// Copyright 2012 The Chromium Authors // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "base/threading/watchdog.h" #include #include "base/logging.h" #include "base/test/spin_wait.h" #include "base/threading/platform_thread.h" #include "base/time/time.h" #include "testing/gtest/include/gtest/gtest.h" namespace base { namespace { //------------------------------------------------------------------------------ // Provide a derived class to facilitate testing. class WatchdogCounter : public Watchdog::Delegate { public: WatchdogCounter(const TimeDelta& duration, const std::string& thread_watched_name, bool enabled) : watchdog_(duration, thread_watched_name, enabled, this) {} WatchdogCounter(const WatchdogCounter&) = delete; WatchdogCounter& operator=(const WatchdogCounter&) = delete; ~WatchdogCounter() override = default; void Alarm() override { alarm_counter_++; watchdog_.DefaultAlarm(); } Watchdog& watchdog() { return watchdog_; } int alarm_counter() { return alarm_counter_.load(); } private: std::atomic alarm_counter_{0}; Watchdog watchdog_; }; class WatchdogTest : public testing::Test { public: void SetUp() override { Watchdog::ResetStaticData(); } }; } // namespace //------------------------------------------------------------------------------ // Actual tests // Minimal constructor/destructor test. TEST_F(WatchdogTest, StartupShutdownTest) { Watchdog watchdog1(Milliseconds(300), "Disabled", false); Watchdog watchdog2(Milliseconds(300), "Enabled", true); } // Test ability to call Arm and Disarm repeatedly. TEST_F(WatchdogTest, ArmDisarmTest) { Watchdog watchdog1(Milliseconds(300), "Disabled", false); watchdog1.Arm(); watchdog1.Disarm(); watchdog1.Arm(); watchdog1.Disarm(); Watchdog watchdog2(Milliseconds(300), "Enabled", true); watchdog2.Arm(); watchdog2.Disarm(); watchdog2.Arm(); watchdog2.Disarm(); } // Make sure a basic alarm fires when the time has expired. TEST_F(WatchdogTest, AlarmTest) { WatchdogCounter watchdog(Milliseconds(10), "Enabled", true); watchdog.watchdog().Arm(); SPIN_FOR_TIMEDELTA_OR_UNTIL_TRUE(Minutes(5), watchdog.alarm_counter() > 0); EXPECT_EQ(1, watchdog.alarm_counter()); } // Make sure a basic alarm fires when the time has expired. TEST_F(WatchdogTest, AlarmPriorTimeTest) { WatchdogCounter watchdog(TimeDelta(), "Enabled2", true); // Set a time in the past. watchdog.watchdog().ArmSomeTimeDeltaAgo(Seconds(2)); // It should instantly go off, but certainly in less than 5 minutes. SPIN_FOR_TIMEDELTA_OR_UNTIL_TRUE(Minutes(5), watchdog.alarm_counter() > 0); EXPECT_EQ(1, watchdog.alarm_counter()); } // Make sure a disable alarm does nothing, even if we arm it. TEST_F(WatchdogTest, ConstructorDisabledTest) { WatchdogCounter watchdog(Milliseconds(10), "Disabled", false); watchdog.watchdog().Arm(); // Alarm should not fire, as it was disabled. PlatformThread::Sleep(Milliseconds(500)); EXPECT_EQ(0, watchdog.alarm_counter()); } // Make sure Disarming will prevent firing, even after Arming. TEST_F(WatchdogTest, DisarmTest) { WatchdogCounter watchdog(Seconds(1), "Enabled3", true); TimeTicks start = TimeTicks::Now(); watchdog.watchdog().Arm(); // Sleep a bit, but not past the alarm point. PlatformThread::Sleep(Milliseconds(100)); watchdog.watchdog().Disarm(); TimeTicks end = TimeTicks::Now(); if (end - start > Milliseconds(500)) { LOG(WARNING) << "100ms sleep took over 500ms, making the results of this " << "timing-sensitive test suspicious. Aborting now."; return; } // Alarm should not have fired before it was disarmed. EXPECT_EQ(0, watchdog.alarm_counter()); // Sleep past the point where it would have fired if it wasn't disarmed, // and verify that it didn't fire. PlatformThread::Sleep(Seconds(1)); EXPECT_EQ(0, watchdog.alarm_counter()); // ...but even after disarming, we can still use the alarm... // Set a time greater than the timeout into the past. watchdog.watchdog().ArmSomeTimeDeltaAgo(Seconds(10)); // It should almost instantly go off, but certainly in less than 5 minutes. SPIN_FOR_TIMEDELTA_OR_UNTIL_TRUE(Minutes(5), watchdog.alarm_counter() > 0); EXPECT_EQ(1, watchdog.alarm_counter()); } } // namespace base