tests/kernel/threads/thread_apis/src/test_threads_spawn.c - third_party/github/zephyrproject-rtos/zephyr - Git at Google

 /*
  * Copyright (c) 2016 Intel Corporation
  *
  * SPDX-License-Identifier: Apache-2.0
  */


 #include <zephyr/ztest.h>

 #include "tests_thread_apis.h"

 static ZTEST_BMEM char tp1[8];
 static ZTEST_DMEM int tp2 = 100;
 static ZTEST_BMEM struct k_sema *tp3;
 static ZTEST_BMEM int spawn_prio;

 static void thread_entry_params(void *p1, void *p2, void *p3)
 {
 	/* checkpoint: check parameter 1, 2, 3 */
 	zassert_equal(p1, tp1);
 	zassert_equal(POINTER_TO_INT(p2), tp2);
 	zassert_equal(p3, tp3);
 }

 static void thread_entry_priority(void *p1, void *p2, void *p3)
 {
 	/* checkpoint: check priority */
 	zassert_equal(k_thread_priority_get(k_current_get()), spawn_prio);
 }

 static void thread_entry_delay(void *p1, void *p2, void *p3)
 {
 	tp2 = 100;
 }

 /* test cases */

 /**
  * @ingroup kernel_thread_tests
  * @brief Check the parameters passed to thread entry function
  *
  * @details Create an user thread and pass 2 variables and a
  * semaphore to a thread entry function. Check for the correctness
  * of the parameters passed.
  *
  * @see k_thread_create()
  */
 ZTEST_USER(threads_lifecycle, test_threads_spawn_params)
 {
 	k_thread_create(&tdata, tstack, STACK_SIZE, thread_entry_params,
 			tp1, INT_TO_POINTER(tp2), tp3, 0,
 			K_USER, K_NO_WAIT);
 	k_msleep(100);
 }

 /**
  * @ingroup kernel_thread_tests
  * @brief Spawn thread with higher priority
  *
  * @details Create an user thread with priority greater than
  * current thread and check its behavior.
  *
  * @see k_thread_create()
  */
 ZTEST(threads_lifecycle, test_threads_spawn_priority)
 {
 	/* spawn thread with higher priority */
 	spawn_prio = k_thread_priority_get(k_current_get()) - 1;
 	k_thread_create(&tdata, tstack, STACK_SIZE, thread_entry_priority,
 			NULL, NULL, NULL, spawn_prio, K_USER, K_NO_WAIT);
 	k_msleep(100);
 }

 /**
  * @ingroup kernel_thread_tests
  * @brief Spawn thread with a delay
  *
  * @details Create a user thread with delay and check if the
  * thread entry function is executed only after the timeout occurs.
  *
  * @see k_thread_create()
  */
 ZTEST_USER(threads_lifecycle, test_threads_spawn_delay)
 {
 	/* spawn thread with higher priority */
 	tp2 = 10;
 	k_thread_create(&tdata, tstack, STACK_SIZE, thread_entry_delay,
 			NULL, NULL, NULL, 0, K_USER, K_MSEC(120));
 	/* 100 < 120 ensure spawn thread not start */
 	k_msleep(100);
 	/* checkpoint: check spawn thread not execute */
 	zassert_true(tp2 == 10);
 	/* checkpoint: check spawn thread executed */
 	k_msleep(100);
 	zassert_true(tp2 == 100);
 }

 /**
  * @ingroup kernel_thread_tests
  * @brief Spawn thread with forever delay and highest priority
  *
  * @details Create an user thread with forever delay and yield
  * the current thread. Even though the current thread has yielded,
  * the thread will not be put in ready queue since it has forever delay,
  * the thread is explicitly started using k_thread_start() and checked
  * if thread has started executing.
  *
  * @see k_thread_create()
  */
 ZTEST(threads_lifecycle, test_threads_spawn_forever)
 {
 	/* spawn thread with highest priority. It will run immediately once
 	 * started.
 	 */
 	tp2 = 10;
 	k_tid_t tid = k_thread_create(&tdata, tstack, STACK_SIZE,
 				      thread_entry_delay, NULL, NULL, NULL,
 				      K_HIGHEST_THREAD_PRIO,
 				      K_USER, K_FOREVER);
 	k_yield();
 	/* checkpoint: check spawn thread not execute */
 	zassert_true(tp2 == 10);
 	/* checkpoint: check spawn thread executed */
 	k_thread_start(tid);
 	k_yield();
 	zassert_true(tp2 == 100);
 	k_thread_abort(tid);
 }

 /**
  * @ingroup kernel_thread_tests
  * @brief Validate behavior of multiple calls to k_thread_start()
  *
  * @details Call k_thread_start() on an already terminated thread
  *
  * @see k_thread_start()
  */
 ZTEST(threads_lifecycle, test_thread_start)
 {
 	tp2 = 5;

 	k_tid_t tid = k_thread_create(&tdata, tstack, STACK_SIZE,
 				      thread_entry_delay, NULL, NULL, NULL,
 				      K_HIGHEST_THREAD_PRIO,
 				      K_USER, K_FOREVER);

 	k_thread_start(tid);
 	k_yield();
 	zassert_true(tp2 == 100);

 	/* checkpoint: k_thread_start() should not start the
 	 * terminated thread
 	 */

 	tp2 = 50;
 	k_thread_start(tid);
 	k_yield();
 	zassert_false(tp2 == 100);
 }

 static void user_start_thread(void *p1, void *p2, void *p3)
 {
 	*(int *)p1 = 100;
 }
 ZTEST_USER(threads_lifecycle, test_thread_start_user)
 {
 	tp2 = 5;

 	k_tid_t tid = k_thread_create(&tdata, tstack, STACK_SIZE,
 				      user_start_thread, &tp2, NULL, NULL,
 				      0,
 				      K_USER, K_FOREVER);

 	k_thread_start(tid);
 	k_msleep(100);
 	zassert_true(tp2 == 100);
 	k_thread_abort(tid);
 }
	/*
	* Copyright (c) 2016 Intel Corporation
	*
	* SPDX-License-Identifier: Apache-2.0
	*/


	#include <zephyr/ztest.h>

	#include "tests_thread_apis.h"

	static ZTEST_BMEM char tp1[8];
	static ZTEST_DMEM int tp2 = 100;
	static ZTEST_BMEM struct k_sema *tp3;
	static ZTEST_BMEM int spawn_prio;

	static void thread_entry_params(void p1, void p2, void *p3)
	{
	/* checkpoint: check parameter 1, 2, 3 */
	zassert_equal(p1, tp1);
	zassert_equal(POINTER_TO_INT(p2), tp2);
	zassert_equal(p3, tp3);
	}

	static void thread_entry_priority(void p1, void p2, void *p3)
	{
	/* checkpoint: check priority */
	zassert_equal(k_thread_priority_get(k_current_get()), spawn_prio);
	}

	static void thread_entry_delay(void p1, void p2, void *p3)
	{
	tp2 = 100;
	}

	/* test cases */

	/**
	* @ingroup kernel_thread_tests
	* @brief Check the parameters passed to thread entry function
	*
	* @details Create an user thread and pass 2 variables and a
	* semaphore to a thread entry function. Check for the correctness
	* of the parameters passed.
	*
	* @see k_thread_create()
	*/
	ZTEST_USER(threads_lifecycle, test_threads_spawn_params)
	{
	k_thread_create(&tdata, tstack, STACK_SIZE, thread_entry_params,
	tp1, INT_TO_POINTER(tp2), tp3, 0,
	K_USER, K_NO_WAIT);
	k_msleep(100);
	}

	/**
	* @ingroup kernel_thread_tests
	* @brief Spawn thread with higher priority
	*
	* @details Create an user thread with priority greater than
	* current thread and check its behavior.
	*
	* @see k_thread_create()
	*/
	ZTEST(threads_lifecycle, test_threads_spawn_priority)
	{
	/* spawn thread with higher priority */
	spawn_prio = k_thread_priority_get(k_current_get()) - 1;
	k_thread_create(&tdata, tstack, STACK_SIZE, thread_entry_priority,
	NULL, NULL, NULL, spawn_prio, K_USER, K_NO_WAIT);
	k_msleep(100);
	}

	/**
	* @ingroup kernel_thread_tests
	* @brief Spawn thread with a delay
	*
	* @details Create a user thread with delay and check if the
	* thread entry function is executed only after the timeout occurs.
	*
	* @see k_thread_create()
	*/
	ZTEST_USER(threads_lifecycle, test_threads_spawn_delay)
	{
	/* spawn thread with higher priority */
	tp2 = 10;
	k_thread_create(&tdata, tstack, STACK_SIZE, thread_entry_delay,
	NULL, NULL, NULL, 0, K_USER, K_MSEC(120));
	/* 100 < 120 ensure spawn thread not start */
	k_msleep(100);
	/* checkpoint: check spawn thread not execute */
	zassert_true(tp2 == 10);
	/* checkpoint: check spawn thread executed */
	k_msleep(100);
	zassert_true(tp2 == 100);
	}

	/**
	* @ingroup kernel_thread_tests
	* @brief Spawn thread with forever delay and highest priority
	*
	* @details Create an user thread with forever delay and yield
	* the current thread. Even though the current thread has yielded,
	* the thread will not be put in ready queue since it has forever delay,
	* the thread is explicitly started using k_thread_start() and checked
	* if thread has started executing.
	*
	* @see k_thread_create()
	*/
	ZTEST(threads_lifecycle, test_threads_spawn_forever)
	{
	/* spawn thread with highest priority. It will run immediately once
	* started.
	*/
	tp2 = 10;
	k_tid_t tid = k_thread_create(&tdata, tstack, STACK_SIZE,
	thread_entry_delay, NULL, NULL, NULL,
	K_HIGHEST_THREAD_PRIO,
	K_USER, K_FOREVER);
	k_yield();
	/* checkpoint: check spawn thread not execute */
	zassert_true(tp2 == 10);
	/* checkpoint: check spawn thread executed */
	k_thread_start(tid);
	k_yield();
	zassert_true(tp2 == 100);
	k_thread_abort(tid);
	}

	/**
	* @ingroup kernel_thread_tests
	* @brief Validate behavior of multiple calls to k_thread_start()
	*
	* @details Call k_thread_start() on an already terminated thread
	*
	* @see k_thread_start()
	*/
	ZTEST(threads_lifecycle, test_thread_start)
	{
	tp2 = 5;

	k_tid_t tid = k_thread_create(&tdata, tstack, STACK_SIZE,
	thread_entry_delay, NULL, NULL, NULL,
	K_HIGHEST_THREAD_PRIO,
	K_USER, K_FOREVER);

	k_thread_start(tid);
	k_yield();
	zassert_true(tp2 == 100);

	/* checkpoint: k_thread_start() should not start the
	* terminated thread
	*/

	tp2 = 50;
	k_thread_start(tid);
	k_yield();
	zassert_false(tp2 == 100);
	}

	static void user_start_thread(void p1, void p2, void *p3)
	{
	(int )p1 = 100;
	}
	ZTEST_USER(threads_lifecycle, test_thread_start_user)
	{
	tp2 = 5;

	k_tid_t tid = k_thread_create(&tdata, tstack, STACK_SIZE,
	user_start_thread, &tp2, NULL, NULL,
	0,
	K_USER, K_FOREVER);

	k_thread_start(tid);
	k_msleep(100);
	zassert_true(tp2 == 100);
	k_thread_abort(tid);
	}