zephyr/samples/portability/cmsis_rtos_v1/philosophers
Carlo Caione 25769e3fff samples: cmsis_rtos_v1: Grow stack size to the maximum allowed
Some architectures require more space on the stack when running samples
and tests while the philosopher test (cmsis_rtos_v1) is still using a
fixed-size stack size.

Since the test is going to use CMSIS v1 we cannot directly use
CONFIG_TEST_EXTRA_STACKSIZE to grow the stack size because the extra
space allocated can excess the maximum size allowed by CMSIS and defined
by CONFIG_CMSIS_THREAD_MAX_STACK_SIZE, causing the sample to halt on the
assertion (thread_def->stacksize <= CONFIG_CMSIS_THREAD_MAX_STACK_SIZE).

To avoid this problem (and align the test to what has been already done
on the philosopher test using CMSISv2) we set the stack size to the
maximum allowed size of CONFIG_CMSIS_THREAD_MAX_STACK_SIZE.

Signed-off-by: Carlo Caione <ccaione@baylibre.com>
2020-01-20 18:33:34 -05:00
..
src samples: cmsis_rtos_v1: Grow stack size to the maximum allowed 2020-01-20 18:33:34 -05:00
CMakeLists.txt
README.rst
prj.conf
sample.yaml

README.rst

.. _cmsis_rtos_v1-sample:

Dining Philosophers (CMSI RTOS V1 APIs)
#######################################

Overview
********
This sample implements a solution to the `Dining Philosophers problem
<https://en.wikipedia.org/wiki/Dining_philosophers_problem>`_ (a classic
multi-thread synchronization problem) using CMSIS RTOS V1 APIs.  This particular
implementation demonstrates the usage of multiple preemptible and cooperative
threads of differing priorities, as well as mutex/semaphore and thread sleeping
which uses CMSIS RTOS V1 API implementation in Zephyr.

The philosopher always tries to get the lowest fork first (f1 then f2).  When
done, he will give back the forks in the reverse order (f2 then f1).  If he
gets two forks, he is EATING.  Otherwise, he is THINKING. Transitional states
are shown as well, such as STARVING when the philosopher is hungry but the
forks are not available, and HOLDING ONE FORK when a philosopher is waiting
for the second fork to be available.

Each Philosopher will randomly alternate between the EATING and THINKING state.


Building and Running
********************

This project outputs to the console.  It can be built and executed
on QEMU as follows:

.. zephyr-app-commands::
   :zephyr-app: samples/philosophers
   :host-os: unix
   :board: qemu_x86
   :goals: run
   :compact:

Sample Output
=============

.. code-block:: console

    Philosopher 0 [C:-2]  THINKING [  500 ms ]
    Philosopher 1 [C:-1]  THINKING [  375 ms ]
    Philosopher 2 [P: 0]  THINKING [  575 ms ]
    Philosopher 3 [P: 1]   EATING  [  525 ms ]
    Philosopher 4 [P: 2]  THINKING [  800 ms ]
    Philosopher 5 [P: 3]   EATING  [  625 ms ]

    Demo Description
    ----------------
    An implementation of a solution to the Dining Philosophers
    problem (a classic multi-thread synchronization problem) using
    CMSIS RTOS V1 APIs. This particular implementation demonstrates the
    usage of multiple preemptible threads of differing
    priorities, as well as semaphores and thread sleeping.

Exit QEMU by pressing :kbd:`CTRL+A` :kbd:`x`.