// Copyright 2016 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "components/sync_device_info/device_info_util.h" #include "components/sync/protocol/sync.pb.h" #include "testing/gtest/include/gtest/gtest.h" using base::Time; using base::TimeDelta; using sync_pb::DeviceInfoSpecifics; namespace syncer { namespace { class DeviceInfoUtilTest : public testing::Test { protected: DeviceInfoUtilTest() { // Test cases assume |small_| and |big_| are smaller and bigger, // respectively, // than both constants. EXPECT_LT(small_, DeviceInfoUtil::kActiveThreshold); EXPECT_LT(small_, DeviceInfoUtil::GetPulseInterval()); EXPECT_GT(big_, DeviceInfoUtil::kActiveThreshold); EXPECT_GT(big_, DeviceInfoUtil::GetPulseInterval()); } const Time now_ = Time::Now(); const TimeDelta small_ = TimeDelta::FromMilliseconds(1); const TimeDelta big_ = TimeDelta::FromDays(1000); }; } // namespace TEST_F(DeviceInfoUtilTest, CalculatePulseDelaySame) { EXPECT_EQ(DeviceInfoUtil::GetPulseInterval(), DeviceInfoUtil::CalculatePulseDelay(Time(), Time())); EXPECT_EQ(DeviceInfoUtil::GetPulseInterval(), DeviceInfoUtil::CalculatePulseDelay(now_, now_)); EXPECT_EQ(DeviceInfoUtil::GetPulseInterval(), DeviceInfoUtil::CalculatePulseDelay(now_ + big_, now_ + big_)); } TEST_F(DeviceInfoUtilTest, CalculatePulseDelayMiddle) { EXPECT_EQ(DeviceInfoUtil::GetPulseInterval() - small_, DeviceInfoUtil::CalculatePulseDelay(Time(), Time() + small_)); EXPECT_EQ(small_, DeviceInfoUtil::CalculatePulseDelay( Time(), Time() + DeviceInfoUtil::GetPulseInterval() - small_)); } TEST_F(DeviceInfoUtilTest, CalculatePulseDelayStale) { EXPECT_EQ(TimeDelta(), DeviceInfoUtil::CalculatePulseDelay( Time(), Time() + DeviceInfoUtil::GetPulseInterval())); EXPECT_EQ(TimeDelta(), DeviceInfoUtil::CalculatePulseDelay( Time(), Time() + DeviceInfoUtil::GetPulseInterval() + small_)); EXPECT_EQ(TimeDelta(), DeviceInfoUtil::CalculatePulseDelay( Time(), Time() + DeviceInfoUtil::GetPulseInterval() + small_)); EXPECT_EQ(TimeDelta(), DeviceInfoUtil::CalculatePulseDelay( now_, now_ + DeviceInfoUtil::GetPulseInterval())); } TEST_F(DeviceInfoUtilTest, CalculatePulseDelayFuture) { EXPECT_EQ(DeviceInfoUtil::GetPulseInterval(), DeviceInfoUtil::CalculatePulseDelay(Time() + small_, Time())); EXPECT_EQ(DeviceInfoUtil::GetPulseInterval(), DeviceInfoUtil::CalculatePulseDelay( Time() + DeviceInfoUtil::GetPulseInterval(), Time())); EXPECT_EQ(DeviceInfoUtil::GetPulseInterval(), DeviceInfoUtil::CalculatePulseDelay(Time() + big_, Time())); EXPECT_EQ(DeviceInfoUtil::GetPulseInterval(), DeviceInfoUtil::CalculatePulseDelay(now_ + big_, now_)); } TEST_F(DeviceInfoUtilTest, IsActive) { EXPECT_TRUE(DeviceInfoUtil::IsActive(Time(), Time())); EXPECT_TRUE(DeviceInfoUtil::IsActive(now_, now_)); EXPECT_TRUE(DeviceInfoUtil::IsActive(now_, now_ + small_)); EXPECT_TRUE(DeviceInfoUtil::IsActive( now_, now_ + DeviceInfoUtil::kActiveThreshold - small_)); EXPECT_FALSE( DeviceInfoUtil::IsActive(now_, now_ + DeviceInfoUtil::kActiveThreshold)); EXPECT_FALSE(DeviceInfoUtil::IsActive( now_, now_ + DeviceInfoUtil::kActiveThreshold + small_)); EXPECT_FALSE(DeviceInfoUtil::IsActive( now_, now_ + DeviceInfoUtil::kActiveThreshold + big_)); EXPECT_TRUE(DeviceInfoUtil::IsActive(now_ + small_, now_)); EXPECT_TRUE(DeviceInfoUtil::IsActive(now_ + big_, now_)); } TEST_F(DeviceInfoUtilTest, TagRoundTrip) { DeviceInfoSpecifics specifics; ASSERT_EQ("", DeviceInfoUtil::TagToCacheGuid( DeviceInfoUtil::SpecificsToTag(specifics))); std::string cache_guid("guid"); specifics.set_cache_guid(cache_guid); ASSERT_EQ(cache_guid, DeviceInfoUtil::TagToCacheGuid( DeviceInfoUtil::SpecificsToTag(specifics))); specifics.set_cache_guid(DeviceInfoUtil::kClientTagPrefix); ASSERT_EQ(DeviceInfoUtil::kClientTagPrefix, DeviceInfoUtil::TagToCacheGuid( DeviceInfoUtil::SpecificsToTag(specifics))); } } // namespace syncer