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4bc8d2e71774452e66c619dad98ccab6db8a2324
rtems/testsuites/smptests/smpthreadlife01/init.c
Sebastian Huber 4bc8d2e717 rtems: Rename rtems_smp_get_processor_count() 
Rename rtems_smp_get_processor_count() in rtems_get_processor_count().
Make rtems_get_processor_count() a function in uni-processor
configurations to enable ABI compatibility with SMP configurations.
2014-04-11 08:52:54 +02:00

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/*
* Copyright (c) 2014 embedded brains GmbH. All rights reserved.
*
* embedded brains GmbH
* Dornierstr. 4
* 82178 Puchheim
* Germany
* <rtems@embedded-brains.de>
*
* The license and distribution terms for this file may be
* found in the file LICENSE in this distribution or at
* http://www.rtems.org/license/LICENSE.
*/
#ifdef HAVE_CONFIG_H
#include "config.h"
#endif
#include "tmacros.h"
#include <rtems.h>
#include <rtems/counter.h>
#include <rtems/libcsupport.h>
#include <rtems/score/profiling.h>
#include <rtems/score/smpbarrier.h>
#include <rtems/score/threadimpl.h>
const char rtems_test_name[] = "SMPTHREADLIFE 1";
#define CPU_COUNT 2
typedef struct {
volatile rtems_task_argument main_arg;
volatile rtems_task_argument worker_arg;
volatile bool terminated;
SMP_barrier_Control barrier;
SMP_barrier_State main_barrier_state;
SMP_barrier_State worker_barrier_state;
Thread_Control *delay_switch_for_executing;
} test_context;
static test_context test_instance = {
.barrier = SMP_BARRIER_CONTROL_INITIALIZER,
.main_barrier_state = SMP_BARRIER_STATE_INITIALIZER,
.worker_barrier_state = SMP_BARRIER_STATE_INITIALIZER
};
static void restart_extension(
Thread_Control *executing,
Thread_Control *restarted
)
{
rtems_test_assert(executing == restarted);
}
static void delete_extension(
Thread_Control *executing,
Thread_Control *deleted
)
{
rtems_test_assert(executing != deleted);
}
static void terminate_extension(Thread_Control *executing)
{
test_context *ctx = &test_instance;
ctx->terminated = true;
}
static void switch_extension(Thread_Control *executing, Thread_Control *heir)
{
test_context *ctx = &test_instance;
if (ctx->delay_switch_for_executing == executing) {
ctx->delay_switch_for_executing = NULL;
_SMP_barrier_Wait(&ctx->barrier, &ctx->worker_barrier_state, CPU_COUNT);
rtems_counter_delay_nanoseconds(100000000);
/* Avoid bad profiling statisitics */
_Profiling_Thread_dispatch_disable( _Per_CPU_Get(), 0 );
}
}
static void worker_task(rtems_task_argument arg)
{
test_context *ctx = &test_instance;
rtems_test_assert(arg == ctx->main_arg);
ctx->worker_arg = arg;
_SMP_barrier_Wait(&ctx->barrier, &ctx->worker_barrier_state, CPU_COUNT);
while (true) {
/* Do nothing */
}
}
static void test_restart(void)
{
test_context *ctx = &test_instance;
rtems_status_code sc;
rtems_id id;
rtems_task_argument arg;
rtems_resource_snapshot snapshot;
rtems_resource_snapshot_take(&snapshot);
sc = rtems_task_create(
rtems_build_name('W', 'O', 'R', 'K'),
1,
RTEMS_MINIMUM_STACK_SIZE,
RTEMS_DEFAULT_MODES,
RTEMS_DEFAULT_ATTRIBUTES,
&id
);
rtems_test_assert(sc == RTEMS_SUCCESSFUL);
sc = rtems_task_start(id, worker_task, 0);
rtems_test_assert(sc == RTEMS_SUCCESSFUL);
_SMP_barrier_Wait(&ctx->barrier, &ctx->main_barrier_state, CPU_COUNT);
for (arg = 1; arg < 23; ++arg) {
ctx->main_arg = arg;
ctx->worker_arg = 0;
sc = rtems_task_restart(id, arg);
rtems_test_assert(sc == RTEMS_SUCCESSFUL);
_SMP_barrier_Wait(&ctx->barrier, &ctx->main_barrier_state, CPU_COUNT);
rtems_test_assert(ctx->worker_arg == arg);
}
sc = rtems_task_delete(id);
rtems_test_assert(sc == RTEMS_SUCCESSFUL);
rtems_test_assert(rtems_resource_snapshot_check(&snapshot));
}
static void test_delete(void)
{
test_context *ctx = &test_instance;
rtems_status_code sc;
rtems_id id;
rtems_task_argument arg;
rtems_resource_snapshot snapshot;
rtems_resource_snapshot_take(&snapshot);
for (arg = 31; arg < 57; ++arg) {
ctx->main_arg = arg;
ctx->worker_arg = 0;
ctx->terminated = false;
sc = rtems_task_create(
rtems_build_name('W', 'O', 'R', 'K'),
1,
RTEMS_MINIMUM_STACK_SIZE,
RTEMS_DEFAULT_MODES,
RTEMS_DEFAULT_ATTRIBUTES,
&id
);
rtems_test_assert(sc == RTEMS_SUCCESSFUL);
sc = rtems_task_start(id, worker_task, arg);
rtems_test_assert(sc == RTEMS_SUCCESSFUL);
_SMP_barrier_Wait(&ctx->barrier, &ctx->main_barrier_state, CPU_COUNT);
rtems_test_assert(ctx->worker_arg == arg);
rtems_test_assert(!ctx->terminated);
sc = rtems_task_delete(id);
rtems_test_assert(sc == RTEMS_SUCCESSFUL);
rtems_test_assert(ctx->terminated);
rtems_test_assert(rtems_resource_snapshot_check(&snapshot));
}
}
static void delay_ipi_task(rtems_task_argument arg)
{
test_context *ctx = &test_instance;
rtems_interrupt_level level;
rtems_interrupt_disable(level);
(void) level;
_SMP_barrier_Wait(&ctx->barrier, &ctx->worker_barrier_state, CPU_COUNT);
/*
* Interrupts are disabled, so the inter-processor interrupt deleting us will
* be delayed a bit.
*/
rtems_counter_delay_nanoseconds(100000000);
/* We get deleted as a side effect of enabling the thread life protection */
_Thread_Set_life_protection(true);
rtems_test_assert(0);
}
static void test_set_life_protection(void)
{
test_context *ctx = &test_instance;
rtems_status_code sc;
rtems_id id;
rtems_resource_snapshot snapshot;
rtems_resource_snapshot_take(&snapshot);
sc = rtems_task_create(
rtems_build_name('D', 'E', 'L', 'Y'),
1,
RTEMS_MINIMUM_STACK_SIZE,
RTEMS_DEFAULT_MODES,
RTEMS_DEFAULT_ATTRIBUTES,
&id
);
rtems_test_assert(sc == RTEMS_SUCCESSFUL);
sc = rtems_task_start(id, delay_ipi_task, 0);
rtems_test_assert(sc == RTEMS_SUCCESSFUL);
_SMP_barrier_Wait(&ctx->barrier, &ctx->main_barrier_state, CPU_COUNT);
sc = rtems_task_delete(id);
rtems_test_assert(sc == RTEMS_SUCCESSFUL);
rtems_test_assert(rtems_resource_snapshot_check(&snapshot));
}
static void delay_switch_task(rtems_task_argument arg)
{
test_context *ctx = &test_instance;
rtems_status_code sc;
rtems_interrupt_level level;
rtems_interrupt_disable(level);
(void) level;
ctx->delay_switch_for_executing = _Thread_Get_executing();
_SMP_barrier_Wait(&ctx->barrier, &ctx->worker_barrier_state, CPU_COUNT);
sc = rtems_task_delete(RTEMS_SELF);
rtems_test_assert(sc == RTEMS_SUCCESSFUL);
}
static void test_wait_for_execution_stop(void)
{
test_context *ctx = &test_instance;
rtems_status_code sc;
rtems_id id;
rtems_resource_snapshot snapshot;
rtems_resource_snapshot_take(&snapshot);
sc = rtems_task_create(
rtems_build_name('S', 'W', 'I', 'T'),
1,
RTEMS_MINIMUM_STACK_SIZE,
RTEMS_DEFAULT_MODES,
RTEMS_DEFAULT_ATTRIBUTES,
&id
);
rtems_test_assert(sc == RTEMS_SUCCESSFUL);
sc = rtems_task_start(id, delay_switch_task, 0);
rtems_test_assert(sc == RTEMS_SUCCESSFUL);
/* Wait for delay switch task */
_SMP_barrier_Wait(&ctx->barrier, &ctx->main_barrier_state, CPU_COUNT);
/* Wait for delay switch extension */
_SMP_barrier_Wait(&ctx->barrier, &ctx->main_barrier_state, CPU_COUNT);
sc = rtems_task_create(
rtems_build_name('W', 'A', 'I', 'T'),
1,
RTEMS_MINIMUM_STACK_SIZE,
RTEMS_DEFAULT_MODES,
RTEMS_DEFAULT_ATTRIBUTES,
&id
);
rtems_test_assert(sc == RTEMS_SUCCESSFUL);
sc = rtems_task_delete(id);
rtems_test_assert(sc == RTEMS_SUCCESSFUL);
rtems_test_assert(rtems_resource_snapshot_check(&snapshot));
}
static void Init(rtems_task_argument arg)
{
TEST_BEGIN();
if (rtems_get_processor_count() >= CPU_COUNT) {
test_restart();
test_delete();
test_set_life_protection();
test_wait_for_execution_stop();
}
TEST_END();
rtems_test_exit(0);
}
#define CONFIGURE_APPLICATION_DOES_NOT_NEED_CLOCK_DRIVER
#define CONFIGURE_APPLICATION_NEEDS_CONSOLE_DRIVER
#define CONFIGURE_SMP_APPLICATION
#define CONFIGURE_SMP_MAXIMUM_PROCESSORS CPU_COUNT
#define CONFIGURE_MAXIMUM_TASKS CPU_COUNT
#define CONFIGURE_INITIAL_EXTENSIONS \
{ \
.thread_restart = restart_extension, \
.thread_delete = delete_extension, \
.thread_terminate = terminate_extension, \
.thread_switch = switch_extension \
}, \
RTEMS_TEST_INITIAL_EXTENSION
#define CONFIGURE_RTEMS_INIT_TASKS_TABLE
#define CONFIGURE_INIT
#include <rtems/confdefs.h>
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