/* * This file is part of PowerDNS or dnsdist. * Copyright -- PowerDNS.COM B.V. and its contributors * * This program is free software; you can redistribute it and/or modify * it under the terms of version 2 of the GNU General Public License as * published by the Free Software Foundation. * * In addition, for the avoidance of any doubt, permission is granted to * link this program with OpenSSL and to (re)distribute the binaries * produced as the result of such linking. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. */ #ifndef BOOST_TEST_DYN_LINK #define BOOST_TEST_DYN_LINK #endif #define BOOST_TEST_NO_MAIN #include #include #include "dnsdist.hh" #include "dnsdist-ecs.hh" #include "dnsdist-internal-queries.hh" #include "dnsdist-tcp.hh" #include "dnsdist-xpf.hh" #include "dnsdist-xsk.hh" #include "dolog.hh" #include "dnsname.hh" #include "dnsparser.hh" #include "dnswriter.hh" #include "ednsoptions.hh" #include "ednscookies.hh" #include "ednssubnet.hh" ProcessQueryResult processQueryAfterRules(DNSQuestion& dq, LocalHolders& holders, std::shared_ptr& selectedBackend) { return ProcessQueryResult::Drop; } bool processResponseAfterRules(PacketBuffer& response, const std::vector& cacheInsertedRespRuleActions, DNSResponse& dr, bool muted) { return false; } bool sendUDPResponse(int origFD, const PacketBuffer& response, const int delayMsec, const ComboAddress& origDest, const ComboAddress& origRemote) { return false; } bool assignOutgoingUDPQueryToBackend(std::shared_ptr& downstream, uint16_t queryID, DNSQuestion& dnsQuestion, PacketBuffer& query, bool actuallySend) { return true; } namespace dnsdist { std::unique_ptr getInternalQueryFromDQ(DNSQuestion& dq, bool isResponse) { return nullptr; } } bool DNSDistSNMPAgent::sendBackendStatusChangeTrap(DownstreamState const&) { return false; } namespace dnsdist::xsk { bool XskProcessQuery(ClientState& clientState, LocalHolders& holders, XskPacket& packet) { return false; } } bool processResponderPacket(std::shared_ptr& dss, PacketBuffer& response, const std::vector& localRespRuleActions, const std::vector& cacheInsertedRespRuleActions, InternalQueryState&& ids) { return false; } BOOST_AUTO_TEST_SUITE(test_dnsdist_cc) static const uint16_t ECSSourcePrefixV4 = 24; static const uint16_t ECSSourcePrefixV6 = 56; static void validateQuery(const PacketBuffer& packet, bool hasEdns=true, bool hasXPF=false, uint16_t additionals=0, uint16_t answers=0, uint16_t authorities=0) { MOADNSParser mdp(true, reinterpret_cast(packet.data()), packet.size()); BOOST_CHECK_EQUAL(mdp.d_qname.toString(), "www.powerdns.com."); BOOST_CHECK_EQUAL(mdp.d_header.qdcount, 1U); BOOST_CHECK_EQUAL(mdp.d_header.ancount, answers); BOOST_CHECK_EQUAL(mdp.d_header.nscount, authorities); uint16_t expectedARCount = additionals + (hasEdns ? 1U : 0U) + (hasXPF ? 1U : 0U); BOOST_CHECK_EQUAL(mdp.d_header.arcount, expectedARCount); } static void validateECS(const PacketBuffer& packet, const ComboAddress& expected) { InternalQueryState ids; ids.protocol = dnsdist::Protocol::DoUDP; ids.origRemote = ComboAddress("::1"); ids.qname = DNSName(reinterpret_cast(packet.data()), packet.size(), sizeof(dnsheader), false, &ids.qtype, &ids.qclass); DNSQuestion dq(ids, const_cast(packet)); BOOST_CHECK(parseEDNSOptions(dq)); BOOST_REQUIRE(dq.ednsOptions != nullptr); BOOST_CHECK_EQUAL(dq.ednsOptions->size(), 1U); const auto& ecsOption = dq.ednsOptions->find(EDNSOptionCode::ECS); BOOST_REQUIRE(ecsOption != dq.ednsOptions->cend()); string expectedOption; generateECSOption(expected, expectedOption, expected.sin4.sin_family == AF_INET ? ECSSourcePrefixV4 : ECSSourcePrefixV6); /* we need to skip the option code and length, which are not included */ BOOST_REQUIRE_EQUAL(ecsOption->second.values.size(), 1U); BOOST_CHECK_EQUAL(expectedOption.substr(EDNS_OPTION_CODE_SIZE + EDNS_OPTION_LENGTH_SIZE), std::string(ecsOption->second.values.at(0).content, ecsOption->second.values.at(0).size)); } static void validateResponse(const PacketBuffer& packet, bool hasEdns, uint8_t additionalCount=0) { MOADNSParser mdp(false, reinterpret_cast(packet.data()), packet.size()); BOOST_CHECK_EQUAL(mdp.d_qname.toString(), "www.powerdns.com."); BOOST_CHECK_EQUAL(mdp.d_header.qr, 1U); BOOST_CHECK_EQUAL(mdp.d_header.qdcount, 1U); BOOST_CHECK_EQUAL(mdp.d_header.ancount, 1U); BOOST_CHECK_EQUAL(mdp.d_header.nscount, 0U); BOOST_CHECK_EQUAL(mdp.d_header.arcount, (hasEdns ? 1U : 0U) + additionalCount); } BOOST_AUTO_TEST_CASE(test_addXPF) { static const uint16_t xpfOptionCode = 65422; DNSName name("www.powerdns.com."); InternalQueryState ids; ids.protocol = dnsdist::Protocol::DoUDP; ids.origRemote = ComboAddress("::1"); ids.origDest = ComboAddress("::1"); PacketBuffer query; GenericDNSPacketWriter pw(query, name, QType::A, QClass::IN, 0); pw.getHeader()->rd = 1; PacketBuffer queryWithXPF; { PacketBuffer packet = query; /* large enough packet */ ids.qname = DNSName(reinterpret_cast(packet.data()), packet.size(), sizeof(dnsheader), false, &ids.qtype, &ids.qclass); DNSQuestion dq(ids, const_cast(packet)); BOOST_CHECK_EQUAL(ids.qname, name); BOOST_CHECK(ids.qtype == QType::A); BOOST_CHECK(addXPF(dq, xpfOptionCode)); BOOST_CHECK(packet.size() > query.size()); validateQuery(packet, false, true); queryWithXPF = packet; } { PacketBuffer packet = query; /* packet is already too large for the 4096 limit over UDP */ packet.resize(4096); ids.qname = DNSName(reinterpret_cast(packet.data()), packet.size(), sizeof(dnsheader), false, &ids.qtype, &ids.qclass); DNSQuestion dq(ids, const_cast(packet)); BOOST_CHECK_EQUAL(ids.qname, name); BOOST_CHECK(ids.qtype == QType::A); BOOST_REQUIRE(!addXPF(dq, xpfOptionCode)); BOOST_CHECK_EQUAL(packet.size(), 4096U); packet.resize(query.size()); validateQuery(packet, false, false); } { PacketBuffer packet = query; /* packet with trailing data (overriding it) */ ids.qname = DNSName(reinterpret_cast(packet.data()), packet.size(), sizeof(dnsheader), false, &ids.qtype, &ids.qclass); DNSQuestion dq(ids, const_cast(packet)); BOOST_CHECK_EQUAL(ids.qname, name); BOOST_CHECK(ids.qtype == QType::A); /* add trailing data */ const size_t trailingDataSize = 10; /* Making sure we have enough room to allow for fake trailing data */ packet.resize(packet.size() + trailingDataSize); for (size_t idx = 0; idx < trailingDataSize; idx++) { packet.push_back('A'); } BOOST_CHECK(addXPF(dq, xpfOptionCode)); BOOST_CHECK_EQUAL(packet.size(), queryWithXPF.size()); BOOST_CHECK_EQUAL(memcmp(queryWithXPF.data(), packet.data(), queryWithXPF.size()), 0); validateQuery(packet, false, true); } } BOOST_AUTO_TEST_CASE(addECSWithoutEDNS) { bool ednsAdded = false; bool ecsAdded = false; ComboAddress remote("192.0.2.1"); DNSName name("www.powerdns.com."); string newECSOption; generateECSOption(remote, newECSOption, remote.sin4.sin_family == AF_INET ? ECSSourcePrefixV4 : ECSSourcePrefixV6); PacketBuffer query; GenericDNSPacketWriter pw(query, name, QType::A, QClass::IN, 0); pw.getHeader()->rd = 1; uint16_t len = query.size(); /* large enough packet */ PacketBuffer packet = query; unsigned int consumed = 0; uint16_t qtype; DNSName qname(reinterpret_cast(packet.data()), packet.size(), sizeof(dnsheader), false, &qtype, nullptr, &consumed); BOOST_CHECK_EQUAL(qname, name); BOOST_CHECK(qtype == QType::A); BOOST_CHECK(handleEDNSClientSubnet(packet, 4096, consumed, ednsAdded, ecsAdded, false, newECSOption)); BOOST_CHECK(packet.size() > query.size()); BOOST_CHECK_EQUAL(ednsAdded, true); BOOST_CHECK_EQUAL(ecsAdded, true); validateQuery(packet); validateECS(packet, remote); PacketBuffer queryWithEDNS = packet; /* not large enough packet */ packet = query; ednsAdded = false; ecsAdded = false; consumed = 0; qname = DNSName(reinterpret_cast(packet.data()), packet.size(), sizeof(dnsheader), false, &qtype, nullptr, &consumed); BOOST_CHECK_EQUAL(qname, name); BOOST_CHECK(qtype == QType::A); BOOST_CHECK(!handleEDNSClientSubnet(packet, packet.size(), consumed, ednsAdded, ecsAdded, false, newECSOption)); BOOST_CHECK_EQUAL(ednsAdded, false); BOOST_CHECK_EQUAL(ecsAdded, false); packet.resize(query.size()); validateQuery(packet, false); /* packet with trailing data (overriding it) */ packet = query; ednsAdded = false; ecsAdded = false; consumed = 0; qname = DNSName(reinterpret_cast(packet.data()), packet.size(), sizeof(dnsheader), false, &qtype, nullptr, &consumed); BOOST_CHECK_EQUAL(qname, name); BOOST_CHECK(qtype == QType::A); /* add trailing data */ const size_t trailingDataSize = 10; /* Making sure we have enough room to allow for fake trailing data */ packet.resize(packet.size() + trailingDataSize); for (size_t idx = 0; idx < trailingDataSize; idx++) { packet[len + idx] = 'A'; } BOOST_CHECK(handleEDNSClientSubnet(packet, 4096, consumed, ednsAdded, ecsAdded, false, newECSOption)); BOOST_REQUIRE_EQUAL(packet.size(), queryWithEDNS.size()); BOOST_CHECK_EQUAL(memcmp(queryWithEDNS.data(), packet.data(), queryWithEDNS.size()), 0); BOOST_CHECK_EQUAL(ednsAdded, true); BOOST_CHECK_EQUAL(ecsAdded, true); validateQuery(packet); } BOOST_AUTO_TEST_CASE(addECSWithoutEDNSButWithAnswer) { /* this might happen for NOTIFY queries where, according to rfc1996: "If ANCOUNT>0, then the answer section represents an unsecure hint at the new RRset for this ". */ bool ednsAdded = false; bool ecsAdded = false; ComboAddress remote("192.0.2.1"); DNSName name("www.powerdns.com."); string newECSOption; generateECSOption(remote, newECSOption, remote.sin4.sin_family == AF_INET ? ECSSourcePrefixV4 : ECSSourcePrefixV6); PacketBuffer query; GenericDNSPacketWriter pw(query, name, QType::A, QClass::IN, 0); pw.getHeader()->rd = 1; pw.startRecord(name, QType::A, 60, QClass::IN, DNSResourceRecord::ANSWER, false); pw.xfrIP(remote.sin4.sin_addr.s_addr); pw.commit(); uint16_t len = query.size(); /* large enough packet */ PacketBuffer packet = query; unsigned int consumed = 0; uint16_t qtype; DNSName qname(reinterpret_cast(packet.data()), packet.size(), sizeof(dnsheader), false, &qtype, nullptr, &consumed); BOOST_CHECK_EQUAL(qname, name); BOOST_CHECK(qtype == QType::A); BOOST_CHECK(handleEDNSClientSubnet(packet, 4096, consumed, ednsAdded, ecsAdded, false, newECSOption)); BOOST_CHECK(packet.size() > query.size()); BOOST_CHECK_EQUAL(ednsAdded, true); BOOST_CHECK_EQUAL(ecsAdded, true); validateQuery(packet, true, false, 0, 1); validateECS(packet, remote); PacketBuffer queryWithEDNS = packet; /* not large enough packet */ packet = query; ednsAdded = false; ecsAdded = false; consumed = 0; qname = DNSName(reinterpret_cast(packet.data()), packet.size(), sizeof(dnsheader), false, &qtype, nullptr, &consumed); BOOST_CHECK_EQUAL(qname, name); BOOST_CHECK(qtype == QType::A); BOOST_CHECK(!handleEDNSClientSubnet(packet, packet.size(), consumed, ednsAdded, ecsAdded, false, newECSOption)); BOOST_CHECK_EQUAL(ednsAdded, false); BOOST_CHECK_EQUAL(ecsAdded, false); packet.resize(query.size()); validateQuery(packet, false, false, 0, 1); /* packet with trailing data (overriding it) */ packet = query; ednsAdded = false; ecsAdded = false; consumed = 0; qname = DNSName(reinterpret_cast(packet.data()), packet.size(), sizeof(dnsheader), false, &qtype, nullptr, &consumed); BOOST_CHECK_EQUAL(qname, name); BOOST_CHECK(qtype == QType::A); /* add trailing data */ const size_t trailingDataSize = 10; /* Making sure we have enough room to allow for fake trailing data */ packet.resize(packet.size() + trailingDataSize); for (size_t idx = 0; idx < trailingDataSize; idx++) { packet[len + idx] = 'A'; } BOOST_CHECK(handleEDNSClientSubnet(packet, 4096, consumed, ednsAdded, ecsAdded, false, newECSOption)); BOOST_REQUIRE_EQUAL(packet.size(), queryWithEDNS.size()); BOOST_CHECK_EQUAL(memcmp(queryWithEDNS.data(), packet.data(), queryWithEDNS.size()), 0); BOOST_CHECK_EQUAL(ednsAdded, true); BOOST_CHECK_EQUAL(ecsAdded, true); validateQuery(packet, true, false, 0, 1); } BOOST_AUTO_TEST_CASE(addECSWithoutEDNSAlreadyParsed) { InternalQueryState ids; ids.origRemote = ComboAddress("192.0.2.1"); ids.protocol = dnsdist::Protocol::DoUDP; bool ednsAdded = false; bool ecsAdded = false; DNSName name("www.powerdns.com."); PacketBuffer query; GenericDNSPacketWriter pw(query, name, QType::A, QClass::IN, 0); pw.getHeader()->rd = 1; auto packet = query; ids.qname = DNSName(reinterpret_cast(packet.data()), packet.size(), sizeof(dnsheader), false, &ids.qtype, &ids.qclass); BOOST_CHECK_EQUAL(ids.qname, name); BOOST_CHECK(ids.qtype == QType::A); BOOST_CHECK(ids.qclass == QClass::IN); DNSQuestion dq(ids, packet); /* Parse the options before handling ECS, simulating a Lua rule asking for EDNS Options */ BOOST_CHECK(!parseEDNSOptions(dq)); /* And now we add our own ECS */ BOOST_CHECK(handleEDNSClientSubnet(dq, ednsAdded, ecsAdded)); BOOST_CHECK_GT(packet.size(), query.size()); BOOST_CHECK_EQUAL(ednsAdded, true); BOOST_CHECK_EQUAL(ecsAdded, true); validateQuery(packet); validateECS(packet, ids.origRemote); /* trailing data */ packet = query; packet.resize(2048); ednsAdded = false; ecsAdded = false; ids.qname = DNSName(reinterpret_cast(packet.data()), packet.size(), sizeof(dnsheader), false, &ids.qtype, &ids.qclass); BOOST_CHECK_EQUAL(ids.qname, name); BOOST_CHECK(ids.qtype == QType::A); BOOST_CHECK(ids.qclass == QClass::IN); DNSQuestion dq2(ids, packet); BOOST_CHECK(handleEDNSClientSubnet(dq2, ednsAdded, ecsAdded)); BOOST_CHECK_GT(packet.size(), query.size()); BOOST_CHECK_LT(packet.size(), 2048U); BOOST_CHECK_EQUAL(ednsAdded, true); BOOST_CHECK_EQUAL(ecsAdded, true); validateQuery(packet); validateECS(packet, ids.origRemote); } BOOST_AUTO_TEST_CASE(addECSWithEDNSNoECS) { bool ednsAdded = false; bool ecsAdded = false; ComboAddress remote; DNSName name("www.powerdns.com."); string newECSOption; generateECSOption(remote, newECSOption, remote.sin4.sin_family == AF_INET ? ECSSourcePrefixV4 : ECSSourcePrefixV6); PacketBuffer query; GenericDNSPacketWriter pw(query, name, QType::A, QClass::IN, 0); pw.getHeader()->rd = 1; pw.addOpt(512, 0, 0); pw.commit(); auto packet = query; unsigned int consumed = 0; uint16_t qtype; DNSName qname(reinterpret_cast(packet.data()), packet.size(), sizeof(dnsheader), false, &qtype, nullptr, &consumed); BOOST_CHECK_EQUAL(qname, name); BOOST_CHECK(qtype == QType::A); BOOST_CHECK(handleEDNSClientSubnet(packet, 4096, consumed, ednsAdded, ecsAdded, false, newECSOption)); BOOST_CHECK(packet.size() > query.size()); BOOST_CHECK_EQUAL(ednsAdded, false); BOOST_CHECK_EQUAL(ecsAdded, true); validateQuery(packet); validateECS(packet, remote); /* not large enough packet */ consumed = 0; ednsAdded = false; ecsAdded = false; packet = query; qname = DNSName(reinterpret_cast(packet.data()), packet.size(), sizeof(dnsheader), false, &qtype, nullptr, &consumed); BOOST_CHECK_EQUAL(qname, name); BOOST_CHECK(qtype == QType::A); BOOST_CHECK(!handleEDNSClientSubnet(packet, packet.size(), consumed, ednsAdded, ecsAdded, false, newECSOption)); BOOST_CHECK_EQUAL(packet.size(), query.size()); BOOST_CHECK_EQUAL(ednsAdded, false); BOOST_CHECK_EQUAL(ecsAdded, false); validateQuery(packet); } BOOST_AUTO_TEST_CASE(addECSWithEDNSNoECSAlreadyParsed) { InternalQueryState ids; ids.origRemote = ComboAddress("2001:DB8::1"); ids.protocol = dnsdist::Protocol::DoUDP; bool ednsAdded = false; bool ecsAdded = false; DNSName name("www.powerdns.com."); PacketBuffer query; GenericDNSPacketWriter pw(query, name, QType::A, QClass::IN, 0); pw.getHeader()->rd = 1; pw.addOpt(512, 0, 0); pw.commit(); auto packet = query; ids.qname = DNSName(reinterpret_cast(packet.data()), packet.size(), sizeof(dnsheader), false, &ids.qtype, &ids.qclass); BOOST_CHECK_EQUAL(ids.qname, name); BOOST_CHECK(ids.qtype == QType::A); BOOST_CHECK(ids.qclass == QClass::IN); DNSQuestion dq(ids, packet); /* Parse the options before handling ECS, simulating a Lua rule asking for EDNS Options */ BOOST_CHECK(parseEDNSOptions(dq)); /* And now we add our own ECS */ BOOST_CHECK(handleEDNSClientSubnet(dq, ednsAdded, ecsAdded)); BOOST_CHECK_GT(packet.size(), query.size()); BOOST_CHECK_EQUAL(ednsAdded, false); BOOST_CHECK_EQUAL(ecsAdded, true); validateQuery(packet); validateECS(packet, ids.origRemote); /* trailing data */ packet = query; packet.resize(2048); ednsAdded = false; ecsAdded = false; ids.qname = DNSName(reinterpret_cast(packet.data()), packet.size(), sizeof(dnsheader), false, &ids.qtype, &ids.qclass); BOOST_CHECK_EQUAL(ids.qname, name); BOOST_CHECK(ids.qtype == QType::A); BOOST_CHECK(ids.qclass == QClass::IN); DNSQuestion dq2(ids, packet); BOOST_CHECK(handleEDNSClientSubnet(dq2, ednsAdded, ecsAdded)); BOOST_CHECK_GT(packet.size(), query.size()); BOOST_CHECK_LT(packet.size(), 2048U); BOOST_CHECK_EQUAL(ednsAdded, false); BOOST_CHECK_EQUAL(ecsAdded, true); validateQuery(packet); validateECS(packet, ids.origRemote); } BOOST_AUTO_TEST_CASE(replaceECSWithSameSize) { bool ednsAdded = false; bool ecsAdded = false; ComboAddress remote("192.168.1.25"); DNSName name("www.powerdns.com."); ComboAddress origRemote("127.0.0.1"); string newECSOption; generateECSOption(remote, newECSOption, remote.sin4.sin_family == AF_INET ? ECSSourcePrefixV4 : ECSSourcePrefixV6); PacketBuffer query; GenericDNSPacketWriter pw(query, name, QType::A, QClass::IN, 0); pw.getHeader()->rd = 1; EDNSSubnetOpts ecsOpts; ecsOpts.source = Netmask(origRemote, ECSSourcePrefixV4); string origECSOption = makeEDNSSubnetOptsString(ecsOpts); GenericDNSPacketWriter::optvect_t opts; opts.emplace_back(EDNSOptionCode::ECS, origECSOption); pw.addOpt(512, 0, 0, opts); pw.commit(); /* large enough packet */ auto packet = query; unsigned int consumed = 0; uint16_t qtype; DNSName qname(reinterpret_cast(packet.data()), packet.size(), sizeof(dnsheader), false, &qtype, nullptr, &consumed); BOOST_CHECK_EQUAL(qname, name); BOOST_CHECK(qtype == QType::A); BOOST_CHECK(handleEDNSClientSubnet(packet, 4096, consumed, ednsAdded, ecsAdded, true, newECSOption)); BOOST_CHECK_EQUAL(packet.size(), query.size()); BOOST_CHECK_EQUAL(ednsAdded, false); BOOST_CHECK_EQUAL(ecsAdded, false); validateQuery(packet); validateECS(packet, remote); } BOOST_AUTO_TEST_CASE(replaceECSWithSameSizeAlreadyParsed) { bool ednsAdded = false; bool ecsAdded = false; ComboAddress remote("192.168.1.25"); ComboAddress origRemote("127.0.0.1"); InternalQueryState ids; ids.origRemote = remote; ids.protocol = dnsdist::Protocol::DoUDP; ids.qname = DNSName("www.powerdns.com."); PacketBuffer query; GenericDNSPacketWriter pw(query, ids.qname, QType::A, QClass::IN, 0); pw.getHeader()->rd = 1; EDNSSubnetOpts ecsOpts; ecsOpts.source = Netmask(origRemote, ECSSourcePrefixV4); string origECSOption = makeEDNSSubnetOptsString(ecsOpts); GenericDNSPacketWriter::optvect_t opts; opts.emplace_back(EDNSOptionCode::ECS, origECSOption); pw.addOpt(512, 0, 0, opts); pw.commit(); auto packet = query; unsigned int consumed = 0; uint16_t qtype; uint16_t qclass; DNSName qname(reinterpret_cast(packet.data()), packet.size(), sizeof(dnsheader), false, &qtype, &qclass, &consumed); BOOST_CHECK_EQUAL(qname, ids.qname); BOOST_CHECK(qtype == QType::A); BOOST_CHECK(qclass == QClass::IN); DNSQuestion dq(ids, packet); dq.ecsOverride = true; /* Parse the options before handling ECS, simulating a Lua rule asking for EDNS Options */ BOOST_CHECK(parseEDNSOptions(dq)); /* And now we add our own ECS */ BOOST_CHECK(handleEDNSClientSubnet(dq, ednsAdded, ecsAdded)); BOOST_CHECK_EQUAL(packet.size(), query.size()); BOOST_CHECK_EQUAL(ednsAdded, false); BOOST_CHECK_EQUAL(ecsAdded, false); validateQuery(packet); validateECS(packet, remote); } BOOST_AUTO_TEST_CASE(replaceECSWithSmaller) { bool ednsAdded = false; bool ecsAdded = false; ComboAddress remote("192.168.1.25"); DNSName name("www.powerdns.com."); ComboAddress origRemote("127.0.0.1"); string newECSOption; generateECSOption(remote, newECSOption, remote.sin4.sin_family == AF_INET ? ECSSourcePrefixV4 : ECSSourcePrefixV6); PacketBuffer query; GenericDNSPacketWriter pw(query, name, QType::A, QClass::IN, 0); pw.getHeader()->rd = 1; EDNSSubnetOpts ecsOpts; ecsOpts.source = Netmask(origRemote, 32); string origECSOption = makeEDNSSubnetOptsString(ecsOpts); GenericDNSPacketWriter::optvect_t opts; opts.emplace_back(EDNSOptionCode::ECS, origECSOption); pw.addOpt(512, 0, 0, opts); pw.commit(); auto packet = query; unsigned int consumed = 0; uint16_t qtype; DNSName qname(reinterpret_cast(packet.data()), packet.size(), sizeof(dnsheader), false, &qtype, nullptr, &consumed); BOOST_CHECK_EQUAL(qname, name); BOOST_CHECK(qtype == QType::A); BOOST_CHECK(handleEDNSClientSubnet(packet, 4096, consumed, ednsAdded, ecsAdded, true, newECSOption)); BOOST_CHECK(packet.size() < query.size()); BOOST_CHECK_EQUAL(ednsAdded, false); BOOST_CHECK_EQUAL(ecsAdded, false); validateQuery(packet); validateECS(packet, remote); } BOOST_AUTO_TEST_CASE(replaceECSWithLarger) { bool ednsAdded = false; bool ecsAdded = false; ComboAddress remote("192.168.1.25"); DNSName name("www.powerdns.com."); ComboAddress origRemote("127.0.0.1"); string newECSOption; generateECSOption(remote, newECSOption, remote.sin4.sin_family == AF_INET ? ECSSourcePrefixV4 : ECSSourcePrefixV6); PacketBuffer query; GenericDNSPacketWriter pw(query, name, QType::A, QClass::IN, 0); pw.getHeader()->rd = 1; EDNSSubnetOpts ecsOpts; // smaller (less specific so less bits) option static_assert(8 < ECSSourcePrefixV4, "The ECS scope should be smaller"); ecsOpts.source = Netmask(origRemote, 8); string origECSOption = makeEDNSSubnetOptsString(ecsOpts); GenericDNSPacketWriter::optvect_t opts; opts.emplace_back(EDNSOptionCode::ECS, origECSOption); pw.addOpt(512, 0, 0, opts); pw.commit(); /* large enough packet */ auto packet = query; unsigned int consumed = 0; uint16_t qtype; DNSName qname(reinterpret_cast(packet.data()), packet.size(), sizeof(dnsheader), false, &qtype, nullptr, &consumed); BOOST_CHECK_EQUAL(qname, name); BOOST_CHECK(qtype == QType::A); BOOST_CHECK(handleEDNSClientSubnet(packet, 4096, consumed, ednsAdded, ecsAdded, true, newECSOption)); BOOST_CHECK(packet.size() > query.size()); BOOST_CHECK_EQUAL(ednsAdded, false); BOOST_CHECK_EQUAL(ecsAdded, false); validateQuery(packet); validateECS(packet, remote); /* not large enough packet */ packet = query; ednsAdded = false; ecsAdded = false; consumed = 0; qname = DNSName(reinterpret_cast(packet.data()), packet.size(), sizeof(dnsheader), false, &qtype, nullptr, &consumed); BOOST_CHECK_EQUAL(qname, name); BOOST_CHECK(qtype == QType::A); BOOST_CHECK(!handleEDNSClientSubnet(packet, packet.size(), consumed, ednsAdded, ecsAdded, true, newECSOption)); BOOST_CHECK_EQUAL(packet.size(), query.size()); BOOST_CHECK_EQUAL(ednsAdded, false); BOOST_CHECK_EQUAL(ecsAdded, false); validateQuery(packet); } BOOST_AUTO_TEST_CASE(replaceECSFollowedByTSIG) { bool ednsAdded = false; bool ecsAdded = false; ComboAddress remote("192.168.1.25"); DNSName name("www.powerdns.com."); ComboAddress origRemote("127.0.0.1"); string newECSOption; generateECSOption(remote, newECSOption, remote.sin4.sin_family == AF_INET ? ECSSourcePrefixV4 : ECSSourcePrefixV6); PacketBuffer query; GenericDNSPacketWriter pw(query, name, QType::A, QClass::IN, 0); pw.getHeader()->rd = 1; EDNSSubnetOpts ecsOpts; ecsOpts.source = Netmask(origRemote, 8); string origECSOption = makeEDNSSubnetOptsString(ecsOpts); GenericDNSPacketWriter::optvect_t opts; opts.emplace_back(EDNSOptionCode::ECS, origECSOption); pw.addOpt(512, 0, 0, opts); pw.startRecord(DNSName("tsigname."), QType::TSIG, 0, QClass::ANY, DNSResourceRecord::ADDITIONAL, false); pw.commit(); /* large enough packet */ auto packet = query; unsigned int consumed = 0; uint16_t qtype; DNSName qname(reinterpret_cast(packet.data()), packet.size(), sizeof(dnsheader), false, &qtype, nullptr, &consumed); BOOST_CHECK_EQUAL(qname, name); BOOST_CHECK(qtype == QType::A); BOOST_CHECK(handleEDNSClientSubnet(packet, 4096, consumed, ednsAdded, ecsAdded, true, newECSOption)); BOOST_CHECK(packet.size() > query.size()); BOOST_CHECK_EQUAL(ednsAdded, false); BOOST_CHECK_EQUAL(ecsAdded, false); validateQuery(packet, true, false, 1); validateECS(packet, remote); /* not large enough packet */ packet = query; ednsAdded = false; ecsAdded = false; consumed = 0; qname = DNSName(reinterpret_cast(packet.data()), packet.size(), sizeof(dnsheader), false, &qtype, nullptr, &consumed); BOOST_CHECK_EQUAL(qname, name); BOOST_CHECK(qtype == QType::A); BOOST_CHECK(!handleEDNSClientSubnet(packet, packet.size(), consumed, ednsAdded, ecsAdded, true, newECSOption)); BOOST_CHECK_EQUAL(packet.size(), query.size()); BOOST_CHECK_EQUAL(ednsAdded, false); BOOST_CHECK_EQUAL(ecsAdded, false); validateQuery(packet, true, false, 1); } BOOST_AUTO_TEST_CASE(replaceECSAfterAN) { bool ednsAdded = false; bool ecsAdded = false; ComboAddress remote("192.168.1.25"); DNSName name("www.powerdns.com."); ComboAddress origRemote("127.0.0.1"); string newECSOption; generateECSOption(remote, newECSOption, remote.sin4.sin_family == AF_INET ? ECSSourcePrefixV4 : ECSSourcePrefixV6); PacketBuffer query; GenericDNSPacketWriter pw(query, name, QType::A, QClass::IN, 0); pw.getHeader()->rd = 1; pw.startRecord(DNSName("powerdns.com."), QType::A, 0, QClass::IN, DNSResourceRecord::ANSWER, true); pw.commit(); EDNSSubnetOpts ecsOpts; ecsOpts.source = Netmask(origRemote, 8); string origECSOption = makeEDNSSubnetOptsString(ecsOpts); GenericDNSPacketWriter::optvect_t opts; opts.emplace_back(EDNSOptionCode::ECS, origECSOption); pw.addOpt(512, 0, 0, opts); pw.commit(); /* large enough packet */ auto packet = query; unsigned int consumed = 0; uint16_t qtype; DNSName qname(reinterpret_cast(packet.data()), packet.size(), sizeof(dnsheader), false, &qtype, nullptr, &consumed); BOOST_CHECK_EQUAL(qname, name); BOOST_CHECK(qtype == QType::A); BOOST_CHECK(handleEDNSClientSubnet(packet, 4096, consumed, ednsAdded, ecsAdded, true, newECSOption)); BOOST_CHECK(packet.size() > query.size()); BOOST_CHECK_EQUAL(ednsAdded, false); BOOST_CHECK_EQUAL(ecsAdded, false); validateQuery(packet, true, false, 0, 1, 0); validateECS(packet, remote); /* not large enough packet */ packet = query; ednsAdded = false; ecsAdded = false; consumed = 0; qname = DNSName(reinterpret_cast(packet.data()), packet.size(), sizeof(dnsheader), false, &qtype, nullptr, &consumed); BOOST_CHECK_EQUAL(qname, name); BOOST_CHECK(qtype == QType::A); BOOST_CHECK(!handleEDNSClientSubnet(packet, packet.size(), consumed, ednsAdded, ecsAdded, true, newECSOption)); BOOST_CHECK_EQUAL(packet.size(), query.size()); BOOST_CHECK_EQUAL(ednsAdded, false); BOOST_CHECK_EQUAL(ecsAdded, false); validateQuery(packet, true, false, 0, 1, 0); } BOOST_AUTO_TEST_CASE(replaceECSAfterAuth) { bool ednsAdded = false; bool ecsAdded = false; ComboAddress remote("192.168.1.25"); DNSName name("www.powerdns.com."); ComboAddress origRemote("127.0.0.1"); string newECSOption; generateECSOption(remote, newECSOption, remote.sin4.sin_family == AF_INET ? ECSSourcePrefixV4 : ECSSourcePrefixV6); PacketBuffer query; GenericDNSPacketWriter pw(query, name, QType::A, QClass::IN, 0); pw.getHeader()->rd = 1; pw.startRecord(DNSName("powerdns.com."), QType::A, 0, QClass::IN, DNSResourceRecord::AUTHORITY, true); pw.commit(); EDNSSubnetOpts ecsOpts; ecsOpts.source = Netmask(origRemote, 8); string origECSOption = makeEDNSSubnetOptsString(ecsOpts); GenericDNSPacketWriter::optvect_t opts; opts.emplace_back(EDNSOptionCode::ECS, origECSOption); pw.addOpt(512, 0, 0, opts); pw.commit(); /* large enough packet */ auto packet = query; unsigned int consumed = 0; uint16_t qtype; DNSName qname(reinterpret_cast(packet.data()), packet.size(), sizeof(dnsheader), false, &qtype, nullptr, &consumed); BOOST_CHECK_EQUAL(qname, name); BOOST_CHECK(qtype == QType::A); BOOST_CHECK(handleEDNSClientSubnet(packet, 4096, consumed, ednsAdded, ecsAdded, true, newECSOption)); BOOST_CHECK(packet.size() > query.size()); BOOST_CHECK_EQUAL(ednsAdded, false); BOOST_CHECK_EQUAL(ecsAdded, false); validateQuery(packet, true, false, 0, 0, 1); validateECS(packet, remote); /* not large enough packet */ packet = query; ednsAdded = false; ecsAdded = false; consumed = 0; qname = DNSName(reinterpret_cast(packet.data()), packet.size(), sizeof(dnsheader), false, &qtype, nullptr, &consumed); BOOST_CHECK_EQUAL(qname, name); BOOST_CHECK(qtype == QType::A); BOOST_CHECK(!handleEDNSClientSubnet(packet, packet.size(), consumed, ednsAdded, ecsAdded, true, newECSOption)); BOOST_CHECK_EQUAL(packet.size(), query.size()); BOOST_CHECK_EQUAL(ednsAdded, false); BOOST_CHECK_EQUAL(ecsAdded, false); validateQuery(packet, true, false, 0, 0, 1); } BOOST_AUTO_TEST_CASE(replaceECSBetweenTwoRecords) { bool ednsAdded = false; bool ecsAdded = false; ComboAddress remote("192.168.1.25"); DNSName name("www.powerdns.com."); ComboAddress origRemote("127.0.0.1"); string newECSOption; generateECSOption(remote, newECSOption, remote.sin4.sin_family == AF_INET ? ECSSourcePrefixV4 : ECSSourcePrefixV6); PacketBuffer query; GenericDNSPacketWriter pw(query, name, QType::A, QClass::IN, 0); pw.getHeader()->rd = 1; EDNSSubnetOpts ecsOpts; ecsOpts.source = Netmask(origRemote, 8); string origECSOption = makeEDNSSubnetOptsString(ecsOpts); GenericDNSPacketWriter::optvect_t opts; opts.emplace_back(EDNSOptionCode::ECS, origECSOption); pw.startRecord(DNSName("additional"), QType::A, 0, QClass::IN, DNSResourceRecord::ADDITIONAL, false); pw.xfr32BitInt(0x01020304); pw.addOpt(512, 0, 0, opts); pw.startRecord(DNSName("tsigname."), QType::TSIG, 0, QClass::ANY, DNSResourceRecord::ADDITIONAL, false); pw.commit(); /* large enough packet */ auto packet = query; unsigned int consumed = 0; uint16_t qtype; DNSName qname(reinterpret_cast(packet.data()), packet.size(), sizeof(dnsheader), false, &qtype, nullptr, &consumed); BOOST_CHECK_EQUAL(qname, name); BOOST_CHECK(qtype == QType::A); BOOST_CHECK(handleEDNSClientSubnet(packet, 4096, consumed, ednsAdded, ecsAdded, true, newECSOption)); BOOST_CHECK(packet.size() > query.size()); BOOST_CHECK_EQUAL(ednsAdded, false); BOOST_CHECK_EQUAL(ecsAdded, false); validateQuery(packet, true, false, 2); validateECS(packet, remote); /* not large enough packet */ packet = query; ednsAdded = false; ecsAdded = false; consumed = 0; qname = DNSName(reinterpret_cast(packet.data()), packet.size(), sizeof(dnsheader), false, &qtype, nullptr, &consumed); BOOST_CHECK_EQUAL(qname, name); BOOST_CHECK(qtype == QType::A); BOOST_CHECK(!handleEDNSClientSubnet(packet, packet.size(), consumed, ednsAdded, ecsAdded, true, newECSOption)); BOOST_CHECK_EQUAL(packet.size(), query.size()); BOOST_CHECK_EQUAL(ednsAdded, false); BOOST_CHECK_EQUAL(ecsAdded, false); validateQuery(packet, true, false, 2); } BOOST_AUTO_TEST_CASE(insertECSInEDNSBetweenTwoRecords) { bool ednsAdded = false; bool ecsAdded = false; ComboAddress remote("192.168.1.25"); DNSName name("www.powerdns.com."); ComboAddress origRemote("127.0.0.1"); string newECSOption; generateECSOption(remote, newECSOption, remote.sin4.sin_family == AF_INET ? ECSSourcePrefixV4 : ECSSourcePrefixV6); PacketBuffer query; GenericDNSPacketWriter pw(query, name, QType::A, QClass::IN, 0); pw.getHeader()->rd = 1; pw.startRecord(DNSName("additional"), QType::A, 0, QClass::IN, DNSResourceRecord::ADDITIONAL, false); pw.xfr32BitInt(0x01020304); pw.addOpt(512, 0, 0); pw.startRecord(DNSName("tsigname."), QType::TSIG, 0, QClass::ANY, DNSResourceRecord::ADDITIONAL, false); pw.commit(); /* large enough packet */ auto packet = query; unsigned int consumed = 0; uint16_t qtype; DNSName qname(reinterpret_cast(packet.data()), packet.size(), sizeof(dnsheader), false, &qtype, nullptr, &consumed); BOOST_CHECK_EQUAL(qname, name); BOOST_CHECK(qtype == QType::A); BOOST_CHECK(handleEDNSClientSubnet(packet, 4096, consumed, ednsAdded, ecsAdded, true, newECSOption)); BOOST_CHECK(packet.size() > query.size()); BOOST_CHECK_EQUAL(ednsAdded, false); BOOST_CHECK_EQUAL(ecsAdded, true); validateQuery(packet, true, false, 2); validateECS(packet, remote); /* not large enough packet */ packet = query; ednsAdded = false; ecsAdded = false; consumed = 0; qname = DNSName(reinterpret_cast(packet.data()), packet.size(), sizeof(dnsheader), false, &qtype, nullptr, &consumed); BOOST_CHECK_EQUAL(qname, name); BOOST_CHECK(qtype == QType::A); BOOST_CHECK(!handleEDNSClientSubnet(query, packet.size(), consumed, ednsAdded, ecsAdded, true, newECSOption)); BOOST_CHECK_EQUAL(packet.size(), query.size()); BOOST_CHECK_EQUAL(ednsAdded, false); BOOST_CHECK_EQUAL(ecsAdded, false); validateQuery(packet, true, false, 2); } BOOST_AUTO_TEST_CASE(insertECSAfterTSIG) { bool ednsAdded = false; bool ecsAdded = false; ComboAddress remote("192.168.1.25"); DNSName name("www.powerdns.com."); ComboAddress origRemote("127.0.0.1"); string newECSOption; generateECSOption(remote, newECSOption, remote.sin4.sin_family == AF_INET ? ECSSourcePrefixV4 : ECSSourcePrefixV6); PacketBuffer query; GenericDNSPacketWriter pw(query, name, QType::A, QClass::IN, 0); pw.getHeader()->rd = 1; pw.startRecord(DNSName("tsigname."), QType::TSIG, 0, QClass::ANY, DNSResourceRecord::ADDITIONAL, false); pw.commit(); /* large enough packet */ auto packet = query; unsigned int consumed = 0; uint16_t qtype; DNSName qname(reinterpret_cast(packet.data()), packet.size(), sizeof(dnsheader), false, &qtype, nullptr, &consumed); BOOST_CHECK_EQUAL(qname, name); BOOST_CHECK(qtype == QType::A); BOOST_CHECK(handleEDNSClientSubnet(packet, 4096, consumed, ednsAdded, ecsAdded, true, newECSOption)); BOOST_CHECK(packet.size() > query.size()); BOOST_CHECK_EQUAL(ednsAdded, true); BOOST_CHECK_EQUAL(ecsAdded, true); /* the MOADNSParser does not allow anything except XPF after a TSIG */ BOOST_CHECK_THROW(validateQuery(packet, true, false, 1), MOADNSException); validateECS(packet, remote); /* not large enough packet */ packet = query; ednsAdded = false; ecsAdded = false; consumed = 0; qname = DNSName(reinterpret_cast(packet.data()), packet.size(), sizeof(dnsheader), false, &qtype, nullptr, &consumed); BOOST_CHECK_EQUAL(qname, name); BOOST_CHECK(qtype == QType::A); BOOST_CHECK(!handleEDNSClientSubnet(packet, packet.size(), consumed, ednsAdded, ecsAdded, true, newECSOption)); BOOST_CHECK_EQUAL(packet.size(), query.size()); BOOST_CHECK_EQUAL(ednsAdded, false); BOOST_CHECK_EQUAL(ecsAdded, false); validateQuery(packet, true, false); } BOOST_AUTO_TEST_CASE(removeEDNSWhenFirst) { DNSName name("www.powerdns.com."); PacketBuffer response; GenericDNSPacketWriter pw(response, name, QType::A, QClass::IN, 0); pw.getHeader()->qr = 1; pw.startRecord(name, QType::A, 3600, QClass::IN, DNSResourceRecord::ANSWER, true); pw.xfr32BitInt(0x01020304); pw.addOpt(512, 0, 0); pw.commit(); pw.startRecord(name, QType::A, 3600, QClass::IN, DNSResourceRecord::ADDITIONAL, true); pw.xfr32BitInt(0x01020304); pw.commit(); PacketBuffer newResponse; int res = rewriteResponseWithoutEDNS(response, newResponse); BOOST_CHECK_EQUAL(res, 0); unsigned int consumed = 0; uint16_t qtype; DNSName qname((const char*) newResponse.data(), newResponse.size(), sizeof(dnsheader), false, &qtype, nullptr, &consumed); BOOST_CHECK_EQUAL(qname, name); BOOST_CHECK(qtype == QType::A); size_t const ednsOptRRSize = sizeof(struct dnsrecordheader) + 1 /* root in OPT RR */; BOOST_CHECK_EQUAL(newResponse.size(), response.size() - ednsOptRRSize); validateResponse(newResponse, false, 1); } BOOST_AUTO_TEST_CASE(removeEDNSWhenIntermediary) { DNSName name("www.powerdns.com."); PacketBuffer response; GenericDNSPacketWriter pw(response, name, QType::A, QClass::IN, 0); pw.getHeader()->qr = 1; pw.startRecord(name, QType::A, 3600, QClass::IN, DNSResourceRecord::ANSWER, true); pw.xfr32BitInt(0x01020304); pw.startRecord(DNSName("other.powerdns.com."), QType::A, 3600, QClass::IN, DNSResourceRecord::ADDITIONAL, true); pw.xfr32BitInt(0x01020304); pw.commit(); pw.addOpt(512, 0, 0); pw.commit(); pw.startRecord(DNSName("yetanother.powerdns.com."), QType::A, 3600, QClass::IN, DNSResourceRecord::ADDITIONAL, true); pw.xfr32BitInt(0x01020304); pw.commit(); PacketBuffer newResponse; int res = rewriteResponseWithoutEDNS(response, newResponse); BOOST_CHECK_EQUAL(res, 0); unsigned int consumed = 0; uint16_t qtype; DNSName qname((const char*) newResponse.data(), newResponse.size(), sizeof(dnsheader), false, &qtype, nullptr, &consumed); BOOST_CHECK_EQUAL(qname, name); BOOST_CHECK(qtype == QType::A); size_t const ednsOptRRSize = sizeof(struct dnsrecordheader) + 1 /* root in OPT RR */; BOOST_CHECK_EQUAL(newResponse.size(), response.size() - ednsOptRRSize); validateResponse(newResponse, false, 2); } BOOST_AUTO_TEST_CASE(removeEDNSWhenLast) { DNSName name("www.powerdns.com."); PacketBuffer response; GenericDNSPacketWriter pw(response, name, QType::A, QClass::IN, 0); pw.getHeader()->qr = 1; pw.startRecord(name, QType::A, 3600, QClass::IN, DNSResourceRecord::ANSWER, true); pw.xfr32BitInt(0x01020304); pw.commit(); pw.startRecord(DNSName("other.powerdns.com."), QType::A, 3600, QClass::IN, DNSResourceRecord::ADDITIONAL, true); pw.xfr32BitInt(0x01020304); pw.commit(); pw.addOpt(512, 0, 0); pw.commit(); PacketBuffer newResponse; int res = rewriteResponseWithoutEDNS(response, newResponse); BOOST_CHECK_EQUAL(res, 0); unsigned int consumed = 0; uint16_t qtype; DNSName qname((const char*) newResponse.data(), newResponse.size(), sizeof(dnsheader), false, &qtype, nullptr, &consumed); BOOST_CHECK_EQUAL(qname, name); BOOST_CHECK(qtype == QType::A); size_t const ednsOptRRSize = sizeof(struct dnsrecordheader) + 1 /* root in OPT RR */; BOOST_CHECK_EQUAL(newResponse.size(), response.size() - ednsOptRRSize); validateResponse(newResponse, false, 1); } BOOST_AUTO_TEST_CASE(removeECSWhenOnlyOption) { DNSName name("www.powerdns.com."); ComboAddress origRemote("127.0.0.1"); PacketBuffer response; GenericDNSPacketWriter pw(response, name, QType::A, QClass::IN, 0); pw.getHeader()->qr = 1; pw.startRecord(name, QType::A, 3600, QClass::IN, DNSResourceRecord::ANSWER, true); pw.xfr32BitInt(0x01020304); pw.startRecord(name, QType::A, 3600, QClass::IN, DNSResourceRecord::ADDITIONAL, true); pw.xfr32BitInt(0x01020304); pw.commit(); EDNSSubnetOpts ecsOpts; ecsOpts.source = Netmask(origRemote, ECSSourcePrefixV4); string origECSOptionStr = makeEDNSSubnetOptsString(ecsOpts); GenericDNSPacketWriter::optvect_t opts; opts.emplace_back(EDNSOptionCode::ECS, origECSOptionStr); pw.addOpt(512, 0, 0, opts); pw.commit(); uint16_t optStart; size_t optLen = 0; bool last = false; int res = locateEDNSOptRR(response, &optStart, &optLen, &last); BOOST_CHECK_EQUAL(res, 0); BOOST_CHECK_EQUAL(last, true); size_t responseLen = response.size(); size_t existingOptLen = optLen; BOOST_CHECK(existingOptLen < responseLen); res = removeEDNSOptionFromOPT(reinterpret_cast(response.data()) + optStart, &optLen, EDNSOptionCode::ECS); BOOST_CHECK_EQUAL(res, 0); BOOST_CHECK_EQUAL(optLen, existingOptLen - (origECSOptionStr.size() + 4)); responseLen -= (existingOptLen - optLen); unsigned int consumed = 0; uint16_t qtype; DNSName qname((const char*) response.data(), responseLen, sizeof(dnsheader), false, &qtype, nullptr, &consumed); BOOST_CHECK_EQUAL(qname, name); BOOST_CHECK(qtype == QType::A); validateResponse(response, true, 1); } BOOST_AUTO_TEST_CASE(removeECSWhenFirstOption) { DNSName name("www.powerdns.com."); ComboAddress origRemote("127.0.0.1"); PacketBuffer response; GenericDNSPacketWriter pw(response, name, QType::A, QClass::IN, 0); pw.getHeader()->qr = 1; pw.startRecord(name, QType::A, 3600, QClass::IN, DNSResourceRecord::ANSWER, true); pw.xfr32BitInt(0x01020304); pw.startRecord(name, QType::A, 3600, QClass::IN, DNSResourceRecord::ADDITIONAL, true); pw.xfr32BitInt(0x01020304); pw.commit(); EDNSSubnetOpts ecsOpts; ecsOpts.source = Netmask(origRemote, ECSSourcePrefixV6); string origECSOptionStr = makeEDNSSubnetOptsString(ecsOpts); EDNSCookiesOpt cookiesOpt("deadbeefdeadbeef"); string cookiesOptionStr = cookiesOpt.makeOptString(); GenericDNSPacketWriter::optvect_t opts; opts.emplace_back(EDNSOptionCode::ECS, origECSOptionStr); opts.emplace_back(EDNSOptionCode::COOKIE, cookiesOptionStr); pw.addOpt(512, 0, 0, opts); pw.commit(); uint16_t optStart; size_t optLen = 0; bool last = false; int res = locateEDNSOptRR(response, &optStart, &optLen, &last); BOOST_CHECK_EQUAL(res, 0); BOOST_CHECK_EQUAL(last, true); size_t responseLen = response.size(); size_t existingOptLen = optLen; BOOST_CHECK(existingOptLen < responseLen); res = removeEDNSOptionFromOPT(reinterpret_cast(response.data()) + optStart, &optLen, EDNSOptionCode::ECS); BOOST_CHECK_EQUAL(res, 0); BOOST_CHECK_EQUAL(optLen, existingOptLen - (origECSOptionStr.size() + 4)); responseLen -= (existingOptLen - optLen); unsigned int consumed = 0; uint16_t qtype; DNSName qname((const char*) response.data(), responseLen, sizeof(dnsheader), false, &qtype, nullptr, &consumed); BOOST_CHECK_EQUAL(qname, name); BOOST_CHECK(qtype == QType::A); validateResponse(response, true, 1); } BOOST_AUTO_TEST_CASE(removeECSWhenIntermediaryOption) { DNSName name("www.powerdns.com."); ComboAddress origRemote("127.0.0.1"); PacketBuffer response; GenericDNSPacketWriter pw(response, name, QType::A, QClass::IN, 0); pw.getHeader()->qr = 1; pw.startRecord(name, QType::A, 3600, QClass::IN, DNSResourceRecord::ANSWER, true); pw.xfr32BitInt(0x01020304); pw.startRecord(name, QType::A, 3600, QClass::IN, DNSResourceRecord::ADDITIONAL, true); pw.xfr32BitInt(0x01020304); pw.commit(); EDNSSubnetOpts ecsOpts; ecsOpts.source = Netmask(origRemote, ECSSourcePrefixV4); string origECSOptionStr = makeEDNSSubnetOptsString(ecsOpts); EDNSCookiesOpt cookiesOpt("deadbeefdeadbeef"); string cookiesOptionStr1 = cookiesOpt.makeOptString(); string cookiesOptionStr2 = cookiesOpt.makeOptString(); GenericDNSPacketWriter::optvect_t opts; opts.emplace_back(EDNSOptionCode::COOKIE, cookiesOptionStr1); opts.emplace_back(EDNSOptionCode::ECS, origECSOptionStr); opts.emplace_back(EDNSOptionCode::COOKIE, cookiesOptionStr2); pw.addOpt(512, 0, 0, opts); pw.commit(); uint16_t optStart; size_t optLen = 0; bool last = false; int res = locateEDNSOptRR(response, &optStart, &optLen, &last); BOOST_CHECK_EQUAL(res, 0); BOOST_CHECK_EQUAL(last, true); size_t responseLen = response.size(); size_t existingOptLen = optLen; BOOST_CHECK(existingOptLen < responseLen); res = removeEDNSOptionFromOPT(reinterpret_cast(response.data()) + optStart, &optLen, EDNSOptionCode::ECS); BOOST_CHECK_EQUAL(res, 0); BOOST_CHECK_EQUAL(optLen, existingOptLen - (origECSOptionStr.size() + 4)); responseLen -= (existingOptLen - optLen); unsigned int consumed = 0; uint16_t qtype; DNSName qname((const char*) response.data(), responseLen, sizeof(dnsheader), false, &qtype, nullptr, &consumed); BOOST_CHECK_EQUAL(qname, name); BOOST_CHECK(qtype == QType::A); validateResponse(response, true, 1); } BOOST_AUTO_TEST_CASE(removeECSWhenLastOption) { DNSName name("www.powerdns.com."); ComboAddress origRemote("127.0.0.1"); PacketBuffer response; GenericDNSPacketWriter pw(response, name, QType::A, QClass::IN, 0); pw.getHeader()->qr = 1; pw.startRecord(name, QType::A, 3600, QClass::IN, DNSResourceRecord::ANSWER, true); pw.xfr32BitInt(0x01020304); pw.startRecord(name, QType::A, 3600, QClass::IN, DNSResourceRecord::ADDITIONAL, true); pw.xfr32BitInt(0x01020304); pw.commit(); EDNSCookiesOpt cookiesOpt("deadbeefdeadbeef"); string cookiesOptionStr = cookiesOpt.makeOptString(); EDNSSubnetOpts ecsOpts; ecsOpts.source = Netmask(origRemote, ECSSourcePrefixV4); string origECSOptionStr = makeEDNSSubnetOptsString(ecsOpts); GenericDNSPacketWriter::optvect_t opts; opts.emplace_back(EDNSOptionCode::COOKIE, cookiesOptionStr); opts.emplace_back(EDNSOptionCode::ECS, origECSOptionStr); pw.addOpt(512, 0, 0, opts); pw.commit(); uint16_t optStart; size_t optLen = 0; bool last = false; int res = locateEDNSOptRR(response, &optStart, &optLen, &last); BOOST_CHECK_EQUAL(res, 0); BOOST_CHECK_EQUAL(last, true); size_t responseLen = response.size(); size_t existingOptLen = optLen; BOOST_CHECK(existingOptLen < responseLen); res = removeEDNSOptionFromOPT(reinterpret_cast(response.data()) + optStart, &optLen, EDNSOptionCode::ECS); BOOST_CHECK_EQUAL(res, 0); BOOST_CHECK_EQUAL(optLen, existingOptLen - (origECSOptionStr.size() + 4)); responseLen -= (existingOptLen - optLen); unsigned int consumed = 0; uint16_t qtype; DNSName qname((const char*) response.data(), responseLen, sizeof(dnsheader), false, &qtype, nullptr, &consumed); BOOST_CHECK_EQUAL(qname, name); BOOST_CHECK(qtype == QType::A); validateResponse(response, true, 1); } BOOST_AUTO_TEST_CASE(rewritingWithoutECSWhenOnlyOption) { DNSName name("www.powerdns.com."); ComboAddress origRemote("127.0.0.1"); PacketBuffer response; GenericDNSPacketWriter pw(response, name, QType::A, QClass::IN, 0); pw.getHeader()->qr = 1; pw.startRecord(name, QType::A, 3600, QClass::IN, DNSResourceRecord::ANSWER, true); pw.xfr32BitInt(0x01020304); EDNSSubnetOpts ecsOpts; ecsOpts.source = Netmask(origRemote, ECSSourcePrefixV4); string origECSOptionStr = makeEDNSSubnetOptsString(ecsOpts); GenericDNSPacketWriter::optvect_t opts; opts.emplace_back(EDNSOptionCode::ECS, origECSOptionStr); pw.addOpt(512, 0, 0, opts); pw.commit(); pw.startRecord(name, QType::A, 3600, QClass::IN, DNSResourceRecord::ADDITIONAL, true); pw.xfr32BitInt(0x01020304); pw.commit(); PacketBuffer newResponse; int res = rewriteResponseWithoutEDNSOption(response, EDNSOptionCode::ECS, newResponse); BOOST_CHECK_EQUAL(res, 0); BOOST_CHECK_EQUAL(newResponse.size(), response.size() - (origECSOptionStr.size() + 4)); unsigned int consumed = 0; uint16_t qtype; DNSName qname((const char*) newResponse.data(), newResponse.size(), sizeof(dnsheader), false, &qtype, nullptr, &consumed); BOOST_CHECK_EQUAL(qname, name); BOOST_CHECK(qtype == QType::A); validateResponse(newResponse, true, 1); } BOOST_AUTO_TEST_CASE(rewritingWithoutECSWhenFirstOption) { DNSName name("www.powerdns.com."); ComboAddress origRemote("127.0.0.1"); PacketBuffer response; GenericDNSPacketWriter pw(response, name, QType::A, QClass::IN, 0); pw.getHeader()->qr = 1; pw.startRecord(name, QType::A, 3600, QClass::IN, DNSResourceRecord::ANSWER, true); pw.xfr32BitInt(0x01020304); EDNSSubnetOpts ecsOpts; ecsOpts.source = Netmask(origRemote, ECSSourcePrefixV4); string origECSOptionStr = makeEDNSSubnetOptsString(ecsOpts); EDNSCookiesOpt cookiesOpt("deadbeefdeadbeef"); string cookiesOptionStr = cookiesOpt.makeOptString(); GenericDNSPacketWriter::optvect_t opts; opts.emplace_back(EDNSOptionCode::ECS, origECSOptionStr); opts.emplace_back(EDNSOptionCode::COOKIE, cookiesOptionStr); pw.addOpt(512, 0, 0, opts); pw.commit(); pw.startRecord(name, QType::A, 3600, QClass::IN, DNSResourceRecord::ADDITIONAL, true); pw.xfr32BitInt(0x01020304); pw.commit(); PacketBuffer newResponse; int res = rewriteResponseWithoutEDNSOption(response, EDNSOptionCode::ECS, newResponse); BOOST_CHECK_EQUAL(res, 0); BOOST_CHECK_EQUAL(newResponse.size(), response.size() - (origECSOptionStr.size() + 4)); unsigned int consumed = 0; uint16_t qtype; DNSName qname((const char*) newResponse.data(), newResponse.size(), sizeof(dnsheader), false, &qtype, nullptr, &consumed); BOOST_CHECK_EQUAL(qname, name); BOOST_CHECK(qtype == QType::A); validateResponse(newResponse, true, 1); } BOOST_AUTO_TEST_CASE(rewritingWithoutECSWhenIntermediaryOption) { DNSName name("www.powerdns.com."); ComboAddress origRemote("127.0.0.1"); PacketBuffer response; GenericDNSPacketWriter pw(response, name, QType::A, QClass::IN, 0); pw.getHeader()->qr = 1; pw.startRecord(name, QType::A, 3600, QClass::IN, DNSResourceRecord::ANSWER, true); pw.xfr32BitInt(0x01020304); EDNSSubnetOpts ecsOpts; ecsOpts.source = Netmask(origRemote, ECSSourcePrefixV4); string origECSOptionStr = makeEDNSSubnetOptsString(ecsOpts); EDNSCookiesOpt cookiesOpt("deadbeefdeadbeef"); string cookiesOptionStr1 = cookiesOpt.makeOptString(); string cookiesOptionStr2 = cookiesOpt.makeOptString(); GenericDNSPacketWriter::optvect_t opts; opts.emplace_back(EDNSOptionCode::COOKIE, cookiesOptionStr1); opts.emplace_back(EDNSOptionCode::ECS, origECSOptionStr); opts.emplace_back(EDNSOptionCode::COOKIE, cookiesOptionStr2); pw.addOpt(512, 0, 0, opts); pw.commit(); pw.startRecord(name, QType::A, 3600, QClass::IN, DNSResourceRecord::ADDITIONAL, true); pw.xfr32BitInt(0x01020304); pw.commit(); PacketBuffer newResponse; int res = rewriteResponseWithoutEDNSOption(response, EDNSOptionCode::ECS, newResponse); BOOST_CHECK_EQUAL(res, 0); BOOST_CHECK_EQUAL(newResponse.size(), response.size() - (origECSOptionStr.size() + 4)); unsigned int consumed = 0; uint16_t qtype; DNSName qname((const char*) newResponse.data(), newResponse.size(), sizeof(dnsheader), false, &qtype, nullptr, &consumed); BOOST_CHECK_EQUAL(qname, name); BOOST_CHECK(qtype == QType::A); validateResponse(newResponse, true, 1); } BOOST_AUTO_TEST_CASE(rewritingWithoutECSWhenLastOption) { DNSName name("www.powerdns.com."); ComboAddress origRemote("127.0.0.1"); PacketBuffer response; GenericDNSPacketWriter pw(response, name, QType::A, QClass::IN, 0); pw.getHeader()->qr = 1; pw.startRecord(name, QType::A, 3600, QClass::IN, DNSResourceRecord::ANSWER, true); pw.xfr32BitInt(0x01020304); EDNSSubnetOpts ecsOpts; ecsOpts.source = Netmask(origRemote, ECSSourcePrefixV4); string origECSOptionStr = makeEDNSSubnetOptsString(ecsOpts); EDNSCookiesOpt cookiesOpt("deadbeefdeadbeef"); string cookiesOptionStr = cookiesOpt.makeOptString(); GenericDNSPacketWriter::optvect_t opts; opts.emplace_back(EDNSOptionCode::COOKIE, cookiesOptionStr); opts.emplace_back(EDNSOptionCode::ECS, origECSOptionStr); pw.addOpt(512, 0, 0, opts); pw.commit(); pw.startRecord(name, QType::A, 3600, QClass::IN, DNSResourceRecord::ADDITIONAL, true); pw.xfr32BitInt(0x01020304); pw.commit(); PacketBuffer newResponse; int res = rewriteResponseWithoutEDNSOption(response, EDNSOptionCode::ECS, newResponse); BOOST_CHECK_EQUAL(res, 0); BOOST_CHECK_EQUAL(newResponse.size(), response.size() - (origECSOptionStr.size() + 4)); unsigned int consumed = 0; uint16_t qtype; DNSName qname((const char*) newResponse.data(), newResponse.size(), sizeof(dnsheader), false, &qtype, nullptr, &consumed); BOOST_CHECK_EQUAL(qname, name); BOOST_CHECK(qtype == QType::A); validateResponse(newResponse, true, 1); } static DNSQuestion turnIntoResponse(InternalQueryState& ids, PacketBuffer& query, bool resizeBuffer=true) { if (resizeBuffer) { query.resize(4096); } auto dq = DNSQuestion(ids, query); BOOST_CHECK(addEDNSToQueryTurnedResponse(dq)); return dq; } static int getZ(const DNSName& qname, const uint16_t qtype, const uint16_t qclass, PacketBuffer& query) { InternalQueryState ids; ids.protocol = dnsdist::Protocol::DoUDP; ids.qname = qname; ids.qtype = qtype; ids.qclass = qclass; ids.origDest = ComboAddress("127.0.0.1"); ids.origRemote = ComboAddress("127.0.0.1"); ids.queryRealTime.start(); auto dq = DNSQuestion(ids, query); return getEDNSZ(dq); } BOOST_AUTO_TEST_CASE(test_getEDNSZ) { uint16_t z; uint16_t udpPayloadSize; DNSName qname("www.powerdns.com."); uint16_t qtype = QType::A; uint16_t qclass = QClass::IN; EDNSSubnetOpts ecsOpts; ecsOpts.source = Netmask(ComboAddress("127.0.0.1"), ECSSourcePrefixV4); string origECSOptionStr = makeEDNSSubnetOptsString(ecsOpts); EDNSCookiesOpt cookiesOpt("deadbeefdeadbeef"); string cookiesOptionStr = cookiesOpt.makeOptString(); GenericDNSPacketWriter::optvect_t opts; opts.emplace_back(EDNSOptionCode::COOKIE, cookiesOptionStr); opts.emplace_back(EDNSOptionCode::ECS, origECSOptionStr); { /* no EDNS */ PacketBuffer query; GenericDNSPacketWriter pw(query, qname, qtype, qclass, 0); pw.commit(); BOOST_CHECK_EQUAL(getZ(qname, qtype, qclass, query), 0); BOOST_CHECK_EQUAL(getEDNSUDPPayloadSizeAndZ(reinterpret_cast(query.data()), query.size(), &udpPayloadSize, &z), false); BOOST_CHECK_EQUAL(z, 0); BOOST_CHECK_EQUAL(udpPayloadSize, 0); } { /* truncated EDNS */ PacketBuffer query; GenericDNSPacketWriter pw(query, qname, qtype, qclass, 0); pw.addOpt(512, 0, EDNS_HEADER_FLAG_DO); pw.commit(); query.resize(query.size() - (/* RDLEN */ sizeof(uint16_t) + /* last byte of TTL / Z */ 1)); BOOST_CHECK_EQUAL(getZ(qname, qtype, qclass, query), 0); BOOST_CHECK_EQUAL(getEDNSUDPPayloadSizeAndZ(reinterpret_cast(query.data()), query.size(), &udpPayloadSize, &z), false); BOOST_CHECK_EQUAL(z, 0); BOOST_CHECK_EQUAL(udpPayloadSize, 0); } { /* valid EDNS, no options, DO not set */ PacketBuffer query; GenericDNSPacketWriter pw(query, qname, qtype, qclass, 0); pw.addOpt(512, 0, 0); pw.commit(); BOOST_CHECK_EQUAL(getZ(qname, qtype, qclass, query), 0); BOOST_CHECK_EQUAL(getEDNSUDPPayloadSizeAndZ(reinterpret_cast(query.data()), query.size(), &udpPayloadSize, &z), true); BOOST_CHECK_EQUAL(z, 0); BOOST_CHECK_EQUAL(udpPayloadSize, 512); } { /* valid EDNS, no options, DO set */ PacketBuffer query; GenericDNSPacketWriter pw(query, qname, qtype, qclass, 0); pw.addOpt(512, 0, EDNS_HEADER_FLAG_DO); pw.commit(); BOOST_CHECK_EQUAL(getZ(qname, qtype, qclass, query), EDNS_HEADER_FLAG_DO); BOOST_CHECK_EQUAL(getEDNSUDPPayloadSizeAndZ(reinterpret_cast(query.data()), query.size(), &udpPayloadSize, &z), true); BOOST_CHECK_EQUAL(z, EDNS_HEADER_FLAG_DO); BOOST_CHECK_EQUAL(udpPayloadSize, 512); } { /* valid EDNS, options, DO not set */ PacketBuffer query; GenericDNSPacketWriter pw(query, qname, qtype, qclass, 0); pw.addOpt(512, 0, 0, opts); pw.commit(); BOOST_CHECK_EQUAL(getZ(qname, qtype, qclass, query), 0); BOOST_CHECK_EQUAL(getEDNSUDPPayloadSizeAndZ(reinterpret_cast(query.data()), query.size(), &udpPayloadSize, &z), true); BOOST_CHECK_EQUAL(z, 0); BOOST_CHECK_EQUAL(udpPayloadSize, 512); } { /* valid EDNS, options, DO set */ PacketBuffer query; GenericDNSPacketWriter pw(query, qname, qtype, qclass, 0); pw.addOpt(512, 0, EDNS_HEADER_FLAG_DO, opts); pw.commit(); BOOST_CHECK_EQUAL(getZ(qname, qtype, qclass, query), EDNS_HEADER_FLAG_DO); BOOST_CHECK_EQUAL(getEDNSUDPPayloadSizeAndZ(reinterpret_cast(query.data()), query.size(), &udpPayloadSize, &z), true); BOOST_CHECK_EQUAL(z, EDNS_HEADER_FLAG_DO); BOOST_CHECK_EQUAL(udpPayloadSize, 512); } } BOOST_AUTO_TEST_CASE(test_addEDNSToQueryTurnedResponse) { InternalQueryState ids; ids.qname = DNSName("www.powerdns.com."); ids.qtype = QType::A; ids.qclass = QClass::IN; ids.origDest = ComboAddress("127.0.0.1"); ids.origRemote = ComboAddress("127.0.0.1"); ids.queryRealTime.start(); uint16_t z; uint16_t udpPayloadSize; EDNSSubnetOpts ecsOpts; ecsOpts.source = Netmask(ComboAddress("127.0.0.1"), ECSSourcePrefixV4); string origECSOptionStr = makeEDNSSubnetOptsString(ecsOpts); EDNSCookiesOpt cookiesOpt("deadbeefdeadbeef"); string cookiesOptionStr = cookiesOpt.makeOptString(); GenericDNSPacketWriter::optvect_t opts; opts.emplace_back(EDNSOptionCode::COOKIE, cookiesOptionStr); opts.emplace_back(EDNSOptionCode::ECS, origECSOptionStr); { /* no EDNS */ PacketBuffer query; GenericDNSPacketWriter pw(query, ids.qname, ids.qtype, ids.qclass, 0); pw.getHeader()->qr = 1; pw.getHeader()->rcode = RCode::NXDomain; pw.commit(); auto dq = turnIntoResponse(ids, query); BOOST_CHECK_EQUAL(getEDNSZ(dq), 0); BOOST_CHECK_EQUAL(getEDNSUDPPayloadSizeAndZ(reinterpret_cast(dq.getData().data()), dq.getData().size(), &udpPayloadSize, &z), false); BOOST_CHECK_EQUAL(z, 0); BOOST_CHECK_EQUAL(udpPayloadSize, 0); } { /* truncated EDNS */ PacketBuffer query; GenericDNSPacketWriter pw(query, ids.qname, ids.qtype, ids.qclass, 0); pw.addOpt(512, 0, EDNS_HEADER_FLAG_DO); pw.commit(); query.resize(query.size() - (/* RDLEN */ sizeof(uint16_t) + /* last byte of TTL / Z */ 1)); auto dq = turnIntoResponse(ids, query, false); BOOST_CHECK_EQUAL(getEDNSZ(dq), 0); BOOST_CHECK_EQUAL(getEDNSUDPPayloadSizeAndZ(reinterpret_cast(dq.getData().data()), dq.getData().size(), &udpPayloadSize, &z), false); BOOST_CHECK_EQUAL(z, 0); BOOST_CHECK_EQUAL(udpPayloadSize, 0); } { /* valid EDNS, no options, DO not set */ PacketBuffer query; GenericDNSPacketWriter pw(query, ids.qname, ids.qtype, ids.qclass, 0); pw.addOpt(512, 0, 0); pw.commit(); auto dq = turnIntoResponse(ids, query); BOOST_CHECK_EQUAL(getEDNSZ(dq), 0); BOOST_CHECK_EQUAL(getEDNSUDPPayloadSizeAndZ(reinterpret_cast(dq.getData().data()), dq.getData().size(), &udpPayloadSize, &z), true); BOOST_CHECK_EQUAL(z, 0); BOOST_CHECK_EQUAL(udpPayloadSize, g_PayloadSizeSelfGenAnswers); } { /* valid EDNS, no options, DO set */ PacketBuffer query; GenericDNSPacketWriter pw(query, ids.qname, ids.qtype, ids.qclass, 0); pw.addOpt(512, 0, EDNS_HEADER_FLAG_DO); pw.commit(); auto dq = turnIntoResponse(ids, query); BOOST_CHECK_EQUAL(getEDNSZ(dq), EDNS_HEADER_FLAG_DO); BOOST_CHECK_EQUAL(getEDNSUDPPayloadSizeAndZ(reinterpret_cast(dq.getData().data()), dq.getData().size(), &udpPayloadSize, &z), true); BOOST_CHECK_EQUAL(z, EDNS_HEADER_FLAG_DO); BOOST_CHECK_EQUAL(udpPayloadSize, g_PayloadSizeSelfGenAnswers); } { /* valid EDNS, options, DO not set */ PacketBuffer query; GenericDNSPacketWriter pw(query, ids.qname, ids.qtype, ids.qclass, 0); pw.addOpt(512, 0, 0, opts); pw.commit(); auto dq = turnIntoResponse(ids, query); BOOST_CHECK_EQUAL(getEDNSZ(dq), 0); BOOST_CHECK_EQUAL(getEDNSUDPPayloadSizeAndZ(reinterpret_cast(dq.getData().data()), dq.getData().size(), &udpPayloadSize, &z), true); BOOST_CHECK_EQUAL(z, 0); BOOST_CHECK_EQUAL(udpPayloadSize, g_PayloadSizeSelfGenAnswers); } { /* valid EDNS, options, DO set */ PacketBuffer query; GenericDNSPacketWriter pw(query, ids.qname, ids.qtype, ids.qclass, 0); pw.addOpt(512, 0, EDNS_HEADER_FLAG_DO, opts); pw.commit(); auto dq = turnIntoResponse(ids, query); BOOST_CHECK_EQUAL(getEDNSZ(dq), EDNS_HEADER_FLAG_DO); BOOST_CHECK_EQUAL(getEDNSUDPPayloadSizeAndZ(reinterpret_cast(dq.getData().data()), dq.getData().size(), &udpPayloadSize, &z), true); BOOST_CHECK_EQUAL(z, EDNS_HEADER_FLAG_DO); BOOST_CHECK_EQUAL(udpPayloadSize, g_PayloadSizeSelfGenAnswers); } } BOOST_AUTO_TEST_CASE(test_getEDNSOptionsStart) { const DNSName qname("www.powerdns.com."); const uint16_t qtype = QType::A; const uint16_t qclass = QClass::IN; EDNSSubnetOpts ecsOpts; ecsOpts.source = Netmask(ComboAddress("127.0.0.1"), ECSSourcePrefixV4); const string ecsOptionStr = makeEDNSSubnetOptsString(ecsOpts); GenericDNSPacketWriter::optvect_t opts; opts.emplace_back(EDNSOptionCode::ECS, ecsOptionStr); const ComboAddress lc("127.0.0.1"); const ComboAddress rem("127.0.0.1"); uint16_t optRDPosition; size_t remaining; const size_t optRDExpectedOffset = sizeof(dnsheader) + qname.wirelength() + DNS_TYPE_SIZE + DNS_CLASS_SIZE + /* root */ 1 + DNS_TYPE_SIZE + DNS_CLASS_SIZE + DNS_TTL_SIZE; { /* no EDNS */ PacketBuffer query; GenericDNSPacketWriter pw(query, qname, qtype, qclass, 0); pw.getHeader()->qr = 1; pw.getHeader()->rcode = RCode::NXDomain; pw.commit(); int res = getEDNSOptionsStart(query, qname.wirelength(), &optRDPosition, &remaining); BOOST_CHECK_EQUAL(res, ENOENT); /* truncated packet (should not matter) */ query.resize(query.size() - 1); res = getEDNSOptionsStart(query, qname.wirelength(), &optRDPosition, &remaining); BOOST_CHECK_EQUAL(res, ENOENT); } { /* valid EDNS, no options */ PacketBuffer query; GenericDNSPacketWriter pw(query, qname, qtype, qclass, 0); pw.addOpt(512, 0, 0); pw.commit(); int res = getEDNSOptionsStart(query, qname.wirelength(), &optRDPosition, &remaining); BOOST_CHECK_EQUAL(res, 0); BOOST_CHECK_EQUAL(optRDPosition, optRDExpectedOffset); BOOST_CHECK_EQUAL(remaining, query.size() - optRDExpectedOffset); /* truncated packet */ query.resize(query.size() - 1); res = getEDNSOptionsStart(query, qname.wirelength(), &optRDPosition, &remaining); BOOST_CHECK_EQUAL(res, ENOENT); } { /* valid EDNS, options */ PacketBuffer query; GenericDNSPacketWriter pw(query, qname, qtype, qclass, 0); pw.addOpt(512, 0, 0, opts); pw.commit(); int res = getEDNSOptionsStart(query, qname.wirelength(), &optRDPosition, &remaining); BOOST_CHECK_EQUAL(res, 0); BOOST_CHECK_EQUAL(optRDPosition, optRDExpectedOffset); BOOST_CHECK_EQUAL(remaining, query.size() - optRDExpectedOffset); /* truncated options (should not matter for this test) */ query.resize(query.size() - 1); res = getEDNSOptionsStart(query, qname.wirelength(), &optRDPosition, &remaining); BOOST_CHECK_EQUAL(res, 0); BOOST_CHECK_EQUAL(optRDPosition, optRDExpectedOffset); BOOST_CHECK_EQUAL(remaining, query.size() - optRDExpectedOffset); } } BOOST_AUTO_TEST_CASE(test_isEDNSOptionInOpt) { auto locateEDNSOption = [](const PacketBuffer& query, uint16_t code, size_t* optContentStart, uint16_t* optContentLen) { uint16_t optStart; size_t optLen; bool last = false; int res = locateEDNSOptRR(query, &optStart, &optLen, &last); if (res != 0) { // no EDNS OPT RR return false; } if (optLen < optRecordMinimumSize) { return false; } if (optStart < query.size() && query.at(optStart) != 0) { // OPT RR Name != '.' return false; } return isEDNSOptionInOpt(query, optStart, optLen, code, optContentStart, optContentLen); }; const DNSName qname("www.powerdns.com."); const uint16_t qtype = QType::A; const uint16_t qclass = QClass::IN; EDNSSubnetOpts ecsOpts; ecsOpts.source = Netmask(ComboAddress("127.0.0.1"), ECSSourcePrefixV4); const string ecsOptionStr = makeEDNSSubnetOptsString(ecsOpts); const size_t sizeOfECSContent = ecsOptionStr.size(); const size_t sizeOfECSOption = /* option code */ 2 + /* option length */ 2 + sizeOfECSContent; EDNSCookiesOpt cookiesOpt("deadbeefdeadbeef"); string cookiesOptionStr = cookiesOpt.makeOptString(); const size_t sizeOfCookieOption = /* option code */ 2 + /* option length */ 2 + cookiesOpt.size(); /* GenericDNSPacketWriter::optvect_t opts; opts.emplace_back(EDNSOptionCode::COOKIE, cookiesOptionStr); opts.emplace_back(EDNSOptionCode::ECS, ecsOptionStr); opts.emplace_back(EDNSOptionCode::COOKIE, cookiesOptionStr); */ const ComboAddress lc("127.0.0.1"); const ComboAddress rem("127.0.0.1"); size_t optContentStart{std::numeric_limits::max()}; uint16_t optContentLen{0}; const size_t optRDExpectedOffset = sizeof(dnsheader) + qname.wirelength() + DNS_TYPE_SIZE + DNS_CLASS_SIZE + /* root */ 1 + DNS_TYPE_SIZE + DNS_CLASS_SIZE + DNS_TTL_SIZE; { /* no EDNS */ PacketBuffer query; GenericDNSPacketWriter pw(query, qname, qtype, qclass, 0); pw.getHeader()->qr = 1; pw.getHeader()->rcode = RCode::NXDomain; pw.commit(); bool found = locateEDNSOption(query, EDNSOptionCode::ECS, &optContentStart, &optContentLen); BOOST_CHECK_EQUAL(found, false); /* truncated packet (should not matter here) */ query.resize(query.size() - 1); found = locateEDNSOption(query, EDNSOptionCode::ECS, &optContentStart, &optContentLen); BOOST_CHECK_EQUAL(found, false); } { /* valid EDNS, no options */ PacketBuffer query; GenericDNSPacketWriter pw(query, qname, qtype, qclass, 0); pw.addOpt(512, 0, 0); pw.commit(); bool found = locateEDNSOption(query, EDNSOptionCode::ECS, &optContentStart, &optContentLen); BOOST_CHECK_EQUAL(found, false); /* truncated packet */ query.resize(query.size() - 1); BOOST_CHECK_THROW(locateEDNSOption(query, EDNSOptionCode::ECS, &optContentStart, &optContentLen), std::out_of_range); } { /* valid EDNS, two cookie options but no ECS */ PacketBuffer query; GenericDNSPacketWriter pw(query, qname, qtype, qclass, 0); GenericDNSPacketWriter::optvect_t opts; opts.emplace_back(EDNSOptionCode::COOKIE, cookiesOptionStr); opts.emplace_back(EDNSOptionCode::COOKIE, cookiesOptionStr); pw.addOpt(512, 0, 0, opts); pw.commit(); bool found = locateEDNSOption(query, EDNSOptionCode::ECS, &optContentStart, &optContentLen); BOOST_CHECK_EQUAL(found, false); /* truncated packet */ query.resize(query.size() - 1); BOOST_CHECK_THROW(locateEDNSOption(query, EDNSOptionCode::ECS, &optContentStart, &optContentLen), std::range_error); } { /* valid EDNS, two ECS */ PacketBuffer query; GenericDNSPacketWriter pw(query, qname, qtype, qclass, 0); GenericDNSPacketWriter::optvect_t opts; opts.emplace_back(EDNSOptionCode::ECS, ecsOptionStr); opts.emplace_back(EDNSOptionCode::ECS, ecsOptionStr); pw.addOpt(512, 0, 0, opts); pw.commit(); bool found = locateEDNSOption(query, EDNSOptionCode::ECS, &optContentStart, &optContentLen); BOOST_CHECK_EQUAL(found, true); if (found == true) { BOOST_CHECK_EQUAL(optContentStart, optRDExpectedOffset + sizeof(uint16_t) /* RD len */ + /* option code */ 2 + /* option length */ 2); BOOST_CHECK_EQUAL(optContentLen, sizeOfECSContent); } /* truncated packet */ query.resize(query.size() - 1); BOOST_CHECK_THROW(locateEDNSOption(query, EDNSOptionCode::ECS, &optContentStart, &optContentLen), std::range_error); } { /* valid EDNS, one ECS between two cookies */ PacketBuffer query; GenericDNSPacketWriter pw(query, qname, qtype, qclass, 0); GenericDNSPacketWriter::optvect_t opts; opts.emplace_back(EDNSOptionCode::COOKIE, cookiesOptionStr); opts.emplace_back(EDNSOptionCode::ECS, ecsOptionStr); opts.emplace_back(EDNSOptionCode::COOKIE, cookiesOptionStr); pw.addOpt(512, 0, 0, opts); pw.commit(); bool found = locateEDNSOption(query, EDNSOptionCode::ECS, &optContentStart, &optContentLen); BOOST_CHECK_EQUAL(found, true); if (found == true) { BOOST_CHECK_EQUAL(optContentStart, optRDExpectedOffset + sizeof(uint16_t) /* RD len */ + sizeOfCookieOption + /* option code */ 2 + /* option length */ 2); BOOST_CHECK_EQUAL(optContentLen, sizeOfECSContent); } /* truncated packet */ query.resize(query.size() - 1); BOOST_CHECK_THROW(locateEDNSOption(query, EDNSOptionCode::ECS, &optContentStart, &optContentLen), std::range_error); } { /* valid EDNS, one 65002 after an ECS */ PacketBuffer query; GenericDNSPacketWriter pw(query, qname, qtype, qclass, 0); GenericDNSPacketWriter::optvect_t opts; opts.emplace_back(EDNSOptionCode::ECS, ecsOptionStr); opts.emplace_back(65535, cookiesOptionStr); pw.addOpt(512, 0, 0, opts); pw.commit(); bool found = locateEDNSOption(query, 65535, &optContentStart, &optContentLen); BOOST_CHECK_EQUAL(found, true); if (found == true) { BOOST_CHECK_EQUAL(optContentStart, optRDExpectedOffset + sizeof(uint16_t) /* RD len */ + sizeOfECSOption + /* option code */ 2 + /* option length */ 2); BOOST_CHECK_EQUAL(optContentLen, cookiesOptionStr.size()); } /* truncated packet */ query.resize(query.size() - 1); BOOST_CHECK_THROW(locateEDNSOption(query, 65002, &optContentStart, &optContentLen), std::range_error); } } BOOST_AUTO_TEST_CASE(test_setNegativeAndAdditionalSOA) { InternalQueryState ids; ids.origRemote = ComboAddress("192.0.2.1"); ids.protocol = dnsdist::Protocol::DoUDP; ComboAddress remote; DNSName name("www.powerdns.com."); PacketBuffer query; PacketBuffer queryWithEDNS; GenericDNSPacketWriter pw(query, name, QType::A, QClass::IN, 0); pw.getHeader()->rd = 1; GenericDNSPacketWriter pwEDNS(queryWithEDNS, name, QType::A, QClass::IN, 0); pwEDNS.getHeader()->rd = 1; pwEDNS.addOpt(1232, 0, 0); pwEDNS.commit(); /* test NXD */ { /* no incoming EDNS */ auto packet = query; ids.qname = DNSName(reinterpret_cast(packet.data()), packet.size(), sizeof(dnsheader), false, &ids.qtype, nullptr); DNSQuestion dq(ids, packet); BOOST_CHECK(setNegativeAndAdditionalSOA(dq, true, DNSName("zone."), 42, DNSName("mname."), DNSName("rname."), 1, 2, 3, 4 , 5, false)); BOOST_CHECK(packet.size() > query.size()); MOADNSParser mdp(true, reinterpret_cast(packet.data()), packet.size()); BOOST_CHECK_EQUAL(mdp.d_qname.toString(), "www.powerdns.com."); BOOST_CHECK_EQUAL(mdp.d_header.rcode, RCode::NXDomain); BOOST_CHECK_EQUAL(mdp.d_header.qdcount, 1U); BOOST_CHECK_EQUAL(mdp.d_header.ancount, 0U); BOOST_CHECK_EQUAL(mdp.d_header.nscount, 0U); BOOST_CHECK_EQUAL(mdp.d_header.arcount, 1U); BOOST_REQUIRE_EQUAL(mdp.d_answers.size(), 1U); BOOST_CHECK_EQUAL(mdp.d_answers.at(0).first.d_type, static_cast(QType::SOA)); BOOST_CHECK_EQUAL(mdp.d_answers.at(0).first.d_class, QClass::IN); BOOST_CHECK_EQUAL(mdp.d_answers.at(0).first.d_name, DNSName("zone.")); } { /* now with incoming EDNS */ auto packet = queryWithEDNS; ids.qname = DNSName(reinterpret_cast(packet.data()), packet.size(), sizeof(dnsheader), false, &ids.qtype, nullptr); DNSQuestion dq(ids, packet); BOOST_CHECK(setNegativeAndAdditionalSOA(dq, true, DNSName("zone."), 42, DNSName("mname."), DNSName("rname."), 1, 2, 3, 4 , 5, false)); BOOST_CHECK(packet.size() > queryWithEDNS.size()); MOADNSParser mdp(true, reinterpret_cast(packet.data()), packet.size()); BOOST_CHECK_EQUAL(mdp.d_qname.toString(), "www.powerdns.com."); BOOST_CHECK_EQUAL(mdp.d_header.rcode, RCode::NXDomain); BOOST_CHECK_EQUAL(mdp.d_header.qdcount, 1U); BOOST_CHECK_EQUAL(mdp.d_header.ancount, 0U); BOOST_CHECK_EQUAL(mdp.d_header.nscount, 0U); BOOST_CHECK_EQUAL(mdp.d_header.arcount, 2U); BOOST_REQUIRE_EQUAL(mdp.d_answers.size(), 2U); BOOST_CHECK_EQUAL(mdp.d_answers.at(0).first.d_type, static_cast(QType::SOA)); BOOST_CHECK_EQUAL(mdp.d_answers.at(0).first.d_class, QClass::IN); BOOST_CHECK_EQUAL(mdp.d_answers.at(0).first.d_name, DNSName("zone.")); BOOST_CHECK_EQUAL(mdp.d_answers.at(1).first.d_type, static_cast(QType::OPT)); BOOST_CHECK_EQUAL(mdp.d_answers.at(1).first.d_name, g_rootdnsname); } /* test No Data */ { /* no incoming EDNS */ auto packet = query; ids.qname = DNSName(reinterpret_cast(packet.data()), packet.size(), sizeof(dnsheader), false, &ids.qtype, nullptr); DNSQuestion dq(ids, packet); BOOST_CHECK(setNegativeAndAdditionalSOA(dq, false, DNSName("zone."), 42, DNSName("mname."), DNSName("rname."), 1, 2, 3, 4 , 5, false)); BOOST_CHECK(packet.size() > query.size()); MOADNSParser mdp(true, reinterpret_cast(packet.data()), packet.size()); BOOST_CHECK_EQUAL(mdp.d_qname.toString(), "www.powerdns.com."); BOOST_CHECK_EQUAL(mdp.d_header.rcode, RCode::NoError); BOOST_CHECK_EQUAL(mdp.d_header.qdcount, 1U); BOOST_CHECK_EQUAL(mdp.d_header.ancount, 0U); BOOST_CHECK_EQUAL(mdp.d_header.nscount, 0U); BOOST_CHECK_EQUAL(mdp.d_header.arcount, 1U); BOOST_REQUIRE_EQUAL(mdp.d_answers.size(), 1U); BOOST_CHECK_EQUAL(mdp.d_answers.at(0).first.d_type, static_cast(QType::SOA)); BOOST_CHECK_EQUAL(mdp.d_answers.at(0).first.d_class, QClass::IN); BOOST_CHECK_EQUAL(mdp.d_answers.at(0).first.d_name, DNSName("zone.")); } { /* now with incoming EDNS */ auto packet = queryWithEDNS; ids.qname = DNSName(reinterpret_cast(packet.data()), packet.size(), sizeof(dnsheader), false, &ids.qtype, nullptr); DNSQuestion dq(ids, packet); BOOST_CHECK(setNegativeAndAdditionalSOA(dq, false, DNSName("zone."), 42, DNSName("mname."), DNSName("rname."), 1, 2, 3, 4 , 5, false)); BOOST_CHECK(packet.size() > queryWithEDNS.size()); MOADNSParser mdp(true, reinterpret_cast(packet.data()), packet.size()); BOOST_CHECK_EQUAL(mdp.d_qname.toString(), "www.powerdns.com."); BOOST_CHECK_EQUAL(mdp.d_header.rcode, RCode::NoError); BOOST_CHECK_EQUAL(mdp.d_header.qdcount, 1U); BOOST_CHECK_EQUAL(mdp.d_header.ancount, 0U); BOOST_CHECK_EQUAL(mdp.d_header.nscount, 0U); BOOST_CHECK_EQUAL(mdp.d_header.arcount, 2U); BOOST_REQUIRE_EQUAL(mdp.d_answers.size(), 2U); BOOST_CHECK_EQUAL(mdp.d_answers.at(0).first.d_type, static_cast(QType::SOA)); BOOST_CHECK_EQUAL(mdp.d_answers.at(0).first.d_class, QClass::IN); BOOST_CHECK_EQUAL(mdp.d_answers.at(0).first.d_name, DNSName("zone.")); BOOST_CHECK_EQUAL(mdp.d_answers.at(1).first.d_type, static_cast(QType::OPT)); BOOST_CHECK_EQUAL(mdp.d_answers.at(1).first.d_name, g_rootdnsname); } /* SOA in the authority section*/ /* test NXD */ { /* no incoming EDNS */ auto packet = query; ids.qname = DNSName(reinterpret_cast(packet.data()), packet.size(), sizeof(dnsheader), false, &ids.qtype, nullptr); DNSQuestion dq(ids, packet); BOOST_CHECK(setNegativeAndAdditionalSOA(dq, true, DNSName("zone."), 42, DNSName("mname."), DNSName("rname."), 1, 2, 3, 4 , 5, true)); BOOST_CHECK(packet.size() > query.size()); MOADNSParser mdp(true, reinterpret_cast(packet.data()), packet.size()); BOOST_CHECK_EQUAL(mdp.d_qname.toString(), "www.powerdns.com."); BOOST_CHECK_EQUAL(mdp.d_header.rcode, RCode::NXDomain); BOOST_CHECK_EQUAL(mdp.d_header.qdcount, 1U); BOOST_CHECK_EQUAL(mdp.d_header.ancount, 0U); BOOST_CHECK_EQUAL(mdp.d_header.nscount, 1U); BOOST_CHECK_EQUAL(mdp.d_header.arcount, 0U); BOOST_REQUIRE_EQUAL(mdp.d_answers.size(), 1U); BOOST_CHECK_EQUAL(mdp.d_answers.at(0).first.d_type, static_cast(QType::SOA)); BOOST_CHECK_EQUAL(mdp.d_answers.at(0).first.d_class, QClass::IN); BOOST_CHECK_EQUAL(mdp.d_answers.at(0).first.d_name, DNSName("zone.")); } { /* now with incoming EDNS */ auto packet = queryWithEDNS; ids.qname = DNSName(reinterpret_cast(packet.data()), packet.size(), sizeof(dnsheader), false, &ids.qtype, nullptr); DNSQuestion dq(ids, packet); BOOST_CHECK(setNegativeAndAdditionalSOA(dq, true, DNSName("zone."), 42, DNSName("mname."), DNSName("rname."), 1, 2, 3, 4 , 5, true)); BOOST_CHECK(packet.size() > queryWithEDNS.size()); MOADNSParser mdp(true, reinterpret_cast(packet.data()), packet.size()); BOOST_CHECK_EQUAL(mdp.d_qname.toString(), "www.powerdns.com."); BOOST_CHECK_EQUAL(mdp.d_header.rcode, RCode::NXDomain); BOOST_CHECK_EQUAL(mdp.d_header.qdcount, 1U); BOOST_CHECK_EQUAL(mdp.d_header.ancount, 0U); BOOST_CHECK_EQUAL(mdp.d_header.nscount, 1U); BOOST_CHECK_EQUAL(mdp.d_header.arcount, 1U); BOOST_REQUIRE_EQUAL(mdp.d_answers.size(), 2U); BOOST_CHECK_EQUAL(mdp.d_answers.at(0).first.d_type, static_cast(QType::SOA)); BOOST_CHECK_EQUAL(mdp.d_answers.at(0).first.d_class, QClass::IN); BOOST_CHECK_EQUAL(mdp.d_answers.at(0).first.d_name, DNSName("zone.")); BOOST_CHECK_EQUAL(mdp.d_answers.at(1).first.d_type, static_cast(QType::OPT)); BOOST_CHECK_EQUAL(mdp.d_answers.at(1).first.d_name, g_rootdnsname); } /* test No Data */ { /* no incoming EDNS */ auto packet = query; ids.qname = DNSName(reinterpret_cast(packet.data()), packet.size(), sizeof(dnsheader), false, &ids.qtype, nullptr); DNSQuestion dq(ids, packet); BOOST_CHECK(setNegativeAndAdditionalSOA(dq, false, DNSName("zone."), 42, DNSName("mname."), DNSName("rname."), 1, 2, 3, 4 , 5, true)); BOOST_CHECK(packet.size() > query.size()); MOADNSParser mdp(true, reinterpret_cast(packet.data()), packet.size()); BOOST_CHECK_EQUAL(mdp.d_qname.toString(), "www.powerdns.com."); BOOST_CHECK_EQUAL(mdp.d_header.rcode, RCode::NoError); BOOST_CHECK_EQUAL(mdp.d_header.qdcount, 1U); BOOST_CHECK_EQUAL(mdp.d_header.ancount, 0U); BOOST_CHECK_EQUAL(mdp.d_header.nscount, 1U); BOOST_CHECK_EQUAL(mdp.d_header.arcount, 0U); BOOST_REQUIRE_EQUAL(mdp.d_answers.size(), 1U); BOOST_CHECK_EQUAL(mdp.d_answers.at(0).first.d_type, static_cast(QType::SOA)); BOOST_CHECK_EQUAL(mdp.d_answers.at(0).first.d_class, QClass::IN); BOOST_CHECK_EQUAL(mdp.d_answers.at(0).first.d_name, DNSName("zone.")); } { /* now with incoming EDNS */ auto packet = queryWithEDNS; ids.qname = DNSName(reinterpret_cast(packet.data()), packet.size(), sizeof(dnsheader), false, &ids.qtype, nullptr); DNSQuestion dq(ids, packet); BOOST_CHECK(setNegativeAndAdditionalSOA(dq, false, DNSName("zone."), 42, DNSName("mname."), DNSName("rname."), 1, 2, 3, 4 , 5, true)); BOOST_CHECK(packet.size() > queryWithEDNS.size()); MOADNSParser mdp(true, reinterpret_cast(packet.data()), packet.size()); BOOST_CHECK_EQUAL(mdp.d_qname.toString(), "www.powerdns.com."); BOOST_CHECK_EQUAL(mdp.d_header.rcode, RCode::NoError); BOOST_CHECK_EQUAL(mdp.d_header.qdcount, 1U); BOOST_CHECK_EQUAL(mdp.d_header.ancount, 0U); BOOST_CHECK_EQUAL(mdp.d_header.nscount, 1U); BOOST_CHECK_EQUAL(mdp.d_header.arcount, 1U); BOOST_REQUIRE_EQUAL(mdp.d_answers.size(), 2U); BOOST_CHECK_EQUAL(mdp.d_answers.at(0).first.d_type, static_cast(QType::SOA)); BOOST_CHECK_EQUAL(mdp.d_answers.at(0).first.d_class, QClass::IN); BOOST_CHECK_EQUAL(mdp.d_answers.at(0).first.d_name, DNSName("zone.")); BOOST_CHECK_EQUAL(mdp.d_answers.at(1).first.d_type, static_cast(QType::OPT)); BOOST_CHECK_EQUAL(mdp.d_answers.at(1).first.d_name, g_rootdnsname); } } BOOST_AUTO_TEST_CASE(getEDNSOptionsWithoutEDNS) { InternalQueryState ids; ids.origRemote = ComboAddress("192.168.1.25"); ids.protocol = dnsdist::Protocol::DoUDP; const DNSName name("www.powerdns.com."); const ComboAddress v4("192.0.2.1"); { /* no EDNS and no other additional record */ PacketBuffer query; GenericDNSPacketWriter pw(query, name, QType::A, QClass::IN, 0); pw.getHeader()->rd = 1; pw.commit(); /* large enough packet */ auto packet = query; unsigned int consumed = 0; uint16_t qtype; uint16_t qclass; DNSName qname(reinterpret_cast(packet.data()), packet.size(), sizeof(dnsheader), false, &qtype, &qclass, &consumed); DNSQuestion dq(ids, packet); BOOST_CHECK(!parseEDNSOptions(dq)); } { /* nothing in additional (so no EDNS) but a record in ANSWER */ PacketBuffer query; GenericDNSPacketWriter pw(query, name, QType::A, QClass::IN, 0); pw.getHeader()->rd = 1; pw.startRecord(name, QType::A, 60, QClass::IN, DNSResourceRecord::ANSWER); pw.xfrIP(v4.sin4.sin_addr.s_addr); pw.commit(); /* large enough packet */ auto packet = query; unsigned int consumed = 0; uint16_t qtype; uint16_t qclass; DNSName qname(reinterpret_cast(packet.data()), packet.size(), sizeof(dnsheader), false, &qtype, &qclass, &consumed); DNSQuestion dq(ids, packet); BOOST_CHECK(!parseEDNSOptions(dq)); } { /* nothing in additional (so no EDNS) but a record in AUTHORITY */ PacketBuffer query; GenericDNSPacketWriter pw(query, name, QType::A, QClass::IN, 0); pw.getHeader()->rd = 1; pw.startRecord(name, QType::A, 60, QClass::IN, DNSResourceRecord::AUTHORITY); pw.xfrIP(v4.sin4.sin_addr.s_addr); pw.commit(); /* large enough packet */ auto packet = query; unsigned int consumed = 0; uint16_t qtype; uint16_t qclass; DNSName qname(reinterpret_cast(packet.data()), packet.size(), sizeof(dnsheader), false, &qtype, &qclass, &consumed); DNSQuestion dq(ids, packet); BOOST_CHECK(!parseEDNSOptions(dq)); } } BOOST_AUTO_TEST_CASE(test_setEDNSOption) { InternalQueryState ids; ids.origRemote = ComboAddress("192.0.2.1:42"); ids.origDest = ComboAddress("127.0.0.1:53"); ids.protocol = dnsdist::Protocol::DoUDP; ids.qname = DNSName("powerdns.com."); ids.qtype = QType::A; ids.qclass = QClass::IN; ids.queryRealTime.start(); struct timespec expiredTime; /* the internal QPS limiter does not use the real time */ gettime(&expiredTime); PacketBuffer packet; GenericDNSPacketWriter pw(packet, ids.qname, ids.qtype, ids.qclass, 0); pw.addOpt(4096, 0, EDNS_HEADER_FLAG_DO); pw.commit(); DNSQuestion dq(ids, packet); std::string result; EDNSCookiesOpt cookiesOpt("deadbeefdeadbeef"); string cookiesOptionStr = cookiesOpt.makeOptString(); BOOST_REQUIRE(setEDNSOption(dq, EDNSOptionCode::COOKIE, cookiesOptionStr)); const auto& data = dq.getData(); MOADNSParser mdp(true, reinterpret_cast(data.data()), data.size()); BOOST_CHECK_EQUAL(mdp.d_qname.toString(), ids.qname.toString()); BOOST_CHECK_EQUAL(mdp.d_header.qdcount, 1U); BOOST_CHECK_EQUAL(mdp.d_header.ancount, 0U); BOOST_CHECK_EQUAL(mdp.d_header.nscount, 0U); BOOST_CHECK_EQUAL(mdp.d_header.arcount, 1U); BOOST_CHECK_EQUAL(mdp.d_answers.at(0).first.d_type, static_cast(QType::OPT)); BOOST_CHECK_EQUAL(mdp.d_answers.at(0).first.d_name, g_rootdnsname); EDNS0Record edns0; BOOST_REQUIRE(getEDNS0Record(dq.getData(), edns0)); BOOST_CHECK_EQUAL(edns0.version, 0U); BOOST_CHECK_EQUAL(edns0.extRCode, 0U); BOOST_CHECK_EQUAL(edns0.extFlags, EDNS_HEADER_FLAG_DO); BOOST_REQUIRE(parseEDNSOptions(dq)); BOOST_REQUIRE(dq.ednsOptions != nullptr); BOOST_CHECK_EQUAL(dq.ednsOptions->size(), 1U); const auto& ecsOption = dq.ednsOptions->find(EDNSOptionCode::COOKIE); BOOST_REQUIRE(ecsOption != dq.ednsOptions->cend()); BOOST_REQUIRE_EQUAL(ecsOption->second.values.size(), 1U); BOOST_CHECK_EQUAL(cookiesOptionStr, std::string(ecsOption->second.values.at(0).content, ecsOption->second.values.at(0).size)); } BOOST_AUTO_TEST_SUITE_END();