Daniel,
On Sun, Jun 15, 2014 at 2:18 PM, Daniel Lezcano
<daniel.lezcano@xxxxxxxxxx> wrote:
On 06/04/2014 07:30 PM, Doug Anderson wrote:
In (93bfb76 clocksource: exynos_mct: register sched_clock callback) we
supported using the MCT as a scheduler clock. We properly marked
exynos4_read_sched_clock() as notrace. However, we then went and
called another function that _wasn't_ notrace. That means if you do:
cd /sys/kernel/debug/tracing/
echo function_graph > current_tracer
You'll get a crash.
Fix this (but still let other readers of the MCT be trace-enabled) by
adding an extra function. It's important to keep other users of MCT
traceable because the MCT is actually quite slow.
Hi Doug,
could you elaborate ? I don't get the 'because the MCT ... slow'
Sorry, I was trying to avoid duplication in the series and it's more
obvious when you look at parts 2 and 3 of the series. ;)
Doing the math (please correct any miscalculations) using the numbers
from the other patches: You can see that the existing code takes
1323852 us for 1000000 gettimeofday in userspace. The fastest
implementation (just shaving to a 32-bit timer) gets us as fast as
~1000000 us for 1000000 gettimeofday in userspace.
From profiling, I believe that gettimeofday from userspace is about
50% overhead (system call, multiplication, copies, etc) and about 50%
MCT read. That means that the fastest you can possibly do an MCT read
is in .5us or 500ns.
I believe an A15 has something like 1 or 2 cycles per instruction. If
it were 2 cycles per instruction, it can execute a normal instruction
on a 2GHz machine in .5ns. That means we can execute 1000 normal
instructions in the time it takes to do a since MCT access.
...so I guess that's what I'd call slow. ;) What do you think? I
know that the MCT read shows up in whole system profiles of
gettimeofday.