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// 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 "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);
}

}  // 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) {
  // Disable caching.
  const base::TimeDelta kTTL = base::TimeDelta::FromSeconds(10);

  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());
}

// 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_UNSAFE(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