Commit Graph

8 Commits

Author SHA1 Message Date
Steven Rostedt
d988ff94c1 ring-buffer: check for divide by zero in ring-buffer-benchmark
Although we check if "missed" is not zero, we divide by hit + missed,
and the addition can possible overflow and become a divide by zero.

This patch checks for this case, and will report it when it happens
then modify "hit" to make the calculation be non zero.

[ Impact: prevent possible divide by zero in ring-buffer-benchmark ]

Reported-by: Andrew Morton <akpm@linux-foundation.org>
Signed-off-by: Steven Rostedt <rostedt@goodmis.org>
2009-05-11 13:22:26 -04:00
Steven Rostedt
5a772b2b3c ring-buffer: replace constants with time macros in ring-buffer-benchmark
The use of numeric constants is discouraged. It is cleaner and more
descriptive to use macros for constant time conversions.

This patch also removes an extra new line.

[ Impact: more descriptive time conversions ]

Reported-by: Andrew Morton <akpm@linux-foundation.org>
Signed-off-by: Steven Rostedt <rostedt@goodmis.org>
2009-05-11 13:22:26 -04:00
Steven Rostedt
7da3046d6c ring-buffer: add total count in ring-buffer-benchmark
It is nice to see the overhead of the benchmark test when tracing is
disabled. That is, we turn off the ring buffer just to see what the
cost of running the loop that calls into the ring buffer is.

Currently, if no entries wer made, we get 0. This is not informative.
This patch changes it to check if we had any "missed" (non recorded)
events. If so, a total count is also reported.

[ Impact: evaluate the over head of the ring buffer benchmark test ]

Signed-off-by: Steven Rostedt <rostedt@goodmis.org>
2009-05-07 19:52:20 -04:00
Steven Rostedt
0574ea421b ring-buffer: only periodically call cond_resched to ring-buffer-benchmark
Calling cond_resched at every iteration of the loop adds a bit of
overhead to the benchmark.

This patch does two things.

1) only calls cond-resched when CONFIG_PREEMPT is not enabled
2) only calls cond-resched after so many traces has been performed.

[ Impact: less overhead to the ring-buffer-benchmark ]

Signed-off-by: Steven Rostedt <rostedt@goodmis.org>
2009-05-07 14:20:28 -04:00
Steven Rostedt
29c8000ee7 ring-buffer: remove complex calculations in ring-buffer-test
Ingo Molnar thought that the code to calculate the time in cond_resched
is a bit too ugly and is not needed. This patch removes it and replaces
it with a simple call to cond_resched. I kept the comment that explains
the reason for the cond_resched.

[ Impact: remove ugly code ]

Reported-by: Ingo Molnar <mingo@elte.hu>
Signed-off-by: Steven Rostedt <rostedt@goodmis.org>
2009-05-07 11:16:18 -04:00
Steven Rostedt
3e07a4f680 ring-buffer: change test to be more latency friendly
The ring buffer benchmark/test runs a producer for 10 seconds.
This is done with preemption and interrupts enabled. But if the kernel
is not compiled with CONFIG_PREEMPT, it basically stops everything
but interrupts for 10 seconds.

Although this is just a test and is not for production, this attribute
can be quite annoying. It can also spawn badness elsewhere.

This patch solves the issues by calling "cond_resched" when the system
is not compiled with CONFIG_PREEMPT. It also keeps track of the time
spent to call cond_resched such that it does not go against the
time calculations. That is, if the task schedules away, the time scheduled
out is removed from the test data. Note, this only works for non PREEMPT
because we do not know when the task is scheduled out if we have PREEMPT
enabled.

[ Impact: prevent test from stopping the world for 10 seconds ]

Signed-off-by: Steven Rostedt <rostedt@goodmis.org>
2009-05-06 18:36:59 -04:00
Steven Rostedt
00c81a58c5 ring-buffer: check for failed allocation in ring buffer benchmark
The result of the allocation of the ring buffer read page in the
ring buffer bench mark does not check the return to see if a page
was actually allocated. This patch fixes that.

[ Impact: avoid NULL dereference ]

Signed-off-by: Steven Rostedt <rostedt@goodmis.org>
2009-05-06 12:49:20 -04:00
Steven Rostedt
5092dbc96f ring-buffer: add benchmark and tester
This patch adds code that can benchmark the ring buffer as well as
test it. This code can be compiled into the kernel (not recommended)
or as a module.

A separate ring buffer is used to not interfer with other users, like
ftrace. It creates a producer and a consumer (option to disable creation
of the consumer) and will run for 10 seconds, then sleep for 10 seconds
and then repeat.

While running, the producer will write 10 byte loads into the ring
buffer with just putting in the current CPU number. The reader will
continually try to read the buffer. The reader will alternate from reading
the buffer via event by event, or by full pages.

The output is a pr_info, thus it will fill up the syslogs.

  Starting ring buffer hammer
  End ring buffer hammer
  Time:     9000349 (usecs)
  Overruns: 12578640
  Read:     5358440  (by events)
  Entries:  0
  Total:    17937080
  Missed:   0
  Hit:      17937080
  Entries per millisec: 1993
  501 ns per entry
  Sleeping for 10 secs
  Starting ring buffer hammer
  End ring buffer hammer
  Time:     9936350 (usecs)
  Overruns: 0
  Read:     28146644  (by pages)
  Entries:  74
  Total:    28146718
  Missed:   0
  Hit:      28146718
  Entries per millisec: 2832
  353 ns per entry
  Sleeping for 10 secs

Time:      is the time the test ran
Overruns:  the number of events that were overwritten and not read
Read:      the number of events read (either by pages or events)
Entries:   the number of entries left in the buffer
                 (the by pages will only read full pages)
Total:     Entries + Read + Overruns
Missed:    the number of entries that failed to write
Hit:       the number of entries that were written

The above example shows that it takes ~353 nanosecs per entry when
there is a reader, reading by pages (and no overruns)

The event by event reader slowed the producer down to 501 nanosecs.

[ Impact: see how changes to the ring buffer affect stability and performance ]

Signed-off-by: Steven Rostedt <rostedt@goodmis.org>
2009-05-06 00:08:50 -04:00