// // Copyright (C) 2015 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 "update_engine/metrics_utils.h" #include #include "update_engine/common/fake_clock.h" #include "update_engine/common/fake_prefs.h" #include "update_engine/fake_system_state.h" namespace chromeos_update_engine { namespace metrics_utils { class MetricsUtilsTest : public ::testing::Test {}; TEST(MetricsUtilsTest, GetConnectionType) { // Check that expected combinations map to the right value. EXPECT_EQ(metrics::ConnectionType::kUnknown, GetConnectionType(NetworkConnectionType::kUnknown, NetworkTethering::kUnknown)); EXPECT_EQ(metrics::ConnectionType::kEthernet, GetConnectionType(NetworkConnectionType::kEthernet, NetworkTethering::kUnknown)); EXPECT_EQ(metrics::ConnectionType::kWifi, GetConnectionType(NetworkConnectionType::kWifi, NetworkTethering::kUnknown)); EXPECT_EQ(metrics::ConnectionType::kWimax, GetConnectionType(NetworkConnectionType::kWimax, NetworkTethering::kUnknown)); EXPECT_EQ(metrics::ConnectionType::kBluetooth, GetConnectionType(NetworkConnectionType::kBluetooth, NetworkTethering::kUnknown)); EXPECT_EQ(metrics::ConnectionType::kCellular, GetConnectionType(NetworkConnectionType::kCellular, NetworkTethering::kUnknown)); EXPECT_EQ(metrics::ConnectionType::kTetheredEthernet, GetConnectionType(NetworkConnectionType::kEthernet, NetworkTethering::kConfirmed)); EXPECT_EQ(metrics::ConnectionType::kTetheredWifi, GetConnectionType(NetworkConnectionType::kWifi, NetworkTethering::kConfirmed)); // Ensure that we don't report tethered ethernet unless it's confirmed. EXPECT_EQ(metrics::ConnectionType::kEthernet, GetConnectionType(NetworkConnectionType::kEthernet, NetworkTethering::kNotDetected)); EXPECT_EQ(metrics::ConnectionType::kEthernet, GetConnectionType(NetworkConnectionType::kEthernet, NetworkTethering::kSuspected)); EXPECT_EQ(metrics::ConnectionType::kEthernet, GetConnectionType(NetworkConnectionType::kEthernet, NetworkTethering::kUnknown)); // Ditto for tethered wifi. EXPECT_EQ(metrics::ConnectionType::kWifi, GetConnectionType(NetworkConnectionType::kWifi, NetworkTethering::kNotDetected)); EXPECT_EQ(metrics::ConnectionType::kWifi, GetConnectionType(NetworkConnectionType::kWifi, NetworkTethering::kSuspected)); EXPECT_EQ(metrics::ConnectionType::kWifi, GetConnectionType(NetworkConnectionType::kWifi, NetworkTethering::kUnknown)); } TEST(MetricsUtilsTest, WallclockDurationHelper) { FakeSystemState fake_system_state; FakeClock fake_clock; base::TimeDelta duration; const std::string state_variable_key = "test-prefs"; FakePrefs fake_prefs; fake_system_state.set_clock(&fake_clock); fake_system_state.set_prefs(&fake_prefs); // Initialize wallclock to 1 sec. fake_clock.SetWallclockTime(base::Time::FromInternalValue(1000000)); // First time called so no previous measurement available. EXPECT_FALSE(metrics_utils::WallclockDurationHelper(&fake_system_state, state_variable_key, &duration)); // Next time, we should get zero since the clock didn't advance. EXPECT_TRUE(metrics_utils::WallclockDurationHelper(&fake_system_state, state_variable_key, &duration)); EXPECT_EQ(duration.InSeconds(), 0); // We can also call it as many times as we want with it being // considered a failure. EXPECT_TRUE(metrics_utils::WallclockDurationHelper(&fake_system_state, state_variable_key, &duration)); EXPECT_EQ(duration.InSeconds(), 0); EXPECT_TRUE(metrics_utils::WallclockDurationHelper(&fake_system_state, state_variable_key, &duration)); EXPECT_EQ(duration.InSeconds(), 0); // Advance the clock one second, then we should get 1 sec on the // next call and 0 sec on the subsequent call. fake_clock.SetWallclockTime(base::Time::FromInternalValue(2000000)); EXPECT_TRUE(metrics_utils::WallclockDurationHelper(&fake_system_state, state_variable_key, &duration)); EXPECT_EQ(duration.InSeconds(), 1); EXPECT_TRUE(metrics_utils::WallclockDurationHelper(&fake_system_state, state_variable_key, &duration)); EXPECT_EQ(duration.InSeconds(), 0); // Advance clock two seconds and we should get 2 sec and then 0 sec. fake_clock.SetWallclockTime(base::Time::FromInternalValue(4000000)); EXPECT_TRUE(metrics_utils::WallclockDurationHelper(&fake_system_state, state_variable_key, &duration)); EXPECT_EQ(duration.InSeconds(), 2); EXPECT_TRUE(metrics_utils::WallclockDurationHelper(&fake_system_state, state_variable_key, &duration)); EXPECT_EQ(duration.InSeconds(), 0); // There's a possibility that the wallclock can go backwards (NTP // adjustments, for example) so check that we properly handle this // case. fake_clock.SetWallclockTime(base::Time::FromInternalValue(3000000)); EXPECT_FALSE(metrics_utils::WallclockDurationHelper(&fake_system_state, state_variable_key, &duration)); fake_clock.SetWallclockTime(base::Time::FromInternalValue(4000000)); EXPECT_TRUE(metrics_utils::WallclockDurationHelper(&fake_system_state, state_variable_key, &duration)); EXPECT_EQ(duration.InSeconds(), 1); } TEST(MetricsUtilsTest, MonotonicDurationHelper) { int64_t storage = 0; FakeSystemState fake_system_state; FakeClock fake_clock; base::TimeDelta duration; fake_system_state.set_clock(&fake_clock); // Initialize monotonic clock to 1 sec. fake_clock.SetMonotonicTime(base::Time::FromInternalValue(1000000)); // First time called so no previous measurement available. EXPECT_FALSE(metrics_utils::MonotonicDurationHelper(&fake_system_state, &storage, &duration)); // Next time, we should get zero since the clock didn't advance. EXPECT_TRUE(metrics_utils::MonotonicDurationHelper(&fake_system_state, &storage, &duration)); EXPECT_EQ(duration.InSeconds(), 0); // We can also call it as many times as we want with it being // considered a failure. EXPECT_TRUE(metrics_utils::MonotonicDurationHelper(&fake_system_state, &storage, &duration)); EXPECT_EQ(duration.InSeconds(), 0); EXPECT_TRUE(metrics_utils::MonotonicDurationHelper(&fake_system_state, &storage, &duration)); EXPECT_EQ(duration.InSeconds(), 0); // Advance the clock one second, then we should get 1 sec on the // next call and 0 sec on the subsequent call. fake_clock.SetMonotonicTime(base::Time::FromInternalValue(2000000)); EXPECT_TRUE(metrics_utils::MonotonicDurationHelper(&fake_system_state, &storage, &duration)); EXPECT_EQ(duration.InSeconds(), 1); EXPECT_TRUE(metrics_utils::MonotonicDurationHelper(&fake_system_state, &storage, &duration)); EXPECT_EQ(duration.InSeconds(), 0); // Advance clock two seconds and we should get 2 sec and then 0 sec. fake_clock.SetMonotonicTime(base::Time::FromInternalValue(4000000)); EXPECT_TRUE(metrics_utils::MonotonicDurationHelper(&fake_system_state, &storage, &duration)); EXPECT_EQ(duration.InSeconds(), 2); EXPECT_TRUE(metrics_utils::MonotonicDurationHelper(&fake_system_state, &storage, &duration)); EXPECT_EQ(duration.InSeconds(), 0); } } // namespace metrics_utils } // namespace chromeos_update_engine