#define BOOST_TEST_DYN_LINK #define BOOST_TEST_NO_MAIN #include #include "dnsdist.hh" #include "dnsdist-lua.hh" #include "dnsdist-lua-ffi.hh" #include "dolog.hh" uint16_t g_maxOutstanding{std::numeric_limits::max()}; #include "ext/luawrapper/include/LuaContext.hpp" LockGuarded g_lua{LuaContext()}; bool g_snmpEnabled{false}; bool g_snmpTrapsEnabled{false}; DNSDistSNMPAgent* g_snmpAgent{nullptr}; #if BENCH_POLICIES bool g_verbose{true}; bool g_syslog{true}; #include "dnsdist-rings.hh" Rings g_rings; GlobalStateHolder> g_dynblockNMG; GlobalStateHolder> g_dynblockSMT; #endif /* BENCH_POLICIES */ GlobalStateHolder g_pools; std::vector> g_frontends; /* add stub implementations, we don't want to include the corresponding object files and their dependencies */ #ifdef HAVE_DNS_OVER_HTTPS std::unordered_map DOHUnit::getHTTPHeaders() const { return {}; } std::string DOHUnit::getHTTPPath() const { return ""; } std::string DOHUnit::getHTTPHost() const { return ""; } std::string DOHUnit::getHTTPScheme() const { return ""; } std::string DOHUnit::getHTTPQueryString() const { return ""; } void DOHUnit::setHTTPResponse(uint16_t statusCode, PacketBuffer&& body_, const std::string& contentType_) { } #endif /* HAVE_DNS_OVER_HTTPS */ std::string DNSQuestion::getTrailingData() const { return ""; } bool DNSQuestion::setTrailingData(const std::string& tail) { return false; } bool DNSDistSNMPAgent::sendDNSTrap(const DNSQuestion& dq, const std::string& reason) { return false; } void setLuaNoSideEffect() { } DNSAction::Action SpoofAction::operator()(DNSQuestion* dq, std::string* ruleresult) const { return DNSAction::Action::None; } string g_outputBuffer; static DNSQuestion getDQ(const DNSName* providedName = nullptr) { static const DNSName qname("powerdns.com."); static const ComboAddress lc("127.0.0.1:53"); static const ComboAddress rem("192.0.2.1:42"); static struct timespec queryRealTime; static PacketBuffer packet(sizeof(dnsheader)); uint16_t qtype = QType::A; uint16_t qclass = QClass::IN; auto proto = dnsdist::Protocol::DoUDP; gettime(&queryRealTime, true); DNSQuestion dq(providedName ? providedName : &qname, qtype, qclass, &lc, &rem, packet, proto, &queryRealTime); return dq; } static void benchPolicy(const ServerPolicy& pol) { #if BENCH_POLICIES bool existingVerboseValue = g_verbose; g_verbose = false; std::vector names; names.reserve(1000); for (size_t idx = 0; idx < 1000; idx++) { names.push_back(DNSName("powerdns-" + std::to_string(idx) + ".com.")); } ServerPolicy::NumberedServerVector servers; for (size_t idx = 1; idx <= 10; idx++) { servers.push_back({ idx, std::make_shared(ComboAddress("192.0.2." + std::to_string(idx) + ":53")) }); servers.at(idx - 1).second->setUp(); /* we need to have a weight of at least 1000 to get an optimal repartition with the consistent hashing algo */ servers.at(idx - 1).second->setWeight(1000); /* make sure that the hashes have been computed */ servers.at(idx - 1).second->hash(); } StopWatch sw; sw.start(); for (size_t idx = 0; idx < 1000; idx++) { for (const auto& name : names) { auto dq = getDQ(&name); auto server = pol.getSelectedBackend(servers, dq); } } cerr<(ComboAddress("192.0.2.1:53")) }); /* servers start as 'down' */ auto server = pol.getSelectedBackend(servers, dq); BOOST_CHECK(server == nullptr); /* mark the server as 'up' */ servers.at(0).second->setUp(); server = pol.getSelectedBackend(servers, dq); BOOST_CHECK(server != nullptr); /* add a second server, we should still get the first one */ servers.push_back({ 2, std::make_shared(ComboAddress("192.0.2.2:53")) }); server = pol.getSelectedBackend(servers, dq); BOOST_REQUIRE(server != nullptr); BOOST_CHECK(server == servers.at(0).second); /* mark the first server as 'down', second as 'up' */ servers.at(0).second->setDown(); servers.at(1).second->setUp(); server = pol.getSelectedBackend(servers, dq); BOOST_REQUIRE(server != nullptr); BOOST_CHECK(server == servers.at(1).second); benchPolicy(pol); } BOOST_AUTO_TEST_CASE(test_firstAvailableWithOrderAndQPS) { auto dq = getDQ(); size_t qpsLimit = 10; ServerPolicy pol{"firstAvailable", firstAvailable, false}; ServerPolicy::NumberedServerVector servers; servers.push_back({ 1, std::make_shared(ComboAddress("192.0.2.1:53")) }); servers.push_back({ 2, std::make_shared(ComboAddress("192.0.2.2:53")) }); /* Second server has a higher order, so most queries should be routed to the first (remember that we need to keep them ordered!). However the first server has a QPS limit at 10 qps, so any query above that should be routed to the second server. */ servers.at(0).second->order = 1; servers.at(1).second->order = 2; servers.at(0).second->qps = QPSLimiter(qpsLimit, qpsLimit); /* mark the servers as 'up' */ servers.at(0).second->setUp(); servers.at(1).second->setUp(); /* the first queries under the QPS limit should be sent to the first server */ for (size_t idx = 0; idx < qpsLimit; idx++) { auto server = pol.getSelectedBackend(servers, dq); BOOST_REQUIRE(server != nullptr); BOOST_CHECK(server == servers.at(0).second); server->incQueriesCount(); } /* then to the second server */ for (size_t idx = 0; idx < 100; idx++) { auto server = pol.getSelectedBackend(servers, dq); BOOST_REQUIRE(server != nullptr); BOOST_CHECK(server == servers.at(1).second); server->incQueriesCount(); } } BOOST_AUTO_TEST_CASE(test_roundRobin) { auto dq = getDQ(); ServerPolicy pol{"roundrobin", roundrobin, false}; ServerPolicy::NumberedServerVector servers; /* selecting a server on an empty server list */ g_roundrobinFailOnNoServer = false; auto server = pol.getSelectedBackend(servers, dq); BOOST_CHECK(server == nullptr); servers.push_back({ 1, std::make_shared(ComboAddress("192.0.2.1:53")) }); /* servers start as 'down' but the RR policy returns a server unless g_roundrobinFailOnNoServer is set */ g_roundrobinFailOnNoServer = true; server = pol.getSelectedBackend(servers, dq); BOOST_CHECK(server == nullptr); g_roundrobinFailOnNoServer = false; server = pol.getSelectedBackend(servers, dq); BOOST_CHECK(server != nullptr); /* mark the server as 'up' */ servers.at(0).second->setUp(); server = pol.getSelectedBackend(servers, dq); BOOST_CHECK(server != nullptr); /* add a second server, we should get the first one then the second one */ servers.push_back({ 2, std::make_shared(ComboAddress("192.0.2.2:53")) }); servers.at(1).second->setUp(); server = pol.getSelectedBackend(servers, dq); BOOST_REQUIRE(server != nullptr); BOOST_CHECK(server == servers.at(0).second); server = pol.getSelectedBackend(servers, dq); BOOST_REQUIRE(server != nullptr); BOOST_CHECK(server == servers.at(1).second); /* mark the first server as 'down', second as 'up' */ servers.at(0).second->setDown(); servers.at(1).second->setUp(); server = pol.getSelectedBackend(servers, dq); BOOST_REQUIRE(server != nullptr); BOOST_CHECK(server == servers.at(1).second); std::map, uint64_t> serversMap; /* mark all servers 'up' */ for (auto& s : servers) { s.second->setUp(); serversMap[s.second] = 0; } for (size_t idx = 0; idx < 1000; idx++) { server = pol.getSelectedBackend(servers, dq); BOOST_REQUIRE(serversMap.count(server) == 1); ++serversMap[server]; } uint64_t total = 0; for (const auto& entry : serversMap) { BOOST_CHECK_EQUAL(entry.second, 1000 / servers.size()); total += entry.second; } BOOST_CHECK_EQUAL(total, 1000U); benchPolicy(pol); } BOOST_AUTO_TEST_CASE(test_leastOutstanding) { auto dq = getDQ(); ServerPolicy pol{"leastOutstanding", leastOutstanding, false}; ServerPolicy::NumberedServerVector servers; servers.push_back({ 1, std::make_shared(ComboAddress("192.0.2.1:53")) }); /* servers start as 'down' */ auto server = pol.getSelectedBackend(servers, dq); BOOST_CHECK(server == nullptr); /* mark the server as 'up' */ servers.at(0).second->setUp(); server = pol.getSelectedBackend(servers, dq); BOOST_CHECK(server != nullptr); /* add a second server, we should still get the first one */ servers.push_back({ 2, std::make_shared(ComboAddress("192.0.2.2:53")) }); server = pol.getSelectedBackend(servers, dq); BOOST_REQUIRE(server != nullptr); BOOST_CHECK(server == servers.at(0).second); /* mark the first server as 'down', second as 'up' */ servers.at(0).second->setDown(); servers.at(1).second->setUp(); server = pol.getSelectedBackend(servers, dq); BOOST_REQUIRE(server != nullptr); BOOST_CHECK(server == servers.at(1).second); /* mark both servers as 'up', increase the outstanding count of the first one */ servers.at(0).second->setUp(); servers.at(0).second->outstanding = 42; servers.at(1).second->setUp(); server = pol.getSelectedBackend(servers, dq); BOOST_REQUIRE(server != nullptr); BOOST_CHECK(server == servers.at(1).second); benchPolicy(pol); } BOOST_AUTO_TEST_CASE(test_wrandom) { auto dq = getDQ(); ServerPolicy pol{"wrandom", wrandom, false}; ServerPolicy::NumberedServerVector servers; std::map, uint64_t> serversMap; for (size_t idx = 1; idx <= 10; idx++) { servers.push_back({ idx, std::make_shared(ComboAddress("192.0.2." + std::to_string(idx) + ":53")) }); serversMap[servers.at(idx - 1).second] = 0; servers.at(idx - 1).second->setUp(); } benchPolicy(pol); for (size_t idx = 0; idx < 1000; idx++) { auto server = pol.getSelectedBackend(servers, dq); BOOST_REQUIRE(serversMap.count(server) == 1); ++serversMap[server]; } uint64_t total = 0; for (const auto& entry : serversMap) { BOOST_CHECK_GT(entry.second, 0U); BOOST_CHECK_GT(entry.second, (1000 / servers.size() / 2)); BOOST_CHECK_LT(entry.second, (1000 / servers.size() * 2)); total += entry.second; } BOOST_CHECK_EQUAL(total, 1000U); /* reset */ for (auto& entry : serversMap) { entry.second = 0; BOOST_CHECK_EQUAL(entry.first->weight, 1); } /* reset */ for (auto& entry : serversMap) { entry.second = 0; BOOST_CHECK_EQUAL(entry.first->weight, 1); } /* change the weight of the last server to 100, default is 1 */ servers.at(servers.size()-1).second->weight = 100; for (size_t idx = 0; idx < 1000; idx++) { auto server = pol.getSelectedBackend(servers, dq); BOOST_REQUIRE(serversMap.count(server) == 1); ++serversMap[server]; } total = 0; uint64_t totalW = 0; for (const auto& entry : serversMap) { total += entry.second; totalW += entry.first->weight; } BOOST_CHECK_EQUAL(total, 1000U); auto last = servers.at(servers.size()-1).second; const auto got = serversMap[last]; float expected = (1000 * 1.0 * last->weight) / totalW; BOOST_CHECK_GT(got, expected / 2); BOOST_CHECK_LT(got, expected * 2); } BOOST_AUTO_TEST_CASE(test_whashed) { std::vector names; names.reserve(1000); for (size_t idx = 0; idx < 1000; idx++) { names.push_back(DNSName("powerdns-" + std::to_string(idx) + ".com.")); } ServerPolicy pol{"whashed", whashed, false}; ServerPolicy::NumberedServerVector servers; std::map, uint64_t> serversMap; for (size_t idx = 1; idx <= 10; idx++) { servers.push_back({ idx, std::make_shared(ComboAddress("192.0.2." + std::to_string(idx) + ":53")) }); serversMap[servers.at(idx - 1).second] = 0; servers.at(idx - 1).second->setUp(); } benchPolicy(pol); for (const auto& name : names) { auto dq = getDQ(&name); auto server = pol.getSelectedBackend(servers, dq); BOOST_REQUIRE(serversMap.count(server) == 1); ++serversMap[server]; } uint64_t total = 0; for (const auto& entry : serversMap) { BOOST_CHECK_GT(entry.second, 0U); BOOST_CHECK_GT(entry.second, (names.size() / servers.size() / 2)); BOOST_CHECK_LT(entry.second, (names.size() / servers.size() * 2)); total += entry.second; } BOOST_CHECK_EQUAL(total, names.size()); /* reset */ for (auto& entry : serversMap) { entry.second = 0; BOOST_CHECK_EQUAL(entry.first->weight, 1); } /* request 1000 times the same name, we should go to the same server every time */ { auto dq = getDQ(&names.at(0)); auto server = pol.getSelectedBackend(servers, dq); for (size_t idx = 0; idx < 1000; idx++) { BOOST_CHECK(pol.getSelectedBackend(servers, dq) == server); } } /* reset */ for (auto& entry : serversMap) { entry.second = 0; BOOST_CHECK_EQUAL(entry.first->weight, 1); } /* change the weight of the last server to 100, default is 1 */ servers.at(servers.size()-1).second->setWeight(100); for (const auto& name : names) { auto dq = getDQ(&name); auto server = pol.getSelectedBackend(servers, dq); BOOST_REQUIRE(serversMap.count(server) == 1); ++serversMap[server]; } total = 0; uint64_t totalW = 0; for (const auto& entry : serversMap) { total += entry.second; totalW += entry.first->weight; } BOOST_CHECK_EQUAL(total, names.size()); auto last = servers.at(servers.size()-1).second; const auto got = serversMap[last]; float expected = (names.size() * 1.0 * last->weight) / totalW; BOOST_CHECK_GT(got, expected / 2); BOOST_CHECK_LT(got, expected * 2); } BOOST_AUTO_TEST_CASE(test_chashed) { bool existingVerboseValue = g_verbose; g_verbose = false; std::vector names; names.reserve(1000); for (size_t idx = 0; idx < 1000; idx++) { names.push_back(DNSName("powerdns-" + std::to_string(idx) + ".com.")); } ServerPolicy pol{"chashed", chashed, false}; ServerPolicy::NumberedServerVector servers; std::map, uint64_t> serversMap; for (size_t idx = 1; idx <= 10; idx++) { servers.push_back({ idx, std::make_shared(ComboAddress("192.0.2." + std::to_string(idx) + ":53")) }); serversMap[servers.at(idx - 1).second] = 0; servers.at(idx - 1).second->setUp(); /* we need to have a weight of at least 1000 to get an optimal repartition with the consistent hashing algo */ servers.at(idx - 1).second->setWeight(1000); /* make sure that the hashes have been computed */ servers.at(idx - 1).second->hash(); } benchPolicy(pol); for (const auto& name : names) { auto dq = getDQ(&name); auto server = pol.getSelectedBackend(servers, dq); BOOST_REQUIRE(serversMap.count(server) == 1); ++serversMap[server]; } uint64_t total = 0; for (const auto& entry : serversMap) { BOOST_CHECK_GT(entry.second, 0U); BOOST_CHECK_GT(entry.second, (names.size() / servers.size() / 2)); BOOST_CHECK_LT(entry.second, (names.size() / servers.size() * 2)); total += entry.second; } BOOST_CHECK_EQUAL(total, names.size()); /* reset */ for (auto& entry : serversMap) { entry.second = 0; BOOST_CHECK_EQUAL(entry.first->weight, 1000); } /* request 1000 times the same name, we should go to the same server every time */ { auto dq = getDQ(&names.at(0)); auto server = pol.getSelectedBackend(servers, dq); for (size_t idx = 0; idx < 1000; idx++) { BOOST_CHECK(pol.getSelectedBackend(servers, dq) == server); } } /* reset */ for (auto& entry : serversMap) { entry.second = 0; BOOST_CHECK_EQUAL(entry.first->weight, 1000); } /* change the weight of the last server to 100000, others stay at 1000 */ servers.at(servers.size()-1).second->setWeight(100000); for (const auto& name : names) { auto dq = getDQ(&name); auto server = pol.getSelectedBackend(servers, dq); BOOST_REQUIRE(serversMap.count(server) == 1); ++serversMap[server]; } total = 0; uint64_t totalW = 0; for (const auto& entry : serversMap) { total += entry.second; totalW += entry.first->weight; } BOOST_CHECK_EQUAL(total, names.size()); auto last = servers.at(servers.size()-1).second; const auto got = serversMap[last]; float expected = (names.size() * 1.0 * last->weight) / totalW; BOOST_CHECK_GT(got, expected / 2); BOOST_CHECK_LT(got, expected * 2); g_verbose = existingVerboseValue; } BOOST_AUTO_TEST_CASE(test_lua) { std::vector names; names.reserve(1000); for (size_t idx = 0; idx < 1000; idx++) { names.push_back(DNSName("powerdns-" + std::to_string(idx) + ".com.")); } static const std::string policySetupStr = R"foo( local counter = 0 function luaroundrobin(servers, dq) counter = counter + 1 return servers[1 + (counter % #servers)] end setServerPolicyLua("luaroundrobin", luaroundrobin) )foo"; resetLuaContext(); g_lua.lock()->writeFunction("setServerPolicyLua", [](string name, ServerPolicy::policyfunc_t policy) { g_policy.setState(ServerPolicy{name, policy, true}); }); g_lua.lock()->executeCode(policySetupStr); { ServerPolicy pol = g_policy.getCopy(); ServerPolicy::NumberedServerVector servers; std::map, uint64_t> serversMap; for (size_t idx = 1; idx <= 10; idx++) { servers.push_back({ idx, std::make_shared(ComboAddress("192.0.2." + std::to_string(idx) + ":53")) }); serversMap[servers.at(idx - 1).second] = 0; servers.at(idx - 1).second->setUp(); } BOOST_REQUIRE_EQUAL(servers.size(), 10U); for (const auto& name : names) { auto dq = getDQ(&name); auto server = pol.getSelectedBackend(servers, dq); BOOST_REQUIRE(serversMap.count(server) == 1); ++serversMap[server]; } uint64_t total = 0; for (const auto& entry : serversMap) { BOOST_CHECK_GT(entry.second, 0U); BOOST_CHECK_GT(entry.second, (names.size() / servers.size() / 2)); BOOST_CHECK_LT(entry.second, (names.size() / servers.size() * 2)); total += entry.second; } BOOST_CHECK_EQUAL(total, names.size()); benchPolicy(pol); } resetLuaContext(); } #ifdef LUAJIT_VERSION BOOST_AUTO_TEST_CASE(test_lua_ffi_rr) { std::vector names; names.reserve(1000); for (size_t idx = 0; idx < 1000; idx++) { names.push_back(DNSName("powerdns-" + std::to_string(idx) + ".com.")); } static const std::string policySetupStr = R"foo( local ffi = require("ffi") local C = ffi.C local counter = 0 function ffilb(servers_list, dq) local serversCount = tonumber(C.dnsdist_ffi_servers_list_get_count(servers_list)) counter = counter + 1 return counter % serversCount end setServerPolicyLuaFFI("FFI round-robin", ffilb) )foo"; resetLuaContext(); g_lua.lock()->executeCode(getLuaFFIWrappers()); g_lua.lock()->writeFunction("setServerPolicyLuaFFI", [](string name, ServerPolicy::ffipolicyfunc_t policy) { g_policy.setState(ServerPolicy(name, policy)); }); g_lua.lock()->executeCode(policySetupStr); { ServerPolicy pol = g_policy.getCopy(); ServerPolicy::NumberedServerVector servers; std::map, uint64_t> serversMap; for (size_t idx = 1; idx <= 10; idx++) { servers.push_back({ idx, std::make_shared(ComboAddress("192.0.2." + std::to_string(idx) + ":53")) }); serversMap[servers.at(idx - 1).second] = 0; servers.at(idx - 1).second->setUp(); } BOOST_REQUIRE_EQUAL(servers.size(), 10U); for (const auto& name : names) { auto dq = getDQ(&name); auto server = pol.getSelectedBackend(servers, dq); BOOST_REQUIRE(serversMap.count(server) == 1); ++serversMap[server]; } uint64_t total = 0; for (const auto& entry : serversMap) { BOOST_CHECK_GT(entry.second, 0U); BOOST_CHECK_GT(entry.second, (names.size() / servers.size() / 2)); BOOST_CHECK_LT(entry.second, (names.size() / servers.size() * 2)); total += entry.second; } BOOST_CHECK_EQUAL(total, names.size()); benchPolicy(pol); } resetLuaContext(); } BOOST_AUTO_TEST_CASE(test_lua_ffi_hashed) { std::vector names; names.reserve(1000); for (size_t idx = 0; idx < 1000; idx++) { names.push_back(DNSName("powerdns-" + std::to_string(idx) + ".com.")); } static const std::string policySetupStr = R"foo( local ffi = require("ffi") local C = ffi.C function ffilb(servers_list, dq) local serversCount = tonumber(C.dnsdist_ffi_servers_list_get_count(servers_list)) local hash = tonumber(C.dnsdist_ffi_dnsquestion_get_qname_hash(dq, 0)) return hash % serversCount end setServerPolicyLuaFFI("FFI hashed", ffilb) )foo"; resetLuaContext(); g_lua.lock()->executeCode(getLuaFFIWrappers()); g_lua.lock()->writeFunction("setServerPolicyLuaFFI", [](string name, ServerPolicy::ffipolicyfunc_t policy) { g_policy.setState(ServerPolicy(name, policy)); }); g_lua.lock()->executeCode(policySetupStr); { ServerPolicy pol = g_policy.getCopy(); ServerPolicy::NumberedServerVector servers; std::map, uint64_t> serversMap; for (size_t idx = 1; idx <= 10; idx++) { servers.push_back({ idx, std::make_shared(ComboAddress("192.0.2." + std::to_string(idx) + ":53")) }); serversMap[servers.at(idx - 1).second] = 0; servers.at(idx - 1).second->setUp(); } BOOST_REQUIRE_EQUAL(servers.size(), 10U); for (const auto& name : names) { auto dq = getDQ(&name); auto server = pol.getSelectedBackend(servers, dq); BOOST_REQUIRE(serversMap.count(server) == 1); ++serversMap[server]; } uint64_t total = 0; for (const auto& entry : serversMap) { BOOST_CHECK_GT(entry.second, 0U); BOOST_CHECK_GT(entry.second, (names.size() / servers.size() / 2)); BOOST_CHECK_LT(entry.second, (names.size() / servers.size() * 2)); total += entry.second; } BOOST_CHECK_EQUAL(total, names.size()); benchPolicy(pol); } resetLuaContext(); } BOOST_AUTO_TEST_CASE(test_lua_ffi_whashed) { std::vector names; names.reserve(1000); for (size_t idx = 0; idx < 1000; idx++) { names.push_back(DNSName("powerdns-" + std::to_string(idx) + ".com.")); } static const std::string policySetupStr = R"foo( local ffi = require("ffi") local C = ffi.C function ffilb(servers_list, dq) return tonumber(C.dnsdist_ffi_servers_list_whashed(servers_list, dq, C.dnsdist_ffi_dnsquestion_get_qname_hash(dq, 0))) end setServerPolicyLuaFFI("FFI whashed", ffilb) )foo"; resetLuaContext(); g_lua.lock()->executeCode(getLuaFFIWrappers()); g_lua.lock()->writeFunction("setServerPolicyLuaFFI", [](string name, ServerPolicy::ffipolicyfunc_t policy) { g_policy.setState(ServerPolicy(name, policy)); }); g_lua.lock()->executeCode(policySetupStr); { ServerPolicy pol = g_policy.getCopy(); ServerPolicy::NumberedServerVector servers; std::map, uint64_t> serversMap; for (size_t idx = 1; idx <= 10; idx++) { servers.push_back({ idx, std::make_shared(ComboAddress("192.0.2." + std::to_string(idx) + ":53")) }); serversMap[servers.at(idx - 1).second] = 0; servers.at(idx - 1).second->setUp(); } BOOST_REQUIRE_EQUAL(servers.size(), 10U); for (const auto& name : names) { auto dq = getDQ(&name); auto server = pol.getSelectedBackend(servers, dq); BOOST_REQUIRE(serversMap.count(server) == 1); ++serversMap[server]; } uint64_t total = 0; for (const auto& entry : serversMap) { BOOST_CHECK_GT(entry.second, 0U); BOOST_CHECK_GT(entry.second, (names.size() / servers.size() / 2)); BOOST_CHECK_LT(entry.second, (names.size() / servers.size() * 2)); total += entry.second; } BOOST_CHECK_EQUAL(total, names.size()); benchPolicy(pol); } resetLuaContext(); } BOOST_AUTO_TEST_CASE(test_lua_ffi_chashed) { bool existingVerboseValue = g_verbose; g_verbose = false; std::vector names; names.reserve(1000); for (size_t idx = 0; idx < 1000; idx++) { names.push_back(DNSName("powerdns-" + std::to_string(idx) + ".com.")); } static const std::string policySetupStr = R"foo( local ffi = require("ffi") local C = ffi.C function ffilb(servers_list, dq) return tonumber(C.dnsdist_ffi_servers_list_chashed(servers_list, dq, C.dnsdist_ffi_dnsquestion_get_qname_hash(dq, 0))) end setServerPolicyLuaFFI("FFI chashed", ffilb) )foo"; resetLuaContext(); g_lua.lock()->executeCode(getLuaFFIWrappers()); g_lua.lock()->writeFunction("setServerPolicyLuaFFI", [](string name, ServerPolicy::ffipolicyfunc_t policy) { g_policy.setState(ServerPolicy(name, policy)); }); g_lua.lock()->executeCode(policySetupStr); { ServerPolicy pol = g_policy.getCopy(); ServerPolicy::NumberedServerVector servers; std::map, uint64_t> serversMap; for (size_t idx = 1; idx <= 10; idx++) { servers.push_back({ idx, std::make_shared(ComboAddress("192.0.2." + std::to_string(idx) + ":53")) }); serversMap[servers.at(idx - 1).second] = 0; servers.at(idx - 1).second->setUp(); /* we need to have a weight of at least 1000 to get an optimal repartition with the consistent hashing algo */ servers.at(idx - 1).second->setWeight(1000); /* make sure that the hashes have been computed */ servers.at(idx - 1).second->hash(); } BOOST_REQUIRE_EQUAL(servers.size(), 10U); for (const auto& name : names) { auto dq = getDQ(&name); auto server = pol.getSelectedBackend(servers, dq); BOOST_REQUIRE(serversMap.count(server) == 1); ++serversMap[server]; } uint64_t total = 0; for (const auto& entry : serversMap) { BOOST_CHECK_GT(entry.second, 0U); BOOST_CHECK_GT(entry.second, (names.size() / servers.size() / 2)); BOOST_CHECK_LT(entry.second, (names.size() / servers.size() * 2)); total += entry.second; } BOOST_CHECK_EQUAL(total, names.size()); benchPolicy(pol); } g_verbose = existingVerboseValue; resetLuaContext(); } #endif /* LUAJIT_VERSION */ BOOST_AUTO_TEST_SUITE_END()