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authorIngo Molnar <mingo@elte.hu>2008-05-08 05:53:48 -0400
committerIngo Molnar <mingo@elte.hu>2008-05-08 11:00:42 -0400
commitbf726eab3711cf192405d21688a4b21e07b6188a (patch)
tree5450be096ade3a66edee8858fd492ff55e20e4f8 /README
parent3de2403e6659d71b36ec820dc9b942762ddfe6eb (diff)
semaphore: fix
Yanmin Zhang reported: | Comparing with kernel 2.6.25, AIM7 (use tmpfs) has more th | regression under 2.6.26-rc1 on my 8-core stoakley, 16-core tigerton, | and Itanium Montecito. Bisect located the patch below: | | 64ac24e738823161693bf791f87adc802cf529ff is first bad commit | commit 64ac24e738823161693bf791f87adc802cf529ff | Author: Matthew Wilcox <matthew@wil.cx> | Date: Fri Mar 7 21:55:58 2008 -0500 | | Generic semaphore implementation | | After I manually reverted the patch against 2.6.26-rc1 while fixing | lots of conflicts/errors, aim7 regression became less than 2%. i reproduced the AIM7 workload and can confirm Yanmin's findings that -.26-rc1 regresses over .25 - by over 67% here. Looking at the workload i found and fixed what i believe to be the real bug causing the AIM7 regression: it was inefficient wakeup / scheduling / locking behavior of the new generic semaphore code, causing suboptimal performance. The problem comes from the following code. The new semaphore code does this on down(): spin_lock_irqsave(&sem->lock, flags); if (likely(sem->count > 0)) sem->count--; else __down(sem); spin_unlock_irqrestore(&sem->lock, flags); and this on up(): spin_lock_irqsave(&sem->lock, flags); if (likely(list_empty(&sem->wait_list))) sem->count++; else __up(sem); spin_unlock_irqrestore(&sem->lock, flags); where __up() does: list_del(&waiter->list); waiter->up = 1; wake_up_process(waiter->task); and where __down() does this in essence: list_add_tail(&waiter.list, &sem->wait_list); waiter.task = task; waiter.up = 0; for (;;) { [...] spin_unlock_irq(&sem->lock); timeout = schedule_timeout(timeout); spin_lock_irq(&sem->lock); if (waiter.up) return 0; } the fastpath looks good and obvious, but note the following property of the contended path: if there's a task on the ->wait_list, the up() of the current owner will "pass over" ownership to that waiting task, in a wake-one manner, via the waiter->up flag and by removing the waiter from the wait list. That is all and fine in principle, but as implemented in kernel/semaphore.c it also creates a nasty, hidden source of contention! The contention comes from the following property of the new semaphore code: the new owner owns the semaphore exclusively, even if it is not running yet. So if the old owner, even if just a few instructions later, does a down() [lock_kernel()] again, it will be blocked and will have to wait on the new owner to eventually be scheduled (possibly on another CPU)! Or if another task gets to lock_kernel() sooner than the "new owner" scheduled, it will be blocked unnecessarily and for a very long time when there are 2000 tasks running. I.e. the implementation of the new semaphores code does wake-one and lock ownership in a very restrictive way - it does not allow opportunistic re-locking of the lock at all and keeps the scheduler from picking task order intelligently. This kind of scheduling, with 2000 AIM7 processes running, creates awful cross-scheduling between those 2000 tasks, causes reduced parallelism, a throttled runqueue length and a lot of idle time. With increasing number of CPUs it causes an exponentially worse behavior in AIM7, as the chance for a newly woken new-owner task to actually run anytime soon is less and less likely. Note that it takes just a tiny bit of contention for the 'new-semaphore catastrophy' to happen: the wakeup latencies get added to whatever small contention there is, and quickly snowball out of control! I believe Yanmin's findings and numbers support this analysis too. The best fix for this problem is to use the same scheduling logic that the kernel/mutex.c code uses: keep the wake-one behavior (that is OK and wanted because we do not want to over-schedule), but also allow opportunistic locking of the lock even if a wakee is already "in flight". The patch below implements this new logic. With this patch applied the AIM7 regression is largely fixed on my quad testbox: # v2.6.25 vanilla: .................. Tasks Jobs/Min JTI Real CPU Jobs/sec/task 2000 56096.4 91 207.5 789.7 0.4675 2000 55894.4 94 208.2 792.7 0.4658 # v2.6.26-rc1-166-gc0a1811 vanilla: ................................... Tasks Jobs/Min JTI Real CPU Jobs/sec/task 2000 33230.6 83 350.3 784.5 0.2769 2000 31778.1 86 366.3 783.6 0.2648 # v2.6.26-rc1-166-gc0a1811 + semaphore-speedup: ............................................... Tasks Jobs/Min JTI Real CPU Jobs/sec/task 2000 55707.1 92 209.0 795.6 0.4642 2000 55704.4 96 209.0 796.0 0.4642 i.e. a 67% speedup. We are now back to within 1% of the v2.6.25 performance levels and have zero idle time during the test, as expected. Btw., interactivity also improved dramatically with the fix - for example console-switching became almost instantaneous during this workload (which after all is running 2000 tasks at once!), without the patch it was stuck for a minute at times. There's another nice side-effect of this speedup patch, the new generic semaphore code got even smaller: text data bss dec hex filename 1241 0 0 1241 4d9 semaphore.o.before 1207 0 0 1207 4b7 semaphore.o.after (because the waiter.up complication got removed.) Longer-term we should look into using the mutex code for the generic semaphore code as well - but i's not easy due to legacies and it's outside of the scope of v2.6.26 and outside the scope of this patch as well. Bisected-by: "Zhang, Yanmin" <yanmin_zhang@linux.intel.com> Signed-off-by: Ingo Molnar <mingo@elte.hu>
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