From: Kay Diederichs Subject: Re: ext4 performance regression 2.6.27-stable versus 2.6.32 and later Date: Mon, 02 Aug 2010 16:52:32 +0200 Message-ID: <4C56DBB0.9080405@uni-konstanz.de> References: <4C508A54.7070002@uni-konstanz.de> <20100729232856.GP655@dastard> Mime-Version: 1.0 Content-Type: text/plain; charset=ISO-8859-1 Content-Transfer-Encoding: 7bit Cc: linux , Ext4 Developers List , Karsten Schaefer To: Dave Chinner Return-path: In-Reply-To: <20100729232856.GP655@dastard> Sender: linux-kernel-owner@vger.kernel.org List-Id: linux-ext4.vger.kernel.org Dave Chinner schrieb: > On Wed, Jul 28, 2010 at 09:51:48PM +0200, Kay Diederichs wrote: >> Dear all, >> >> we reproducibly find significantly worse ext4 performance when our >> fileservers run 2.6.32 or later kernels, when compared to the >> 2.6.27-stable series. >> >> The hardware is RAID5 of 5 1TB WD10EACS disks (giving almost 4TB) in an >> external eSATA enclosure (STARDOM ST6600); disks are not partitioned but >> rather the complete disks are used: >> md5 : active raid5 sde[0] sdg[5] sdd[3] sdc[2] sdf[1] >> 3907045376 blocks super 1.2 level 5, 512k chunk, algorithm 2 [5/5] >> [UUUUU] >> >> The enclosure is connected using a Silicon Image (supported by >> sata_sil24) PCIe-X1 adapter to one of our fileservers (either the backup >> fileserver, 32bit desktop hardware with Intel(R) Pentium(R) D CPU >> 3.40GHz, or a production-fileserver 64bit Precision WorkStation 670 w/ 2 >> Xeon 3.2GHz). >> >> The ext4 filesystem was created using >> mke2fs -j -T largefile -E stride=128,stripe_width=512 -O extent,uninit_bg >> It is mounted with noatime,data=writeback >> >> As operating system we usually use RHEL5.5, but to exclude problems with >> self-compiled kernels, we also booted USB sticks with latest Fedora12 >> and FC13 . >> >> Our benchmarks consist of copying 100 6MB files from and to the RAID5, >> over NFS (NVSv3, GB ethernet, TCP, async export), and tar-ing and >> rsync-ing kernel trees back and forth. Before and after each individual >> benchmark part, we "sync" and "echo 3 > /proc/sys/vm/drop_caches" on >> both the client and the server. >> >> The problem: >> with 2.6.27.48 we typically get: >> 44 seconds for preparations >> 23 seconds to rsync 100 frames with 597M from nfs directory >> 33 seconds to rsync 100 frames with 595M to nfs directory >> 50 seconds to untar 24353 kernel files with 323M to nfs directory >> 56 seconds to rsync 24353 kernel files with 323M from nfs directory >> 67 seconds to run xds_par in nfs directory (reads and writes 600M) >> 301 seconds to run the script >> >> with 2.6.32.16 we find: >> 49 seconds for preparations >> 23 seconds to rsync 100 frames with 597M from nfs directory >> 261 seconds to rsync 100 frames with 595M to nfs directory >> 74 seconds to untar 24353 kernel files with 323M to nfs directory >> 67 seconds to rsync 24353 kernel files with 323M from nfs directory >> 290 seconds to run xds_par in nfs directory (reads and writes 600M) >> 797 seconds to run the script >> >> This is quite reproducible (times varying about 1-2% or so). All times >> include reading and writing on the client side (stock CentOS5.5 Nehalem >> machines with fast single SATA disks). The 2.6.32.16 times are the same >> with FC12 and FC13 (booted from USB stick). >> >> The 2.6.27-versus-2.6.32+ regression cannot be due to barriers because >> md RAID5 does not support barriers ("JBD: barrier-based sync failed on >> md5 - disabling barriers"). >> >> What we tried: noop and deadline schedulers instead of cfq; >> modifications of /sys/block/sd[c-g]/queue/max_sectors_kb; switching >> on/off NCQ; blockdev --setra 8192 /dev/md5; increasing >> /sys/block/md5/md/stripe_cache_size >> >> When looking at the I/O statistics while the benchmark is running, we >> see very choppy patterns for 2.6.32, but quite smooth stats for >> 2.6.27-stable. >> >> It is not an NFS problem; we see the same effect when transferring the >> data using an rsync daemon. We believe, but are not sure, that the >> problem does not exist with ext3 - it's not so quick to re-format a 4 TB >> volume. >> >> Any ideas? We cannot believe that a general ext4 regression should have >> gone unnoticed. So is it due to the interaction of ext4 with md-RAID5 ? > > Try reverting 50797481a7bdee548589506d7d7b48b08bc14dcd (ext4: Avoid > group preallocation for closed files). IIRC it caused the same sort > of isevere performance regressions for postmark.... > > Cheers, > > Dave. Dave, as you suggested, we reverted "ext4: Avoid group preallocation for closed files" and this indeed fixes a big part of the problem: after booting the NFS server we get NFS-Server: turn5 2.6.32.16p i686 NFS-Client: turn10 2.6.18-194.8.1.el5 x86_64 exported directory on the nfs-server: /dev/md5 /mnt/md5 ext4 rw,seclabel,noatime,barrier=1,stripe=512,data=writeback 0 0 48 seconds for preparations 28 seconds to rsync 100 frames with 597M from nfs directory 57 seconds to rsync 100 frames with 595M to nfs directory 70 seconds to untar 24353 kernel files with 323M to nfs directory 57 seconds to rsync 24353 kernel files with 323M from nfs directory 133 seconds to run xds_par in nfs directory 425 seconds to run the script For blktrace details, see my next email which is a response to Ted's. best, Kay