Re: [PATCH V4 00/10] mm: page_alloc: freelist migratetype hygiene

[Date Prev][Date Next][Thread Prev][Thread Next][Date Index][Thread Index]

 





On 2024/3/21 02:02, Johannes Weiner wrote:
V4:
- fixed !pcp_order_allowed() case in free_unref_folios()
- reworded the patch 0 changelog a bit for the git log
- rebased to mm-everything-2024-03-19-23-01
- runtime-tested again with various CONFIG_DEBUG_FOOs enabled

---

The page allocator's mobility grouping is intended to keep unmovable
pages separate from reclaimable/compactable ones to allow on-demand
defragmentation for higher-order allocations and huge pages.

Currently, there are several places where accidental type mixing
occurs: an allocation asks for a page of a certain migratetype and
receives another. This ruins pageblocks for compaction, which in turn
makes allocating huge pages more expensive and less reliable.

The series addresses those causes. The last patch adds type checks on
all freelist movements to prevent new violations being introduced.

The benefits can be seen in a mixed workload that stresses the machine
with a memcache-type workload and a kernel build job while
periodically attempting to allocate batches of THP. The following data
is aggregated over 50 consecutive defconfig builds:

                                                         VANILLA                 PATCHED
Hugealloc Time mean                      165843.93 (    +0.00%)  113025.88 (   -31.85%)
Hugealloc Time stddev                    158957.35 (    +0.00%)  114716.07 (   -27.83%)
Kbuild Real time                            310.24 (    +0.00%)     300.73 (    -3.06%)
Kbuild User time                           1271.13 (    +0.00%)    1259.42 (    -0.92%)
Kbuild System time                          582.02 (    +0.00%)     559.79 (    -3.81%)
THP fault alloc                           30585.14 (    +0.00%)   40853.62 (   +33.57%)
THP fault fallback                        36626.46 (    +0.00%)   26357.62 (   -28.04%)
THP fault fail rate %                        54.49 (    +0.00%)      39.22 (   -27.53%)
Pagealloc fallback                         1328.00 (    +0.00%)       1.00 (   -99.85%)
Pagealloc type mismatch                  181009.50 (    +0.00%)       0.00 (  -100.00%)
Direct compact stall                        434.56 (    +0.00%)     257.66 (   -40.61%)
Direct compact fail                         421.70 (    +0.00%)     249.94 (   -40.63%)
Direct compact success                       12.86 (    +0.00%)       7.72 (   -37.09%)
Direct compact success rate %                 2.86 (    +0.00%)       2.82 (    -0.96%)
Compact daemon scanned migrate          3370059.62 (    +0.00%) 3612054.76 (    +7.18%)
Compact daemon scanned free             7718439.20 (    +0.00%) 5386385.02 (   -30.21%)
Compact direct scanned migrate           309248.62 (    +0.00%)  176721.04 (   -42.85%)
Compact direct scanned free              433582.84 (    +0.00%)  315727.66 (   -27.18%)
Compact migrate scanned daemon %             91.20 (    +0.00%)      94.48 (    +3.56%)
Compact free scanned daemon %                94.58 (    +0.00%)      94.42 (    -0.16%)
Compact total migrate scanned           3679308.24 (    +0.00%) 3788775.80 (    +2.98%)
Compact total free scanned              8152022.04 (    +0.00%) 5702112.68 (   -30.05%)
Alloc stall                                 872.04 (    +0.00%)    5156.12 (  +490.71%)
Pages kswapd scanned                     510645.86 (    +0.00%)    3394.94 (   -99.33%)
Pages kswapd reclaimed                   134811.62 (    +0.00%)    2701.26 (   -98.00%)
Pages direct scanned                      99546.06 (    +0.00%)  376407.52 (  +278.12%)
Pages direct reclaimed                    62123.40 (    +0.00%)  289535.70 (  +366.06%)
Pages total scanned                      610191.92 (    +0.00%)  379802.46 (   -37.76%)
Pages scanned kswapd %                       76.36 (    +0.00%)       0.10 (   -98.58%)
Swap out                                  12057.54 (    +0.00%)   15022.98 (   +24.59%)
Swap in                                     209.16 (    +0.00%)     256.48 (   +22.52%)
File refaults                             17701.64 (    +0.00%)   11765.40 (   -33.53%)

Huge page success rate is higher, allocation latencies are shorter and
more predictable.

Stealing (fallback) rate is drastically reduced. Notably, while the
vanilla kernel keeps doing fallbacks on an ongoing basis, the patched
kernel enters a steady state once the distribution of block types is
adequate for the workload. Steals over 50 runs:

VANILLA         PATCHED
1504.0		227.0
1557.0		6.0
1391.0		13.0
1080.0		26.0
1057.0		40.0
1156.0		6.0
805.0		46.0
736.0		20.0
1747.0		2.0
1699.0		34.0
1269.0		13.0
1858.0		12.0
907.0		4.0
727.0		2.0
563.0		2.0
3094.0		2.0
10211.0		3.0
2621.0		1.0
5508.0		2.0
1060.0		2.0
538.0		3.0
5773.0		2.0
2199.0		0.0
3781.0		2.0
1387.0		1.0
4977.0		0.0
2865.0		1.0
1814.0		1.0
3739.0		1.0
6857.0		0.0
382.0		0.0
407.0		1.0
3784.0		0.0
297.0		0.0
298.0		0.0
6636.0		0.0
4188.0		0.0
242.0		0.0
9960.0		0.0
5816.0		0.0
354.0		0.0
287.0		0.0
261.0		0.0
140.0		1.0
2065.0		0.0
312.0		0.0
331.0		0.0
164.0		0.0
465.0		1.0
219.0		0.0

Type mismatches are down too. Those count every time an allocation
request asks for one migratetype and gets another. This can still
occur minimally in the patched kernel due to non-stealing fallbacks,
but it's quite rare and follows the pattern of overall fallbacks -
once the block type distribution settles, mismatches cease as well:

VANILLA:        PATCHED:
182602.0	268.0
135794.0	20.0
88619.0		19.0
95973.0		0.0
129590.0	0.0
129298.0	0.0
147134.0	0.0
230854.0	0.0
239709.0	0.0
137670.0	0.0
132430.0	0.0
65712.0		0.0
57901.0		0.0
67506.0		0.0
63565.0		4.0
34806.0		0.0
42962.0		0.0
32406.0		0.0
38668.0		0.0
61356.0		0.0
57800.0		0.0
41435.0		0.0
83456.0		0.0
65048.0		0.0
28955.0		0.0
47597.0		0.0
75117.0		0.0
55564.0		0.0
38280.0		0.0
52404.0		0.0
26264.0		0.0
37538.0		0.0
19671.0		0.0
30936.0		0.0
26933.0		0.0
16962.0		0.0
44554.0		0.0
46352.0		0.0
24995.0		0.0
35152.0		0.0
12823.0		0.0
21583.0		0.0
18129.0		0.0
31693.0		0.0
28745.0		0.0
33308.0		0.0
31114.0		0.0
35034.0		0.0
12111.0		0.0
24885.0		0.0

Compaction work is markedly reduced despite much better THP rates.

In the vanilla kernel, reclaim seems to have been driven primarily by
watermark boosting that happens as a result of fallbacks. With those
all but eliminated, watermarks average lower and kswapd does less
work. The uptick in direct reclaim is because THP requests have to
fend for themselves more often - which is intended policy right
now. Aggregate reclaim activity is lowered significantly, though.

---

With my 2 fixes, the whole series works well on my platform, so please feel free to add:
Tested-by: Baolin Wang <baolin.wang@xxxxxxxxxxxxxxxxx>




[Index of Archives]     [Linux ARM Kernel]     [Linux ARM]     [Linux Omap]     [Fedora ARM]     [IETF Annouce]     [Bugtraq]     [Linux OMAP]     [Linux MIPS]     [eCos]     [Asterisk Internet PBX]     [Linux API]

  Powered by Linux