/****************************************************************************** * * Copyright 2014 Google, Inc. * * 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 "AlarmTestHarness.h" #include "common/message_loop_thread.h" #include "osi/include/alarm.h" #include "osi/include/fixed_queue.h" #include "osi/include/osi.h" #include "osi/include/semaphore.h" using base::Closure; using base::TimeDelta; using bluetooth::common::MessageLoopThread; static semaphore_t* semaphore; static int cb_counter; static int cb_misordered_counter; static const uint64_t EPSILON_MS = 50; static void msleep(uint64_t ms) { usleep(ms * 1000); } static MessageLoopThread* thread_; bluetooth::common::MessageLoopThread* get_main_thread() { return thread_; } class AlarmTest : public AlarmTestHarness { protected: void SetUp() override { AlarmTestHarness::SetUp(); cb_counter = 0; cb_misordered_counter = 0; semaphore = semaphore_new(0); } void TearDown() override { semaphore_free(semaphore); AlarmTestHarness::TearDown(); } }; static void cb(UNUSED_ATTR void* data) { ++cb_counter; semaphore_post(semaphore); } static void ordered_cb(void* data) { int i = PTR_TO_INT(data); if (i != cb_counter) cb_misordered_counter++; ++cb_counter; semaphore_post(semaphore); } TEST_F(AlarmTest, test_new_free_simple) { alarm_t* alarm = alarm_new("alarm_test.test_new_free_simple"); ASSERT_TRUE(alarm != NULL); alarm_free(alarm); } TEST_F(AlarmTest, test_free_null) { alarm_free(NULL); } TEST_F(AlarmTest, test_simple_cancel) { alarm_t* alarm = alarm_new("alarm_test.test_simple_cancel"); alarm_cancel(alarm); alarm_free(alarm); } TEST_F(AlarmTest, test_cancel) { alarm_t* alarm = alarm_new("alarm_test.test_cancel"); alarm_set(alarm, 10, cb, NULL); alarm_cancel(alarm); msleep(10 + EPSILON_MS); EXPECT_EQ(cb_counter, 0); EXPECT_FALSE(WakeLockHeld()); alarm_free(alarm); } TEST_F(AlarmTest, test_cancel_idempotent) { alarm_t* alarm = alarm_new("alarm_test.test_cancel_idempotent"); alarm_set(alarm, 10, cb, NULL); alarm_cancel(alarm); alarm_cancel(alarm); alarm_cancel(alarm); alarm_free(alarm); } TEST_F(AlarmTest, test_set_short) { alarm_t* alarm = alarm_new("alarm_test.test_set_short"); alarm_set(alarm, 10, cb, NULL); EXPECT_EQ(cb_counter, 0); EXPECT_TRUE(WakeLockHeld()); semaphore_wait(semaphore); EXPECT_EQ(cb_counter, 1); EXPECT_FALSE(WakeLockHeld()); alarm_free(alarm); } TEST_F(AlarmTest, test_set_short_periodic) { alarm_t* alarm = alarm_new_periodic("alarm_test.test_set_short_periodic"); alarm_set(alarm, 10, cb, NULL); EXPECT_EQ(cb_counter, 0); EXPECT_TRUE(WakeLockHeld()); for (int i = 1; i <= 10; i++) { semaphore_wait(semaphore); EXPECT_GE(cb_counter, i); EXPECT_TRUE(WakeLockHeld()); } alarm_cancel(alarm); EXPECT_FALSE(WakeLockHeld()); alarm_free(alarm); } TEST_F(AlarmTest, test_set_zero_periodic) { alarm_t* alarm = alarm_new_periodic("alarm_test.test_set_zero_periodic"); alarm_set(alarm, 0, cb, NULL); EXPECT_TRUE(WakeLockHeld()); for (int i = 1; i <= 10; i++) { semaphore_wait(semaphore); EXPECT_GE(cb_counter, i); EXPECT_TRUE(WakeLockHeld()); } alarm_cancel(alarm); EXPECT_FALSE(WakeLockHeld()); alarm_free(alarm); } TEST_F(AlarmTest, test_set_long) { alarm_t* alarm = alarm_new("alarm_test.test_set_long"); alarm_set(alarm, TIMER_INTERVAL_FOR_WAKELOCK_IN_MS + EPSILON_MS, cb, NULL); EXPECT_EQ(cb_counter, 0); EXPECT_FALSE(WakeLockHeld()); semaphore_wait(semaphore); EXPECT_EQ(cb_counter, 1); EXPECT_FALSE(WakeLockHeld()); alarm_free(alarm); } TEST_F(AlarmTest, test_set_short_short) { alarm_t* alarm[2] = {alarm_new("alarm_test.test_set_short_short_0"), alarm_new("alarm_test.test_set_short_short_1")}; alarm_set(alarm[0], 10, cb, NULL); alarm_set(alarm[1], 20, cb, NULL); EXPECT_EQ(cb_counter, 0); EXPECT_TRUE(WakeLockHeld()); semaphore_wait(semaphore); EXPECT_EQ(cb_counter, 1); EXPECT_TRUE(WakeLockHeld()); semaphore_wait(semaphore); EXPECT_EQ(cb_counter, 2); EXPECT_FALSE(WakeLockHeld()); alarm_free(alarm[0]); alarm_free(alarm[1]); } TEST_F(AlarmTest, test_set_short_long) { alarm_t* alarm[2] = {alarm_new("alarm_test.test_set_short_long_0"), alarm_new("alarm_test.test_set_short_long_1")}; alarm_set(alarm[0], 10, cb, NULL); alarm_set(alarm[1], 10 + TIMER_INTERVAL_FOR_WAKELOCK_IN_MS + EPSILON_MS, cb, NULL); EXPECT_EQ(cb_counter, 0); EXPECT_TRUE(WakeLockHeld()); semaphore_wait(semaphore); EXPECT_EQ(cb_counter, 1); EXPECT_FALSE(WakeLockHeld()); semaphore_wait(semaphore); EXPECT_EQ(cb_counter, 2); EXPECT_FALSE(WakeLockHeld()); alarm_free(alarm[0]); alarm_free(alarm[1]); } TEST_F(AlarmTest, test_set_long_long) { alarm_t* alarm[2] = {alarm_new("alarm_test.test_set_long_long_0"), alarm_new("alarm_test.test_set_long_long_1")}; alarm_set(alarm[0], TIMER_INTERVAL_FOR_WAKELOCK_IN_MS + EPSILON_MS, cb, NULL); alarm_set(alarm[1], 2 * (TIMER_INTERVAL_FOR_WAKELOCK_IN_MS + EPSILON_MS), cb, NULL); EXPECT_EQ(cb_counter, 0); EXPECT_FALSE(WakeLockHeld()); semaphore_wait(semaphore); EXPECT_EQ(cb_counter, 1); EXPECT_FALSE(WakeLockHeld()); semaphore_wait(semaphore); EXPECT_EQ(cb_counter, 2); EXPECT_FALSE(WakeLockHeld()); alarm_free(alarm[0]); alarm_free(alarm[1]); } TEST_F(AlarmTest, test_is_scheduled) { alarm_t* alarm = alarm_new("alarm_test.test_is_scheduled"); EXPECT_FALSE(alarm_is_scheduled((alarm_t*)NULL)); EXPECT_FALSE(alarm_is_scheduled(alarm)); alarm_set(alarm, TIMER_INTERVAL_FOR_WAKELOCK_IN_MS + EPSILON_MS, cb, NULL); EXPECT_TRUE(alarm_is_scheduled(alarm)); EXPECT_EQ(cb_counter, 0); EXPECT_FALSE(WakeLockHeld()); semaphore_wait(semaphore); EXPECT_FALSE(alarm_is_scheduled(alarm)); EXPECT_EQ(cb_counter, 1); EXPECT_FALSE(WakeLockHeld()); alarm_free(alarm); } // Test whether the callbacks are invoked in the expected order TEST_F(AlarmTest, test_callback_ordering) { alarm_t* alarms[100]; for (int i = 0; i < 100; i++) { const std::string alarm_name = "alarm_test.test_callback_ordering[" + std::to_string(i) + "]"; alarms[i] = alarm_new(alarm_name.c_str()); } for (int i = 0; i < 100; i++) { alarm_set(alarms[i], 100, ordered_cb, INT_TO_PTR(i)); } for (int i = 1; i <= 100; i++) { semaphore_wait(semaphore); EXPECT_GE(cb_counter, i); } EXPECT_EQ(cb_counter, 100); EXPECT_EQ(cb_misordered_counter, 0); for (int i = 0; i < 100; i++) alarm_free(alarms[i]); EXPECT_FALSE(WakeLockHeld()); } // Test whether the callbacks are involed in the expected order on a // message loop. TEST_F(AlarmTest, test_callback_ordering_on_mloop) { alarm_t* alarms[100]; // Initialize MesageLoop, and wait till it's initialized. MessageLoopThread message_loop_thread("btu message loop"); message_loop_thread.StartUp(); if (!message_loop_thread.IsRunning()) { FAIL() << "unable to create btu message loop thread."; } thread_ = &message_loop_thread; for (int i = 0; i < 100; i++) { const std::string alarm_name = "alarm_test.test_callback_ordering_on_mloop[" + std::to_string(i) + "]"; alarms[i] = alarm_new(alarm_name.c_str()); } for (int i = 0; i < 100; i++) { alarm_set_on_mloop(alarms[i], 100, ordered_cb, INT_TO_PTR(i)); } for (int i = 1; i <= 100; i++) { semaphore_wait(semaphore); EXPECT_GE(cb_counter, i); } EXPECT_EQ(cb_counter, 100); EXPECT_EQ(cb_misordered_counter, 0); for (int i = 0; i < 100; i++) alarm_free(alarms[i]); message_loop_thread.ShutDown(); EXPECT_FALSE(WakeLockHeld()); } // Try to catch any race conditions between the timer callback and |alarm_free|. TEST_F(AlarmTest, test_callback_free_race) { for (int i = 0; i < 1000; ++i) { const std::string alarm_name = "alarm_test.test_callback_free_race[" + std::to_string(i) + "]"; alarm_t* alarm = alarm_new(alarm_name.c_str()); alarm_set(alarm, 0, cb, NULL); alarm_free(alarm); } alarm_cleanup(); } static void remove_cb(void* data) { alarm_free((alarm_t*)data); semaphore_post(semaphore); } TEST_F(AlarmTest, test_delete_during_callback) { for (int i = 0; i < 1000; ++i) { alarm_t* alarm = alarm_new("alarm_test.test_delete_during_callback"); alarm_set(alarm, 0, remove_cb, alarm); semaphore_wait(semaphore); } alarm_cleanup(); }