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rtems-libbsd/testsuite/timeout01/timeout_test.c
Sebastian Huber 3c967ca238 Use <sys/lock.h> provided by Newlib
2017-06-08 13:20:09 +02:00

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/*
* Copyright (c) 2012 embedded brains GmbH. All rights reserved.
*
* embedded brains GmbH
* Obere Lagerstr. 30
* 82178 Puchheim
* Germany
* <rtems@embedded-brains.de>
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*/
#include <machine/rtems-bsd-kernel-space.h>
#include <sys/param.h>
#include <sys/systm.h>
#include <sys/lock.h>
#include <sys/mutex.h>
#include <sys/rwlock.h>
#include <assert.h>
#define TIMEOUT_MILLISECONDS (100)
// test after TEST_NOT_FIRED_MS, if handlar has not been executed
#define TEST_NOT_FIRED_MS (TIMEOUT_MILLISECONDS * 80 / 100)
// test TEST_FIRED_MS after TEST_NOT_FIRED_MS, if handlar has been executed
#define TEST_FIRED_MS (TIMEOUT_MILLISECONDS * 40 / 100)
// delay handler by this time with a mutex
#define TEST_DELAY_MS (TIMEOUT_MILLISECONDS)
enum arg {
HANDLER_NOT_VISITED,
HANDLER_VISITED,
};
static void timeout_handler(void *arg)
{
enum arg* argument = arg;
printf("This is the timout_handler.\n");
*argument = HANDLER_VISITED;
}
void timeout_test_timeout()
{
enum arg argument = HANDLER_NOT_VISITED;
struct callout_handle handle;
printf("== Start a timeout and test if handler has been called.\n");
callout_handle_init(&handle);
handle = timeout(timeout_handler, &argument, RTEMS_MILLISECONDS_TO_TICKS(TIMEOUT_MILLISECONDS));
usleep(TEST_NOT_FIRED_MS * 1000);
assert(argument == HANDLER_NOT_VISITED);
usleep(TEST_FIRED_MS * 1000);
assert(argument == HANDLER_VISITED);
}
void timeout_test_cancel_timeout()
{
enum arg argument = HANDLER_NOT_VISITED;
struct callout_handle handle;
printf("== Start a timeout and cancel it.\n");
callout_handle_init(&handle);
handle = timeout(timeout_handler, &argument, RTEMS_MILLISECONDS_TO_TICKS(TIMEOUT_MILLISECONDS));
usleep(TEST_NOT_FIRED_MS * 1000);
untimeout(timeout_handler, &argument, handle);
usleep(TEST_FIRED_MS * 1000);
assert(argument == HANDLER_NOT_VISITED);
}
void timeout_test_callout(int mpsave)
{
enum arg argument = HANDLER_NOT_VISITED;
struct callout callout;
int retval = 0;
printf("== Start a callout and test if handler has been called. mpsave=%d\n", mpsave);
callout_init(&callout, mpsave);
retval = callout_reset(&callout, RTEMS_MILLISECONDS_TO_TICKS(TIMEOUT_MILLISECONDS), timeout_handler, &argument);
assert(retval == 0);
usleep(TEST_NOT_FIRED_MS * 1000);
assert(argument == HANDLER_NOT_VISITED);
usleep(TEST_FIRED_MS * 1000);
assert(argument == HANDLER_VISITED);
callout_deactivate(&callout);
}
void timeout_test_cancel_callout(int mpsave, bool use_drain)
{
enum arg argument = HANDLER_NOT_VISITED;
struct callout callout;
int retval = 0;
printf("== Start a callout and cancel it with %s. mpsave=%d\n", use_drain ? "drain" : "stop", mpsave);
callout_init(&callout, mpsave);
retval = callout_reset(&callout, RTEMS_MILLISECONDS_TO_TICKS(TIMEOUT_MILLISECONDS), timeout_handler, &argument);
assert(retval == 0);
usleep(TEST_NOT_FIRED_MS * 1000);
if(!use_drain)
{
retval = callout_stop(&callout);
}
else
{
retval = callout_drain(&callout);
}
assert(retval != 0);
usleep(TEST_FIRED_MS * 1000);
assert(argument == HANDLER_NOT_VISITED);
callout_deactivate(&callout);
}
void timeout_test_callout_reschedule(int mpsave, bool use_reset)
{
enum arg argument = HANDLER_NOT_VISITED;
struct callout callout;
int retval = 0;
printf("== Start a callout and reschedule it after some time with %s. mpsave=%d\n", use_reset ? "reset" : "schedule", mpsave);
callout_init(&callout, mpsave);
retval = callout_reset(&callout, RTEMS_MILLISECONDS_TO_TICKS(TIMEOUT_MILLISECONDS), timeout_handler, &argument);
assert(retval == 0);
usleep(TEST_NOT_FIRED_MS * 1000);
assert(argument == HANDLER_NOT_VISITED);
if(!use_reset)
{
retval = callout_schedule(&callout, RTEMS_MILLISECONDS_TO_TICKS(TIMEOUT_MILLISECONDS));
}
else
{
retval = callout_reset(&callout, RTEMS_MILLISECONDS_TO_TICKS(TIMEOUT_MILLISECONDS), timeout_handler, &argument);
}
assert(retval != 0);
usleep(TEST_NOT_FIRED_MS * 1000);
assert(argument == HANDLER_NOT_VISITED);
usleep(TEST_FIRED_MS * 1000);
assert(argument == HANDLER_VISITED);
callout_deactivate(&callout);
}
void timeout_test_callout_mutex(bool delay_with_lock)
{
enum arg argument = HANDLER_NOT_VISITED;
struct callout callout;
struct mtx mtx;
int retval = 0;
printf("== Start a callout with a mutex%s\n", delay_with_lock ? " and delay execution by locking it." : ".");
mtx_init(&mtx, "callouttest", NULL, MTX_DEF);
callout_init_mtx(&callout, &mtx, 0);
retval = callout_reset(&callout, RTEMS_MILLISECONDS_TO_TICKS(TIMEOUT_MILLISECONDS), timeout_handler, &argument);
assert(retval == 0);
usleep(TEST_NOT_FIRED_MS * 1000);
assert(argument == HANDLER_NOT_VISITED);
if(delay_with_lock)
{
retval = mtx_trylock(&mtx);
assert(retval != 0);
usleep(TEST_DELAY_MS * 1000);
assert(argument == HANDLER_NOT_VISITED);
mtx_unlock(&mtx);
}
usleep(TEST_FIRED_MS * 1000);
assert(argument == HANDLER_VISITED);
callout_deactivate(&callout);
mtx_destroy(&mtx);
}
void timeout_test_callout_rwlock(bool delay_with_lock)
{
enum arg argument = HANDLER_NOT_VISITED;
struct callout callout;
struct rwlock rw;
int retval = 0;
printf("== Start a callout with a rwlock%s\n", delay_with_lock ? " and delay execution by locking it." : ".");
rw_init(&rw, "callouttest");
callout_init_rw(&callout, &rw, 0);
retval = callout_reset(&callout, RTEMS_MILLISECONDS_TO_TICKS(TIMEOUT_MILLISECONDS), timeout_handler, &argument);
assert(retval == 0);
usleep(TEST_NOT_FIRED_MS * 1000);
assert(argument == HANDLER_NOT_VISITED);
if(delay_with_lock)
{
retval = rw_try_wlock(&rw);
assert(retval != 0);
usleep(TEST_DELAY_MS * 1000);
assert(argument == HANDLER_NOT_VISITED);
rw_wunlock(&rw);
}
usleep(TEST_FIRED_MS * 1000);
assert(argument == HANDLER_VISITED);
callout_deactivate(&callout);
}
void timeout_test(void)
{
int mpsave = 0;
timeout_test_timeout();
timeout_test_cancel_timeout();
for(mpsave = 0; mpsave<=1; mpsave++)
{
timeout_test_callout(mpsave);
timeout_test_cancel_callout(mpsave, false);
timeout_test_cancel_callout(mpsave, true);
timeout_test_callout_reschedule(mpsave, false);
timeout_test_callout_reschedule(mpsave, true);
}
timeout_test_callout_mutex(false);
timeout_test_callout_mutex(true);
timeout_test_callout_rwlock(false);
timeout_test_callout_rwlock(true);
}
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