Messages in this thread | | | Date | Tue, 8 Apr 2008 07:48:37 +0200 | From | Gerlof Langeveld <> | Subject | Re: [PATCH 1/3] accounting: task counters for disk/network |
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Op 03-04-2008, 12:54 Andrew Morton wrote: > On Wed, 2 Apr 2008 09:30:37 +0200 > Gerlof Langeveld <gerlof@ATComputing.nl> wrote: > > > > > From: Gerlof Langeveld <gerlof@atcomputing.nl> > > You sent three different patches, all with the same title. Please don't do > that - choose unique, suitable and meaningful titles for each patch.
Sorry for that (I assumed the same title would correlate the three patches).
> > Proper performance analysis requires the availability of system level > > and process level counters for CPU, memory, disk and network utilization. > > The current kernel offers the system level counters, however process level > > counters are only (sufficiently) available for CPU and memory utilization. > > > > The kernel feature "task I/O accounting" currently maintains > > per process counters for the number of bytes transferred to/from disk. > > These counters are available via /proc/pid/io. It is still not possible > > to find out which process issues the physical disk transfer. Besides, > > not *all* disk transfers are accounted to processes (e.g. swap-transfers > > by kswapd, journaling transfers). > > > > This patch extends "task I/O accounting" by counting real *physical* > > disk transfers per process and by counting IPv4/IPv6 socket transfers > > per process. > > The modified output generated for /proc/pid/io will be as follows: > > > > $ cat /proc/3179/io > > /proc/pid/io is not the primary interface for this sort of accounting - it > was just tossed in there as an afterthought because it wasy easy. > > This sort of accounting should be delivered across taskstats and > Documentation/accounting/getdelays.c should be suitably updated.
I must dive into the taskstats feature first, so I will deliver a new patch later on.
> > --- linux-2.6.24.4-vanilla/block/ll_rw_blk.c 2008-03-24 19:49:18.000000000 +0100 > > +++ linux-2.6.24.4-modified/block/ll_rw_blk.c 2008-03-25 13:52:14.000000000 +0100 > > @@ -2739,6 +2739,19 @@ static void drive_stat_acct(struct reque > > disk_round_stats(rq->rq_disk); > > rq->rq_disk->in_flight++; > > } > > + > > +#ifdef CONFIG_TASK_IO_ACCOUNTING > > + switch (rw) { > > + case READ: > > + current->group_leader->ioac.dsk_rio += new_io; > > + current->group_leader->ioac.dsk_rsz += rq->nr_sectors; > > + break; > > + case WRITE: > > + current->group_leader->ioac.dsk_wio += new_io; > > + current->group_leader->ioac.dsk_wsz += rq->nr_sectors; > > + break; > > + } > > +#endif > > For many workloads, this will cause almost all writeout to be accounted to > pdflush and perhaps kswapd. This makes the per-task write accounting > largely unuseful.
There are several situations that writeouts are accounted to the user-process itself, e.g. when issueing direct writes (open mode O_DIRECT) or synchronous writes (open mode O_SYNC, syscall sync/fsync, synchronous file attribute, synchronous mounted filesystem).
Apart from that, swapping out of process pages by kswapd is currently not accounted at all as shown by the following snapshot of 'atop' on a heavily swapping system:
ATOP - atdts 2008/04/07 19:01:24 10 seconds elapsed ...... MEM | tot 1.9G | free 14.1M | cache 11.0M | buff 0.6M | slab 22.4M | SWP | tot 1.0G | free 513.6M | | vmcom 2.3G | vmlim 2.0G | PAG | scan 9865 | stall 0 | | swin 4337 | swout 4718 | DSK | sda | busy 100% | read 1499 | write 1949 | avio 2 ms |
PID SYSCPU USRCPU VGROW RGROW RDDSK WRDSK ST EXC S DSK CMD 1/1 13795 0.04s 0.01s 0K -3504K 12200K 0K -- - D 71% memeater 27823 0.04s 0.00s 0K -360K 5080K 0K -- - D 29% appl 13791 0.00s 0.24s 0K 0K 0K 0K -- - S 0% memeater 13793 0.00s 0.24s 0K 0K 0K 0K -- - S 0% memeater 13792 0.00s 0.23s 0K -4K 0K 0K -- - S 0% memeater 13851 0.03s 0.00s 0K 0K 0K 0K -- - S 0% atop 236 0.03s 0.00s 0K 0K 0K 0K -- - D 0% kswapd0
The process counters RDDSK and WRDSK are retrieved from the standard /proc/pid/io. There are no write-request accounted to any of the processes while 1949 write requests have been issued on disk (line marked with DSK). These writes should have been accounted to kswapd (writing to the swap device).
With the additional counters maintained by this patch, every physical I/O request is accounted to one of the processes which can be very useful as an addition to the I/O accounting that is already implemented. A snapshot of 'atop' on a swapping system that is patched:
ATOP - atdts 2008/04/07 19:01:17 10 seconds elapsed ...... MEM | tot 1.9G | free 13.8M | cache 11.0M | buff 0.6M | slab 22.4M | SWP | tot 1.0G | free 513.4M | | vmcom 2.3G | vmlim 2.0G | PAG | scan 8021 | stall 0 | | swin 3923 | swout 3367 | DSK | sda | busy 100% | read 1578 | write 1304 | avio 3 ms |
PID SYSCPU USRCPU VGROW RGROW RDDSK WRDSK RNET SNET S DSK CMD 1/1 27823 0.05s 0.00s 0K 1796K 1072 55 0 0 D 39% appl 236 0.02s 0.00s 0K 0K 0 988 0 0 D 34% kswapd0 13795 0.04s 0.00s 0K -3824K 491 258 0 0 D 26% memeater 2017 0.01s 0.00s 0K 0K 0 28 0 0 S 1% kjournald 3218 0.00s 0.00s 0K 4K 6 0 0 0 S 0% sendmail
The process counters RDDSK and WRDSK now show the number of read and write requests issued on disk for each process. The accumulated counters per process correspond to the total number of requests measured on disk level (line marked with DSK).
For read accounting it also useful to see the number of I/O requests issued by a process (currently only the total number of Kbytes is accounted per process). After all, 64 I/O requests of 4 Kbytes cause a heavier disk load than 1 I/O request of 256 Kbytes.
So the extra counters can be considered as a useful addition to the I/O counters that are currently maintained.
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