// 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_config_service_win.h" #include "base/logging.h" #include "base/win/windows_version.h" #include "net/base/ip_address.h" #include "net/dns/dns_protocol.h" #include "testing/gtest/include/gtest/gtest.h" namespace net { namespace { TEST(DnsConfigServiceWinTest, ParseSearchList) { const struct TestCase { const wchar_t* input; const char* output[4]; // NULL-terminated, empty if expected false } cases[] = { { L"chromium.org", { "chromium.org", NULL } }, { L"chromium.org,org", { "chromium.org", "org", NULL } }, // Empty suffixes terminate the list { L"crbug.com,com,,org", { "crbug.com", "com", NULL } }, // IDN are converted to punycode { L"\u017c\xf3\u0142ta.pi\u0119\u015b\u0107.pl,pl", { "xn--ta-4ja03asj.xn--pi-wla5e0q.pl", "pl", NULL } }, // Empty search list is invalid { L"", { NULL } }, { L",,", { NULL } }, }; for (const auto& t : cases) { std::vector actual_output, expected_output; actual_output.push_back("UNSET"); for (const char* const* output = t.output; *output; ++output) { expected_output.push_back(*output); } bool result = internal::ParseSearchList(t.input, &actual_output); if (!expected_output.empty()) { EXPECT_TRUE(result); EXPECT_EQ(expected_output, actual_output); } else { EXPECT_FALSE(result) << "Unexpected parse success on " << t.input; } } } struct AdapterInfo { IFTYPE if_type; IF_OPER_STATUS oper_status; const WCHAR* dns_suffix; std::string dns_server_addresses[4]; // Empty string indicates end. uint16_t ports[4]; }; scoped_ptr CreateAdapterAddresses( const AdapterInfo* infos) { size_t num_adapters = 0; size_t num_addresses = 0; for (size_t i = 0; infos[i].if_type; ++i) { ++num_adapters; for (size_t j = 0; !infos[i].dns_server_addresses[j].empty(); ++j) { ++num_addresses; } } size_t heap_size = num_adapters * sizeof(IP_ADAPTER_ADDRESSES) + num_addresses * (sizeof(IP_ADAPTER_DNS_SERVER_ADDRESS) + sizeof(struct sockaddr_storage)); scoped_ptr heap( static_cast(malloc(heap_size))); CHECK(heap.get()); memset(heap.get(), 0, heap_size); IP_ADAPTER_ADDRESSES* adapters = heap.get(); IP_ADAPTER_DNS_SERVER_ADDRESS* addresses = reinterpret_cast(adapters + num_adapters); struct sockaddr_storage* storage = reinterpret_cast(addresses + num_addresses); for (size_t i = 0; i < num_adapters; ++i) { const AdapterInfo& info = infos[i]; IP_ADAPTER_ADDRESSES* adapter = adapters + i; if (i + 1 < num_adapters) adapter->Next = adapter + 1; adapter->IfType = info.if_type; adapter->OperStatus = info.oper_status; adapter->DnsSuffix = const_cast(info.dns_suffix); IP_ADAPTER_DNS_SERVER_ADDRESS* address = NULL; for (size_t j = 0; !info.dns_server_addresses[j].empty(); ++j) { --num_addresses; if (j == 0) { address = adapter->FirstDnsServerAddress = addresses + num_addresses; } else { // Note that |address| is moving backwards. address = address->Next = address - 1; } IPAddress ip; CHECK(ip.AssignFromIPLiteral(info.dns_server_addresses[j])); IPEndPoint ipe = IPEndPoint(ip, info.ports[j]); address->Address.lpSockaddr = reinterpret_cast(storage + num_addresses); socklen_t length = sizeof(struct sockaddr_storage); CHECK(ipe.ToSockAddr(address->Address.lpSockaddr, &length)); address->Address.iSockaddrLength = static_cast(length); } } return heap; } TEST(DnsConfigServiceWinTest, ConvertAdapterAddresses) { // Check nameservers and connection-specific suffix. const struct TestCase { AdapterInfo input_adapters[4]; // |if_type| == 0 indicates end. std::string expected_nameservers[4]; // Empty string indicates end. std::string expected_suffix; uint16_t expected_ports[4]; } cases[] = { { // Ignore loopback and inactive adapters. { { IF_TYPE_SOFTWARE_LOOPBACK, IfOperStatusUp, L"funnyloop", { "2.0.0.2" } }, { IF_TYPE_FASTETHER, IfOperStatusDormant, L"example.com", { "1.0.0.1" } }, { IF_TYPE_USB, IfOperStatusUp, L"chromium.org", { "10.0.0.10", "2001:FFFF::1111" } }, { 0 }, }, { "10.0.0.10", "2001:FFFF::1111" }, "chromium.org", }, { // Respect configured ports. { { IF_TYPE_USB, IfOperStatusUp, L"chromium.org", { "10.0.0.10", "2001:FFFF::1111" }, { 1024, 24 } }, { 0 }, }, { "10.0.0.10", "2001:FFFF::1111" }, "chromium.org", { 1024, 24 }, }, { // Use the preferred adapter (first in binding order) and filter // stateless DNS discovery addresses. { { IF_TYPE_SOFTWARE_LOOPBACK, IfOperStatusUp, L"funnyloop", { "2.0.0.2" } }, { IF_TYPE_FASTETHER, IfOperStatusUp, L"example.com", { "1.0.0.1", "fec0:0:0:ffff::2", "8.8.8.8" } }, { IF_TYPE_USB, IfOperStatusUp, L"chromium.org", { "10.0.0.10", "2001:FFFF::1111" } }, { 0 }, }, { "1.0.0.1", "8.8.8.8" }, "example.com", }, { // No usable adapters. { { IF_TYPE_SOFTWARE_LOOPBACK, IfOperStatusUp, L"localhost", { "2.0.0.2" } }, { IF_TYPE_FASTETHER, IfOperStatusDormant, L"example.com", { "1.0.0.1" } }, { IF_TYPE_USB, IfOperStatusUp, L"chromium.org" }, { 0 }, }, }, }; for (const auto& t : cases) { internal::DnsSystemSettings settings; settings.addresses = CreateAdapterAddresses(t.input_adapters); // Default settings for the rest. std::vector expected_nameservers; for (size_t j = 0; !t.expected_nameservers[j].empty(); ++j) { IPAddress ip; ASSERT_TRUE(ip.AssignFromIPLiteral(t.expected_nameservers[j])); uint16_t port = t.expected_ports[j]; if (!port) port = dns_protocol::kDefaultPort; expected_nameservers.push_back(IPEndPoint(ip, port)); } DnsConfig config; internal::ConfigParseWinResult result = internal::ConvertSettingsToDnsConfig(settings, &config); internal::ConfigParseWinResult expected_result = expected_nameservers.empty() ? internal::CONFIG_PARSE_WIN_NO_NAMESERVERS : internal::CONFIG_PARSE_WIN_OK; EXPECT_EQ(expected_result, result); EXPECT_EQ(expected_nameservers, config.nameservers); if (result == internal::CONFIG_PARSE_WIN_OK) { ASSERT_EQ(1u, config.search.size()); EXPECT_EQ(t.expected_suffix, config.search[0]); } } } TEST(DnsConfigServiceWinTest, ConvertSuffixSearch) { AdapterInfo infos[2] = { { IF_TYPE_USB, IfOperStatusUp, L"connection.suffix", { "1.0.0.1" } }, { 0 }, }; const struct TestCase { struct { internal::DnsSystemSettings::RegString policy_search_list; internal::DnsSystemSettings::RegString tcpip_search_list; internal::DnsSystemSettings::RegString tcpip_domain; internal::DnsSystemSettings::RegString primary_dns_suffix; internal::DnsSystemSettings::DevolutionSetting policy_devolution; internal::DnsSystemSettings::DevolutionSetting dnscache_devolution; internal::DnsSystemSettings::DevolutionSetting tcpip_devolution; } input_settings; std::string expected_search[5]; } cases[] = { { // Policy SearchList override. { { true, L"policy.searchlist.a,policy.searchlist.b" }, { true, L"tcpip.searchlist.a,tcpip.searchlist.b" }, { true, L"tcpip.domain" }, { true, L"primary.dns.suffix" }, }, { "policy.searchlist.a", "policy.searchlist.b" }, }, { // User-specified SearchList override. { { false }, { true, L"tcpip.searchlist.a,tcpip.searchlist.b" }, { true, L"tcpip.domain" }, { true, L"primary.dns.suffix" }, }, { "tcpip.searchlist.a", "tcpip.searchlist.b" }, }, { // Void SearchList. Using tcpip.domain { { true, L",bad.searchlist,parsed.as.empty" }, { true, L"tcpip.searchlist,good.but.overridden" }, { true, L"tcpip.domain" }, { false }, }, { "tcpip.domain", "connection.suffix" }, }, { // Void SearchList. Using primary.dns.suffix { { true, L",bad.searchlist,parsed.as.empty" }, { true, L"tcpip.searchlist,good.but.overridden" }, { true, L"tcpip.domain" }, { true, L"primary.dns.suffix" }, }, { "primary.dns.suffix", "connection.suffix" }, }, { // Void SearchList. Using tcpip.domain when primary.dns.suffix is empty { { true, L",bad.searchlist,parsed.as.empty" }, { true, L"tcpip.searchlist,good.but.overridden" }, { true, L"tcpip.domain" }, { true, L"" }, }, { "tcpip.domain", "connection.suffix" }, }, { // Void SearchList. Using tcpip.domain when primary.dns.suffix is NULL { { true, L",bad.searchlist,parsed.as.empty" }, { true, L"tcpip.searchlist,good.but.overridden" }, { true, L"tcpip.domain" }, { true }, }, { "tcpip.domain", "connection.suffix" }, }, { // No primary suffix. Devolution does not matter. { { false }, { false }, { true }, { true }, { { true, 1 }, { true, 2 } }, }, { "connection.suffix" }, }, { // Devolution enabled by policy, level by dnscache. { { false }, { false }, { true, L"a.b.c.d.e" }, { false }, { { true, 1 }, { false } }, // policy_devolution: enabled, level { { true, 0 }, { true, 3 } }, // dnscache_devolution { { true, 0 }, { true, 1 } }, // tcpip_devolution }, { "a.b.c.d.e", "connection.suffix", "b.c.d.e", "c.d.e" }, }, { // Devolution enabled by dnscache, level by policy. { { false }, { false }, { true, L"a.b.c.d.e" }, { true, L"f.g.i.l.j" }, { { false }, { true, 4 } }, { { true, 1 }, { false } }, { { true, 0 }, { true, 3 } }, }, { "f.g.i.l.j", "connection.suffix", "g.i.l.j" }, }, { // Devolution enabled by default. { { false }, { false }, { true, L"a.b.c.d.e" }, { false }, { { false }, { false } }, { { false }, { true, 3 } }, { { false }, { true, 1 } }, }, { "a.b.c.d.e", "connection.suffix", "b.c.d.e", "c.d.e" }, }, { // Devolution enabled at level = 2, but nothing to devolve. { { false }, { false }, { true, L"a.b" }, { false }, { { false }, { false } }, { { false }, { true, 2 } }, { { false }, { true, 2 } }, }, { "a.b", "connection.suffix" }, }, { // Devolution disabled when no explicit level. // Windows XP and Vista use a default level = 2, but we don't. { { false }, { false }, { true, L"a.b.c.d.e" }, { false }, { { true, 1 }, { false } }, { { true, 1 }, { false } }, { { true, 1 }, { false } }, }, { "a.b.c.d.e", "connection.suffix" }, }, { // Devolution disabled by policy level. { { false }, { false }, { true, L"a.b.c.d.e" }, { false }, { { false }, { true, 1 } }, { { true, 1 }, { true, 3 } }, { { true, 1 }, { true, 4 } }, }, { "a.b.c.d.e", "connection.suffix" }, }, { // Devolution disabled by user setting. { { false }, { false }, { true, L"a.b.c.d.e" }, { false }, { { false }, { true, 3 } }, { { false }, { true, 3 } }, { { true, 0 }, { true, 3 } }, }, { "a.b.c.d.e", "connection.suffix" }, }, }; for (auto& t : cases) { internal::DnsSystemSettings settings; settings.addresses = CreateAdapterAddresses(infos); settings.policy_search_list = t.input_settings.policy_search_list; settings.tcpip_search_list = t.input_settings.tcpip_search_list; settings.tcpip_domain = t.input_settings.tcpip_domain; settings.primary_dns_suffix = t.input_settings.primary_dns_suffix; settings.policy_devolution = t.input_settings.policy_devolution; settings.dnscache_devolution = t.input_settings.dnscache_devolution; settings.tcpip_devolution = t.input_settings.tcpip_devolution; DnsConfig config; EXPECT_EQ(internal::CONFIG_PARSE_WIN_OK, internal::ConvertSettingsToDnsConfig(settings, &config)); std::vector expected_search; for (size_t j = 0; !t.expected_search[j].empty(); ++j) { expected_search.push_back(t.expected_search[j]); } EXPECT_EQ(expected_search, config.search); } } TEST(DnsConfigServiceWinTest, AppendToMultiLabelName) { AdapterInfo infos[2] = { { IF_TYPE_USB, IfOperStatusUp, L"connection.suffix", { "1.0.0.1" } }, { 0 }, }; // The default setting was true pre-Vista. bool default_value = (base::win::GetVersion() < base::win::VERSION_VISTA); const struct TestCase { internal::DnsSystemSettings::RegDword input; bool expected_output; } cases[] = { { { true, 0 }, false }, { { true, 1 }, true }, { { false, 0 }, default_value }, }; for (const auto& t : cases) { internal::DnsSystemSettings settings; settings.addresses = CreateAdapterAddresses(infos); settings.append_to_multi_label_name = t.input; DnsConfig config; EXPECT_EQ(internal::CONFIG_PARSE_WIN_OK, internal::ConvertSettingsToDnsConfig(settings, &config)); EXPECT_EQ(t.expected_output, config.append_to_multi_label_name); } } // Setting have_name_resolution_policy_table should set unhandled_options. TEST(DnsConfigServiceWinTest, HaveNRPT) { AdapterInfo infos[2] = { { IF_TYPE_USB, IfOperStatusUp, L"connection.suffix", { "1.0.0.1" } }, { 0 }, }; const struct TestCase { bool have_nrpt; bool unhandled_options; internal::ConfigParseWinResult result; } cases[] = { { false, false, internal::CONFIG_PARSE_WIN_OK }, { true, true, internal::CONFIG_PARSE_WIN_UNHANDLED_OPTIONS }, }; for (const auto& t : cases) { internal::DnsSystemSettings settings; settings.addresses = CreateAdapterAddresses(infos); settings.have_name_resolution_policy = t.have_nrpt; DnsConfig config; EXPECT_EQ(t.result, internal::ConvertSettingsToDnsConfig(settings, &config)); EXPECT_EQ(t.unhandled_options, config.unhandled_options); EXPECT_EQ(t.have_nrpt, config.use_local_ipv6); } } } // namespace } // namespace net