Re: Slow file transfer speeds with CFQ IO scheduler in some cases
From: Vladislav Bolkhovitin
Date: Tue Nov 25 2008 - 06:42:25 EST
Wu Fengguang wrote:
On Tue, Nov 25, 2008 at 01:59:53PM +0300, Vladislav Bolkhovitin wrote:
Wu Fengguang wrote:
Hi all,
//Sorry for being late.
On Wed, Nov 12, 2008 at 08:02:28PM +0100, Jens Axboe wrote:
[...]
I already talked about this with Jeff on irc, but I guess should post it
here as well.
nfsd aside (which does seem to have some different behaviour skewing the
results), the original patch came about because dump(8) has a really
stupid design that offloads IO to a number of processes. This basically
makes fairly sequential IO more random with CFQ, since each process gets
its own io context. My feeling is that we should fix dump instead of
introducing a fair bit of complexity (and slowdown) in CFQ. I'm not
aware of any other good programs out there that would do something
similar, so I don't think there's a lot of merrit to spending cycles on
detecting cooperating processes.
Jeff will take a look at fixing dump instead, and I may have promised
him that santa will bring him something nice this year if he does (since
I'm sure it'll be painful on the eyes).
This could also be fixed at the VFS readahead level.
In fact I've seen many kinds of interleaved accesses:
- concurrently reading 40 files that are in fact hard links of one single file
- a backup tool that splits a big file into 8k chunks, and serve the
{1, 3, 5, 7, ...} chunks in one process and the {0, 2, 4, 6, ...}
chunks in another one
- a pool of NFSDs randomly serving some originally sequential read
requests - now dump(8) seems to have some similar problem.
In summary there have been all kinds of efforts on trying to
parallelize I/O tasks, but unfortunately they can easily screw up the
sequential pattern. It may not be easily fixable for many of them.
It is however possible to detect most of these patterns at the
readahead layer and restore sequential I/Os, before they propagate
into the block layer and hurt performance.
I believe this would be the most effective way to go, especially in case
if data delivery path to the original client has its own latency
depended from the amount of transferred data as it is in the case of
remote NFS mount, which does synchronous sequential reads. In this case
it is essential for performance to make both links (local to the storage
and network to the client) be always busy and transfer data
simultaneously. Since the reads are synchronous, the only way to achieve
that is perform read ahead on the server sufficient to cover the network
link latency. Otherwise you would end up with only half of possible
throughput.
However, from one side, server has to have a pool of threads/processes
to perform well, but, from other side, current read ahead code doesn't
detect too well that those threads/processes are doing joint sequential
read, so the read ahead window gets smaller, hence the overall read
performance gets considerably smaller too.
Vitaly, if that's what you need, I can try to prepare a patch for testing out.
I can test it with SCST SCSI target sybsystem (http://scst.sf.net). SCST
needs such feature very much, otherwise it can't get full backstorage
read speed. The maximum I can see is about ~80MB/s from ~130MB/s 15K RPM
disk over 1Gbps iSCSI link (maximum possible is ~110MB/s).
Thank you very much!
BTW, do you implicate that the SCSI system (or its applications) has
similar behaviors that the current readahead code cannot handle well?
No. SCSI target subsystem is not the same as SCSI initiator subsystem,
which usually called simply SCSI (sub)system. SCSI target is a SCSI
server. It has the same amount of common with SCSI initiator as there
is, e.g., between Apache (HTTP server) and Firefox (HTTP client).
Thanks,
Fengguang
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