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Beslan
2026-06-01 20:15:04 +03:00
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drivers/tests/TESTS/mbed_drivers/lp_timer/main.cpp Normal file
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/*
* Copyright (c) 2017, ARM Limited, All Rights Reserved
* SPDX-License-Identifier: Apache-2.0
*
* Licensed under the Apache License, Version 2.0 (the "License"); you may
* not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
* WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include "mbed.h"
#include "greentea-client/test_env.h"
#include "unity.h"
#include "utest.h"
#include "hal/us_ticker_api.h"
#if !DEVICE_LPTICKER
#error [NOT_SUPPORTED] test not supported
#else
using namespace utest::v1;
extern uint32_t SystemCoreClock;
/* This test is created based on the test for Timer class.
* Since low power timer is less accurate than regular
* timer we need to adjust delta.
*/
/*
* Define tolerance as follows:
* tolerance = 500 us + 5% of measured time
*
* e.g.
* 1 ms delay: tolerance = 550 us
* 10 ms delay: tolerance = 1000 us
* 100 ms delay: tolerance = 5500 us
* 1000 ms delay: tolerance = 50500 us
*
* */
#define US_PER_SEC 1000000
#define US_PER_MSEC 1000
#define MSEC_PER_SEC 1000
#define DELTA_US(delay_ms) (500 + (delay_ms) * US_PER_MSEC / 20)
#define DELTA_MS(delay_ms) (1 + ((delay_ms) * US_PER_MSEC / 20 / US_PER_MSEC))
#define DELTA_S(delay_ms) (0.000500f + (((float)(delay_ms)) / MSEC_PER_SEC / 20))
void busy_wait_us(int us)
{
const ticker_data_t *const ticker = get_us_ticker_data();
uint32_t start = ticker_read(ticker);
while ((ticker_read(ticker) - start) < (uint32_t)us);
}
void busy_wait_ms(int ms)
{
busy_wait_us(ms * US_PER_MSEC);
}
/* This test verifies if low power timer is stopped after
* creation.
*
* Given Timer has been successfully created.
* When read of timer elapsed time is requested.
* Then result is always 0.
*/
void test_lptimer_creation()
{
LowPowerTimer lp_timer;
/* Check results. */
TEST_ASSERT_EQUAL_FLOAT(0, lp_timer.read());
TEST_ASSERT_EQUAL_INT32(0, lp_timer.read_ms());
TEST_ASSERT_EQUAL_INT32(0, lp_timer.read_us());
TEST_ASSERT_EQUAL_UINT64(0, lp_timer.read_high_resolution_us());
/* Wait 10 ms.
* After that operation timer read routines should still return 0. */
busy_wait_ms(10);
/* Check results. */
TEST_ASSERT_EQUAL_FLOAT(0, lp_timer.read());
TEST_ASSERT_EQUAL_INT32(0, lp_timer.read_ms());
TEST_ASSERT_EQUAL_INT32(0, lp_timer.read_us());
TEST_ASSERT_EQUAL_UINT64(0, lp_timer.read_high_resolution_us());
}
/* This test verifies if read(), read_us(), read_ms(),
* read_high_resolution_us()
* functions return time accumulated between
* low power timer starts and stops.
*
* Given Timer has been successfully created and
* few times started and stopped after a specified period of time.
* When timer read request is performed.
* Then read functions return accumulated time elapsed between starts
* and stops.
*/
void test_lptimer_time_accumulation()
{
LowPowerTimer lp_timer;
/* Start the timer. */
lp_timer.start();
/* Wait 10 ms. */
busy_wait_ms(10);
/* Stop the timer. */
lp_timer.stop();
/* Check results - totally 10 ms have elapsed. */
TEST_ASSERT_FLOAT_WITHIN(DELTA_S(10), 0.010f, lp_timer.read());
TEST_ASSERT_INT32_WITHIN(DELTA_MS(10), 10, lp_timer.read_ms());
TEST_ASSERT_INT32_WITHIN(DELTA_US(10), 10000, lp_timer.read_us());
TEST_ASSERT_UINT64_WITHIN(DELTA_US(10), 10000, lp_timer.read_high_resolution_us());
/* Wait 50 ms - this is done to show that time elapsed when
* the timer is stopped does not have influence on the
* timer counted time. */
busy_wait_ms(50);
/* ------ */
/* Start the timer. */
lp_timer.start();
/* Wait 20 ms. */
busy_wait_ms(20);
/* Stop the timer. */
lp_timer.stop();
/* Check results - totally 30 ms have elapsed. */
TEST_ASSERT_FLOAT_WITHIN(DELTA_S(30), 0.030f, lp_timer.read());
TEST_ASSERT_INT32_WITHIN(DELTA_MS(30), 30, lp_timer.read_ms());
TEST_ASSERT_INT32_WITHIN(DELTA_US(30), 30000, lp_timer.read_us());
TEST_ASSERT_UINT64_WITHIN(DELTA_US(30), 30000, lp_timer.read_high_resolution_us());
/* Wait 50 ms - this is done to show that time elapsed when
* the timer is stopped does not have influence on the
* timer counted time. */
/* ------ */
/* Start the timer. */
lp_timer.start();
/* Wait 30 ms. */
busy_wait_ms(30);
/* Stop the timer. */
lp_timer.stop();
/* Check results - totally 60 ms have elapsed. */
TEST_ASSERT_FLOAT_WITHIN(DELTA_S(60), 0.060f, lp_timer.read());
TEST_ASSERT_INT32_WITHIN(DELTA_MS(60), 60, lp_timer.read_ms());
TEST_ASSERT_INT32_WITHIN(DELTA_US(60), 60000, lp_timer.read_us());
TEST_ASSERT_UINT64_WITHIN(DELTA_US(60), 60000, lp_timer.read_high_resolution_us());
/* Wait 50 ms - this is done to show that time elapsed when
* the timer is stopped does not have influence on the
* timer time. */
busy_wait_ms(50);
/* ------ */
/* Start the timer. */
lp_timer.start();
/* Wait 1 sec. */
busy_wait_ms(1000);
/* Stop the timer. */
lp_timer.stop();
/* Check results - totally 1060 ms have elapsed. */
TEST_ASSERT_FLOAT_WITHIN(DELTA_S(1060), 1.060f, lp_timer.read());
TEST_ASSERT_INT32_WITHIN(DELTA_MS(1060), 1060, lp_timer.read_ms());
TEST_ASSERT_INT32_WITHIN(DELTA_US(1060), 1060000, lp_timer.read_us());
TEST_ASSERT_UINT64_WITHIN(DELTA_US(1060), 1060000, lp_timer.read_high_resolution_us());
}
/* This test verifies if reset() function resets the
* low power timer counted time.
*
* Given timer has been started and stopped once, then reset
* operation was performed.
* When timer is started and stopped next time.
* Then timer read functions returns only the the second
* measured time.
*/
void test_lptimer_reset()
{
LowPowerTimer lp_timer;
/* First measure 10 ms delay. */
lp_timer.start();
/* Wait 10 ms. */
busy_wait_ms(10);
/* Stop the timer. */
lp_timer.stop();
/* Check results - totally 10 ms elapsed. */
TEST_ASSERT_FLOAT_WITHIN(DELTA_S(10), 0.010f, lp_timer.read());
TEST_ASSERT_INT32_WITHIN(DELTA_MS(10), 10, lp_timer.read_ms());
TEST_ASSERT_INT32_WITHIN(DELTA_US(10), 10000, lp_timer.read_us());
TEST_ASSERT_UINT64_WITHIN(DELTA_US(10), 10000, lp_timer.read_high_resolution_us());
/* Reset the timer - previous measured time should be lost now. */
lp_timer.reset();
/* Now measure 20 ms delay. */
lp_timer.start();
/* Wait 20 ms. */
busy_wait_ms(20);
/* Stop the timer. */
lp_timer.stop();
/* Check results - 20 ms elapsed since the reset. */
TEST_ASSERT_FLOAT_WITHIN(DELTA_S(20), 0.020f, lp_timer.read());
TEST_ASSERT_INT32_WITHIN(DELTA_MS(20), 20, lp_timer.read_ms());
TEST_ASSERT_INT32_WITHIN(DELTA_US(20), 20000, lp_timer.read_us());
TEST_ASSERT_UINT64_WITHIN(DELTA_US(20), 20000, lp_timer.read_high_resolution_us());
}
/* This test verifies if calling start() for already
* started low power timer does nothing.
*
* Given timer is already started.
* When timer is started again.
* Then second start operation is ignored.
*/
void test_lptimer_start_started_timer()
{
LowPowerTimer lp_timer;
/* Start the timer. */
lp_timer.start();
/* Wait 10 ms. */
busy_wait_ms(10);
/* Now start timer again. */
lp_timer.start();
/* Wait 20 ms. */
busy_wait_ms(20);
/* Stop the timer. */
lp_timer.stop();
/* Check results - 30 ms have elapsed since the first start. */
TEST_ASSERT_FLOAT_WITHIN(DELTA_S(30), 0.030f, lp_timer.read());
TEST_ASSERT_INT32_WITHIN(DELTA_MS(30), 30, lp_timer.read_ms());
TEST_ASSERT_INT32_WITHIN(DELTA_US(30), 30000, lp_timer.read_us());
TEST_ASSERT_UINT64_WITHIN(DELTA_US(30), 30000, lp_timer.read_high_resolution_us());
}
/* This test verifies low power timer float operator.
*
* Given timer is created and a time period time is counted.
* When timer object is casted on float type.
* Then counted type in seconds is returned by means of
* read() function.
*/
void test_lptimer_float_operator()
{
LowPowerTimer lp_timer;
/* Start the timer. */
lp_timer.start();
/* Wait 10 ms. */
busy_wait_ms(10);
/* Stop the timer. */
lp_timer.stop();
/* Check result - 10 ms elapsed. */
TEST_ASSERT_FLOAT_WITHIN(DELTA_S(10), 0.010f, (float)(lp_timer));
}
/* This test verifies if time counted by the low power timer is
* valid.
*
* Given timer is created.
* When timer is used to measure 1ms/10ms/100ms/1s
* delays.
* Then the results are valid (within acceptable range).
*/
template<int wait_val_us>
void test_lptimer_time_measurement()
{
LowPowerTimer lp_timer;
const int delta_ms = (wait_val_us / US_PER_MSEC);
/* Start the timer. */
lp_timer.start();
/* Wait <wait_val_us> us. */
busy_wait_us(wait_val_us);
/* Stop the timer. */
lp_timer.stop();
/* Check results - wait_val_us us have elapsed. */
TEST_ASSERT_FLOAT_WITHIN(DELTA_S(delta_ms), (float)wait_val_us / 1000000, lp_timer.read());
TEST_ASSERT_INT32_WITHIN(DELTA_MS(delta_ms), wait_val_us / 1000, lp_timer.read_ms());
TEST_ASSERT_INT32_WITHIN(DELTA_US(delta_ms), wait_val_us, lp_timer.read_us());
TEST_ASSERT_UINT64_WITHIN(DELTA_US(delta_ms), wait_val_us, lp_timer.read_high_resolution_us());
}
utest::v1::status_t test_setup(const size_t number_of_cases)
{
GREENTEA_SETUP(15, "default_auto");
return verbose_test_setup_handler(number_of_cases);
}
Case cases[] = {
Case("Test: LowPowerTimer - stopped after creation.", test_lptimer_creation),
Case("Test: LowPowerTimer - measure time accumulation.", test_lptimer_time_accumulation),
Case("Test: LowPowerTimer - reset.", test_lptimer_reset),
Case("Test: LowPowerTimer - start started timer.", test_lptimer_start_started_timer),
Case("Test: LowPowerTimer - float operator.", test_lptimer_float_operator),
Case("Test: LowPowerTimer - time measurement 1 ms.", test_lptimer_time_measurement<1000>),
Case("Test: LowPowerTimer - time measurement 10 ms.", test_lptimer_time_measurement<10000>),
Case("Test: LowPowerTimer - time measurement 100 ms.", test_lptimer_time_measurement<100000>),
Case("Test: LowPowerTimer - time measurement 1 s.", test_lptimer_time_measurement<1000000>)
};
Specification specification(test_setup, cases);
int main()
{
return !Harness::run(specification);
}
#endif // !DEVICE_LPTICKER