/* * Copyright (c) 2013-2016, 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. */ /* * Tests is to measure the accuracy of Ticker over a period of time * * * 1) DUT would start to update callback_trigger_count every milli sec, in 2x callback we use 2 tickers * to update the count alternatively. * 2) Host would query what is current count base_time, Device responds by the callback_trigger_count * 3) Host after waiting for measurement stretch. It will query for device time again final_time. * 4) Host computes the drift considering base_time, final_time, transport delay and measurement stretch * 5) Finally host send the results back to device pass/fail based on tolerance. * 6) More details on tests can be found in timing_drift_auto.py */ #include "mbed.h" #include "greentea-client/test_env.h" #include "utest/utest.h" #include "unity/unity.h" using namespace utest::v1; #define ONE_MILLI_SEC 1000 volatile uint32_t callback_trigger_count = 0; static const int test_timeout = 240; static const int total_ticks = 10; DigitalOut led1(LED1); DigitalOut led2(LED2); Ticker *ticker1; Ticker *ticker2; volatile int ticker_count = 0; volatile bool print_tick = false; void ticker_callback_1_switch_to_2(void); void ticker_callback_2_switch_to_1(void); void ticker_callback_0(void) { ++callback_trigger_count; } void ticker_callback_1_led(void) { led1 = !led1; } void ticker_callback_2_led(void) { led2 = !led2; } void ticker_callback_1_switch_to_2(void) { ++callback_trigger_count; ticker1->detach(); ticker1->attach_us(ticker_callback_2_switch_to_1, ONE_MILLI_SEC); ticker_callback_1_led(); } void ticker_callback_2_switch_to_1(void) { ++callback_trigger_count; ticker2->detach(); ticker2->attach_us(ticker_callback_1_switch_to_2, ONE_MILLI_SEC); ticker_callback_2_led(); } void wait_and_print() { while (ticker_count <= total_ticks) { if (print_tick) { print_tick = false; greentea_send_kv("tick", ticker_count++); } } } void test_case_1x_ticker() { char _key[11] = { }; char _value[128] = { }; uint8_t results_size = 0; int expected_key = 1; greentea_send_kv("timing_drift_check_start", 0); ticker1->attach_us(&ticker_callback_0, ONE_MILLI_SEC); // wait for 1st signal from host do { greentea_parse_kv(_key, _value, sizeof(_key), sizeof(_value)); expected_key = strcmp(_key, "base_time"); } while (expected_key); greentea_send_kv(_key, callback_trigger_count * ONE_MILLI_SEC); // wait for 2nd signal from host greentea_parse_kv(_key, _value, sizeof(_key), sizeof(_value)); greentea_send_kv(_key, callback_trigger_count * ONE_MILLI_SEC); //get the results from host greentea_parse_kv(_key, _value, sizeof(_key), sizeof(_value)); TEST_ASSERT_EQUAL_STRING_MESSAGE("pass", _key,"Host side script reported a fail..."); } void test_case_2x_callbacks() { char _key[11] = { }; char _value[128] = { }; uint8_t results_size = 0; int expected_key = 1; led1 = 0; led2 = 0; callback_trigger_count = 0; greentea_send_kv("timing_drift_check_start", 0); ticker1->attach_us(ticker_callback_1_switch_to_2, ONE_MILLI_SEC); // wait for 1st signal from host do { greentea_parse_kv(_key, _value, sizeof(_key), sizeof(_value)); expected_key = strcmp(_key, "base_time"); } while (expected_key); greentea_send_kv(_key, callback_trigger_count * ONE_MILLI_SEC); // wait for 2nd signal from host greentea_parse_kv(_key, _value, sizeof(_key), sizeof(_value)); greentea_send_kv(_key, callback_trigger_count * ONE_MILLI_SEC); //get the results from host greentea_parse_kv(_key, _value, sizeof(_key), sizeof(_value)); TEST_ASSERT_EQUAL_STRING_MESSAGE("pass", _key,"Host side script reported a fail..."); } utest::v1::status_t one_ticker_case_setup_handler_t(const Case *const source, const size_t index_of_case) { ticker1 = new Ticker(); return greentea_case_setup_handler(source, index_of_case); } utest::v1::status_t two_ticker_case_setup_handler_t(const Case *const source, const size_t index_of_case) { ticker1 = new Ticker(); ticker2 = new Ticker(); return greentea_case_setup_handler(source, index_of_case); } utest::v1::status_t one_ticker_case_teardown_handler_t(const Case *const source, const size_t passed, const size_t failed, const failure_t reason) { delete ticker1; return greentea_case_teardown_handler(source, passed, failed, reason); } utest::v1::status_t two_ticker_case_teardown_handler_t(const Case *const source, const size_t passed, const size_t failed, const failure_t reason) { delete ticker1; delete ticker2; return greentea_case_teardown_handler(source, passed, failed, reason); } // Test cases Case cases[] = { Case("Timers: 1x ticker", one_ticker_case_setup_handler_t,test_case_1x_ticker, one_ticker_case_teardown_handler_t), Case("Timers: 2x callbacks", two_ticker_case_setup_handler_t,test_case_2x_callbacks, two_ticker_case_teardown_handler_t), }; utest::v1::status_t greentea_test_setup(const size_t number_of_cases) { GREENTEA_SETUP(test_timeout, "timing_drift_auto"); return greentea_test_setup_handler(number_of_cases); } Specification specification(greentea_test_setup, cases, greentea_test_teardown_handler); int main() { Harness::run(specification); }