On Tue, Dec 26, 2006 at 04:51:21PM -0800, Chen, Tim C wrote:
> Ingo Molnar wrote:
> > If you'd like to profile this yourself then the lowest-cost way of
> > profiling lock contention on -rt is to use the yum kernel and run the
> > attached trace-it-lock-prof.c code on the box while your workload is
> > in 'steady state' (and is showing those extended idle times):
> >
> > ./trace-it-lock-prof > trace.txt
>
> Thanks for the pointer. Will let you know of any relevant traces.
Tim,
http://mmlinux.sourceforge.net/public/patch-2.6.20-rc2-rt2.lock_stat.patch
You can also apply this patch to get more precise statistics down to
the lock. For example:
...
[50, 30, 279 :: 1, 0] {tty_ldisc_try, -, 0}
[5, 5, 0 :: 19, 0] {alloc_super, fs/super.c, 76}
[5, 5, 3 :: 1, 0] {__free_pages_ok, -, 0}
[5728, 862, 156 :: 2, 0] {journal_init_common, fs/jbd/journal.c, 667}
[594713, 79020, 4287 :: 60818, 0] {inode_init_once, fs/inode.c, 193}
[602, 0, 0 :: 1, 0] {lru_cache_add_active, -, 0}
[63, 5, 59 :: 1, 0] {lookup_mnt, -, 0}
[6425, 378, 103 :: 24, 0] {initialize_tty_struct, drivers/char/tty_io.c, 3530}
[6708, 1, 225 :: 1, 0] {file_move, -, 0}
[67, 8, 15 :: 1, 0] {do_lookup, -, 0}
[69, 0, 0 :: 1, 0] {exit_mmap, -, 0}
[7, 0, 0 :: 1, 0] {uart_set_options, drivers/serial/serial_core.c, 1876}
[76, 0, 0 :: 1, 0] {get_zone_pcp, -, 0}
[7777, 5, 9 :: 1, 0] {as_work_handler, -, 0}
[8689, 0, 0 :: 15, 0] {create_workqueue_thread, kernel/workqueue.c, 474}
[89, 7, 6 :: 195, 0] {sighand_ctor, kernel/fork.c, 1474}
@contention events = 1791177
@found = 21
Is the output from /proc/lock_stat/contention. First column is the number
of contention that will results in a full block of the task, second is the
number of times the mutex owner is active on a per cpu run queue the
scheduler and third is the number of times Steve Rostedt's ownership handoff
code averted a full block. Peter Zijlstra used it initially during his
files_lock work.
Overhead of the patch is very low since it is only recording stuff in the
slow path of the rt-mutex implementation.
Writing to that file clears all of the stats for a fresh run with a
benchmark. This should give a precise point at which any contention would
happen in -rt. In general, -rt should do about as well as the stock kernel
minus the overhead of interrupt threads.
Since the last release, I've added checks for whether the task is running
as "current" on a run queue to see if adaptive spins would be useful in -rt.
These new stats show that only a small percentage of events would benefit
from the use of adaptive spins in front of a rt- mutex. Any implementation
of it would have little impact on the system. It's not the mechanism but
the raw MP work itself that contributes to the good MP performance of Linux.
Apply and have fun.
bill
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