Return-Path: Received: from mga09.intel.com ([134.134.136.24]:32706 "EHLO mga09.intel.com" rhost-flags-OK-OK-OK-OK) by vger.kernel.org with ESMTP id S1752418AbZBSBfr (ORCPT ); Wed, 18 Feb 2009 20:35:47 -0500 Date: Thu, 19 Feb 2009 09:35:43 +0800 From: Wu Fengguang To: Vladislav Bolkhovitin Cc: Jens Axboe , Jeff Moyer , "Vitaly V. Bursov" , linux-kernel@vger.kernel.org, linux-nfs@vger.kernel.org Subject: Re: Slow file transfer speeds with CFQ IO scheduler in some cases Message-ID: <20090219013543.GA5743@localhost> References: <492BE97A.3050606@vlnb.net> <492BEAE8.9050809@vlnb.net> <20081125121534.GA16778@localhost> <492EDCFB.7080302@vlnb.net> <20081128004830.GA8874@localhost> <49946BE6.1040005@vlnb.net> <20090213015721.GA5565@localhost> <4995D339.5050502@vlnb.net> <20090216023402.GA6199@localhost> <499B09FB.1070909@vlnb.net> Content-Type: text/plain; charset=us-ascii In-Reply-To: <499B09FB.1070909@vlnb.net> Sender: linux-nfs-owner@vger.kernel.org List-ID: MIME-Version: 1.0 On Tue, Feb 17, 2009 at 10:03:23PM +0300, Vladislav Bolkhovitin wrote: > Wu Fengguang, on 02/16/2009 05:34 AM wrote: >> On Fri, Feb 13, 2009 at 11:08:25PM +0300, Vladislav Bolkhovitin wrote: >>> Wu Fengguang, on 02/13/2009 04:57 AM wrote: >>>> On Thu, Feb 12, 2009 at 09:35:18PM +0300, Vladislav Bolkhovitin wrote: >>>>> Sorry for such a huge delay. There were many other activities I >>>>> had to do before + I had to be sure I didn't miss anything. >>>>> >>>>> We didn't use NFS, we used SCST (http://scst.sourceforge.net) >>>>> with iSCSI-SCST target driver. It has similar to NFS >>>>> architecture, where N threads (N=5 in this case) handle IO from >>>>> remote initiators (clients) coming from wire using iSCSI >>>>> protocol. In addition, SCST has patch called >>>>> export_alloc_io_context (see >>>>> http://lkml.org/lkml/2008/12/10/282), which allows for the IO >>>>> threads queue IO using single IO context, so we can see if >>>>> context RA can replace grouping IO threads in single IO >>>>> context. >>>>> >>>>> Unfortunately, the results are negative. We find neither any >>>>> advantages of context RA over current RA implementation, nor >>>>> possibility for context RA to replace grouping IO threads in >>>>> single IO context. >>>>> >>>>> Setup on the target (server) was the following. 2 SATA drives >>>>> grouped in md RAID-0 with average local read throughput ~120MB/s >>>>> ("dd if=/dev/zero of=/dev/md0 bs=1M count=20000" outputs >>>>> "20971520000 bytes (21 GB) copied, 177,742 s, 118 MB/s"). The md >>>>> device was partitioned on 3 partitions. The first partition was >>>>> 10% of space in the beginning of the device, the last partition >>>>> was 10% of space in the end of the device, the middle one was >>>>> the rest in the middle of the space them. Then the first and the >>>>> last partitions were exported to the initiator (client). They >>>>> were /dev/sdb and /dev/sdc on it correspondingly. >>>> Vladislav, Thank you for the benchmarks! I'm very interested in >>>> optimizing your workload and figuring out what happens underneath. >>>> >>>> Are the client and server two standalone boxes connected by GBE? >>> Yes, they directly connected using GbE. >>> >>>> When you set readahead sizes in the benchmarks, you are setting them >>>> in the server side? I.e. "linux-4dtq" is the SCST server? >>> Yes, it's the server. On the client all the parameters were left default. >>> >>>> What's the >>>> client side readahead size? >>> Default, i.e. 128K >>> >>>> It would help a lot to debug readahead if you can provide the >>>> server side readahead stats and trace log for the worst case. >>>> This will automatically answer the above questions as well as disclose >>>> the micro-behavior of readahead: >>>> >>>> mount -t debugfs none /sys/kernel/debug >>>> >>>> echo > /sys/kernel/debug/readahead/stats # reset counters >>>> # do benchmark >>>> cat /sys/kernel/debug/readahead/stats >>>> >>>> echo 1 > /sys/kernel/debug/readahead/trace_enable >>>> # do micro-benchmark, i.e. run the same benchmark for a short time >>>> echo 0 > /sys/kernel/debug/readahead/trace_enable >>>> dmesg >>>> >>>> The above readahead trace should help find out how the client side >>>> sequential reads convert into server side random reads, and how we can >>>> prevent that. >>> We will do it as soon as we have a free window on that system. >> >> Thank you. For NFS, the client side read/readahead requests will be >> split into units of rsize which will be served by a pool of nfsd >> concurrently and possibly out of order. Does SCST have the same >> process? If so, what's the rsize value for your SCST benchmarks? > > No, there is no such splitting in SCST. Client sees raw SCSI disks from > server and what client sends is directly and in full size sent by the > server to its backstorage using regular buffered read() > (fd->f_op->aio_read() followed by > wait_on_retry_sync_kiocb()/wait_on_sync_kiocb() to be precise). Then it's weird that the server is seeing 1-page sized read requests: readahead-marker(pid=3844(vdiskd4_4), dev=00:02(bdev), ino=0(raid-3rd), req=9160+1, ra=9192+32-32, async=1) = 32 readahead-marker(pid=3842(vdiskd4_2), dev=00:02(bdev), ino=0(raid-3rd), req=9192+1, ra=9224+32-32, async=1) = 32 readahead-marker(pid=3841(vdiskd4_1), dev=00:02(bdev), ino=0(raid-3rd), req=9224+1, ra=9256+32-32, async=1) = 32 readahead-marker(pid=3844(vdiskd4_4), dev=00:02(bdev), ino=0(raid-3rd), req=9256+1, ra=9288+32-32, async=1) = 32 Here the first line means a 32-page readahead I/O was submitted for a 1-page read request. The 1-page read size only adds overheads to CPU/NIC, but not disk I/O. The trace shows that readahead is doing a good job, however the readahead size is the default 128K, not 2M. That's a big problem. The command "blockdev --setra 4096 /dev/sda" takes no effect at all. Maybe you should put that command after mdadm? i.e. linux-4dtq:~ # mdadm --assemble /dev/md0 /dev/sd[ab] linux-4dtq:~ # blockdev --setra 4096 /dev/sda linux-4dtq:~ # blockdev --setra 4096 /dev/sdb Thanks, Fengguang