Per device dirty throttling patches
These patches aim to improve balance_dirty_pages() and directly address three
issues:
1) inter device starvation
2) stacked device deadlocks
3) inter process starvation
1 and 2 are a direct result from removing the global dirty limit and using
per device dirty limits. By giving each device its own dirty limit is will
no longer starve another device, and the cyclic dependancy on the dirty limit
is broken.
In order to efficiently distribute the dirty limit across the independant
devices a floating proportion is used, this will allocate a share of the total
limit proportional to the device's recent activity.
3 is done by also scaling the dirty limit proportional to the current task's
recent dirty rate.
Changes since -v7:
- perpcu_counter renames (partially suggested by Linus)
- percpu_counter error handling
- bdi_init error handling
- fwd port to .23-rc1-mm
---
#
# cleanups
#
nfs_congestion_fixup.patch
#
# percpu_counter rework
#
percpu_counter_add.patch
percpu_counter_batch.patch
percpu_counter_add64.patch
percpu_counter_set.patch
percpu_counter_sum_positive.patch
percpu_counter_sum.patch
percpu_counter_init.patch
percpu_counter_init_irq.patch
#
# per BDI dirty pages
#
bdi_init.patch
bdi_init_container.patch
bdi_init_mtd.patch
mtd-bdi-fixups.patch
bdi_mtdconcat.patch
bdi_stat.patch
bdi_stat_reclaimable.patch
bdi_stat_writeback.patch
bdi_stat_sysfs.patch
#
# floating proportions
#
proportions.patch
proportions_single.patch
#
# per BDI dirty
#
writeback-balance-per-backing_dev.patch
dirty_pages2.patch
#
# debug foo
#
bdi_stat_debug.patch
On Fri, 3 Aug 2007, Peter Zijlstra wrote:
>
> These patches aim to improve balance_dirty_pages() and directly address three
> issues:
> 1) inter device starvation
> 2) stacked device deadlocks
> 3) inter process starvation
Ok, the patches certainly look pretty enough, and you fixed the only thing
I complained about last time (naming), so as far as I'm concerned it's now
just a matter of whether it *works* or not. I guess being in -mm will help
somewhat, but it would be good to have people with several disks etc
actively test this out.
Linus
* Linus Torvalds <[email protected]> wrote:
> On Fri, 3 Aug 2007, Peter Zijlstra wrote:
> >
> > These patches aim to improve balance_dirty_pages() and directly address three
> > issues:
> > 1) inter device starvation
> > 2) stacked device deadlocks
> > 3) inter process starvation
>
> Ok, the patches certainly look pretty enough, and you fixed the only
> thing I complained about last time (naming), so as far as I'm
> concerned it's now just a matter of whether it *works* or not. I guess
> being in -mm will help somewhat, but it would be good to have people
> with several disks etc actively test this out.
There are positive reports in the never-ending "my system crawls like an
XT when copying large files" bugzilla entry:
http://bugzilla.kernel.org/show_bug.cgi?id=7372
" vfs_cache_pressure=1
TCQ nr_requests
8 128 not that bad
1 128 snappiest configuration, almost no pauses
(or unnoticable ones) "
" 1) vfs_cache_pressure at 100, 2.6.21.5+per bdi throttling patch
Result is good, not as snappier as I'd want during a large copy but
still usable. No process seems stuck for agen, but there seems to be
some short (second or subsecond) moment where everything is stuck
(like if you run a top d 0.5, the screen is not updated on a regular
basis).
2) vfs_cache_pressure at 1, 2.6.21.5+per bdi throttling patch Result
is at 2.6.17 level. It is the better combination since 2.6.17. "
" 1) I've applied the patches posted by Peter Zijlstra in comment #76
to the 2.6.21-mm2 kernel to check if it removes the problem. My
impression is that the problem is still there with those patches,
although less visible then with the clean 2.6.21 kernel. "
so the whole problem area seems to be a "perfect storm" created by a
combination of TCQ, IO scheduling and VM dirty handling weaknesses. Per
device dirty throttling is a good step forward and it makes a very
visible positive difference.
Ingo
* Ingo Molnar <[email protected]> wrote:
> There are positive reports in the never-ending "my system crawls like
> an XT when copying large files" bugzilla entry:
>
> http://bugzilla.kernel.org/show_bug.cgi?id=7372
i forgot this entry:
" We recently upgraded our office to gigabit Ethernet and got some big
AMD64 / 3ware boxes for file and vmware servers... only to find them
almost useless under any kind of real load. I've built some patched
2.6.21.6 kernels (using the bdi throttling patch you mentioned) to
see if our various Debian Etch boxes run better. So far my testing
shows a *great* improvement over the stock Debian 2.6.18 kernel on
our configurations. "
and bdi has been in -mm in the past i think, so we also know (to a
certain degree) that it does not hurt those workloads that are fine
either.
[ my personal interest in this is the following regression: every time i
start a large kernel build with DEBUG_INFO on a quad-core 4GB RAM box,
i get up to 30 seconds complete pauses in Vim (and most other tasks),
during plain editing of the source code. (which happens when Vim tries
to write() to its swap/undo-file.) ]
Ingo
On Sat, 4 Aug 2007, Ingo Molnar wrote:
> * Ingo Molnar <[email protected]> wrote:
>
>> There are positive reports in the never-ending "my system crawls like
>> an XT when copying large files" bugzilla entry:
>>
>> http://bugzilla.kernel.org/show_bug.cgi?id=7372
>
> i forgot this entry:
>
> " We recently upgraded our office to gigabit Ethernet and got some big
> AMD64 / 3ware boxes for file and vmware servers... only to find them
> almost useless under any kind of real load. I've built some patched
> 2.6.21.6 kernels (using the bdi throttling patch you mentioned) to
> see if our various Debian Etch boxes run better. So far my testing
> shows a *great* improvement over the stock Debian 2.6.18 kernel on
> our configurations. "
>
> and bdi has been in -mm in the past i think, so we also know (to a
> certain degree) that it does not hurt those workloads that are fine
> either.
>
> [ my personal interest in this is the following regression: every time i
> start a large kernel build with DEBUG_INFO on a quad-core 4GB RAM box,
> i get up to 30 seconds complete pauses in Vim (and most other tasks),
> during plain editing of the source code. (which happens when Vim tries
> to write() to its swap/undo-file.) ]
I have an issue that sounds like it's related.
I've got a syslog server that's got two Opteron 246 cpu's, 16G ram, 2x140G
15k rpm drives (fusion MPT hardware mirroring), 16x500G 7200rpm SATA
drives on 3ware 9500 cards (software raid6) running 2.6.20.3 with hz set
at default and preempt turned off.
I have syslog doing buffered writes to the SCSI drives and every 5 min a
cron job copies the data to the raid array.
I've found that if I do anything significant on the large raid array that
the system looses a significant amount of the UDP syslog traffic, even
though there should be pleanty of ram and cpu (and the spindles involved
in the writes are not being touched), even a grep can cause up to 40%
losses in the syslog traffic. I've experimented with nice levels (nicing
down the grep and nicing up the syslogd) without a noticable effect on the
losses.
I've been planning to try a new kernel with hz=1000 to see if that would
help, and after that experiment with the various preempt settings, but it
sounds like the per-device queues may actually be more relavent to the
problem.
what would you suggest I test, and in what order and combination?
David Lang
* Ingo Molnar <[email protected]> wrote:
> [ my personal interest in this is the following regression: every time
> i start a large kernel build with DEBUG_INFO on a quad-core 4GB RAM
> box, i get up to 30 seconds complete pauses in Vim (and most other
> tasks), during plain editing of the source code. (which happens when
> Vim tries to write() to its swap/undo-file.) ]
hm, it turns out that it's due to vim doing an occasional fsync not only
on writeout, but during normal use too. "set nofsync" in the .vimrc
solves this problem.
Ingo
(adding netdev cc:)
On 8/4/07, [email protected] <[email protected]> wrote:
> On Sat, 4 Aug 2007, Ingo Molnar wrote:
>
> > * Ingo Molnar <[email protected]> wrote:
> >
> >> There are positive reports in the never-ending "my system crawls like
> >> an XT when copying large files" bugzilla entry:
> >>
> >> http://bugzilla.kernel.org/show_bug.cgi?id=7372
> >
> > i forgot this entry:
> >
> > " We recently upgraded our office to gigabit Ethernet and got some big
> > AMD64 / 3ware boxes for file and vmware servers... only to find them
> > almost useless under any kind of real load. I've built some patched
> > 2.6.21.6 kernels (using the bdi throttling patch you mentioned) to
> > see if our various Debian Etch boxes run better. So far my testing
> > shows a *great* improvement over the stock Debian 2.6.18 kernel on
> > our configurations. "
> >
> > and bdi has been in -mm in the past i think, so we also know (to a
> > certain degree) that it does not hurt those workloads that are fine
> > either.
> >
> > [ my personal interest in this is the following regression: every time i
> > start a large kernel build with DEBUG_INFO on a quad-core 4GB RAM box,
> > i get up to 30 seconds complete pauses in Vim (and most other tasks),
> > during plain editing of the source code. (which happens when Vim tries
> > to write() to its swap/undo-file.) ]
>
> I have an issue that sounds like it's related.
>
> I've got a syslog server that's got two Opteron 246 cpu's, 16G ram, 2x140G
> 15k rpm drives (fusion MPT hardware mirroring), 16x500G 7200rpm SATA
> drives on 3ware 9500 cards (software raid6) running 2.6.20.3 with hz set
> at default and preempt turned off.
>
> I have syslog doing buffered writes to the SCSI drives and every 5 min a
> cron job copies the data to the raid array.
>
> I've found that if I do anything significant on the large raid array that
> the system looses a significant amount of the UDP syslog traffic, even
> though there should be pleanty of ram and cpu (and the spindles involved
> in the writes are not being touched), even a grep can cause up to 40%
> losses in the syslog traffic. I've experimented with nice levels (nicing
> down the grep and nicing up the syslogd) without a noticable effect on the
> losses.
>
> I've been planning to try a new kernel with hz=1000 to see if that would
> help, and after that experiment with the various preempt settings, but it
> sounds like the per-device queues may actually be more relavent to the
> problem.
>
> what would you suggest I test, and in what order and combination?
At least on a surface level, your report has some similarities to
http://lkml.org/lkml/2007/5/21/84 . In that message, John Miller
mentions several things he tried without effect:
< - I increased the max allowed receive buffer through
< proc/sys/net/core/rmem_max and the application calls the right
< syscall. "netstat -su" does not show any "packet receive errors".
<
< - After getting "kernel: swapper: page allocation failure.
< order:0, mode:0x20", I increased /proc/sys/vm/min_free_kbytes
<
< - ixgb.txt in kernel network documentation suggests to increase
< net.core.netdev_max_backlog to 300000. This did not help.
<
< - I also had to increase net.core.optmem_max, because the default
< value was too small for 700 multicast groups.
As they're all pretty simple to test, it may be worthwhile to give
them a shot just to rule things out.
Ray
On Sat, 4 Aug 2007, Ingo Molnar wrote:
>
> i forgot this entry:
>
> " We recently upgraded our office to gigabit Ethernet and got some big
> AMD64 / 3ware boxes for file and vmware servers... only to find them
> almost useless under any kind of real load. I've built some patched
> 2.6.21.6 kernels (using the bdi throttling patch you mentioned) to
> see if our various Debian Etch boxes run better. So far my testing
> shows a *great* improvement over the stock Debian 2.6.18 kernel on
> our configurations. "
Well, quite frankly, there are other changes between 2.6.18 and 2.6.21
that are more likely to be a big deal than Peter's patches. No offense to
Peter, but we also cut the default dirty percentage by a factor of four in
that timeframe, and that made a *huge* difference for some setups (and
admittedly not so much on others ;)
> and bdi has been in -mm in the past i think, so we also know (to a
> certain degree) that it does not hurt those workloads that are fine
> either.
Hey, I'm not complaining. I think the code looks fine. I just want to make
sure that it actually helps.
> [ my personal interest in this is the following regression: every time i
> start a large kernel build with DEBUG_INFO on a quad-core 4GB RAM box,
> i get up to 30 seconds complete pauses in Vim (and most other tasks),
> during plain editing of the source code. (which happens when Vim tries
> to write() to its swap/undo-file.) ]
So do the patches really end up helping your case? Or is this just why
you're following it, and hoping they'll eventually do so?
Linus
On Sat, 4 Aug 2007, Ingo Molnar wrote:
> > [ my personal interest in this is the following regression: every time
> > i start a large kernel build with DEBUG_INFO on a quad-core 4GB RAM
> > box, i get up to 30 seconds complete pauses in Vim (and most other
> > tasks), during plain editing of the source code. (which happens when
> > Vim tries to write() to its swap/undo-file.) ]
>
> hm, it turns out that it's due to vim doing an occasional fsync not only
> on writeout, but during normal use too. "set nofsync" in the .vimrc
> solves this problem.
Yes, that's independent. The fact is, ext3 *sucks* at fsync. I hate hate
hate it. It's totally unusable, imnsho.
The whole point of fsync() is that it should sync only that one file, and
avoid syncing all the other stuff that is going on, and ext3 violates
that, because it ends up having to sync the whole log, or something like
that. So even if vim really wants to sync a small file, you end up waiting
for megabytes of data being written out.
I detest logging filesystems.
Linus
* Linus Torvalds <[email protected]> wrote:
> > hm, it turns out that it's due to vim doing an occasional fsync not
> > only on writeout, but during normal use too. "set nofsync" in the
> > .vimrc solves this problem.
>
> Yes, that's independent. The fact is, ext3 *sucks* at fsync. I hate
> hate hate it. It's totally unusable, imnsho.
yeah, it's really ugly. But otherwise i've got no real complaint about
ext3 - with the obligatory qualification that "noatime,nodiratime" in
/etc/fstab is a must. This speeds up things very visibly - especially
when lots of files are accessed. It's kind of weird that every Linux
desktop and server is hurt by a noticeable IO performance slowdown due
to the constant atime updates, while there's just two real users of it:
tmpwatch [which can be configured to use ctime so it's not a big issue]
and some backup tools. (Ok, and mail-notify too i guess.) Out of tens of
thousands of applications. So for most file workloads we give Windows a
20%-30% performance edge, for almost nothing. (for RAM-starved kernel
builds the performance difference between atime and noatime+nodiratime
setups is more on the order of 40%)
Ingo
On Sat, 4 Aug 2007 09:17:44 -0700 (PDT) Linus Torvalds <[email protected]> wrote:
>
>
> On Sat, 4 Aug 2007, Ingo Molnar wrote:
>
> > > [ my personal interest in this is the following regression: every time
> > > i start a large kernel build with DEBUG_INFO on a quad-core 4GB RAM
> > > box, i get up to 30 seconds complete pauses in Vim (and most other
> > > tasks), during plain editing of the source code. (which happens when
> > > Vim tries to write() to its swap/undo-file.) ]
> >
> > hm, it turns out that it's due to vim doing an occasional fsync not only
> > on writeout, but during normal use too. "set nofsync" in the .vimrc
> > solves this problem.
>
> Yes, that's independent. The fact is, ext3 *sucks* at fsync. I hate hate
> hate it. It's totally unusable, imnsho.
>
> The whole point of fsync() is that it should sync only that one file, and
> avoid syncing all the other stuff that is going on, and ext3 violates
> that, because it ends up having to sync the whole log, or something like
> that. So even if vim really wants to sync a small file, you end up waiting
> for megabytes of data being written out.
>
> I detest logging filesystems.
>
Well it's not a problem with journalling per-se. Other journalling designs
may well not have this problem.
It's an unfortunate coupling:
- the ext3 journal contains metadata from all altered files
- ordered-mode needs to write back data for a file before committing its
metdata to the journal.
- fsync of one file requires a commit for its metadata, which will commit
metadata for all files
- hence we need to write back all data for all files which have metadata
in the journal.
It's pretty much unfixable given the ext3 journalling design, and the
guarantees which data-ordered provides.
The easy preventive is to mount with data=writeback. Maybe that should
have been the default.
On Sat, 4 Aug 2007 18:37:33 +0200 Ingo Molnar <[email protected]> wrote:
>
> * Linus Torvalds <[email protected]> wrote:
>
> > > hm, it turns out that it's due to vim doing an occasional fsync not
> > > only on writeout, but during normal use too. "set nofsync" in the
> > > .vimrc solves this problem.
> >
> > Yes, that's independent. The fact is, ext3 *sucks* at fsync. I hate
> > hate hate it. It's totally unusable, imnsho.
>
> yeah, it's really ugly. But otherwise i've got no real complaint about
> ext3 - with the obligatory qualification that "noatime,nodiratime" in
> /etc/fstab is a must. This speeds up things very visibly - especially
> when lots of files are accessed. It's kind of weird that every Linux
> desktop and server is hurt by a noticeable IO performance slowdown due
> to the constant atime updates,
Not just more IO: it will cause great gobs of blockdev pagecache to remain
in memory, too.
> while there's just two real users of it:
> tmpwatch [which can be configured to use ctime so it's not a big issue]
> and some backup tools. (Ok, and mail-notify too i guess.) Out of tens of
> thousands of applications. So for most file workloads we give Windows a
> 20%-30% performance edge, for almost nothing. (for RAM-starved kernel
> builds the performance difference between atime and noatime+nodiratime
> setups is more on the order of 40%)
>
> Ingo
* Andrew Morton <[email protected]> wrote:
> > yeah, it's really ugly. But otherwise i've got no real complaint
> > about ext3 - with the obligatory qualification that
> > "noatime,nodiratime" in /etc/fstab is a must. This speeds up things
> > very visibly - especially when lots of files are accessed. It's kind
> > of weird that every Linux desktop and server is hurt by a noticeable
> > IO performance slowdown due to the constant atime updates,
>
> Not just more IO: it will cause great gobs of blockdev pagecache to
> remain in memory, too.
i tried to convince distro folks about it ... but there's fear,
uncertainty and doubt about touching /etc/fstab and i suspect no major
distro will do it until another does it - which is a catch-22 :-/ So i
guess we should add a kernel config option that allows the kernel rpm
maker to just disable atime by default. (re-enableable via boot-line and
fstab entry too) [That new kernel config option would be disabled by
default.] That makes it much easier to control and introduce.
Ingo
El Sat, 4 Aug 2007 18:37:33 +0200, Ingo Molnar <[email protected]> escribi?:
> thousands of applications. So for most file workloads we give Windows a
> 20%-30% performance edge, for almost nothing. (for RAM-starved kernel
> builds the performance difference between atime and noatime+nodiratime
> setups is more on the order of 40%)
Just curious - do you have numbers with relatime?
On Sat, 4 Aug 2007, Ray Lee wrote:
> (adding netdev cc:)
>
> On 8/4/07, [email protected] <[email protected]> wrote:
>> On Sat, 4 Aug 2007, Ingo Molnar wrote:
>>
>>> * Ingo Molnar <[email protected]> wrote:
>>>
>>>> There are positive reports in the never-ending "my system crawls like
>>>> an XT when copying large files" bugzilla entry:
>>>>
>>>> http://bugzilla.kernel.org/show_bug.cgi?id=7372
>>>
>>> i forgot this entry:
>>>
>>> " We recently upgraded our office to gigabit Ethernet and got some big
>>> AMD64 / 3ware boxes for file and vmware servers... only to find them
>>> almost useless under any kind of real load. I've built some patched
>>> 2.6.21.6 kernels (using the bdi throttling patch you mentioned) to
>>> see if our various Debian Etch boxes run better. So far my testing
>>> shows a *great* improvement over the stock Debian 2.6.18 kernel on
>>> our configurations. "
>>>
>>> and bdi has been in -mm in the past i think, so we also know (to a
>>> certain degree) that it does not hurt those workloads that are fine
>>> either.
>>>
>>> [ my personal interest in this is the following regression: every time i
>>> start a large kernel build with DEBUG_INFO on a quad-core 4GB RAM box,
>>> i get up to 30 seconds complete pauses in Vim (and most other tasks),
>>> during plain editing of the source code. (which happens when Vim tries
>>> to write() to its swap/undo-file.) ]
>>
>> I have an issue that sounds like it's related.
>>
>> I've got a syslog server that's got two Opteron 246 cpu's, 16G ram, 2x140G
>> 15k rpm drives (fusion MPT hardware mirroring), 16x500G 7200rpm SATA
>> drives on 3ware 9500 cards (software raid6) running 2.6.20.3 with hz set
>> at default and preempt turned off.
>>
>> I have syslog doing buffered writes to the SCSI drives and every 5 min a
>> cron job copies the data to the raid array.
>>
>> I've found that if I do anything significant on the large raid array that
>> the system looses a significant amount of the UDP syslog traffic, even
>> though there should be pleanty of ram and cpu (and the spindles involved
>> in the writes are not being touched), even a grep can cause up to 40%
>> losses in the syslog traffic. I've experimented with nice levels (nicing
>> down the grep and nicing up the syslogd) without a noticable effect on the
>> losses.
>>
>> I've been planning to try a new kernel with hz=1000 to see if that would
>> help, and after that experiment with the various preempt settings, but it
>> sounds like the per-device queues may actually be more relavent to the
>> problem.
>>
>> what would you suggest I test, and in what order and combination?
>
> At least on a surface level, your report has some similarities to
> http://lkml.org/lkml/2007/5/21/84 . In that message, John Miller
> mentions several things he tried without effect:
>
> < - I increased the max allowed receive buffer through
> < proc/sys/net/core/rmem_max and the application calls the right
> < syscall. "netstat -su" does not show any "packet receive errors".
> <
> < - After getting "kernel: swapper: page allocation failure.
> < order:0, mode:0x20", I increased /proc/sys/vm/min_free_kbytes
> <
> < - ixgb.txt in kernel network documentation suggests to increase
> < net.core.netdev_max_backlog to 300000. This did not help.
> <
> < - I also had to increase net.core.optmem_max, because the default
> < value was too small for 700 multicast groups.
>
> As they're all pretty simple to test, it may be worthwhile to give
> them a shot just to rule things out.
I will try them later today.
I forgot to mention that the filesystems are ext2 for the mirrored high
speed disks and xfs for the 8TB array.
David Lang
* Diego Calleja <[email protected]> wrote:
> El Sat, 4 Aug 2007 18:37:33 +0200, Ingo Molnar <[email protected]> escribi?:
>
> > thousands of applications. So for most file workloads we give
> > Windows a 20%-30% performance edge, for almost nothing. (for
> > RAM-starved kernel builds the performance difference between atime
> > and noatime+nodiratime setups is more on the order of 40%)
>
> Just curious - do you have numbers with relatime?
nope. Stupid question, i just tried it and got this:
EXT3-fs: Unrecognized mount option "relatime" or missing value
i've got util-linux-2.13-0.46.fc6 and 2.6.22 on that box, shouldnt that
be recent enough? As far as i can see it from the kernel-side code, this
works on the general VFS level and hence should be supported by ext3
already.
even relatime means one extra write IO after a file has been created,
but at least for read-mostly files it avoids the continuous atime
update.
Ingo
Andrew Morton writes:
[...]
>
> It's pretty much unfixable given the ext3 journalling design, and the
> guarantees which data-ordered provides.
ZFS has intent log to handle this
(http://blogs.sun.com/realneel/entry/the_zfs_intent_log). Something like
that can --theoretically-- be added to ext3-style journalling.
Nikita.
>
> The easy preventive is to mount with data=writeback. Maybe that should
> have been the default.
El Sat, 4 Aug 2007 19:17:24 +0200, Ingo Molnar <[email protected]> escribi?:
> i've got util-linux-2.13-0.46.fc6 and 2.6.22 on that box, shouldnt that
> be recent enough? As far as i can see it from the kernel-side code, this
> works on the general VFS level and hence should be supported by ext3
> already.
Mmmh, "mount -o remount,noatime /" seems to Work For Me in Ubuntu
with util-linux/mount "2.12r-17ubuntu"...but then Google says [1] that
Ubuntu has been shipping with relatime enabled as default for months,
so it's probably patched (probably only in the kernel). So maybe upstream
util-linux hasn't merged the relatime patch.
[1]: http://lkml.org/lkml/2007/2/12/30
On Sat, 4 Aug 2007, Ingo Molnar wrote:
>
> yeah, it's really ugly. But otherwise i've got no real complaint about
> ext3 - with the obligatory qualification that "noatime,nodiratime" in
> /etc/fstab is a must.
I agree, we really should do something about atime.
But the fsync thing is a real issue. It literally makes ext3 almost
unusable from a latency standpoint on many loads. I have a fast disk, and
don't actually tend to have all that much going on normally, and it still
hurts occasionally.
One of the most common (and *best*) reasons for using fsync is for the
mail spool. So anybody that uses local email will actually be doing a lot
of fsync, and while you could try to thread the interfaces, I don't think
a lot of mailers do.
So fsync ends up being a latency issue for something that a lot of people
actually see, and something that you actually end up working with and you
notice the latencies very clearly. Your editor auto-save feature is
another good example of that exact same thing: the fsync actually is there
for a very good reason, even if you apparently decided that you'd rather
disable it.
But yeah, "noatime,data=writeback" will quite likely be *quite* noticeable
(with different effects for different loads), but almost nobody actually
runs that way.
I ended up using O_NOATIME for the individual object "open()" calls inside
git, and it was an absolutely huge time-saver for the case of not having
"noatime" in the mount options. Certainly more than your estimated 10%
under some loads.
The "relatime" thing that David mentioned might well be very useful, but
it's probably even less used than "noatime" is. And sadly, I don't really
see that changing (unless we were to actually change the defaults inside
the kernel).
Linus
El Sat, 4 Aug 2007 19:38:01 +0200, Diego Calleja <[email protected]> escribi?:
> Mmmh, "mount -o remount,noatime /" seems to Work For Me in Ubuntu
> with util-linux/mount "2.12r-17ubuntu"...but then Google says [1] that
> Ubuntu has been shipping with relatime enabled as default for months,
^^^^^
Obviously, i meant "noatime"...(so it's unlikely that ubuntu has patched
anything to support relatime - it's not reflected in the changelogs at least)
> so it's probably patched (probably only in the kernel). So maybe upstream
> util-linux hasn't merged the relatime patch.
>
> [1]: http://lkml.org/lkml/2007/2/12/30
Linus Torvalds wrote:
> The "relatime" thing that David mentioned might well be very useful, but
> it's probably even less used than "noatime" is. And sadly, I don't really
> see that changing (unless we were to actually change the defaults inside
> the kernel).
I actually vote for that. IMO, distros should turn -on- atime updates
when they know its needed.
Jeff
On Sat, 4 August 2007 14:08:40 -0400, Jeff Garzik wrote:
> Linus Torvalds wrote:
> >The "relatime" thing that David mentioned might well be very useful, but
> >it's probably even less used than "noatime" is. And sadly, I don't really
> >see that changing (unless we were to actually change the defaults inside
> >the kernel).
>
> I actually vote for that. IMO, distros should turn -on- atime updates
> when they know its needed.
If you mean "relatime" I concur. "noatime" hurts mutt and others while
"relatime" has no known problems, afaics.
Jörn
--
Joern's library part 5:
http://www.faqs.org/faqs/compression-faq/part2/section-9.html
* J?rn Engel <[email protected]> wrote:
> > I actually vote for that. IMO, distros should turn -on- atime
> > updates when they know its needed.
>
> If you mean "relatime" I concur. "noatime" hurts mutt and others
> while "relatime" has no known problems, afaics.
so ... one app can keep 30,000+ apps hostage?
i use Mutt myself, on such a filesystem:
/dev/md0 on / type ext3 (rw,noatime,nodiratime,user_xattr)
and i can see no problems, it notices new mails just fine.
Ingo
On Sat, 4 August 2007 21:21:30 +0200, Ingo Molnar wrote:
> * Jörn Engel <[email protected]> wrote:
>
> > > I actually vote for that. IMO, distros should turn -on- atime
> > > updates when they know its needed.
> >
> > If you mean "relatime" I concur. "noatime" hurts mutt and others
> > while "relatime" has no known problems, afaics.
>
> so ... one app can keep 30,000+ apps hostage?
>
> i use Mutt myself, on such a filesystem:
>
> /dev/md0 on / type ext3 (rw,noatime,nodiratime,user_xattr)
>
> and i can see no problems, it notices new mails just fine.
Given the choice between only "atime" and "noatime" I'd agree with you.
Heck, I use it myself. But "relatime" seems to combine the best of both
worlds. It currently just suffers from mount not supporting it in any
relevant distro.
Jörn
--
Joern's library part 2:
http://www.art.net/~hopkins/Don/unix-haters/tirix/embarrassing-memo.html
* Andrew Morton:
> The easy preventive is to mount with data=writeback. Maybe that should
> have been the default.
The documentation I could find suggests that this may lead to a
security weakness (old data in blocks of a file that was grown just
before the crash leaks to a different user). XFS overwrites that data
with zeros upon reboot, which tends to irritate users when it happens.
>From this point of view, data=ordered doesn't seem too bad.
On Sat, 4 August 2007 21:26:15 +0200, Jörn Engel wrote:
>
> Given the choice between only "atime" and "noatime" I'd agree with you.
> Heck, I use it myself. But "relatime" seems to combine the best of both
> worlds. It currently just suffers from mount not supporting it in any
> relevant distro.
And here is a completely untested patch to enable it by default. Ingo,
can you see how good this fares compared to "atime" and
"noatime,nodiratime"?
Jörn
--
Debugging is twice as hard as writing the code in the first place.
Therefore, if you write the code as cleverly as possible, you are,
by definition, not smart enough to debug it.
-- Brian W. Kernighan
--- linux-2.6.22_relatime/fs/namespace.c~default_relatime 2007-05-16 02:01:39.000000000 +0200
+++ linux-2.6.22_relatime/fs/namespace.c 2007-08-04 21:36:20.000000000 +0200
@@ -1401,6 +1401,10 @@ long do_mount(char *dev_name, char *dir_
if (data_page)
((char *)data_page)[PAGE_SIZE - 1] = 0;
+#ifdef CONFIG_DEFAULT_RELATIME
+ flags |= MS_RELATIME;
+#endif
+
/* Separate the per-mountpoint flags */
if (flags & MS_NOSUID)
mnt_flags |= MNT_NOSUID;
--- linux-2.6.22_relatime/fs/Kconfig~default_relatime 2007-05-16 02:01:38.000000000 +0200
+++ linux-2.6.22_relatime/fs/Kconfig 2007-08-04 21:39:46.000000000 +0200
@@ -6,6 +6,15 @@ menu "File systems"
if BLOCK
+config DEFAULT_RELATIME
+ bool "Mount all filesystems with 'relatime' by default"
+ default y
+ help
+ Relatime only updates atime once after any file has been changed.
+ Setting this should give a noticeable performance bonus.
+
+ If unsure, say Y.
+
config EXT2_FS
tristate "Second extended fs support"
help
On Sat, 4 Aug 2007, J?rn Engel wrote:
>
> Given the choice between only "atime" and "noatime" I'd agree with you.
> Heck, I use it myself. But "relatime" seems to combine the best of both
> worlds. It currently just suffers from mount not supporting it in any
> relevant distro.
Well, we could make it the default for the kernel (possibly under a
"fast-atime" config option), and then people can add "atime" or "noatime"
as they wish, since mount has supported _those_ options for a long time.
Linus
On Sat, 4 Aug 2007, Linus Torvalds wrote:
>
> Well, we could make it the default for the kernel (possibly under a
> "fast-atime" config option), and then people can add "atime" or "noatime"
> as they wish, since mount has supported _those_ options for a long time.
Side note: while I think the fsync() behaviour is more irritating than
atime, that one is harder to fix. I think it's reasonable to have
"relatime" as a default strategy for the kernel, but I don't think it's
necessarily at all as reasonable to change a filesystem-specific ordering
constraint.
Linus
* Linus Torvalds <[email protected]> wrote:
> Well, we could make it the default for the kernel (possibly under a
> "fast-atime" config option), and then people can add "atime" or
> "noatime" as they wish, since mount has supported _those_ options for
> a long time.
the patch below implements this, but there's a problem: we only have
MNT_NOATIME, we have no MNT_ATIME option AFAICS. So there's no good way
to detect it when a user _does_ want to have atime :-( Perhaps a boot
option to turn this off? [sucks a bit but keeps the solution within the
kernel.]
Ingo
--------------------------------->
Subject: [patch] add CONFIG_FASTATIME
From: Ingo Molnar <[email protected]>
add the CONFIG_FASTATIME kernel option, which makes "relatime" the
default for all mounts.
Signed-off-by: Ingo Molnar <[email protected]>
---
fs/Kconfig | 10 ++++++++++
fs/namespace.c | 4 ++++
2 files changed, 14 insertions(+)
Index: linux/fs/Kconfig
===================================================================
--- linux.orig/fs/Kconfig
+++ linux/fs/Kconfig
@@ -2060,6 +2060,16 @@ config 9P_FS
endmenu
+config FASTATIME
+ bool "Fast atime support by default"
+ default y
+ help
+ If you say Y here, all your filesystems that do not have
+ the "noatime" or "atime" mount option specified will get
+ the "relatime" option by default, which speeds up atime
+ updates. (atime will only be updated if ctime or mtime
+ is more recent than atime)
+
if BLOCK
menu "Partition Types"
Index: linux/fs/namespace.c
===================================================================
--- linux.orig/fs/namespace.c
+++ linux/fs/namespace.c
@@ -1409,6 +1409,10 @@ long do_mount(char *dev_name, char *dir_
mnt_flags |= MNT_NODIRATIME;
if (flags & MS_RELATIME)
mnt_flags |= MNT_RELATIME;
+#ifdef CONFIG_FASTATIME
+ if (!(flags & (MNT_NOATIME | MNT_NODIRATIME)))
+ mnt_flags |= MNT_RELATIME;
+#endif
flags &= ~(MS_NOSUID | MS_NOEXEC | MS_NODEV | MS_ACTIVE |
MS_NOATIME | MS_NODIRATIME | MS_RELATIME);
> i use Mutt myself, on such a filesystem:
>
> /dev/md0 on / type ext3 (rw,noatime,nodiratime,user_xattr)
>
> and i can see no problems, it notices new mails just fine.
In some setups it will and in others it won't. Nor is it the only
application that has this requirement. Ext3 currently is a standards
compliant file system. Turn off atime and its very non standards
compliant, turn to relatime and its not standards compliant but nobody
will break (which is good)
Either change is a big user/kernel interface change and no major vendor
targets desktop as primary market so I'm not suprised they haven't done
this. The fix is to educate them further not to break the kernel.
There are several reasons for that
- Distros will change the least conservative stuff first so we
have the dedicated followers of fashion finding problems first
- Existing systems won't suddenly change behaviour and break
(and as the catastrophic failure case is backup failure we do
not want to break them)
People just need to know about the performance differences - very few
realise its more than a fraction of a percent. I'm sure Gentoo will use
relatime the moment anyone knows its > 5% 8)
Alan
* Ingo Molnar <[email protected]> wrote:
> +#ifdef CONFIG_FASTATIME
> + if (!(flags & (MNT_NOATIME | MNT_NODIRATIME)))
> + mnt_flags |= MNT_RELATIME;
> +#endif
btw., "relatime" does not seem to make much of a difference, if i do
this:
ls -l x ; sync
on a "relatime" mounted filesystem ('x' is a regular file), then there's
disk IO for every such command. Only if i mount it noatime,nodiratime do
i get zero disk IO. Or my patch is wrong somehow.
Ingo
On Sat, 2007-08-04 at 12:47 -0700, Linus Torvalds wrote:
>
> On Sat, 4 Aug 2007, Jörn Engel wrote:
> >
> > Given the choice between only "atime" and "noatime" I'd agree with you.
> > Heck, I use it myself. But "relatime" seems to combine the best of both
> > worlds. It currently just suffers from mount not supporting it in any
> > relevant distro.
>
> Well, we could make it the default for the kernel (possibly under a
> "fast-atime" config option), and then people can add "atime" or "noatime"
> as they wish, since mount has supported _those_ options for a long time.
there is another trick possible (more involved though, Al will have to
jump in on that one I suspect): Have 2 types of "dirty inode" states;
one is the current dirty state (meaning the full range of ext3
transactions etc) and "lighter" state of "atime-dirty"; which will not
do the background syncs or journal transactions (so if your machine
crashes, you lose the atime update) but it does keep atime for most
normal cases and keeps it standard compliant "except after a crash".
On Sat, 2007-08-04 at 22:11 +0200, Ingo Molnar wrote:
> * Ingo Molnar <[email protected]> wrote:
>
> > +#ifdef CONFIG_FASTATIME
> > + if (!(flags & (MNT_NOATIME | MNT_NODIRATIME)))
> > + mnt_flags |= MNT_RELATIME;
> > +#endif
>
> btw., "relatime" does not seem to make much of a difference, if i do
> this:
>
> ls -l x ; sync
>
> on a "relatime" mounted filesystem ('x' is a regular file), then there's
> disk IO for every such command. Only if i mount it noatime,nodiratime do
> i get zero disk IO. Or my patch is wrong somehow.
do we have reldiratime ?
> i tried to convince distro folks about it ... but there's fear,
> uncertainty and doubt about touching /etc/fstab and i suspect no major
> distro will do it until another does it - which is a catch-22 :-/ So i
Thats what Gentoo is for ;)
> guess we should add a kernel config option that allows the kernel rpm
> maker to just disable atime by default. (re-enableable via boot-line and
> fstab entry too) [That new kernel config option would be disabled by
> default.] That makes it much easier to control and introduce.
It makes it much more messy and awkward as the same system behaves in
arbitary different ways under different builds of the kernel.
If you want to sort this in Fedora for example you just need to package
and announce a desktop-tuning rpm which makes the relevant updates on
install and reverses them on remove. Stick the scheduler/vm tuning values
in as well and the disk queue tweaks.
Regardless of the kernel defaults people will install such a package
en-mass...
Alan
Alan Cox wrote:
> In some setups it will and in others it won't. Nor is it the only
> application that has this requirement. Ext3 currently is a standards
> compliant file system. Turn off atime and its very non standards
> compliant, turn to relatime and its not standards compliant but nobody
> will break (which is good)
Linux has always been a "POSIX unless its stupid" type of system. For
the upstream kernel, we should do the right thing -- noatime by default
-- but allow distros and people that care about rigid compliance to
easily change the default.
(from another message)
> If you want to sort this in Fedora for example you just need to package
> and announce a desktop-tuning rpm which makes the relevant updates on
> install and reverses them on remove. Stick the scheduler/vm tuning values
> in as well and the disk queue tweaks.
>
> Regardless of the kernel defaults people will install such a package
> en-mass...
<chuckle> Sounds like an effective idea :)
Though strictly in the context of atime vs. noatime, servers benefit
from that too, not just desktop.
Jeff
* Alan Cox <[email protected]> wrote:
> Either change is a big user/kernel interface change and no major
> vendor targets desktop as primary market so I'm not suprised they
> haven't done this. [...]
earlier in the thread it was claimed that Ubuntu is now defaulting to
noatime+nodiratime, and has done so for several months. Could be one of
the reasons why:
http://www.google.com/trends?q=fedora%2C+ubuntu
> People just need to know about the performance differences - very few
> realise its more than a fraction of a percent. I'm sure Gentoo will
> use relatime the moment anyone knows its > 5% 8)
noatime,nodiratime gave 50% of wall-clock kernel rpm build performance
improvement for Dave Jones, on a beefy box. Unless i misunderstood what
you meant under 'fraction of a percent' your numbers are _WAY_ off.
Atime updates are a _huge everyday deal_, from laptops to servers.
Everywhere on the planet. Give me a Linux desktop anywhere and i can
tell you whether it has atimes on or off, just by clicking around and
using apps (without looking at the mount options). That's how i notice
it that i forgot to turn off atime on any newly installed system - the
system has weird desktop lags and unnecessary disk trashing.
> [...] Ext3 currently is a standards compliant file system. Turn off
> atime and its very non standards compliant, turn to relatime and its
> not standards compliant but nobody will break (which is good)
come on! Any standards testsuite needs tons of tweaks to the system to
run through to completion. Mounting the filesystem atime will just be
one more item in the long list of (mostly silly) 'needed for standards
compliance' items (most of which nobody configures). What matters are
the apps, and nary any app depends on atime, and those people who depend
on them can turn on atime just fine. (it's the same as for extended
attributes for example - and attributes are infinitely _more_ useful
than atime.)
Ingo
> > People just need to know about the performance differences - very few
> > realise its more than a fraction of a percent. I'm sure Gentoo will
> > use relatime the moment anyone knows its > 5% 8)
>
> noatime,nodiratime gave 50% of wall-clock kernel rpm build performance
> improvement for Dave Jones, on a beefy box. Unless i misunderstood what
> you meant under 'fraction of a percent' your numbers are _WAY_ off.
it's also a Watt or so of power if you have the AHCI ALPM patches in the
kernel (which are pending mainline inclusion)...
* Ingo Molnar <[email protected]> wrote:
> noatime,nodiratime gave 50% of wall-clock kernel rpm build performance
> improvement for Dave Jones, on a beefy box. Unless i misunderstood
> what you meant under 'fraction of a percent' your numbers are _WAY_
> off. Atime updates are a _huge everyday deal_, from laptops to
> servers. Everywhere on the planet. Give me a Linux desktop anywhere
> and i can tell you whether it has atimes on or off, just by clicking
> around and using apps (without looking at the mount options). That's
> how i notice it that i forgot to turn off atime on any newly installed
> system - the system has weird desktop lags and unnecessary disk
> trashing.
i cannot over-emphasise how much of a deal it is in practice. Atime
updates are by far the biggest IO performance deficiency that Linux has
today. Getting rid of atime updates would give us more everyday Linux
performance than all the pagecache speedups of the past 10 years,
_combined_.
it's also perhaps the most stupid Unix design idea of all times. Unix is
really nice and well done, but think about this a bit:
' For every file that is read from the disk, lets do a ... write to
the disk! And, for every file that is already cached and which we
read from the cache ... do a write to the disk! '
tell that concept to any rookie programmer who knows nothing about
kernels and the answer will be: 'huh, what? That's gross!'. And Linux
does this unconditionally for everything, and no, it's not only done on
some high-security servers that need all sorts of auditing enabled that
logs every file read - no, it's done by 99% of the Linux desktops and
servers. For the sake of some lazy mailers that could now be using
inotify, and for the sake of ... nothing much, really - forensics
software perhaps.
Ingo
> Linux has always been a "POSIX unless its stupid" type of system. For
> the upstream kernel, we should do the right thing -- noatime by default
> -- but allow distros and people that care about rigid compliance to
> easily change the default.
Linux has never been a "suprise your kernel interfaces all just changed
today" kernel, nor a "gosh you upgraded and didn't notice your backups
broke" kernel.
> > People just need to know about the performance differences - very few
> > realise its more than a fraction of a percent. I'm sure Gentoo will
> > use relatime the moment anyone knows its > 5% 8)
>
> noatime,nodiratime gave 50% of wall-clock kernel rpm build performance
> improvement for Dave Jones, on a beefy box. Unless i misunderstood what
> you meant under 'fraction of a percent' your numbers are _WAY_ off.
What numbers - I didn't quote any performance numbers ?
> i cannot over-emphasise how much of a deal it is in practice. Atime
> updates are by far the biggest IO performance deficiency that Linux has
> today. Getting rid of atime updates would give us more everyday Linux
> performance than all the pagecache speedups of the past 10 years,
> _combined_.
>
> it's also perhaps the most stupid Unix design idea of all times. Unix is
> really nice and well done, but think about this a bit:
Think about the user for a moment instead.
Do things right. The job of the kernel is not to "correct" for
distribution policy decisions. The distributions need to change policy.
You do that by showing the distributions the numbers.
With a Red Hat on if we can move from /dev/hda to /dev/sda in FC7 then we
can move from atime to noatime by default on FC8 with appropriate release
note warnings and having a couple of betas to find out what other than
mutt goes boom.
On Sat, Aug 04, 2007 at 01:13:19PM -0700, Arjan van de Ven wrote:
> there is another trick possible (more involved though, Al will have to
> jump in on that one I suspect): Have 2 types of "dirty inode" states;
> one is the current dirty state (meaning the full range of ext3
> transactions etc) and "lighter" state of "atime-dirty"; which will not
> do the background syncs or journal transactions (so if your machine
> crashes, you lose the atime update) but it does keep atime for most
> normal cases and keeps it standard compliant "except after a crash".
That would make us standards compliant (POSIX explicitly says that
what happens after a unclean shutdown is Unspecified) and it would
make things a heck of a lot faster. However, there is a potential
problem which is that it will keep a large number of inodes pinned in
memory, which is its own problem. So there would have to be some way
to force the atime updates to be merged when under memory pressure,
and and perhaps on some much longer background interval (i.e., every
hour or so).
- Ted
On Sat, 4 Aug 2007, Ingo Molnar wrote:
> * Alan Cox <[email protected]> wrote:
>
> > People just need to know about the performance differences - very few
> > realise its more than a fraction of a percent. I'm sure Gentoo will
> > use relatime the moment anyone knows its > 5% 8)
>
> noatime,nodiratime gave 50% of wall-clock kernel rpm build performance
> improvement for Dave Jones, on a beefy box. Unless i misunderstood what
> you meant under 'fraction of a percent' your numbers are _WAY_ off.
> Atime updates are a _huge everyday deal_, from laptops to servers.
> Everywhere on the planet. Give me a Linux desktop anywhere and i can
> tell you whether it has atimes on or off, just by clicking around and
> using apps (without looking at the mount options). That's how i notice
> it that i forgot to turn off atime on any newly installed system - the
> system has weird desktop lags and unnecessary disk trashing.
...For me, I would say 50% is not enough to describe the _visible_
benefits... Not talking any specific number but past 10sec-1min+ lagging
in X is history, it's gone and I really don't miss it that much... :-)
Cannot reproduce even a second long delay anymore in window focusing under
considerable load as it's basically instantaneous (I can see that it's
loaded but doesn't affect the feeling of responsiveness I'm now getting),
even on some loads that I couldn't previously even dream of... I still
can get drawing lag a bit by pushing enough stuff to swap but still it's
definately quite well under control, though rare 1-2 sec spikes in drawing
appear due to swap loads I think. ...And this is 2.6.21.5 so no fancies
ala Ingo's CFS or so yet...
...Thanks about this hint. :-)
--
i.
Ingo Molnar <[email protected]> writes:
>
> yeah, it's really ugly. But otherwise i've got no real complaint about
> ext3 - with the obligatory qualification that "noatime,nodiratime" in
> /etc/fstab is a must. This speeds up things very visibly - especially
> when lots of files are accessed. It's kind of weird that every Linux
> desktop and server is hurt by a noticeable IO performance slowdown due
> to the constant atime updates, while there's just two real users of it:
> tmpwatch [which can be configured to use ctime so it's not a big issue]
> and some backup tools. (Ok, and mail-notify too i guess.) Out of tens of
> thousands of applications. So for most file workloads we give Windows a
> 20%-30% performance edge, for almost nothing. (for RAM-starved kernel
> builds the performance difference between atime and noatime+nodiratime
> setups is more on the order of 40%)
I always thought the right solution would be to just sync atime only
very very lazily. This means if a inode is only dirty because of an
atime update put it on a "only write out when there is nothing to do
or the memory is really needed" list.
-Andi
Ingo Molnar <[email protected]> writes:
> * Ingo Molnar <[email protected]> wrote:
>
> > [ my personal interest in this is the following regression: every time
> > i start a large kernel build with DEBUG_INFO on a quad-core 4GB RAM
> > box, i get up to 30 seconds complete pauses in Vim (and most other
> > tasks), during plain editing of the source code. (which happens when
> > Vim tries to write() to its swap/undo-file.) ]
>
> hm, it turns out that it's due to vim doing an occasional fsync not only
> on writeout, but during normal use too. "set nofsync" in the .vimrc
> solves this problem.
It should probably be doing fdatasync() instead. Then ext3 could just
write the data blocks only, but only mess with the logs when the file
size changed and mtime would be written out somewhat later.
[unless you have data logging enabled]
Does the problem go away when you change it to that?
-Andi
On Saturday 04 August 2007, Alan Cox wrote:
>
> Linux has never been a "suprise your kernel interfaces all just changed
> today" kernel, nor a "gosh you upgraded and didn't notice your backups
> broke" kernel.
>
Can you give examples of backup solutions that rely on atime being updated?
I can understand backup tools using mtime/ctime for incremental backups (like
tar + Amanda, etc), but I'm having trouble figuring out why someone would
want to use atime for that.
Best regards
Claudio
> Can you give examples of backup solutions that rely on atime being updated?
> I can understand backup tools using mtime/ctime for incremental backups (like
> tar + Amanda, etc), but I'm having trouble figuring out why someone would
> want to use atime for that.
HSM is the usual one, and to a large extent probably why Unix originally
had atime. Basically migrating less used files away so as to keep the
system disks tidy.
Its not something usally found on desktop boxes so it doesn't in anyway
argue against the distribution using noatime or relative atime, but on
big server boxes it matters
On Sat, 04 Aug 2007 21:16:35 +0200 Florian Weimer <[email protected]> wrote:
> * Andrew Morton:
>
> > The easy preventive is to mount with data=writeback. Maybe that should
> > have been the default.
>
> The documentation I could find suggests that this may lead to a
> security weakness (old data in blocks of a file that was grown just
> before the crash leaks to a different user).
yup. This problem also exists in ext2, reiserfs (unless using
ordered-mode), JFS, others.
> XFS overwrites that data
> with zeros upon reboot, which tends to irritate users when it happens.
yup.
> >From this point of view, data=ordered doesn't seem too bad.
If your computer is used by multiple users who don't trust each other,
sure. That covers, what? About 2% of machines?
I was using data=writeback for a while on my most-thrashed disk. The
results were a bit disappointing - not much difference. ext2 is a lot
quicker.
(I don't use anything which is fsync-happy, btw). (I used to have a patch
which sysctl-tunably turned fsync, msync, fdatasync into "return 0" for use
on the laptop but I seem to have lost it)
* Alan Cox <[email protected]> wrote:
> > > People just need to know about the performance differences - very
> > > few realise its more than a fraction of a percent. I'm sure Gentoo
> > > will use relatime the moment anyone knows its > 5% 8)
> >
> > noatime,nodiratime gave 50% of wall-clock kernel rpm build
> > performance improvement for Dave Jones, on a beefy box. Unless i
> > misunderstood what you meant under 'fraction of a percent' your
> > numbers are _WAY_ off.
>
> What numbers - I didn't quote any performance numbers ?
ok, i misunderstood your "very few realise its more than a fraction of a
percent" sentence, i thought you were saying it's a fraction of a
percent.
Measurements show that noatime helps 20-30% on regular desktop
workloads, easily 50% for kernel builds and much more than that (in
excess of 100%) for file-read-intense workloads. We cannot just walk
past such a _huge_ performance impact so easily without even reacting to
the performance arguments, and i'm happy Ubuntu picked up
noatime,nodiratime and is whipping up the floor with Fedora on the
desktop.
just look at the spontaneous feedback this thread prompted:
| ...For me, I would say 50% is not enough to describe the _visible_
| benefits... Not talking any specific number but past 10sec-1min+
| lagging in X is history, it's gone and I really don't miss it that
| much... :-) Cannot reproduce even a second long delay anymore in
| window focusing under considerable load as it's basically
| instantaneous (I can see that it's loaded but doesn't affect the
| feeling of responsiveness I'm now getting), even on some loads that I
| couldn't previously even dream of... I still can get drawing lag a bit
| by pushing enough stuff to swap but still it's definately quite well
| under control, though rare 1-2 sec spikes in drawing appear due to
| swap loads I think. ...And this is 2.6.21.5 so no fancies ala Ingo's
| CFS or so yet...
|
| ...Thanks about this hint. :-)
much of the hard performance work we put into the kernel and into
userspace is basically masked by the atime stupidity. How many man-years
did it take to implement prelink? It has less of an impact than noatime!
How much effort did we put into smart readahead and bootup
optimizations? It has less of an impact than noatime.
Ingo
* Alan Cox <[email protected]> wrote:
> > Linux has always been a "POSIX unless its stupid" type of system.
> > For the upstream kernel, we should do the right thing -- noatime by
> > default -- but allow distros and people that care about rigid
> > compliance to easily change the default.
>
> Linux has never been a "suprise your kernel interfaces all just
> changed today" kernel, nor a "gosh you upgraded and didn't notice your
> backups broke" kernel.
HSM uses atime as a _hint_. The only even remotely valid argument is
Mutt, and even that one could easily be fixed _it is not even installed
by default on most distros_ and nobody but me uses it ;) [and i've been
using Mutt on noatime filesystems for years] So basically a single type
of package and use-case (against tens of thousands of packages) held all
of Linux desktop IO performance hostage for 10 years, to the tune of a
20-30-50-100% performance degradation (depending on the workload)? Wow.
And the atime situation is _so_ obvious, what will we do in the much
less obvious cases?
Ingo
* Alan Cox <[email protected]> wrote:
> With a Red Hat on if we can move from /dev/hda to /dev/sda in FC7 then
> we can move from atime to noatime by default on FC8 with appropriate
> release note warnings and having a couple of betas to find out what
> other than mutt goes boom.
btw., Mutt does not go boom, i use it myself. It works just fine and
notices new mails even on a noatime,nodiratime filesystem.
Ingo
* Alan Cox <[email protected]> wrote:
> > Can you give examples of backup solutions that rely on atime being
> > updated? I can understand backup tools using mtime/ctime for
> > incremental backups (like tar + Amanda, etc), but I'm having trouble
> > figuring out why someone would want to use atime for that.
>
> HSM is the usual one, and to a large extent probably why Unix
> originally had atime. Basically migrating less used files away so as
> to keep the system disks tidy.
atime is used as a _hint_, at most and HSM sure works just fine on an
atime-incapable filesystem too. So it's the same deal as "add user_xattr
mount option to the filesystem to make Beagle index faster". It's now:
"if you use HSM storage add the atime mount option to make it slightly
more intelligent. Expect huge IO slowdowns though."
The only remotely valid compatibility argument would be Mutt - but even
that handles it just fine. (we broke way more software via noexec)
Ingo
On Sun, 5 Aug 2007 09:21:41 +0200 Ingo Molnar <[email protected]> wrote:
> even on a noatime,nodiratime filesystem
noatime is a superset of nodiratime, btw.
* Alan Cox <[email protected]> wrote:
> > it's also perhaps the most stupid Unix design idea of all times.
> > Unix is really nice and well done, but think about this a bit:
>
> Think about the user for a moment instead.
>
> Do things right. The job of the kernel is not to "correct" for
> distribution policy decisions. The distributions need to change
> policy. You do that by showing the distributions the numbers.
you try to put the blame into distribution makers' shoes but in reality,
had the kernel stepped forward with a neat .config option sooner
(combined with a neat boot option as well to turn it off), we'd have had
noatime systems 10 years ago. A new entry into relnotes and done. It's
_much less_ of a compatibility impact than many of the changes that
happen in a new distro release. (new glibc, new compiler, new kernel)
Distro makers did not dare to do this sooner because some kernel
developers came forward with these mostly bogus arguments ... The impact
of atime is far better understood by the kernel community, so it is the
responsibility of _us_ to signal such things towards distributors, not
the other way around.
Ingo
* Andrew Morton <[email protected]> wrote:
> On Sun, 5 Aug 2007 09:21:41 +0200 Ingo Molnar <[email protected]> wrote:
>
> > even on a noatime,nodiratime filesystem
>
> noatime is a superset of nodiratime, btw.
heh, indeed. I've been using this trick for 10 years on my desktops so
it's an ancient thinko :)
Ingo
* Andrew Morton:
>> XFS overwrites that data with zeros upon reboot, which tends to
>> irritate users when it happens.
>
> yup.
>
>> >From this point of view, data=ordered doesn't seem too bad.
>
> If your computer is used by multiple users who don't trust each other,
> sure. That covers, what? About 2% of machines?
I wasn't concerned so much with security, but with user experience.
For instance, some editors don't perform fsync-then-rename, but simply
truncate the file when saving (because they want to preserve hard
links). With XFS, this tends to cause null bytes on crashes. Since
ext3 has got a much larger install base, this would result in lots of
bug reports, I fear.
Without zeroing, the truncating editor might garble the file in a more
obvious way, but you've got the security issue (and I agree that this
is more of a PR issue).
here's an updated patch that implements a full spectrum of config, boot
and sysctl parameters to make it easy for users and distros to make
noatime the default. Tested on ext3, with and without atime.
for compatibility reasons the config option defaults to disabled, so
this patch has no impact by default. If CONFIG_DEFAULT_NOATIME is
enabled for a kernel then all filesystems will be noatime mounted. The
boot and sysctl options are available unconditionally.
Ingo
---------------------------->
Subject: [patch] add noatime/atime boot options, CONFIG_DEFAULT_NOATIME
From: Ingo Molnar <[email protected]>
add the "noatime" (and "atime") boot options to enable/disable atime
updates for all filesystems.
also add the CONFIG_DEFAULT_NOATIME kernel option (disabled by default
for compatibility reasons), which makes "noatime" the default for all
mounts without an extra kernel boot option.
also add the /proc/sys/kernel/mount_with_atime flag which can be changed
runtime to modify the behavior of subsequent new mounts.
Signed-off-by: Ingo Molnar <[email protected]>
---
Documentation/kernel-parameters.txt | 12 +++++++
fs/Kconfig | 21 +++++++++++++
fs/namespace.c | 56 ++++++++++++++++++++++++++++++++++++
include/linux/mount.h | 2 +
kernel/sysctl.c | 9 +++++
5 files changed, 100 insertions(+)
Index: linux/Documentation/kernel-parameters.txt
===================================================================
--- linux.orig/Documentation/kernel-parameters.txt
+++ linux/Documentation/kernel-parameters.txt
@@ -303,6 +303,12 @@ and is between 256 and 4096 characters.
atascsi= [HW,SCSI] Atari SCSI
+ atime [FS] default to enabled atime updates on all
+ filesystems.
+
+ atime= [FS] default to enabled/disabled atime updates on all
+ filesystems.
+
atkbd.extra= [HW] Enable extra LEDs and keys on IBM RapidAccess,
EzKey and similar keyboards
@@ -1100,6 +1106,12 @@ and is between 256 and 4096 characters.
noasync [HW,M68K] Disables async and sync negotiation for
all devices.
+ noatime [FS] default to disabled atime updates on all
+ filesystems.
+
+ noatime= [FS] default to disabled/enabled atime updates on all
+ filesystems.
+
nobats [PPC] Do not use BATs for mapping kernel lowmem
on "Classic" PPC cores.
Index: linux/fs/Kconfig
===================================================================
--- linux.orig/fs/Kconfig
+++ linux/fs/Kconfig
@@ -2060,6 +2060,27 @@ config 9P_FS
endmenu
+config DEFAULT_NOATIME
+ bool "Mount all filesystems with noatime by default"
+ help
+ If you say Y here, all your filesystems will be mounted
+ with the "noatime" mount option. This eliminates atime
+ ('file last accessed' timestamp) updates (which otherwise
+ is performed on every file access and generates a write
+ IO to the inode) and thus speeds up IO.
+
+ The mtime ('file last modified') and ctime ('file created')
+ timestamp are unaffected by this change.
+
+ Note: the overwhelming majority of applications make no
+ use of atime. Known exceptions: the Mutt mail client can
+ depend on it (for new mail notification) on multi-user
+ machines and some HSM backup tools might also work better
+ in the presence of atime.
+
+ Use the "atime" kernel boot option to turn off this
+ feature.
+
if BLOCK
menu "Partition Types"
Index: linux/fs/namespace.c
===================================================================
--- linux.orig/fs/namespace.c
+++ linux/fs/namespace.c
@@ -1362,6 +1362,60 @@ int copy_mount_options(const void __user
}
/*
+ * Allow users to disable (or enable) atime updates via a .config
+ * option or via the boot line, or via /proc/sys/fs/mount_with_atime:
+ */
+int mount_with_atime __read_mostly =
+#ifdef CONFIG_DEFAULT_NOATIME
+0
+#else
+1
+#endif
+;
+
+/*
+ * The "noatime=", "atime=", "noatime" and "atime" boot parameters:
+ */
+static int toggle_atime_updates(int val)
+{
+ mount_with_atime = val;
+
+ printk("Atime updates are: %s\n", val ? "on" : "off");
+
+ return 1;
+}
+
+static int __init set_atime_setup(char *str)
+{
+ int val;
+
+ get_option(&str, &val);
+ return toggle_atime_updates(val);
+}
+__setup("atime=", set_atime_setup);
+
+static int __init set_noatime_setup(char *str)
+{
+ int val;
+
+ get_option(&str, &val);
+ return toggle_atime_updates(!val);
+}
+__setup("noatime=", set_noatime_setup);
+
+static int __init set_atime(char *str)
+{
+ return toggle_atime_updates(1);
+}
+__setup("atime", set_atime);
+
+static int __init set_noatime(char *str)
+{
+ return toggle_atime_updates(0);
+}
+__setup("noatime", set_noatime);
+
+/*
* Flags is a 32-bit value that allows up to 31 non-fs dependent flags to
* be given to the mount() call (ie: read-only, no-dev, no-suid etc).
*
@@ -1409,6 +1463,8 @@ long do_mount(char *dev_name, char *dir_
mnt_flags |= MNT_NODIRATIME;
if (flags & MS_RELATIME)
mnt_flags |= MNT_RELATIME;
+ if (!mount_with_atime && !(flags & (MNT_NOATIME | MNT_NODIRATIME)))
+ mnt_flags |= MNT_NOATIME;
flags &= ~(MS_NOSUID | MS_NOEXEC | MS_NODEV | MS_ACTIVE |
MS_NOATIME | MS_NODIRATIME | MS_RELATIME);
Index: linux/include/linux/mount.h
===================================================================
--- linux.orig/include/linux/mount.h
+++ linux/include/linux/mount.h
@@ -103,5 +103,7 @@ extern void shrink_submounts(struct vfsm
extern spinlock_t vfsmount_lock;
extern dev_t name_to_dev_t(char *name);
+extern int mount_with_atime;
+
#endif
#endif /* _LINUX_MOUNT_H */
Index: linux/kernel/sysctl.c
===================================================================
--- linux.orig/kernel/sysctl.c
+++ linux/kernel/sysctl.c
@@ -30,6 +30,7 @@
#include <linux/capability.h>
#include <linux/smp_lock.h>
#include <linux/fs.h>
+#include <linux/mount.h>
#include <linux/init.h>
#include <linux/kernel.h>
#include <linux/kobject.h>
@@ -1206,6 +1207,14 @@ static ctl_table fs_table[] = {
.mode = 0644,
.proc_handler = &proc_dointvec,
},
+ {
+ .ctl_name = CTL_UNNUMBERED,
+ .procname = "mount_with_atime",
+ .data = &mount_with_atime,
+ .maxlen = sizeof(int),
+ .mode = 0644,
+ .proc_handler = &proc_dointvec,
+ },
#if defined(CONFIG_BINFMT_MISC) || defined(CONFIG_BINFMT_MISC_MODULE)
{
.ctl_name = CTL_UNNUMBERED,
On Sun, Aug 05, 2007 at 09:21:41AM +0200, Ingo Molnar wrote:
>
> * Alan Cox <[email protected]> wrote:
>
> > With a Red Hat on if we can move from /dev/hda to /dev/sda in FC7 then
> > we can move from atime to noatime by default on FC8 with appropriate
> > release note warnings and having a couple of betas to find out what
> > other than mutt goes boom.
>
> btw., Mutt does not go boom, i use it myself. It works just fine and
> notices new mails even on a noatime,nodiratime filesystem.
IIRC, atime is used by mailers and by the shell to detect that new
mail has arrived and report it only once if there are several intances
watching the same mbox.
I too use mutt and noatime,nodiratime everywhere (same 10 year-old
thinko), and the only side effect is that when I have a new mail,
it is reported in all of my xterms until I read it, clearly something
I can live with (and sometimes it's even desirable).
In fact, mutt is pretty good at this. It updates atime and ctime itself
as soon as it opens the mbox, so the shell is happy and only reports
"you have mail" afterwards.
Well, I hope we're not getting too much off-topic here...
Willy
Ingo Molnar wrote:
> Distro makers did not dare to do this sooner because some kernel
> developers came forward with these mostly bogus arguments ... The impact
> of atime is far better understood by the kernel community, so it is the
> responsibility of _us_ to signal such things towards distributors, not
> the other way around.
Pretty much.
AFAICS there was never a "policy decision" on the part of distro makers
to begin with. The kernel had its default -- atime -- and the distros
ran with that.
Jeff
On Sun, Aug 05, 2007 at 09:28:05AM +0200, Ingo Molnar wrote:
>
> * Alan Cox <[email protected]> wrote:
>
> > > Can you give examples of backup solutions that rely on atime being
> > > updated? I can understand backup tools using mtime/ctime for
> > > incremental backups (like tar + Amanda, etc), but I'm having trouble
> > > figuring out why someone would want to use atime for that.
> >
> > HSM is the usual one, and to a large extent probably why Unix
> > originally had atime. Basically migrating less used files away so as
> > to keep the system disks tidy.
>
> atime is used as a _hint_, at most and HSM sure works just fine on an
> atime-incapable filesystem too. So it's the same deal as "add user_xattr
> mount option to the filesystem to make Beagle index faster". It's now:
> "if you use HSM storage add the atime mount option to make it slightly
> more intelligent. Expect huge IO slowdowns though."
>
> The only remotely valid compatibility argument would be Mutt - but even
> that handles it just fine. (we broke way more software via noexec)
I find it pretty normal to use tmpreaper to clear out unused files from
certain types of semi-temporary directory structures. Those files are
often only ever read. They'd start randomly disappearing while in use.
But then again, maybe I'm the only guy on the planet who uses tmpreaper.
--
/ jakob
Jakob Oestergaard wrote:
> Oh dear.
>
> Why not just make ext3 fsync() a no-op while you're at it?
>
> Distros can turn it back on if it's needed...
>
> Of course I'm not serious, but like atime, fsync() is something one
No, they are nothing alike, and you are just making yourself look silly
if you compare them. fsync has to do with fundamental guarantees about
data.
> expects to work if it's there. Disabling atime updates or making
> fsync() a no-op will both result in silent failure which I am sure we
> can agree is disasterous.
<rolls eyes> Climb down from hyperbole mountain.
If you can show massive amounts of users that will actually be
negatively impacted, please present hard evidence.
Otherwise all this is useless hot air.
> Why on earth would you cripple the kernel defaults for ext3 (which is a
> fine FS for boot/root filesystems), when the *fundamental* problem you
> really want to solve lie much deeper in the implementation of the
> filesystem? Noatime doesn't solve the problem, it just makes it "less
> horrible".
atime updates -are- a fundamental problem, one you cannot solve by
tweaking filesystem implementations. No matter how much you try to hide
or batch, atime dirties an inode each time on every read... for a
feature a tiny minority of programs care about, much less depend on.
Remember several filesystems lock atime to mtime, because they do not
have a concept of atime, and programs continue to work just fine. We
already have field proof of how little atime matters in reality.
Jeff
On Sat, Aug 04, 2007 at 02:08:40PM -0400, Jeff Garzik wrote:
> Linus Torvalds wrote:
> >The "relatime" thing that David mentioned might well be very useful, but
> >it's probably even less used than "noatime" is. And sadly, I don't really
> >see that changing (unless we were to actually change the defaults inside
> >the kernel).
>
>
> I actually vote for that. IMO, distros should turn -on- atime updates
> when they know its needed.
Oh dear.
Why not just make ext3 fsync() a no-op while you're at it?
Distros can turn it back on if it's needed...
Of course I'm not serious, but like atime, fsync() is something one
expects to work if it's there. Disabling atime updates or making
fsync() a no-op will both result in silent failure which I am sure we
can agree is disasterous.
Why on earth would you cripple the kernel defaults for ext3 (which is a
fine FS for boot/root filesystems), when the *fundamental* problem you
really want to solve lie much deeper in the implementation of the
filesystem? Noatime doesn't solve the problem, it just makes it "less
horrible".
If you really need different filesystem performance characteristics, you
can switch to another filesystem. There's plenty to choose from.
--
/ jakob
On Sun, Aug 05, 2007 at 06:42:30AM -0400, Jeff Garzik wrote:
...
> If you can show massive amounts of users that will actually be
> negatively impacted, please present hard evidence.
>
> Otherwise all this is useless hot air.
Peace Jeff :)
In another mail, I gave an example with tmpreaper clearing out unused
files; if some of those files are only read and never modified,
tmpreaper would start deleting files which were still frequently used.
That's a regression, the way I see it. As for 'massive amounts of
users', well, tmpreaper exists in most distros, so it's possible it has
other users than just me.
--
/ jakob
> you try to put the blame into distribution makers' shoes but in reality,
> had the kernel stepped forward with a neat .config option sooner
> (combined with a neat boot option as well to turn it off), we'd have had
> noatime systems 10 years ago. A new entry into relnotes and done. It's
Sorry Ingo, having been in the distribution business for over ten years I
have to disagree. Kernel options that magically totally change the kernel
API and behaviour are exactly what a vendor does *NOT* want to have.
> Distro makers did not dare to do this sooner because some kernel
> developers came forward with these mostly bogus arguments ... The impact
> of atime is far better understood by the kernel community, so it is the
> responsibility of _us_ to signal such things towards distributors, not
> the other way around.
You are trying to put a bogus divide between kernel community and
developer community. Yet you know perfectly well that a large part of the
kernel community yourself included work for distribution vendors and are
actively building the distribution kernels.
You are perfectly positioned to provide timing examples to the Fedora
development team and make the case for FC8 beta going out that way. You
are perfectly able to propose, build and submit a FC7 extras package of
tuning which people can try in the meantime, but you haven't do so.
Other people in this discussion can do likewise for Debian, SuSE etc.
Your argument appears to be "I can't be bothered to use the due processes
of the distribution but I can do it quickly with an ugly kernel hack".
That is not the right approach. Propose it with your presented numbers to
fedora-devel and I'll be happy to back up such a proposal for the next FC
as will many other kernel folk I'm sure.
Heck, go write a piece for LWN with the benchmark numbers and how to
change your atime options. You'll make Jon happy and lots of folks read
it and will give feedback on improvements as a result.
Alan
> The only remotely valid compatibility argument would be Mutt - but even
> that handles it just fine. (we broke way more software via noexec)
And went through a sensible process of resolving it.
And its not just mutt. HSM stuff stops working which is a big deal as
stuff clogs up. The /tmp/ cleaning tools go wrong as well.
These are big deals because you seem intent on using a large hammer to
force a change that should be done properly by other means.
The /tmp cleaning for example can probably be done other ways in future
but the changes should be in place first.
* Jakob Oestergaard <[email protected]> wrote:
> > If you can show massive amounts of users that will actually be
> > negatively impacted, please present hard evidence.
> >
> > Otherwise all this is useless hot air.
>
> Peace Jeff :)
>
> In another mail, I gave an example with tmpreaper clearing out unused
> files; if some of those files are only read and never modified,
> tmpreaper would start deleting files which were still frequently used.
>
> That's a regression, the way I see it. As for 'massive amounts of
> users', well, tmpreaper exists in most distros, so it's possible it
> has other users than just me.
you mean tmpwatch? The trivial change below fixes this. And with that
we've come to the end of an extremely short list of atime dependencies.
Ingo
--- /etc/cron.daily/tmpwatch.orig
+++ /etc/cron.daily/tmpwatch
@@ -1,9 +1,9 @@
#! /bin/sh
-/usr/sbin/tmpwatch -x /tmp/.X11-unix -x /tmp/.XIM-unix -x /tmp/.font-unix \
+/usr/sbin/tmpwatch --mtime -x /tmp/.X11-unix -x /tmp/.XIM-unix -x /tmp/.font-unix \
-x /tmp/.ICE-unix -x /tmp/.Test-unix 10d /tmp
-/usr/sbin/tmpwatch 30d /var/tmp
+/usr/sbin/tmpwatch --mtime 30d /var/tmp
for d in /var/{cache/man,catman}/{cat?,X11R6/cat?,local/cat?}; do
if [ -d "$d" ]; then
- /usr/sbin/tmpwatch -f 30d "$d"
+ /usr/sbin/tmpwatch --mtime -f 30d "$d"
fi
done
> > we can move from atime to noatime by default on FC8 with appropriate
> > release note warnings and having a couple of betas to find out what
> > other than mutt goes boom.
>
> btw., Mutt does not go boom, i use it myself. It works just fine and
> notices new mails even on a noatime,nodiratime filesystem.
Configuration dependant, and also mutt and the shell will misreport new
mail with noatime on the mail spool. The shell should probably use
inotify of course but that change has to be made.
* Alan Cox <[email protected]> wrote:
> > you try to put the blame into distribution makers' shoes but in
> > reality, had the kernel stepped forward with a neat .config option
> > sooner (combined with a neat boot option as well to turn it off),
> > we'd have had noatime systems 10 years ago. A new entry into
> > relnotes and done. It's
>
> Sorry Ingo, having been in the distribution business for over ten
> years I have to disagree. Kernel options that magically totally change
> the kernel API and behaviour are exactly what a vendor does *NOT* want
> to have.
it's default off of course. A distro can turn it on or off.
> > Distro makers did not dare to do this sooner because some kernel
> > developers came forward with these mostly bogus arguments ... The
> > impact of atime is far better understood by the kernel community, so
> > it is the responsibility of _us_ to signal such things towards
> > distributors, not the other way around.
>
> You are trying to put a bogus divide between kernel community and
> developer community. Yet you know perfectly well that a large part of
> the kernel community yourself included work for distribution vendors
> and are actively building the distribution kernels.
i've periodically pushed for a noatime distro kernel for like ... 5-10
years and last time this argument came up [i brought it up 6 months ago]
most of the distro kernel developer actually recommended using noatime,
but it took only 1-2 kernel developers to come out with the
'compatibility' and 'compliance' boogeyman to scare the distro userspace
people away from changing /etc/fstab.
so yes, things like this needs a clear message from the kernel folks,
and a kernel option for that is a pretty good way of doing it.
Ingo
* Alan Cox <[email protected]> wrote:
> > > we can move from atime to noatime by default on FC8 with
> > > appropriate release note warnings and having a couple of betas to
> > > find out what other than mutt goes boom.
> >
> > btw., Mutt does not go boom, i use it myself. It works just fine and
> > notices new mails even on a noatime,nodiratime filesystem.
>
> Configuration dependant, and also mutt and the shell will misreport
> new mail with noatime on the mail spool. The shell should probably use
> inotify of course but that change has to be made.
just to quote from this same email thread:
| I too use mutt and noatime,nodiratime everywhere (same 10 year-old
| thinko), and the only side effect is that when I have a new mail, it
| is reported in all of my xterms until I read it, clearly something I
| can live with (and sometimes it's even desirable).
|
| In fact, mutt is pretty good at this. It updates atime and ctime
| itself as soon as it opens the mbox, so the shell is happy and only
| reports "you have mail" afterwards.
Ingo
* Alan Cox <[email protected]> wrote:
> > The only remotely valid compatibility argument would be Mutt - but even
> > that handles it just fine. (we broke way more software via noexec)
>
> And went through a sensible process of resolving it.
>
> And its not just mutt. HSM stuff stops working which is a big deal as
> stuff clogs up. The /tmp/ cleaning tools go wrong as well.
what OSS HSM software stops working and what is its failure mode? /tmp
cleaning tools will work _just fine_ if we report back max(mtime,ctime)
as atime - they'll zap more /tmp stuff as they used to. There's no
guarantee for /tmp contents anyway if tmpwatch is running. Or the patch
below.
Ingo
--- /etc/cron.daily/tmpwatch.orig 2007-08-05 14:44:25.000000000 +0200
+++ /etc/cron.daily/tmpwatch 2007-08-05 14:45:10.000000000 +0200
@@ -1,9 +1,9 @@
#! /bin/sh
-/usr/sbin/tmpwatch -x /tmp/.X11-unix -x /tmp/.XIM-unix -x /tmp/.font-unix \
+/usr/sbin/tmpwatch --mtime -x /tmp/.X11-unix -x /tmp/.XIM-unix -x /tmp/.font-unix \
-x /tmp/.ICE-unix -x /tmp/.Test-unix 10d /tmp
-/usr/sbin/tmpwatch 30d /var/tmp
+/usr/sbin/tmpwatch --mtime 30d /var/tmp
for d in /var/{cache/man,catman}/{cat?,X11R6/cat?,local/cat?}; do
if [ -d "$d" ]; then
- /usr/sbin/tmpwatch -f 30d "$d"
+ /usr/sbin/tmpwatch --mtime -f 30d "$d"
fi
done
El Sun, 5 Aug 2007 09:13:20 +0200, Ingo Molnar <[email protected]> escribi?:
> Measurements show that noatime helps 20-30% on regular desktop
> workloads, easily 50% for kernel builds and much more than that (in
> excess of 100%) for file-read-intense workloads. We cannot just walk
And as everybody knows in servers is a popular practice to disable it.
According to an interview to the kernel.org admins....
"Beyond that, Peter noted, "very little fancy is going on, and that is good
because fancy is hard to maintain." He explained that the only fancy thing
being done is that all filesystems are mounted noatime meaning that the
system doesn't have to make writes to the filesystem for files which are
simply being read, "that cut the load average in half."
I bet that some people would consider such performance hit a bug...
On Sun, Aug 05, 2007 at 02:58:47PM +0200, Ingo Molnar wrote:
>
> * Alan Cox <[email protected]> wrote:
>
> > > The only remotely valid compatibility argument would be Mutt - but even
> > > that handles it just fine. (we broke way more software via noexec)
> >
> > And went through a sensible process of resolving it.
> >
> > And its not just mutt. HSM stuff stops working which is a big deal as
> > stuff clogs up. The /tmp/ cleaning tools go wrong as well.
>
> what OSS HSM software stops working and what is its failure mode? /tmp
> cleaning tools will work _just fine_ if we report back max(mtime,ctime)
> as atime - they'll zap more /tmp stuff as they used to. There's no
> guarantee for /tmp contents anyway if tmpwatch is running. Or the patch
> below.
Ingo,
In your example above, maybe it's the opposite, users know they can keep a
file in /tmp one more week by simply cat'ing it.
Changing the kernel in a non-easily reversible way is not kind to the users.
As you pointed it, there's no "atime" option in mount, and quite frankly,
having to reboot an NFS server to change a command line option which should
belong to fstab is quite gross. And yes, there may be people realying on
atime in specific environments. I remember having used it in the past to
automatically archive unused files. Those people might not be affected by
the drop in performance at all and would rather keep the feature.
I like Alan's idea of a package to automatically add "noatime" everywhere
in fstab, not only because it's easy to use, but because it will also teach
users how they can proceed on their other systems. Also, if you make the
package yourself, it will benefit from the "coolness factor" many people
see in everything that's done by renown persons (you know, the type of
people who regularly ask you if you use vi/emacs and what type of window
manager, and who then consider it must be good if you use it). I'll stop
ranting here, some of them may be reading ;-)
As a second step, once many people explicitly ask for "noatime" by default,
it will be time to add MS_ATIME to the kernel and to mount, and set NOATIME
as the default with big warnings. This will make everyone happy.
But expecting the admins to recompile their kernels or to reboot to change
the atime status is not acceptable IMHO. Moreover, they will not even know
they have to do this and they will feel frustrated because the system will
not do what they want.
I've already been bothered a lot by ext3 filesystems with dirindex enabled.
When you boot from an old CD and you cannot mount them, it's already quite
irritating (not to mention that tune2fs from the old CD does not know about
it either so you cannot disable the option). But it's even worse when you
plug an USB hard disk into an old server to start a backup and notice that
you cannot mount the disk without first upgrading your kernel !
For this reason, I think that the default noatime will be desirable only
after MS_ATIME is supported by both the kernel and the tools.
Cheers,
Willy
> it's default off of course. A distro can turn it on or off.
...
> i've periodically pushed for a noatime distro kernel for like ... 5-10
> years and last time this argument came up [i brought it up 6 months ago]
> most of the distro kernel developer actually recommended using noatime,
> but it took only 1-2 kernel developers to come out with the
> 'compatibility' and 'compliance' boogeyman to scare the distro userspace
> people away from changing /etc/fstab.
And you honestly think that putting it in Kconfig as well as allowing
users to screw up horribly and creating incompatible defaults you can't
test for in a user space app where it matters is going to *change* this.
Do you really think anyone who said "noatime, compatibility, umm errr" is
going to say "noatime, compatibility, but hey its in Kconfig lets do it".
You argument doesn't hold up to minimal rational consideration. Posting
to the distribution devel list with: "Its a 50% performance win, we need
to fix these corner cases, here's a tmpwatch patch" is *exactly* what is
needed to change it, and Kconfig options are irrelevant to that.
Be serious and do this the proper way, propose it for FC8, go through the
proper due process. Otherwise the FC8 process will simply continue as
"umm err, compatibility" and it'll go nowhere.
You can't really complain about the CK scheduler and Con trying to do
stuff his own way without listening and then do this can you ?
Alan
On Sun, Aug 05, 2007 at 02:46:48PM +0200, Ingo Molnar wrote:
>
> * Jakob Oestergaard <[email protected]> wrote:
>
> > > If you can show massive amounts of users that will actually be
> > > negatively impacted, please present hard evidence.
> > >
> > > Otherwise all this is useless hot air.
> >
> > Peace Jeff :)
> >
> > In another mail, I gave an example with tmpreaper clearing out unused
> > files; if some of those files are only read and never modified,
> > tmpreaper would start deleting files which were still frequently used.
> >
> > That's a regression, the way I see it. As for 'massive amounts of
> > users', well, tmpreaper exists in most distros, so it's possible it
> > has other users than just me.
>
> you mean tmpwatch?
Same same.
> The trivial change below fixes this. And with that
> we've come to the end of an extremely short list of atime dependencies.
Please read what I wrote, not what you think I wrote.
If I only *read* those files, the mtime will not be updated, only the
atime.
And the files *will* then magically begin to disappear although they are
frequently used.
That will happen with a standard piece of software in a standard
configuration, in a scenario that may or may not be common... I have no
idea how common such a setup is - but I know how much it would suck to
have files magically disappearing because of a kernel upgrade :)
--
/ jakob
On Sun, 5 August 2007 10:53:54 +0200, Willy Tarreau wrote:
> On Sun, Aug 05, 2007 at 09:21:41AM +0200, Ingo Molnar wrote:
> >
> > btw., Mutt does not go boom, i use it myself. It works just fine and
> > notices new mails even on a noatime,nodiratime filesystem.
>
> IIRC, atime is used by mailers and by the shell to detect that new
> mail has arrived and report it only once if there are several intances
> watching the same mbox.
>
> I too use mutt and noatime,nodiratime everywhere (same 10 year-old
> thinko), and the only side effect is that when I have a new mail,
> it is reported in all of my xterms until I read it, clearly something
> I can live with (and sometimes it's even desirable).
>
> In fact, mutt is pretty good at this. It updates atime and ctime itself
> as soon as it opens the mbox, so the shell is happy and only reports
> "you have mail" afterwards.
For me mutt fails to recognize new mail. And the difference might be
this:
http://www.google.de/search?q=enable-buffy-size
Jörn
--
Fancy algorithms are slow when n is small, and n is usually small.
Fancy algorithms have big constants. Until you know that n is
frequently going to be big, don't get fancy.
-- Rob Pike
On Sun, Aug 05, 2007 at 02:26:53AM +0200, Andi Kleen wrote:
> I always thought the right solution would be to just sync atime only
> very very lazily. This means if a inode is only dirty because of an
> atime update put it on a "only write out when there is nothing to do
> or the memory is really needed" list.
As I've mentioend earlier, the memory balancing issues that arise when
we add an "atime dirty" bit scare me a little. It can be addressed,
obviously, but at the cost of more code complexity.
An alternative is to simply have a tunable parameter, via either a
mount option or stashed in the superblock which controls atime's
granularity guarantee. That is, only update the atime if it is older
than some set time that could be configurable as a mount option or in
the superblock. Most of the time, an HSM system simply wants to know
if a file has been used sometime "recently", where recently might be
measured in hours or in days.
This is IMHO slightly better than relatime, since it keeps the spirit
of the atime update, while keeping the performance impact to a very
minimal (and tunable) level.
- Ted
P.S. Yet alternative is to specify noatime on an individual
file/directory basis. We've had this capability for a *long* time,
and if a distro were to set noatime for all files in certain
hierarchies (i.e., /usr/include) and certain top-level directories
(since the chattr +A flag is inherited), I think folks would find that
this would reduce the I/O traffic of noatime by a huge amount. This
also would be 100% POSIX compliant, since we are extending the
filesystem and setting certain files to use it. But if users want to
know when was the last time they looked at a particular file in their
home directory, they would still have that facility.
On Sun, Aug 05, 2007 at 01:49:26AM +0100, Alan Cox wrote:
> HSM is the usual one, and to a large extent probably why Unix originally
> had atime. Basically migrating less used files away so as to keep the
> system disks tidy.
>
> Its not something usally found on desktop boxes so it doesn't in anyway
> argue against the distribution using noatime or relative atime, but on
> big server boxes it matters
In addition, big server boxes are usually not reading a huge *number*
of files per second. The place where you see this as a problem is (a)
compilation, thanks to huge /usr/include hierarchies (and here things
have gotten worse over time as include files have gotten much more
complex than in the early Unix days), and (b) silly desktop apps that
want to scan huge numbers of XML files or who want to read every
single image file on the desktop or in an open file browser window to
show c00l icons. Oh, and I guess I should include Maildir setups.
If you are always reading from the same small set of files (i.e., a
database workload), then those inodes only get updated every 5 seconds
(the traditional/default metadata update sync time, as well as the
default ext3 journal update time), it's no big deal. Or if you are
running a mail server, most of the time the mail queue files are
getting updated anyway as you process them, and usually the mail is
delivered before 5 seconds is up anyway.
So earlier, when Ingo characterized it as, "whenever you read from a
file, even one in memory cache.... do a write!", it's probably a bit
unfair. Traditional Unix systems simply had very different workload
characteristics than many modern dekstop systems today.
- Ted
On Sun, 5 Aug 2007, Ingo Molnar wrote:
>
> you mean tmpwatch? The trivial change below fixes this. And with that
> we've come to the end of an extremely short list of atime dependencies.
You wouldn't even need these kinds of games.
What we could do is to make "relatime" updates a bit smarter.
A bit smarter would be:
- update atime if the old atime is <= than mtime/ctime
Logic: things like mailers can care about whether some new state has
been read or not. This is the current relatime.
- update atime if the old atime is more than X seconds in the past
(defaulting to one day or something)
Logic: things like tmpwatch and backup software may want to remove
stuff that hasn't been touched in a long time, but they sure don't care
about "exact" atime.
Now, you could also make the rule be that "X" depends on mtime/ctime, ie
if a file has been "recently" created or modified, we keep more exact
track of it and use one hour instead of one day, but if it's some old file
that hasn't been modified in the last six months, we change X to a week.
IOW, the "exactness" of atime is relative to how old the inode
modifications are.
We could obviously do with an additional rule:
- update atime if the inode is dirty anyway. Logic: there's no downside.
which just says that we'll make it exact if there is no reason not to.
Linus
Hi,
Ingo Molnar <mingo <at> elte.hu> writes:
> * Linus Torvalds <torvalds <at> linux-foundation.org> wrote:
> > On Fri, 3 Aug 2007, Peter Zijlstra wrote:
> > >
> > > These patches aim to improve balance_dirty_pages() and directly address
> > > three issues:
> > > 1) inter device starvation
> > > 2) stacked device deadlocks
> > > 3) inter process starvation
> >
> > Ok, the patches certainly look pretty enough, and you fixed the only
> > thing I complained about last time (naming), so as far as I'm
> > concerned it's now just a matter of whether it *works* or not. I guess
> > being in -mm will help somewhat, but it would be good to have people
> > with several disks etc actively test this out.
>
> There are positive reports in the never-ending "my system crawls like an
> XT when copying large files" bugzilla entry:
>
> http://bugzilla.kernel.org/show_bug.cgi?id=7372
>
>[ snipped part of the bug report ]
>
> so the whole problem area seems to be a "perfect storm" created by a
> combination of TCQ, IO scheduling and VM dirty handling weaknesses. Per
> device dirty throttling is a good step forward and it makes a very
> visible positive difference.
Foreword: I'm the OP of bug #7372.
I just want to say/add that:
1) I'm running the per-bdi patch since about 30 days on a master mysql server
under somewhat mild load without any adverse effect I could notice.
2) I _still_ don't get the "performances" of 2.6.17, but since that's the
better combination I could get, I think there is IMHO progress in the right
direction (to be compared to no progress since 2.6.18, that's better :-)).
To be honest, a vanilla 2.6.17 not tuned at all (ie vfs_cache_pressure and other
knobs in /proc/sys/vm like swappiness and dirty_*) is still better than any
other upcoming kernel I tested. Thus I still think 2.6.18 added a big regression
(which unfortunately I couldn't find).
Read the full bug report for any background information if needed.
Unfortunately it isn't practical to git-bisect my issue as the server is a
production server that can't be rebooted/stopped whenever I want (and since I
found workarounds of the issue...).
Thanks for showing interest in this issue.
Please CC: me on any answers as I'm not subscribed to the list.
--
Brice Figureau
* Theodore Tso <[email protected]> wrote:
> If you are always reading from the same small set of files (i.e., a
> database workload), then those inodes only get updated every 5 seconds
> (the traditional/default metadata update sync time, as well as the
> default ext3 journal update time), it's no big deal. Or if you are
> running a mail server, most of the time the mail queue files are
> getting updated anyway as you process them, and usually the mail is
> delivered before 5 seconds is up anyway.
>
> So earlier, when Ingo characterized it as, "whenever you read from a
> file, even one in memory cache.... do a write!", it's probably a bit
> unfair. Traditional Unix systems simply had very different workload
> characteristics than many modern dekstop systems today.
yeah, i didnt mean to say that it is _always_ a big issue, but "only a
small number of files are read" is a very, very small minority of even
the database server world.
Ingo
Ingo Molnar wrote:
> * Theodore Tso <[email protected]> wrote:
>
>> If you are always reading from the same small set of files (i.e., a
>> database workload), then those inodes only get updated every 5 seconds
>> (the traditional/default metadata update sync time, as well as the
>> default ext3 journal update time), it's no big deal. Or if you are
>> running a mail server, most of the time the mail queue files are
>> getting updated anyway as you process them, and usually the mail is
>> delivered before 5 seconds is up anyway.
>>
>> So earlier, when Ingo characterized it as, "whenever you read from a
>> file, even one in memory cache.... do a write!", it's probably a bit
>> unfair. Traditional Unix systems simply had very different workload
>> characteristics than many modern dekstop systems today.
>
> yeah, i didnt mean to say that it is _always_ a big issue, but "only a
> small number of files are read" is a very, very small minority of even
> the database server world.
OTOH, consider a popular Linux task, web serving. atime results in a
lot of unnecessary disk traffic.
Jeff
On Sat, 2007-08-04 at 17:48 -0400, Theodore Tso wrote:
> On Sat, Aug 04, 2007 at 01:13:19PM -0700, Arjan van de Ven wrote:
> > there is another trick possible (more involved though, Al will have to
> > jump in on that one I suspect): Have 2 types of "dirty inode" states;
> > one is the current dirty state (meaning the full range of ext3
> > transactions etc) and "lighter" state of "atime-dirty"; which will not
> > do the background syncs or journal transactions (so if your machine
> > crashes, you lose the atime update) but it does keep atime for most
> > normal cases and keeps it standard compliant "except after a crash".
>
> That would make us standards compliant (POSIX explicitly says that
> what happens after a unclean shutdown is Unspecified) and it would
> make things a heck of a lot faster. However, there is a potential
> problem which is that it will keep a large number of inodes pinned in
> memory, which is its own problem. So there would have to be some way
> to force the atime updates to be merged when under memory pressure,
> and and perhaps on some much longer background interval (i.e., every
> hour or so).
on the journalling side this would be one transaction (not 5 milion)
and... since inodes are grouped on disk, you can even get some better
coalescing this way...
Wonder if we could do inode-grouping smartly; eg if we HAVE to write
inode X, also write out the atime-dirty inodes in range X-Y to X+Y
(where Y is some tunable) in the same IO..
--
if you want to mail me at work (you don't), use arjan (at) linux.intel.com
Test the interaction between Linux and your BIOS via http://www.linuxfirmwarekit.org
On Sun, 2007-08-05 at 16:17 +0200, Jörn Engel wrote:
> On Sun, 5 August 2007 10:53:54 +0200, Willy Tarreau wrote:
> > On Sun, Aug 05, 2007 at 09:21:41AM +0200, Ingo Molnar wrote:
> > >
> > > btw., Mutt does not go boom, i use it myself. It works just fine and
> > > notices new mails even on a noatime,nodiratime filesystem.
> >
> > IIRC, atime is used by mailers and by the shell to detect that new
> > mail has arrived and report it only once if there are several intances
> > watching the same mbox.
> >
> > I too use mutt and noatime,nodiratime everywhere (same 10 year-old
> > thinko), and the only side effect is that when I have a new mail,
> > it is reported in all of my xterms until I read it, clearly something
> > I can live with (and sometimes it's even desirable).
> >
> > In fact, mutt is pretty good at this. It updates atime and ctime itself
> > as soon as it opens the mbox, so the shell is happy and only reports
> > "you have mail" afterwards.
>
> For me mutt fails to recognize new mail. And the difference might be
> this:
but does it work with relatime ?
* Alan Cox <[email protected]> wrote:
> And you honestly think that putting it in Kconfig as well as allowing
> users to screw up horribly and creating incompatible defaults you
So far you've not offered one realistic scenario of "screw up horribly".
People have been using noatime for a long time and there are no horror
stories about that. _Which_ OSS HSM software relies on atime?
> can't test for in a user space app where it matters is going to
> *change* this.
The patch i posted today adds /proc/sys/kernel/mount_with_atime. That
can be tested by user-space, if it truly cares about atime.
> Do you really think anyone who said "noatime, compatibility, umm errr"
> is going to say "noatime, compatibility, but hey its in Kconfig lets
> do it". You argument doesn't hold up to minimal rational
> consideration. Posting to the distribution devel list with: "Its a 50%
> performance win, we need to fix these corner cases, here's a tmpwatch
> patch" is *exactly* what is needed to change it, and Kconfig options
> are irrelevant to that.
i did exactly that 6 months ago, check your email folders. I went by the
"process". But it doesnt really matter anymore, Ubuntu has done the step
and Fedora will be forced to do it too. But it's sad that it took us 10
years. I'd like to remind you again:
|| ...For me, I would say 50% is not enough to describe the _visible_
|| benefits... Not talking any specific number but past 10sec-1min+
|| lagging in X is history, it's gone and I really don't miss it that
|| much... :-) Cannot reproduce even a second long delay anymore in
|| window focusing under considerable load as it's basically
|| instantaneous (I can see that it's loaded but doesn't affect the
|| feeling of responsiveness I'm now getting), even on some loads that I
|| couldn't previously even dream of... [...]
we really have to ask ourselves whether the "process" is correct if
advantages to the user of this order of magnitude can be brushed aside
with simple "this breaks binary-only HSM" and "it's not standards
compliant" arguments.
Ingo
* Jeff Garzik <[email protected]> wrote:
> > yeah, i didnt mean to say that it is _always_ a big issue, but "only
> > a small number of files are read" is a very, very small minority of
> > even the database server world.
>
> OTOH, consider a popular Linux task, web serving. atime results in a
> lot of unnecessary disk traffic.
it's a big, noticeable effect on 99% of the Linux boxes.
Ingo
>
> In addition, big server boxes are usually not reading a huge *number*
> of files per second. The place where you see this as a problem is (a)
> compilation, thanks to huge /usr/include hierarchies (and here things
> have gotten worse over time as include files have gotten much more
> complex than in the early Unix days), and (b) silly desktop apps that
> want to scan huge numbers of XML files or who want to read every
> single image file on the desktop or in an open file browser window to
> show c00l icons. Oh, and I guess I should include Maildir setups.
>
> If you are always reading from the same small set of files (i.e., a
> database workload), then those inodes only get updated every 5 seconds
> (the traditional/default metadata update sync time, as well as the
> default ext3 journal update time), it's no big deal. Or if you are
> running a mail server, most of the time the mail queue files are
> getting updated anyway as you process them, and usually the mail is
> delivered before 5 seconds is up anyway.
it's just one of those things that get compounded with journaling
filesystems though..... a single async write that happens "sometime in
the future" is one thing... having a full transaction (which acts as
barrier and synchronisation point) is something totally worse.
--
if you want to mail me at work (you don't), use arjan (at) linux.intel.com
Test the interaction between Linux and your BIOS via http://www.linuxfirmwarekit.org
On Sun, 5 August 2007 11:02:33 -0700, Arjan van de Ven wrote:
>
> but does it work with relatime ?
Like a greased penguin. I had to reboot with my ugly patch posted
earlier in the patch to actually test it, though. Relatime suffers from
a distribution problem, nothing else.
Guess I should throw in a kernel compile test as well, just to get a
feel for the performance.
Jörn
--
Homo Sapiens is a goal, not a description.
-- unknown
On Sun, Aug 05, 2007 at 09:21:41AM +0200, Ingo Molnar wrote:
> * Alan Cox <[email protected]> wrote:
>
> > With a Red Hat on if we can move from /dev/hda to /dev/sda in FC7 then
> > we can move from atime to noatime by default on FC8 with appropriate
> > release note warnings and having a couple of betas to find out what
> > other than mutt goes boom.
>
> btw., Mutt does not go boom, i use it myself. It works just fine and
> notices new mails even on a noatime,nodiratime filesystem.
It still fails miserably for me.
If I hit 'C' and '?' I get a list of my mail folders, with some of them
marked 'N' if they have new mail. Without atime, those N's never show
up and every mbox looks like it has no new mail.
Dave
--
http://www.codemonkey.org.uk
On Sun, Aug 05, 2007 at 02:44:08PM -0400, Dave Jones wrote:
> It still fails miserably for me.
>
> If I hit 'C' and '?' I get a list of my mail folders, with some of them
> marked 'N' if they have new mail. Without atime, those N's never show
> up and every mbox looks like it has no new mail.
This is true for one using mbox_type=mbox (i.e unix native mailbox
format). Maildir type should work just fine as mutt will noticed
that new mail has arrived on 'new' subdir (according to maildir spec).
Then yes, it is configuration dependent.
Regards,
P.Y. Adi Prasaja
* Linus Torvalds <[email protected]> wrote:
> On Sun, 5 Aug 2007, Ingo Molnar wrote:
> >
> > you mean tmpwatch? The trivial change below fixes this. And with that
> > we've come to the end of an extremely short list of atime dependencies.
>
> You wouldn't even need these kinds of games.
>
> What we could do is to make "relatime" updates a bit smarter.
>
> A bit smarter would be:
>
> - update atime if the old atime is <= than mtime/ctime
>
> Logic: things like mailers can care about whether some new state has
> been read or not. This is the current relatime.
>
> - update atime if the old atime is more than X seconds in the past
> (defaulting to one day or something)
>
> Logic: things like tmpwatch and backup software may want to remove
> stuff that hasn't been touched in a long time, but they sure don't care
> about "exact" atime.
ok, i've implemented this and it's working fine. Check out the
relatime_need_update() function for the details of the logic. Atime
update frequency is 1 day with that, and we update at least once after
every modification as well, for the mailer logic.
tested it by moving the date forward:
# date
Sun Aug 5 22:55:14 CEST 2007
# date -s "Tue Aug 7 22:55:14 CEST 2007"
Tue Aug 7 22:55:14 CEST 2007
access to a file did not generate disk IO before the date was set, and
it generated exactly one IO after the date was set.
( should i perhaps reduce the number of boot options and only use a
single "norelatime_default" boot option to turn this off? )
Ingo
------------------------------------>
Subject: [patch] add norelatime/relatime boot options, CONFIG_DEFAULT_RELATIME
From: Ingo Molnar <[email protected]>
change relatime updates to be performed once per day. This makes
relatime a compatible solution for HSM, mailer-notification and
tmpwatch applications too.
also add the CONFIG_DEFAULT_RELATIME kernel option, which makes
"norelatime" the default for all mounts without an extra kernel
boot option.
add the "norelatime" (and "relatime") boot options to enable/disable
relatime updates for all filesystems.
also add the /proc/sys/kernel/mount_with_relatime flag which can be changed
runtime to modify the behavior of subsequent new mounts.
tested by moving the date forward:
# date
Sun Aug 5 22:55:14 CEST 2007
# date -s "Tue Aug 7 22:55:14 CEST 2007"
Tue Aug 7 22:55:14 CEST 2007
access to a file did not generate disk IO before the date was set, and
it generated exactly one IO after the date was set.
Signed-off-by: Ingo Molnar <[email protected]>
---
Documentation/kernel-parameters.txt | 12 +++++++
fs/Kconfig | 17 ++++++++++
fs/inode.c | 48 ++++++++++++++++++++--------
fs/namespace.c | 61 ++++++++++++++++++++++++++++++++++++
include/linux/mount.h | 2 +
kernel/sysctl.c | 9 +++++
6 files changed, 136 insertions(+), 13 deletions(-)
Index: linux/Documentation/kernel-parameters.txt
===================================================================
--- linux.orig/Documentation/kernel-parameters.txt
+++ linux/Documentation/kernel-parameters.txt
@@ -303,6 +303,12 @@ and is between 256 and 4096 characters.
atascsi= [HW,SCSI] Atari SCSI
+ relatime [FS] default to enabled relatime updates on all
+ filesystems.
+
+ relatime= [FS] default to enabled/disabled relatime updates on
+ all filesystems.
+
atkbd.extra= [HW] Enable extra LEDs and keys on IBM RapidAccess,
EzKey and similar keyboards
@@ -1100,6 +1106,12 @@ and is between 256 and 4096 characters.
noasync [HW,M68K] Disables async and sync negotiation for
all devices.
+ norelatime [FS] default to disabled relatime updates on all
+ filesystems.
+
+ norelatime= [FS] default to disabled/enabled relatime updates
+ on all filesystems.
+
nobats [PPC] Do not use BATs for mapping kernel lowmem
on "Classic" PPC cores.
Index: linux/fs/Kconfig
===================================================================
--- linux.orig/fs/Kconfig
+++ linux/fs/Kconfig
@@ -2060,6 +2060,23 @@ config 9P_FS
endmenu
+config DEFAULT_RELATIME
+ bool "Mount all filesystems with relatime by default"
+ default y
+ help
+ If you say Y here, all your filesystems will be mounted
+ with the "relatime" mount option. This eliminates many atime
+ ('file last accessed' timestamp) updates (which otherwise
+ is performed on every file access and generates a write
+ IO to the inode) and thus speeds up IO. Atime is still updated,
+ but only once per day.
+
+ The mtime ('file last modified') and ctime ('file created')
+ timestamp are unaffected by this change.
+
+ Use the "norelatime" kernel boot option to turn off this
+ feature.
+
if BLOCK
menu "Partition Types"
Index: linux/fs/inode.c
===================================================================
--- linux.orig/fs/inode.c
+++ linux/fs/inode.c
@@ -1162,6 +1162,36 @@ sector_t bmap(struct inode * inode, sect
}
EXPORT_SYMBOL(bmap);
+/*
+ * With relative atime, only update atime if the
+ * previous atime is earlier than either the ctime or
+ * mtime.
+ */
+static int relatime_need_update(struct inode *inode, struct timespec now)
+{
+ /*
+ * Is mtime younger than atime? If yes, update atime:
+ */
+ if (timespec_compare(&inode->i_mtime, &inode->i_atime) >= 0)
+ return 1;
+ /*
+ * Is ctime younger than atime? If yes, update atime:
+ */
+ if (timespec_compare(&inode->i_ctime, &inode->i_atime) >= 0)
+ return 1;
+
+ /*
+ * Is the previous atime value older than a day? If yes,
+ * update atime:
+ */
+ if ((long)(now.tv_sec - inode->i_atime.tv_sec) >= 24*60*60)
+ return 1;
+ /*
+ * Good, we can skip the atime update:
+ */
+ return 0;
+}
+
/**
* touch_atime - update the access time
* @mnt: mount the inode is accessed on
@@ -1191,22 +1221,14 @@ void touch_atime(struct vfsmount *mnt, s
return;
if ((mnt->mnt_flags & MNT_NODIRATIME) && S_ISDIR(inode->i_mode))
return;
-
- if (mnt->mnt_flags & MNT_RELATIME) {
- /*
- * With relative atime, only update atime if the
- * previous atime is earlier than either the ctime or
- * mtime.
- */
- if (timespec_compare(&inode->i_mtime,
- &inode->i_atime) < 0 &&
- timespec_compare(&inode->i_ctime,
- &inode->i_atime) < 0)
+ }
+ now = current_fs_time(inode->i_sb);
+ if (mnt) {
+ if (mnt->mnt_flags & MNT_RELATIME)
+ if (!relatime_need_update(inode, now))
return;
- }
}
- now = current_fs_time(inode->i_sb);
if (timespec_equal(&inode->i_atime, &now))
return;
Index: linux/fs/namespace.c
===================================================================
--- linux.orig/fs/namespace.c
+++ linux/fs/namespace.c
@@ -1107,6 +1107,8 @@ int do_add_mount(struct vfsmount *newmnt
goto unlock;
newmnt->mnt_flags = mnt_flags;
+ WARN_ON_ONCE(newmnt->mnt_flags & MNT_RELATIME);
+
if ((err = graft_tree(newmnt, nd)))
goto unlock;
@@ -1362,6 +1364,60 @@ int copy_mount_options(const void __user
}
/*
+ * Allow users to disable (or enable) atime updates via a .config
+ * option or via the boot line, or via /proc/sys/fs/mount_with_relatime:
+ */
+int mount_with_relatime __read_mostly =
+#ifdef CONFIG_DEFAULT_RELATIME
+1
+#else
+0
+#endif
+;
+
+/*
+ * The "norelatime=", "atime=", "norelatime" and "relatime" boot parameters:
+ */
+static int toggle_relatime_updates(int val)
+{
+ mount_with_relatime = val;
+
+ printk("Relative atime updates are: %s\n", val ? "on" : "off");
+
+ return 1;
+}
+
+static int __init set_relatime_setup(char *str)
+{
+ int val;
+
+ get_option(&str, &val);
+ return toggle_relatime_updates(val);
+}
+__setup("relatime=", set_relatime_setup);
+
+static int __init set_norelatime_setup(char *str)
+{
+ int val;
+
+ get_option(&str, &val);
+ return toggle_relatime_updates(!val);
+}
+__setup("norelatime=", set_norelatime_setup);
+
+static int __init set_relatime(char *str)
+{
+ return toggle_relatime_updates(1);
+}
+__setup("relatime", set_relatime);
+
+static int __init set_norelatime(char *str)
+{
+ return toggle_relatime_updates(0);
+}
+__setup("norelatime", set_norelatime);
+
+/*
* Flags is a 32-bit value that allows up to 31 non-fs dependent flags to
* be given to the mount() call (ie: read-only, no-dev, no-suid etc).
*
@@ -1409,6 +1465,11 @@ long do_mount(char *dev_name, char *dir_
mnt_flags |= MNT_NODIRATIME;
if (flags & MS_RELATIME)
mnt_flags |= MNT_RELATIME;
+ else if (mount_with_relatime &&
+ !(flags & (MNT_NOATIME | MNT_NODIRATIME))) {
+ mnt_flags |= MNT_RELATIME;
+ flags |= MS_RELATIME;
+ }
flags &= ~(MS_NOSUID | MS_NOEXEC | MS_NODEV | MS_ACTIVE |
MS_NOATIME | MS_NODIRATIME | MS_RELATIME);
Index: linux/include/linux/mount.h
===================================================================
--- linux.orig/include/linux/mount.h
+++ linux/include/linux/mount.h
@@ -103,5 +103,7 @@ extern void shrink_submounts(struct vfsm
extern spinlock_t vfsmount_lock;
extern dev_t name_to_dev_t(char *name);
+extern int mount_with_relatime;
+
#endif
#endif /* _LINUX_MOUNT_H */
Index: linux/kernel/sysctl.c
===================================================================
--- linux.orig/kernel/sysctl.c
+++ linux/kernel/sysctl.c
@@ -30,6 +30,7 @@
#include <linux/capability.h>
#include <linux/smp_lock.h>
#include <linux/fs.h>
+#include <linux/mount.h>
#include <linux/init.h>
#include <linux/kernel.h>
#include <linux/kobject.h>
@@ -1206,6 +1207,14 @@ static ctl_table fs_table[] = {
.mode = 0644,
.proc_handler = &proc_dointvec,
},
+ {
+ .ctl_name = CTL_UNNUMBERED,
+ .procname = "mount_with_relatime",
+ .data = &mount_with_relatime,
+ .maxlen = sizeof(int),
+ .mode = 0644,
+ .proc_handler = &proc_dointvec,
+ },
#if defined(CONFIG_BINFMT_MISC) || defined(CONFIG_BINFMT_MISC_MODULE)
{
.ctl_name = CTL_UNNUMBERED,
On Sun, 5 Aug 2007, Diego Calleja wrote:
> El Sun, 5 Aug 2007 09:13:20 +0200, Ingo Molnar <[email protected]> escribi?:
>
>> Measurements show that noatime helps 20-30% on regular desktop
>> workloads, easily 50% for kernel builds and much more than that (in
>> excess of 100%) for file-read-intense workloads. We cannot just walk
>
>
> And as everybody knows in servers is a popular practice to disable it.
> According to an interview to the kernel.org admins....
>
> "Beyond that, Peter noted, "very little fancy is going on, and that is good
> because fancy is hard to maintain." He explained that the only fancy thing
> being done is that all filesystems are mounted noatime meaning that the
> system doesn't have to make writes to the filesystem for files which are
> simply being read, "that cut the load average in half."
>
> I bet that some people would consider such performance hit a bug...
>
actually, it's popular practice to disable it by people who know how big a
hit it is and know how few programs use it.
i've been a linux sysadmin for 10 years, and have known about noatime for
at least 7 years, but I always thought of it in the catagory of 'use it
only on your performance critical machines where you are trying to extract
every ounce of performance, and keep an eye out for things misbehaving'
I never imagined that itwas the 20%+ hit that is being described, and with
so little impact, or I would have switched to it across the board years
ago.
I'll bet there are a lot of admins out there in the same boat.
adding an option in the kernel to change the default sounds like a very
good first step, even if the default isn't changed today.
David Lang
On Sun, 5 Aug 2007 20:08:26 +0200
Ingo Molnar <[email protected]> wrote:
>
> * Alan Cox <[email protected]> wrote:
>
> > And you honestly think that putting it in Kconfig as well as allowing
> > users to screw up horribly and creating incompatible defaults you
>
> So far you've not offered one realistic scenario of "screw up horribly".
> People have been using noatime for a long time and there are no horror
> stories about that. _Which_ OSS HSM software relies on atime?
Whats this about "OSS". OSS or proprietary. And you've been given one
example already - tmpwatch. Although its more of a trash compactor than
HSM.
> > can't test for in a user space app where it matters is going to
> > *change* this.
>
> The patch i posted today adds /proc/sys/kernel/mount_with_atime. That
> can be tested by user-space, if it truly cares about atime.
We have an existing API and ABI thank you. See man mount.
> > Do you really think anyone who said "noatime, compatibility, umm errr"
> > is going to say "noatime, compatibility, but hey its in Kconfig lets
> > do it". You argument doesn't hold up to minimal rational
> > consideration. Posting to the distribution devel list with: "Its a 50%
> > performance win, we need to fix these corner cases, here's a tmpwatch
> > patch" is *exactly* what is needed to change it, and Kconfig options
> > are irrelevant to that.
>
> i did exactly that 6 months ago, check your email folders. I went by the
> "process". But it doesnt really matter anymore, Ubuntu has done the step
And your Kconfig argument is still not rational. A question I note you
chose not to answer. Anyway if Ubuntu has switched to noatime by default
(or relatime) and hasn't used a Kconfig line that proves my whole point -
we don't need one and its pointless to add so.
> we really have to ask ourselves whether the "process" is correct if
> advantages to the user of this order of magnitude can be brushed aside
> with simple "this breaks binary-only HSM" and "it's not standards
> compliant" arguments.
Thats a discussion to have with your distribution development team. The
kernel provides the required facilities already. Open source means
everyone can do cool stuff as they see fit and natural selection will do
the rest.
Look I agree entirely with you that relatime, or noatime + minor package
patches is the right thing to do for FC8. I've also pointed out you can
build and release tuning packages for FC 7 and they'll make the
distribution. FC8 beta 1 approaches so now is the time to be talking to
the distribution people and to the ever kernel building Dave Jones about
it.
But none of this makes stupid Kconfig hacks the right answer.
Alan
* Ingo Molnar <[email protected]> wrote:
> tested it by moving the date forward:
>
> # date
> Sun Aug 5 22:55:14 CEST 2007
> # date -s "Tue Aug 7 22:55:14 CEST 2007"
> Tue Aug 7 22:55:14 CEST 2007
>
> access to a file did not generate disk IO before the date was set, and
> it generated exactly one IO after the date was set.
>
> ( should i perhaps reduce the number of boot options and only use a
> single "norelatime_default" boot option to turn this off? )
ok, cleaned it up some more: only a single, consistent boot option and
all the switches (be that config, boot or sysctl) are now called
"default_relatime". Also, got rid of that #ifdef ugliness in namespace.c
via a cleaner Kconfig solution (suggested by Peter Zijlstra).
Ingo
---------------------------->
Subject: [patch] implement smarter atime updates support
From: Ingo Molnar <[email protected]>
change relatime updates to be performed once per day. This makes
relatime a compatible solution for HSM, mailer-notification and
tmpwatch applications too.
also add the CONFIG_DEFAULT_RELATIME kernel option, which makes
"norelatime" the default for all mounts without an extra kernel
boot option.
add the "default_relatime=0" boot option to turn this off.
also add the /proc/sys/kernel/default_relatime flag which can be changed
runtime to modify the behavior of subsequent new mounts.
tested by moving the date forward:
# date
Sun Aug 5 22:55:14 CEST 2007
# date -s "Tue Aug 7 22:55:14 CEST 2007"
Tue Aug 7 22:55:14 CEST 2007
access to a file did not generate disk IO before the date was set, and
it generated exactly one IO after the date was set.
Signed-off-by: Ingo Molnar <[email protected]>
---
Documentation/kernel-parameters.txt | 4 +++
fs/Kconfig | 22 ++++++++++++++++
fs/inode.c | 48 ++++++++++++++++++++++++++----------
fs/namespace.c | 25 ++++++++++++++++++
include/linux/mount.h | 2 +
kernel/sysctl.c | 9 ++++++
6 files changed, 97 insertions(+), 13 deletions(-)
Index: linux/Documentation/kernel-parameters.txt
===================================================================
--- linux.orig/Documentation/kernel-parameters.txt
+++ linux/Documentation/kernel-parameters.txt
@@ -525,6 +525,10 @@ and is between 256 and 4096 characters.
This is a 16-member array composed of values
ranging from 0-255.
+ default_relatime=
+ [FS] mount all filesystems with relative atime
+ updates by default.
+
default_utf8= [VT]
Format=<0|1>
Set system-wide default UTF-8 mode for all tty's.
Index: linux/fs/Kconfig
===================================================================
--- linux.orig/fs/Kconfig
+++ linux/fs/Kconfig
@@ -2060,6 +2060,28 @@ config 9P_FS
endmenu
+config DEFAULT_RELATIME
+ bool "Mount all filesystems with relatime by default"
+ default y
+ help
+ If you say Y here, all your filesystems will be mounted
+ with the "relatime" mount option. This eliminates many atime
+ ('file last accessed' timestamp) updates (which otherwise
+ is performed on every file access and generates a write
+ IO to the inode) and thus speeds up IO. Atime is still updated,
+ but only once per day.
+
+ The mtime ('file last modified') and ctime ('file created')
+ timestamp are unaffected by this change.
+
+ Use the "norelatime" kernel boot option to turn off this
+ feature.
+
+config DEFAULT_RELATIME_VAL
+ int
+ default "1" if DEFAULT_RELATIME
+ default "0"
+
if BLOCK
menu "Partition Types"
Index: linux/fs/inode.c
===================================================================
--- linux.orig/fs/inode.c
+++ linux/fs/inode.c
@@ -1162,6 +1162,36 @@ sector_t bmap(struct inode * inode, sect
}
EXPORT_SYMBOL(bmap);
+/*
+ * With relative atime, only update atime if the
+ * previous atime is earlier than either the ctime or
+ * mtime.
+ */
+static int relatime_need_update(struct inode *inode, struct timespec now)
+{
+ /*
+ * Is mtime younger than atime? If yes, update atime:
+ */
+ if (timespec_compare(&inode->i_mtime, &inode->i_atime) >= 0)
+ return 1;
+ /*
+ * Is ctime younger than atime? If yes, update atime:
+ */
+ if (timespec_compare(&inode->i_ctime, &inode->i_atime) >= 0)
+ return 1;
+
+ /*
+ * Is the previous atime value older than a day? If yes,
+ * update atime:
+ */
+ if ((long)(now.tv_sec - inode->i_atime.tv_sec) >= 24*60*60)
+ return 1;
+ /*
+ * Good, we can skip the atime update:
+ */
+ return 0;
+}
+
/**
* touch_atime - update the access time
* @mnt: mount the inode is accessed on
@@ -1191,22 +1221,14 @@ void touch_atime(struct vfsmount *mnt, s
return;
if ((mnt->mnt_flags & MNT_NODIRATIME) && S_ISDIR(inode->i_mode))
return;
-
- if (mnt->mnt_flags & MNT_RELATIME) {
- /*
- * With relative atime, only update atime if the
- * previous atime is earlier than either the ctime or
- * mtime.
- */
- if (timespec_compare(&inode->i_mtime,
- &inode->i_atime) < 0 &&
- timespec_compare(&inode->i_ctime,
- &inode->i_atime) < 0)
+ }
+ now = current_fs_time(inode->i_sb);
+ if (mnt) {
+ if (mnt->mnt_flags & MNT_RELATIME)
+ if (!relatime_need_update(inode, now))
return;
- }
}
- now = current_fs_time(inode->i_sb);
if (timespec_equal(&inode->i_atime, &now))
return;
Index: linux/fs/namespace.c
===================================================================
--- linux.orig/fs/namespace.c
+++ linux/fs/namespace.c
@@ -1107,6 +1107,8 @@ int do_add_mount(struct vfsmount *newmnt
goto unlock;
newmnt->mnt_flags = mnt_flags;
+ WARN_ON_ONCE(newmnt->mnt_flags & MNT_RELATIME);
+
if ((err = graft_tree(newmnt, nd)))
goto unlock;
@@ -1362,6 +1364,24 @@ int copy_mount_options(const void __user
}
/*
+ * Allow users to disable (or enable) atime updates via a .config
+ * option or via the boot line, or via /proc/sys/fs/default_relatime:
+ */
+int default_relatime __read_mostly = CONFIG_DEFAULT_RELATIME_VAL;
+
+static int __init set_default_relatime(char *str)
+{
+ get_option(&str, &default_relatime);
+
+ printk(KERN_INFO "Mount all filesystems with"
+ "default relative atime updates: %s.\n",
+ default_relatime ? "enabled" : "disabled");
+
+ return 1;
+}
+__setup("default_relatime=", set_default_relatime);
+
+/*
* Flags is a 32-bit value that allows up to 31 non-fs dependent flags to
* be given to the mount() call (ie: read-only, no-dev, no-suid etc).
*
@@ -1409,6 +1429,11 @@ long do_mount(char *dev_name, char *dir_
mnt_flags |= MNT_NODIRATIME;
if (flags & MS_RELATIME)
mnt_flags |= MNT_RELATIME;
+ else if (default_relatime &&
+ !(flags & (MNT_NOATIME | MNT_NODIRATIME))) {
+ mnt_flags |= MNT_RELATIME;
+ flags |= MS_RELATIME;
+ }
flags &= ~(MS_NOSUID | MS_NOEXEC | MS_NODEV | MS_ACTIVE |
MS_NOATIME | MS_NODIRATIME | MS_RELATIME);
Index: linux/include/linux/mount.h
===================================================================
--- linux.orig/include/linux/mount.h
+++ linux/include/linux/mount.h
@@ -103,5 +103,7 @@ extern void shrink_submounts(struct vfsm
extern spinlock_t vfsmount_lock;
extern dev_t name_to_dev_t(char *name);
+extern int default_relatime;
+
#endif
#endif /* _LINUX_MOUNT_H */
Index: linux/kernel/sysctl.c
===================================================================
--- linux.orig/kernel/sysctl.c
+++ linux/kernel/sysctl.c
@@ -30,6 +30,7 @@
#include <linux/capability.h>
#include <linux/smp_lock.h>
#include <linux/fs.h>
+#include <linux/mount.h>
#include <linux/init.h>
#include <linux/kernel.h>
#include <linux/kobject.h>
@@ -1206,6 +1207,14 @@ static ctl_table fs_table[] = {
.mode = 0644,
.proc_handler = &proc_dointvec,
},
+ {
+ .ctl_name = CTL_UNNUMBERED,
+ .procname = "default_relatime",
+ .data = &default_relatime,
+ .maxlen = sizeof(int),
+ .mode = 0644,
+ .proc_handler = &proc_dointvec,
+ },
#if defined(CONFIG_BINFMT_MISC) || defined(CONFIG_BINFMT_MISC_MODULE)
{
.ctl_name = CTL_UNNUMBERED,
> change relatime updates to be performed once per day. This makes
> relatime a compatible solution for HSM, mailer-notification and
> tmpwatch applications too.
Sweet
>
> also add the CONFIG_DEFAULT_RELATIME kernel option, which makes
> "norelatime" the default for all mounts without an extra kernel
> boot option.
Should be a mount option.
> + relatime [FS] default to enabled relatime updates on all
> + filesystems.
> +
> + relatime= [FS] default to enabled/disabled relatime updates on
> + all filesystems.
> +
Double patch
> atkbd.extra= [HW] Enable extra LEDs and keys on IBM RapidAccess,
> EzKey and similar keyboards
>
> @@ -1100,6 +1106,12 @@ and is between 256 and 4096 characters.
> noasync [HW,M68K] Disables async and sync negotiation for
> all devices.
>
> + norelatime [FS] default to disabled relatime updates on all
> + filesystems.
> +
> + norelatime= [FS] default to disabled/enabled relatime updates
> + on all filesystems.
> +
Double patch
> +config DEFAULT_RELATIME
> + bool "Mount all filesystems with relatime by default"
> + default y
Changes behaviour so probably should default n. Better yet it should be
the mount option so its flexible and strongly encouraged for vendors.
> /*
> + * Allow users to disable (or enable) atime updates via a .config
> + * option or via the boot line, or via /proc/sys/fs/mount_with_relatime:
> + */
> +int mount_with_relatime __read_mostly =
> +#ifdef CONFIG_DEFAULT_RELATIME
> +1
> +#else
> +0
> +#endif
> +;
This ifdef mess would go away for a mount option
> +/*
> + * The "norelatime=", "atime=", "norelatime" and "relatime" boot parameters:
> + */
> +static int toggle_relatime_updates(int val)
> +{
> + mount_with_relatime = val;
> +
> + printk("Relative atime updates are: %s\n", val ? "on" : "off");
> +
> + return 1;
> +}
> +
> +static int __init set_relatime_setup(char *str)
> +{
> + int val;
> +
> + get_option(&str, &val);
> + return toggle_relatime_updates(val);
> +}
> +__setup("relatime=", set_relatime_setup);
> +
> +static int __init set_norelatime_setup(char *str)
> +{
> + int val;
> +
> + get_option(&str, &val);
> + return toggle_relatime_updates(!val);
> +}
> +__setup("norelatime=", set_norelatime_setup);
> +
> +static int __init set_relatime(char *str)
> +{
> + return toggle_relatime_updates(1);
> +}
> +__setup("relatime", set_relatime);
> +
> +static int __init set_norelatime(char *str)
> +{
> + return toggle_relatime_updates(0);
> +}
> +__setup("norelatime", set_norelatime);
All the above chunk is unneccessary as it can be a mount option. That
avoids tons of messy extra code and complication. Users are far safer
editing fstab than grub.conf.
> + {
> + .ctl_name = CTL_UNNUMBERED,
> + .procname = "mount_with_relatime",
> + .data = &mount_with_relatime,
> + .maxlen = sizeof(int),
> + .mode = 0644,
> + .proc_handler = &proc_dointvec,
> + },
More code you don't need if you just leave it as a mount option.
I'd much rather see the small clean patch for this as a mount option.
Leave the rest to users/distros/lwn and it'll just happen now you've
sorted the compabitility problems.
new version:
added the relatime_interval sysctl that allows the changing of the atime
update frequency. (default: 1 day / 86400 seconds)
Ingo
-------------------------->
Subject: [patch] [patch] implement smarter atime updates support
From: Ingo Molnar <[email protected]>
change relatime updates to be performed once per day. This makes
relatime a compatible solution for HSM, mailer-notification and
tmpwatch applications too.
also add the CONFIG_DEFAULT_RELATIME kernel option, which makes
"norelatime" the default for all mounts without an extra kernel
boot option.
add the "default_relatime=0" boot option to turn this off.
also add the /proc/sys/kernel/default_relatime flag which can be changed
runtime to modify the behavior of subsequent new mounts.
tested by moving the date forward:
# date
Sun Aug 5 22:55:14 CEST 2007
# date -s "Tue Aug 7 22:55:14 CEST 2007"
Tue Aug 7 22:55:14 CEST 2007
access to a file did not generate disk IO before the date was set, and
it generated exactly one IO after the date was set.
Signed-off-by: Ingo Molnar <[email protected]>
---
Documentation/kernel-parameters.txt | 8 +++++
fs/Kconfig | 22 ++++++++++++++
fs/inode.c | 53 +++++++++++++++++++++++++++---------
fs/namespace.c | 24 ++++++++++++++++
include/linux/mount.h | 3 ++
kernel/sysctl.c | 17 +++++++++++
6 files changed, 114 insertions(+), 13 deletions(-)
Index: linux/Documentation/kernel-parameters.txt
===================================================================
--- linux.orig/Documentation/kernel-parameters.txt
+++ linux/Documentation/kernel-parameters.txt
@@ -525,6 +525,10 @@ and is between 256 and 4096 characters.
This is a 16-member array composed of values
ranging from 0-255.
+ default_relatime=
+ [FS] mount all filesystems with relative atime
+ updates by default.
+
default_utf8= [VT]
Format=<0|1>
Set system-wide default UTF-8 mode for all tty's.
@@ -1468,6 +1472,10 @@ and is between 256 and 4096 characters.
Format: <reboot_mode>[,<reboot_mode2>[,...]]
See arch/*/kernel/reboot.c or arch/*/kernel/process.c
+ relatime_interval=
+ [FS] relative atime update frequency, in seconds.
+ (default: 1 day: 86400 seconds)
+
reserve= [KNL,BUGS] Force the kernel to ignore some iomem area
reservetop= [X86-32]
Index: linux/fs/Kconfig
===================================================================
--- linux.orig/fs/Kconfig
+++ linux/fs/Kconfig
@@ -2060,6 +2060,28 @@ config 9P_FS
endmenu
+config DEFAULT_RELATIME
+ bool "Mount all filesystems with relatime by default"
+ default y
+ help
+ If you say Y here, all your filesystems will be mounted
+ with the "relatime" mount option. This eliminates many atime
+ ('file last accessed' timestamp) updates (which otherwise
+ is performed on every file access and generates a write
+ IO to the inode) and thus speeds up IO. Atime is still updated,
+ but only once per day.
+
+ The mtime ('file last modified') and ctime ('file created')
+ timestamp are unaffected by this change.
+
+ Use the "norelatime" kernel boot option to turn off this
+ feature.
+
+config DEFAULT_RELATIME_VAL
+ int
+ default "1" if DEFAULT_RELATIME
+ default "0"
+
if BLOCK
menu "Partition Types"
Index: linux/fs/inode.c
===================================================================
--- linux.orig/fs/inode.c
+++ linux/fs/inode.c
@@ -1162,6 +1162,41 @@ sector_t bmap(struct inode * inode, sect
}
EXPORT_SYMBOL(bmap);
+/*
+ * Relative atime updates frequency (default: 1 day):
+ */
+int relatime_interval __read_mostly = 24*60*60;
+
+/*
+ * With relative atime, only update atime if the
+ * previous atime is earlier than either the ctime or
+ * mtime.
+ */
+static int relatime_need_update(struct inode *inode, struct timespec now)
+{
+ /*
+ * Is mtime younger than atime? If yes, update atime:
+ */
+ if (timespec_compare(&inode->i_mtime, &inode->i_atime) >= 0)
+ return 1;
+ /*
+ * Is ctime younger than atime? If yes, update atime:
+ */
+ if (timespec_compare(&inode->i_ctime, &inode->i_atime) >= 0)
+ return 1;
+
+ /*
+ * Is the previous atime value older than a day? If yes,
+ * update atime:
+ */
+ if ((long)(now.tv_sec - inode->i_atime.tv_sec) >= relatime_interval)
+ return 1;
+ /*
+ * Good, we can skip the atime update:
+ */
+ return 0;
+}
+
/**
* touch_atime - update the access time
* @mnt: mount the inode is accessed on
@@ -1191,22 +1226,14 @@ void touch_atime(struct vfsmount *mnt, s
return;
if ((mnt->mnt_flags & MNT_NODIRATIME) && S_ISDIR(inode->i_mode))
return;
-
- if (mnt->mnt_flags & MNT_RELATIME) {
- /*
- * With relative atime, only update atime if the
- * previous atime is earlier than either the ctime or
- * mtime.
- */
- if (timespec_compare(&inode->i_mtime,
- &inode->i_atime) < 0 &&
- timespec_compare(&inode->i_ctime,
- &inode->i_atime) < 0)
+ }
+ now = current_fs_time(inode->i_sb);
+ if (mnt) {
+ if (mnt->mnt_flags & MNT_RELATIME)
+ if (!relatime_need_update(inode, now))
return;
- }
}
- now = current_fs_time(inode->i_sb);
if (timespec_equal(&inode->i_atime, &now))
return;
Index: linux/fs/namespace.c
===================================================================
--- linux.orig/fs/namespace.c
+++ linux/fs/namespace.c
@@ -1107,6 +1107,7 @@ int do_add_mount(struct vfsmount *newmnt
goto unlock;
newmnt->mnt_flags = mnt_flags;
+
if ((err = graft_tree(newmnt, nd)))
goto unlock;
@@ -1362,6 +1363,24 @@ int copy_mount_options(const void __user
}
/*
+ * Allow users to disable (or enable) atime updates via a .config
+ * option or via the boot line, or via /proc/sys/fs/default_relatime:
+ */
+int default_relatime __read_mostly = CONFIG_DEFAULT_RELATIME_VAL;
+
+static int __init set_default_relatime(char *str)
+{
+ get_option(&str, &default_relatime);
+
+ printk(KERN_INFO "Mount all filesystems with"
+ "default relative atime updates: %s.\n",
+ default_relatime ? "enabled" : "disabled");
+
+ return 1;
+}
+__setup("default_relatime=", set_default_relatime);
+
+/*
* Flags is a 32-bit value that allows up to 31 non-fs dependent flags to
* be given to the mount() call (ie: read-only, no-dev, no-suid etc).
*
@@ -1409,6 +1428,11 @@ long do_mount(char *dev_name, char *dir_
mnt_flags |= MNT_NODIRATIME;
if (flags & MS_RELATIME)
mnt_flags |= MNT_RELATIME;
+ else if (default_relatime &&
+ !(flags & (MNT_NOATIME | MNT_NODIRATIME))) {
+ mnt_flags |= MNT_RELATIME;
+ flags |= MS_RELATIME;
+ }
flags &= ~(MS_NOSUID | MS_NOEXEC | MS_NODEV | MS_ACTIVE |
MS_NOATIME | MS_NODIRATIME | MS_RELATIME);
Index: linux/include/linux/mount.h
===================================================================
--- linux.orig/include/linux/mount.h
+++ linux/include/linux/mount.h
@@ -103,5 +103,8 @@ extern void shrink_submounts(struct vfsm
extern spinlock_t vfsmount_lock;
extern dev_t name_to_dev_t(char *name);
+extern int default_relatime;
+extern int relatime_interval;
+
#endif
#endif /* _LINUX_MOUNT_H */
Index: linux/kernel/sysctl.c
===================================================================
--- linux.orig/kernel/sysctl.c
+++ linux/kernel/sysctl.c
@@ -30,6 +30,7 @@
#include <linux/capability.h>
#include <linux/smp_lock.h>
#include <linux/fs.h>
+#include <linux/mount.h>
#include <linux/init.h>
#include <linux/kernel.h>
#include <linux/kobject.h>
@@ -1206,6 +1207,22 @@ static ctl_table fs_table[] = {
.mode = 0644,
.proc_handler = &proc_dointvec,
},
+ {
+ .ctl_name = CTL_UNNUMBERED,
+ .procname = "default_relatime",
+ .data = &default_relatime,
+ .maxlen = sizeof(int),
+ .mode = 0644,
+ .proc_handler = &proc_dointvec,
+ },
+ {
+ .ctl_name = CTL_UNNUMBERED,
+ .procname = "relatime_interval",
+ .data = &relatime_interval,
+ .maxlen = sizeof(int),
+ .mode = 0644,
+ .proc_handler = &proc_dointvec,
+ },
#if defined(CONFIG_BINFMT_MISC) || defined(CONFIG_BINFMT_MISC_MODULE)
{
.ctl_name = CTL_UNNUMBERED,
* Alan Cox <[email protected]> wrote:
> > also add the CONFIG_DEFAULT_RELATIME kernel option, which makes
> > "norelatime" the default for all mounts without an extra kernel boot
> > option.
>
> Should be a mount option.
it is already a mount option too.
> > + relatime [FS] default to enabled relatime updates on all
> > + filesystems.
> > +
> > + relatime= [FS] default to enabled/disabled relatime updates on
> > + all filesystems.
> > +
>
> Double patch
no - it was not a double patch, i made all the common variants valid
boot options: "relatime", "relatime=0/1", "norelatime" and
"norelatime=0/1". Anyway, this is mooth, in the latest (v2) version
there's only a single boot parameter.
> > +config DEFAULT_RELATIME
> > + bool "Mount all filesystems with relatime by default"
> > + default y
>
> Changes behaviour so probably should default n. Better yet it should
> be the mount option so its flexible and strongly encouraged for
> vendors.
relatime is a mount option already. And distros can disable it if they
want. (they are conscious about their kernel config selections anyway.)
> > +0
> > +#endif
> > +;
>
> This ifdef mess would go away for a mount option
i fixed that in v2.
Ingo
> +static int relatime_need_update(struct inode *inode, struct timespec now)
> +{
> + /*
> + * Is mtime younger than atime? If yes, update atime:
> + */
> + if (timespec_compare(&inode->i_mtime, &inode->i_atime) >= 0)
> + return 1;
> + /*
> + * Is ctime younger than atime? If yes, update atime:
> + */
> + if (timespec_compare(&inode->i_ctime, &inode->i_atime) >= 0)
> + return 1;
> +
> + /*
> + * Is the previous atime value older than a day? If yes,
> + * update atime:
> + */
> + if ((long)(now.tv_sec - inode->i_atime.tv_sec) >= 24*60*60)
> + return 1;
you might want to add
/*
* if the inode is dirty already, do the atime update since
* we'll be doing the disk IO anyway to clean the inode.
*/
if (inode->i_state & I_DIRTY)
return 1;
O> you might want to add
>
> /*
> * if the inode is dirty already, do the atime update since
> * we'll be doing the disk IO anyway to clean the inode.
> */
> if (inode->i_state & I_DIRTY)
> return 1;
This makes the actual result somewhat less predictable. Is that wise ?
Right now its clear what happens based on what user sequence of events
and that this is easily repeatable.
On Sun, 2007-08-05 at 21:04 +0100, Alan Cox wrote:
> O> you might want to add
> >
> > /*
> > * if the inode is dirty already, do the atime update since
> > * we'll be doing the disk IO anyway to clean the inode.
> > */
> > if (inode->i_state & I_DIRTY)
> > return 1;
>
> This makes the actual result somewhat less predictable. Is that wise ?
> Right now its clear what happens based on what user sequence of events
> and that this is easily repeatable.
I can see the repeatability argument; on the flipside, having a system
of "opportunistic atime", eg as good as you can go cheaply, but with
minimum guarantees has some attraction as well. For example one could
imagine a system where the inode gets it's atime updated anyway, just
not flagged for writing back to disk. If it later undergoes some event
that would cause it to go to disk, it gets preserved...
otoh that's even more unpredictable since VM pressure could drop this
update early.
For the dirty case, such drawbacks don't exist; it's just one more step
of "when we can cheaply".
--
if you want to mail me at work (you don't), use arjan (at) linux.intel.com
Test the interaction between Linux and your BIOS via http://www.linuxfirmwarekit.org
On Sun, 5 August 2007 20:37:14 +0200, Jörn Engel wrote:
>
> Guess I should throw in a kernel compile test as well, just to get a
> feel for the performance.
Three runs each of noatime, relatime and atime, both with cold caches
and with warm caches. Scripts below. Run on a Thinkpad T40, 1.5GHz,
2GiB RAM, 60GB 2.5" IDE disk, ext3.
Biggest difference between atime and noatime (median run, cold cache) is
~2.3%, nowhere near the numbers claimed by Ingo. Ingo, how did you
measure 10% and more?
noatime, cold cache relatime, cold cache atime, cold cache
real 2m10.242s real 2m10.549s real 2m10.388s
user 1m46.886s user 1m46.680s user 1m47.000s
sys 0m8.243s sys 0m8.423s sys 0m8.239s
real 2m11.270s real 2m11.212s real 2m14.280s
user 1m46.940s user 1m46.776s user 1m46.670s
sys 0m8.139s sys 0m8.283s sys 0m8.503s
real 2m11.601s real 2m14.861s real 2m14.335s
user 1m46.920s user 1m47.103s user 1m46.846s
sys 0m8.246s sys 0m8.266s sys 0m8.349s
noatime, warm cache relatime, warm cache atime, warm cache
real 1m55.894s real 1m56.053s real 1m56.905s
user 1m46.683s user 1m46.600s user 1m46.853s
sys 0m8.186s sys 0m8.349s sys 0m8.249s
real 1m55.823s real 1m56.093s real 1m57.077s
user 1m46.583s user 1m46.913s user 1m46.590s
sys 0m8.259s sys 0m7.966s sys 0m8.523s
real 1m55.789s real 1m56.214s real 1m57.224s
user 1m46.803s user 1m46.753s user 1m46.953s
sys 0m8.053s sys 0m8.113s sys 0m8.113s
Jörn
--
Data expands to fill the space available for storage.
-- Parkinson's Law
Cold cache script:
#!/bin/sh
make distclean
echo 1 > /proc/sys/vm/drop_caches
echo 2 > /proc/sys/vm/drop_caches
echo 3 > /proc/sys/vm/drop_caches
make allnoconfig
time make
Warm cache script:
#!/bin/sh
make distclean
make allnoconfig
rgrep laksdflkdsaflkadsfja .
time make
On Sun, Aug 05, 2007 at 11:01:18AM -0700, Arjan van de Ven wrote:
>
> on the journalling side this would be one transaction (not 5 milion)
> and... since inodes are grouped on disk, you can even get some better
> coalescing this way...
>
> Wonder if we could do inode-grouping smartly; eg if we HAVE to write
> inode X, also write out the atime-dirty inodes in range X-Y to X+Y
> (where Y is some tunable) in the same IO..
We already have filesystems in the tree that do such advances things as
inode writeback clustering for more than ten years :)
On Sat, Aug 04, 2007 at 09:42:59PM +0200, J??rn Engel wrote:
> On Sat, 4 August 2007 21:26:15 +0200, J??rn Engel wrote:
> >
> > Given the choice between only "atime" and "noatime" I'd agree with you.
> > Heck, I use it myself. But "relatime" seems to combine the best of both
> > worlds. It currently just suffers from mount not supporting it in any
> > relevant distro.
>
> And here is a completely untested patch to enable it by default. Ingo,
> can you see how good this fares compared to "atime" and
> "noatime,nodiratime"?
Umm, no f**king way. atime selection is 100% policy and belongs into
userspace. Add to that the problem that we can't actually re-enable
atimes because of the way the vfs-level mount flags API is designed.
Instead of doing such a fugly kernel patch just talk to the handfull
of distributions that matter to update their defaults.
On Sun, 5 Aug 2007 22:21:12 +0200 J?rn Engel <[email protected]> wrote:
> On Sun, 5 August 2007 20:37:14 +0200, J?rn Engel wrote:
> >
> > Guess I should throw in a kernel compile test as well, just to get a
> > feel for the performance.
>
> Three runs each of noatime, relatime and atime, both with cold caches
> and with warm caches. Scripts below. Run on a Thinkpad T40, 1.5GHz,
> 2GiB RAM, 60GB 2.5" IDE disk, ext3.
>
> Biggest difference between atime and noatime (median run, cold cache) is
> ~2.3%, nowhere near the numbers claimed by Ingo. Ingo, how did you
> measure 10% and more?
Ingo had CONFIG_DEBUG_INFO=y, which generates heaps more writeout,
but no additional atime updates.
Ingo had a faster computer ;) That will generate many more MB/sec
write traffic, so the cost of those atime seeks becomes proportionally
higher. Basically: you're CPU-limited, Ingo is seek-limited.
On Sun, Aug 05, 2007 at 02:26:53AM +0200, Andi Kleen wrote:
> I always thought the right solution would be to just sync atime only
> very very lazily. This means if a inode is only dirty because of an
> atime update put it on a "only write out when there is nothing to do
> or the memory is really needed" list.
Which is the policy I implemented for XFS a while ago.
On Sun, Aug 05, 2007 at 09:28:38PM +0200, Ingo Molnar wrote:
>
> added the relatime_interval sysctl that allows the changing of the atime
> update frequency. (default: 1 day / 86400 seconds)
What if you specify the interval as a per-mount option? i.e.,
mount -o relatime=86400 /dev/sda2 /u1
If you had this, I don't think we would need the sysctl tuning parameter.
- Ted
On Sun, Aug 05, 2007 at 09:57:02AM +0200, Florian Weimer wrote:
> For instance, some editors don't perform fsync-then-rename, but simply
> truncate the file when saving (because they want to preserve hard
> links). With XFS, this tends to cause null bytes on crashes. Since
> ext3 has got a much larger install base, this would result in lots of
> bug reports, I fear.
XFS has recently been changed to only updated the on-disk i_size after
data writeback has finished to get rid of this irritation.
Brice Figureau <[email protected]> writes:
>
> 2) I _still_ don't get the "performances" of 2.6.17, but since that's the
> better combination I could get, I think there is IMHO progress in the right
> direction (to be compared to no progress since 2.6.18, that's better :-)).
If you could characterize your workload well (e.g. how many disks,
what file systems, what load on mysql) perhaps it would be possible
to reproduce the problem with a test program or a mysql driver.
Then it could be bisected.
-Andi
On Sat, Aug 04, 2007 at 09:16:35PM +0200, Florian Weimer wrote:
> * Andrew Morton:
>
> > The easy preventive is to mount with data=writeback. Maybe that should
> > have been the default.
>
> The documentation I could find suggests that this may lead to a
> security weakness (old data in blocks of a file that was grown just
> before the crash leaks to a different user). XFS overwrites that data
> with zeros upon reboot, which tends to irritate users when it happens.
>
> From this point of view, data=ordered doesn't seem too bad.
The other alternative which addresses the security concern is
data=journal, which if you have a big enough journal, can sometimes be
*faster* than data=ordered or even data=writeback, because it reduces
seeking. The problem is that it's workload dependent which is better;
if the workload is very, very heavy on data writes, each data block
ends up getting writen twice, once to the journal and once to the
final location on disk, and so this halves your total max write
bandwidth. But if the workload doesn't do as much writing, and is
very seeky, and or is very, very, fsync()-centric (like a mailhub),
data=journal is probably the right answer.
- Ted
On Sun, Aug 05, 2007 at 06:42:30AM -0400, Jeff Garzik wrote:
> Jakob Oestergaard wrote:
> >Oh dear.
> >
> >Why not just make ext3 fsync() a no-op while you're at it?
> >
> >Distros can turn it back on if it's needed...
> >
> >Of course I'm not serious, but like atime, fsync() is something one
>
> No, they are nothing alike, and you are just making yourself look silly
> if you compare them. fsync has to do with fundamental guarantees about
> data.
Hi Jeff - just as a point to note, I think you should check the spec
for fsync before stating that:
"It is explicitly intended that a null implementation is permitted."
and
"... fsync() might or might not actually cause data to be written where it is
safe from a power failure."
http://www.opengroup.org/onlinepubs/009695399/functions/fsync.html
So fsync() does not have to provide the fundamental guarantees you think
it should.
Note - I'm not saying that this is at all sane (it's crazy, IMO), I'm just
pointing out that a "nofsync" mount option to avoid fsync overhead is a
legal thing to do....
Cheers,
Dave.
--
Dave Chinner
Principal Engineer
SGI Australian Software Group
On Sat, Aug 04, 2007 at 09:16:35PM +0200, Florian Weimer wrote:
> * Andrew Morton:
>
> > The easy preventive is to mount with data=writeback. Maybe that should
> > have been the default.
>
> The documentation I could find suggests that this may lead to a
> security weakness (old data in blocks of a file that was grown just
> before the crash leaks to a different user). XFS overwrites that data
> with zeros upon reboot, which tends to irritate users when it happens.
XFS has never overwritten data on reboot. It leaves holes when the kernel has
failed to write out data. A hole == zeros so XFS does not expose stale data in
this situation. As it is, the underlying XFS problem (lack of synchronisation
between inode size update and data writes has been mostly fixed in 2.6.22 by
only updating the file size to be written to disk on data I/O completion.
FWIW, fsync() would prevent this from happening, but many application writers
seem strangely reluctant to put fsync() calls into code to ensure the data
they write is safely on disk.....
Cheers,
Dave.
--
Dave Chinner
Principal Engineer
SGI Australian Software Group
* Theodore Tso <[email protected]> wrote:
> On Sun, Aug 05, 2007 at 09:28:38PM +0200, Ingo Molnar wrote:
> >
> > added the relatime_interval sysctl that allows the changing of the
> > atime update frequency. (default: 1 day / 86400 seconds)
>
> What if you specify the interval as a per-mount option? i.e.,
>
> mount -o relatime=86400 /dev/sda2 /u1
>
> If you had this, I don't think we would need the sysctl tuning
> parameter.
it's much more flexible if there are _more_ options available. People
can thus make use of the feature earlier, use it even on distros that
dont support it yet, etc.
Ingo
* Dave Jones <[email protected]> wrote:
> > btw., Mutt does not go boom, i use it myself. It works just fine
> > and notices new mails even on a noatime,nodiratime filesystem.
>
> It still fails miserably for me.
>
> If I hit 'C' and '?' I get a list of my mail folders, with some of
> them marked 'N' if they have new mail. Without atime, those N's never
> show up and every mbox looks like it has no new mail.
does it work with the "atime on steroids" patch below? (no need to
configure anything, just apply the patch and go.)
Ingo
----------------------->
Subject: [patch] [patch] implement smarter atime updates support
From: Ingo Molnar <[email protected]>
change relatime updates to be performed once per day. This makes
relatime a compatible solution for HSM, mailer-notification and
tmpwatch applications too.
also add the CONFIG_DEFAULT_RELATIME kernel option, which makes
"norelatime" the default for all mounts without an extra kernel
boot option.
add the "default_relatime=0" boot option to turn this off.
also add the /proc/sys/kernel/default_relatime flag which can be changed
runtime to modify the behavior of subsequent new mounts.
tested by moving the date forward:
# date
Sun Aug 5 22:55:14 CEST 2007
# date -s "Tue Aug 7 22:55:14 CEST 2007"
Tue Aug 7 22:55:14 CEST 2007
access to a file did not generate disk IO before the date was set, and
it generated exactly one IO after the date was set.
Signed-off-by: Ingo Molnar <[email protected]>
---
Documentation/kernel-parameters.txt | 8 +++++
fs/Kconfig | 22 ++++++++++++++
fs/inode.c | 53 +++++++++++++++++++++++++++---------
fs/namespace.c | 24 ++++++++++++++++
include/linux/mount.h | 3 ++
kernel/sysctl.c | 17 +++++++++++
6 files changed, 114 insertions(+), 13 deletions(-)
Index: linux/Documentation/kernel-parameters.txt
===================================================================
--- linux.orig/Documentation/kernel-parameters.txt
+++ linux/Documentation/kernel-parameters.txt
@@ -525,6 +525,10 @@ and is between 256 and 4096 characters.
This is a 16-member array composed of values
ranging from 0-255.
+ default_relatime=
+ [FS] mount all filesystems with relative atime
+ updates by default.
+
default_utf8= [VT]
Format=<0|1>
Set system-wide default UTF-8 mode for all tty's.
@@ -1468,6 +1472,10 @@ and is between 256 and 4096 characters.
Format: <reboot_mode>[,<reboot_mode2>[,...]]
See arch/*/kernel/reboot.c or arch/*/kernel/process.c
+ relatime_interval=
+ [FS] relative atime update frequency, in seconds.
+ (default: 1 day: 86400 seconds)
+
reserve= [KNL,BUGS] Force the kernel to ignore some iomem area
reservetop= [X86-32]
Index: linux/fs/Kconfig
===================================================================
--- linux.orig/fs/Kconfig
+++ linux/fs/Kconfig
@@ -2060,6 +2060,28 @@ config 9P_FS
endmenu
+config DEFAULT_RELATIME
+ bool "Mount all filesystems with relatime by default"
+ default y
+ help
+ If you say Y here, all your filesystems will be mounted
+ with the "relatime" mount option. This eliminates many atime
+ ('file last accessed' timestamp) updates (which otherwise
+ is performed on every file access and generates a write
+ IO to the inode) and thus speeds up IO. Atime is still updated,
+ but only once per day.
+
+ The mtime ('file last modified') and ctime ('file created')
+ timestamp are unaffected by this change.
+
+ Use the "norelatime" kernel boot option to turn off this
+ feature.
+
+config DEFAULT_RELATIME_VAL
+ int
+ default "1" if DEFAULT_RELATIME
+ default "0"
+
if BLOCK
menu "Partition Types"
Index: linux/fs/inode.c
===================================================================
--- linux.orig/fs/inode.c
+++ linux/fs/inode.c
@@ -1162,6 +1162,41 @@ sector_t bmap(struct inode * inode, sect
}
EXPORT_SYMBOL(bmap);
+/*
+ * Relative atime updates frequency (default: 1 day):
+ */
+int relatime_interval __read_mostly = 24*60*60;
+
+/*
+ * With relative atime, only update atime if the
+ * previous atime is earlier than either the ctime or
+ * mtime.
+ */
+static int relatime_need_update(struct inode *inode, struct timespec now)
+{
+ /*
+ * Is mtime younger than atime? If yes, update atime:
+ */
+ if (timespec_compare(&inode->i_mtime, &inode->i_atime) >= 0)
+ return 1;
+ /*
+ * Is ctime younger than atime? If yes, update atime:
+ */
+ if (timespec_compare(&inode->i_ctime, &inode->i_atime) >= 0)
+ return 1;
+
+ /*
+ * Is the previous atime value older than a day? If yes,
+ * update atime:
+ */
+ if ((long)(now.tv_sec - inode->i_atime.tv_sec) >= relatime_interval)
+ return 1;
+ /*
+ * Good, we can skip the atime update:
+ */
+ return 0;
+}
+
/**
* touch_atime - update the access time
* @mnt: mount the inode is accessed on
@@ -1191,22 +1226,14 @@ void touch_atime(struct vfsmount *mnt, s
return;
if ((mnt->mnt_flags & MNT_NODIRATIME) && S_ISDIR(inode->i_mode))
return;
-
- if (mnt->mnt_flags & MNT_RELATIME) {
- /*
- * With relative atime, only update atime if the
- * previous atime is earlier than either the ctime or
- * mtime.
- */
- if (timespec_compare(&inode->i_mtime,
- &inode->i_atime) < 0 &&
- timespec_compare(&inode->i_ctime,
- &inode->i_atime) < 0)
+ }
+ now = current_fs_time(inode->i_sb);
+ if (mnt) {
+ if (mnt->mnt_flags & MNT_RELATIME)
+ if (!relatime_need_update(inode, now))
return;
- }
}
- now = current_fs_time(inode->i_sb);
if (timespec_equal(&inode->i_atime, &now))
return;
Index: linux/fs/namespace.c
===================================================================
--- linux.orig/fs/namespace.c
+++ linux/fs/namespace.c
@@ -1107,6 +1107,7 @@ int do_add_mount(struct vfsmount *newmnt
goto unlock;
newmnt->mnt_flags = mnt_flags;
+
if ((err = graft_tree(newmnt, nd)))
goto unlock;
@@ -1362,6 +1363,24 @@ int copy_mount_options(const void __user
}
/*
+ * Allow users to disable (or enable) atime updates via a .config
+ * option or via the boot line, or via /proc/sys/fs/default_relatime:
+ */
+int default_relatime __read_mostly = CONFIG_DEFAULT_RELATIME_VAL;
+
+static int __init set_default_relatime(char *str)
+{
+ get_option(&str, &default_relatime);
+
+ printk(KERN_INFO "Mount all filesystems with"
+ "default relative atime updates: %s.\n",
+ default_relatime ? "enabled" : "disabled");
+
+ return 1;
+}
+__setup("default_relatime=", set_default_relatime);
+
+/*
* Flags is a 32-bit value that allows up to 31 non-fs dependent flags to
* be given to the mount() call (ie: read-only, no-dev, no-suid etc).
*
@@ -1409,6 +1428,11 @@ long do_mount(char *dev_name, char *dir_
mnt_flags |= MNT_NODIRATIME;
if (flags & MS_RELATIME)
mnt_flags |= MNT_RELATIME;
+ else if (default_relatime &&
+ !(flags & (MNT_NOATIME | MNT_NODIRATIME))) {
+ mnt_flags |= MNT_RELATIME;
+ flags |= MS_RELATIME;
+ }
flags &= ~(MS_NOSUID | MS_NOEXEC | MS_NODEV | MS_ACTIVE |
MS_NOATIME | MS_NODIRATIME | MS_RELATIME);
Index: linux/include/linux/mount.h
===================================================================
--- linux.orig/include/linux/mount.h
+++ linux/include/linux/mount.h
@@ -103,5 +103,8 @@ extern void shrink_submounts(struct vfsm
extern spinlock_t vfsmount_lock;
extern dev_t name_to_dev_t(char *name);
+extern int default_relatime;
+extern int relatime_interval;
+
#endif
#endif /* _LINUX_MOUNT_H */
Index: linux/kernel/sysctl.c
===================================================================
--- linux.orig/kernel/sysctl.c
+++ linux/kernel/sysctl.c
@@ -30,6 +30,7 @@
#include <linux/capability.h>
#include <linux/smp_lock.h>
#include <linux/fs.h>
+#include <linux/mount.h>
#include <linux/init.h>
#include <linux/kernel.h>
#include <linux/kobject.h>
@@ -1206,6 +1207,22 @@ static ctl_table fs_table[] = {
.mode = 0644,
.proc_handler = &proc_dointvec,
},
+ {
+ .ctl_name = CTL_UNNUMBERED,
+ .procname = "default_relatime",
+ .data = &default_relatime,
+ .maxlen = sizeof(int),
+ .mode = 0644,
+ .proc_handler = &proc_dointvec,
+ },
+ {
+ .ctl_name = CTL_UNNUMBERED,
+ .procname = "relatime_interval",
+ .data = &relatime_interval,
+ .maxlen = sizeof(int),
+ .mode = 0644,
+ .proc_handler = &proc_dointvec,
+ },
#if defined(CONFIG_BINFMT_MISC) || defined(CONFIG_BINFMT_MISC_MODULE)
{
.ctl_name = CTL_UNNUMBERED,
* [email protected] <[email protected]> wrote:
> i've been a linux sysadmin for 10 years, and have known about noatime
> for at least 7 years, but I always thought of it in the catagory of
> 'use it only on your performance critical machines where you are
> trying to extract every ounce of performance, and keep an eye out for
> things misbehaving'
>
> I never imagined that itwas the 20%+ hit that is being described, and
> with so little impact, or I would have switched to it across the board
> years ago.
>
> I'll bet there are a lot of admins out there in the same boat.
>
> adding an option in the kernel to change the default sounds like a
> very good first step, even if the default isn't changed today.
yep - but note that this was a gradual effect along the years, today the
assymetry between CPU performance and disk-seek performance is
proportionally larger than 10 years ago. Today CPUs are nearly 100 times
faster than 10 years ago, but disk seeks got only 2-3 times faster. (and
even that only if you have a high rpm disk - most desktops dont.)
10 years ago noatime was a nifty hack that made a difference if you had
lots of files. But it still was a problem with no immediate easy
solution and people developed their counter-arguments. Today the same
counter-arguments are used, but the situation has evolved alot.
and note that often this has a bigger everyday effect than the tweaking
of CPU scheduling, IO scheduling or swapping behavior (!). My desktop
systems rarely swap, have plenty of CPU power to spare, but atime
updates still have a noticeable latency impact, regardless of the memory
pressure. Linux has _lots_ of "performance reserves", so people dont
normally notice when comparing it to other OSs, but still we should not
be so wasteful with our IO performance, for such a fundamental thing as
reading files.
Ingo
* Willy Tarreau <[email protected]> wrote:
> In your example above, maybe it's the opposite, users know they can
> keep a file in /tmp one more week by simply cat'ing it.
sure - and i'm not arguing that noatime should the kernel-wide default.
In every single patch i sent it was a .config option (and a boot option
_and_ a sysctl option that i think you missed) that a user/distro
enables or disabled. But i think the /tmp argument is not very strong:
/tmp is fundamentally volatile, and you can grow dependencies on pretty
much _any_ aspect of the kernel. So the question isnt "is there impact"
(there is, at least for noatime), the question is "is it still worth
doing it".
> Changing the kernel in a non-easily reversible way is not kind to the
> users.
none of my patches did any of that...
anyway, my latest patch doesnt do noatime, it does the "more intelligent
relatime" approach.
Ingo
* Diego Calleja <[email protected]> wrote:
> > Measurements show that noatime helps 20-30% on regular desktop
> > workloads, easily 50% for kernel builds and much more than that (in
> > excess of 100%) for file-read-intense workloads. We cannot just walk
>
> And as everybody knows in servers is a popular practice to disable it.
> According to an interview to the kernel.org admins....
yeah - but i'd be surprised if more than 1% of all Linux servers out
there had noatime.
> "Beyond that, Peter noted, "very little fancy is going on, and that is
> good because fancy is hard to maintain." He explained that the only
> fancy thing being done is that all filesystems are mounted noatime
> meaning that the system doesn't have to make writes to the filesystem
> for files which are simply being read, "that cut the load average in
> half."
nice quote :-)
> I bet that some people would consider such performance hit a bug...
yeah.
Ingo
Hi Andi,
On Mon, 2007-08-06 at 00:17 +0200, Andi Kleen wrote:
> Brice Figureau <[email protected]> writes:
> >
> > 2) I _still_ don't get the "performances" of 2.6.17, but since that's the
> > better combination I could get, I think there is IMHO progress in the right
> > direction (to be compared to no progress since 2.6.18, that's better :-)).
>
> If you could characterize your workload well (e.g. how many disks,
> what file systems, what load on mysql) perhaps it would be possible
> to reproduce the problem with a test program or a mysql driver.
> Then it could be bisected.
My server is a Dell Poweredge 2850 (bi-Xeon EM64T 3GHz running without
HT, 4GB of RAM), with a Perc 4/Di (a LSI megaraid with a BBU of 256MB).
The hardware RAID card has 2 channels, one is connected to 2 10k RPM
146GB SCSI disk that are mirrored in a RAID 1 array on which the system
resides (/dev/sda). The second channel is connected to 4 10k RPM 146GB
disks, on a RAID 10 array which contains the database files and database
logs (/dev/sdb).
The kernel and userspace are 64bits.
Above the hardware RAID arrays there is LVM2 with two physical groups
(one per array). The RAID10 has only one logical volume.
The database volume (the RAID10) is an ext3 volume mounted with
rw,noexec,nosuid,nodev,noatime,data=writeback.
The I/O scheduler on all arrays is deadline.
/proc knobs with values other than defaults are:
/proc/sys/vm/swappiness = 2
/proc/sys/vm/dirty_background_ratio = 1
/proc/sys/vm/dirty_ratio = 2
/proc/sys/vm/vfs_cache_pressure = 1
The only thing running on the server is mysql.
Mysql memory footprint is about 90% of physical RAM. Mysql is configured
to use exclusively InnoDB.
Mysql accesses its database files in O_DIRECT mode.
Since the database fits in RAM, the only kind of access Mysql is doing
is writing to the innodb log, the mysql binlog and finally to the innodb
database files.
There are certainly a whole lot of fsync'ing happening.
All the database reads are done from the innodb in-RAM cache.
During all my kernel tests (see the original bug report) the machine was
not swapping (so that's not the reason of the stuttering).
If that helps:
db1:~# cat /proc/meminfo
MemTotal: 4052420 kB
MemFree: 23972 kB
Buffers: 54420 kB
Cached: 168096 kB
SwapCached: 1541744 kB
Active: 3723468 kB
Inactive: 157180 kB
SwapTotal: 11863960 kB
SwapFree: 10193064 kB
Dirty: 320 kB
Writeback: 0 kB
AnonPages: 3657744 kB
Mapped: 20508 kB
Slab: 119964 kB
SReclaimable: 103564 kB
SUnreclaim: 16400 kB
PageTables: 9408 kB
NFS_Unstable: 0 kB
Bounce: 0 kB
CommitLimit: 13890168 kB
Committed_AS: 3826764 kB
VmallocTotal: 34359738367 kB
VmallocUsed: 268604 kB
VmallocChunk: 34359469435 kB
HugePages_Total: 0
HugePages_Free: 0
HugePages_Rsvd: 0
Hugepagesize: 2048 kB
An typical iostat (taken every 2s under light load):
Device: rrqm/s wrqm/s r/s w/s rsec/s wsec/s avgrq-sz avgqu-sz await svctm %util
sda 0.00 2.00 0.00 3.50 0.00 44.00 12.57 0.00 0.00 0.00 0.00
sdb 0.00 9.00 0.50 27.00 4.00 288.00 10.62 0.01 0.36 0.36 1.00
Device: rrqm/s wrqm/s r/s w/s rsec/s wsec/s avgrq-sz avgqu-sz await svctm %util
sda 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
sdb 0.00 223.50 7.50 185.50 60.00 5964.00 31.21 0.15 0.78 0.56 10.80
Device: rrqm/s wrqm/s r/s w/s rsec/s wsec/s avgrq-sz avgqu-sz await svctm %util
sda 0.00 1.00 0.00 1.00 0.00 15.92 16.00 0.00 0.00 0.00 0.00
sdb 0.00 198.01 19.90 156.22 159.20 2833.83 16.99 0.04 0.24 0.20 3.58
Device: rrqm/s wrqm/s r/s w/s rsec/s wsec/s avgrq-sz avgqu-sz await svctm %util
sda 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
sdb 0.00 5.00 0.50 17.00 4.00 176.00 10.29 0.01 0.69 0.69 1.20
Would it help if I try blktrace on this server to capture the I/O ?
I enabled it while compiling the kernel, but I don't know yet how to use
it:
any pointer on how to activate it and capture useful information?
Many thanks,
--
Brice Figureau <[email protected]>
On Sun, Aug 05, 2007 at 09:41:12PM +0100, Christoph Hellwig wrote:
> On Sun, Aug 05, 2007 at 02:26:53AM +0200, Andi Kleen wrote:
> > I always thought the right solution would be to just sync atime only
> > very very lazily. This means if a inode is only dirty because of an
> > atime update put it on a "only write out when there is nothing to do
> > or the memory is really needed" list.
>
> Which is the policy I implemented for XFS a while ago.
How would that work? I didn't think XFS had separate inode lists.
-Andi
On Mon, Aug 06, 2007 at 08:57:12AM +0200, Ingo Molnar wrote:
>
> * Willy Tarreau <[email protected]> wrote:
>
> > In your example above, maybe it's the opposite, users know they can
> > keep a file in /tmp one more week by simply cat'ing it.
>
> sure - and i'm not arguing that noatime should the kernel-wide default.
> In every single patch i sent it was a .config option (and a boot option
> _and_ a sysctl option that i think you missed) that a user/distro
> enables or disabled. But i think the /tmp argument is not very strong:
> /tmp is fundamentally volatile, and you can grow dependencies on pretty
> much _any_ aspect of the kernel. So the question isnt "is there impact"
> (there is, at least for noatime), the question is "is it still worth
> doing it".
>
> > Changing the kernel in a non-easily reversible way is not kind to the
> > users.
>
> none of my patches did any of that...
I did not notice you talked about a sysctl. A sysctl provides the ability
to switch the behaviour without rebooting, while both the config option
and the command line require a reboot.
> anyway, my latest patch doesnt do noatime, it does the "more intelligent
> relatime" approach.
... which is not equivalent noatime in the initial example.
Regards,
Willy
On Sun, 5 Aug 2007 11:00:29 -0400
Theodore Tso <[email protected]> wrote:
> On Sun, Aug 05, 2007 at 02:26:53AM +0200, Andi Kleen wrote:
> > I always thought the right solution would be to just sync atime only
> > very very lazily. This means if a inode is only dirty because of an
> > atime update put it on a "only write out when there is nothing to do
> > or the memory is really needed" list.
>
> As I've mentioend earlier, the memory balancing issues that arise when
> we add an "atime dirty" bit scare me a little. It can be addressed,
> obviously, but at the cost of more code complexity.
ext3 and reiser both use a dirty_inode method to make sure that we
don't actually have dirty inodes. This way, kswapd doesn't get stuck
on the log and is able to do real work.
It would be interesting to see a comparison of relatime with a kinoded
that is willing to get stuck on the log. The FS would need a few
tweaks so that write_inode() could know if it really needed to log or
not, but for testing you could just drop ext3_dirty_inode and have
ext3_write_inode do real work.
Then just change kswapd to kick a new kinoded and benchmark away. A
real patch would have to look for places where mark_inode_dirty was
used and expected the dirty_inode callback to log things right away,
but for testing its good enough.
-chris
On Mon, Aug 06, 2007 at 08:39:09AM +0200, Ingo Molnar wrote:
>
> * Dave Jones <[email protected]> wrote:
>
> > > btw., Mutt does not go boom, i use it myself. It works just fine
> > > and notices new mails even on a noatime,nodiratime filesystem.
> >
> > It still fails miserably for me.
> >
> > If I hit 'C' and '?' I get a list of my mail folders, with some of
> > them marked 'N' if they have new mail. Without atime, those N's never
> > show up and every mbox looks like it has no new mail.
>
> does it work with the "atime on steroids" patch below? (no need to
> configure anything, just apply the patch and go.)
people have reported that relatime does work, but my util-linux
isn't new enough to support it, so I've never got it to work.
I'll give your diff a try later, though as it seems to be
equivalent I expect it'll work.
Dave
--
http://www.codemonkey.org.uk
* Dave Jones <[email protected]> wrote:
> > does it work with the "atime on steroids" patch below? (no need to
> > configure anything, just apply the patch and go.)
>
> people have reported that relatime does work, but my util-linux isn't
> new enough to support it, so I've never got it to work. I'll give your
> diff a try later, though as it seems to be equivalent I expect it'll
> work.
would still be nice if you could test it and report back :)
Ingo
On 08/05/2007 04:36 PM, Christoph Hellwig wrote:
>
> Umm, no f**king way. atime selection is 100% policy and belongs into
> userspace. Add to that the problem that we can't actually re-enable
> atimes because of the way the vfs-level mount flags API is designed.
> Instead of doing such a fugly kernel patch just talk to the handfull
> of distributions that matter to update their defaults.
>
We already tried that here. The response: "If noatime is so great, why
isn't it the default in the kernel?"
Chuck Ebbert wrote:
> On 08/05/2007 04:36 PM, Christoph Hellwig wrote:
>> Umm, no f**king way. atime selection is 100% policy and belongs into
>> userspace. Add to that the problem that we can't actually re-enable
>> atimes because of the way the vfs-level mount flags API is designed.
>> Instead of doing such a fugly kernel patch just talk to the handfull
>> of distributions that matter to update their defaults.
> We already tried that here. The response: "If noatime is so great, why
> isn't it the default in the kernel?"
Yes, and around and around we go :/
Jeff
> We already tried that here. The response: "If noatime is so great, why
> isn't it the default in the kernel?"
Ok so we have a pile of people @redhat.com sitting on linux-kernel
complaining about Red Hat distributions not taking it up. Guys - can
we just fix it internally please like sensible folk ?
Ingo's latest 'not quite noatime' seems to cure mutt/tmpwatch so it might
finally make sense to do so.
Alan
On 08/06/2007 03:37 PM, Alan Cox wrote:
>> We already tried that here. The response: "If noatime is so great, why
>> isn't it the default in the kernel?"
>
> Ok so we have a pile of people @redhat.com sitting on linux-kernel
> complaining about Red Hat distributions not taking it up. Guys - can
> we just fix it internally please like sensible folk ?
>
> Ingo's latest 'not quite noatime' seems to cure mutt/tmpwatch so it might
> finally make sense to do so.
Do we report max(ctime, mtime) as the atime by default when noatime
is set or do we still need that to be done?
> Per device dirty throttling patches
Andrew, may I inquire about your plans with this?
> These patches aim to improve balance_dirty_pages() and directly address three
> issues:
> 1) inter device starvation
> 2) stacked device deadlocks
This one interests me most, due to various real life, reported
problems with fuse filesystems. For this reason I'd really like to
get this or a subset of it into mainline as soon as possible.
This patchset (or rather the -v7 version) has been running on my
laptop for a couple of weeks without problems. I've also verified
that it solves the fuse and loop issues.
I have some qualms about the complexity of various parts though.
Especially the "proportions" library, which I'm having problems
understanding. I'm not sure that this level of sophistication is
really needed to solve the issues with the old code.
Miklos
* Chuck Ebbert <[email protected]> wrote:
> > Ingo's latest 'not quite noatime' seems to cure mutt/tmpwatch so it
> > might finally make sense to do so.
>
> Do we report max(ctime, mtime) as the atime by default when noatime is
> set or do we still need that to be done?
noatime is unchanged by my patch (it is not the same as the 'improved
relatime' mode my patch activates), but it would make sense to do your
change, independently.
Ingo
Jeff Garzik wrote:
> Alan Cox wrote:
>> In some setups it will and in others it won't. Nor is it the only
>> application that has this requirement. Ext3 currently is a standards
>> compliant file system. Turn off atime and its very non standards
>> compliant, turn to relatime and its not standards compliant but nobody
>> will break (which is good)
>
> Linux has always been a "POSIX unless its stupid" type of system. For
> the upstream kernel, we should do the right thing -- noatime by default
> -- but allow distros and people that care about rigid compliance to
> easily change the default.
>
However, relatime has the POSIX behavior without the overhead. Therefore
that (and maybe reldiratime?) are a far better choice. I don't see a big
problem with some version of utils not supporting it, since it can be in
the kernel and will be in the utils soon enough. We have lived without
it this long, sounds as if we could live a bit longer.
--
Bill Davidsen <[email protected]>
"We have more to fear from the bungling of the incompetent than from
the machinations of the wicked." - from Slashdot
Alan Cox wrote:
>> i cannot over-emphasise how much of a deal it is in practice. Atime
>> updates are by far the biggest IO performance deficiency that Linux has
>> today. Getting rid of atime updates would give us more everyday Linux
>> performance than all the pagecache speedups of the past 10 years,
>> _combined_.
>>
>> it's also perhaps the most stupid Unix design idea of all times. Unix is
>> really nice and well done, but think about this a bit:
>
> Think about the user for a moment instead.
>
> Do things right. The job of the kernel is not to "correct" for
> distribution policy decisions. The distributions need to change policy.
> You do that by showing the distributions the numbers.
>
> With a Red Hat on if we can move from /dev/hda to /dev/sda in FC7 then we
> can move from atime to noatime by default on FC8 with appropriate release
> note warnings and having a couple of betas to find out what other than
> mutt goes boom.
Is there really enough benefit between relatime and noatime to justify
that? If atime doesn't get updated at all it *will* impact operations,
and unless there's a real performance gain the path which provides at
least nominal POSIX compliance seems best.
Plauger's law of least astonishment.
--
Bill Davidsen <[email protected]>
"We have more to fear from the bungling of the incompetent than from
the machinations of the wicked." - from Slashdot
> However, relatime has the POSIX behavior without the overhead. Therefore
No. relatime has approximately SuS behaviour. Its not the same as
"correct" behaviour.
Claudio Martins wrote:
> On Saturday 04 August 2007, Alan Cox wrote:
>> Linux has never been a "suprise your kernel interfaces all just changed
>> today" kernel, nor a "gosh you upgraded and didn't notice your backups
>> broke" kernel.
>>
>
> Can you give examples of backup solutions that rely on atime being updated?
> I can understand backup tools using mtime/ctime for incremental backups (like
> tar + Amanda, etc), but I'm having trouble figuring out why someone would
> want to use atime for that.
>
Programs which migrate unused files or delete them are the usual cases.
--
Bill Davidsen <[email protected]>
"We have more to fear from the bungling of the incompetent than from
the machinations of the wicked." - from Slashdot
On Sat, Aug 04, 2007 at 07:17:24PM +0200, Ingo Molnar wrote:
>
> * Diego Calleja <[email protected]> wrote:
>
> > El Sat, 4 Aug 2007 18:37:33 +0200, Ingo Molnar <[email protected]> escribió:
> >
> > > thousands of applications. So for most file workloads we give
> > > Windows a 20%-30% performance edge, for almost nothing. (for
> > > RAM-starved kernel builds the performance difference between atime
> > > and noatime+nodiratime setups is more on the order of 40%)
> >
> > Just curious - do you have numbers with relatime?
>
> nope. Stupid question, i just tried it and got this:
>
> EXT3-fs: Unrecognized mount option "relatime" or missing value
>
> i've got util-linux-2.13-0.46.fc6 and 2.6.22 on that box, shouldnt that
The relatime patch has been applied to util-lilnux-ng-2.13 (now -rc3),
you will see it in Fedora 8 (and probably in the others distros).
Karel
--
Karel Zak <[email protected]>
On Fri, 2007-08-03 at 14:37 +0200, Peter Zijlstra wrote:
> Per device dirty throttling patches
>
> These patches aim to improve balance_dirty_pages() and directly address three
> issues:
> 1) inter device starvation
> 2) stacked device deadlocks
> 3) inter process starvation
<snip>
Hi Peter,
I've been testing your patch with a simple test case that copies a 3GB
file from sda -> sda, and copies a 1GB file from sda -> sdb.
the script is roughly this :-
dd bs=64k if=[sda]/data3g of=[sda]/temp_data3g &
sleep 60
dd bs=64k if=[sda]/data1g of=[sdb]/temp_data1g &
wait
sleep 200
On my amd64x2 desktop machine where sda is a sata 250 GB drive & sdb is
an ide 300 GB drive.
Running this test 5 times gives
2.6.23-rc1-mm2
1GB copy MB/s 3GB copy MB/s
16.2 16.1
15.2 14.6
17.3 14.6
18.0 14.5
19.0 14.6
2.6.23-rc1-mm2+pddt_patch
1GB copy MB/s 3GB copy MB/s
23.0 14.7
24.0 14.6
20.4 14.8
22.6 14.5
23.2 14.5
This is on a standard desktop machine so there are lots of other
processes running on it, and although there is a degree of variability
in the numbers,they are very repeatable and your patch always out
performs the stock mm2.
looks good to me
Richard
richard kennedy <[email protected]> writes:
>
> This is on a standard desktop machine so there are lots of other
> processes running on it, and although there is a degree of variability
> in the numbers,they are very repeatable and your patch always out
> performs the stock mm2.
> looks good to me
iirc the goal of this is less to get better performance, but to avoid long user visible
latencies. Of course if it's faster it's great too, but that's only secondary.
-Andi
Alan Cox wrote:
>> However, relatime has the POSIX behavior without the overhead. Therefore
>
> No. relatime has approximately SuS behaviour. Its not the same as
> "correct" behaviour.
>
Actually correct, but in terms of what can or does break, relatime seems
a lot closer than noatime, I can't (personally) come up with any
scenario where real applications would see something which would change
behavior adversely.
Making noatime a default in the kernel requiring a boot option to
restore current behavior seems to be a turn toward the "it doesn't
really work right but it's *fast*" model. If vendors wanted noatime they
are smart enough to enable it. Now with relatime giving most of the
benefits and few (of any) of the side effects, I would expect a change.
By all means relatime by default in FC8, but not noatime, and let those
who find some measurable benefit from noatime use it.
--
Bill Davidsen <[email protected]>
"We have more to fear from the bungling of the incompetent than from
the machinations of the wicked." - from Slashdot
Ingo Molnar wrote:
> || ...For me, I would say 50% is not enough to describe the _visible_
> || benefits... Not talking any specific number but past 10sec-1min+
> || lagging in X is history, it's gone and I really don't miss it that
> || much... :-) Cannot reproduce even a second long delay anymore in
> || window focusing under considerable load as it's basically
> || instantaneous (I can see that it's loaded but doesn't affect the
> || feeling of responsiveness I'm now getting), even on some loads that I
> || couldn't previously even dream of... [...]
>
> we really have to ask ourselves whether the "process" is correct if
> advantages to the user of this order of magnitude can be brushed aside
> with simple "this breaks binary-only HSM" and "it's not standards
> compliant" arguments.
>
Being standards compliant is not an argument it's a design goal, a
requirement. Standards compliance is like pregant, you are or you're
not. And to deliberately ignore standards for speed is saying "it's too
hard to do it right, I'll do it wrong and it will be faster." The answer
is to do it smarter, with solutions like relatime (which can be enhanced
as Linus noted) which provide performance benefits without ignoring
standards, or use of a filesystem which does a better job. But when it
goes in the kernel the choice of having per-filesystem behavior either
vanishes or becomes an exercise in complex and as-yet unwritten mount
options.
There are certainly ways to improve ext3, not journaling atime updates
would certainly be one, less frequent updates of dirty inodes, whatever.
But if a user wants to give up standards compliance it should be a
deliberate choice, not something which the average user will not
understand or learn to do.
--
Bill Davidsen <[email protected]>
"We have more to fear from the bungling of the incompetent than from
the machinations of the wicked." - from Slashdot
Bill Davidsen wrote:
> Being standards compliant is not an argument it's a design goal, a
> requirement. Standards compliance is like pregant, you are or you're
Linux history says different. There was always the "final 1%" of
compliance that required silliness we really did not want to bother with.
Jeff
Jeff Garzik wrote:
> Bill Davidsen wrote:
>> Being standards compliant is not an argument it's a design goal, a
>> requirement. Standards compliance is like pregant, you are or you're
>
> Linux history says different. There was always the "final 1%" of
> compliance that required silliness we really did not want to bother with.
This is not 1%, this is a user-visible change in behavior, relative to
all previous Linux versions. There has been a way for ages to trade
performance for standards for users or distributions, and standards have
been chosen. Given that there is now a way to get virtually all of the
performance without giving up atime completely, why the sudden attempt
to change to a less satisfactory default?
I could understand a push to quickly get relatime with a few
enhancements (the functionality if not the exact code) into
distributions, even as a default, but forcing user or distribution
changes just to retain the same dehavior doesn't seem reasonable. It
assumes that vendors and users are so stupid they can't understand why
benchmark results and more important than standards. People who run
servers are smart enough to decide if their application will run as
expected without atime.
People have lived with this compromise for a very long time, and it
seems that a far more balanced solution will be in the kernel soon.
--
bill davidsen <[email protected]>
CTO TMR Associates, Inc
Doing interesting things with small computers since 1979
Christoph Hellwig wrote:
> On Sat, Aug 04, 2007 at 09:42:59PM +0200, J??rn Engel wrote:
>
>> On Sat, 4 August 2007 21:26:15 +0200, J??rn Engel wrote:
>>
>>> Given the choice between only "atime" and "noatime" I'd agree with you.
>>> Heck, I use it myself. But "relatime" seems to combine the best of both
>>> worlds. It currently just suffers from mount not supporting it in any
>>> relevant distro.
>>>
>> And here is a completely untested patch to enable it by default. Ingo,
>> can you see how good this fares compared to "atime" and
>> "noatime,nodiratime"?
>>
>
> Umm, no f**king way. atime selection is 100% policy and belongs into
> userspace. Add to that the problem that we can't actually re-enable
> atimes because of the way the vfs-level mount flags API is designed.
> Instead of doing such a fugly kernel patch just talk to the handfull
> of distributions that matter to update their defaults.
>
From what I've seen the problem seems to be that the inode
gets marked dirty when we update atime.
Why isn't this easily fixable by just adding an additional dirty
flag that says atime has changed? Then we only cause a write
when we remove the inode from the inode cache, if only atime
is updated.
Unlike relatime, there's no user-visible change (unless the
machine crashes without clean unmount, but not sure anyone
cares that much about that cornercase). Atime changes are
thus kept in-ram until umount / inode reclaim.
On Wed, 08 Aug 2007 14:10:15 -0700
"Martin J. Bligh" <[email protected]> wrote:
> Why isn't this easily fixable by just adding an additional dirty
> flag that says atime has changed? Then we only cause a write
> when we remove the inode from the inode cache, if only atime
> is updated.
I think that could be made to work, and it would fix the performance
issue.
It is a behaviour change. At present ext3 (for example) commits everything
every five seconds. After a change like this, a crash+recovery could cause
a file's atime to go backwards by an arbitrarily large time interval - it
could easily be months.
On Wed, 08 Aug 2007 15:39:52 -0400
Jeff Garzik <[email protected]> wrote:
> Bill Davidsen wrote:
> > Being standards compliant is not an argument it's a design goal, a
> > requirement. Standards compliance is like pregant, you are or you're
>
> Linux history says different. There was always the "final 1%" of
> compliance that required silliness we really did not want to bother with.
This isn't about the 1% however. Its about API and ABI. Changing the
default is a fairly evil ABI change. Telling everyone relatime is cool on
desktops and defaulting it in the distro is not an ABI change and is very
sensible
Andrew Morton wrote:
> On Wed, 08 Aug 2007 14:10:15 -0700
> "Martin J. Bligh" <[email protected]> wrote:
>
>> Why isn't this easily fixable by just adding an additional dirty
>> flag that says atime has changed? Then we only cause a write
>> when we remove the inode from the inode cache, if only atime
>> is updated.
>
> I think that could be made to work, and it would fix the performance
> issue.
>
> It is a behaviour change. At present ext3 (for example) commits everything
> every five seconds. After a change like this, a crash+recovery could cause
> a file's atime to go backwards by an arbitrarily large time interval - it
> could easily be months.
A second pdflush / workqueue at a slower rate would alleviate that.
Yes, it's a semantic change ... but only in an incredibly small
corner-case ?
Ingo Molnar wrote:
> * Alan Cox <[email protected]> wrote:
>
>>>> People just need to know about the performance differences - very
>>>> few realise its more than a fraction of a percent. I'm sure Gentoo
>>>> will use relatime the moment anyone knows its > 5% 8)
>>> noatime,nodiratime gave 50% of wall-clock kernel rpm build
>>> performance improvement for Dave Jones, on a beefy box. Unless i
>>> misunderstood what you meant under 'fraction of a percent' your
>>> numbers are _WAY_ off.
>> What numbers - I didn't quote any performance numbers ?
>
> ok, i misunderstood your "very few realise its more than a fraction of a
> percent" sentence, i thought you were saying it's a fraction of a
> percent.
>
> Measurements show that noatime helps 20-30% on regular desktop
> workloads, easily 50% for kernel builds and much more than that (in
> excess of 100%) for file-read-intense workloads. We cannot just walk
> past such a _huge_ performance impact so easily without even reacting to
> the performance arguments, and i'm happy Ubuntu picked up
> noatime,nodiratime and is whipping up the floor with Fedora on the
> desktop.
>
Sorry I'm just not seeing those gains here. With my filesystems mounted with atime
defaults the Quake sources build in 1m28.856s. A test with ls -ltu verifies that atime is
working as expected. When I remount my filesystems with:
mount [fs] -o remount,noatime,nodiratime
I get a compile time of 1m23.368s, a mere 6% improvement.
This is on a dual-core Athlon 4200+ box running 2.6.21, so I would have thought this to be
close to a best-case file I/O test.
Greg
On Thu, 9 Aug 2007, Greg Trounson wrote:
>> Measurements show that noatime helps 20-30% on regular desktop workloads,
>> easily 50% for kernel builds and much more than that (in excess of 100%)
>> for file-read-intense workloads. We cannot just walk past such a _huge_
>> performance impact so easily without even reacting to the performance
>> arguments, and i'm happy Ubuntu picked up noatime,nodiratime and is
>> whipping up the floor with Fedora on the desktop.
>>
>
> Sorry I'm just not seeing those gains here. With my filesystems mounted with
> atime defaults the Quake sources build in 1m28.856s. A test with ls -ltu
> verifies that atime is working as expected. When I remount my filesystems
> with:
> mount [fs] -o remount,noatime,nodiratime
> I get a compile time of 1m23.368s, a mere 6% improvement.
>
> This is on a dual-core Athlon 4200+ box running 2.6.21, so I would have
> thought this to be close to a best-case file I/O test.
what sort of disks does this box have? and what filesystem? slower
disks/filesystems can result in this showing a larger difference.
however 6% is a fairly significant gain.
David Lang
Greg Trounson <[email protected]> writes:
> mount [fs] -o remount,noatime,nodiratime
nodiratime is implied in noatime.
> I get a compile time of 1m23.368s, a mere 6% improvement.
6% is nothing to sneeze at. A lot of optimizations would kill for less
-Andi
On Sat, 4 Aug 2007, Ray Lee wrote:
> On 8/4/07, [email protected] <[email protected]> wrote:
>> On Sat, 4 Aug 2007, Ingo Molnar wrote:
>>
> At least on a surface level, your report has some similarities to
> http://lkml.org/lkml/2007/5/21/84 . In that message, John Miller
> mentions several things he tried without effect:
>
> < - I increased the max allowed receive buffer through
> < proc/sys/net/core/rmem_max and the application calls the right
> < syscall. "netstat -su" does not show any "packet receive errors".
mercury1:/proc/sys/net/core# cat rmem_*
124928
131071
mercury1:/proc/sys/net/core# netstat -su
Udp:
697853177 packets received
10025642 packets to unknown port received.
191726680 packet receive errors
63194 packets sent
RcvbufErrors: 191726680
UdpLite:
mercury1:/proc/sys/net/core# echo "512000" >rmem_max
> < - After getting "kernel: swapper: page allocation failure.
> < order:0, mode:0x20", I increased /proc/sys/vm/min_free_kbytes
I have not seen any similar errors
> < - ixgb.txt in kernel network documentation suggests to increase
> < net.core.netdev_max_backlog to 300000. This did not help.
mercury1:/proc/sys/net/core# cat netdev_*
300
1000
mercury1:/proc/sys/net/core# echo "300000" >netdev_max_backlog
> < - I also had to increase net.core.optmem_max, because the default
> < value was too small for 700 multicast groups.
I'm not running multicast.
> As they're all pretty simple to test, it may be worthwhile to give
> them a shot just to rule things out.
unfortunantly the load is not high enough right now to see a real
difference (it's only doing ~1400 logs/sec) I'll catch it at a higher load
point to see if these make any difference.
David Lang
> Ray
>
On Sat, Aug 04, 2007 at 06:37:33PM +0200, Ingo Molnar wrote:
> * Linus Torvalds <[email protected]> wrote:
>> The fact is, ext3 *sucks* at fsync. I hate hate hate it. It's
>> totally unusable, imnsho.
> yeah, it's really ugly. But otherwise i've got no real complaint
> about ext3 - with the obligatory qualification that
> "noatime,nodiratime" in /etc/fstab is a must. This speeds up things
> very visibly (...). So for most file workloads we give Windows a
> 20%-30% performance edge, for almost nothing.
It has been years since I used MS Windows much, but from my memories
of my these days, I was under the impression that it (at least the NT
line, the only surviving line these days) also maintained "last
accessed" times. Except I only ever saw it at "right now" because the
file explorer ... accesses the file before getting this metadata or
something like that (when you right-click on a file and ask for its
properties). It has creation and last modification time, too.
So, if my memories are correct, there is no performance edge to be
conceded by having atime (but one to be gained by not having atime).
--
Lionel
On 08/09/2007 02:25 AM, Lionel Elie Mamane wrote:
>
>> yeah, it's really ugly. But otherwise i've got no real complaint
>> about ext3 - with the obligatory qualification that
>> "noatime,nodiratime" in /etc/fstab is a must. This speeds up things
>> very visibly (...). So for most file workloads we give Windows a
>> 20%-30% performance edge, for almost nothing.
>
> It has been years since I used MS Windows much, but from my memories
> of my these days, I was under the impression that it (at least the NT
> line, the only surviving line these days) also maintained "last
> accessed" times. Except I only ever saw it at "right now" because the
> file explorer ... accesses the file before getting this metadata or
> something like that (when you right-click on a file and ask for its
> properties). It has creation and last modification time, too.
>
NT maintains atimes by default, at least up to XP. You have to edit the
registry to turn them off, and it is a single global switch -- not per
mountpoint like Unix.
And it makes a huge difference there, too.
El Thu, 09 Aug 2007 11:02:38 -0400, Chuck Ebbert <[email protected]> escribi?:
> NT maintains atimes by default, at least up to XP. You have to edit the
> registry to turn them off, and it is a single global switch -- not per
> mountpoint like Unix.
>
> And it makes a huge difference there, too.
In windows Vista they've disabled atime updates by default.
And XP maintains atimes, but it uses a trick to avoid the performance
penalty we suffer in linux, similar to what Andi Kleen suggested: they
keep atime updates in memory for one hour, and only sync to disk after
that time - of course they also sync it if there's a oportunity to do it, like
when updating mtime.
Andrew Morton wrote:
> On Wed, 08 Aug 2007 14:10:15 -0700
> "Martin J. Bligh" <[email protected]> wrote:
>
>> Why isn't this easily fixable by just adding an additional dirty
>> flag that says atime has changed? Then we only cause a write
>> when we remove the inode from the inode cache, if only atime
>> is updated.
>
> I think that could be made to work, and it would fix the performance
> issue.
>
> It is a behaviour change. At present ext3 (for example) commits everything
> every five seconds. After a change like this, a crash+recovery could cause
> a file's atime to go backwards by an arbitrarily large time interval - it
> could easily be months.
>
I would think that (really) updating atime on open would be enough,
hopefully without being too much. The "lazyatime" thing I was playing
with only updated on open, final close, write, and fork.
I like the idea of updating once in a while, but one of the benefits of
noatime is allowing drives to spin down via inactivity. If something
does get done in the area of less but non-zero atime tracking, perhaps
that could be taken into account. I have to check what "laptop_mode
actually does, since my laptops are old installs.
--
Bill Davidsen <[email protected]>
"We have more to fear from the bungling of the incompetent than from
the machinations of the wicked." - from Slashdot
[email protected] wrote:
> On Sun, 5 Aug 2007, Diego Calleja wrote:
>
>> El Sun, 5 Aug 2007 09:13:20 +0200, Ingo Molnar <[email protected]> escribi?:
>>
>>> Measurements show that noatime helps 20-30% on regular desktop
>>> workloads, easily 50% for kernel builds and much more than that (in
>>> excess of 100%) for file-read-intense workloads. We cannot just walk
>>
>>
>> And as everybody knows in servers is a popular practice to disable it.
>> According to an interview to the kernel.org admins....
>>
>> "Beyond that, Peter noted, "very little fancy is going on, and that is
>> good
>> because fancy is hard to maintain." He explained that the only fancy
>> thing
>> being done is that all filesystems are mounted noatime meaning that the
>> system doesn't have to make writes to the filesystem for files which are
>> simply being read, "that cut the load average in half."
>>
>> I bet that some people would consider such performance hit a bug...
>>
>
> actually, it's popular practice to disable it by people who know how big
> a hit it is and know how few programs use it.
>
> i've been a linux sysadmin for 10 years, and have known about noatime
> for at least 7 years, but I always thought of it in the catagory of 'use
> it only on your performance critical machines where you are trying to
> extract every ounce of performance, and keep an eye out for things
> misbehaving'
>
> I never imagined that itwas the 20%+ hit that is being described, and
> with so little impact, or I would have switched to it across the board
> years ago.
>
To get that magnitude you need slow disk with very fast CPU. It helps
most of systems where the disk hardware is marginal or worse for the i/o
load. Don't take that as typical.
> I'll bet there are a lot of admins out there in the same boat.
>
> adding an option in the kernel to change the default sounds like a very
> good first step, even if the default isn't changed today.
>
--
Bill Davidsen <[email protected]>
"We have more to fear from the bungling of the incompetent than from
the machinations of the wicked." - from Slashdot
Andi Kleen wrote:
> richard kennedy <[email protected]> writes:
>> This is on a standard desktop machine so there are lots of other
>> processes running on it, and although there is a degree of variability
>> in the numbers,they are very repeatable and your patch always out
>> performs the stock mm2.
>> looks good to me
>
> iirc the goal of this is less to get better performance, but to avoid long user visible
> latencies. Of course if it's faster it's great too, but that's only secondary.
>
What a trade-off, if you want to get rid of long latency you have to
live with better throughput. I can live with that. ;-)
Your point well taken, not the intent of the patch, but it may indicate
where a performance bottleneck happens as well.
--
Bill Davidsen <[email protected]>
"We have more to fear from the bungling of the incompetent than from
the machinations of the wicked." - from Slashdot
Updating the manual page mount(8) with an expanded description of atime/noatime and adding nodirtime and data=<option> seems much more reasonable than hacking the kernel because you want others to run their systems the way you think they should.
Almost every web search of "linux fast disk" (or related words) references noatime, and many ext3 specific documents explain the caching options.
On Fri, 10 Aug 2007 00:04:45 EDT, Bill Davidsen said:
> > I never imagined that itwas the 20%+ hit that is being described, and
> > with so little impact, or I would have switched to it across the board
> > years ago.
> >
> To get that magnitude you need slow disk with very fast CPU. It helps
> most of systems where the disk hardware is marginal or worse for the i/o
> load. Don't take that as typical.
I suspect that almost every single laptop with a Core2 Duo in it falls into
that classification, and it's getting worse every year, as we see more
disparity between CPU speeds (increasing) and disk seek times (basically nailed
to the floor for the last decade).
On Wed, Aug 08, 2007 at 05:54:57PM -0700, Martin Bligh wrote:
> Andrew Morton wrote:
> >On Wed, 08 Aug 2007 14:10:15 -0700
> >"Martin J. Bligh" <[email protected]> wrote:
> >
> >>Why isn't this easily fixable by just adding an additional dirty
> >>flag that says atime has changed? Then we only cause a write
> >>when we remove the inode from the inode cache, if only atime
> >>is updated.
> >
> >I think that could be made to work, and it would fix the performance
> >issue.
> >
> >It is a behaviour change. At present ext3 (for example) commits everything
> >every five seconds. After a change like this, a crash+recovery could cause
> >a file's atime to go backwards by an arbitrarily large time interval - it
> >could easily be months.
>
> A second pdflush / workqueue at a slower rate would alleviate that.
This becomes delayed atime writes. I'm not sure that it's better to
batch up the writes and do them all in one big seeky go, or to trickle
them out as they are done. Best of all is not to do them at all.
Note when talking about saving up atime updates to write out that the
final write is going to be sloooooow. Inodes are typically 128 bytes,
and you may have to do a seek between every one. Currents disks can
do on the order of 100 seeks a second. So do a find on 1000 files and
you've just created 10 seconds of I/O hanging out in memory.
-VAL
On Mon, 2007-08-06 at 10:40 +0200, Brice Figureau wrote:
> Mysql accesses its database files in O_DIRECT mode.
binlog is written using buffered IO.
for InnoDB, binlog is synced first, then innodb log. on restart (in 5.0)
these are synced back up so you don't get inconsistencies.
and from a quick look at the innobase source, only data file is using
O_DIRECT.
> Since the database fits in RAM, the only kind of access Mysql is doing
> is writing to the innodb log, the mysql binlog and finally to the innodb
> database files.
> There are certainly a whole lot of fsync'ing happening.
yes. Keep in mind that the binlog grows in file size too... so this has
to sync all the metadata as well (ick, i know).
--
Stewart Smith, Senior Software Engineer
MySQL AB, http://www.mysql.com
Office: +14082136540 Ext: 6616
VoIP: [email protected]
Mobile: +61 4 3 8844 332
Jumpstart your cluster:
http://www.mysql.com/consulting/packaged/cluster.html
On Tue, Aug 14, 2007 at 11:44:56AM +1000, Stewart Smith wrote:
> > Since the database fits in RAM, the only kind of access Mysql is doing
> > is writing to the innodb log, the mysql binlog and finally to the innodb
> > database files.
> > There are certainly a whole lot of fsync'ing happening.
>
> yes. Keep in mind that the binlog grows in file size too... so this has
> to sync all the metadata as well (ick, i know).
It might be an interesting experiment to see if it still happens
with the file system remounted as ext2. ext2 has a much more
benign fsync than ext3.
-Andi
On Tue, 2007-08-14 at 04:25 +0200, Andi Kleen wrote:
> On Tue, Aug 14, 2007 at 11:44:56AM +1000, Stewart Smith wrote:
> > > Since the database fits in RAM, the only kind of access Mysql is doing
> > > is writing to the innodb log, the mysql binlog and finally to the innodb
> > > database files.
> > > There are certainly a whole lot of fsync'ing happening.
> >
> > yes. Keep in mind that the binlog grows in file size too... so this has
> > to sync all the metadata as well (ick, i know).
Back in the first days of my original bug report I moved the binlogs to
another disk and it didn't change anything to my issue.
On Tue, 2007-08-14 at 04:25 +0200, Andi Kleen wrote:
> It might be an interesting experiment to see if it still happens
> with the file system remounted as ext2. ext2 has a much more
> benign fsync than ext3.
Is it possible to perform a live remount of the fs on ext2 ?
Beside that, the RAID card has a battery backed RAM in write-back mode,
I was told that fsync don't really hurt in this case (moreover the fs is
mounted in journal=writeback mode).
I'll post soon blktrace files in the original bug report, this will show
exactly what is the disk workload in the baseline case _and_ in the
underload atypical case. Maybe that will help to shed some lights on the
issue?
Anyway, thanks,
--
Brice Figureau <[email protected]>
Christoph Hellwig wrote:
> Umm, no f**king way. atime selection is 100% policy and belongs into
> userspace. Add to that the problem that we can't actually re-enable
> atimes because of the way the vfs-level mount flags API is designed.
> Instead of doing such a fugly kernel patch just talk to the handfull
> of distributions that matter to update their defaults.
>
Indeed. Just change /bin/mount so it defaults to "noatime"
unless there is an explicit "atime". Similiar for diratime.
Problem solved.
Helge Hafting
Andi Kleen wrote:
> I always thought the right solution would be to just sync atime only
> very very lazily. This means if a inode is only dirty because of an
> atime update put it on a "only write out when there is nothing to do
> or the memory is really needed" list.
>
Seems like a good idea. atimes will then be written only by
memory pressure - or umount. The atimes could be wrong after
a crash, but loosing atimes only is not something
I'd worry about.
Helge Hafting
On Sun, Aug 05, 2007 at 11:00:29AM -0400, Theodore Tso wrote:
> P.S. Yet alternative is to specify noatime on an individual
> file/directory basis. We've had this capability for a *long* time,
> and if a distro were to set noatime for all files in certain
> hierarchies (i.e., /usr/include) and certain top-level directories
> (since the chattr +A flag is inherited)
This came across my mind again earlier, and I went digging.
Can you explain how this works?
I've eyeballed the ext2/ext3 code, and feel like I'm missing something obvious.
I'm guessing that for eg, with /usr/include/stdio.h, we check the inodes
for all four parts of path, and if any of them are +A we avoid the
atime update ? If so, where does that inheritance happen in the code?
Dave
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