/* * Copyright (C) 2012-2014 The Android Open Source Project * * 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 #include #include #include #include #include #include #include #include #define TLOG_TAG "timertest" static void __attribute__((noinline)) nop(void) { __UNUSED static int i; i++; } struct timer_unittest { struct unittest unittest; bool loop; }; /* Timer constants (nanoseconds) */ #define ONE_US (1000ULL) #define ONE_MS (1000ULL * ONE_US) #define ONE_S (1000ULL * ONE_MS) #define TIMER_TEST_NOP_LOOP_COUNT (100000000) #define TIMER_TEST_MS_SLEEP_LOOP_COUNT (1000) static void check_timestamps(int64_t t1, int64_t delta_min, int64_t delta_max, const char* name) { int64_t delta; int64_t t2 = t1 - 1; trusty_gettime(0, &t2); delta = t2 - t1; EXPECT_EQ(false, (delta < delta_min || delta > delta_max), "bad timestamp after %s: t1 %" PRId64 ", t2 %" PRId64 ", delta %" PRId64 ", min %" PRId64 " max %" PRId64 "\n", name, t1, t2, t2 - t1, delta_min, delta_max); } TEST(TimerTest, BusyLoop) { int i; int64_t ts = 0; trusty_gettime(0, &ts); for (i = 0; i < TIMER_TEST_NOP_LOOP_COUNT; i++) nop(); check_timestamps(ts, TIMER_TEST_NOP_LOOP_COUNT / 100, TIMER_TEST_NOP_LOOP_COUNT * 10000ULL, "nop loop"); } TEST(TimerTest, NanoSleepOneMilliSecond) { int i; int64_t ts = 0; trusty_gettime(0, &ts); for (i = 0; i < TIMER_TEST_MS_SLEEP_LOOP_COUNT; i++) trusty_nanosleep(0, 0, ONE_MS); check_timestamps(ts, TIMER_TEST_MS_SLEEP_LOOP_COUNT * ONE_MS, TIMER_TEST_MS_SLEEP_LOOP_COUNT * ONE_MS * 10, "ms loop"); } TEST(TimerTest, NanoSleepTenSeconds) { int64_t ts = 0; trusty_gettime(0, &ts); trusty_nanosleep(0, 0, 10ULL * ONE_S); check_timestamps(ts, ONE_S * 10, ONE_S * 11, "10s sleep"); } static bool timer_test(struct unittest* test) { struct timer_unittest* timer_test = containerof(test, struct timer_unittest, unittest); bool passed; do { passed = RUN_ALL_SUITE_TESTS("TimerTest"); } while (timer_test->loop); return passed; } /* Repeatedly expire a 1 micro-second timer for about 60 seconds */ TEST(TimerStressTest, NanoSleepStressTestSixtySeconds) { int64_t end = 0, now = 0; int i, remaining, last_remaining = 0; trusty_gettime(0, &now); end = now + (ONE_S * 60); while (now < end) { remaining = (end - now) / ONE_S; if (remaining != last_remaining) { trusty_unittest_printf("[ INFO ] remaining %ds\n", remaining); last_remaining = remaining; } for (i = 0; i < 8192; i++) { trusty_nanosleep(0, 0, ONE_US); } trusty_gettime(0, &now); } } static bool timer_stress_test(struct unittest* test) { struct timer_unittest* timer_test = containerof(test, struct timer_unittest, unittest); bool passed; do { passed = RUN_ALL_SUITE_TESTS("TimerStressTest"); } while (timer_test->loop); return passed; } #define PORT_BASE "com.android.timer-unittest" int main(void) { static struct timer_unittest timer_unittests[] = { { .unittest = { .port_name = PORT_BASE, .run_test = timer_test, }, .loop = false, }, { .unittest = { .port_name = PORT_BASE ".loop", .run_test = timer_test, }, .loop = true, }, { .unittest = { .port_name = PORT_BASE ".stress", .run_test = timer_stress_test, }, .loop = false, }}; static struct unittest* unittests[countof(timer_unittests)]; for (size_t i = 0; i < countof(timer_unittests); i++) { unittests[i] = &timer_unittests[i].unittest; } return unittest_main(unittests, countof(unittests)); }