# SPDX-FileCopyrightText: 2022-2023 Espressif Systems (Shanghai) CO LTD # SPDX-License-Identifier: CC0-1.0 import logging import pytest from pytest_embedded import Dut STARTING_TIMERS_REGEX = r'Started timers, time since boot: (\d+) us' # name, period, next_alarm, times_started, times_fired, times_skipped, cb_exec_time TIMER_DUMP_LINE_REGEX = r'([\w-]+)\s+(\d+)\s+(\d+)\s+(\d+)\s+(\d+)\s+(\d+)\s+(\d+)' PERIODIC_TIMER_REGEX = r'Periodic timer called, time since boot: (\d+) us' LIGHT_SLEEP_ENTER_REGEX = r'Entering light sleep for 0\.5s, time since boot: (\d+) us' LIGHT_SLEEP_EXIT_REGEX = r'Woke up from light sleep, time since boot: (\d+) us' ONE_SHOT_REGEX = r'One\-shot timer called, time since boot: (\d+) us' RESTART_REGEX = r'Restarted periodic timer with 1s period, time since boot: (\d+) us' STOP_REGEX = r'Stopped and deleted timers' INITIAL_TIMER_PERIOD = 500000 FINAL_TIMER_PERIOD = 1000000 LIGHT_SLEEP_TIME = 500000 ONE_SHOT_TIMER_PERIOD = 5000000 @pytest.mark.supported_targets @pytest.mark.temp_skip_ci(targets=['esp32c6', 'esp32h2', 'esp32p4'], reason='c6/h2/p4 support TBD') @pytest.mark.generic @pytest.mark.parametrize( 'config', [ 'rtc', ], indirect=True ) def test_esp_timer(dut: Dut) -> None: match = dut.expect(STARTING_TIMERS_REGEX) start_time = int(match.group(1)) logging.info('Start time: {} us'.format(start_time)) match = dut.expect(TIMER_DUMP_LINE_REGEX, timeout=2) assert match.group(1).decode('utf8') == 'periodic' and int(match.group(2)) == INITIAL_TIMER_PERIOD match = dut.expect(TIMER_DUMP_LINE_REGEX, timeout=2) assert match.group(1).decode('utf8') == 'one-shot' and int(match.group(2)) == 0 for i in range(0, 5): match = dut.expect(PERIODIC_TIMER_REGEX, timeout=2) cur_time = int(match.group(1)) diff = start_time + (i + 1) * INITIAL_TIMER_PERIOD - cur_time logging.info('Callback #{}, time: {} us, diff: {} us'.format(i, cur_time, diff)) assert abs(diff) < 100 match = dut.expect(ONE_SHOT_REGEX, timeout=3) one_shot_timer_time = int(match.group(1)) diff = start_time + ONE_SHOT_TIMER_PERIOD - one_shot_timer_time logging.info('One-shot timer, time: {} us, diff: {}'.format(one_shot_timer_time, diff)) assert abs(diff) < 350 match = dut.expect(RESTART_REGEX, timeout=3) start_time = int(match.group(1)) logging.info('Timer restarted, time: {} us'.format(start_time)) for i in range(0, 5): match = dut.expect(PERIODIC_TIMER_REGEX, timeout=2) cur_time = int(match.group(1)) diff = start_time + (i + 1) * FINAL_TIMER_PERIOD - cur_time logging.info('Callback #{}, time: {} us, diff: {} us'.format(i, cur_time, diff)) assert abs(diff) < 100 match = dut.expect(LIGHT_SLEEP_ENTER_REGEX, timeout=2) sleep_enter_time = int(match.group(1)) match = dut.expect(LIGHT_SLEEP_EXIT_REGEX, timeout=2) sleep_exit_time = int(match.group(1)) sleep_time = sleep_exit_time - sleep_enter_time logging.info('Enter sleep: {}, exit sleep: {}, slept: {}'.format( sleep_enter_time, sleep_exit_time, sleep_time)) assert abs(sleep_time - LIGHT_SLEEP_TIME) < 1000 for i in range(5, 7): match = dut.expect(PERIODIC_TIMER_REGEX, timeout=2) cur_time = int(match.group(1)) diff = abs(start_time + (i + 1) * FINAL_TIMER_PERIOD - cur_time) logging.info('Callback #{}, time: {} us, diff: {} us'.format(i, cur_time, diff)) assert diff < 100 dut.expect(STOP_REGEX, timeout=2)