hugetlb:(2M PMD HugeTLB) base: real 0m5.175s 0m5.117s 0m4.856s user 5m15.943s 5m7.567s 4m29.273s sys 2m38.503s 2m21.949s 2m21.252s patched: real 0m4.966s 0m4.841s 0m4.561s user 6m30.123s 6m9.516s 5m49.733s sys 0m58.503s 0m47.847s 0m46.785s This case is similar to the case1. 3) fallocate hugetlb 20G (2M PMD HugeTLB) base: real 0m3.016s 0m3.019s 0m3.018s user 0m0.000s 0m0.000s 0m0.000s sys 0m3.009s 0m3.012s 0m3.010s patched: real 0m1.136s 0m1.136s 0m1.136s user 0m0.000s 0m0.000s 0m0.004s sys 0m1.133s 0m1.133s 0m1.129s There is big win on patched kernel, and it is similar to above tmpfs test, so maybe we could revert the commit c79b57e462b5 ("mm: hugetlb: clear target sub-page last when clearing huge page").I tried the following changes, diff --git a/mm/memory.c b/mm/memory.c index 66cf855dee3f..e5cc75adfa10 100644 --- a/mm/memory.c +++ b/mm/memory.c @@ -6777,7 +6777,7 @@ static inline int process_huge_page( base = 0; l = n; /* Process subpages at the end of huge page */ - for (i = nr_pages - 1; i >= 2 * n; i--) { + for (i = 2 * n; i < nr_pages; i++) { cond_resched(); ret = process_subpage(addr + i * PAGE_SIZE, i, arg); if (ret) Since n = 0, so the copying is from start to end now, but not improvement for case-anon-cow-seq-hugetlb, and if use copy_user_gigantic_pager, the time reduced from 6s to 3s diff --git a/mm/memory.c b/mm/memory.c index fe21bd3beff5..2c6532d21d84 100644 --- a/mm/memory.c +++ b/mm/memory.c @@ -6876,10 +6876,7 @@ int copy_user_large_folio(struct folio *dst, struct folio *src, .vma = vma, }; - if (unlikely(nr_pages > MAX_ORDER_NR_PAGES)) - return copy_user_gigantic_page(dst, src, addr_hint, vma, nr_pages); - - return process_huge_page(addr_hint, nr_pages, copy_subpage, &arg); + return copy_user_gigantic_page(dst, src, addr_hint, vma, nr_pages); }It appears that we have code generation issue here. Can you check it? Whether code is inlined in the same way?
No different, and I checked the asm, both process_huge_page and copy_user_gigantic_page are inlined, it is strange...
Maybe we can start with modified mm/memory.c @@ -6714,7 +6714,7 @@ EXPORT_SYMBOL(__might_fault); * operation. The target subpage will be processed last to keep its * cache lines hot. */ -static inline int process_huge_page( +static __always_inline int process_huge_page( unsigned long addr_hint, unsigned int nr_pages, int (*process_subpage)(unsigned long addr, int idx, void *arg), void *arg) -- Best Regards, Huang, Ying