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zephyr/tests/kernel/context
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Andy Ross 32bb2395c2 timeout: Fix up API usage 
Kernel timeouts have always been a 32 bit integer despite the
existence of generation macros, and existing code has been
inconsistent about using them.  Upcoming commits are going to make the
timeout arguments opaque, so fix things up to be rigorously correct.
Changes include:

+ Adding a K_TIMEOUT_EQ() macro for code that needs to compare timeout
  values for equality (e.g. with K_FOREVER or K_NO_WAIT).

+ Adding a k_msleep() synonym for k_sleep() which can continue to take
  integral arguments as k_sleep() moves away to timeout arguments.

+ Pervasively using the K_MSEC(), K_SECONDS(), et. al. macros to
  generate timeout arguments.

+ Removing the usage of K_NO_WAIT as the final argument to
  K_THREAD_DEFINE().  This is just a count of milliseconds and we need
  to use a zero.

This patch include no logic changes and should not affect generated
code at all.

Signed-off-by: Andy Ross <andrew.j.ross@intel.com>
2020-03-31 19:40:47 -04:00
..
src timeout: Fix up API usage 2020-03-31 19:40:47 -04:00
CMakeLists.txt cmake: use find_package to locate Zephyr 2020-03-27 16:23:46 +01:00
prj.conf tests: Never disable SMP 2019-09-26 16:54:06 -04:00
README.txt tests: kernel: context: in README, fix text for k_cpu_idle testing 2020-03-23 12:10:46 -07:00
testcase.yaml test: kernel: context: Exclude for qemu_cortex_r5 (temporary) 2020-03-21 14:20:17 -04:00

README.txt 

Title: Context and IRQ APIs

Description:

This test verifies that the kernel CPU and context APIs operate as expected.


APIs tested in this test set
============================

k_thread_create
  - start a helper thread to help with k_yield() tests
  - start a thread to test thread related functionality

k_yield
  - Called by a higher priority thread when there is another thread
  - Called by an equal priority thread when there is another thread
  - Called by a lower priority thread when there is another thread

k_current_get
  - Called from an ISR (interrupted a task)
  - Called from an ISR (interrupted a thread)
  - Called from a task
  - Called from a thread

k_is_in_isr
  - Called from an ISR that interrupted a task
  - Called from an ISR that interrupted a thread
  - Called from a task
  - Called from a thread

k_cpu_idle
  - Tickless Kernel: CPU to be woken up by a kernel timer (k_timer)
  - Non-tickless kernel:
    CPU to be woken up by tick timer.  Thus, after each call, the tick count
    should have advanced by one tick.

irq_lock
  - 1. Count the number of calls to _tick_get_32() before a tick expires.
  - 2. Once determined, call _tick_get_32() many more times than that
       with interrupts locked.  Check that the tick count remains unchanged.

irq_unlock
  - Continuation irq_lock: unlock interrupts, loop and verify the tick
    count changes.

irq_offload
  - Used when triggering an ISR to perform ISR context work.

irq_enable
irq_disable
  - Use these routines to disable and enable timer interrupts so that they can
    be tested in the same way as irq_lock() and irq_unlock().

---------------------------------------------------------------------------

Building and Running Project:

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

    make run

---------------------------------------------------------------------------

Troubleshooting:

Problems caused by out-dated project information can be addressed by
issuing one of the following commands then rebuilding the project:

    make clean          # discard results of previous builds
                        # but keep existing configuration info
or
    make pristine       # discard results of previous builds
                        # and restore pre-defined configuration info

---------------------------------------------------------------------------

Sample Output:

tc_start() - Test kernel CPU and thread routines
Initializing kernel objects
Testing k_cpu_idle()
Testing interrupt locking and unlocking
Testing irq_disable() and irq_enable()
Testing some kernel context routines
Testing k_current_get() from an ISR and task
Testing k_is_in_isr() from an ISR
Testing k_is_in_isr() from a preemtible thread
Spawning a thread from a task
Thread to test k_current_get() and k_is_in_isr()
Thread to test k_yield()
Testing k_busy_wait()
Thread busy waiting for 20000 usecs
Thread busy waiting completed
Testing k_sleep()
 thread sleeping for 50 milliseconds
 thread back from sleep
Testing k_thread_create() without cancellation
 thread (q order: 2, t/o: 500) is running
 got thread (q order: 2, t/o: 500) as expected
 thread (q order: 3, t/o: 750) is running
 got thread (q order: 3, t/o: 750) as expected
 thread (q order: 0, t/o: 1000) is running
 got thread (q order: 0, t/o: 1000) as expected
 thread (q order: 6, t/o: 1250) is running
 got thread (q order: 6, t/o: 1250) as expected
 thread (q order: 1, t/o: 1500) is running
 got thread (q order: 1, t/o: 1500) as expected
 thread (q order: 4, t/o: 1750) is running
 got thread (q order: 4, t/o: 1750) as expected
 thread (q order: 5, t/o: 2000) is running
 got thread (q order: 5, t/o: 2000) as expected
Testing k_thread_create() with cancellations
 cancelling [q order: 0, t/o: 1000, t/o order: 0]
 thread (q order: 3, t/o: 750) is running
 got (q order: 3, t/o: 750, t/o order 1) as expected
 thread (q order: 0, t/o: 1000) is running
 got (q order: 0, t/o: 1000, t/o order 2) as expected
 cancelling [q order: 3, t/o: 750, t/o order: 3]
 cancelling [q order: 4, t/o: 1750, t/o order: 4]
 thread (q order: 4, t/o: 1750) is running
 got (q order: 4, t/o: 1750, t/o order 5) as expected
 cancelling [q order: 6, t/o: 1250, t/o order: 6]
PASS - main.
===================================================================
PROJECT EXECUTION SUCCESSFUL