* RAID6 + XFS + Application Workload write performance question
@ 2017-10-30 16:43 Kyle Ames
2017-10-30 21:39 ` Dave Chinner
2017-10-31 11:06 ` Emmanuel Florac
0 siblings, 2 replies; 3+ messages in thread
From: Kyle Ames @ 2017-10-30 16:43 UTC (permalink / raw)
To: linux-xfs
Hello!
I’m trying to track down odd write performance from a test of our application’s I/O workload. Admittedly I am not extremely experienced with this domain (file systems, storage, tuning, etc.). I’ve done a ton of research and I think I’ve gotten as far as I possibly can without reaching out for help from domain experts.
Here is the setup:
OS: CentOS 7.3
Kernel: 3.10.0-693.2.2.el7.x86_64
RAID: LSI RAID controller - RAID 6 with 10 disks - Strip Size 128 (and thus a stripe size of 1MB if I understand correctly)
LVM: One PV, VG, and LV is built on top of the RAID6. The output is below.
RAID output:
-----------------------------------------------------------------
DG/VD TYPE State Access Consist Cache Cac sCC Size Name
-----------------------------------------------------------------
0/0 RAID6 Optl RW No RAWBD - ON 72.761 TB DATA
----------------------------------------------------------------------------
EID:Slt DID State DG Size Intf Med SED PI SeSz Model Sp Type
----------------------------------------------------------------------------
18:0 35 Onln 0 9.094 TB SAS HDD N N 512B ST10000NM0096 U -
18:1 39 Onln 0 9.094 TB SAS HDD N N 512B ST10000NM0096 U -
18:2 38 Onln 0 9.094 TB SAS HDD N N 512B ST10000NM0096 U -
18:3 41 Onln 0 9.094 TB SAS HDD N N 512B ST10000NM0096 U -
18:4 36 Onln 0 9.094 TB SAS HDD N N 512B ST10000NM0096 U -
18:5 37 Onln 0 9.094 TB SAS HDD N N 512B ST10000NM0096 U -
18:6 42 Onln 0 9.094 TB SAS HDD N N 512B ST10000NM0096 U -
18:7 45 Onln 0 9.094 TB SAS HDD N N 512B ST10000NM0096 U -
18:8 46 Onln 0 9.094 TB SAS HDD N N 512B ST10000NM0096 U -
18:9 44 Onln 0 9.094 TB SAS HDD N N 512B ST10000NM0096 U -
18:10 43 Onln 1 9.094 TB SAS HDD N N 512B ST10000NM0096 U -
18:11 40 Onln 1 9.094 TB SAS HDD N N 512B ST10000NM0096 U -
Layered on top of this we have LVM with everything aligned to the stripe size.
--- Physical volume ---
PV Name /dev/sda
VG Name vgdata
PV Size 72.76 TiB / not usable 4.00 MiB
Allocatable yes (but full)
PE Size 4.00 MiB
Total PE 19074047
Free PE 0
Allocated PE 19074047
PV UUID GsHPeD-5uRM-SOUz-8eEO-kznf-zTaT-oEIx58
--- Volume group ---
VG Name vgdata
System ID
Format lvm2
Metadata Areas 1
Metadata Sequence No 4
VG Access read/write
VG Status resizable
MAX LV 0
Cur LV 1
Open LV 1
Max PV 0
Cur PV 1
Act PV 1
VG Size 72.76 TiB
PE Size 4.00 MiB
Total PE 19074047
Alloc PE / Size 19074047 / 72.76 TiB
Free PE / Size 0 / 0
VG UUID PKFh9X-3gTb-0GZO-vLAc-vdPI-lV6W-aoNDDU
--- Logical volume ---
LV Path /dev/vgdata/lvdata
LV Name lvdata
VG Name vgdata
LV UUID esOGWf-jV89-7euY-WV3h-MZ2p-uqmt-qXkC5F
LV Write Access read/write
LV Creation host, time XXXXXXX, 2017-10-25 14:34:06 +0000
LV Status available
# open 1
LV Size 72.76 TiB
Current LE 19074047
Segments 1
Allocation inherit
Read ahead sectors auto
- currently set to 256
Block device 253:0
Here is the output when the XFS filesystem is created:
mkfs.xfs -d su=128k,sw=8 -L DATA -f /dev/mapper/vgdata-lvdata
mkfs.xfs: Specified data stripe width 2048 is not the same as the volume stripe width 512 (KEA: I’m not sure if this is an actual problem or not from googling around)
meta-data=/dev/mapper/vgdata-lvdata isize=512 agcount=73, agsize=268435424 blks
= sectsz=4096 attr=2, projid32bit=1
= crc=1 finobt=0, sparse=0
data = bsize=4096 blocks=19531824128, imaxpct=1
= sunit=32 swidth=256 blks
naming =version 2 bsize=4096 ascii-ci=0 ftype=1
log =internal log bsize=4096 blocks=521728, version=2
= sectsz=4096 sunit=1 blks, lazy-count=1
realtime =none extsz=4096 blocks=0, rtextents=0
And finally the output of mount: (rw,relatime,attr2,inode64,sunit=256,swidth=2048,noquota)
Our application writes to a nested directory hierarchy as follows:
<THREAD>/<DATE>/<HOUR>/<MINUTE>/<DATE>-<HOUR><MINUTE<SECOND>.data
The writes to a file are all approximately 1MiB in size. Depending on our data rate, there are potentially 100-200 writes to a given file. Each second a new file is created. There are 4 such threads scheduling these writes. The writes to the files will be scheduled sequentially. The application can do AIO or blocking IO, both see the same problem.
In order to determine if our application is fully to blame, we are running a performance test by simulating the writes with a “dd if=/dev/zero of=<path/like/above>.data bs=1024K”. We let those dd processes write as much as they possibly can for a second before stopping them and moving on to the next file.
What we’re seeing is that write performance starts off around 1400-1500 MB/s, decreasing approximately linearly all the way down to around ~600 MB/s after ~18 minutes before suddenly shooting back up to 1400-1500 MB/s. This cycle continues, with the crest and troughs slowly decreasing as the disk fills up (which I believe is expected).
We tried running it with 2 threads. We saw the same degradation and recovery performance profile, except it took ~36 minutes to bottom out and recover. Likewise, with only 1 thread it took ~72 minutes. In all cases the pattern continued until the disk was full.
We thought perhaps the directory structure was problematic, so we tried the following directory structure too: <THREAD>/<DATE>/<DATE>-<HOUR><MINUTE<SECOND>.data. This also had one file per second. This time, it took about 12.2 hours for the performance to bottom out before instantly shooting back up again.
Some other notes:
- I ran the same test with an Adaptec RAID controller as well, which gave the same performance profile.
- I ran the same test with an ext4 filesystem just to see if it gave the same performance profile. It did not - the performance slowly degraded over time before a quick dropoff as the disk reached max capacity. I expected a different profile, but just wanted to run something to make sure that would be the case.
I’ve been trying to read about internals to correlate this performance profile with something, but since I’m so new to this it’s kind of tough to filter out noise and key in on something meaningful. If there is any information that I haven’t provided, please let me know and I’ll happily provide it.
Thanks!!!
-Kyle Ames
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^ permalink raw reply [flat|nested] 3+ messages in thread* Re: RAID6 + XFS + Application Workload write performance question
2017-10-30 16:43 RAID6 + XFS + Application Workload write performance question Kyle Ames
@ 2017-10-30 21:39 ` Dave Chinner
2017-10-31 11:06 ` Emmanuel Florac
1 sibling, 0 replies; 3+ messages in thread
From: Dave Chinner @ 2017-10-30 21:39 UTC (permalink / raw)
To: Kyle Ames; +Cc: linux-xfs
On Mon, Oct 30, 2017 at 04:43:15PM +0000, Kyle Ames wrote:
> Hello!
>
> I’m trying to track down odd write performance from a test of
> our application’s I/O workload. Admittedly I am not extremely
> experienced with this domain (file systems, storage, tuning,
> etc.). I’ve done a ton of research and I think I’ve gotten
> as far as I possibly can without reaching out for help from domain
> experts.
>
> Here is the setup:
>
> OS: CentOS 7.3
> Kernel: 3.10.0-693.2.2.el7.x86_64
> RAID: LSI RAID controller - RAID 6 with 10 disks - Strip Size 128 (and thus a stripe size of 1MB if I understand correctly)
[snip]
> mkfs.xfs -d su=128k,sw=8 -L DATA -f /dev/mapper/vgdata-lvdata
> mkfs.xfs: Specified data stripe width 2048 is not the same as the volume stripe width 512 (KEA: I’m not sure if this is an actual problem or not from googling around)
That's telling you there's a problem with your stripe alignment
setup somewhere. LVM is telling XFS that a total stripe width
of 256k, not 1MB. So it's likely your LVM setup isn't aligned/sized
properly to the RAID6 volume.
> meta-data=/dev/mapper/vgdata-lvdata isize=512 agcount=73, agsize=268435424 blks
73 ags.
<....>
> Our application writes to a nested directory hierarchy as follows:
>
> <THREAD>/<DATE>/<HOUR>/<MINUTE>/<DATE>-<HOUR><MINUTE<SECOND>.data
<snip>
> What we’re seeing is that write performance starts off around 1400-1500 MB/s, decreasing approximately linearly all the way down to around ~600 MB/s after ~18 minutes before suddenly shooting back up to 1400-1500 MB/s. This cycle continues, with the crest and troughs slowly decreasing as the disk fills up (which I believe is expected).
>
> We tried running it with 2 threads. We saw the same degradation and recovery performance profile, except it took ~36 minutes to bottom out and recover. Likewise, with only 1 thread it took ~72 minutes. In all cases the pattern continued until the disk was full.
72 minute cycle. Coincidence that it matches the AG count? Not at
all.
Once a minute, the workload changes directory. The directory for
the next minute gets put in the next AG. Over 73 minutes, we
have a set of files in 73 AGs. AG 0 is at the outer edge of
all the disks in the LUN. AG 73 is at the inner edge of all the
disks in the lun.
Typical manufacturer quoted transfer speed for spinning rust is
the outer edge (usually >200MB/s these days), so if we take into
latencies involved in writing to all disks at once, 190MB/s per disk
gives 1500MB/s.
However, at the inner edge of the disks, transfer rates to the media
are usually in the range of 50-100MB/s. 8x75MB/s = 600MB/s.
The cycle time was halved for two threads because there are 2
directories per minute, so it cycles through the 73 AGs at twice the
rate.
Essentially, XFS is demonstrating the exact performance of your
underlying array.
> We thought perhaps the directory structure was problematic, so we tried the following directory structure too: <THREAD>/<DATE>/<DATE>-<HOUR><MINUTE<SECOND>.data. This also had one file per second. This time, it took about 12.2 hours for the performance to bottom out before instantly shooting back up again.
Yup, this time you'll probably find it slowly walked AGs until it
ran out of stripe unit aligned free space, then it went back to AG 0
where the parent directory is and started filling holes.
So, two things - there's probably an issue with your stripe
alignment, and the behaviour you are seeing is a direct result of
the way XFS physically isolates per-directory data and the
underlying device performance across it's address space.
> Some other notes:
>
> - I ran the same test with an Adaptec RAID controller as well,
> which gave the same performance profile.
It should.
> - I ran the same test with an ext4 filesystem just to see if it
> gave the same performance profile. It did not - the performance
> slowly degraded over time before a quick dropoff as the disk
> reached max capacity. I expected a different profile, but just
> wanted to run something to make sure that would be the case.
Also as expected. ext4 fills from the outer edge to the inner edge -
it does not segregate directories to different regions of the
filesystem like XFS does.
Cheers,
Dave.
--
Dave Chinner
david@fromorbit.com
^ permalink raw reply [flat|nested] 3+ messages in thread
* Re: RAID6 + XFS + Application Workload write performance question
2017-10-30 16:43 RAID6 + XFS + Application Workload write performance question Kyle Ames
2017-10-30 21:39 ` Dave Chinner
@ 2017-10-31 11:06 ` Emmanuel Florac
1 sibling, 0 replies; 3+ messages in thread
From: Emmanuel Florac @ 2017-10-31 11:06 UTC (permalink / raw)
To: Kyle Ames; +Cc: linux-xfs
[-- Attachment #1: Type: text/plain, Size: 1501 bytes --]
Le Mon, 30 Oct 2017 16:43:15 +0000
Kyle Ames <kyle.ames@FireEye.com> écrivait:
> OS: CentOS 7.3
> Kernel: 3.10.0-693.2.2.el7.x86_64
> RAID: LSI RAID controller - RAID 6 with 10 disks - Strip Size 128
> (and thus a stripe size of 1MB if I understand correctly) LVM: One
> PV, VG, and LV is built on top of the RAID6. The output is below.
>
> RAID output:
> -----------------------------------------------------------------
> DG/VD TYPE State Access Consist Cache Cac sCC Size Name
> -----------------------------------------------------------------
> 0/0 RAID6 Optl RW No RAWBD - ON 72.761 TB DATA
>
> ----------------------------------------------------------------------------
> EID:Slt DID State DG Size Intf Med SED PI SeSz Model
> Sp Type
> ----------------------------------------------------------------------------
> 18:0 35 Onln 0 9.094 TB SAS HDD N N 512B ST10000NM0096
> U - 18:1 39 Onln 0 9.094 TB SAS HDD N N 512B
> ST10000NM0096 U -
Please note that 10TB disks are using 4k blocks. It's not the culprit
here, but using 512b emulated definitely isn't optimal for RAID
performance.
--
------------------------------------------------------------------------
Emmanuel Florac | Direction technique
| Intellique
| <eflorac@intellique.com>
| +33 1 78 94 84 02
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^ permalink raw reply [flat|nested] 3+ messages in thread
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