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SubjectRe: [take22 0/4] kevent: Generic event handling mechanism.
Date
On Thursday 02 November 2006 09:46, Evgeniy Polyakov wrote:

> By poll design we have to setup following data:
> poll_table_struct, which contains a callback
> that callback will be called in each
> sys_poll()->drivers_poll()->poll_wait(),
> callback will allocate new private structure, which must have
> wait_queue_t (it's callback will be invoked each time wake_up() is
> called for given wait_queue_head), which should be linked to the given
> wait_queue_head.

In epoll case, the setup is done at epoll_ctl() time, not for each event
received by the consumer like poll()/select()

As for wake_up() overhead, I feel it's necessary if we want to wakeup a
consumer (tell him some events are availlable)

I suspect benchmark results might depend for a large part on some 'features'
of the scheduler, or the number of events provider and CPU cache size, not on
inherent limitations of epoll.

I changed a litle bit epoll_pipe_bench and we can see effects of scheduling on
the overall rate of events per second.

I can now receive 350.000 events per second, instead of 230.000

Tests done on my laptop : a UP machine (Intel(R) Pentium(R) M processor
1.60GHz) (Dell latitude D610)

# ./epoll_pipe_bench -n 1000 -l 1
1000 pipes setup
223065 evts/sec 1.00563 samples per call
228508 evts/sec 1.00277 samples per call
229076 evts/sec 1.00184 samples per call
227860 evts/sec 1.00191 samples per call
229498 evts/sec 1.00153 samples per call
228027 evts/sec 1.00136 samples per call
229465 evts/sec 1.00122 samples per call
227845 evts/sec 1.00132 samples per call
227456 evts/sec 1.00118 samples per call
228355 evts/sec 1.00113 samples per call

# ./epoll_pipe_bench -n 1000 -l 10
1000 pipes setup
328599 evts/sec 314.75 samples per call
344947 evts/sec 314.447 samples per call
342844 evts/sec 314.185 samples per call
345486 evts/sec 314.013 samples per call
345144 evts/sec 314.079 samples per call
344270 evts/sec 313.989 samples per call
344249 evts/sec 314.004 samples per call
320577 evts/sec 326.967 samples per call
313990 evts/sec 343.926 samples per call
313578 evts/sec 359.034 samples per call

In oprofile, It's not obvious epoll is responsible for cpu costs...

CPU: PIII, speed 1600 MHz (estimated)
Counted CPU_CLK_UNHALTED events (clocks processor is not halted) with a unit
mask of 0x00 (No unit mask) count 50000
samples % symbol name
206966 7.9385 sysenter_past_esp
158337 6.0733 _spin_lock_irqsave
143339 5.4980 pipe_writev
137434 5.2715 fget_light
132293 5.0743 _spin_unlock_irqrestore
109593 4.2036 pipe_readv
102669 3.9380 ep_poll_callback
99801 3.8280 dnotify_parent
99388 3.8122 sys_epoll_wait
98710 3.7862 vfs_write
94560 3.6270 _write_lock_irqsave
91774 3.5201 current_fs_time
90541 3.4728 pipe_poll
89153 3.4196 _spin_lock
85150 3.2661 __wake_up
83213 3.1918 __wake_up_common
72913 2.7967 try_to_wake_up
67996 2.6081 rw_verify_area
64243 2.4641 file_update_time
54211 2.0793 vfs_read


But but but ! If I add more pipes, results are reversed, because CPU cache is
not large enough : It's better to deliver events as fast as possible to
consumer to keep hot caches (but only on UP machine, and because my test prog
is threaded. If it was using two process, context switch would be more
expensive)


# ./epoll_pipe_bench -n 10000 -l 1
10000 pipes setup
171444 evts/sec 1 samples per call
174556 evts/sec 1 samples per call
173976 evts/sec 1 samples per call
174715 evts/sec 1.00003 samples per call
173215 evts/sec 1.00478 samples per call
174930 evts/sec 1.00397 samples per call

# ./epoll_pipe_bench -n 10000 -l 10
10000 pipes setup
149701 evts/sec 759.904 samples per call
153476 evts/sec 767.537 samples per call
149217 evts/sec 767.585 samples per call
152396 evts/sec 763.624 samples per call
153517 evts/sec 762.215 samples per call
148026 evts/sec 763.434 samples per call

CPU: PIII, speed 1600 MHz (estimated)
Counted CPU_CLK_UNHALTED events (clocks processor is not halted) with a unit
mask of 0x00 (No unit mask) count 50000
samples % symbol name
404924 12.4647 pipe_poll
263399 8.1081 pipe_writev
259230 7.9798 rw_verify_area
246368 7.5839 fget_light
242360 7.4605 sys_epoll_wait
174913 5.3843 kmap_atomic
168623 5.1907 __wake_up_common
147661 4.5454 ep_poll_callback
137003 4.2173 pipe_readv
128799 3.9648 _spin_lock_irqsave
100015 3.0787 sysenter_past_esp
74031 2.2789 __copy_to_user_ll
72857 2.2427 file_update_time
69523 2.1401 vfs_write
69444 2.1377 mutex_lock


I also added a -f flag, to bypass epoll completely and measure the
pipe/read/write overhead/performance.

# ./epoll_pipe_bench -n 10000 -f
10000 pipes setup
300230 evts/sec
309770 evts/sec
264426 evts/sec
265842 evts/sec
265551 evts/sec
266814 evts/sec
266551 evts/sec
264415 evts/sec

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