zephyr/tests/kernel/timer/starve
Torsten Rasmussen 407b49b35c cmake: use find_package to locate Zephyr
Using find_package to locate Zephyr.

Old behavior was to use $ENV{ZEPHYR_BASE} for inclusion of boiler plate
code.

Whenever an automatic run of CMake happend by the build system / IDE
then it was required that ZEPHYR_BASE was defined.
Using ZEPHYR_BASE only to locate the Zephyr package allows CMake to
cache the base variable and thus allowing subsequent invocation even
if ZEPHYR_BASE is not set in the environment.

It also removes the risk of strange build results if a user switchs
between different Zephyr based project folders and forgetting to reset
ZEPHYR_BASE before running ninja / make.

Signed-off-by: Torsten Rasmussen <Torsten.Rasmussen@nordicsemi.no>
2020-03-27 16:23:46 +01:00
..
src
CMakeLists.txt cmake: use find_package to locate Zephyr 2020-03-27 16:23:46 +01:00
Kconfig
README.txt
prj.conf
testcase.yaml

README.txt

Title: Timer Starvation test

The purpose of the test is to detect whether the timer implementation
correctly handles situations where only one timeout is present, and that
timeout is repeatedly rescheduled before it has a chance to fire.  In
some implementations this may prevent the timer interrupt handler from
ever being invoked, which in turn prevents an announcement of ticks.
Lack of tick announcement propagates into a monotonic increase in the
value returned by z_clock_elapsed().

This test is not run in automatic test suites because it generally takes
minutes, hours, or days to fail, depending on the hardware clock rate
and the tick rate.  By default the test passes if one hour passes
without detecting a failure.

Failure will occur when some counter wraps around.  This may be a
hardware timer counter, a timer driver internal calculation of
unannounced cycles, or the Zephyr measurement of unannounced ticks.

For example a system that uses a 32768-Hz internal timer counter with
24-bit resolution and determines elapsed time by a 24-bit unsigned
difference between the current and last-recorded counter value will fail
at 512 s when the updated counter value is observed to be less than the
last recorded counter.

Systems that use a 32-bit counter of 80 MHz ticks would fail after
53.687 s.