/* Copyright (c) 2016-2020 the Civetweb developers * * Permission is hereby granted, free of charge, to any person obtaining a copy * of this software and associated documentation files (the "Software"), to deal * in the Software without restriction, including without limitation the rights * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell * copies of the Software, and to permit persons to whom the Software is * furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in * all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN * THE SOFTWARE. */ /** * We include the source file so that we have access to the internal private * static functions */ #ifdef _MSC_VER #ifndef _CRT_SECURE_NO_WARNINGS #define _CRT_SECURE_NO_WARNINGS #endif #endif #if defined(__GNUC__) #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wunused-function" #endif #define CIVETWEB_API static #define USE_TIMERS #include "../src/civetweb.c" #include #include #include "timertest.h" #define TIMERS_IN_TEST 10 static int action_dec_ret; static int action_dec(void *arg) { int *p = (int *)arg; (*p)--; if (*p < -1) { ck_abort_msg("Periodic timer called too often"); /* return 0 here would be unreachable code */ } return (*p >= -3) ? action_dec_ret : 0; } static void action_cancel(void *arg) { int *p = (int *)arg; /* test convention: store cancel counter after timer counter */ p += TIMERS_IN_TEST; if (*p != 0) { ck_abort_msg("Double call of timer cancel action"); /* return 0 here would be unreachable code */ } (*p)++; } static int action_dec_to_0(void *arg) { int *p = (int *)arg; (*p)--; if (*p <= -1) { ck_abort_msg("Periodic timer called too often"); /* return 0 here would be unreachable code */ } return (*p > 0); } START_TEST(test_timer_cyclic) { struct mg_context ctx; int c[TIMERS_IN_TEST * 2]; memset(&ctx, 0, sizeof(ctx)); memset(c, 0, sizeof(c)); action_dec_ret = 1; mark_point(); timers_init(&ctx); mg_sleep(100); mark_point(); c[0] = 100; timer_add(&ctx, 0.05, 0.1, 1, action_dec, c + 0, action_cancel); c[2] = 20; timer_add(&ctx, 0.25, 0.5, 1, action_dec, c + 2, action_cancel); c[1] = 50; timer_add(&ctx, 0.1, 0.2, 1, action_dec, c + 1, action_cancel); mark_point(); mg_sleep(10000); /* Sleep 10 second - timers will run */ mark_point(); ctx.stop_flag = 99; /* End timer thread */ mark_point(); mg_sleep(2000); /* Sleep 2 second - timers will not run */ mark_point(); timers_exit(&ctx); mark_point(); mg_sleep(2000); /* Sleep 2 second - timers will not run */ mark_point(); /* If this test runs in a virtual environment, like the CI unit test * containers, there might be some timing deviations, so check the * counter with some tolerance. */ ck_assert_int_ge(c[0], -1); ck_assert_int_le(c[0], +1); ck_assert_int_ge(c[1], -1); ck_assert_int_le(c[1], +1); ck_assert_int_ge(c[2], -1); ck_assert_int_le(c[2], +1); /* Every cancel action must be called once */ ck_assert_int_eq(c[0 + TIMERS_IN_TEST], 1); ck_assert_int_eq(c[1 + TIMERS_IN_TEST], 1); ck_assert_int_eq(c[2 + TIMERS_IN_TEST], 1); } END_TEST START_TEST(test_timer_oneshot_by_callback_retval) { struct mg_context ctx; int c[TIMERS_IN_TEST * 2]; memset(&ctx, 0, sizeof(ctx)); memset(c, 0, sizeof(c)); action_dec_ret = 0; mark_point(); timers_init(&ctx); mg_sleep(100); mark_point(); c[0] = 10; timer_add(&ctx, 0, 0.1, 1, action_dec, c + 0, action_cancel); c[2] = 2; timer_add(&ctx, 0, 0.5, 1, action_dec, c + 2, action_cancel); c[1] = 5; timer_add(&ctx, 0, 0.2, 1, action_dec, c + 1, action_cancel); mark_point(); mg_sleep(1000); /* Sleep 1 second - timer will run */ mark_point(); ctx.stop_flag = 99; /* End timer thread */ mark_point(); mg_sleep(1000); /* Sleep 1 second - timer will not run */ mark_point(); timers_exit(&ctx); mark_point(); mg_sleep(2000); /* Sleep 2 second - timers will not run */ mark_point(); /* Every decrement action must be called once */ ck_assert_int_eq(c[0], 9); ck_assert_int_eq(c[1], 4); ck_assert_int_eq(c[2], 1); /* Every cancel action must be called once */ ck_assert_int_eq(c[0 + TIMERS_IN_TEST], 1); ck_assert_int_eq(c[1 + TIMERS_IN_TEST], 1); ck_assert_int_eq(c[2 + TIMERS_IN_TEST], 1); } END_TEST START_TEST(test_timer_oneshot_by_timer_add) { struct mg_context ctx; int c[TIMERS_IN_TEST * 2]; memset(&ctx, 0, sizeof(ctx)); memset(c, 0, sizeof(c)); action_dec_ret = 1; mark_point(); timers_init(&ctx); mg_sleep(100); mark_point(); c[0] = 10; timer_add(&ctx, 0, 0, 1, action_dec, c + 0, action_cancel); c[2] = 2; timer_add(&ctx, 0, 0, 1, action_dec, c + 2, action_cancel); c[1] = 5; timer_add(&ctx, 0, 0, 1, action_dec, c + 1, action_cancel); mark_point(); mg_sleep(1000); /* Sleep 1 second - timer will run */ mark_point(); ctx.stop_flag = 99; /* End timer thread */ mark_point(); mg_sleep(1000); /* Sleep 1 second - timer will not run */ mark_point(); timers_exit(&ctx); mark_point(); mg_sleep(2000); /* Sleep 2 second - timers will not run */ mark_point(); /* Every decrement action was called once */ ck_assert_int_eq(c[0], 9); ck_assert_int_eq(c[1], 4); ck_assert_int_eq(c[2], 1); /* Every cancel action must be called once */ ck_assert_int_eq(c[0 + TIMERS_IN_TEST], 1); ck_assert_int_eq(c[1 + TIMERS_IN_TEST], 1); ck_assert_int_eq(c[2 + TIMERS_IN_TEST], 1); } END_TEST START_TEST(test_timer_mixed) { struct mg_context ctx; int c[TIMERS_IN_TEST]; memset(&ctx, 0, sizeof(ctx)); memset(c, 0, sizeof(c)); mark_point(); timers_init(&ctx); mg_sleep(100); mark_point(); /* 3 --> 2, because it is a single shot timer */ c[0] = 3; timer_add(&ctx, 0, 0, 1, action_dec_to_0, &c[0], NULL); /* 3 --> 0, because it will run until c[1] = 0 and then stop */ c[1] = 3; timer_add(&ctx, 0, 0.2, 1, action_dec_to_0, &c[1], NULL); /* 3 --> 1, with 750 ms period, it will run once at start, * then once 750 ms later, but not 1500 ms later, since the * timer is already stopped then. */ c[2] = 3; timer_add(&ctx, 0, 0.75, 1, action_dec_to_0, &c[2], NULL); /* 3 --> 2, will run at start, but no cyclic in 1 second */ c[3] = 3; timer_add(&ctx, 0, 2.5, 1, action_dec_to_0, &c[3], NULL); /* 3 --> 3, will not run at start */ c[4] = 3; timer_add(&ctx, 2.5, 0.1, 1, action_dec_to_0, &c[4], NULL); /* 3 --> 2, an absolute timer in the past (-123.456) will still * run once at start, and then with the period */ c[5] = 3; timer_add(&ctx, -123.456, 2.5, 0, action_dec_to_0, &c[5], NULL); /* 3 --> 1, an absolute timer in the past (-123.456) will still * run once at start, and then with the period */ c[6] = 3; timer_add(&ctx, -123.456, 0.75, 0, action_dec_to_0, &c[6], NULL); mark_point(); mg_sleep(1000); /* Sleep 1 second - timer will run */ mark_point(); ctx.stop_flag = 99; /* End timer thread */ mark_point(); mg_sleep(1000); /* Sleep 1 second - timer will not run */ mark_point(); timers_exit(&ctx); mark_point(); mg_sleep(2000); /* Sleep 2 second - timers will not run */ mark_point(); ck_assert_int_eq(c[0], 2); ck_assert_int_eq(c[1], 0); ck_assert_int_eq(c[2], 1); ck_assert_int_eq(c[3], 2); ck_assert_int_eq(c[4], 3); ck_assert_int_eq(c[5], 2); ck_assert_int_eq(c[6], 1); } END_TEST #if !defined(REPLACE_CHECK_FOR_LOCAL_DEBUGGING) Suite * make_timertest_suite(void) { Suite *const suite = suite_create("Timer"); TCase *const tcase_timer_cyclic = tcase_create("Timer Periodic"); TCase *const tcase_timer_oneshot = tcase_create("Timer Single Shot"); TCase *const tcase_timer_mixed = tcase_create("Timer Mixed"); tcase_add_test(tcase_timer_cyclic, test_timer_cyclic); tcase_set_timeout(tcase_timer_cyclic, 30); suite_add_tcase(suite, tcase_timer_cyclic); tcase_add_test(tcase_timer_oneshot, test_timer_oneshot_by_timer_add); tcase_add_test(tcase_timer_oneshot, test_timer_oneshot_by_callback_retval); tcase_set_timeout(tcase_timer_oneshot, 30); suite_add_tcase(suite, tcase_timer_oneshot); tcase_add_test(tcase_timer_mixed, test_timer_mixed); tcase_set_timeout(tcase_timer_mixed, 30); suite_add_tcase(suite, tcase_timer_mixed); return suite; } #else /* Used to debug test cases without using the check framework */ void MAIN_TIMER_PRIVATE(void) { unsigned f_avail; unsigned f_ret; #if defined(_WIN32) WSADATA data; WSAStartup(MAKEWORD(2, 2), &data); #endif f_avail = mg_check_feature(0xFF); f_ret = mg_init_library(f_avail); ck_assert_uint_eq(f_ret, f_avail); test_timer_cyclic(0); test_timer_oneshot_by_timer_add(0); test_timer_oneshot_by_callback_retval(0); test_timer_mixed(0); mg_exit_library(); #if defined(_WIN32) WSACleanup(); #endif } #endif