net/dns/host_cache_unittest.cc - chromium/src - Git at Google

 // 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/dns/host_cache.h"

 #include <string>

 #include "base/bind.h"
 #include "base/callback.h"
 #include "base/format_macros.h"
 #include "base/stl_util.h"
 #include "base/strings/string_util.h"
 #include "base/strings/stringprintf.h"
 #include "net/base/net_errors.h"
 #include "testing/gtest/include/gtest/gtest.h"

 namespace net {

 namespace {

 const int kMaxCacheEntries = 10;

 // Builds a key for |hostname|, defaulting the address family to unspecified.
 HostCache::Key Key(const std::string& hostname) {
   return HostCache::Key(hostname, ADDRESS_FAMILY_UNSPECIFIED, 0);
 }

 bool FoobarIndexIsOdd(const std::string& foobarx_com) {
   return (foobarx_com[6] - '0') % 2 == 1;
 }

 }  // namespace

 TEST(HostCacheTest, Basic) {
   const base::TimeDelta kTTL = base::TimeDelta::FromSeconds(10);

   HostCache cache(kMaxCacheEntries);

   // Start at t=0.
   base::TimeTicks now;

   HostCache::Key key1 = Key("foobar.com");
   HostCache::Key key2 = Key("foobar2.com");
   HostCache::Entry entry = HostCache::Entry(OK, AddressList());

   EXPECT_EQ(0U, cache.size());

   // Add an entry for "foobar.com" at t=0.
   EXPECT_FALSE(cache.Lookup(key1, now));
   cache.Set(key1, entry, now, kTTL);
   EXPECT_TRUE(cache.Lookup(key1, now));
   EXPECT_TRUE(cache.Lookup(key1, now)->error() == entry.error());

   EXPECT_EQ(1U, cache.size());

   // Advance to t=5.
   now += base::TimeDelta::FromSeconds(5);

   // Add an entry for "foobar2.com" at t=5.
   EXPECT_FALSE(cache.Lookup(key2, now));
   cache.Set(key2, entry, now, kTTL);
   EXPECT_TRUE(cache.Lookup(key2, now));
   EXPECT_EQ(2U, cache.size());

   // Advance to t=9
   now += base::TimeDelta::FromSeconds(4);

   // Verify that the entries we added are still retrievable, and usable.
   EXPECT_TRUE(cache.Lookup(key1, now));
   EXPECT_TRUE(cache.Lookup(key2, now));
   EXPECT_NE(cache.Lookup(key1, now), cache.Lookup(key2, now));

   // Advance to t=10; key is now expired.
   now += base::TimeDelta::FromSeconds(1);

   EXPECT_FALSE(cache.Lookup(key1, now));
   EXPECT_TRUE(cache.Lookup(key2, now));

   // Update key1, so it is no longer expired.
   cache.Set(key1, entry, now, kTTL);
   EXPECT_TRUE(cache.Lookup(key1, now));
   EXPECT_EQ(2U, cache.size());

   // Both entries should still be retrievable and usable.
   EXPECT_TRUE(cache.Lookup(key1, now));
   EXPECT_TRUE(cache.Lookup(key2, now));

   // Advance to t=20; both entries are now expired.
   now += base::TimeDelta::FromSeconds(10);

   EXPECT_FALSE(cache.Lookup(key1, now));
   EXPECT_FALSE(cache.Lookup(key2, now));
 }

 // Try caching entries for a failed resolve attempt -- since we set the TTL of
 // such entries to 0 it won't store, but it will kick out the previous result.
 TEST(HostCacheTest, NoCacheZeroTTL) {
   const base::TimeDelta kSuccessEntryTTL = base::TimeDelta::FromSeconds(10);
   const base::TimeDelta kFailureEntryTTL = base::TimeDelta::FromSeconds(0);

   HostCache cache(kMaxCacheEntries);

   // Set t=0.
   base::TimeTicks now;

   HostCache::Key key1 = Key("foobar.com");
   HostCache::Key key2 = Key("foobar2.com");
   HostCache::Entry entry = HostCache::Entry(OK, AddressList());

   EXPECT_FALSE(cache.Lookup(key1, now));
   cache.Set(key1, entry, now, kFailureEntryTTL);
   EXPECT_EQ(1U, cache.size());

   // We disallow use of negative entries.
   EXPECT_FALSE(cache.Lookup(key1, now));

   // Now overwrite with a valid entry, and then overwrite with negative entry
   // again -- the valid entry should be kicked out.
   cache.Set(key1, entry, now, kSuccessEntryTTL);
   EXPECT_TRUE(cache.Lookup(key1, now));
   cache.Set(key1, entry, now, kFailureEntryTTL);
   EXPECT_FALSE(cache.Lookup(key1, now));
 }

 // Try caching entries for a failed resolves for 10 seconds.
 TEST(HostCacheTest, CacheNegativeEntry) {
   const base::TimeDelta kFailureEntryTTL = base::TimeDelta::FromSeconds(10);

   HostCache cache(kMaxCacheEntries);

   // Start at t=0.
   base::TimeTicks now;

   HostCache::Key key1 = Key("foobar.com");
   HostCache::Key key2 = Key("foobar2.com");
   HostCache::Entry entry = HostCache::Entry(OK, AddressList());

   EXPECT_EQ(0U, cache.size());

   // Add an entry for "foobar.com" at t=0.
   EXPECT_FALSE(cache.Lookup(key1, now));
   cache.Set(key1, entry, now, kFailureEntryTTL);
   EXPECT_TRUE(cache.Lookup(key1, now));
   EXPECT_EQ(1U, cache.size());

   // Advance to t=5.
   now += base::TimeDelta::FromSeconds(5);

   // Add an entry for "foobar2.com" at t=5.
   EXPECT_FALSE(cache.Lookup(key2, now));
   cache.Set(key2, entry, now, kFailureEntryTTL);
   EXPECT_TRUE(cache.Lookup(key2, now));
   EXPECT_EQ(2U, cache.size());

   // Advance to t=9
   now += base::TimeDelta::FromSeconds(4);

   // Verify that the entries we added are still retrievable, and usable.
   EXPECT_TRUE(cache.Lookup(key1, now));
   EXPECT_TRUE(cache.Lookup(key2, now));

   // Advance to t=10; key1 is now expired.
   now += base::TimeDelta::FromSeconds(1);

   EXPECT_FALSE(cache.Lookup(key1, now));
   EXPECT_TRUE(cache.Lookup(key2, now));

   // Update key1, so it is no longer expired.
   cache.Set(key1, entry, now, kFailureEntryTTL);
   // Re-uses existing entry storage.
   EXPECT_TRUE(cache.Lookup(key1, now));
   EXPECT_EQ(2U, cache.size());

   // Both entries should still be retrievable and usable.
   EXPECT_TRUE(cache.Lookup(key1, now));
   EXPECT_TRUE(cache.Lookup(key2, now));

   // Advance to t=20; both entries are now expired.
   now += base::TimeDelta::FromSeconds(10);

   EXPECT_FALSE(cache.Lookup(key1, now));
   EXPECT_FALSE(cache.Lookup(key2, now));
 }

 // Tests that the same hostname can be duplicated in the cache, so long as
 // the address family differs.
 TEST(HostCacheTest, AddressFamilyIsPartOfKey) {
   const base::TimeDelta kSuccessEntryTTL = base::TimeDelta::FromSeconds(10);

   HostCache cache(kMaxCacheEntries);

   // t=0.
   base::TimeTicks now;

   HostCache::Key key1("foobar.com", ADDRESS_FAMILY_UNSPECIFIED, 0);
   HostCache::Key key2("foobar.com", ADDRESS_FAMILY_IPV4, 0);
   HostCache::Entry entry = HostCache::Entry(OK, AddressList());

   EXPECT_EQ(0U, cache.size());

   // Add an entry for ("foobar.com", UNSPECIFIED) at t=0.
   EXPECT_FALSE(cache.Lookup(key1, now));
   cache.Set(key1, entry, now, kSuccessEntryTTL);
   EXPECT_TRUE(cache.Lookup(key1, now));
   EXPECT_EQ(1U, cache.size());

   // Add an entry for ("foobar.com", IPV4_ONLY) at t=0.
   EXPECT_FALSE(cache.Lookup(key2, now));
   cache.Set(key2, entry, now, kSuccessEntryTTL);
   EXPECT_TRUE(cache.Lookup(key2, now));
   EXPECT_EQ(2U, cache.size());

   // Even though the hostnames were the same, we should have two unique
   // entries (because the address families differ).
   EXPECT_NE(cache.Lookup(key1, now), cache.Lookup(key2, now));
 }

 // Tests that the same hostname can be duplicated in the cache, so long as
 // the HostResolverFlags differ.
 TEST(HostCacheTest, HostResolverFlagsArePartOfKey) {
   const base::TimeDelta kTTL = base::TimeDelta::FromSeconds(10);

   HostCache cache(kMaxCacheEntries);

   // t=0.
   base::TimeTicks now;

   HostCache::Key key1("foobar.com", ADDRESS_FAMILY_IPV4, 0);
   HostCache::Key key2("foobar.com", ADDRESS_FAMILY_IPV4,
                       HOST_RESOLVER_CANONNAME);
   HostCache::Key key3("foobar.com", ADDRESS_FAMILY_IPV4,
                       HOST_RESOLVER_LOOPBACK_ONLY);
   HostCache::Entry entry = HostCache::Entry(OK, AddressList());

   EXPECT_EQ(0U, cache.size());

   // Add an entry for ("foobar.com", IPV4, NONE) at t=0.
   EXPECT_FALSE(cache.Lookup(key1, now));
   cache.Set(key1, entry, now, kTTL);
   EXPECT_TRUE(cache.Lookup(key1, now));
   EXPECT_EQ(1U, cache.size());

   // Add an entry for ("foobar.com", IPV4, CANONNAME) at t=0.
   EXPECT_FALSE(cache.Lookup(key2, now));
   cache.Set(key2, entry, now, kTTL);
   EXPECT_TRUE(cache.Lookup(key2, now));
   EXPECT_EQ(2U, cache.size());

   // Add an entry for ("foobar.com", IPV4, LOOPBACK_ONLY) at t=0.
   EXPECT_FALSE(cache.Lookup(key3, now));
   cache.Set(key3, entry, now, kTTL);
   EXPECT_TRUE(cache.Lookup(key3, now));
   EXPECT_EQ(3U, cache.size());

   // Even though the hostnames were the same, we should have two unique
   // entries (because the HostResolverFlags differ).
   EXPECT_NE(cache.Lookup(key1, now), cache.Lookup(key2, now));
   EXPECT_NE(cache.Lookup(key1, now), cache.Lookup(key3, now));
   EXPECT_NE(cache.Lookup(key2, now), cache.Lookup(key3, now));
 }

 TEST(HostCacheTest, NoCache) {
   const base::TimeDelta kTTL = base::TimeDelta::FromSeconds(10);

   // Disable caching.
   HostCache cache(0);
   EXPECT_TRUE(cache.caching_is_disabled());

   // Set t=0.
   base::TimeTicks now;

   HostCache::Entry entry = HostCache::Entry(OK, AddressList());

   // Lookup and Set should have no effect.
   EXPECT_FALSE(cache.Lookup(Key("foobar.com"),now));
   cache.Set(Key("foobar.com"), entry, now, kTTL);
   EXPECT_FALSE(cache.Lookup(Key("foobar.com"), now));

   EXPECT_EQ(0U, cache.size());
 }

 TEST(HostCacheTest, Clear) {
   const base::TimeDelta kTTL = base::TimeDelta::FromSeconds(10);

   HostCache cache(kMaxCacheEntries);

   // Set t=0.
   base::TimeTicks now;

   HostCache::Entry entry = HostCache::Entry(OK, AddressList());

   EXPECT_EQ(0u, cache.size());

   // Add three entries.
   cache.Set(Key("foobar1.com"), entry, now, kTTL);
   cache.Set(Key("foobar2.com"), entry, now, kTTL);
   cache.Set(Key("foobar3.com"), entry, now, kTTL);

   EXPECT_EQ(3u, cache.size());

   cache.clear();

   EXPECT_EQ(0u, cache.size());
 }

 TEST(HostCacheTest, ClearForHosts) {
   const base::TimeDelta kTTL = base::TimeDelta::FromSeconds(10);

   HostCache cache(kMaxCacheEntries);

   // Set t=0.
   base::TimeTicks now;

   HostCache::Entry entry = HostCache::Entry(OK, AddressList());

   EXPECT_EQ(0u, cache.size());

   // Add several entries.
   cache.Set(Key("foobar1.com"), entry, now, kTTL);
   cache.Set(Key("foobar2.com"), entry, now, kTTL);
   cache.Set(Key("foobar3.com"), entry, now, kTTL);
   cache.Set(Key("foobar4.com"), entry, now, kTTL);
   cache.Set(Key("foobar5.com"), entry, now, kTTL);

   EXPECT_EQ(5u, cache.size());

   // Clear the hosts matching a certain predicate, such as the number being odd.
   cache.ClearForHosts(base::Bind(&FoobarIndexIsOdd));

   EXPECT_EQ(2u, cache.size());
   EXPECT_TRUE(cache.Lookup(Key("foobar2.com"), now));
   EXPECT_TRUE(cache.Lookup(Key("foobar4.com"), now));

   // Passing null callback will delete all hosts.
   cache.ClearForHosts(base::Callback<bool(const std::string&)>());

   EXPECT_EQ(0u, cache.size());
 }

 // Try to add too many entries to cache; it should evict the one with the oldest
 // expiration time.
 TEST(HostCacheTest, Evict) {
   HostCache cache(2);

   base::TimeTicks now;

   HostCache::Key key1 = Key("foobar.com");
   HostCache::Key key2 = Key("foobar2.com");
   HostCache::Key key3 = Key("foobar3.com");
   HostCache::Entry entry = HostCache::Entry(OK, AddressList());

   EXPECT_EQ(0u, cache.size());
   EXPECT_FALSE(cache.Lookup(key1, now));
   EXPECT_FALSE(cache.Lookup(key2, now));
   EXPECT_FALSE(cache.Lookup(key3, now));

   // |key1| expires in 10 seconds, but |key2| in just 5.
   cache.Set(key1, entry, now, base::TimeDelta::FromSeconds(10));
   cache.Set(key2, entry, now, base::TimeDelta::FromSeconds(5));
   EXPECT_EQ(2u, cache.size());
   EXPECT_TRUE(cache.Lookup(key1, now));
   EXPECT_TRUE(cache.Lookup(key2, now));
   EXPECT_FALSE(cache.Lookup(key3, now));

   // |key2| should be chosen for eviction, since it expires sooner.
   cache.Set(key3, entry, now, base::TimeDelta::FromSeconds(10));
   EXPECT_EQ(2u, cache.size());
   EXPECT_TRUE(cache.Lookup(key1, now));
   EXPECT_FALSE(cache.Lookup(key2, now));
   EXPECT_TRUE(cache.Lookup(key3, now));
 }

 void TestEvictionCallback(int* evict_count,
                           HostCache::Key* key_out,
                           const HostCache::Key& key,
                           const HostCache::Entry& entry) {
   ++*evict_count;
   *key_out = key;
 }

 // Try to add too many entries to cache; it should evict the one with the oldest
 // expiration time.
 TEST(HostCacheTest, EvictWithCallback) {
   HostCache cache(2);

   int evict_count = 0;
   HostCache::Key evicted_key = Key("nothingevicted.com");
   cache.set_eviction_callback(
       base::Bind(&TestEvictionCallback, &evict_count, &evicted_key));

   base::TimeTicks now;

   HostCache::Key key1 = Key("foobar.com");
   HostCache::Key key2 = Key("foobar2.com");
   HostCache::Key key3 = Key("foobar3.com");
   HostCache::Entry entry = HostCache::Entry(OK, AddressList());

   EXPECT_EQ(0u, cache.size());
   EXPECT_FALSE(cache.Lookup(key1, now));
   EXPECT_FALSE(cache.Lookup(key2, now));
   EXPECT_FALSE(cache.Lookup(key3, now));

   // |key1| expires in 10 seconds, but |key2| in just 5.
   cache.Set(key1, entry, now, base::TimeDelta::FromSeconds(10));
   cache.Set(key2, entry, now, base::TimeDelta::FromSeconds(5));
   EXPECT_EQ(2u, cache.size());
   EXPECT_TRUE(cache.Lookup(key1, now));
   EXPECT_TRUE(cache.Lookup(key2, now));
   EXPECT_FALSE(cache.Lookup(key3, now));

   EXPECT_EQ(0, evict_count);

   // |key2| should be chosen for eviction, since it expires sooner.
   cache.Set(key3, entry, now, base::TimeDelta::FromSeconds(10));
   EXPECT_EQ(2u, cache.size());
   EXPECT_TRUE(cache.Lookup(key1, now));
   EXPECT_FALSE(cache.Lookup(key2, now));
   EXPECT_TRUE(cache.Lookup(key3, now));

   EXPECT_EQ(1, evict_count);
   EXPECT_EQ(key2.hostname, evicted_key.hostname);
 }

 // Try to retrieve stale entries from the cache. They should be returned by
 // |LookupStale()| but not |Lookup()|, with correct |EntryStaleness| data.
 TEST(HostCacheTest, Stale) {
   const base::TimeDelta kTTL = base::TimeDelta::FromSeconds(10);

   HostCache cache(kMaxCacheEntries);

   // Start at t=0.
   base::TimeTicks now;
   HostCache::EntryStaleness stale;

   HostCache::Key key = Key("foobar.com");
   HostCache::Entry entry = HostCache::Entry(OK, AddressList());

   EXPECT_EQ(0U, cache.size());

   // Add an entry for "foobar.com" at t=0.
   EXPECT_FALSE(cache.Lookup(key, now));
   EXPECT_FALSE(cache.LookupStale(key, now, &stale));
   cache.Set(key, entry, now, kTTL);
   EXPECT_TRUE(cache.Lookup(key, now));
   EXPECT_TRUE(cache.LookupStale(key, now, &stale));
   EXPECT_FALSE(stale.is_stale());
   EXPECT_EQ(0, stale.stale_hits);

   EXPECT_EQ(1U, cache.size());

   // Advance to t=5.
   now += base::TimeDelta::FromSeconds(5);

   EXPECT_TRUE(cache.Lookup(key, now));
   EXPECT_TRUE(cache.LookupStale(key, now, &stale));
   EXPECT_FALSE(stale.is_stale());
   EXPECT_EQ(0, stale.stale_hits);

   // Advance to t=15.
   now += base::TimeDelta::FromSeconds(10);

   EXPECT_FALSE(cache.Lookup(key, now));
   EXPECT_TRUE(cache.LookupStale(key, now, &stale));
   EXPECT_TRUE(stale.is_stale());
   EXPECT_EQ(base::TimeDelta::FromSeconds(5), stale.expired_by);
   EXPECT_EQ(0, stale.network_changes);
   EXPECT_EQ(1, stale.stale_hits);

   // Advance to t=20.
   now += base::TimeDelta::FromSeconds(5);

   EXPECT_FALSE(cache.Lookup(key, now));
   EXPECT_TRUE(cache.LookupStale(key, now, &stale));
   EXPECT_TRUE(stale.is_stale());
   EXPECT_EQ(base::TimeDelta::FromSeconds(10), stale.expired_by);
   EXPECT_EQ(0, stale.network_changes);
   EXPECT_EQ(2, stale.stale_hits);

   // Simulate network change.
   cache.OnNetworkChange();

   EXPECT_FALSE(cache.Lookup(key, now));
   EXPECT_TRUE(cache.LookupStale(key, now, &stale));
   EXPECT_TRUE(stale.is_stale());
   EXPECT_EQ(base::TimeDelta::FromSeconds(10), stale.expired_by);
   EXPECT_EQ(1, stale.network_changes);
   EXPECT_EQ(3, stale.stale_hits);
 }

 // Tests the less than and equal operators for HostCache::Key work.
 TEST(HostCacheTest, KeyComparators) {
   struct {
     // Inputs.
     HostCache::Key key1;
     HostCache::Key key2;

     // Expectation.
     //   -1 means key1 is less than key2
     //    0 means key1 equals key2
     //    1 means key1 is greater than key2
     int expected_comparison;
   } tests[] = {
     {
       HostCache::Key("host1", ADDRESS_FAMILY_UNSPECIFIED, 0),
       HostCache::Key("host1", ADDRESS_FAMILY_UNSPECIFIED, 0),
       0
     },
     {
       HostCache::Key("host1", ADDRESS_FAMILY_IPV4, 0),
       HostCache::Key("host1", ADDRESS_FAMILY_UNSPECIFIED, 0),
       1
     },
     {
       HostCache::Key("host1", ADDRESS_FAMILY_UNSPECIFIED, 0),
       HostCache::Key("host1", ADDRESS_FAMILY_IPV4, 0),
       -1
     },
     {
       HostCache::Key("host1", ADDRESS_FAMILY_UNSPECIFIED, 0),
       HostCache::Key("host2", ADDRESS_FAMILY_UNSPECIFIED, 0),
       -1
     },
     {
       HostCache::Key("host1", ADDRESS_FAMILY_IPV4, 0),
       HostCache::Key("host2", ADDRESS_FAMILY_UNSPECIFIED, 0),
       1
     },
     {
       HostCache::Key("host1", ADDRESS_FAMILY_UNSPECIFIED, 0),
       HostCache::Key("host2", ADDRESS_FAMILY_IPV4, 0),
       -1
     },
     {
       HostCache::Key("host1", ADDRESS_FAMILY_UNSPECIFIED, 0),
       HostCache::Key("host1", ADDRESS_FAMILY_UNSPECIFIED,
                      HOST_RESOLVER_CANONNAME),
       -1
     },
     {
       HostCache::Key("host1", ADDRESS_FAMILY_UNSPECIFIED,
                      HOST_RESOLVER_CANONNAME),
       HostCache::Key("host1", ADDRESS_FAMILY_UNSPECIFIED, 0),
       1
     },
     {
       HostCache::Key("host1", ADDRESS_FAMILY_UNSPECIFIED,
                      HOST_RESOLVER_CANONNAME),
       HostCache::Key("host2", ADDRESS_FAMILY_UNSPECIFIED,
                      HOST_RESOLVER_CANONNAME),
       -1
     },
   };

   for (size_t i = 0; i < arraysize(tests); ++i) {
     SCOPED_TRACE(base::StringPrintf("Test[%" PRIuS "]", i));

     const HostCache::Key& key1 = tests[i].key1;
     const HostCache::Key& key2 = tests[i].key2;

     switch (tests[i].expected_comparison) {
       case -1:
         EXPECT_TRUE(key1 < key2);
         EXPECT_FALSE(key2 < key1);
         break;
       case 0:
         EXPECT_FALSE(key1 < key2);
         EXPECT_FALSE(key2 < key1);
         break;
       case 1:
         EXPECT_FALSE(key1 < key2);
         EXPECT_TRUE(key2 < key1);
         break;
       default:
         FAIL() << "Invalid expectation. Can be only -1, 0, 1";
     }
   }
 }

 }  // namespace net
	// 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/dns/host_cache.h"

	#include <string>

	#include "base/bind.h"
	#include "base/callback.h"
	#include "base/format_macros.h"
	#include "base/stl_util.h"
	#include "base/strings/string_util.h"
	#include "base/strings/stringprintf.h"
	#include "net/base/net_errors.h"
	#include "testing/gtest/include/gtest/gtest.h"

	namespace net {

	namespace {

	const int kMaxCacheEntries = 10;

	// Builds a key for \|hostname\|, defaulting the address family to unspecified.
	HostCache::Key Key(const std::string& hostname) {
	return HostCache::Key(hostname, ADDRESS_FAMILY_UNSPECIFIED, 0);
	}

	bool FoobarIndexIsOdd(const std::string& foobarx_com) {
	return (foobarx_com[6] - '0') % 2 == 1;
	}

	} // namespace

	TEST(HostCacheTest, Basic) {
	const base::TimeDelta kTTL = base::TimeDelta::FromSeconds(10);

	HostCache cache(kMaxCacheEntries);

	// Start at t=0.
	base::TimeTicks now;

	HostCache::Key key1 = Key("foobar.com");
	HostCache::Key key2 = Key("foobar2.com");
	HostCache::Entry entry = HostCache::Entry(OK, AddressList());

	EXPECT_EQ(0U, cache.size());

	// Add an entry for "foobar.com" at t=0.
	EXPECT_FALSE(cache.Lookup(key1, now));
	cache.Set(key1, entry, now, kTTL);
	EXPECT_TRUE(cache.Lookup(key1, now));
	EXPECT_TRUE(cache.Lookup(key1, now)->error() == entry.error());

	EXPECT_EQ(1U, cache.size());

	// Advance to t=5.
	now += base::TimeDelta::FromSeconds(5);

	// Add an entry for "foobar2.com" at t=5.
	EXPECT_FALSE(cache.Lookup(key2, now));
	cache.Set(key2, entry, now, kTTL);
	EXPECT_TRUE(cache.Lookup(key2, now));
	EXPECT_EQ(2U, cache.size());

	// Advance to t=9
	now += base::TimeDelta::FromSeconds(4);

	// Verify that the entries we added are still retrievable, and usable.
	EXPECT_TRUE(cache.Lookup(key1, now));
	EXPECT_TRUE(cache.Lookup(key2, now));
	EXPECT_NE(cache.Lookup(key1, now), cache.Lookup(key2, now));

	// Advance to t=10; key is now expired.
	now += base::TimeDelta::FromSeconds(1);

	EXPECT_FALSE(cache.Lookup(key1, now));
	EXPECT_TRUE(cache.Lookup(key2, now));

	// Update key1, so it is no longer expired.
	cache.Set(key1, entry, now, kTTL);
	EXPECT_TRUE(cache.Lookup(key1, now));
	EXPECT_EQ(2U, cache.size());

	// Both entries should still be retrievable and usable.
	EXPECT_TRUE(cache.Lookup(key1, now));
	EXPECT_TRUE(cache.Lookup(key2, now));

	// Advance to t=20; both entries are now expired.
	now += base::TimeDelta::FromSeconds(10);

	EXPECT_FALSE(cache.Lookup(key1, now));
	EXPECT_FALSE(cache.Lookup(key2, now));
	}

	// Try caching entries for a failed resolve attempt -- since we set the TTL of
	// such entries to 0 it won't store, but it will kick out the previous result.
	TEST(HostCacheTest, NoCacheZeroTTL) {
	const base::TimeDelta kSuccessEntryTTL = base::TimeDelta::FromSeconds(10);
	const base::TimeDelta kFailureEntryTTL = base::TimeDelta::FromSeconds(0);

	HostCache cache(kMaxCacheEntries);

	// Set t=0.
	base::TimeTicks now;

	HostCache::Key key1 = Key("foobar.com");
	HostCache::Key key2 = Key("foobar2.com");
	HostCache::Entry entry = HostCache::Entry(OK, AddressList());

	EXPECT_FALSE(cache.Lookup(key1, now));
	cache.Set(key1, entry, now, kFailureEntryTTL);
	EXPECT_EQ(1U, cache.size());

	// We disallow use of negative entries.
	EXPECT_FALSE(cache.Lookup(key1, now));

	// Now overwrite with a valid entry, and then overwrite with negative entry
	// again -- the valid entry should be kicked out.
	cache.Set(key1, entry, now, kSuccessEntryTTL);
	EXPECT_TRUE(cache.Lookup(key1, now));
	cache.Set(key1, entry, now, kFailureEntryTTL);
	EXPECT_FALSE(cache.Lookup(key1, now));
	}

	// Try caching entries for a failed resolves for 10 seconds.
	TEST(HostCacheTest, CacheNegativeEntry) {
	const base::TimeDelta kFailureEntryTTL = base::TimeDelta::FromSeconds(10);

	HostCache cache(kMaxCacheEntries);

	// Start at t=0.
	base::TimeTicks now;

	HostCache::Key key1 = Key("foobar.com");
	HostCache::Key key2 = Key("foobar2.com");
	HostCache::Entry entry = HostCache::Entry(OK, AddressList());

	EXPECT_EQ(0U, cache.size());

	// Add an entry for "foobar.com" at t=0.
	EXPECT_FALSE(cache.Lookup(key1, now));
	cache.Set(key1, entry, now, kFailureEntryTTL);
	EXPECT_TRUE(cache.Lookup(key1, now));
	EXPECT_EQ(1U, cache.size());

	// Advance to t=5.
	now += base::TimeDelta::FromSeconds(5);

	// Add an entry for "foobar2.com" at t=5.
	EXPECT_FALSE(cache.Lookup(key2, now));
	cache.Set(key2, entry, now, kFailureEntryTTL);
	EXPECT_TRUE(cache.Lookup(key2, now));
	EXPECT_EQ(2U, cache.size());

	// Advance to t=9
	now += base::TimeDelta::FromSeconds(4);

	// Verify that the entries we added are still retrievable, and usable.
	EXPECT_TRUE(cache.Lookup(key1, now));
	EXPECT_TRUE(cache.Lookup(key2, now));

	// Advance to t=10; key1 is now expired.
	now += base::TimeDelta::FromSeconds(1);

	EXPECT_FALSE(cache.Lookup(key1, now));
	EXPECT_TRUE(cache.Lookup(key2, now));

	// Update key1, so it is no longer expired.
	cache.Set(key1, entry, now, kFailureEntryTTL);
	// Re-uses existing entry storage.
	EXPECT_TRUE(cache.Lookup(key1, now));
	EXPECT_EQ(2U, cache.size());

	// Both entries should still be retrievable and usable.
	EXPECT_TRUE(cache.Lookup(key1, now));
	EXPECT_TRUE(cache.Lookup(key2, now));

	// Advance to t=20; both entries are now expired.
	now += base::TimeDelta::FromSeconds(10);

	EXPECT_FALSE(cache.Lookup(key1, now));
	EXPECT_FALSE(cache.Lookup(key2, now));
	}

	// Tests that the same hostname can be duplicated in the cache, so long as
	// the address family differs.
	TEST(HostCacheTest, AddressFamilyIsPartOfKey) {
	const base::TimeDelta kSuccessEntryTTL = base::TimeDelta::FromSeconds(10);

	HostCache cache(kMaxCacheEntries);

	// t=0.
	base::TimeTicks now;

	HostCache::Key key1("foobar.com", ADDRESS_FAMILY_UNSPECIFIED, 0);
	HostCache::Key key2("foobar.com", ADDRESS_FAMILY_IPV4, 0);
	HostCache::Entry entry = HostCache::Entry(OK, AddressList());

	EXPECT_EQ(0U, cache.size());

	// Add an entry for ("foobar.com", UNSPECIFIED) at t=0.
	EXPECT_FALSE(cache.Lookup(key1, now));
	cache.Set(key1, entry, now, kSuccessEntryTTL);
	EXPECT_TRUE(cache.Lookup(key1, now));
	EXPECT_EQ(1U, cache.size());

	// Add an entry for ("foobar.com", IPV4_ONLY) at t=0.
	EXPECT_FALSE(cache.Lookup(key2, now));
	cache.Set(key2, entry, now, kSuccessEntryTTL);
	EXPECT_TRUE(cache.Lookup(key2, now));
	EXPECT_EQ(2U, cache.size());

	// Even though the hostnames were the same, we should have two unique
	// entries (because the address families differ).
	EXPECT_NE(cache.Lookup(key1, now), cache.Lookup(key2, now));
	}

	// Tests that the same hostname can be duplicated in the cache, so long as
	// the HostResolverFlags differ.
	TEST(HostCacheTest, HostResolverFlagsArePartOfKey) {
	const base::TimeDelta kTTL = base::TimeDelta::FromSeconds(10);

	HostCache cache(kMaxCacheEntries);

	// t=0.
	base::TimeTicks now;

	HostCache::Key key1("foobar.com", ADDRESS_FAMILY_IPV4, 0);
	HostCache::Key key2("foobar.com", ADDRESS_FAMILY_IPV4,
	HOST_RESOLVER_CANONNAME);
	HostCache::Key key3("foobar.com", ADDRESS_FAMILY_IPV4,
	HOST_RESOLVER_LOOPBACK_ONLY);
	HostCache::Entry entry = HostCache::Entry(OK, AddressList());

	EXPECT_EQ(0U, cache.size());

	// Add an entry for ("foobar.com", IPV4, NONE) at t=0.
	EXPECT_FALSE(cache.Lookup(key1, now));
	cache.Set(key1, entry, now, kTTL);
	EXPECT_TRUE(cache.Lookup(key1, now));
	EXPECT_EQ(1U, cache.size());

	// Add an entry for ("foobar.com", IPV4, CANONNAME) at t=0.
	EXPECT_FALSE(cache.Lookup(key2, now));
	cache.Set(key2, entry, now, kTTL);
	EXPECT_TRUE(cache.Lookup(key2, now));
	EXPECT_EQ(2U, cache.size());

	// Add an entry for ("foobar.com", IPV4, LOOPBACK_ONLY) at t=0.
	EXPECT_FALSE(cache.Lookup(key3, now));
	cache.Set(key3, entry, now, kTTL);
	EXPECT_TRUE(cache.Lookup(key3, now));
	EXPECT_EQ(3U, cache.size());

	// Even though the hostnames were the same, we should have two unique
	// entries (because the HostResolverFlags differ).
	EXPECT_NE(cache.Lookup(key1, now), cache.Lookup(key2, now));
	EXPECT_NE(cache.Lookup(key1, now), cache.Lookup(key3, now));
	EXPECT_NE(cache.Lookup(key2, now), cache.Lookup(key3, now));
	}

	TEST(HostCacheTest, NoCache) {
	const base::TimeDelta kTTL = base::TimeDelta::FromSeconds(10);

	// Disable caching.
	HostCache cache(0);
	EXPECT_TRUE(cache.caching_is_disabled());

	// Set t=0.
	base::TimeTicks now;

	HostCache::Entry entry = HostCache::Entry(OK, AddressList());

	// Lookup and Set should have no effect.
	EXPECT_FALSE(cache.Lookup(Key("foobar.com"),now));
	cache.Set(Key("foobar.com"), entry, now, kTTL);
	EXPECT_FALSE(cache.Lookup(Key("foobar.com"), now));

	EXPECT_EQ(0U, cache.size());
	}

	TEST(HostCacheTest, Clear) {
	const base::TimeDelta kTTL = base::TimeDelta::FromSeconds(10);

	HostCache cache(kMaxCacheEntries);

	// Set t=0.
	base::TimeTicks now;

	HostCache::Entry entry = HostCache::Entry(OK, AddressList());

	EXPECT_EQ(0u, cache.size());

	// Add three entries.
	cache.Set(Key("foobar1.com"), entry, now, kTTL);
	cache.Set(Key("foobar2.com"), entry, now, kTTL);
	cache.Set(Key("foobar3.com"), entry, now, kTTL);

	EXPECT_EQ(3u, cache.size());

	cache.clear();

	EXPECT_EQ(0u, cache.size());
	}

	TEST(HostCacheTest, ClearForHosts) {
	const base::TimeDelta kTTL = base::TimeDelta::FromSeconds(10);

	HostCache cache(kMaxCacheEntries);

	// Set t=0.
	base::TimeTicks now;

	HostCache::Entry entry = HostCache::Entry(OK, AddressList());

	EXPECT_EQ(0u, cache.size());

	// Add several entries.
	cache.Set(Key("foobar1.com"), entry, now, kTTL);
	cache.Set(Key("foobar2.com"), entry, now, kTTL);
	cache.Set(Key("foobar3.com"), entry, now, kTTL);
	cache.Set(Key("foobar4.com"), entry, now, kTTL);
	cache.Set(Key("foobar5.com"), entry, now, kTTL);

	EXPECT_EQ(5u, cache.size());

	// Clear the hosts matching a certain predicate, such as the number being odd.
	cache.ClearForHosts(base::Bind(&FoobarIndexIsOdd));

	EXPECT_EQ(2u, cache.size());
	EXPECT_TRUE(cache.Lookup(Key("foobar2.com"), now));
	EXPECT_TRUE(cache.Lookup(Key("foobar4.com"), now));

	// Passing null callback will delete all hosts.
	cache.ClearForHosts(base::Callback<bool(const std::string&)>());

	EXPECT_EQ(0u, cache.size());
	}

	// Try to add too many entries to cache; it should evict the one with the oldest
	// expiration time.
	TEST(HostCacheTest, Evict) {
	HostCache cache(2);

	base::TimeTicks now;

	HostCache::Key key1 = Key("foobar.com");
	HostCache::Key key2 = Key("foobar2.com");
	HostCache::Key key3 = Key("foobar3.com");
	HostCache::Entry entry = HostCache::Entry(OK, AddressList());

	EXPECT_EQ(0u, cache.size());
	EXPECT_FALSE(cache.Lookup(key1, now));
	EXPECT_FALSE(cache.Lookup(key2, now));
	EXPECT_FALSE(cache.Lookup(key3, now));

	// \|key1\| expires in 10 seconds, but \|key2\| in just 5.
	cache.Set(key1, entry, now, base::TimeDelta::FromSeconds(10));
	cache.Set(key2, entry, now, base::TimeDelta::FromSeconds(5));
	EXPECT_EQ(2u, cache.size());
	EXPECT_TRUE(cache.Lookup(key1, now));
	EXPECT_TRUE(cache.Lookup(key2, now));
	EXPECT_FALSE(cache.Lookup(key3, now));

	// \|key2\| should be chosen for eviction, since it expires sooner.
	cache.Set(key3, entry, now, base::TimeDelta::FromSeconds(10));
	EXPECT_EQ(2u, cache.size());
	EXPECT_TRUE(cache.Lookup(key1, now));
	EXPECT_FALSE(cache.Lookup(key2, now));
	EXPECT_TRUE(cache.Lookup(key3, now));
	}

	void TestEvictionCallback(int* evict_count,
	HostCache::Key* key_out,
	const HostCache::Key& key,
	const HostCache::Entry& entry) {
	++*evict_count;
	*key_out = key;
	}

	// Try to add too many entries to cache; it should evict the one with the oldest
	// expiration time.
	TEST(HostCacheTest, EvictWithCallback) {
	HostCache cache(2);

	int evict_count = 0;
	HostCache::Key evicted_key = Key("nothingevicted.com");
	cache.set_eviction_callback(
	base::Bind(&TestEvictionCallback, &evict_count, &evicted_key));

	base::TimeTicks now;

	HostCache::Key key1 = Key("foobar.com");
	HostCache::Key key2 = Key("foobar2.com");
	HostCache::Key key3 = Key("foobar3.com");
	HostCache::Entry entry = HostCache::Entry(OK, AddressList());

	EXPECT_EQ(0u, cache.size());
	EXPECT_FALSE(cache.Lookup(key1, now));
	EXPECT_FALSE(cache.Lookup(key2, now));
	EXPECT_FALSE(cache.Lookup(key3, now));

	// \|key1\| expires in 10 seconds, but \|key2\| in just 5.
	cache.Set(key1, entry, now, base::TimeDelta::FromSeconds(10));
	cache.Set(key2, entry, now, base::TimeDelta::FromSeconds(5));
	EXPECT_EQ(2u, cache.size());
	EXPECT_TRUE(cache.Lookup(key1, now));
	EXPECT_TRUE(cache.Lookup(key2, now));
	EXPECT_FALSE(cache.Lookup(key3, now));

	EXPECT_EQ(0, evict_count);

	// \|key2\| should be chosen for eviction, since it expires sooner.
	cache.Set(key3, entry, now, base::TimeDelta::FromSeconds(10));
	EXPECT_EQ(2u, cache.size());
	EXPECT_TRUE(cache.Lookup(key1, now));
	EXPECT_FALSE(cache.Lookup(key2, now));
	EXPECT_TRUE(cache.Lookup(key3, now));

	EXPECT_EQ(1, evict_count);
	EXPECT_EQ(key2.hostname, evicted_key.hostname);
	}

	// Try to retrieve stale entries from the cache. They should be returned by
	// \|LookupStale()\| but not \|Lookup()\|, with correct \|EntryStaleness\| data.
	TEST(HostCacheTest, Stale) {
	const base::TimeDelta kTTL = base::TimeDelta::FromSeconds(10);

	HostCache cache(kMaxCacheEntries);

	// Start at t=0.
	base::TimeTicks now;
	HostCache::EntryStaleness stale;

	HostCache::Key key = Key("foobar.com");
	HostCache::Entry entry = HostCache::Entry(OK, AddressList());

	EXPECT_EQ(0U, cache.size());

	// Add an entry for "foobar.com" at t=0.
	EXPECT_FALSE(cache.Lookup(key, now));
	EXPECT_FALSE(cache.LookupStale(key, now, &stale));
	cache.Set(key, entry, now, kTTL);
	EXPECT_TRUE(cache.Lookup(key, now));
	EXPECT_TRUE(cache.LookupStale(key, now, &stale));
	EXPECT_FALSE(stale.is_stale());
	EXPECT_EQ(0, stale.stale_hits);

	EXPECT_EQ(1U, cache.size());

	// Advance to t=5.
	now += base::TimeDelta::FromSeconds(5);

	EXPECT_TRUE(cache.Lookup(key, now));
	EXPECT_TRUE(cache.LookupStale(key, now, &stale));
	EXPECT_FALSE(stale.is_stale());
	EXPECT_EQ(0, stale.stale_hits);

	// Advance to t=15.
	now += base::TimeDelta::FromSeconds(10);

	EXPECT_FALSE(cache.Lookup(key, now));
	EXPECT_TRUE(cache.LookupStale(key, now, &stale));
	EXPECT_TRUE(stale.is_stale());
	EXPECT_EQ(base::TimeDelta::FromSeconds(5), stale.expired_by);
	EXPECT_EQ(0, stale.network_changes);
	EXPECT_EQ(1, stale.stale_hits);

	// Advance to t=20.
	now += base::TimeDelta::FromSeconds(5);

	EXPECT_FALSE(cache.Lookup(key, now));
	EXPECT_TRUE(cache.LookupStale(key, now, &stale));
	EXPECT_TRUE(stale.is_stale());
	EXPECT_EQ(base::TimeDelta::FromSeconds(10), stale.expired_by);
	EXPECT_EQ(0, stale.network_changes);
	EXPECT_EQ(2, stale.stale_hits);

	// Simulate network change.
	cache.OnNetworkChange();

	EXPECT_FALSE(cache.Lookup(key, now));
	EXPECT_TRUE(cache.LookupStale(key, now, &stale));
	EXPECT_TRUE(stale.is_stale());
	EXPECT_EQ(base::TimeDelta::FromSeconds(10), stale.expired_by);
	EXPECT_EQ(1, stale.network_changes);
	EXPECT_EQ(3, stale.stale_hits);
	}

	// Tests the less than and equal operators for HostCache::Key work.
	TEST(HostCacheTest, KeyComparators) {
	struct {
	// Inputs.
	HostCache::Key key1;
	HostCache::Key key2;

	// Expectation.
	// -1 means key1 is less than key2
	// 0 means key1 equals key2
	// 1 means key1 is greater than key2
	int expected_comparison;
	} tests[] = {
	{
	HostCache::Key("host1", ADDRESS_FAMILY_UNSPECIFIED, 0),
	HostCache::Key("host1", ADDRESS_FAMILY_UNSPECIFIED, 0),
	0
	},
	{
	HostCache::Key("host1", ADDRESS_FAMILY_IPV4, 0),
	HostCache::Key("host1", ADDRESS_FAMILY_UNSPECIFIED, 0),
	1
	},
	{
	HostCache::Key("host1", ADDRESS_FAMILY_UNSPECIFIED, 0),
	HostCache::Key("host1", ADDRESS_FAMILY_IPV4, 0),
	-1
	},
	{
	HostCache::Key("host1", ADDRESS_FAMILY_UNSPECIFIED, 0),
	HostCache::Key("host2", ADDRESS_FAMILY_UNSPECIFIED, 0),
	-1
	},
	{
	HostCache::Key("host1", ADDRESS_FAMILY_IPV4, 0),
	HostCache::Key("host2", ADDRESS_FAMILY_UNSPECIFIED, 0),
	1
	},
	{
	HostCache::Key("host1", ADDRESS_FAMILY_UNSPECIFIED, 0),
	HostCache::Key("host2", ADDRESS_FAMILY_IPV4, 0),
	-1
	},
	{
	HostCache::Key("host1", ADDRESS_FAMILY_UNSPECIFIED, 0),
	HostCache::Key("host1", ADDRESS_FAMILY_UNSPECIFIED,
	HOST_RESOLVER_CANONNAME),
	-1
	},
	{
	HostCache::Key("host1", ADDRESS_FAMILY_UNSPECIFIED,
	HOST_RESOLVER_CANONNAME),
	HostCache::Key("host1", ADDRESS_FAMILY_UNSPECIFIED, 0),
	1
	},
	{
	HostCache::Key("host1", ADDRESS_FAMILY_UNSPECIFIED,
	HOST_RESOLVER_CANONNAME),
	HostCache::Key("host2", ADDRESS_FAMILY_UNSPECIFIED,
	HOST_RESOLVER_CANONNAME),
	-1
	},
	};

	for (size_t i = 0; i < arraysize(tests); ++i) {
	SCOPED_TRACE(base::StringPrintf("Test[%" PRIuS "]", i));

	const HostCache::Key& key1 = tests[i].key1;
	const HostCache::Key& key2 = tests[i].key2;

	switch (tests[i].expected_comparison) {
	case -1:
	EXPECT_TRUE(key1 < key2);
	EXPECT_FALSE(key2 < key1);
	break;
	case 0:
	EXPECT_FALSE(key1 < key2);
	EXPECT_FALSE(key2 < key1);
	break;
	case 1:
	EXPECT_FALSE(key1 < key2);
	EXPECT_TRUE(key2 < key1);
	break;
	default:
	FAIL() << "Invalid expectation. Can be only -1, 0, 1";
	}
	}
	}

	} // namespace net