DFI/eigener_ctrl/stm32f407-olimex/chibios/test/nasa_osal/configuration.xml

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<?xml version="1.0" encoding="UTF-8"?>
<SPC5-Config version="1.0.0">
<application name="NASA OSAL Test Suite" version="1.0.0" standalone="true" locked="false">
<description>Test specification for the NASA OSAL ChibiOS extension.</description>
<component id="org.chibios.spc5.components.portable.generic_startup">
<component id="org.chibios.spc5.components.portable.chibios_unitary_tests_engine" />
</component>
<instances>
<instance locked="false" id="org.chibios.spc5.components.portable.generic_startup" />
<instance locked="false" id="org.chibios.spc5.components.portable.chibios_unitary_tests_engine">
<description>
<copyright>
<value><![CDATA[/* Copyright statement.*/]]></value>
</copyright>
<introduction>
<value>Test suite for NASA OSAL implementation over ChibiOS/RT. The purpose of this suite is to perform unit tests on the OSAL module and to converge to 100% code coverage through successive improvements.</value>
</introduction>
</description>
<global_data_and_code>
<global_definitions>
<value><![CDATA[#define TEST_SUITE_NAME "NASA OSAL over ChibiOS/RT Test Suite"
#define TASKS_BASE_PRIORITY 200
#define TASKS_STACK_SIZE 256
extern THD_WORKING_AREA(wa_test1, TASKS_STACK_SIZE);
extern THD_WORKING_AREA(wa_test2, TASKS_STACK_SIZE);
extern THD_WORKING_AREA(wa_test3, TASKS_STACK_SIZE);
extern THD_WORKING_AREA(wa_test4, TASKS_STACK_SIZE);]]></value>
</global_definitions>
<global_code>
<value><![CDATA[THD_WORKING_AREA(wa_test1, TASKS_STACK_SIZE);
THD_WORKING_AREA(wa_test2, TASKS_STACK_SIZE);
THD_WORKING_AREA(wa_test3, TASKS_STACK_SIZE);
THD_WORKING_AREA(wa_test4, TASKS_STACK_SIZE);]]></value>
</global_code>
</global_data_and_code>
<sequences>
<sequence>
<type index="0">
<value>Internal Tests</value>
</type>
<brief>
<value>Tasks Functionality</value>
</brief>
<description>
<value>This sequence tests the NASA OSAL over ChibiOS/RT functionalities related to threading.</value>
</description>
<condition>
<value />
</condition>
<shared_code>
<value><![CDATA[#include "osapi.h"
static void test_task1(void) {
test_emit_token('A');
}
static void test_task2(void) {
test_emit_token('B');
}
static void test_task3(void) {
test_emit_token('C');
}
static void test_task4(void) {
test_emit_token('D');
}
static void delete_handler(void) {
test_emit_token('C');
}
static void test_task_delete(void) {
test_emit_token('A');
(void) OS_TaskInstallDeleteHandler(delete_handler);
while (!OS_TaskDeleteCheck()) {
(void) OS_TaskDelay(1);
}
test_emit_token('B');
}]]></value>
</shared_code>
<cases>
<case>
<brief>
<value>OS_TaskCreate() errors</value>
</brief>
<description>
<value>Parameters checking in OS_TaskCreate() is tested.</value>
</description>
<condition>
<value />
</condition>
<various_code>
<setup_code>
<value />
</setup_code>
<teardown_code>
<value />
</teardown_code>
<local_variables>
<value />
</local_variables>
</various_code>
<steps>
<step>
<description>
<value>OS_TaskCreate() is invoked with task_id set to NULL, an error is expected.</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[int32 err;
err = OS_TaskCreate(NULL, /* Error.*/
"failing task",
test_task1,
(uint32 *)wa_test1,
sizeof wa_test1,
TASKS_BASE_PRIORITY,
0);
test_assert(err == OS_INVALID_POINTER, "NULL not detected");
test_assert_sequence("", "task executed");]]></value>
</code>
</step>
<step>
<description>
<value>OS_TaskCreate() is invoked with task_name set to NULL, an error is expected.</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[int32 err;
uint32 tid;
err = OS_TaskCreate(&tid,
NULL, /* Error.*/
test_task1,
(uint32 *)wa_test1,
sizeof wa_test1,
TASKS_BASE_PRIORITY,
0);
test_assert(err == OS_INVALID_POINTER, "NULL not detected");
test_assert_sequence("", "task executed");]]></value>
</code>
</step>
<step>
<description>
<value>OS_TaskCreate() is invoked with stack_pointer set to NULL, an error is expected.</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[int32 err;
uint32 tid;
err = OS_TaskCreate(&tid,
"failing task",
test_task1,
(uint32 *)NULL, /* Error.*/
sizeof wa_test1,
TASKS_BASE_PRIORITY,
0);
test_assert(err == OS_INVALID_POINTER, "NULL not detected");
test_assert_sequence("", "task executed");]]></value>
</code>
</step>
<step>
<description>
<value>OS_TaskCreate() is invoked with a very long task name, an error is expected.</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[int32 err;
uint32 tid;
err = OS_TaskCreate(&tid,
"this is a very very long task name", /* Error.*/
test_task1,
(uint32 *)wa_test1,
sizeof wa_test1,
TASKS_BASE_PRIORITY,
0);
test_assert(err == OS_ERR_NAME_TOO_LONG, "name limit not detected");
test_assert_sequence("", "task executed");]]></value>
</code>
</step>
<step>
<description>
<value>OS_TaskCreate() is invoked with priority below and above allowed range, an error is expected.</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[int32 err;
uint32 tid;
err = OS_TaskCreate(&tid,
"failing task",
test_task1,
(uint32 *)wa_test1,
sizeof wa_test1,
0, /* Error.*/
0);
test_assert(err == OS_ERR_INVALID_PRIORITY, "priority error not detected");
test_assert_sequence("", "task executed");
err = OS_TaskCreate(&tid,
"failing task",
test_task1,
(uint32 *)wa_test1,
sizeof wa_test1,
256, /* Error.*/
0);
test_assert(err == OS_ERR_INVALID_PRIORITY, "priority error not detected");
test_assert_sequence("", "task executed");]]></value>
</code>
</step>
<step>
<description>
<value>OS_TaskCreate() is invoked with a stack size below minimum, an error is expected.</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[int32 err;
uint32 tid;
err = OS_TaskCreate(&tid,
"failing task",
test_task1,
(uint32 *)wa_test1,
16, /* Error.*/
TASKS_BASE_PRIORITY,
0);
test_assert(err == OS_INVALID_INT_NUM, "stack insufficient size not detected");
test_assert_sequence("", "task executed");]]></value>
</code>
</step>
<step>
<description>
<value>OS_TaskCreate() is invoked twice with duplicated name and then duplicated stack, an error is expected in both cases.</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[int32 err;
uint32 tid;
err = OS_TaskCreate(&tid,
"running task",
test_task1,
(uint32 *)wa_test1,
sizeof wa_test1,
TASKS_BASE_PRIORITY,
0);
test_assert(err == OS_SUCCESS, "task creation failed");
err = OS_TaskCreate(&tid,
"running task",
test_task2,
(uint32 *)wa_test2,
sizeof wa_test2,
TASKS_BASE_PRIORITY,
0);
test_assert(err == OS_ERR_NAME_TAKEN, "name conflict not detected");
err = OS_TaskCreate(&tid,
"conflicting task",
test_task1,
(uint32 *)wa_test1,
sizeof wa_test1,
TASKS_BASE_PRIORITY,
0);
test_assert(err == OS_ERR_NO_FREE_IDS, "stack conflict not detected");
err = OS_TaskWait(tid);
test_assert(err == OS_SUCCESS, "wait failed");
test_assert_sequence("A", "task not executed");
err = OS_TaskCreate(&tid,
"running task",
test_task1,
(uint32 *)wa_test1,
sizeof wa_test1,
TASKS_BASE_PRIORITY,
0);
test_assert(err == OS_SUCCESS, "task creation failed");
err = OS_TaskWait(tid);
test_assert(err == OS_SUCCESS, "wait failed");
test_assert_sequence("A", "task not executed");]]></value>
</code>
</step>
</steps>
</case>
<case>
<brief>
<value>OS_TaskCreate() priority ordering</value>
</brief>
<description>
<value>Four tasks are created at different priorities and in different order. The execution order must happen in order of priority regardless the creation order.</value>
</description>
<condition>
<value />
</condition>
<various_code>
<setup_code>
<value />
</setup_code>
<teardown_code>
<value />
</teardown_code>
<local_variables>
<value />
</local_variables>
</various_code>
<steps>
<step>
<description>
<value>Four tasks are created in priority order from low to high.</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[int32 err;
uint32 tid1, tid2, tid3, tid4;
err = OS_TaskCreate(&tid4,
"running task 4",
test_task4,
(uint32 *)wa_test4,
sizeof wa_test4,
TASKS_BASE_PRIORITY - 0,
0);
test_assert(err == OS_SUCCESS, "task 4 creation failed");
err = OS_TaskCreate(&tid3,
"running task 3",
test_task3,
(uint32 *)wa_test3,
sizeof wa_test3,
TASKS_BASE_PRIORITY - 1,
0);
test_assert(err == OS_SUCCESS, "task 3 creation failed");
err = OS_TaskCreate(&tid2,
"running task 2",
test_task2,
(uint32 *)wa_test2,
sizeof wa_test2,
TASKS_BASE_PRIORITY - 2,
0);
test_assert(err == OS_SUCCESS, "task 2 creation failed");
err = OS_TaskCreate(&tid1,
"running task 1",
test_task1,
(uint32 *)wa_test1,
sizeof wa_test1,
TASKS_BASE_PRIORITY - 3,
0);
test_assert(err == OS_SUCCESS, "task 1 creation failed");]]></value>
</code>
</step>
<step>
<description>
<value>Tasks are made runnable atomically and their execution order tested.</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[OS_TaskDelay(5);
test_assert_sequence("ABCD", "task order violation");]]></value>
</code>
</step>
<step>
<description>
<value>Four tasks are created in priority order from high to low.</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[int32 err;
uint32 tid1, tid2, tid3, tid4;
err = OS_TaskCreate(&tid1,
"running task 1",
test_task1,
(uint32 *)wa_test1,
sizeof wa_test1,
TASKS_BASE_PRIORITY - 3,
0);
test_assert(err == OS_SUCCESS, "task 1 creation failed");
err = OS_TaskCreate(&tid2,
"running task 2",
test_task2,
(uint32 *)wa_test2,
sizeof wa_test2,
TASKS_BASE_PRIORITY - 2,
0);
test_assert(err == OS_SUCCESS, "task 2 creation failed");
err = OS_TaskCreate(&tid3,
"running task 3",
test_task3,
(uint32 *)wa_test3,
sizeof wa_test3,
TASKS_BASE_PRIORITY - 1,
0);
test_assert(err == OS_SUCCESS, "task 3 creation failed");
err = OS_TaskCreate(&tid4,
"running task 4",
test_task4,
(uint32 *)wa_test4,
sizeof wa_test4,
TASKS_BASE_PRIORITY - 0,
0);
test_assert(err == OS_SUCCESS, "task 4 creation failed");]]></value>
</code>
</step>
<step>
<description>
<value>Tasks are made runnable atomically and their execution order tested.</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[OS_TaskDelay(5);
test_assert_sequence("ABCD", "task order violation");]]></value>
</code>
</step>
<step>
<description>
<value>Four tasks are created in an not ordered way.</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[int32 err;
uint32 tid1, tid2, tid3, tid4;
err = OS_TaskCreate(&tid2,
"running task 2",
test_task2,
(uint32 *)wa_test2,
sizeof wa_test2,
TASKS_BASE_PRIORITY - 2,
0);
test_assert(err == OS_SUCCESS, "task 2 creation failed");
err = OS_TaskCreate(&tid1,
"running task 1",
test_task1,
(uint32 *)wa_test1,
sizeof wa_test1,
TASKS_BASE_PRIORITY - 3,
0);
test_assert(err == OS_SUCCESS, "task 1 creation failed");
err = OS_TaskCreate(&tid4,
"running task 4",
test_task4,
(uint32 *)wa_test4,
sizeof wa_test4,
TASKS_BASE_PRIORITY - 0,
0);
test_assert(err == OS_SUCCESS, "task 4 creation failed");
err = OS_TaskCreate(&tid3,
"running task 3",
test_task3,
(uint32 *)wa_test3,
sizeof wa_test3,
TASKS_BASE_PRIORITY - 1,
0);
test_assert(err == OS_SUCCESS, "task 3 creation failed");]]></value>
</code>
</step>
<step>
<description>
<value>Tasks are made runnable atomically and their execution order tested.</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[OS_TaskDelay(5);
test_assert_sequence("ABCD", "task order violation");]]></value>
</code>
</step>
</steps>
</case>
<case>
<brief>
<value>OS_TaskDelete() errors</value>
</brief>
<description>
<value>Parameters checking in OS_TaskDelete() is tested.</value>
</description>
<condition>
<value />
</condition>
<various_code>
<setup_code>
<value />
</setup_code>
<teardown_code>
<value />
</teardown_code>
<local_variables>
<value />
</local_variables>
</various_code>
<steps>
<step>
<description>
<value>OS_TaskDelete() is invoked with task_id set to -1, an error is expected.</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[int32 err;
err = OS_TaskDelete((uint32)-1);
test_assert(err == OS_ERR_INVALID_ID, "wrong task id not detected");]]></value>
</code>
</step>
</steps>
</case>
<case>
<brief>
<value>OS_TaskDelete() and OS_TaskInstallDeleteHandler() functionality</value>
</brief>
<description>
<value>OS_TaskDelete() and OS_TaskInstallDeleteHandler() are tested for functionality.</value>
</description>
<condition>
<value />
</condition>
<various_code>
<setup_code>
<value />
</setup_code>
<teardown_code>
<value />
</teardown_code>
<local_variables>
<value><![CDATA[uint32 tid;]]></value>
</local_variables>
</various_code>
<steps>
<step>
<description>
<value>Creating a task executing an infinite loop.</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[int32 err;
err = OS_TaskCreate(&tid,
"deletable task",
test_task_delete,
(uint32 *)wa_test1,
sizeof wa_test1,
TASKS_BASE_PRIORITY,
0);
test_assert(err == OS_SUCCESS, "deletable task creation failed");]]></value>
</code>
</step>
<step>
<description>
<value>Letting the task run for a while then deleting it. A check is performed on the correct execution of the delete handler.</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[int32 err;
(void) OS_TaskDelay(50);
err = OS_TaskDelete(tid);
test_assert(err == OS_SUCCESS, "delete failed");
test_assert_sequence("ABC", "events order violation");]]></value>
</code>
</step>
</steps>
</case>
</cases>
</sequence>
<sequence>
<type index="0">
<value>Internal Tests</value>
</type>
<brief>
<value>Queues Functionality</value>
</brief>
<description>
<value>This sequence tests the NASA OSAL over ChibiOS/RT functionalities related to queues</value>
</description>
<condition>
<value />
</condition>
<shared_code>
<value><![CDATA[#include <string.h>
#include "osapi.h"
uint32 qid, tid;
#define WRITER_NUM_MESSAGES 16
#define MESSAGE_SIZE 20
static void test_task_writer(void) {
unsigned i;
int32 err;
for (i = 0; i < WRITER_NUM_MESSAGES; i++) {
err = OS_QueuePut(qid, "Hello World", 12, 0);
if (err != OS_SUCCESS) {
test_emit_token('*');
}
}
}]]></value>
</shared_code>
<cases>
<case>
<brief>
<value>OS_QueueCreate() and OS_QueueDelete() errors</value>
</brief>
<description>
<value>Parameters checking in OS_QueueCreate() and OS_QueueDelete() is tested.</value>
</description>
<condition>
<value />
</condition>
<various_code>
<setup_code>
<value />
</setup_code>
<teardown_code>
<value />
</teardown_code>
<local_variables>
<value />
</local_variables>
</various_code>
<steps>
<step>
<description>
<value>OS_QueueCreate() is invoked with queue_id set to NULL, an error is expected.</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[int32 err;
err = OS_QueueCreate(NULL, /* Error.*/
"failing queue",
4,
128,
0);
test_assert(err == OS_INVALID_POINTER, "NULL not detected");]]></value>
</code>
</step>
<step>
<description>
<value>OS_QueueCreate() is invoked with task_name set to NULL, an error is expected.</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[int32 err;
uint32 qid;
err = OS_QueueCreate(&qid,
NULL, /* Error.*/
4,
128,
0);
test_assert(err == OS_INVALID_POINTER, "NULL not detected");]]></value>
</code>
</step>
<step>
<description>
<value>OS_QueueCreate() is invoked with a very long task name, an error is expected.</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[int32 err;
uint32 qid;
err = OS_QueueCreate(&qid,
"very very long queue name", /* Error.*/
4,
128,
0);
test_assert(err == OS_ERR_NAME_TOO_LONG, "name limit not detected");]]></value>
</code>
</step>
<step>
<description>
<value>OS_QueueDelete() is invoked with queue_id set to -1, an error is expected.</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[int32 err;
err = OS_QueueDelete((uint32)-1);
test_assert(err == OS_ERR_INVALID_ID, "wrong queue id not detected");]]></value>
</code>
</step>
<step>
<description>
<value>OS_QueueCreate() is invoked twice with duplicated name, an error is expected, then the queue is deleted using OS_QueueDelete().</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[int32 err;
uint32 qid1, qid2;
err = OS_QueueCreate(&qid1, "my queue", 4, 128, 0);
test_assert(err == OS_SUCCESS, "queue creation failed");
err = OS_QueueCreate(&qid2, "my queue", 4, 128, 0);
test_assert(err == OS_ERR_NAME_TAKEN, "name conflict not detected");
err = OS_QueueDelete(qid1);
test_assert(err == OS_SUCCESS, "queue deletion failed");]]></value>
</code>
</step>
</steps>
</case>
<case>
<brief>
<value>OS_QueueGetIdByName() errors</value>
</brief>
<description>
<value>Parameters checking in OS_QueueGetIdByName() is tested.</value>
</description>
<condition>
<value />
</condition>
<various_code>
<setup_code>
<value />
</setup_code>
<teardown_code>
<value />
</teardown_code>
<local_variables>
<value />
</local_variables>
</various_code>
<steps>
<step>
<description>
<value>OS_QueueGetIdByName() is invoked with queue_id set to NULL, an error is expected.</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[int32 err;
err = OS_QueueGetIdByName(NULL, "queue");
test_assert(err == OS_INVALID_POINTER, "NULL not detected");]]></value>
</code>
</step>
<step>
<description>
<value>OS_QueueGetIdByName() is invoked with queue_name set to NULL, an error is expected.</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[int32 err;
err = OS_QueueGetIdByName(&qid, NULL);
test_assert(err == OS_INVALID_POINTER, "NULL not detected");]]></value>
</code>
</step>
<step>
<description>
<value>OS_QueueGetIdByName() is invoked with a very long task name, an error is expected.</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[int32 err;
err = OS_QueueGetIdByName(&qid, "very very long queue name");
test_assert(err == OS_ERR_NAME_TOO_LONG, "name limit not detected");]]></value>
</code>
</step>
</steps>
</case>
<case>
<brief>
<value>OS_QueuePut() and OS_QueueGet() functionality</value>
</brief>
<description>
<value>A task writes on a queue, the messages are retrieved on the other side in blocking mode.</value>
</description>
<condition>
<value />
</condition>
<various_code>
<setup_code>
<value><![CDATA[qid = 0;
tid = 0;]]></value>
</setup_code>
<teardown_code>
<value><![CDATA[if (qid != 0) {
(void) OS_QueueDelete(qid);
}
if (tid != 0) {
(void) OS_TaskWait(tid);
}]]></value>
</teardown_code>
<local_variables>
<value><![CDATA[uint32 tid;
unsigned i;]]></value>
</local_variables>
</various_code>
<steps>
<step>
<description>
<value>Creataing a queue with depth 4 and message size 20</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[int32 err;
err = OS_QueueCreate(&qid, "test queue", 4, MESSAGE_SIZE, 0);
test_assert(err == OS_SUCCESS, "queue creation failed");]]></value>
</code>
</step>
<step>
<description>
<value>Creating the writer task.</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[int32 err;
err = OS_TaskCreate(&tid,
"writer task",
test_task_writer,
(uint32 *)wa_test1,
sizeof wa_test1,
TASKS_BASE_PRIORITY,
0);
test_assert(err == OS_SUCCESS, "writer task creation failed");]]></value>
</code>
</step>
<step>
<description>
<value>Reading messages from the writer task.</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[for (i = 0; i < WRITER_NUM_MESSAGES; i++) {
int32 err;
char data[MESSAGE_SIZE];
uint32 copied;
err = OS_QueueGet(qid, data, MESSAGE_SIZE, &copied, OS_Milli2Ticks(200));
test_assert(err == OS_SUCCESS, "timed out");
test_assert(strncmp(data, "Hello World", sizeof (data)) == 0,
"wrong message");
}]]></value>
</code>
</step>
<step>
<description>
<value>Waiting for task termination then checking for errors.</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[(void) OS_TaskWait(tid);
tid = 0;
test_assert_sequence("", "queue write errors occurred");]]></value>
</code>
</step>
</steps>
</case>
<case>
<brief>
<value>OS_QueueGet() with timeout functionality</value>
</brief>
<description>
<value>OS_QueueGet() timeout functionality is tested.</value>
</description>
<condition>
<value />
</condition>
<various_code>
<setup_code>
<value><![CDATA[qid = 0;
(void) OS_QueueCreate(&qid, "test queue", 2, MESSAGE_SIZE, 0);]]></value>
</setup_code>
<teardown_code>
<value><![CDATA[if (qid != 0) {
OS_QueueDelete(qid);
}]]></value>
</teardown_code>
<local_variables>
<value><![CDATA[uint32 local_qid;
uint32 copied;
char data[MESSAGE_SIZE];]]></value>
</local_variables>
</various_code>
<steps>
<step>
<description>
<value>Retrieving the queue by name.</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[int32 err;
err = OS_QueueGetIdByName(&local_qid, "test queue");
test_assert(err == OS_SUCCESS, "queue not found");]]></value>
</code>
</step>
<step>
<description>
<value>Get operation with a one second timeout, an error is expected.</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[int32 err;
err = OS_QueueGet(qid, data, MESSAGE_SIZE, &copied, OS_Milli2Ticks(1000));
test_assert(err == OS_QUEUE_TIMEOUT, "unexpected error code");]]></value>
</code>
</step>
<step>
<description>
<value>Get operation in non-blocking mode, an error is expected.</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[int32 err;
err = OS_QueueGet(qid, data, MESSAGE_SIZE, &copied, OS_CHECK);
test_assert(err == OS_QUEUE_EMPTY, "unexpected error code");]]></value>
</code>
</step>
</steps>
</case>
</cases>
</sequence>
<sequence>
<type index="0">
<value>Internal Tests</value>
</type>
<brief>
<value>Timers Functionality</value>
</brief>
<description>
<value>This sequence tests the NASA OSAL over ChibiOS/RT functionalities related to timers</value>
</description>
<condition>
<value />
</condition>
<shared_code>
<value><![CDATA[#include <string.h>
#include "osapi.h"
uint32 tmid;
uint32 cnt;
static void tmr_callback(uint32 timer_id) {
(void)timer_id;
cnt++;
}]]></value>
</shared_code>
<cases>
<case>
<brief>
<value>OS_TimerCreate() and OS_TimerDelete() errors</value>
</brief>
<description>
<value>Parameters checking in OS_TimerCreate() and OS_TimerDelete() is tested.</value>
</description>
<condition>
<value />
</condition>
<various_code>
<setup_code>
<value />
</setup_code>
<teardown_code>
<value />
</teardown_code>
<local_variables>
<value />
</local_variables>
</various_code>
<steps>
<step>
<description>
<value>OS_TimerCreate() is invoked with timer_id set to NULL, an error is expected.</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[int32 err;
uint32 accuracy;
err = OS_TimerCreate(NULL, /* Error.*/
"failing timer",
&accuracy,
tmr_callback);
test_assert(err == OS_INVALID_POINTER, "NULL not detected");]]></value>
</code>
</step>
<step>
<description>
<value>OS_TimerCreate() is invoked with timer_name set to NULL, an error is expected.</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[int32 err;
uint32 tmid;
uint32 accuracy;
err = OS_TimerCreate(&tmid,
NULL, /* Error.*/
&accuracy,
tmr_callback);
test_assert(err == OS_INVALID_POINTER, "NULL not detected");]]></value>
</code>
</step>
<step>
<description>
<value>OS_TimerCreate() is invoked with accuracy set to NULL, an error is expected.</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[int32 err;
uint32 tmid;
err = OS_TimerCreate(&tmid,
"failing timer",
NULL, /* Error.*/
tmr_callback);
test_assert(err == OS_INVALID_POINTER, "NULL not detected");]]></value>
</code>
</step>
<step>
<description>
<value>OS_TimerCreate() is invoked with callback_ptr set to NULL, an error is expected.</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[int32 err;
uint32 tmid;
uint32 accuracy;
err = OS_TimerCreate(&tmid,
"failing timer",
&accuracy,
NULL); /* Error.*/
test_assert(err == OS_TIMER_ERR_INVALID_ARGS, "NULL not detected");]]></value>
</code>
</step>
<step>
<description>
<value>OS_TimerCreate() is invoked with a very long timer name, an error is expected.</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[int32 err;
uint32 tmid;
uint32 accuracy;
err = OS_TimerCreate(&tmid,
"very very long timer name", /* Error.*/
&accuracy,
tmr_callback);
test_assert(err == OS_ERR_NAME_TOO_LONG, "name limit not detected");]]></value>
</code>
</step>
<step>
<description>
<value>OS_TimerDelete() is invoked with timer_id set to -1, an error is expected.</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[int32 err;
err = OS_TimerDelete((uint32)-1);
test_assert(err == OS_ERR_INVALID_ID, "wrong timer id not detected");]]></value>
</code>
</step>
<step>
<description>
<value>OS_TimerCreate() is invoked twice with duplicated name, an error is expected, then the queue is deleted using OS_TimerDelete().</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[int32 err;
uint32 tmid1, tmid2;
uint32 accuracy;
err = OS_TimerCreate(&tmid1, "my timer", &accuracy, tmr_callback);
test_assert(err == OS_SUCCESS, "timer creation failed");
err = OS_TimerCreate(&tmid2, "my timer", &accuracy, tmr_callback);
test_assert(err == OS_ERR_NAME_TAKEN, "name conflict not detected");
err = OS_TimerDelete(tmid1);
test_assert(err == OS_SUCCESS, "timer deletion failed");]]></value>
</code>
</step>
</steps>
</case>
<case>
<brief>
<value>OS_TimerSet() errors</value>
</brief>
<description>
<value>Parameters checking in OS_TimerSet() is tested.</value>
</description>
<condition>
<value />
</condition>
<various_code>
<setup_code>
<value />
</setup_code>
<teardown_code>
<value />
</teardown_code>
<local_variables>
<value />
</local_variables>
</various_code>
<steps>
<step>
<description>
<value>OS_TimerSet() is invoked with timer_id set to -1, an error is expected.</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[int32 err;
err = OS_TimerSet((uint32)-1, 10, 10);
test_assert(err == OS_ERR_INVALID_ID, "invalid timer_id not detected");]]></value>
</code>
</step>
</steps>
</case>
<case>
<brief>
<value>OS_TimerGetIdByName() errors</value>
</brief>
<description>
<value>Parameters checking in OS_TimerGetIdByName() is tested.</value>
</description>
<condition>
<value />
</condition>
<various_code>
<setup_code>
<value />
</setup_code>
<teardown_code>
<value />
</teardown_code>
<local_variables>
<value />
</local_variables>
</various_code>
<steps>
<step>
<description>
<value>OS_TimerGetIdByName() is invoked with timer_id set to NULL, an error is expected.</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[int32 err;
err = OS_TimerGetIdByName(NULL, "timer");
test_assert(err == OS_INVALID_POINTER, "NULL not detected");]]></value>
</code>
</step>
<step>
<description>
<value>OS_TimerGetIdByName() is invoked with timer name set to NULL, an error is expected.</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[int32 err;
err = OS_TimerGetIdByName(&tmid, NULL);
test_assert(err == OS_INVALID_POINTER, "NULL not detected");]]></value>
</code>
</step>
<step>
<description>
<value>OS_TimerGetIdByName() is invoked with a very long task name, an error is expected.</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[int32 err;
err = OS_TimerGetIdByName(&tmid, "very very long timer name");
test_assert(err == OS_ERR_NAME_TOO_LONG, "name limit not detected");]]></value>
</code>
</step>
</steps>
</case>
<case>
<brief>
<value>OS_TimerSet() one-shot functionality</value>
</brief>
<description>
<value>A timer is tested in one-shot mode.</value>
</description>
<condition>
<value />
</condition>
<various_code>
<setup_code>
<value><![CDATA[uint32 accuracy;
cnt = 0;
tmid = 0;
(void) OS_TimerCreate(&tmid, "test timer", &accuracy, tmr_callback);]]></value>
</setup_code>
<teardown_code>
<value><![CDATA[if (tmid != 0) {
(void) OS_TimerDelete(tmid);
}]]></value>
</teardown_code>
<local_variables>
<value><![CDATA[uint32 local_tmid;]]></value>
</local_variables>
</various_code>
<steps>
<step>
<description>
<value>Retrieving the timer by name.</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[int32 err;
err = OS_TimerGetIdByName(&local_tmid, "test timer");
test_assert(err == OS_SUCCESS, "timer not found");]]></value>
</code>
</step>
<step>
<description>
<value>Setting up the timer for a 70mS one-shot tick.</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[uint32 err;
err = OS_TimerSet(local_tmid, 70000, 0);
test_assert(err == OS_SUCCESS, "timer setup failed");]]></value>
</code>
</step>
<step>
<description>
<value>Waiting one second then counting the occurred ticks.</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[(void) OS_TaskDelay(1000);
test_assert(cnt == 1, "wrong ticks");]]></value>
</code>
</step>
</steps>
</case>
<case>
<brief>
<value>OS_TimerSet() periodic functionality</value>
</brief>
<description>
<value>A timer is tested in periodic mode.</value>
</description>
<condition>
<value />
</condition>
<various_code>
<setup_code>
<value><![CDATA[uint32 accuracy;
cnt = 0;
tmid = 0;
(void) OS_TimerCreate(&tmid, "test timer", &accuracy, tmr_callback);]]></value>
</setup_code>
<teardown_code>
<value><![CDATA[if (tmid != 0) {
(void) OS_TimerSet(tmid, 0, 0);
(void) OS_TimerDelete(tmid);
}]]></value>
</teardown_code>
<local_variables>
<value><![CDATA[uint32 local_tmid;]]></value>
</local_variables>
</various_code>
<steps>
<step>
<description>
<value>Retrieving the timer by name.</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[int32 err;
err = OS_TimerGetIdByName(&local_tmid, "test timer");
test_assert(err == OS_SUCCESS, "timer not found");]]></value>
</code>
</step>
<step>
<description>
<value>Setting up the timer for a 70mS periodic tick.</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[uint32 err;
err = OS_TimerSet(local_tmid, 70000, 70000);
test_assert(err == OS_SUCCESS, "timer setup failed");]]></value>
</code>
</step>
<step>
<description>
<value>Waiting one second then counting the occurred ticks.</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[(void) OS_TaskDelay(1000);
test_assert(cnt == 14, "wrong ticks");]]></value>
</code>
</step>
<step>
<description>
<value>Stopping the timer.</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[uint32 err;
err = OS_TimerSet(local_tmid, 0, 0);
test_assert(err == OS_SUCCESS, "timer stop failed");]]></value>
</code>
</step>
</steps>
</case>
</cases>
</sequence>
<sequence>
<type index="0">
<value>Internal Tests</value>
</type>
<brief>
<value>Binary Semaphores Functionality</value>
</brief>
<description>
<value>This sequence tests the NASA OSAL over ChibiOS/RT functionalities related to binary semaphores.</value>
</description>
<condition>
<value />
</condition>
<shared_code>
<value><![CDATA[#include "osapi.h"
uint32 bsid;]]></value>
</shared_code>
<cases>
<case>
<brief>
<value>OS_BinSemCreate() and OS_BinSemDelete() errors</value>
</brief>
<description>
<value>Parameters checking in OS_BinSemCreate() and OS_BinSemDelete() is tested.</value>
</description>
<condition>
<value />
</condition>
<various_code>
<setup_code>
<value />
</setup_code>
<teardown_code>
<value />
</teardown_code>
<local_variables>
<value />
</local_variables>
</various_code>
<steps>
<step>
<description>
<value>OS_BinSemCreate() is invoked with sem_id set to NULL, an error is expected.</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[int32 err;
err = OS_BinSemCreate(NULL, /* Error.*/
"failing semaphore",
0,
0);
test_assert(err == OS_INVALID_POINTER, "NULL not detected");]]></value>
</code>
</step>
<step>
<description>
<value>OS_BinSemCreate() is invoked with sem_name set to NULL, an error is expected.</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[int32 err;
err = OS_BinSemCreate(&bsid,
NULL, /* Error.*/
0,
0);
test_assert(err == OS_INVALID_POINTER, "NULL not detected");]]></value>
</code>
</step>
<step>
<description>
<value>OS_BinSemCreate() is invoked with an invalid sem_initial_value, an error is expected.</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[int32 err;
err = OS_BinSemCreate(&bsid,
"failing semaphore",
2, /* Error.*/
0);
test_assert(err == OS_INVALID_INT_NUM, "counter error not detected");]]></value>
</code>
</step>
<step>
<description>
<value>OS_BinSemCreate() is invoked with a very long timer name, an error is expected.</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[#if 0 /* Semaphore name currently not implemented.*/
int32 err;
err = OS_BinSemCreate(&bsid,
"very very long semaphore name", /* Error.*/
0,
0);
test_assert(err == OS_ERR_NAME_TOO_LONG, "name limit not detected");
#endif]]></value>
</code>
</step>
<step>
<description>
<value>OS_BinSemDelete() is invoked with timer_id set to -1, an error is expected.</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[int32 err;
err = OS_BinSemDelete((uint32)-1);
test_assert(err == OS_ERR_INVALID_ID, "wrong semaphore id not detected");]]></value>
</code>
</step>
<step>
<description>
<value>OS_BinSemCreate() is invoked twice with duplicated name, an error is expected, then the queue is deleted using OS_BinSemDelete().</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[int32 err;
uint32 bsid1; /*, bsid2;*/
err = OS_BinSemCreate(&bsid1, "my semaphore", 0, 0);
test_assert(err == OS_SUCCESS, "semaphore creation failed");
#if 0 /* Semaphore name currently not implemented.*/
err = OS_BinSemCreate(&bsid2, "my semaphore", 0, 0);
test_assert(err == OS_ERR_NAME_TAKEN, "name conflict not detected");
#endif
err = OS_BinSemDelete(bsid1);
test_assert(err == OS_SUCCESS, "semaphore deletion failed");]]></value>
</code>
</step>
</steps>
</case>
<case>
<brief>
<value>OS_BinSemFlush() errors</value>
</brief>
<description>
<value>Parameters checking in OS_BinSemFlush() is tested.</value>
</description>
<condition>
<value />
</condition>
<various_code>
<setup_code>
<value />
</setup_code>
<teardown_code>
<value />
</teardown_code>
<local_variables>
<value />
</local_variables>
</various_code>
<steps>
<step>
<description>
<value>OS_BinSemFlush() is invoked with sem_id set to -1, an error is expected.</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[int32 err;
err = OS_BinSemFlush((uint32)-1);
test_assert(err == OS_ERR_INVALID_ID, "invalid sem_id not detected");]]></value>
</code>
</step>
</steps>
</case>
<case>
<brief>
<value>OS_BinSemGive() errors</value>
</brief>
<description>
<value>Parameters checking in OS_BinSemGive() is tested.</value>
</description>
<condition>
<value />
</condition>
<various_code>
<setup_code>
<value />
</setup_code>
<teardown_code>
<value />
</teardown_code>
<local_variables>
<value />
</local_variables>
</various_code>
<steps>
<step>
<description>
<value>OS_BinSemGive() is invoked with sem_id set to -1, an error is expected.</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[int32 err;
err = OS_BinSemGive((uint32)-1);
test_assert(err == OS_ERR_INVALID_ID, "invalid sem_id not detected");]]></value>
</code>
</step>
</steps>
</case>
<case>
<brief>
<value>OS_BinSemTake() errors</value>
</brief>
<description>
<value>Parameters checking in OS_BinSemTake() is tested.</value>
</description>
<condition>
<value />
</condition>
<various_code>
<setup_code>
<value />
</setup_code>
<teardown_code>
<value />
</teardown_code>
<local_variables>
<value />
</local_variables>
</various_code>
<steps>
<step>
<description>
<value>OS_BinSemTake() is invoked with sem_id set to -1, an error is expected.</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[int32 err;
err = OS_BinSemTake((uint32)-1);
test_assert(err == OS_ERR_INVALID_ID, "invalid sem_id not detected");]]></value>
</code>
</step>
</steps>
</case>
<case>
<brief>
<value>OS_BinSemTimedWait() errors</value>
</brief>
<description>
<value>Parameters checking in OS_BinSemTimedWait() is tested.</value>
</description>
<condition>
<value />
</condition>
<various_code>
<setup_code>
<value><![CDATA[bsid = 0;
(void) OS_BinSemCreate(&bsid, "test semaphore", 0, 0);]]></value>
</setup_code>
<teardown_code>
<value><![CDATA[if (bsid > 0) {
(void) OS_BinSemDelete(bsid);
}]]></value>
</teardown_code>
<local_variables>
<value />
</local_variables>
</various_code>
<steps>
<step>
<description>
<value>OS_BinSemTimedWait() is invoked with sem_id set to -1, an error is expected.</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[int32 err;
err = OS_BinSemTimedWait((uint32)-1, 1000);
test_assert(err == OS_ERR_INVALID_ID, "invalid sem_id not detected");]]></value>
</code>
</step>
<step>
<description>
<value>OS_BinSemTimedWait() is invoked with msecs set to 0, an error is expected.</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[int32 err;
err = OS_BinSemTimedWait(bsid, 0);
test_assert(err == OS_INVALID_INT_NUM, "invalid msec not detected");]]></value>
</code>
</step>
</steps>
</case>
<case>
<brief>
<value>OS_BinSemGetIdByName() errors</value>
</brief>
<description>
<value>Parameters checking in OS_BinSemGetIdByName() is tested.</value>
</description>
<condition>
<value />
</condition>
<various_code>
<setup_code>
<value />
</setup_code>
<teardown_code>
<value />
</teardown_code>
<local_variables>
<value />
</local_variables>
</various_code>
<steps>
<step>
<description>
<value>OS_BinSemGetIdByName() is invoked with sem_id set to NULL, an error is expected.</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[int32 err;
err = OS_BinSemGetIdByName(NULL, "semaphore");
test_assert(err == OS_INVALID_POINTER, "NULL not detected");]]></value>
</code>
</step>
<step>
<description>
<value>OS_BinSemGetIdByName() is invoked with semaphore name set to NULL, an error is expected.</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[int32 err;
err = OS_BinSemGetIdByName(&bsid, NULL);
test_assert(err == OS_INVALID_POINTER, "NULL not detected");]]></value>
</code>
</step>
<step>
<description>
<value>OS_BinSemGetIdByName() is invoked with a very long task name, an error is expected.</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[int32 err;
err = OS_BinSemGetIdByName(&bsid, "very very long semaphore name");
test_assert(err == OS_ERR_NAME_TOO_LONG, "name limit not detected");]]></value>
</code>
</step>
</steps>
</case>
<case>
<brief>
<value>OS_BinSemTimedWait() timeout functionality</value>
</brief>
<description>
<value>OS_BinSemCreate() timeout functionality is tested.</value>
</description>
<condition>
<value />
</condition>
<various_code>
<setup_code>
<value><![CDATA[bsid = 0;
(void) OS_BinSemCreate(&bsid, "test semaphore", 0, 0);]]></value>
</setup_code>
<teardown_code>
<value><![CDATA[if (bsid > 0) {
(void) OS_BinSemDelete(bsid);
}]]></value>
</teardown_code>
<local_variables>
<value />
</local_variables>
</various_code>
<steps>
<step>
<description>
<value>OS_BinSemTimedWait() is invoked with timeout set to one second, an error is expected.</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[int32 err;
err = OS_BinSemTimedWait(bsid, 1000);
test_assert(err == OS_SEM_TIMEOUT, "unexpected error code");]]></value>
</code>
</step>
</steps>
</case>
</cases>
</sequence>
<sequence>
<type index="0">
<value>Internal Tests</value>
</type>
<brief>
<value>Counter Semaphores Functionality</value>
</brief>
<description>
<value>This sequence tests the NASA OSAL over ChibiOS/RT functionalities related to counter semaphores.</value>
</description>
<condition>
<value />
</condition>
<shared_code>
<value><![CDATA[#include "osapi.h"
uint32 csid;]]></value>
</shared_code>
<cases>
<case>
<brief>
<value>OS_CountSemCreate() and OS_CountSemDelete() errors</value>
</brief>
<description>
<value>Parameters checking in OS_CountSemCreate() and OS_CountSemDelete() is tested.</value>
</description>
<condition>
<value />
</condition>
<various_code>
<setup_code>
<value />
</setup_code>
<teardown_code>
<value />
</teardown_code>
<local_variables>
<value />
</local_variables>
</various_code>
<steps>
<step>
<description>
<value>OS_CountSemCreate() is invoked with sem_id set to NULL, an error is expected.</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[int32 err;
err = OS_CountSemCreate(NULL, /* Error.*/
"failing semaphore",
0,
0);
test_assert(err == OS_INVALID_POINTER, "NULL not detected");]]></value>
</code>
</step>
<step>
<description>
<value>OS_CountSemCreate() is invoked with sem_name set to NULL, an error is expected.</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[int32 err;
err = OS_CountSemCreate(&csid,
NULL, /* Error.*/
0,
0);
test_assert(err == OS_INVALID_POINTER, "NULL not detected");]]></value>
</code>
</step>
<step>
<description>
<value>OS_CountSemCreate() is invoked with an invalid sem_initial_value, an error is expected.</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[int32 err;
err = OS_CountSemCreate(&csid,
"failing semaphore",
(uint32)-1, /* Error.*/
0);
test_assert(err == OS_INVALID_INT_NUM, "counter error not detected");]]></value>
</code>
</step>
<step>
<description>
<value>OS_CountSemCreate() is invoked with a very long timer name, an error is expected.</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[#if 0 /* Semaphore name currently not implemented.*/
int32 err;
err = OS_CountSemCreate(&csid,
"very very long semaphore name",/* Error.*/
0,
0);
test_assert(err == OS_ERR_NAME_TOO_LONG, "name limit not detected");
#endif]]></value>
</code>
</step>
<step>
<description>
<value>OS_CountSemDelete() is invoked with timer_id set to -1, an error is expected.</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[int32 err;
err = OS_CountSemDelete((uint32)-1);
test_assert(err == OS_ERR_INVALID_ID, "wrong semaphore id not detected");]]></value>
</code>
</step>
<step>
<description>
<value>OS_CountSemCreate() is invoked twice with duplicated name, an error is expected, then the queue is deleted using OS_CountSemDelete().</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[int32 err;
uint32 csid1; /*, csid2;*/
err = OS_CountSemCreate(&csid1, "my semaphore", 0, 0);
test_assert(err == OS_SUCCESS, "semaphore creation failed");
#if 0 /* Semaphore name currently not implemented.*/
err = OS_CountSemCreate(&csid2, "my semaphore", 0, 0);
test_assert(err == OS_ERR_NAME_TAKEN, "name conflict not detected");
#endif
err = OS_CountSemDelete(csid1);
test_assert(err == OS_SUCCESS, "semaphore deletion failed");]]></value>
</code>
</step>
</steps>
</case>
<case>
<brief>
<value>OS_CountSemGive() errors</value>
</brief>
<description>
<value>Parameters checking in OS_CountSemGive() is tested.</value>
</description>
<condition>
<value />
</condition>
<various_code>
<setup_code>
<value />
</setup_code>
<teardown_code>
<value />
</teardown_code>
<local_variables>
<value />
</local_variables>
</various_code>
<steps>
<step>
<description>
<value>OS_CountSemGive() is invoked with sem_id set to -1, an error is expected.</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[int32 err;
err = OS_CountSemGive((uint32)-1);
test_assert(err == OS_ERR_INVALID_ID, "invalid sem_id not detected");]]></value>
</code>
</step>
</steps>
</case>
<case>
<brief>
<value>OS_CountSemTake() errors</value>
</brief>
<description>
<value>Parameters checking in OS_CountSemTake() is tested.</value>
</description>
<condition>
<value />
</condition>
<various_code>
<setup_code>
<value />
</setup_code>
<teardown_code>
<value />
</teardown_code>
<local_variables>
<value />
</local_variables>
</various_code>
<steps>
<step>
<description>
<value>OS_CountSemTake() is invoked with sem_id set to -1, an error is expected.</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[int32 err;
err = OS_CountSemTake((uint32)-1);
test_assert(err == OS_ERR_INVALID_ID, "invalid sem_id not detected");]]></value>
</code>
</step>
</steps>
</case>
<case>
<brief>
<value>OS_CountSemTimedWait() errors</value>
</brief>
<description>
<value>Parameters checking in OS_CountSemTimedWait() is tested.</value>
</description>
<condition>
<value />
</condition>
<various_code>
<setup_code>
<value><![CDATA[csid = 0;
(void) OS_CountSemCreate(&csid, "test semaphore", 0, 0);]]></value>
</setup_code>
<teardown_code>
<value><![CDATA[if (csid > 0) {
(void) OS_CountSemDelete(csid);
}]]></value>
</teardown_code>
<local_variables>
<value />
</local_variables>
</various_code>
<steps>
<step>
<description>
<value>OS_CountSemTimedWait() is invoked with sem_id set to -1, an error is expected.</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[int32 err;
err = OS_CountSemTimedWait((uint32)-1, 1000);
test_assert(err == OS_ERR_INVALID_ID, "invalid sem_id not detected");]]></value>
</code>
</step>
<step>
<description>
<value>OS_CountSemTimedWait() is invoked with msecs set to 0, an error is expected.</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[int32 err;
err = OS_CountSemTimedWait(csid, 0);
test_assert(err == OS_INVALID_INT_NUM, "invalid msec not detected");]]></value>
</code>
</step>
</steps>
</case>
<case>
<brief>
<value>OS_CountSemGetIdByName() errors</value>
</brief>
<description>
<value>Parameters checking in OS_CountSemGetIdByName() is tested.</value>
</description>
<condition>
<value />
</condition>
<various_code>
<setup_code>
<value />
</setup_code>
<teardown_code>
<value />
</teardown_code>
<local_variables>
<value />
</local_variables>
</various_code>
<steps>
<step>
<description>
<value>OS_CountSemGetIdByName() is invoked with sem_id set to NULL, an error is expected.</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[int32 err;
err = OS_CountSemGetIdByName(NULL, "semaphore");
test_assert(err == OS_INVALID_POINTER, "NULL not detected");]]></value>
</code>
</step>
<step>
<description>
<value>OS_CountSemGetIdByName() is invoked with semaphore name set to NULL, an error is expected.</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[int32 err;
err = OS_CountSemGetIdByName(&csid, NULL);
test_assert(err == OS_INVALID_POINTER, "NULL not detected");]]></value>
</code>
</step>
<step>
<description>
<value>OS_CountSemGetIdByName() is invoked with a very long task name, an error is expected.</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[int32 err;
err = OS_CountSemGetIdByName(&csid, "very very long semaphore name");
test_assert(err == OS_ERR_NAME_TOO_LONG, "name limit not detected");]]></value>
</code>
</step>
</steps>
</case>
<case>
<brief>
<value>OS_CountSemTimedWait() timeout functionality</value>
</brief>
<description>
<value>OS_CountSemCreate() timeout functionality is tested.</value>
</description>
<condition>
<value />
</condition>
<various_code>
<setup_code>
<value><![CDATA[csid = 0;
(void) OS_CountSemCreate(&csid, "test semaphore", 0, 0);]]></value>
</setup_code>
<teardown_code>
<value><![CDATA[if (csid > 0) {
(void) OS_CountSemDelete(csid);
}]]></value>
</teardown_code>
<local_variables>
<value />
</local_variables>
</various_code>
<steps>
<step>
<description>
<value>OS_CountSemTimedWait() is invoked with timeout set to one second, an error is expected.</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[int32 err;
err = OS_CountSemTimedWait(csid, 1000);
test_assert(err == OS_SEM_TIMEOUT, "unexpected error code");]]></value>
</code>
</step>
</steps>
</case>
</cases>
</sequence>
<sequence>
<type index="0">
<value>Internal Tests</value>
</type>
<brief>
<value>Mutex Semaphores Functionality</value>
</brief>
<description>
<value>This sequence tests the NASA OSAL over ChibiOS/RT functionalities related to mutex semaphores.</value>
</description>
<condition>
<value />
</condition>
<shared_code>
<value><![CDATA[#include "osapi.h"
uint32 msid;]]></value>
</shared_code>
<cases>
<case>
<brief>
<value>OS_MutSemCreate() and OS_MutSemDelete() errors</value>
</brief>
<description>
<value>Parameters checking in OS_MutSemCreate() and OS_MutSemDelete() is tested.</value>
</description>
<condition>
<value />
</condition>
<various_code>
<setup_code>
<value />
</setup_code>
<teardown_code>
<value />
</teardown_code>
<local_variables>
<value />
</local_variables>
</various_code>
<steps>
<step>
<description>
<value>OS_MutSemCreate() is invoked with sem_id set to NULL, an error is expected.</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[int32 err;
err = OS_MutSemCreate(NULL, /* Error.*/
"failing semaphore",
0);
test_assert(err == OS_INVALID_POINTER, "NULL not detected");]]></value>
</code>
</step>
<step>
<description>
<value>OS_MutSemCreate() is invoked with sem_name set to NULL, an error is expected.</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[int32 err;
err = OS_MutSemCreate(&msid,
NULL, /* Error.*/
0);
test_assert(err == OS_INVALID_POINTER, "NULL not detected");]]></value>
</code>
</step>
<step>
<description>
<value>OS_MutSemCreate() is invoked with a very long timer name, an error is expected.</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[#if 0 /* Semaphore name currently not implemented.*/
int32 err;
err = OS_MutSemCreate(&msid,
"very very long semaphore name", /* Error.*/
0);
test_assert(err == OS_ERR_NAME_TOO_LONG, "name limit not detected");
#endif]]></value>
</code>
</step>
<step>
<description>
<value>OS_MutSemDelete() is invoked with timer_id set to -1, an error is expected.</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[int32 err;
err = OS_MutSemDelete((uint32)-1);
test_assert(err == OS_ERR_INVALID_ID, "wrong semaphore id not detected");]]></value>
</code>
</step>
<step>
<description>
<value>OS_MutSemCreate() is invoked twice with duplicated name, an error is expected, then the queue is deleted using OS_MutSemDelete().</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[int32 err;
uint32 msid1; /*, msid2;*/
err = OS_MutSemCreate(&msid1, "my semaphore", 0);
test_assert(err == OS_SUCCESS, "semaphore creation failed");
#if 0 /* Semaphore name currently not implemented.*/
err = OS_MutSemCreate(&msid2, "my semaphore", 0);
test_assert(err == OS_ERR_NAME_TAKEN, "name conflict not detected");
#endif
err = OS_MutSemDelete(msid1);
test_assert(err == OS_SUCCESS, "semaphore deletion failed");]]></value>
</code>
</step>
</steps>
</case>
<case>
<brief>
<value>OS_MutSemGive() errors</value>
</brief>
<description>
<value>Parameters checking in OS_MutSemGive() is tested.</value>
</description>
<condition>
<value />
</condition>
<various_code>
<setup_code>
<value />
</setup_code>
<teardown_code>
<value />
</teardown_code>
<local_variables>
<value />
</local_variables>
</various_code>
<steps>
<step>
<description>
<value>OS_MutSemGive() is invoked with sem_id set to -1, an error is expected.</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[int32 err;
err = OS_MutSemGive((uint32)-1);
test_assert(err == OS_ERR_INVALID_ID, "invalid sem_id not detected");]]></value>
</code>
</step>
</steps>
</case>
<case>
<brief>
<value>OS_MutSemTake() errors</value>
</brief>
<description>
<value>Parameters checking in OS_MutSemTake() is tested.</value>
</description>
<condition>
<value />
</condition>
<various_code>
<setup_code>
<value />
</setup_code>
<teardown_code>
<value />
</teardown_code>
<local_variables>
<value />
</local_variables>
</various_code>
<steps>
<step>
<description>
<value>OS_MutSemTake() is invoked with sem_id set to -1, an error is expected.</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[int32 err;
err = OS_MutSemTake((uint32)-1);
test_assert(err == OS_ERR_INVALID_ID, "invalid sem_id not detected");]]></value>
</code>
</step>
</steps>
</case>
<case>
<brief>
<value>OS_MutSemGetIdByName() errors</value>
</brief>
<description>
<value>Parameters checking in OS_MutSemGetIdByName() is tested.</value>
</description>
<condition>
<value />
</condition>
<various_code>
<setup_code>
<value />
</setup_code>
<teardown_code>
<value />
</teardown_code>
<local_variables>
<value />
</local_variables>
</various_code>
<steps>
<step>
<description>
<value>OS_MutSemGetIdByName() is invoked with sem_id set to NULL, an error is expected.</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[int32 err;
err = OS_MutSemGetIdByName(NULL, "semaphore");
test_assert(err == OS_INVALID_POINTER, "NULL not detected");]]></value>
</code>
</step>
<step>
<description>
<value>OS_MutSemGetIdByName() is invoked with semaphore name set to NULL, an error is expected.</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[int32 err;
err = OS_MutSemGetIdByName(&msid, NULL);
test_assert(err == OS_INVALID_POINTER, "NULL not detected");]]></value>
</code>
</step>
<step>
<description>
<value>OS_MutSemGetIdByName() is invoked with a very long task name, an error is expected.</value>
</description>
<tags>
<value />
</tags>
<code>
<value><![CDATA[int32 err;
err = OS_MutSemGetIdByName(&msid, "very very long semaphore name");
test_assert(err == OS_ERR_NAME_TOO_LONG, "name limit not detected");]]></value>
</code>
</step>
</steps>
</case>
</cases>
</sequence>
</sequences>
</instance>
</instances>
<exportedFeatures />
</application>
</SPC5-Config>