In my case, I am using premade Prometheus sourced dashboards in grafana.
For individual latency, the query looks like that
irate(ceph_osd_op_r_latency_sum{ceph_daemon=~"$osd"}[1m]) / on
(ceph_daemon) irate(ceph_osd_op_r_latency_count[1m])
irate(ceph_osd_op_w_latency_sum{ceph_daemon=~"$osd"}[1m]) / on
(ceph_daemon) irate(ceph_osd_op_w_latency_count[1m])
The other ones use
ceph_osd_commit_latency_ms
ceph_osd_apply_latency_ms
and graph the distribution of it over time
Also, average OSD op latency
avg(rate(ceph_osd_op_r_latency_sum{cluster="$cluster"}[5m]) /
rate(ceph_osd_op_r_latency_count{cluster="$cluster"}[5m]) >= 0)
avg(rate(ceph_osd_op_w_latency_sum{cluster="$cluster"}[5m]) /
rate(ceph_osd_op_w_latency_count{cluster="$cluster"}[5m]) >= 0)
Average OSD apply + commit latency
avg(ceph_osd_apply_latency_ms{cluster="$cluster"})
avg(ceph_osd_commit_latency_ms{cluster="$cluster"})
On Mon, Sep 30, 2019 at 11:13 AM Marc Roos <[email protected]> wrote:
>
> What parameters are you exactly using? I want to do a similar test on
> luminous, before I upgrade to Nautilus. I have quite a lot (74+)
>
> type_instance=Osd.opBeforeDequeueOpLat
> type_instance=Osd.opBeforeQueueOpLat
> type_instance=Osd.opLatency
> type_instance=Osd.opPrepareLatency
> type_instance=Osd.opProcessLatency
> type_instance=Osd.opRLatency
> type_instance=Osd.opRPrepareLatency
> type_instance=Osd.opRProcessLatency
> type_instance=Osd.opRwLatency
> type_instance=Osd.opRwPrepareLatency
> type_instance=Osd.opRwProcessLatency
> type_instance=Osd.opWLatency
> type_instance=Osd.opWPrepareLatency
> type_instance=Osd.opWProcessLatency
> type_instance=Osd.subopLatency
> type_instance=Osd.subopWLatency
> ...
> ...
>
>
>
>
>
> -----Original Message-----
> From: Alex Litvak [mailto:[email protected]]
> Sent: zondag 29 september 2019 13:06
> To: [email protected]
> Cc: [email protected]
> Subject: [ceph-users] Commit and Apply latency on nautilus
>
> Hello everyone,
>
> I am running a number of parallel benchmark tests against the cluster
> that should be ready to go to production.
> I enabled prometheus to monitor various information and while cluster
> stays healthy through the tests with no errors or slow requests,
> I noticed an apply / commit latency jumping between 40 - 600 ms on
> multiple SSDs. At the same time op_read and op_write are on average
> below 0.25 ms in the worth case scenario.
>
> I am running nautilus 14.2.2, all bluestore, no separate NVME devices
> for WAL/DB, 6 SSDs per node(Dell PowerEdge R440) with all drives Seagate
> Nytro 1551, osd spread across 6 nodes, running in
> containers. Each node has plenty of RAM with utilization ~ 25 GB during
> the benchmark runs.
>
> Here are benchmarks being run from 6 client systems in parallel,
> repeating the test for each block size in <4k,16k,128k,4M>.
>
> On rbd mapped partition local to each client:
>
> fio --name=randrw --ioengine=libaio --iodepth=4 --rw=randrw
> --bs=<4k,16k,128k,4M> --direct=1 --size=2G --numjobs=8 --runtime=300
> --group_reporting --time_based --rwmixread=70
>
> On mounted cephfs volume with each client storing test file(s) in own
> sub-directory:
>
> fio --name=randrw --ioengine=libaio --iodepth=4 --rw=randrw
> --bs=<4k,16k,128k,4M> --direct=1 --size=2G --numjobs=8 --runtime=300
> --group_reporting --time_based --rwmixread=70
>
> dbench -t 30 30
>
> Could you please let me know if huge jump in applied and committed
> latency is justified in my case and whether I can do anything to improve
> / fix it. Below is some additional cluster info.
>
> Thank you,
>
> root@storage2n2-la:~# podman exec -it ceph-mon-storage2n2-la ceph osd df
> ID CLASS WEIGHT REWEIGHT SIZE RAW USE DATA OMAP META AVAIL
> %USE VAR PGS STATUS
> 6 ssd 1.74609 1.00000 1.7 TiB 93 GiB 92 GiB 240 MiB 784 MiB 1.7
> TiB 5.21 0.90 44 up
> 12 ssd 1.74609 1.00000 1.7 TiB 98 GiB 97 GiB 118 MiB 906 MiB 1.7
> TiB 5.47 0.95 40 up
> 18 ssd 1.74609 1.00000 1.7 TiB 102 GiB 101 GiB 123 MiB 901 MiB 1.6
> TiB 5.73 0.99 47 up
> 24 ssd 3.49219 1.00000 3.5 TiB 222 GiB 221 GiB 134 MiB 890 MiB 3.3
> TiB 6.20 1.07 96 up
> 30 ssd 3.49219 1.00000 3.5 TiB 213 GiB 212 GiB 151 MiB 873 MiB 3.3
> TiB 5.95 1.03 93 up
> 35 ssd 3.49219 1.00000 3.5 TiB 203 GiB 202 GiB 301 MiB 723 MiB 3.3
> TiB 5.67 0.98 100 up
> 5 ssd 1.74609 1.00000 1.7 TiB 103 GiB 102 GiB 123 MiB 901 MiB 1.6
> TiB 5.78 1.00 49 up
> 11 ssd 1.74609 1.00000 1.7 TiB 109 GiB 108 GiB 63 MiB 961 MiB 1.6
> TiB 6.09 1.05 46 up
> 17 ssd 1.74609 1.00000 1.7 TiB 104 GiB 103 GiB 205 MiB 819 MiB 1.6
> TiB 5.81 1.01 50 up
> 23 ssd 3.49219 1.00000 3.5 TiB 210 GiB 209 GiB 168 MiB 856 MiB 3.3
> TiB 5.86 1.01 86 up
> 29 ssd 3.49219 1.00000 3.5 TiB 204 GiB 203 GiB 272 MiB 752 MiB 3.3
> TiB 5.69 0.98 92 up
> 34 ssd 3.49219 1.00000 3.5 TiB 198 GiB 197 GiB 295 MiB 729 MiB 3.3
> TiB 5.54 0.96 85 up
> 4 ssd 1.74609 1.00000 1.7 TiB 119 GiB 118 GiB 16 KiB 1024 MiB 1.6
> TiB 6.67 1.15 50 up
> 10 ssd 1.74609 1.00000 1.7 TiB 95 GiB 94 GiB 183 MiB 841 MiB 1.7
> TiB 5.31 0.92 46 up
> 16 ssd 1.74609 1.00000 1.7 TiB 102 GiB 101 GiB 122 MiB 902 MiB 1.6
> TiB 5.72 0.99 50 up
> 22 ssd 3.49219 1.00000 3.5 TiB 218 GiB 217 GiB 109 MiB 915 MiB 3.3
> TiB 6.11 1.06 91 up
> 28 ssd 3.49219 1.00000 3.5 TiB 198 GiB 197 GiB 343 MiB 681 MiB 3.3
> TiB 5.54 0.96 95 up
> 33 ssd 3.49219 1.00000 3.5 TiB 198 GiB 196 GiB 297 MiB 1019 MiB 3.3
> TiB 5.53 0.96 85 up
> 1 ssd 1.74609 1.00000 1.7 TiB 101 GiB 100 GiB 222 MiB 802 MiB 1.6
> TiB 5.63 0.97 49 up
> 7 ssd 1.74609 1.00000 1.7 TiB 102 GiB 101 GiB 153 MiB 871 MiB 1.6
> TiB 5.69 0.99 46 up
> 13 ssd 1.74609 1.00000 1.7 TiB 106 GiB 105 GiB 67 MiB 957 MiB 1.6
> TiB 5.96 1.03 42 up
> 19 ssd 3.49219 1.00000 3.5 TiB 206 GiB 205 GiB 179 MiB 845 MiB 3.3
> TiB 5.77 1.00 83 up
> 25 ssd 3.49219 1.00000 3.5 TiB 195 GiB 194 GiB 352 MiB 672 MiB 3.3
> TiB 5.45 0.94 97 up
> 31 ssd 3.49219 1.00000 3.5 TiB 201 GiB 200 GiB 305 MiB 719 MiB 3.3
> TiB 5.62 0.97 90 up
> 0 ssd 1.74609 1.00000 1.7 TiB 110 GiB 109 GiB 29 MiB 995 MiB 1.6
> TiB 6.14 1.06 43 up
> 3 ssd 1.74609 1.00000 1.7 TiB 109 GiB 108 GiB 28 MiB 996 MiB 1.6
> TiB 6.07 1.05 41 up
> 9 ssd 1.74609 1.00000 1.7 TiB 103 GiB 102 GiB 149 MiB 875 MiB 1.6
> TiB 5.76 1.00 52 up
> 15 ssd 3.49219 1.00000 3.5 TiB 209 GiB 208 GiB 253 MiB 771 MiB 3.3
> TiB 5.83 1.01 98 up
> 21 ssd 3.49219 1.00000 3.5 TiB 199 GiB 198 GiB 302 MiB 722 MiB 3.3
> TiB 5.56 0.96 90 up
> 27 ssd 3.49219 1.00000 3.5 TiB 208 GiB 207 GiB 226 MiB 798 MiB 3.3
> TiB 5.81 1.00 95 up
> 2 ssd 1.74609 1.00000 1.7 TiB 96 GiB 95 GiB 158 MiB 866 MiB 1.7
> TiB 5.35 0.93 45 up
> 8 ssd 1.74609 1.00000 1.7 TiB 106 GiB 105 GiB 132 MiB 892 MiB 1.6
> TiB 5.91 1.02 50 up
> 14 ssd 1.74609 1.00000 1.7 TiB 96 GiB 95 GiB 180 MiB 844 MiB 1.7
> TiB 5.35 0.92 46 up
> 20 ssd 3.49219 1.00000 3.5 TiB 221 GiB 220 GiB 156 MiB 868 MiB 3.3
> TiB 6.18 1.07 101 up
> 26 ssd 3.49219 1.00000 3.5 TiB 206 GiB 205 GiB 332 MiB 692 MiB 3.3
> TiB 5.76 1.00 92 up
> 32 ssd 3.49219 1.00000 3.5 TiB 221 GiB 220 GiB 88 MiB 936 MiB 3.3
> TiB 6.18 1.07 91 up
> TOTAL 94 TiB 5.5 TiB 5.4 TiB 6.4 GiB 30 GiB 89
> TiB 5.78
> MIN/MAX VAR: 0.90/1.15 STDDEV: 0.30
>
>
> root@storage2n2-la:~# podman exec -it ceph-mon-storage2n2-la ceph -s
> cluster:
> id: 9b4468b7-5bf2-4964-8aec-4b2f4bee87ad
> health: HEALTH_OK
>
> services:
> mon: 3 daemons, quorum storage2n1-la,storage2n2-la,storage2n3-la
> (age 9w)
> mgr: storage2n2-la(active, since 9w), standbys: storage2n1-la,
> storage2n3-la
> mds: cephfs:1 {0=storage2n6-la=up:active} 1 up:standby-replay 1
> up:standby
> osd: 36 osds: 36 up (since 9w), 36 in (since 9w)
>
> data:
> pools: 3 pools, 832 pgs
> objects: 4.18M objects, 1.8 TiB
> usage: 5.5 TiB used, 89 TiB / 94 TiB avail
> pgs: 832 active+clean
>
> io:
> client: 852 B/s rd, 15 KiB/s wr, 4 op/s rd, 2 op/s wr
>
>
>
>
>
> _______________________________________________
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>
>
>
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