// 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/dns_hosts.h" #include "testing/gtest/include/gtest/gtest.h" namespace net { namespace { struct ExpectedHostsEntry { const char* host; AddressFamily family; const char* ip; }; void PopulateExpectedHosts(const ExpectedHostsEntry* entries, size_t num_entries, DnsHosts* expected_hosts_out) { for (size_t i = 0; i < num_entries; ++i) { DnsHostsKey key(entries[i].host, entries[i].family); IPAddressNumber& ip_ref = (*expected_hosts_out)[key]; ASSERT_TRUE(ip_ref.empty()); ASSERT_TRUE(ParseIPLiteralToNumber(entries[i].ip, &ip_ref)); ASSERT_EQ(ip_ref.size(), (entries[i].family == ADDRESS_FAMILY_IPV4) ? 4u : 16u); } } TEST(DnsHostsTest, ParseHosts) { const std::string kContents = "127.0.0.1 localhost\tlocalhost.localdomain # standard\n" "\n" "1.0.0.1 localhost # ignored, first hit above\n" "fe00::x example company # ignored, malformed IPv6\n" "1.0.0.300 company # ignored, malformed IPv4\n" "1.0.0.1 # ignored, missing hostname\n" "1.0.0.1\t CoMpANy # normalized to 'company' \n" "::1\tlocalhost ip6-localhost ip6-loopback # comment # within a comment\n" "\t fe00::0 ip6-localnet\r\n" "2048::2 example\n" "2048::1 company example # ignored for 'example' \n" "127.0.0.1 cache1\n" "127.0.0.1 cache2 # should reuse parsed IP\n" "256.0.0.0 cache3 # bogus IP should not clear parsed IP cache\n" "127.0.0.1 cache4 # should still be reused\n" "127.0.0.2 cache5\n" "gibberish"; const ExpectedHostsEntry kEntries[] = { { "localhost", ADDRESS_FAMILY_IPV4, "127.0.0.1" }, { "localhost.localdomain", ADDRESS_FAMILY_IPV4, "127.0.0.1" }, { "company", ADDRESS_FAMILY_IPV4, "1.0.0.1" }, { "localhost", ADDRESS_FAMILY_IPV6, "::1" }, { "ip6-localhost", ADDRESS_FAMILY_IPV6, "::1" }, { "ip6-loopback", ADDRESS_FAMILY_IPV6, "::1" }, { "ip6-localnet", ADDRESS_FAMILY_IPV6, "fe00::0" }, { "company", ADDRESS_FAMILY_IPV6, "2048::1" }, { "example", ADDRESS_FAMILY_IPV6, "2048::2" }, { "cache1", ADDRESS_FAMILY_IPV4, "127.0.0.1" }, { "cache2", ADDRESS_FAMILY_IPV4, "127.0.0.1" }, { "cache4", ADDRESS_FAMILY_IPV4, "127.0.0.1" }, { "cache5", ADDRESS_FAMILY_IPV4, "127.0.0.2" }, }; DnsHosts expected_hosts, actual_hosts; PopulateExpectedHosts(kEntries, ARRAYSIZE_UNSAFE(kEntries), &expected_hosts); ParseHosts(kContents, &actual_hosts); ASSERT_EQ(expected_hosts, actual_hosts); } TEST(DnsHostsTest, ParseHosts_CommaIsToken) { const std::string kContents = "127.0.0.1 comma1,comma2"; const ExpectedHostsEntry kEntries[] = { { "comma1,comma2", ADDRESS_FAMILY_IPV4, "127.0.0.1" }, }; DnsHosts expected_hosts, actual_hosts; PopulateExpectedHosts(kEntries, ARRAYSIZE_UNSAFE(kEntries), &expected_hosts); ParseHostsWithCommaModeForTesting( kContents, &actual_hosts, PARSE_HOSTS_COMMA_IS_TOKEN); ASSERT_EQ(expected_hosts, actual_hosts); } TEST(DnsHostsTest, ParseHosts_CommaIsWhitespace) { std::string kContents = "127.0.0.1 comma1,comma2"; const ExpectedHostsEntry kEntries[] = { { "comma1", ADDRESS_FAMILY_IPV4, "127.0.0.1" }, { "comma2", ADDRESS_FAMILY_IPV4, "127.0.0.1" }, }; DnsHosts expected_hosts, actual_hosts; PopulateExpectedHosts(kEntries, ARRAYSIZE_UNSAFE(kEntries), &expected_hosts); ParseHostsWithCommaModeForTesting( kContents, &actual_hosts, PARSE_HOSTS_COMMA_IS_WHITESPACE); ASSERT_EQ(expected_hosts, actual_hosts); } // Test that the right comma mode is used on each platform. TEST(DnsHostsTest, ParseHosts_CommaModeByPlatform) { std::string kContents = "127.0.0.1 comma1,comma2"; #if defined(OS_MACOSX) const ExpectedHostsEntry kEntries[] = { { "comma1", ADDRESS_FAMILY_IPV4, "127.0.0.1" }, { "comma2", ADDRESS_FAMILY_IPV4, "127.0.0.1" }, }; #else const ExpectedHostsEntry kEntries[] = { { "comma1,comma2", ADDRESS_FAMILY_IPV4, "127.0.0.1" }, }; #endif DnsHosts expected_hosts, actual_hosts; PopulateExpectedHosts(kEntries, ARRAYSIZE_UNSAFE(kEntries), &expected_hosts); ParseHosts(kContents, &actual_hosts); ASSERT_EQ(expected_hosts, actual_hosts); } TEST(DnsHostsTest, HostsParser_Empty) { DnsHosts hosts; ParseHosts("", &hosts); EXPECT_EQ(0u, hosts.size()); } TEST(DnsHostsTest, HostsParser_OnlyWhitespace) { DnsHosts hosts; ParseHosts(" ", &hosts); EXPECT_EQ(0u, hosts.size()); } TEST(DnsHostsTest, HostsParser_EndsWithNothing) { DnsHosts hosts; ParseHosts("127.0.0.1 localhost", &hosts); EXPECT_EQ(1u, hosts.size()); } TEST(DnsHostsTest, HostsParser_EndsWithWhitespace) { DnsHosts hosts; ParseHosts("127.0.0.1 localhost ", &hosts); EXPECT_EQ(1u, hosts.size()); } TEST(DnsHostsTest, HostsParser_EndsWithComment) { DnsHosts hosts; ParseHosts("127.0.0.1 localhost # comment", &hosts); EXPECT_EQ(1u, hosts.size()); } TEST(DnsHostsTest, HostsParser_EndsWithNewline) { DnsHosts hosts; ParseHosts("127.0.0.1 localhost\n", &hosts); EXPECT_EQ(1u, hosts.size()); } TEST(DnsHostsTest, HostsParser_EndsWithTwoNewlines) { DnsHosts hosts; ParseHosts("127.0.0.1 localhost\n\n", &hosts); EXPECT_EQ(1u, hosts.size()); } TEST(DnsHostsTest, HostsParser_EndsWithNewlineAndWhitespace) { DnsHosts hosts; ParseHosts("127.0.0.1 localhost\n ", &hosts); EXPECT_EQ(1u, hosts.size()); } TEST(DnsHostsTest, HostsParser_EndsWithNewlineAndToken) { DnsHosts hosts; ParseHosts("127.0.0.1 localhost\ntoken", &hosts); EXPECT_EQ(1u, hosts.size()); } } // namespace } // namespace net