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From: Luis Henriques <lhenriques@suse.com>
To: Jeff Layton <jlayton@kernel.org>, Sage Weil <sage@redhat.com>,
Ilya Dryomov <idryomov@gmail.com>,
"Yan, Zheng" <zyan@redhat.com>, Gregory Farnum <gfarnum@redhat.com>
Cc: ceph-devel@vger.kernel.org, linux-kernel@vger.kernel.org,
Luis Henriques <lhenriques@suse.com>
Subject: [PATCH v2 0/1] parallel 'copy-from' Ops in copy_file_range
Date: Wed, 29 Jan 2020 18:20:10 +0000
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parallel 'copy-from' Ops in copy_file_range
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Hi, Here's a re-spin of the patchset (now a single patch!) to improve copy_file_range performance by parallelizing the OSD requests. Changelog since v1 (the RFC): - Dropped synchronous version of ceph_osdc_copy_from * This was the reason for merging the patchset into a single patch, as changing ceph_osdc_copy_from definition would break bisectability - Moved wait_copy_from_reqs into libceph, renaming it to ceph_osdc_wait_requests - Use ->r_private_item instead of adding a new list_head into struct ceph_osd_request - Dropped the module parameter (used for testing) and added the throttling mechanism using the formula suggested by Ilya. For reference, here's the original RFC cover letter (fixed typo in results table: 'throttle=5' should be 'throttle=0'). -------------------------------------------------------------------------- As discussed here[1] I'm sending an RFC patchset that does the parallelization of the requests sent to the OSDs during a copy_file_range syscall in CephFS. [1] https://lore.kernel.org/lkml/20200108100353.23770-1-lhenriques@suse.com/ I've also some performance numbers that I wanted to share. Here's a description of the very simple tests I've run: - create a file with 200 objects in it * i.e. tests with different object sizes mean different file sizes - drop all caches and umount the filesystem - Measure: * mount filesystem * full file copy (with copy_file_range) * umount filesystem Tests were repeated several times and the average value was used for comparison. DISCLAIMER: These numbers are only indicative, and different clusters and client configs will for sure show different performance! More rigorous tests would be require to validate these results. Having as baseline a full read+write (basically, a copy_file_range operation within a filesystem mounted without the 'copyfrom' option), here's some values for different object sizes: 8M 4M 1M 65k read+write 100% 100% 100% 100% sequential 51% 52% 83% >100% parallel (throttle=1) 51% 52% 83% >100% parallel (throttle=0) 17% 17% 83% >100% Notes: - 'parallel (throttle=0)' was a test where *all* the requests (i.e. 200 requests to copy the 200 objects in the file) were sent to the OSDs and the wait for requests completion is done at the end only. - 'parallel (throttle=1)' was just a control test, where the wait for completion is done immediately after a request is sent. It was expected to be very similar to the non-optimized ('sequential') tests. - These tests were executed on a cluster with 40 OSDs, spread across 5 (bare-metal) nodes. - The tests with object size of 65k show that copy_file_range definitely doesn't scale to files with small object sizes. '> 100%' actually means more than 10x slower. Measuring the mount+copy+umount masks the actual difference between different throttle values due to the time spent in mount+umount. Thus, there was no real difference between throttle=0 (send all and wait) and throttle=20 (send 20, wait, send 20, ...). But here's what I observed when measuring only the copy operation (4M object size): read+write 100% parallel (throttle=1) 56% parallel (throttle=5) 23% parallel (throttle=10) 14% parallel (throttle=20) 9% parallel (throttle=0) 5% Anyway, I'll still need to revisit patch 0003 as it doesn't follow the suggestion done by Jeff to *not* add another knob to fine-tune the throttle value -- this patch adds a kernel parameter for a knob that I wanted to use in my testing to observe different values of this throttle limit. The goal is to probably to drop this patch and do the throttling in patch 0002. I just need to come up with a decent heuristic. Jeff's suggestion was to use rsize/wsize, which are set to 64M by default IIRC. Somehow I feel that it should be related to the number of OSDs in the cluster instead, but I'm not sure how. And testing these sort of heuristics would require different clusters, which isn't particularly easy to get. Anyway, comments are welcome! Cheers, -- Luis Luis Henriques (1): ceph: parallelize all copy-from requests in copy_file_range fs/ceph/file.c | 34 ++++++++++++++++++++-- include/linux/ceph/osd_client.h | 5 +++- net/ceph/osd_client.c | 50 ++++++++++++++++++++++++--------- 3 files changed, 72 insertions(+), 17 deletions(-)