// Copyright (c) 2012 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 "net/base/expiring_cache.h" #include #include #include "base/stl_util.h" #include "base/strings/stringprintf.h" #include "base/time/time.h" #include "testing/gmock/include/gmock/gmock.h" #include "testing/gtest/include/gtest/gtest.h" using testing::Pointee; using testing::StrEq; namespace net { namespace { const int kMaxCacheEntries = 10; typedef ExpiringCache > Cache; struct TestFunctor { bool operator()(const std::string& now, const std::string& expiration) const { return now != expiration; } }; } // namespace TEST(ExpiringCacheTest, Basic) { const base::TimeDelta kTTL = base::TimeDelta::FromSeconds(10); Cache cache(kMaxCacheEntries); // Start at t=0. base::TimeTicks now; EXPECT_EQ(0U, cache.size()); // Add an entry at t=0 EXPECT_FALSE(cache.Get("entry1", now)); cache.Put("entry1", "test1", now, now + kTTL); EXPECT_THAT(cache.Get("entry1", now), Pointee(StrEq("test1"))); EXPECT_EQ(1U, cache.size()); // Advance to t=5. now += base::TimeDelta::FromSeconds(5); // Add an entry at t=5. EXPECT_FALSE(cache.Get("entry2", now)); cache.Put("entry2", "test2", now, now + kTTL); EXPECT_THAT(cache.Get("entry2", now), Pointee(StrEq("test2"))); EXPECT_EQ(2U, cache.size()); // Advance to t=9. now += base::TimeDelta::FromSeconds(4); // Verify that the entries added are still retrievable and usable. EXPECT_THAT(cache.Get("entry1", now), Pointee(StrEq("test1"))); EXPECT_THAT(cache.Get("entry2", now), Pointee(StrEq("test2"))); // Advance to t=10; entry1 is now expired. now += base::TimeDelta::FromSeconds(1); EXPECT_FALSE(cache.Get("entry1", now)); EXPECT_THAT(cache.Get("entry2", now), Pointee(StrEq("test2"))); // The expired element should no longer be in the cache. EXPECT_EQ(1U, cache.size()); // Update entry1 so it is no longer expired. cache.Put("entry1", "test1", now, now + kTTL); // Both entries should be retrievable and usable. EXPECT_EQ(2U, cache.size()); EXPECT_THAT(cache.Get("entry1", now), Pointee(StrEq("test1"))); EXPECT_THAT(cache.Get("entry2", now), Pointee(StrEq("test2"))); // Advance to t=20; both entries are now expired. now += base::TimeDelta::FromSeconds(10); EXPECT_FALSE(cache.Get("entry1", now)); EXPECT_FALSE(cache.Get("entry2", now)); } TEST(ExpiringCacheTest, Compact) { const base::TimeDelta kTTL = base::TimeDelta::FromSeconds(10); Cache cache(kMaxCacheEntries); // Start at t=0. base::TimeTicks now; EXPECT_EQ(0U, cache.size()); // Add five valid entries at t=10 that expire at t=20. base::TimeTicks t10 = now + kTTL; for (int i = 0; i < 5; ++i) { std::string name = base::StringPrintf("valid%d", i); cache.Put(name, "I'm valid!", t10, t10 + kTTL); } EXPECT_EQ(5U, cache.size()); // Add three entries at t=0 that expire at t=10. for (int i = 0; i < 3; ++i) { std::string name = base::StringPrintf("expired%d", i); cache.Put(name, "I'm expired.", now, t10); } EXPECT_EQ(8U, cache.size()); // Add two negative (instantly expired) entries at t=0 that expire at t=0. for (int i = 0; i < 2; ++i) { std::string name = base::StringPrintf("negative%d", i); cache.Put(name, "I was never valid.", now, now); } EXPECT_EQ(10U, cache.size()); EXPECT_TRUE(ContainsKey(cache.entries_, "valid0")); EXPECT_TRUE(ContainsKey(cache.entries_, "valid1")); EXPECT_TRUE(ContainsKey(cache.entries_, "valid2")); EXPECT_TRUE(ContainsKey(cache.entries_, "valid3")); EXPECT_TRUE(ContainsKey(cache.entries_, "valid4")); EXPECT_TRUE(ContainsKey(cache.entries_, "expired0")); EXPECT_TRUE(ContainsKey(cache.entries_, "expired1")); EXPECT_TRUE(ContainsKey(cache.entries_, "expired2")); EXPECT_TRUE(ContainsKey(cache.entries_, "negative0")); EXPECT_TRUE(ContainsKey(cache.entries_, "negative1")); // Shrink the new max constraints bound and compact. The "negative" and // "expired" entries should be dropped. cache.max_entries_ = 6; cache.Compact(now); EXPECT_EQ(5U, cache.size()); EXPECT_TRUE(ContainsKey(cache.entries_, "valid0")); EXPECT_TRUE(ContainsKey(cache.entries_, "valid1")); EXPECT_TRUE(ContainsKey(cache.entries_, "valid2")); EXPECT_TRUE(ContainsKey(cache.entries_, "valid3")); EXPECT_TRUE(ContainsKey(cache.entries_, "valid4")); EXPECT_FALSE(ContainsKey(cache.entries_, "expired0")); EXPECT_FALSE(ContainsKey(cache.entries_, "expired1")); EXPECT_FALSE(ContainsKey(cache.entries_, "expired2")); EXPECT_FALSE(ContainsKey(cache.entries_, "negative0")); EXPECT_FALSE(ContainsKey(cache.entries_, "negative1")); // Shrink further -- this time the compact will start dropping valid entries // to make space. cache.max_entries_ = 4; cache.Compact(now); EXPECT_EQ(3U, cache.size()); } // Add entries while the cache is at capacity, causing evictions. TEST(ExpiringCacheTest, SetWithCompact) { const base::TimeDelta kTTL = base::TimeDelta::FromSeconds(10); Cache cache(3); // t=10 base::TimeTicks now = base::TimeTicks() + kTTL; cache.Put("test1", "test1", now, now + kTTL); cache.Put("test2", "test2", now, now + kTTL); cache.Put("expired", "expired", now, now); EXPECT_EQ(3U, cache.size()); // Should all be retrievable except "expired". EXPECT_THAT(cache.Get("test1", now), Pointee(StrEq("test1"))); EXPECT_THAT(cache.Get("test2", now), Pointee(StrEq("test2"))); EXPECT_FALSE(cache.Get("expired", now)); // Adding the fourth entry will cause "expired" to be evicted. cache.Put("test3", "test3", now, now + kTTL); EXPECT_EQ(3U, cache.size()); EXPECT_FALSE(cache.Get("expired", now)); EXPECT_THAT(cache.Get("test1", now), Pointee(StrEq("test1"))); EXPECT_THAT(cache.Get("test2", now), Pointee(StrEq("test2"))); EXPECT_THAT(cache.Get("test3", now), Pointee(StrEq("test3"))); // Add two more entries. Something should be evicted, however "test5" // should definitely be in there (since it was last inserted). cache.Put("test4", "test4", now, now + kTTL); EXPECT_EQ(3U, cache.size()); cache.Put("test5", "test5", now, now + kTTL); EXPECT_EQ(3U, cache.size()); EXPECT_THAT(cache.Get("test5", now), Pointee(StrEq("test5"))); } TEST(ExpiringCacheTest, Clear) { const base::TimeDelta kTTL = base::TimeDelta::FromSeconds(10); Cache cache(kMaxCacheEntries); // Start at t=0. base::TimeTicks now; EXPECT_EQ(0U, cache.size()); // Add three entries. cache.Put("test1", "foo", now, now + kTTL); cache.Put("test2", "foo", now, now + kTTL); cache.Put("test3", "foo", now, now + kTTL); EXPECT_EQ(3U, cache.size()); cache.Clear(); EXPECT_EQ(0U, cache.size()); } TEST(ExpiringCacheTest, GetTruncatesExpiredEntries) { const base::TimeDelta kTTL = base::TimeDelta::FromSeconds(10); Cache cache(kMaxCacheEntries); // Start at t=0. base::TimeTicks now; EXPECT_EQ(0U, cache.size()); // Add three entries at t=0. cache.Put("test1", "foo1", now, now + kTTL); cache.Put("test2", "foo2", now, now + kTTL); cache.Put("test3", "foo3", now, now + kTTL); EXPECT_EQ(3U, cache.size()); // Ensure the entries were added. EXPECT_THAT(cache.Get("test1", now), Pointee(StrEq("foo1"))); EXPECT_THAT(cache.Get("test2", now), Pointee(StrEq("foo2"))); EXPECT_THAT(cache.Get("test3", now), Pointee(StrEq("foo3"))); // Add five entries at t=10. now += kTTL; for (int i = 0; i < 5; ++i) { std::string name = base::StringPrintf("valid%d", i); cache.Put(name, name, now, now + kTTL); // Expire at t=20. } EXPECT_EQ(8U, cache.size()); // Now access two expired entries and ensure the cache size goes down. EXPECT_FALSE(cache.Get("test1", now)); EXPECT_FALSE(cache.Get("test2", now)); EXPECT_EQ(6U, cache.size()); // Accessing non-expired entries should return entries and not adjust the // cache size. for (int i = 0; i < 5; ++i) { std::string name = base::StringPrintf("valid%d", i); EXPECT_THAT(cache.Get(name, now), Pointee(StrEq(name))); } EXPECT_EQ(6U, cache.size()); } TEST(ExpiringCacheTest, CustomFunctor) { ExpiringCache cache(5); const std::string kNow("Now"); const std::string kLater("A little bit later"); const std::string kMuchLater("Much later"); const std::string kHeatDeath("The heat death of the universe"); EXPECT_EQ(0u, cache.size()); // Add three entries at t=kNow that expire at kLater. cache.Put("test1", "foo1", kNow, kLater); cache.Put("test2", "foo2", kNow, kLater); cache.Put("test3", "foo3", kNow, kLater); EXPECT_EQ(3U, cache.size()); // Add two entries at t=kNow that expire at kMuchLater cache.Put("test4", "foo4", kNow, kMuchLater); cache.Put("test5", "foo5", kNow, kMuchLater); EXPECT_EQ(5U, cache.size()); // Ensure the entries were added. EXPECT_THAT(cache.Get("test1", kNow), Pointee(StrEq("foo1"))); EXPECT_THAT(cache.Get("test2", kNow), Pointee(StrEq("foo2"))); EXPECT_THAT(cache.Get("test3", kNow), Pointee(StrEq("foo3"))); EXPECT_THAT(cache.Get("test4", kNow), Pointee(StrEq("foo4"))); EXPECT_THAT(cache.Get("test5", kNow), Pointee(StrEq("foo5"))); // Add one entry at t=kLater that expires at kHeatDeath, which will expire // one of test1-3. cache.Put("test6", "foo6", kLater, kHeatDeath); EXPECT_THAT(cache.Get("test6", kLater), Pointee(StrEq("foo6"))); EXPECT_EQ(3U, cache.size()); // Now compact at kMuchLater, which should remove all but "test6". cache.max_entries_ = 2; cache.Compact(kMuchLater); EXPECT_EQ(1U, cache.size()); EXPECT_THAT(cache.Get("test6", kMuchLater), Pointee(StrEq("foo6"))); // Finally, "test6" should not be valid at the end of the universe. EXPECT_FALSE(cache.Get("test6", kHeatDeath)); // Because comparison is based on equality, not strict weak ordering, we // should be able to add something at kHeatDeath that expires at kMuchLater. cache.Put("test7", "foo7", kHeatDeath, kMuchLater); EXPECT_EQ(1U, cache.size()); EXPECT_THAT(cache.Get("test7", kNow), Pointee(StrEq("foo7"))); EXPECT_THAT(cache.Get("test7", kLater), Pointee(StrEq("foo7"))); EXPECT_THAT(cache.Get("test7", kHeatDeath), Pointee(StrEq("foo7"))); EXPECT_FALSE(cache.Get("test7", kMuchLater)); } } // namespace net