/* * Copyright (C) 2016 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless requied by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. * */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #define LOG_TAG "netd_test" // TODO: make this dynamic and stop depending on implementation details. #define TEST_OEM_NETWORK "oem29" #define TEST_NETID 30 #include "NetdClient.h" #include #include #include #include "dns_responder.h" #include "dns_responder_client.h" #include "resolv_params.h" #include "ResolverStats.h" #include "android/net/INetd.h" #include "android/net/metrics/INetdEventListener.h" #include "binder/IServiceManager.h" using android::base::StringPrintf; using android::base::StringAppendF; using android::net::ResolverStats; using android::net::metrics::INetdEventListener; // Emulates the behavior of UnorderedElementsAreArray, which currently cannot be used. // TODO: Use UnorderedElementsAreArray, which depends on being able to compile libgmock_host, // if that is not possible, improve this hacky algorithm, which is O(n**2) template bool UnorderedCompareArray(const A& a, const B& b) { if (a.size() != b.size()) return false; for (const auto& a_elem : a) { size_t a_count = 0; for (const auto& a_elem2 : a) { if (a_elem == a_elem2) { ++a_count; } } size_t b_count = 0; for (const auto& b_elem : b) { if (a_elem == b_elem) ++b_count; } if (a_count != b_count) return false; } return true; } class AddrInfo { public: AddrInfo() : ai_(nullptr), error_(0) {} AddrInfo(const char* node, const char* service, const addrinfo& hints) : ai_(nullptr) { init(node, service, hints); } AddrInfo(const char* node, const char* service) : ai_(nullptr) { init(node, service); } ~AddrInfo() { clear(); } int init(const char* node, const char* service, const addrinfo& hints) { clear(); error_ = getaddrinfo(node, service, &hints, &ai_); return error_; } int init(const char* node, const char* service) { clear(); error_ = getaddrinfo(node, service, nullptr, &ai_); return error_; } void clear() { if (ai_ != nullptr) { freeaddrinfo(ai_); ai_ = nullptr; error_ = 0; } } const addrinfo& operator*() const { return *ai_; } const addrinfo* get() const { return ai_; } const addrinfo* operator&() const { return ai_; } int error() const { return error_; } private: addrinfo* ai_; int error_; }; class ResolverTest : public ::testing::Test, public DnsResponderClient { private: int mOriginalMetricsLevel; protected: virtual void SetUp() { // Ensure resolutions go via proxy. DnsResponderClient::SetUp(); // If DNS reporting is off: turn it on so we run through everything. auto rv = mNetdSrv->getMetricsReportingLevel(&mOriginalMetricsLevel); ASSERT_TRUE(rv.isOk()); if (mOriginalMetricsLevel != INetdEventListener::REPORTING_LEVEL_FULL) { rv = mNetdSrv->setMetricsReportingLevel(INetdEventListener::REPORTING_LEVEL_FULL); ASSERT_TRUE(rv.isOk()); } } virtual void TearDown() { if (mOriginalMetricsLevel != INetdEventListener::REPORTING_LEVEL_FULL) { auto rv = mNetdSrv->setMetricsReportingLevel(mOriginalMetricsLevel); ASSERT_TRUE(rv.isOk()); } DnsResponderClient::TearDown(); } bool GetResolverInfo(std::vector* servers, std::vector* domains, __res_params* params, std::vector* stats) { using android::net::INetd; std::vector params32; std::vector stats32; auto rv = mNetdSrv->getResolverInfo(TEST_NETID, servers, domains, ¶ms32, &stats32); if (!rv.isOk() || params32.size() != INetd::RESOLVER_PARAMS_COUNT) { return false; } *params = __res_params { .sample_validity = static_cast( params32[INetd::RESOLVER_PARAMS_SAMPLE_VALIDITY]), .success_threshold = static_cast( params32[INetd::RESOLVER_PARAMS_SUCCESS_THRESHOLD]), .min_samples = static_cast( params32[INetd::RESOLVER_PARAMS_MIN_SAMPLES]), .max_samples = static_cast( params32[INetd::RESOLVER_PARAMS_MAX_SAMPLES]) }; return ResolverStats::decodeAll(stats32, stats); } std::string ToString(const hostent* he) const { if (he == nullptr) return ""; char buffer[INET6_ADDRSTRLEN]; if (!inet_ntop(he->h_addrtype, he->h_addr_list[0], buffer, sizeof(buffer))) { return ""; } return buffer; } std::string ToString(const addrinfo* ai) const { if (!ai) return ""; for (const auto* aip = ai ; aip != nullptr ; aip = aip->ai_next) { char host[NI_MAXHOST]; int rv = getnameinfo(aip->ai_addr, aip->ai_addrlen, host, sizeof(host), nullptr, 0, NI_NUMERICHOST); if (rv != 0) return gai_strerror(rv); return host; } return ""; } size_t GetNumQueries(const test::DNSResponder& dns, const char* name) const { auto queries = dns.queries(); size_t found = 0; for (const auto& p : queries) { if (p.first == name) { ++found; } } return found; } size_t GetNumQueriesForType(const test::DNSResponder& dns, ns_type type, const char* name) const { auto queries = dns.queries(); size_t found = 0; for (const auto& p : queries) { if (p.second == type && p.first == name) { ++found; } } return found; } void RunGetAddrInfoStressTest_Binder(unsigned num_hosts, unsigned num_threads, unsigned num_queries) { std::vector domains = { "example.com" }; std::vector> dns; std::vector servers; std::vector mappings; ASSERT_NO_FATAL_FAILURE(SetupMappings(num_hosts, domains, &mappings)); ASSERT_NO_FATAL_FAILURE(SetupDNSServers(MAXNS, mappings, &dns, &servers)); ASSERT_TRUE(SetResolversForNetwork(servers, domains, mDefaultParams_Binder)); auto t0 = std::chrono::steady_clock::now(); std::vector threads(num_threads); for (std::thread& thread : threads) { thread = std::thread([this, &servers, &dns, &mappings, num_queries]() { for (unsigned i = 0 ; i < num_queries ; ++i) { uint32_t ofs = arc4random_uniform(mappings.size()); auto& mapping = mappings[ofs]; addrinfo* result = nullptr; int rv = getaddrinfo(mapping.host.c_str(), nullptr, nullptr, &result); EXPECT_EQ(0, rv) << "error [" << rv << "] " << gai_strerror(rv); if (rv == 0) { std::string result_str = ToString(result); EXPECT_TRUE(result_str == mapping.ip4 || result_str == mapping.ip6) << "result='" << result_str << "', ip4='" << mapping.ip4 << "', ip6='" << mapping.ip6; } if (result) { freeaddrinfo(result); result = nullptr; } } }); } for (std::thread& thread : threads) { thread.join(); } auto t1 = std::chrono::steady_clock::now(); ALOGI("%u hosts, %u threads, %u queries, %Es", num_hosts, num_threads, num_queries, std::chrono::duration(t1 - t0).count()); ASSERT_NO_FATAL_FAILURE(ShutdownDNSServers(&dns)); } const std::vector mDefaultSearchDomains = { "example.com" }; // const std::string mDefaultParams = "300 25 8 8"; const std::vector mDefaultParams_Binder = { 300, 25, 8, 8 }; }; TEST_F(ResolverTest, GetHostByName) { const char* listen_addr = "127.0.0.3"; const char* listen_srv = "53"; const char* host_name = "hello.example.com."; const char *nonexistent_host_name = "nonexistent.example.com."; test::DNSResponder dns(listen_addr, listen_srv, 250, ns_rcode::ns_r_servfail, 1.0); dns.addMapping(host_name, ns_type::ns_t_a, "1.2.3.3"); ASSERT_TRUE(dns.startServer()); std::vector servers = { listen_addr }; ASSERT_TRUE(SetResolversForNetwork(mDefaultSearchDomains, servers, mDefaultParams)); const hostent* result; dns.clearQueries(); result = gethostbyname("nonexistent"); EXPECT_EQ(1U, GetNumQueriesForType(dns, ns_type::ns_t_a, nonexistent_host_name)); ASSERT_TRUE(result == nullptr); ASSERT_EQ(HOST_NOT_FOUND, h_errno); dns.clearQueries(); result = gethostbyname("hello"); EXPECT_EQ(1U, GetNumQueriesForType(dns, ns_type::ns_t_a, host_name)); ASSERT_FALSE(result == nullptr); ASSERT_EQ(4, result->h_length); ASSERT_FALSE(result->h_addr_list[0] == nullptr); EXPECT_EQ("1.2.3.3", ToString(result)); EXPECT_TRUE(result->h_addr_list[1] == nullptr); dns.stopServer(); } TEST_F(ResolverTest, TestBinderSerialization) { using android::net::INetd; std::vector params_offsets = { INetd::RESOLVER_PARAMS_SAMPLE_VALIDITY, INetd::RESOLVER_PARAMS_SUCCESS_THRESHOLD, INetd::RESOLVER_PARAMS_MIN_SAMPLES, INetd::RESOLVER_PARAMS_MAX_SAMPLES }; int size = static_cast(params_offsets.size()); EXPECT_EQ(size, INetd::RESOLVER_PARAMS_COUNT); std::sort(params_offsets.begin(), params_offsets.end()); for (int i = 0 ; i < size ; ++i) { EXPECT_EQ(params_offsets[i], i); } } TEST_F(ResolverTest, GetHostByName_Binder) { using android::net::INetd; std::vector domains = { "example.com" }; std::vector> dns; std::vector servers; std::vector mappings; ASSERT_NO_FATAL_FAILURE(SetupMappings(1, domains, &mappings)); ASSERT_NO_FATAL_FAILURE(SetupDNSServers(4, mappings, &dns, &servers)); ASSERT_EQ(1U, mappings.size()); const Mapping& mapping = mappings[0]; ASSERT_TRUE(SetResolversForNetwork(servers, domains, mDefaultParams_Binder)); const hostent* result = gethostbyname(mapping.host.c_str()); size_t total_queries = std::accumulate(dns.begin(), dns.end(), 0, [this, &mapping](size_t total, auto& d) { return total + GetNumQueriesForType(*d, ns_type::ns_t_a, mapping.entry.c_str()); }); EXPECT_LE(1U, total_queries); ASSERT_FALSE(result == nullptr); ASSERT_EQ(4, result->h_length); ASSERT_FALSE(result->h_addr_list[0] == nullptr); EXPECT_EQ(mapping.ip4, ToString(result)); EXPECT_TRUE(result->h_addr_list[1] == nullptr); std::vector res_servers; std::vector res_domains; __res_params res_params; std::vector res_stats; ASSERT_TRUE(GetResolverInfo(&res_servers, &res_domains, &res_params, &res_stats)); EXPECT_EQ(servers.size(), res_servers.size()); EXPECT_EQ(domains.size(), res_domains.size()); ASSERT_EQ(INetd::RESOLVER_PARAMS_COUNT, mDefaultParams_Binder.size()); EXPECT_EQ(mDefaultParams_Binder[INetd::RESOLVER_PARAMS_SAMPLE_VALIDITY], res_params.sample_validity); EXPECT_EQ(mDefaultParams_Binder[INetd::RESOLVER_PARAMS_SUCCESS_THRESHOLD], res_params.success_threshold); EXPECT_EQ(mDefaultParams_Binder[INetd::RESOLVER_PARAMS_MIN_SAMPLES], res_params.min_samples); EXPECT_EQ(mDefaultParams_Binder[INetd::RESOLVER_PARAMS_MAX_SAMPLES], res_params.max_samples); EXPECT_EQ(servers.size(), res_stats.size()); EXPECT_TRUE(UnorderedCompareArray(res_servers, servers)); EXPECT_TRUE(UnorderedCompareArray(res_domains, domains)); ASSERT_NO_FATAL_FAILURE(ShutdownDNSServers(&dns)); } TEST_F(ResolverTest, GetAddrInfo) { addrinfo* result = nullptr; const char* listen_addr = "127.0.0.4"; const char* listen_addr2 = "127.0.0.5"; const char* listen_srv = "53"; const char* host_name = "howdy.example.com."; test::DNSResponder dns(listen_addr, listen_srv, 250, ns_rcode::ns_r_servfail, 1.0); dns.addMapping(host_name, ns_type::ns_t_a, "1.2.3.4"); dns.addMapping(host_name, ns_type::ns_t_aaaa, "::1.2.3.4"); ASSERT_TRUE(dns.startServer()); test::DNSResponder dns2(listen_addr2, listen_srv, 250, ns_rcode::ns_r_servfail, 1.0); dns2.addMapping(host_name, ns_type::ns_t_a, "1.2.3.4"); dns2.addMapping(host_name, ns_type::ns_t_aaaa, "::1.2.3.4"); ASSERT_TRUE(dns2.startServer()); for (size_t i = 0 ; i < 1000 ; ++i) { std::vector servers = { listen_addr }; ASSERT_TRUE(SetResolversForNetwork(mDefaultSearchDomains, servers, mDefaultParams)); dns.clearQueries(); dns2.clearQueries(); EXPECT_EQ(0, getaddrinfo("howdy", nullptr, nullptr, &result)); size_t found = GetNumQueries(dns, host_name); EXPECT_LE(1U, found); // Could be A or AAAA std::string result_str = ToString(result); EXPECT_TRUE(result_str == "1.2.3.4" || result_str == "::1.2.3.4") << ", result_str='" << result_str << "'"; // TODO: Use ScopedAddrinfo or similar once it is available in a common header file. if (result) { freeaddrinfo(result); result = nullptr; } // Verify that the name is cached. size_t old_found = found; EXPECT_EQ(0, getaddrinfo("howdy", nullptr, nullptr, &result)); found = GetNumQueries(dns, host_name); EXPECT_LE(1U, found); EXPECT_EQ(old_found, found); result_str = ToString(result); EXPECT_TRUE(result_str == "1.2.3.4" || result_str == "::1.2.3.4") << result_str; if (result) { freeaddrinfo(result); result = nullptr; } // Change the DNS resolver, ensure that queries are no longer cached. servers = { listen_addr2 }; ASSERT_TRUE(SetResolversForNetwork(mDefaultSearchDomains, servers, mDefaultParams)); dns.clearQueries(); dns2.clearQueries(); EXPECT_EQ(0, getaddrinfo("howdy", nullptr, nullptr, &result)); found = GetNumQueries(dns, host_name); size_t found2 = GetNumQueries(dns2, host_name); EXPECT_EQ(0U, found); EXPECT_LE(1U, found2); // Could be A or AAAA result_str = ToString(result); EXPECT_TRUE(result_str == "1.2.3.4" || result_str == "::1.2.3.4") << ", result_str='" << result_str << "'"; if (result) { freeaddrinfo(result); result = nullptr; } } dns.stopServer(); dns2.stopServer(); } TEST_F(ResolverTest, GetAddrInfoV4) { addrinfo* result = nullptr; const char* listen_addr = "127.0.0.5"; const char* listen_srv = "53"; const char* host_name = "hola.example.com."; test::DNSResponder dns(listen_addr, listen_srv, 250, ns_rcode::ns_r_servfail, 1.0); dns.addMapping(host_name, ns_type::ns_t_a, "1.2.3.5"); ASSERT_TRUE(dns.startServer()); std::vector servers = { listen_addr }; ASSERT_TRUE(SetResolversForNetwork(mDefaultSearchDomains, servers, mDefaultParams)); addrinfo hints; memset(&hints, 0, sizeof(hints)); hints.ai_family = AF_INET; EXPECT_EQ(0, getaddrinfo("hola", nullptr, &hints, &result)); EXPECT_EQ(1U, GetNumQueries(dns, host_name)); EXPECT_EQ("1.2.3.5", ToString(result)); if (result) { freeaddrinfo(result); result = nullptr; } } TEST_F(ResolverTest, MultidomainResolution) { std::vector searchDomains = { "example1.com", "example2.com", "example3.com" }; const char* listen_addr = "127.0.0.6"; const char* listen_srv = "53"; const char* host_name = "nihao.example2.com."; test::DNSResponder dns(listen_addr, listen_srv, 250, ns_rcode::ns_r_servfail, 1.0); dns.addMapping(host_name, ns_type::ns_t_a, "1.2.3.3"); ASSERT_TRUE(dns.startServer()); std::vector servers = { listen_addr }; ASSERT_TRUE(SetResolversForNetwork(searchDomains, servers, mDefaultParams)); dns.clearQueries(); const hostent* result = gethostbyname("nihao"); EXPECT_EQ(1U, GetNumQueriesForType(dns, ns_type::ns_t_a, host_name)); ASSERT_FALSE(result == nullptr); ASSERT_EQ(4, result->h_length); ASSERT_FALSE(result->h_addr_list[0] == nullptr); EXPECT_EQ("1.2.3.3", ToString(result)); EXPECT_TRUE(result->h_addr_list[1] == nullptr); dns.stopServer(); } TEST_F(ResolverTest, GetAddrInfoV6_failing) { addrinfo* result = nullptr; const char* listen_addr0 = "127.0.0.7"; const char* listen_addr1 = "127.0.0.8"; const char* listen_srv = "53"; const char* host_name = "ohayou.example.com."; test::DNSResponder dns0(listen_addr0, listen_srv, 250, ns_rcode::ns_r_servfail, 0.0); test::DNSResponder dns1(listen_addr1, listen_srv, 250, ns_rcode::ns_r_servfail, 1.0); dns0.addMapping(host_name, ns_type::ns_t_aaaa, "2001:db8::5"); dns1.addMapping(host_name, ns_type::ns_t_aaaa, "2001:db8::6"); ASSERT_TRUE(dns0.startServer()); ASSERT_TRUE(dns1.startServer()); std::vector servers = { listen_addr0, listen_addr1 }; // unsigned sample_validity = 300; int success_threshold = 25; int sample_count = 8; std::string params = StringPrintf("%u %d %d %d", sample_validity, success_threshold, sample_count, sample_count); ASSERT_TRUE(SetResolversForNetwork(mDefaultSearchDomains, servers, params)); // Repeatedly perform resolutions for non-existing domains until MAXNSSAMPLES resolutions have // reached the dns0, which is set to fail. No more requests should then arrive at that server // for the next sample_lifetime seconds. // TODO: This approach is implementation-dependent, change once metrics reporting is available. addrinfo hints; memset(&hints, 0, sizeof(hints)); hints.ai_family = AF_INET6; for (int i = 0 ; i < sample_count ; ++i) { std::string domain = StringPrintf("nonexistent%d", i); getaddrinfo(domain.c_str(), nullptr, &hints, &result); if (result) { freeaddrinfo(result); result = nullptr; } } // Due to 100% errors for all possible samples, the server should be ignored from now on and // only the second one used for all following queries, until NSSAMPLE_VALIDITY is reached. dns0.clearQueries(); dns1.clearQueries(); EXPECT_EQ(0, getaddrinfo("ohayou", nullptr, &hints, &result)); EXPECT_EQ(0U, GetNumQueries(dns0, host_name)); EXPECT_EQ(1U, GetNumQueries(dns1, host_name)); if (result) { freeaddrinfo(result); result = nullptr; } } TEST_F(ResolverTest, GetAddrInfoV6_concurrent) { const char* listen_addr0 = "127.0.0.9"; const char* listen_addr1 = "127.0.0.10"; const char* listen_addr2 = "127.0.0.11"; const char* listen_srv = "53"; const char* host_name = "konbanha.example.com."; test::DNSResponder dns0(listen_addr0, listen_srv, 250, ns_rcode::ns_r_servfail, 1.0); test::DNSResponder dns1(listen_addr1, listen_srv, 250, ns_rcode::ns_r_servfail, 1.0); test::DNSResponder dns2(listen_addr2, listen_srv, 250, ns_rcode::ns_r_servfail, 1.0); dns0.addMapping(host_name, ns_type::ns_t_aaaa, "2001:db8::5"); dns1.addMapping(host_name, ns_type::ns_t_aaaa, "2001:db8::6"); dns2.addMapping(host_name, ns_type::ns_t_aaaa, "2001:db8::7"); ASSERT_TRUE(dns0.startServer()); ASSERT_TRUE(dns1.startServer()); ASSERT_TRUE(dns2.startServer()); const std::vector servers = { listen_addr0, listen_addr1, listen_addr2 }; std::vector threads(10); for (std::thread& thread : threads) { thread = std::thread([this, &servers, &dns0, &dns1, &dns2]() { unsigned delay = arc4random_uniform(1*1000*1000); // <= 1s usleep(delay); std::vector serverSubset; for (const auto& server : servers) { if (arc4random_uniform(2)) { serverSubset.push_back(server); } } if (serverSubset.empty()) serverSubset = servers; ASSERT_TRUE(SetResolversForNetwork(mDefaultSearchDomains, serverSubset, mDefaultParams)); addrinfo hints; memset(&hints, 0, sizeof(hints)); hints.ai_family = AF_INET6; addrinfo* result = nullptr; int rv = getaddrinfo("konbanha", nullptr, &hints, &result); EXPECT_EQ(0, rv) << "error [" << rv << "] " << gai_strerror(rv); if (result) { freeaddrinfo(result); result = nullptr; } }); } for (std::thread& thread : threads) { thread.join(); } } TEST_F(ResolverTest, GetAddrInfoStressTest_Binder_100) { const unsigned num_hosts = 100; const unsigned num_threads = 100; const unsigned num_queries = 100; ASSERT_NO_FATAL_FAILURE(RunGetAddrInfoStressTest_Binder(num_hosts, num_threads, num_queries)); } TEST_F(ResolverTest, GetAddrInfoStressTest_Binder_100000) { const unsigned num_hosts = 100000; const unsigned num_threads = 100; const unsigned num_queries = 100; ASSERT_NO_FATAL_FAILURE(RunGetAddrInfoStressTest_Binder(num_hosts, num_threads, num_queries)); } TEST_F(ResolverTest, EmptySetup) { using android::net::INetd; std::vector servers; std::vector domains; ASSERT_TRUE(SetResolversForNetwork(servers, domains, mDefaultParams_Binder)); std::vector res_servers; std::vector res_domains; __res_params res_params; std::vector res_stats; ASSERT_TRUE(GetResolverInfo(&res_servers, &res_domains, &res_params, &res_stats)); EXPECT_EQ(0U, res_servers.size()); EXPECT_EQ(0U, res_domains.size()); ASSERT_EQ(INetd::RESOLVER_PARAMS_COUNT, mDefaultParams_Binder.size()); EXPECT_EQ(mDefaultParams_Binder[INetd::RESOLVER_PARAMS_SAMPLE_VALIDITY], res_params.sample_validity); EXPECT_EQ(mDefaultParams_Binder[INetd::RESOLVER_PARAMS_SUCCESS_THRESHOLD], res_params.success_threshold); EXPECT_EQ(mDefaultParams_Binder[INetd::RESOLVER_PARAMS_MIN_SAMPLES], res_params.min_samples); EXPECT_EQ(mDefaultParams_Binder[INetd::RESOLVER_PARAMS_MAX_SAMPLES], res_params.max_samples); } TEST_F(ResolverTest, SearchPathChange) { addrinfo* result = nullptr; const char* listen_addr = "127.0.0.13"; const char* listen_srv = "53"; const char* host_name1 = "test13.domain1.org."; const char* host_name2 = "test13.domain2.org."; test::DNSResponder dns(listen_addr, listen_srv, 250, ns_rcode::ns_r_servfail, 1.0); dns.addMapping(host_name1, ns_type::ns_t_aaaa, "2001:db8::13"); dns.addMapping(host_name2, ns_type::ns_t_aaaa, "2001:db8::1:13"); ASSERT_TRUE(dns.startServer()); std::vector servers = { listen_addr }; std::vector domains = { "domain1.org" }; ASSERT_TRUE(SetResolversForNetwork(domains, servers, mDefaultParams)); addrinfo hints; memset(&hints, 0, sizeof(hints)); hints.ai_family = AF_INET6; EXPECT_EQ(0, getaddrinfo("test13", nullptr, &hints, &result)); EXPECT_EQ(1U, dns.queries().size()); EXPECT_EQ(1U, GetNumQueries(dns, host_name1)); EXPECT_EQ("2001:db8::13", ToString(result)); if (result) freeaddrinfo(result); // Test that changing the domain search path on its own works. domains = { "domain2.org" }; ASSERT_TRUE(SetResolversForNetwork(domains, servers, mDefaultParams)); dns.clearQueries(); EXPECT_EQ(0, getaddrinfo("test13", nullptr, &hints, &result)); EXPECT_EQ(1U, dns.queries().size()); EXPECT_EQ(1U, GetNumQueries(dns, host_name2)); EXPECT_EQ("2001:db8::1:13", ToString(result)); if (result) freeaddrinfo(result); } TEST_F(ResolverTest, MaxServerPrune_Binder) { using android::net::INetd; std::vector domains = { "example.com" }; std::vector> dns; std::vector servers; std::vector mappings; ASSERT_NO_FATAL_FAILURE(SetupMappings(1, domains, &mappings)); ASSERT_NO_FATAL_FAILURE(SetupDNSServers(MAXNS + 1, mappings, &dns, &servers)); ASSERT_TRUE(SetResolversForNetwork(servers, domains, mDefaultParams_Binder)); std::vector res_servers; std::vector res_domains; __res_params res_params; std::vector res_stats; ASSERT_TRUE(GetResolverInfo(&res_servers, &res_domains, &res_params, &res_stats)); EXPECT_EQ(static_cast(MAXNS), res_servers.size()); ASSERT_NO_FATAL_FAILURE(ShutdownDNSServers(&dns)); }