Return-Path: Received: from fieldses.org ([173.255.197.46]:39503 "EHLO fieldses.org" rhost-flags-OK-OK-OK-OK) by vger.kernel.org with ESMTP id S1753067AbbCRVLp (ORCPT ); Wed, 18 Mar 2015 17:11:45 -0400 Date: Wed, 18 Mar 2015 17:11:44 -0400 From: "J. Bruce Fields" To: Anna Schumaker Cc: linux-nfs@vger.kernel.org Subject: Re: [PATCH v3 3/3] NFSD: Add support for encoding multiple segments Message-ID: <20150318211144.GB10716@fieldses.org> References: <1426540688-32095-1-git-send-email-Anna.Schumaker@Netapp.com> <1426540688-32095-4-git-send-email-Anna.Schumaker@Netapp.com> <20150317195633.GC29843@fieldses.org> <20150317200738.GD29843@fieldses.org> <20150317213654.GE29843@fieldses.org> <5509C0FD.70309@Netapp.com> <20150318185545.GF8818@fieldses.org> <5509E27C.3080004@Netapp.com> <20150318205554.GA10716@fieldses.org> <5509E824.6070006@Netapp.com> MIME-Version: 1.0 Content-Type: text/plain; charset=us-ascii In-Reply-To: <5509E824.6070006@Netapp.com> Sender: linux-nfs-owner@vger.kernel.org List-ID: On Wed, Mar 18, 2015 at 05:03:32PM -0400, Anna Schumaker wrote: > On 03/18/2015 04:55 PM, J. Bruce Fields wrote: > > On Wed, Mar 18, 2015 at 04:39:24PM -0400, Anna Schumaker wrote: > >> On 03/18/2015 02:55 PM, J. Bruce Fields wrote: > >>> On Wed, Mar 18, 2015 at 02:16:29PM -0400, Anna Schumaker wrote: > >>>> On 03/17/2015 05:36 PM, J. Bruce Fields wrote: > >>>>> On Tue, Mar 17, 2015 at 04:07:38PM -0400, J. Bruce Fields wrote: > >>>>>> On Tue, Mar 17, 2015 at 03:56:33PM -0400, J. Bruce Fields wrote: > >>>>>>> On Mon, Mar 16, 2015 at 05:18:08PM -0400, Anna Schumaker wrote: > >>>>>>>> This patch implements sending an array of segments back to the client. > >>>>>>>> Clients should be prepared to handle multiple segment reads to make this > >>>>>>>> useful. We try to splice the first data segment into the XDR result, > >>>>>>>> and remaining segments are encoded directly. > >>>>>>> > >>>>>>> I'm still interested in what would happen if we started with an > >>>>>>> implementation like: > >>>>>>> > >>>>>>> - if the entire requested range falls within a hole, return that > >>>>>>> single hole. > >>>>>>> - otherwise, just treat the thing as one big data segment. > >>>>>>> > >>>>>>> That would provide a benefit in the case there are large-ish holes > >>>>>>> with minimal impact otherwise. > >>>>>>> > >>>>>>> (Though patches for full support are still useful even if only for > >>>>>>> client-testing purposes.) > >>>>>> > >>>>>> Also, looks like > >>>>>> > >>>>>> xvs_io -c "fiemap -v" > >>>>>> > >>>>>> will give hole sizes for a given . (Thanks, esandeen.) Running > >>>>>> that on a few of my test vm images shows a fair number of large > >>>>>> (hundreds of megs) files, which suggests identifying only >=rwsize holes > >>>>>> might still be useful. > >>>>> > >>>>> Just for fun.... I wrote the following test program and ran it on my > >>>>> collection of testing vm's. Some looked like this: > >>>>> > >>>>> f21-1.qcow2 > >>>>> 144784 -rw-------. 1 qemu qemu 8591507456 Mar 16 10:13 f21-1.qcow2 > >>>>> total hole bytes: 8443252736 (98%) > >>>>> in aligned 1MB chunks: 8428453888 (98%) > >>>>> > >>>>> So, basically, read_plus would save transferring most of the data even > >>>>> when only handling 1MB holes. > >>>>> > >>>>> But some looked like this: > >>>>> > >>>>> 501524 -rw-------. 1 qemu qemu 8589934592 May 20 2014 rhel6-1-1.img > >>>>> total hole bytes: 8077516800 (94%) > >>>>> in aligned 1MB chunks: 0 (0%) > >>>>> > >>>>> So the READ_PLUS that caught every hole might save a lot, the one that > >>>>> only caught 1MB holes wouldn't help at all. > >>>>> > >>>>> And there were lots of examples in between those two extremes. > >>>> > >>>> I tested with three different 512 MB files: 100% data, 100% hole, and alternating every megabyte. The results were surprising: > >>>> > >>>> | v4.1 | v4.2 > >>>> ----------------------- > >>>> data | 0.685s | 0.714s > >>>> hole | 0.485s | 15.547s > >>>> mixed | 1.283s | 0.448 > >>>> > >>>> >From what I can tell, the 100% hole case takes so long because of the > >>>>> SEEK_DATA call in nfsd4_encode_read_plus_hole(). I took this out to > >>>>> trick the function into thinking that the entire file was already a > >>>>> hole, and runtime dropped to the levels of v4.1 and v4.2. > >>> > >>> Wait, that 15s is due to just one SEEK_DATA? > >> > >> The server is returning a larger hole than the client can read at once, so there are several SEEK_DATA calls made to verify that there are no data segments before the end of the file. > >> > >>> > >>>> I wonder > >>>>> if this is filesystem dependent? My server is exporting ext4. > >>> > >>> Sounds like just a bug. I've been doing lots of lseek(.,.,SEEK_DATA) on > >>> both ext4 and xfs without seeing anything that weird. > >> > >> It looks like something weird on ext4. I switched my exported filesystem to xfs: > > > > Huh. Maybe we should report a bug.... > > > >> > >> | v4.1 | v4.2 > >> ------+--------+------- > >> data | 0.764s | 1.343s > > > > That's too bad. Non-sparse files are surely still a common case and > > we'd like to not see a slowdown there.... I wonder if we can figure out > > where it's coming from? > > That's a good question, especially since the 1G file didn't double this time. Maybe a VM quirk? We definitely need to figure it out, I think. If we can't make READ_PLUS perform as well as READ (or very close to it) in the non-sparse case then I don't think we'll want it, and as Trond suggested we may want to consider something more fiemap-like instead. I don't know, maybe the client could try to be clever and only use READ_PLUS if the space_used/size ratio is lower than some threshhold, but it could get a little complicated to tune. It's annoying that asking "does this range contain zeroes" is actually taking longer than just reading the whole range.... --b.