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|
// Copyright (C) 2013-2024 Internet Systems Consortium, Inc. ("ISC")
//
// This Source Code Form is subject to the terms of the Mozilla Public
// License, v. 2.0. If a copy of the MPL was not distributed with this
// file, You can obtain one at http://mozilla.org/MPL/2.0/.
#include <config.h>
#include <asiolink/asio_wrapper.h>
#include <asiolink/udp_endpoint.h>
#include <d2srv/d2_cfg_mgr.h>
#include <d2srv/testutils/nc_test_utils.h>
#include <dns/messagerenderer.h>
#include <dns/opcode.h>
#include <util/encode/encode.h>
#include <gtest/gtest.h>
using namespace std;
using namespace isc;
using namespace isc::d2;
namespace ph = std::placeholders;
namespace isc {
namespace d2 {
const char* valid_d2_config = "{ "
"\"ip-address\" : \"127.0.0.1\" , "
"\"port\" : 5031, "
"\"tsig-keys\": ["
"{ \"name\": \"d2_key.example.com\" , "
" \"algorithm\": \"HMAC-MD5\" ,"
" \"secret\": \"LSWXnfkKZjdPJI5QxlpnfQ==\" "
"} ],"
"\"forward-ddns\" : {"
"\"ddns-domains\": [ "
"{ \"name\": \"example.com.\" , "
" \"key-name\": \"d2_key.example.com\" , "
" \"dns-servers\" : [ "
" { \"ip-address\": \"127.0.0.101\" } "
"] } ] }, "
"\"reverse-ddns\" : {"
"\"ddns-domains\": [ "
"{ \"name\": \" 0.168.192.in.addr.arpa.\" , "
" \"key-name\": \"d2_key.example.com\" , "
" \"dns-servers\" : [ "
" { \"ip-address\": \"127.0.0.101\" , "
" \"port\": 100 } ] } "
"] } }";
const char* TEST_DNS_SERVER_IP = "127.0.0.1";
size_t TEST_DNS_SERVER_PORT = 5301;
//const bool HAS_RDATA = true;
const bool NO_RDATA = false;
//*************************** FauxServer class ***********************
FauxServer::FauxServer(asiolink::IOService& io_service,
asiolink::IOAddress& address, size_t port)
:io_service_(io_service), address_(address), port_(port),
server_socket_(), receive_pending_(false), perpetual_receive_(true),
tsig_key_() {
server_socket_.reset(new boost::asio::ip::udp::socket(io_service_.getInternalIOService(),
boost::asio::ip::udp::v4()));
server_socket_->set_option(boost::asio::socket_base::reuse_address(true));
isc::asiolink::UDPEndpoint endpoint(address_, port_);
server_socket_->bind(endpoint.getASIOEndpoint());
}
FauxServer::FauxServer(asiolink::IOService& io_service,
DnsServerInfo& server)
:io_service_(io_service), address_(server.getIpAddress()),
port_(server.getPort()), server_socket_(), receive_pending_(false),
perpetual_receive_(true), tsig_key_() {
server_socket_.reset(new boost::asio::ip::udp::socket(io_service_.getInternalIOService(),
boost::asio::ip::udp::v4()));
server_socket_->set_option(boost::asio::socket_base::reuse_address(true));
isc::asiolink::UDPEndpoint endpoint(address_, port_);
server_socket_->bind(endpoint.getASIOEndpoint());
}
FauxServer::~FauxServer() {
}
void
FauxServer::receive (const ResponseMode& response_mode,
const dns::Rcode& response_rcode) {
if (receive_pending_) {
return;
}
receive_pending_ = true;
server_socket_->async_receive_from(boost::asio::buffer(receive_buffer_,
sizeof(receive_buffer_)),
remote_,
std::bind(&FauxServer::requestHandler,
this, ph::_1, ph::_2,
response_mode,
response_rcode));
}
void
FauxServer::requestHandler(const boost::system::error_code& error,
std::size_t bytes_recvd,
const ResponseMode& response_mode,
const dns::Rcode& response_rcode) {
receive_pending_ = false;
// If we encountered an error or received no data then fail.
// We expect the client to send good requests.
if (error.value() != 0 || bytes_recvd < 1) {
ADD_FAILURE() << "FauxServer receive failed: " << error.message();
return;
}
// If TSIG key isn't NULL, create a context and use to verify the
// request and sign the response.
dns::TSIGContextPtr context;
if (tsig_key_) {
context.reset(new dns::TSIGContext(*tsig_key_));
}
// We have a successfully received data. We need to turn it into
// a request in order to build a proper response.
// Note D2UpdateMessage is geared towards making requests and
// reading responses. This is the opposite perspective so we have
// to a bit of roll-your-own here.
dns::Message request(dns::Message::PARSE);
util::InputBuffer request_buf(receive_buffer_, bytes_recvd);
try {
request.fromWire(request_buf);
// If context is not NULL, then we need to verify the message.
if (context) {
dns::TSIGError error = context->verify(request.getTSIGRecord(),
receive_buffer_,
bytes_recvd);
if (error != dns::TSIGError::NOERROR()) {
isc_throw(TSIGVerifyError, "TSIG verification failed: "
<< error.toText());
}
}
} catch (const std::exception& ex) {
// If the request cannot be parsed, then fail the test.
// We expect the client to send good requests.
ADD_FAILURE() << "FauxServer request is corrupt:" << ex.what();
return;
}
// The request parsed OK, so let's build a response.
// We must use the QID we received in the response or IOFetch will
// toss the response out, resulting in eventual timeout.
// We fill in the zone with data we know is from the "server".
dns::Message response(dns::Message::RENDER);
response.setQid(request.getQid());
dns::Question question(dns::Name("response.example.com"),
dns::RRClass::ANY(), dns::RRType::SOA());
response.addQuestion(question);
response.setOpcode(dns::Opcode(dns::Opcode::UPDATE_CODE));
response.setHeaderFlag(dns::Message::HEADERFLAG_QR, true);
// Set the response Rcode to value passed in, default is NOERROR.
response.setRcode(response_rcode);
// Render the response to a buffer.
dns::MessageRenderer renderer;
util::OutputBuffer response_buf(TEST_MSG_MAX);
renderer.setBuffer(&response_buf);
if (response_mode == INVALID_TSIG) {
// Create a different key to sign the response.
std::string secret ("key that doesn't match");
D2TsigKeyPtr key;
ASSERT_NO_THROW(key.reset(new
D2TsigKey(dns::Name("badkey"),
dns::TSIGKey::HMACMD5_NAME(),
secret.c_str(), secret.size())));
context.reset(new dns::TSIGContext(*key));
}
response.toWire(renderer, context.get());
// If mode is to ship garbage, then stomp on part of the rendered
// message.
if (response_mode == CORRUPT_RESP) {
response_buf.writeUint16At(0xFFFF, 2);
}
// Ship the response via synchronous send.
try {
int cnt = server_socket_->send_to(boost::asio::
buffer(response_buf.getData(),
response_buf.getLength()),
remote_);
// Make sure we sent what we expect to send.
if (cnt != response_buf.getLength()) {
ADD_FAILURE() << "FauxServer sent: " << cnt << " expected: "
<< response_buf.getLength();
}
} catch (const std::exception& ex) {
ADD_FAILURE() << "FauxServer send failed: " << ex.what();
}
if (perpetual_receive_) {
// Schedule the next receive
receive (response_mode, response_rcode);
}
}
//********************** TimedIO class ***********************
TimedIO::TimedIO()
: io_service_(new isc::asiolink::IOService()),
timer_(*io_service_), run_time_(0) {
}
TimedIO::~TimedIO() {
}
int
TimedIO::runTimedIO(int run_time) {
run_time_ = run_time;
int cnt = io_service_->poll();
if (cnt == 0) {
timer_.setup(std::bind(&TimedIO::timesUp, this), run_time_);
cnt = io_service_->runOne();
timer_.cancel();
}
return (cnt);
}
void
TimedIO::timesUp() {
io_service_->stop();
FAIL() << "Test Time: " << run_time_ << " expired";
}
//********************** TransactionTest class ***********************
const unsigned int TransactionTest::FORWARD_CHG = 0x01;
const unsigned int TransactionTest::REVERSE_CHG = 0x02;
const unsigned int TransactionTest::FWD_AND_REV_CHG = REVERSE_CHG | FORWARD_CHG;
TransactionTest::TransactionTest() : ncr_(), cfg_mgr_(new D2CfgMgr()) {
}
TransactionTest::~TransactionTest() {
}
void
TransactionTest::setupForIPv4Transaction(dhcp_ddns::NameChangeType chg_type,
int change_mask,
const TSIGKeyInfoPtr& tsig_key_info) {
const char* msg_str =
"{"
" \"change-type\" : 0 , "
" \"forward-change\" : true , "
" \"reverse-change\" : true , "
" \"fqdn\" : \"my.forward.example.com.\" , "
" \"ip-address\" : \"192.168.2.1\" , "
" \"dhcid\" : \"0102030405060708\" , "
" \"lease-expires-on\" : \"20130121132405\" , "
" \"lease-length\" : 1300, "
" \"conflict-resolution-mode\" : \"check-with-dhcid\""
"}";
// Create NameChangeRequest from JSON string.
ncr_ = dhcp_ddns::NameChangeRequest::fromJSON(msg_str);
// Set the change type.
ncr_->setChangeType(chg_type);
// If the change mask does not include a forward change clear the
// forward domain; otherwise create the domain and its servers.
if (!(change_mask & FORWARD_CHG)) {
ncr_->setForwardChange(false);
forward_domain_.reset();
} else {
// Create the forward domain and then its servers.
forward_domain_ = makeDomain("example.com.", tsig_key_info);
addDomainServer(forward_domain_, "forward.example.com",
"127.0.0.1", 5301, tsig_key_info);
addDomainServer(forward_domain_, "forward2.example.com",
"127.0.0.1", 5302, tsig_key_info);
}
// If the change mask does not include a reverse change clear the
// reverse domain; otherwise create the domain and its servers.
if (!(change_mask & REVERSE_CHG)) {
ncr_->setReverseChange(false);
reverse_domain_.reset();
} else {
// Create the reverse domain and its server.
reverse_domain_ = makeDomain("2.168.192.in.addr.arpa.", tsig_key_info);
addDomainServer(reverse_domain_, "reverse.example.com",
"127.0.0.1", 5301, tsig_key_info);
addDomainServer(reverse_domain_, "reverse2.example.com",
"127.0.0.1", 5302, tsig_key_info);
}
}
void
TransactionTest::setupForIPv4Transaction(dhcp_ddns::NameChangeType chg_type,
int change_mask,
const std::string& key_name) {
setupForIPv4Transaction(chg_type, change_mask, makeTSIGKeyInfo(key_name));
}
void
TransactionTest::setupForIPv6Transaction(dhcp_ddns::NameChangeType chg_type,
int change_mask,
const TSIGKeyInfoPtr& tsig_key_info) {
const char* msg_str =
"{"
" \"change-type\" : 0 , "
" \"forward-change\" : true , "
" \"reverse-change\" : true , "
" \"fqdn\" : \"my6.forward.example.com.\" , "
" \"ip-address\" : \"2001:1::100\" , "
" \"dhcid\" : \"0102030405060708\" , "
" \"lease-expires-on\" : \"20130121132405\" , "
" \"lease-length\" : 1300, "
" \"conflict-resolution-mode\" : \"check-with-dhcid\""
"}";
// Create NameChangeRequest from JSON string.
ncr_ = makeNcrFromString(msg_str);
// Set the change type.
ncr_->setChangeType(chg_type);
// If the change mask does not include a forward change clear the
// forward domain; otherwise create the domain and its servers.
if (!(change_mask & FORWARD_CHG)) {
ncr_->setForwardChange(false);
forward_domain_.reset();
} else {
// Create the forward domain and then its servers.
forward_domain_ = makeDomain("example.com.", tsig_key_info);
addDomainServer(forward_domain_, "fwd6-server.example.com",
"::1", 5301, tsig_key_info);
addDomainServer(forward_domain_, "fwd6-server2.example.com",
"::1", 5302, tsig_key_info);
}
// If the change mask does not include a reverse change clear the
// reverse domain; otherwise create the domain and its servers.
if (!(change_mask & REVERSE_CHG)) {
ncr_->setReverseChange(false);
reverse_domain_.reset();
} else {
// Create the reverse domain and its server.
reverse_domain_ = makeDomain("1.2001.ip6.arpa.", tsig_key_info);
addDomainServer(reverse_domain_, "rev6-server.example.com",
"::1", 5301, tsig_key_info);
addDomainServer(reverse_domain_, "rev6-server2.example.com",
"::1", 5302, tsig_key_info);
}
}
void
TransactionTest::setupForIPv6Transaction(dhcp_ddns::NameChangeType chg_type,
int change_mask,
const std::string& key_name) {
setupForIPv6Transaction(chg_type, change_mask, makeTSIGKeyInfo(key_name));
}
//********************** Functions ****************************
void
checkRRCount(const D2UpdateMessagePtr& request,
D2UpdateMessage::UpdateMsgSection section, int count) {
dns::RRsetIterator rrset_it = request->beginSection(section);
dns::RRsetIterator rrset_end = request->endSection(section);
ASSERT_EQ(count, std::distance(rrset_it, rrset_end));
}
void
checkZone(const D2UpdateMessagePtr& request, const std::string& exp_zone_name) {
// Verify the zone section info.
D2ZonePtr zone = request->getZone();
EXPECT_TRUE(zone);
EXPECT_EQ(exp_zone_name, zone->getName().toText());
EXPECT_EQ(dns::RRClass::IN().getCode(), zone->getClass().getCode());
}
void
checkRR(dns::RRsetPtr rrset, const std::string& exp_name,
const dns::RRClass& exp_class, const dns::RRType& exp_type,
unsigned int exp_ttl, dhcp_ddns::NameChangeRequestPtr ncr,
bool has_rdata) {
// Verify the FQDN/DHCID RR fields.
EXPECT_EQ(exp_name, rrset->getName().toText());
EXPECT_EQ(exp_class.getCode(), rrset->getClass().getCode());
EXPECT_EQ(exp_type.getCode(), rrset->getType().getCode());
EXPECT_EQ(exp_ttl, rrset->getTTL().getValue());
if ((!has_rdata) ||
(exp_type == dns::RRType::ANY() || exp_class == dns::RRClass::ANY())) {
// ANY types do not have RData
ASSERT_EQ(0, rrset->getRdataCount());
return;
}
ASSERT_EQ(1, rrset->getRdataCount());
dns::RdataIteratorPtr rdata_it = rrset->getRdataIterator();
ASSERT_TRUE(rdata_it);
if ((exp_type == dns::RRType::A()) ||
(exp_type == dns::RRType::AAAA())) {
// should have lease rdata
EXPECT_EQ(ncr->getIpAddress(), rdata_it->getCurrent().toText());
} else if (exp_type == dns::RRType::PTR()) {
// should have PTR rdata
EXPECT_EQ(ncr->getFqdn(), rdata_it->getCurrent().toText());
} else if (exp_type == dns::RRType::DHCID()) {
// should have DHCID rdata
const std::vector<uint8_t>& ncr_dhcid = ncr->getDhcid().getBytes();
util::InputBuffer buffer(ncr_dhcid.data(), ncr_dhcid.size());
dns::rdata::in::DHCID rdata_ref(buffer, ncr_dhcid.size());
EXPECT_EQ(0, rdata_ref.compare(rdata_it->getCurrent()));
} else {
// we got a problem
FAIL();
}
}
dns::RRsetPtr
getRRFromSection(const D2UpdateMessagePtr& request,
D2UpdateMessage::UpdateMsgSection section, int index) {
dns::RRsetIterator rrset_it = request->beginSection(section);
dns::RRsetIterator rrset_end = request->endSection(section);
if (std::distance(rrset_it, rrset_end) <= index) {
// Return an empty pointer if index is out of range.
return (dns::RRsetPtr());
}
std::advance(rrset_it, index);
return (*rrset_it);
}
dhcp_ddns::NameChangeRequestPtr
makeNcrFromString(const std::string& ncr_str) {
return (dhcp_ddns::NameChangeRequest::fromJSON(ncr_str));
}
DdnsDomainPtr
makeDomain(const std::string& zone_name, const std::string& key_name) {
DnsServerInfoStoragePtr servers(new DnsServerInfoStorage());
DdnsDomainPtr domain(new DdnsDomain(zone_name, servers, key_name));
return (domain);
}
DdnsDomainPtr
makeDomain(const std::string& zone_name, const TSIGKeyInfoPtr &tsig_key_info) {
DdnsDomainPtr domain;
DnsServerInfoStoragePtr servers(new DnsServerInfoStorage());
std::string key_name;
if (tsig_key_info) {
key_name = tsig_key_info->getName();
}
domain.reset(new DdnsDomain(zone_name, servers, key_name));
return (domain);
}
TSIGKeyInfoPtr
makeTSIGKeyInfo(const std::string& key_name, const std::string& secret,
const std::string& algorithm) {
TSIGKeyInfoPtr key_info;
if (!key_name.empty()) {
if (!secret.empty()) {
key_info.reset(new TSIGKeyInfo(key_name, algorithm, secret));
} else {
// Since secret was left blank, we'll convert key_name into a
// base64 encoded string and use that.
const uint8_t* bytes = reinterpret_cast<const uint8_t*>
(key_name.c_str());
size_t len = key_name.size();
const vector<uint8_t> key_name_v(bytes, bytes + len);
std::string key_name64
= isc::util::encode::encodeBase64(key_name_v);
// Now, make the TSIGKeyInfo with a real base64 secret.
key_info.reset(new TSIGKeyInfo(key_name, algorithm, key_name64));
}
}
return (key_info);
}
void
addDomainServer(DdnsDomainPtr& domain, const std::string& name,
const std::string& ip, const size_t port,
const TSIGKeyInfoPtr &tsig_key_info) {
DnsServerInfoPtr server(new DnsServerInfo(name, asiolink::IOAddress(ip),
port, true, tsig_key_info));
domain->getServers()->push_back(server);
}
// Verifies that the contents of the given transaction's DNS update request
// is correct for adding a forward DNS entry
void
checkAddFwdAddressRequest(NameChangeTransaction& tran) {
const D2UpdateMessagePtr& request = tran.getDnsUpdateRequest();
ASSERT_TRUE(request);
// Safety check.
dhcp_ddns::NameChangeRequestPtr ncr = tran.getNcr();
ASSERT_TRUE(ncr);
std::string exp_zone_name = tran.getForwardDomain()->getName();
std::string exp_fqdn = ncr->getFqdn();
const dns::RRType& exp_ip_rr_type = tran.getAddressRRType();
// Verify the zone section.
checkZone(request, exp_zone_name);
// Verify the PREREQUISITE SECTION
// Should be 1 which tests for FQDN does not exist.
dns::RRsetPtr rrset;
checkRRCount(request, D2UpdateMessage::SECTION_PREREQUISITE, 1);
ASSERT_TRUE(rrset = getRRFromSection(request, D2UpdateMessage::
SECTION_PREREQUISITE, 0));
checkRR(rrset, exp_fqdn, dns::RRClass::NONE(), dns::RRType::ANY(), 0, ncr);
// Verify the UPDATE SECTION
// Should be 2 RRs: 1 to add the FQDN/IP and one to add the DHCID RR
checkRRCount(request, D2UpdateMessage::SECTION_UPDATE, 2);
// Fetch ttl.
uint32_t ttl = ncr->getLeaseLength();
// First, Verify the FQDN/IP add RR.
ASSERT_TRUE(rrset = getRRFromSection(request, D2UpdateMessage::
SECTION_UPDATE, 0));
checkRR(rrset, exp_fqdn, dns::RRClass::IN(), exp_ip_rr_type, ttl, ncr);
// Now, verify the DHCID add RR.
ASSERT_TRUE(rrset = getRRFromSection(request, D2UpdateMessage::
SECTION_UPDATE, 1));
checkRR(rrset, exp_fqdn, dns::RRClass::IN(), dns::RRType::DHCID(),
ttl, ncr);
// Verify there are no RRs in the ADDITIONAL Section.
checkRRCount(request, D2UpdateMessage::SECTION_ADDITIONAL, 0);
// Verify that it will render toWire without throwing.
dns::MessageRenderer renderer;
ASSERT_NO_THROW(request->toWire(renderer));
}
// Verifies that the contents of the given transaction's DNS update request
// is correct for replacing a forward DNS entry
void
checkReplaceFwdAddressRequest(NameChangeTransaction& tran) {
const D2UpdateMessagePtr& request = tran.getDnsUpdateRequest();
ASSERT_TRUE(request);
// Safety check.
dhcp_ddns::NameChangeRequestPtr ncr = tran.getNcr();
ASSERT_TRUE(ncr);
std::string exp_zone_name = tran.getForwardDomain()->getName();
std::string exp_fqdn = ncr->getFqdn();
const dns::RRType& exp_ip_rr_type = tran.getAddressRRType();
// Verify the zone section.
checkZone(request, exp_zone_name);
// Verify the PREREQUISITE SECTION
// Should be 2, 1 which tests for FQDN does exist and the other
// checks for a matching DHCID.
dns::RRsetPtr rrset;
checkRRCount(request, D2UpdateMessage::SECTION_PREREQUISITE, 2);
// Verify the FQDN test RR.
ASSERT_TRUE(rrset = getRRFromSection(request, D2UpdateMessage::
SECTION_PREREQUISITE, 0));
checkRR(rrset, exp_fqdn, dns::RRClass::ANY(), dns::RRType::ANY(), 0, ncr);
// Verify the DHCID test RR.
ASSERT_TRUE(rrset = getRRFromSection(request, D2UpdateMessage::
SECTION_PREREQUISITE, 1));
checkRR(rrset, exp_fqdn, dns::RRClass::IN(), dns::RRType::DHCID(), 0, ncr);
// Verify the UPDATE SECTION
// Should be 2, 1 which deletes the existing FQDN/IP and one that
// adds the new one.
checkRRCount(request, D2UpdateMessage::SECTION_UPDATE, 2);
// Fetch ttl.
uint32_t ttl = ncr->getLeaseLength();
// Verify the FQDN delete RR.
ASSERT_TRUE(rrset = getRRFromSection(request, D2UpdateMessage::
SECTION_UPDATE, 0));
checkRR(rrset, exp_fqdn, dns::RRClass::ANY(), exp_ip_rr_type, 0, ncr);
// Verify the FQDN/IP add RR.
ASSERT_TRUE(rrset = getRRFromSection(request, D2UpdateMessage::
SECTION_UPDATE, 1));
checkRR(rrset, exp_fqdn, dns::RRClass::IN(), exp_ip_rr_type, ttl, ncr);
// Verify there are no RRs in the ADDITIONAL Section.
checkRRCount(request, D2UpdateMessage::SECTION_ADDITIONAL, 0);
// Verify that it will render toWire without throwing.
dns::MessageRenderer renderer;
ASSERT_NO_THROW(request->toWire(renderer));
}
// Verifies that the contents of the given transaction's DNS update request
// is correct for replacing a reverse DNS entry
void
checkReplaceRevPtrsRequest(NameChangeTransaction& tran) {
const D2UpdateMessagePtr& request = tran.getDnsUpdateRequest();
ASSERT_TRUE(request);
// Safety check.
dhcp_ddns::NameChangeRequestPtr ncr = tran.getNcr();
ASSERT_TRUE(ncr);
std::string exp_zone_name = tran.getReverseDomain()->getName();
std::string exp_rev_addr = D2CfgMgr::reverseIpAddress(ncr->getIpAddress());
// Verify the zone section.
checkZone(request, exp_zone_name);
// Verify there are no RRs in the PREREQUISITE Section.
checkRRCount(request, D2UpdateMessage::SECTION_PREREQUISITE, 0);
// Fetch ttl.
uint32_t ttl = ncr->getLeaseLength();
// Verify the UPDATE Section.
// It should contain 4 RRs:
// 1. A delete all PTR RRs for the given IP
// 2. A delete of all DHCID RRs for the given IP
// 3. An add of the new PTR RR
// 4. An add of the new DHCID RR
dns::RRsetPtr rrset;
checkRRCount(request, D2UpdateMessage::SECTION_UPDATE, 4);
// Verify the PTR delete RR.
ASSERT_TRUE(rrset = getRRFromSection(request, D2UpdateMessage::
SECTION_UPDATE, 0));
checkRR(rrset, exp_rev_addr, dns::RRClass::ANY(), dns::RRType::PTR(),
0, ncr);
// Verify the DHCID delete RR.
ASSERT_TRUE(rrset = getRRFromSection(request, D2UpdateMessage::
SECTION_UPDATE, 1));
checkRR(rrset, exp_rev_addr, dns::RRClass::ANY(), dns::RRType::DHCID(),
0, ncr);
// Verify the PTR add RR.
ASSERT_TRUE(rrset = getRRFromSection(request, D2UpdateMessage::
SECTION_UPDATE, 2));
checkRR(rrset, exp_rev_addr, dns::RRClass::IN(), dns::RRType::PTR(),
ttl, ncr);
// Verify the DHCID add RR.
ASSERT_TRUE(rrset = getRRFromSection(request, D2UpdateMessage::
SECTION_UPDATE, 3));
checkRR(rrset, exp_rev_addr, dns::RRClass::IN(), dns::RRType::DHCID(),
ttl, ncr);
// Verify there are no RRs in the ADDITIONAL Section.
checkRRCount(request, D2UpdateMessage::SECTION_ADDITIONAL, 0);
// Verify that it will render toWire without throwing.
dns::MessageRenderer renderer;
ASSERT_NO_THROW(request->toWire(renderer));
}
void
checkRemoveFwdAddressRequest(NameChangeTransaction& tran) {
const D2UpdateMessagePtr& request = tran.getDnsUpdateRequest();
ASSERT_TRUE(request);
// Safety check.
dhcp_ddns::NameChangeRequestPtr ncr = tran.getNcr();
ASSERT_TRUE(ncr);
std::string exp_zone_name = tran.getForwardDomain()->getName();
std::string exp_fqdn = ncr->getFqdn();
// Verify the zone section.
checkZone(request, exp_zone_name);
// Verify there is 1 RR in the PREREQUISITE Section.
checkRRCount(request, D2UpdateMessage::SECTION_PREREQUISITE, 1);
// Verify the DHCID matching assertion RR.
dns::RRsetPtr rrset;
ASSERT_TRUE(rrset = getRRFromSection(request, D2UpdateMessage::
SECTION_PREREQUISITE, 0));
checkRR(rrset, exp_fqdn, dns::RRClass::IN(), dns::RRType::DHCID(),
0, ncr);
// Verify there is 1 RR in the UPDATE Section.
checkRRCount(request, D2UpdateMessage::SECTION_UPDATE, 1);
// Verify the FQDN/IP delete RR.
const dns::RRType& exp_ip_rr_type = tran.getAddressRRType();
ASSERT_TRUE(rrset = getRRFromSection(request, D2UpdateMessage::
SECTION_UPDATE, 0));
checkRR(rrset, exp_fqdn, dns::RRClass::NONE(), exp_ip_rr_type,
0, ncr);
// Verify that it will render toWire without throwing.
dns::MessageRenderer renderer;
ASSERT_NO_THROW(request->toWire(renderer));
}
void
checkRemoveFwdRRsRequest(NameChangeTransaction& tran) {
const D2UpdateMessagePtr& request = tran.getDnsUpdateRequest();
ASSERT_TRUE(request);
// Safety check.
dhcp_ddns::NameChangeRequestPtr ncr = tran.getNcr();
ASSERT_TRUE(ncr);
std::string exp_zone_name = tran.getForwardDomain()->getName();
std::string exp_fqdn = ncr->getFqdn();
// Verify the zone section.
checkZone(request, exp_zone_name);
// Verify there is 1 RR in the PREREQUISITE Section.
checkRRCount(request, D2UpdateMessage::SECTION_PREREQUISITE, 3);
// Verify the DHCID matches assertion.
dns::RRsetPtr rrset;
ASSERT_TRUE(rrset = getRRFromSection(request, D2UpdateMessage::
SECTION_PREREQUISITE, 0));
checkRR(rrset, exp_fqdn, dns::RRClass::IN(), dns::RRType::DHCID(),
0, ncr);
// Verify the NO A RRs assertion.
ASSERT_TRUE(rrset = getRRFromSection(request, D2UpdateMessage::
SECTION_PREREQUISITE, 1));
checkRR(rrset, exp_fqdn, dns::RRClass::NONE(), dns::RRType::A(),
0, ncr, NO_RDATA);
// Verify the NO AAAA RRs assertion.
ASSERT_TRUE(rrset = getRRFromSection(request, D2UpdateMessage::
SECTION_PREREQUISITE, 2));
checkRR(rrset, exp_fqdn, dns::RRClass::NONE(), dns::RRType::AAAA(),
0, ncr, NO_RDATA);
// Verify there is 1 RR in the UPDATE Section.
checkRRCount(request, D2UpdateMessage::SECTION_UPDATE, 1);
// Verify the delete all for the FQDN RR.
ASSERT_TRUE(rrset = getRRFromSection(request, D2UpdateMessage::
SECTION_UPDATE, 0));
checkRR(rrset, exp_fqdn, dns::RRClass::ANY(), dns::RRType::ANY(),
0, ncr);
// Verify that it will render toWire without throwing.
dns::MessageRenderer renderer;
ASSERT_NO_THROW(request->toWire(renderer));
}
void
checkRemoveRevPtrsRequest(NameChangeTransaction& tran) {
const D2UpdateMessagePtr& request = tran.getDnsUpdateRequest();
ASSERT_TRUE(request);
// Safety check.
dhcp_ddns::NameChangeRequestPtr ncr = tran.getNcr();
ASSERT_TRUE(ncr);
std::string exp_zone_name = tran.getReverseDomain()->getName();
std::string exp_rev_addr = D2CfgMgr::reverseIpAddress(ncr->getIpAddress());
// Verify the zone section.
checkZone(request, exp_zone_name);
// Verify there is 1 RR in the PREREQUISITE Section.
checkRRCount(request, D2UpdateMessage::SECTION_PREREQUISITE, 1);
// Verify the FQDN-PTRNAME assertion RR.
dns::RRsetPtr rrset;
ASSERT_TRUE(rrset = getRRFromSection(request, D2UpdateMessage::
SECTION_PREREQUISITE, 0));
checkRR(rrset, exp_rev_addr, dns::RRClass::IN(), dns::RRType::PTR(),
0, ncr);
// Verify there is 1 RR in the UPDATE Section.
checkRRCount(request, D2UpdateMessage::SECTION_UPDATE, 1);
// Verify the delete all for the FQDN RR.
ASSERT_TRUE(rrset = getRRFromSection(request, D2UpdateMessage::
SECTION_UPDATE, 0));
checkRR(rrset, exp_rev_addr, dns::RRClass::ANY(), dns::RRType::ANY(),
0, ncr);
// Verify that it will render toWire without throwing.
dns::MessageRenderer renderer;
ASSERT_NO_THROW(request->toWire(renderer));
}
std::string
toHexText(const uint8_t* data, size_t len) {
std::ostringstream stream;
stream << "Data length is: " << len << std::endl;
for (int i = 0; i < len; ++i) {
if (i > 0 && ((i % 16) == 0)) {
stream << std::endl;
}
stream << setfill('0') << setw(2) << setbase(16)
<< static_cast<unsigned int>(data[i]) << " ";
}
return (stream.str());
}
// Verifies that the contents of the given transaction's DNS update request
// is correct for replacing a forward DNS entry when not using conflict
// resolution.
void
checkSimpleReplaceFwdAddressRequest(NameChangeTransaction& tran) {
const D2UpdateMessagePtr& request = tran.getDnsUpdateRequest();
ASSERT_TRUE(request);
// Safety check.
dhcp_ddns::NameChangeRequestPtr ncr = tran.getNcr();
ASSERT_TRUE(ncr);
std::string exp_zone_name = tran.getForwardDomain()->getName();
std::string exp_fqdn = ncr->getFqdn();
const dns::RRType& exp_ip_rr_type = tran.getAddressRRType();
// Verify the zone section.
checkZone(request, exp_zone_name);
// Verify the PREREQUISITE SECTION
// There should be no prerequisites.
dns::RRsetPtr rrset;
checkRRCount(request, D2UpdateMessage::SECTION_PREREQUISITE, 0);
// Verify the UPDATE SECTION
// Should be 4
// 1. delete of the FQDN/IP RR
// 2. delete of the DHCID RR
// 3. add of the FQDN/IP RR
// 4. add of the DHCID RR
checkRRCount(request, D2UpdateMessage::SECTION_UPDATE, 4);
// Fetch ttl.
uint32_t ttl = ncr->getLeaseLength();
// Verify the FQDN delete RR.
ASSERT_TRUE(rrset = getRRFromSection(request, D2UpdateMessage::
SECTION_UPDATE, 0));
checkRR(rrset, exp_fqdn, dns::RRClass::ANY(), exp_ip_rr_type, 0, ncr);
// Verify the DHCID delete RR.
ASSERT_TRUE(rrset = getRRFromSection(request, D2UpdateMessage::
SECTION_UPDATE, 1));
checkRR(rrset, exp_fqdn, dns::RRClass::ANY(), dns::RRType::DHCID(),
0, ncr);
// Verify the FQDN/IP add RR.
ASSERT_TRUE(rrset = getRRFromSection(request, D2UpdateMessage::
SECTION_UPDATE, 2));
checkRR(rrset, exp_fqdn, dns::RRClass::IN(), exp_ip_rr_type, ttl, ncr);
// Now, verify the DHCID add RR.
ASSERT_TRUE(rrset = getRRFromSection(request, D2UpdateMessage::
SECTION_UPDATE, 3));
checkRR(rrset, exp_fqdn, dns::RRClass::IN(), dns::RRType::DHCID(),
ttl, ncr);
// Verify there are no RRs in the ADDITIONAL Section.
checkRRCount(request, D2UpdateMessage::SECTION_ADDITIONAL, 0);
// Verify that it will render toWire without throwing.
dns::MessageRenderer renderer;
ASSERT_NO_THROW(request->toWire(renderer));
}
void
checkSimpleRemoveFwdRRsRequest(NameChangeTransaction& tran) {
const D2UpdateMessagePtr& request = tran.getDnsUpdateRequest();
ASSERT_TRUE(request);
// Safety check.
dhcp_ddns::NameChangeRequestPtr ncr = tran.getNcr();
ASSERT_TRUE(ncr);
std::string exp_zone_name = tran.getForwardDomain()->getName();
std::string exp_fqdn = ncr->getFqdn();
const dns::RRType& exp_ip_rr_type = tran.getAddressRRType();
// Verify the zone section.
checkZone(request, exp_zone_name);
// Verify there no prerequisites.
checkRRCount(request, D2UpdateMessage::SECTION_PREREQUISITE, 0);
// Verify there are 2 RRs in the UPDATE Section.
checkRRCount(request, D2UpdateMessage::SECTION_UPDATE, 2);
// Verify the FQDN delete RR.
dns::RRsetPtr rrset;
ASSERT_TRUE(rrset = getRRFromSection(request, D2UpdateMessage::
SECTION_UPDATE, 0));
checkRR(rrset, exp_fqdn, dns::RRClass::ANY(), exp_ip_rr_type, 0, ncr);
// Verify the DHCID delete RR.
ASSERT_TRUE(rrset = getRRFromSection(request, D2UpdateMessage::
SECTION_UPDATE, 1));
checkRR(rrset, exp_fqdn, dns::RRClass::ANY(), dns::RRType::DHCID(),
0, ncr);
// Verify that it will render toWire without throwing.
dns::MessageRenderer renderer;
ASSERT_NO_THROW(request->toWire(renderer));
}
// Verifies that the contents of the given transaction's DNS update request
// is correct for removing a reverse DNS entry when not using conflict
// resolution.
void
checkSimpleRemoveRevPtrsRequest(NameChangeTransaction& tran) {
const D2UpdateMessagePtr& request = tran.getDnsUpdateRequest();
ASSERT_TRUE(request);
// Safety check.
dhcp_ddns::NameChangeRequestPtr ncr = tran.getNcr();
ASSERT_TRUE(ncr);
std::string exp_zone_name = tran.getReverseDomain()->getName();
std::string exp_rev_addr = D2CfgMgr::reverseIpAddress(ncr->getIpAddress());
// Verify the zone section.
checkZone(request, exp_zone_name);
// Verify there are no RRs in the PREREQUISITE Section.
checkRRCount(request, D2UpdateMessage::SECTION_PREREQUISITE, 0);
// Verify there is 2 RRs in the UPDATE Section.
checkRRCount(request, D2UpdateMessage::SECTION_UPDATE, 2);
// Verify the FQDN delete RR.
dns::RRsetPtr rrset;
ASSERT_TRUE(rrset = getRRFromSection(request, D2UpdateMessage::
SECTION_UPDATE, 0));
checkRR(rrset, exp_rev_addr, dns::RRClass::ANY(), dns::RRType::PTR(), 0, ncr);
// Verify the DHCID delete RR.
ASSERT_TRUE(rrset = getRRFromSection(request, D2UpdateMessage::
SECTION_UPDATE, 1));
checkRR(rrset, exp_rev_addr, dns::RRClass::ANY(), dns::RRType::DHCID(), 0, ncr);
// Verify that it will render toWire without throwing.
dns::MessageRenderer renderer;
ASSERT_NO_THROW(request->toWire(renderer));
}
// Verifies the current state and next event in a transaction
void
checkContext(NameChangeTransactionPtr trans, const int exp_state,
const int exp_evt, const std::string& file, int line) {
ASSERT_TRUE(trans);
ASSERT_TRUE(exp_state == trans->getCurrState() && exp_evt == trans->getNextEvent())
<< "expected state: " << trans->getStateLabel(exp_state)
<< " event: " << trans->getEventLabel(exp_evt)
<< ", actual context: " << trans->getContextStr()
<< " at " << file << ":" << line;
}
// Verifies that the contents of the given transaction's DNS update request
// is correct for replacing a forward DNS entry when using the
// "check-exists-with-dhcid" conflict resolution mode.
void
checkExistsReplaceFwdAddressRequest(NameChangeTransaction& tran) {
const D2UpdateMessagePtr& request = tran.getDnsUpdateRequest();
ASSERT_TRUE(request);
// Safety check.
dhcp_ddns::NameChangeRequestPtr ncr = tran.getNcr();
ASSERT_TRUE(ncr);
std::string exp_zone_name = tran.getForwardDomain()->getName();
std::string exp_fqdn = ncr->getFqdn();
const dns::RRType& exp_ip_rr_type = tran.getAddressRRType();
// Verify the zone section.
checkZone(request, exp_zone_name);
// Verify the PREREQUISITE SECTION
// Should test for DHCID exists but doesnt check actual value.
dns::RRsetPtr rrset;
checkRRCount(request, D2UpdateMessage::SECTION_PREREQUISITE, 1);
// Verify the DHCID test RR.
ASSERT_TRUE(rrset = getRRFromSection(request, D2UpdateMessage::
SECTION_PREREQUISITE, 0));
checkRR(rrset, exp_fqdn, dns::RRClass::ANY(), dns::RRType::DHCID(), 0, ncr);
// Verify the UPDATE SECTION
// Should be 4
// 1. delete of the FQDN/IP RR
// 2. delete of the DHCID RR
// 3. add of the FQDN/IP RR
// 4. add of the DHCID RR
checkRRCount(request, D2UpdateMessage::SECTION_UPDATE, 4);
// Fetch ttl.
uint32_t ttl = ncr->getLeaseLength();
// Verify the FQDN delete RR.
ASSERT_TRUE(rrset = getRRFromSection(request, D2UpdateMessage::
SECTION_UPDATE, 0));
checkRR(rrset, exp_fqdn, dns::RRClass::ANY(), exp_ip_rr_type, 0, ncr);
// Verify the DHCID delete RR.
ASSERT_TRUE(rrset = getRRFromSection(request, D2UpdateMessage::
SECTION_UPDATE, 1));
checkRR(rrset, exp_fqdn, dns::RRClass::ANY(), dns::RRType::DHCID(), 0, ncr);
// Verify the FQDN/IP add RR.
ASSERT_TRUE(rrset = getRRFromSection(request, D2UpdateMessage::
SECTION_UPDATE, 2));
checkRR(rrset, exp_fqdn, dns::RRClass::IN(), exp_ip_rr_type, ttl, ncr);
// Verify the DHCID add RR.
ASSERT_TRUE(rrset = getRRFromSection(request, D2UpdateMessage::
SECTION_UPDATE, 3));
checkRR(rrset, exp_fqdn, dns::RRClass::IN(), dns::RRType::DHCID(),
ttl, ncr);
// Verify there are no RRs in the ADDITIONAL Section.
checkRRCount(request, D2UpdateMessage::SECTION_ADDITIONAL, 0);
// Verify that it will render toWire without throwing.
dns::MessageRenderer renderer;
ASSERT_NO_THROW(request->toWire(renderer));
}
// Verifies that the contents of the given transaction's DNS update request
// is correct for removing a forward DNS entry when using the
// "check-exists-with-dhcid" conflict resolution mode.
void
checkExistsRemoveFwdAddressRequest(NameChangeTransaction& tran) {
const D2UpdateMessagePtr& request = tran.getDnsUpdateRequest();
ASSERT_TRUE(request);
// Safety check.
dhcp_ddns::NameChangeRequestPtr ncr = tran.getNcr();
ASSERT_TRUE(ncr);
std::string exp_zone_name = tran.getForwardDomain()->getName();
std::string exp_fqdn = ncr->getFqdn();
// Verify the zone section.
checkZone(request, exp_zone_name);
// Verify there is 1 RR in the PREREQUISITE Section.
checkRRCount(request, D2UpdateMessage::SECTION_PREREQUISITE, 1);
// Verify the DHCID exists assertion RR.
dns::RRsetPtr rrset;
ASSERT_TRUE(rrset = getRRFromSection(request, D2UpdateMessage::
SECTION_PREREQUISITE, 0));
checkRR(rrset, exp_fqdn, dns::RRClass::ANY(), dns::RRType::DHCID(),
0, ncr);
// Verify there is 1 RR in the UPDATE Section.
checkRRCount(request, D2UpdateMessage::SECTION_UPDATE, 1);
// Verify the FQDN/IP delete RR.
const dns::RRType& exp_ip_rr_type = tran.getAddressRRType();
ASSERT_TRUE(rrset = getRRFromSection(request, D2UpdateMessage::
SECTION_UPDATE, 0));
checkRR(rrset, exp_fqdn, dns::RRClass::NONE(), exp_ip_rr_type,
0, ncr);
// Verify that it will render toWire without throwing.
dns::MessageRenderer renderer;
ASSERT_NO_THROW(request->toWire(renderer));
}
// Verifies that the contents of the given transaction's DNS update request
// is correct for removing a forward DNS RRs when using the
// "check-exists-with-dhcid" conflict resolution mode.
void
checkExistsRemoveFwdRRsRequest(NameChangeTransaction& tran) {
const D2UpdateMessagePtr& request = tran.getDnsUpdateRequest();
ASSERT_TRUE(request);
// Safety check.
dhcp_ddns::NameChangeRequestPtr ncr = tran.getNcr();
ASSERT_TRUE(ncr);
std::string exp_zone_name = tran.getForwardDomain()->getName();
std::string exp_fqdn = ncr->getFqdn();
// Verify the zone section.
checkZone(request, exp_zone_name);
// Verify there are 2 RRs in the PREREQUISITE Section.
checkRRCount(request, D2UpdateMessage::SECTION_PREREQUISITE, 2);
// Verify the NO A RRs assertion.
dns::RRsetPtr rrset;
ASSERT_TRUE(rrset = getRRFromSection(request, D2UpdateMessage::
SECTION_PREREQUISITE, 0));
checkRR(rrset, exp_fqdn, dns::RRClass::NONE(), dns::RRType::A(),
0, ncr, NO_RDATA);
// Verify the NO AAAA RRs assertion.
ASSERT_TRUE(rrset = getRRFromSection(request, D2UpdateMessage::
SECTION_PREREQUISITE, 1));
checkRR(rrset, exp_fqdn, dns::RRClass::NONE(), dns::RRType::AAAA(),
0, ncr, NO_RDATA);
// Verify there is 1 RR in the UPDATE Section.
checkRRCount(request, D2UpdateMessage::SECTION_UPDATE, 1);
// Verify the DHCID delete RR.
ASSERT_TRUE(rrset = getRRFromSection(request, D2UpdateMessage::
SECTION_UPDATE, 0));
checkRR(rrset, exp_fqdn, dns::RRClass::ANY(), dns::RRType::DHCID(),
0, ncr);
// Verify that it will render toWire without throwing.
dns::MessageRenderer renderer;
ASSERT_NO_THROW(request->toWire(renderer));
}
// Verifies that the contents of the given transaction's DNS update request
// is correct for replacing a forward DNS entry when using the
// "no-check-without-dhcid" conflict resolution mode.
void
checkSimpleReplaceFwdAddressWithoutDHCIDRequest(NameChangeTransaction& tran) {
const D2UpdateMessagePtr& request = tran.getDnsUpdateRequest();
ASSERT_TRUE(request);
// Safety check.
dhcp_ddns::NameChangeRequestPtr ncr = tran.getNcr();
ASSERT_TRUE(ncr);
std::string exp_zone_name = tran.getForwardDomain()->getName();
std::string exp_fqdn = ncr->getFqdn();
const dns::RRType& exp_ip_rr_type = tran.getAddressRRType();
// Verify the zone section.
checkZone(request, exp_zone_name);
// Verify the PREREQUISITE SECTION
// There should be no prerequisites.
dns::RRsetPtr rrset;
checkRRCount(request, D2UpdateMessage::SECTION_PREREQUISITE, 0);
// Verify the UPDATE SECTION
// Should be 2
// 1. delete of the FQDN/IP RR
// 2. add of the FQDN/IP RR
checkRRCount(request, D2UpdateMessage::SECTION_UPDATE, 2);
// Fetch ttl.
uint32_t ttl = ncr->getLeaseLength();
// Verify the FQDN delete RR.
ASSERT_TRUE(rrset = getRRFromSection(request, D2UpdateMessage::
SECTION_UPDATE, 0));
checkRR(rrset, exp_fqdn, dns::RRClass::ANY(), exp_ip_rr_type, 0, ncr);
// Verify the FQDN/IP add RR.
ASSERT_TRUE(rrset = getRRFromSection(request, D2UpdateMessage::
SECTION_UPDATE, 1));
checkRR(rrset, exp_fqdn, dns::RRClass::IN(), exp_ip_rr_type, ttl, ncr);
// Verify there are no RRs in the ADDITIONAL Section.
checkRRCount(request, D2UpdateMessage::SECTION_ADDITIONAL, 0);
// Verify that it will render toWire without throwing.
dns::MessageRenderer renderer;
ASSERT_NO_THROW(request->toWire(renderer));
}
// Verifies that the contents of the given transaction's DNS update request
// is correct for removing a forward DNS entry when using the
// "no-check-without-dhcid" conflict resolution mode.
void
checkSimpleRemoveFwdRRsWithoutDHCIDRequest(NameChangeTransaction& tran) {
const D2UpdateMessagePtr& request = tran.getDnsUpdateRequest();
ASSERT_TRUE(request);
// Safety check.
dhcp_ddns::NameChangeRequestPtr ncr = tran.getNcr();
ASSERT_TRUE(ncr);
std::string exp_zone_name = tran.getForwardDomain()->getName();
std::string exp_fqdn = ncr->getFqdn();
const dns::RRType& exp_ip_rr_type = tran.getAddressRRType();
// Verify the zone section.
checkZone(request, exp_zone_name);
// Verify there no prerequisites.
checkRRCount(request, D2UpdateMessage::SECTION_PREREQUISITE, 0);
// Verify there is 1 RR in the UPDATE Section.
checkRRCount(request, D2UpdateMessage::SECTION_UPDATE, 1);
// Verify the FQDN delete RR.
dns::RRsetPtr rrset;
ASSERT_TRUE(rrset = getRRFromSection(request, D2UpdateMessage::
SECTION_UPDATE, 0));
checkRR(rrset, exp_fqdn, dns::RRClass::ANY(), exp_ip_rr_type, 0, ncr);
// Verify that it will render toWire without throwing.
dns::MessageRenderer renderer;
ASSERT_NO_THROW(request->toWire(renderer));
}
// Verifies that the contents of the given transaction's DNS update request
// is correct for replacing a reverse DNS entry when using the
// "no-check-without-dhcid" conflict resolution mode.
void
checkSimpleReplaceRevPtrsWithoutDHCIDRequest(NameChangeTransaction& tran) {
const D2UpdateMessagePtr& request = tran.getDnsUpdateRequest();
ASSERT_TRUE(request);
// Safety check.
dhcp_ddns::NameChangeRequestPtr ncr = tran.getNcr();
ASSERT_TRUE(ncr);
std::string exp_zone_name = tran.getReverseDomain()->getName();
std::string exp_rev_addr = D2CfgMgr::reverseIpAddress(ncr->getIpAddress());
// Verify the zone section.
checkZone(request, exp_zone_name);
// Verify there are no RRs in the PREREQUISITE Section.
checkRRCount(request, D2UpdateMessage::SECTION_PREREQUISITE, 0);
// Fetch ttl.
uint32_t ttl = ncr->getLeaseLength();
// Verify the UPDATE Section.
// It should contain 2 RRs:
// 1. A delete all PTR RRs for the given IP
// 2. An add of the new PTR RR
dns::RRsetPtr rrset;
checkRRCount(request, D2UpdateMessage::SECTION_UPDATE, 2);
// Verify the PTR delete RR.
ASSERT_TRUE(rrset = getRRFromSection(request, D2UpdateMessage::
SECTION_UPDATE, 0));
checkRR(rrset, exp_rev_addr, dns::RRClass::ANY(), dns::RRType::PTR(),
0, ncr);
// Verify the PTR add RR.
ASSERT_TRUE(rrset = getRRFromSection(request, D2UpdateMessage::
SECTION_UPDATE, 1));
checkRR(rrset, exp_rev_addr, dns::RRClass::IN(), dns::RRType::PTR(),
ttl, ncr);
// Verify there are no RRs in the ADDITIONAL Section.
checkRRCount(request, D2UpdateMessage::SECTION_ADDITIONAL, 0);
// Verify that it will render toWire without throwing.
dns::MessageRenderer renderer;
ASSERT_NO_THROW(request->toWire(renderer));
}
// Verifies that the contents of the given transaction's DNS update request
// is correct for removing a reverse DNS entry when using the
// "no-check-without-dhcid" conflict resolution mode.
void
checkSimpleRemoveRevPtrsWithoutDHCIDRequest(NameChangeTransaction& tran) {
const D2UpdateMessagePtr& request = tran.getDnsUpdateRequest();
ASSERT_TRUE(request);
// Safety check.
dhcp_ddns::NameChangeRequestPtr ncr = tran.getNcr();
ASSERT_TRUE(ncr);
std::string exp_zone_name = tran.getReverseDomain()->getName();
std::string exp_rev_addr = D2CfgMgr::reverseIpAddress(ncr->getIpAddress());
// Verify the zone section.
checkZone(request, exp_zone_name);
// Verify there are no RRs in the PREREQUISITE Section.
checkRRCount(request, D2UpdateMessage::SECTION_PREREQUISITE, 0);
// Verify there is 1 RR in the UPDATE Section.
checkRRCount(request, D2UpdateMessage::SECTION_UPDATE, 1);
// Verify the FQDN delete RR.
dns::RRsetPtr rrset;
ASSERT_TRUE(rrset = getRRFromSection(request, D2UpdateMessage::
SECTION_UPDATE, 0));
checkRR(rrset, exp_rev_addr, dns::RRClass::ANY(), dns::RRType::PTR(), 0, ncr);
// Verify that it will render toWire without throwing.
dns::MessageRenderer renderer;
ASSERT_NO_THROW(request->toWire(renderer));
}
} // namespace isc::d2
} // namespace isc
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