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// Copyright (C) 2013-2015 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/io_service.h>
#include <cc/command_interpreter.h>
#include <d2/d2_process.h>
#include <dhcp_ddns/ncr_io.h>
#include <d_test_stubs.h>
#include <boost/bind.hpp>
#include <boost/date_time/posix_time/posix_time.hpp>
#include <gtest/gtest.h>
#include <sstream>
using namespace std;
using namespace isc;
using namespace isc::config;
using namespace isc::d2;
using namespace boost::posix_time;
namespace {
/// @brief Valid configuration containing an unavailable IP address.
const char* bad_ip_d2_config = "{ "
"\"ip-address\" : \"1.1.1.1\" , "
"\"port\" : 5031, "
"\"tsig-keys\": ["
"{ \"name\": \"d2_key.tmark.org\" , "
" \"algorithm\": \"HMAC-MD5\" ,"
" \"secret\": \"LSWXnfkKZjdPJI5QxlpnfQ==\" "
"} ],"
"\"forward-ddns\" : {"
"\"ddns-domains\": [ "
"{ \"name\": \"tmark.org\" , "
" \"key-name\": \"d2_key.tmark.org\" , "
" \"dns-servers\" : [ "
" { \"ip-address\": \"127.0.0.101\" } "
"] } ] }, "
"\"reverse-ddns\" : {"
"\"ddns-domains\": [ "
"{ \"name\": \" 0.168.192.in.addr.arpa.\" , "
" \"key-name\": \"d2_key.tmark.org\" , "
" \"dns-servers\" : [ "
" { \"ip-address\": \"127.0.0.101\" , "
" \"port\": 100 } ] } "
"] } }";
/// @brief D2Process test fixture class
//class D2ProcessTest : public D2Process, public ::testing::Test {
class D2ProcessTest : public D2Process, public ConfigParseTest {
public:
/// @brief Constructor
D2ProcessTest() :
D2Process("d2test",
asiolink::IOServicePtr(new isc::asiolink::IOService())) {
}
/// @brief Destructor
virtual ~D2ProcessTest() {
}
/// @brief Callback that will invoke shutdown method.
void genShutdownCallback() {
shutdown(isc::data::ConstElementPtr());
}
/// @brief Callback that throws an exception.
void genFatalErrorCallback() {
isc_throw (DProcessBaseError, "simulated fatal error");
}
/// @brief Reconfigures and starts the queue manager given a configuration.
///
/// This method emulates the reception of a new configuration and should
/// conclude with the Queue manager placed in the RUNNING state.
///
/// @param config is the configuration to use
///
/// @return Returns AssertionSuccess if the queue manager was successfully
/// reconfigured, AssertionFailure otherwise.
::testing::AssertionResult runWithConfig(const char* config) {
int rcode = -1;
// Convert the string configuration into an Element set.
::testing::AssertionResult res = fromJSON(config);
if (res != ::testing::AssertionSuccess()) {
return res;
}
isc::data::ConstElementPtr answer = configure(config_set_);
isc::data::ConstElementPtr comment;
comment = isc::config::parseAnswer(rcode, answer);
if (rcode) {
return (::testing::AssertionFailure(::testing::Message() <<
"configure() failed:"
<< comment));
}
// Must call checkQueueStatus, to cause queue manager to reconfigure
// and start.
checkQueueStatus();
const D2QueueMgrPtr& queue_mgr = getD2QueueMgr();
// If queue manager isn't in the RUNNING state, return failure.
if (D2QueueMgr::RUNNING != queue_mgr->getMgrState()) {
return (::testing::AssertionFailure(::testing::Message() <<
"queue manager did not start"));
}
// Good to go.
return (::testing::AssertionSuccess());
}
/// @brief Checks if shutdown criteria would be met given a shutdown type.
///
/// This method sets the D2Process shutdown type to the given value, and
/// calls the canShutdown() method, returning its return value.
///
/// @return Returns the boolean result canShutdown.
bool checkCanShutdown(ShutdownType shutdown_type) {
setShutdownType(shutdown_type);
return (canShutdown());
}
};
/// @brief Verifies D2Process construction behavior.
/// 1. Verifies that constructor fails with an invalid IOService
/// 2. Verifies that constructor succeeds with a valid IOService
/// 3. Verifies that all managers are accessible
TEST(D2Process, construction) {
// Verify that the constructor will fail if given an empty
// io service.
asiolink::IOServicePtr lcl_io_service;
EXPECT_THROW (D2Process("TestProcess", lcl_io_service), DProcessBaseError);
// Verify that the constructor succeeds with a valid io_service
lcl_io_service.reset(new isc::asiolink::IOService());
ASSERT_NO_THROW (D2Process("TestProcess", lcl_io_service));
// Verify that the configuration, queue, and update managers
// are all accessible after construction.
D2Process d2process("TestProcess", lcl_io_service);
D2CfgMgrPtr cfg_mgr = d2process.getD2CfgMgr();
ASSERT_TRUE(cfg_mgr);
D2QueueMgrPtr queue_mgr = d2process.getD2QueueMgr();
ASSERT_TRUE(queue_mgr);
const D2UpdateMgrPtr& update_mgr = d2process.getD2UpdateMgr();
ASSERT_TRUE(update_mgr);
}
/// @brief Verifies basic configure method behavior.
/// This test primarily verifies that upon receipt of a new configuration,
/// D2Process will reconfigure the queue manager if the configuration is valid,
/// or leave queue manager unaffected if not. Currently, the queue manager is
/// only D2 component that must adapt to new configurations. Other components,
/// such as Transactions will be unaffected as they are transient and use
/// whatever configuration was in play at the time they were created.
/// If other components need to provide "dynamic" configuration responses,
/// those tests would need to be added.
TEST_F(D2ProcessTest, configure) {
// Verify the queue manager is not yet initialized.
D2QueueMgrPtr queue_mgr = getD2QueueMgr();
ASSERT_TRUE(queue_mgr);
ASSERT_EQ(D2QueueMgr::NOT_INITTED, queue_mgr->getMgrState());
// Verify that reconfigure queue manager flag is false.
ASSERT_FALSE(getReconfQueueFlag());
// Create a valid configuration set from text config.
ASSERT_TRUE(fromJSON(valid_d2_config));
// Invoke configure() with a valid D2 configuration.
isc::data::ConstElementPtr answer = configure(config_set_);
// Verify that configure result is success and reconfigure queue manager
// flag is true.
ASSERT_TRUE(checkAnswer(answer, 0));
ASSERT_TRUE(getReconfQueueFlag());
// Call checkQueueStatus, to cause queue manager to reconfigure and start.
checkQueueStatus();
// Verify that queue manager is now in the RUNNING state, and flag is false.
ASSERT_EQ(D2QueueMgr::RUNNING, queue_mgr->getMgrState());
ASSERT_FALSE(getReconfQueueFlag());
// Create an invalid configuration set from text config.
ASSERT_TRUE(fromJSON("{ \"bogus\": 1000 } "));
// Invoke configure() with the invalid configuration.
answer = configure(config_set_);
// Verify that configure result is failure, the reconfigure flag is
// false, and that the queue manager is still running.
ASSERT_TRUE(checkAnswer(answer, 1));
EXPECT_FALSE(getReconfQueueFlag());
EXPECT_EQ(D2QueueMgr::RUNNING, queue_mgr->getMgrState());
}
/// @brief Tests checkQueueStatus() logic for stopping the queue on shutdown
/// This test manually sets shutdown flag and verifies that queue manager
/// stop is initiated.
TEST_F(D2ProcessTest, queueStopOnShutdown) {
ASSERT_TRUE(runWithConfig(valid_d2_config));
const D2QueueMgrPtr& queue_mgr = getD2QueueMgr();
setShutdownFlag(true);
// Calling checkQueueStatus restart queue manager
checkQueueStatus();
// Verify that the queue manager is stopping.
EXPECT_EQ(D2QueueMgr::STOPPING, queue_mgr->getMgrState());
// Verify that a subsequent call with no events occurring in between,
// results in no change to queue manager
checkQueueStatus();
// Verify that the queue manager is still stopping.
EXPECT_EQ(D2QueueMgr::STOPPING, queue_mgr->getMgrState());
// Call runIO so the IO cancel event occurs and verify that queue manager
// has stopped.
runIO();
ASSERT_EQ(D2QueueMgr::STOPPED, queue_mgr->getMgrState());
}
/// @brief Tests checkQueueStatus() logic for stopping the queue on reconfigure.
/// This test manually sets queue reconfiguration flag and verifies that queue
/// manager stop is initiated.
TEST_F(D2ProcessTest, queueStopOnReconf) {
ASSERT_TRUE(runWithConfig(valid_d2_config));
const D2QueueMgrPtr& queue_mgr = getD2QueueMgr();
// Manually set the reconfigure indicator.
setReconfQueueFlag(true);
// Calling checkQueueStatus should initiate stopping the queue manager.
checkQueueStatus();
// Verify that the queue manager is stopping.
EXPECT_EQ(D2QueueMgr::STOPPING, queue_mgr->getMgrState());
// Call runIO so the IO cancel event occurs and verify that queue manager
// has stopped.
runIO();
ASSERT_EQ(D2QueueMgr::STOPPED, queue_mgr->getMgrState());
}
/// @brief Tests checkQueueStatus() logic for recovering from queue full
/// This test manually creates a receive queue full condition and then
/// "drains" the queue until the queue manager resumes listening. This
/// verifies D2Process's ability to recover from a queue full condition.
TEST_F(D2ProcessTest, queueFullRecovery) {
// Valid test message, contents are unimportant.
const char* test_msg =
"{"
" \"change-type\" : 0 , "
" \"forward-change\" : true , "
" \"reverse-change\" : false , "
" \"fqdn\" : \"walah.walah.com\" , "
" \"ip-address\" : \"192.168.2.1\" , "
" \"dhcid\" : \"010203040A7F8E3D\" , "
" \"lease-expires-on\" : \"20130121132405\" , "
" \"lease-length\" : 1300 "
"}";
// Start queue manager with known good config.
ASSERT_TRUE(runWithConfig(valid_d2_config));
const D2QueueMgrPtr& queue_mgr = getD2QueueMgr();
// Set the maximum queue size to manageable number.
size_t max_queue_size = 5;
queue_mgr->setMaxQueueSize(max_queue_size);
// Manually enqueue max requests.
dhcp_ddns::NameChangeRequestPtr ncr;
ASSERT_NO_THROW(ncr = dhcp_ddns::NameChangeRequest::fromJSON(test_msg));
for (int i = 0; i < max_queue_size; i++) {
// Verify that the request can be added to the queue and queue
// size increments accordingly.
ASSERT_NO_THROW(queue_mgr->enqueue(ncr));
ASSERT_EQ(i+1, queue_mgr->getQueueSize());
}
// Since we are not really receiving, we will simulate QUEUE FULL
// detection.
queue_mgr->stopListening(D2QueueMgr::STOPPED_QUEUE_FULL);
ASSERT_EQ(D2QueueMgr::STOPPING, queue_mgr->getMgrState());
// Call runIO so the IO cancel event occurs and verify that queue manager
// has stopped.
runIO();
ASSERT_EQ(D2QueueMgr::STOPPED_QUEUE_FULL, queue_mgr->getMgrState());
// Dequeue requests one at a time, calling checkQueueStatus after each
// dequeue, until we reach the resume threshold. This simulates update
// manager consuming jobs. Queue manager should remain stopped during
// this loop.
int resume_threshold = (max_queue_size * QUEUE_RESTART_PERCENT);
while (queue_mgr->getQueueSize() > resume_threshold) {
checkQueueStatus();
ASSERT_EQ(D2QueueMgr::STOPPED_QUEUE_FULL, queue_mgr->getMgrState());
ASSERT_NO_THROW(queue_mgr->dequeue());
}
// Dequeue one more, which brings us under the threshold and call
// checkQueueStatus.
// Verify that the queue manager is again running.
ASSERT_NO_THROW(queue_mgr->dequeue());
checkQueueStatus();
EXPECT_EQ(D2QueueMgr::RUNNING, queue_mgr->getMgrState());
}
/// @brief Tests checkQueueStatus() logic for queue receive error recovery
/// This test manually creates a queue receive error condition and tests
/// verifies that checkQueueStatus reacts properly to recover.
TEST_F(D2ProcessTest, queueErrorRecovery) {
ASSERT_TRUE(runWithConfig(valid_d2_config));
const D2QueueMgrPtr& queue_mgr = getD2QueueMgr();
// Since we are not really receiving, we have to stage an error.
queue_mgr->stopListening(D2QueueMgr::STOPPED_RECV_ERROR);
ASSERT_EQ(D2QueueMgr::STOPPING, queue_mgr->getMgrState());
// Call runIO so the IO cancel event occurs and verify that queue manager
// has stopped.
runIO();
ASSERT_EQ(D2QueueMgr::STOPPED_RECV_ERROR, queue_mgr->getMgrState());
// Calling checkQueueStatus should restart queue manager
checkQueueStatus();
// Verify that queue manager is again running.
EXPECT_EQ(D2QueueMgr::RUNNING, queue_mgr->getMgrState());
}
/// @brief Verifies queue manager recovery from unusable configuration
/// This test checks D2Process's gracefully handle a configuration which
/// while valid is not operationally usable (i.e. IP address is unavailable),
/// and to subsequently recover given a usable configuration.
TEST_F(D2ProcessTest, badConfigureRecovery) {
D2QueueMgrPtr queue_mgr = getD2QueueMgr();
ASSERT_TRUE(queue_mgr);
// Verify the queue manager is not initialized.
EXPECT_EQ(D2QueueMgr::NOT_INITTED, queue_mgr->getMgrState());
// Invoke configure() with a valid config that contains an unusable IP
ASSERT_TRUE(fromJSON(bad_ip_d2_config));
isc::data::ConstElementPtr answer = configure(config_set_);
// Verify that configure result is success and reconfigure queue manager
// flag is true.
ASSERT_TRUE(checkAnswer(answer, 0));
ASSERT_TRUE(getReconfQueueFlag());
// Call checkQueueStatus to cause queue manager to attempt to reconfigure.
checkQueueStatus();
// Verify that queue manager failed to start, (i.e. is in INITTED state),
// and the the reconfigure flag is false.
ASSERT_EQ(D2QueueMgr::INITTED, queue_mgr->getMgrState());
ASSERT_FALSE(getReconfQueueFlag());
// Verify we can recover given a valid config with an usable IP address.
ASSERT_TRUE(fromJSON(valid_d2_config));
answer = configure(config_set_);
// Verify that configure result is success and reconfigure queue manager
// flag is true.
ASSERT_TRUE(checkAnswer(answer, 0));
ASSERT_TRUE(getReconfQueueFlag());
// Call checkQueueStatus to cause queue manager to reconfigure and start.
checkQueueStatus();
// Verify that queue manager is now in the RUNNING state, and reconfigure
// flag is false.
EXPECT_EQ(D2QueueMgr::RUNNING, queue_mgr->getMgrState());
EXPECT_FALSE(getReconfQueueFlag());
}
/// @brief Verifies basic command method behavior.
/// @TODO IF the D2Process is extended to support extra commands this testing
/// will need to augmented accordingly.
TEST_F(D2ProcessTest, command) {
// Verify that the process will process unsupported command and
// return a failure response.
int rcode = -1;
string args = "{ \"arg1\": 77 } ";
isc::data::ElementPtr json = isc::data::Element::fromJSON(args);
isc::data::ConstElementPtr answer = command("bogus_command", json);
parseAnswer(rcode, answer);
EXPECT_EQ(COMMAND_INVALID, rcode);
}
/// @brief Tests shutdown command argument parsing
/// The shutdown command supports an optional "type" argument. This test
/// checks that for valid values, the shutdown() method: sets the shutdown
/// type to correct value, set the shutdown flag to true, and returns a
/// success response; and for invalid values: sets the shutdown flag to false
/// and returns a failure response.
TEST_F(D2ProcessTest, shutdownArgs) {
isc::data::ElementPtr args;
isc::data::ConstElementPtr answer;
const char* default_args = "{}";
const char* normal_args = "{ \"type\" : \"normal\" }";
const char* drain_args = "{ \"type\" : \"drain_first\" }";
const char* now_args = "{ \"type\" : \"now\" }";
const char* bogus_args = "{ \"type\" : \"bogus\" }";
// Verify defaulting to SD_NORMAL if no argument is given.
ASSERT_NO_THROW(args = isc::data::Element::fromJSON(default_args));
EXPECT_NO_THROW(answer = shutdown(args));
ASSERT_TRUE(checkAnswer(answer, 0));
EXPECT_EQ(SD_NORMAL, getShutdownType());
EXPECT_TRUE(shouldShutdown());
// Verify argument value "normal".
ASSERT_NO_THROW(args = isc::data::Element::fromJSON(normal_args));
EXPECT_NO_THROW(answer = shutdown(args));
ASSERT_TRUE(checkAnswer(answer, 0));
EXPECT_EQ(SD_NORMAL, getShutdownType());
EXPECT_TRUE(shouldShutdown());
// Verify argument value "drain_first".
ASSERT_NO_THROW(args = isc::data::Element::fromJSON(drain_args));
EXPECT_NO_THROW(answer = shutdown(args));
ASSERT_TRUE(checkAnswer(answer, 0));
EXPECT_EQ(SD_DRAIN_FIRST, getShutdownType());
EXPECT_TRUE(shouldShutdown());
// Verify argument value "now".
ASSERT_NO_THROW(args = isc::data::Element::fromJSON(now_args));
EXPECT_NO_THROW(answer = shutdown(args));
ASSERT_TRUE(checkAnswer(answer, 0));
EXPECT_EQ(SD_NOW, getShutdownType());
EXPECT_TRUE(shouldShutdown());
// Verify correct handling of an invalid value.
ASSERT_NO_THROW(args = isc::data::Element::fromJSON(bogus_args));
EXPECT_NO_THROW(answer = shutdown(args));
ASSERT_TRUE(checkAnswer(answer, 1));
EXPECT_FALSE(shouldShutdown());
}
/// @brief Tests shutdown criteria logic
/// D2Process using the method canShutdown() to determine if a shutdown
/// can be performed given the value of the shutdown flag and the type of
/// shutdown requested. For each shutdown type certain criteria must be met
/// before the shutdown is permitted. This method is invoked once each pass
/// through the main event loop. This test checks the operation of the
/// canShutdown method. It uses a convenience method, checkCanShutdown(),
/// which sets the shutdown type to the given value and invokes canShutdown(),
/// returning its result.
TEST_F(D2ProcessTest, canShutdown) {
ASSERT_TRUE(runWithConfig(valid_d2_config));
const D2QueueMgrPtr& queue_mgr = getD2QueueMgr();
// Shutdown flag is false. Method should return false for all types.
EXPECT_FALSE(checkCanShutdown(SD_NORMAL));
EXPECT_FALSE(checkCanShutdown(SD_DRAIN_FIRST));
EXPECT_FALSE(checkCanShutdown(SD_NOW));
// Set shutdown flag to true.
setShutdownFlag(true);
// Queue Manager is running, queue is empty, no transactions.
// Only SD_NOW should return true.
EXPECT_FALSE(checkCanShutdown(SD_NORMAL));
EXPECT_FALSE(checkCanShutdown(SD_DRAIN_FIRST));
EXPECT_TRUE(checkCanShutdown(SD_NOW));
// Tell queue manager to stop.
queue_mgr->stopListening();
// Verify that the queue manager is stopping.
EXPECT_EQ(D2QueueMgr::STOPPING, queue_mgr->getMgrState());
// Queue Manager is stopping, queue is empty, no transactions.
// Only SD_NOW should return true.
EXPECT_FALSE(checkCanShutdown(SD_NORMAL));
EXPECT_FALSE(checkCanShutdown(SD_DRAIN_FIRST));
EXPECT_TRUE(checkCanShutdown(SD_NOW));
// Allow cancel event to process.
ASSERT_NO_THROW(runIO());
// Verify that queue manager is stopped.
EXPECT_EQ(D2QueueMgr::STOPPED, queue_mgr->getMgrState());
// Queue Manager is stopped, queue is empty, no transactions.
// All types should return true.
EXPECT_TRUE(checkCanShutdown(SD_NORMAL));
EXPECT_TRUE(checkCanShutdown(SD_DRAIN_FIRST));
EXPECT_TRUE(checkCanShutdown(SD_NOW));
const char* test_msg =
"{"
" \"change-type\" : 0 , "
" \"forward-change\" : true , "
" \"reverse-change\" : false , "
" \"fqdn\" : \"fish.tmark.org\" , "
" \"ip-address\" : \"192.168.2.1\" , "
" \"dhcid\" : \"010203040A7F8E3D\" , "
" \"lease-expires-on\" : \"20130121132405\" , "
" \"lease-length\" : 1300 "
"}";
// Manually enqueue a request. This lets us test logic with queue
// not empty.
dhcp_ddns::NameChangeRequestPtr ncr;
ASSERT_NO_THROW(ncr = dhcp_ddns::NameChangeRequest::fromJSON(test_msg));
ASSERT_NO_THROW(queue_mgr->enqueue(ncr));
ASSERT_EQ(1, queue_mgr->getQueueSize());
// Queue Manager is stopped. Queue is not empty, no transactions.
// SD_DRAIN_FIRST should be false, SD_NORMAL and SD_NOW should be true.
EXPECT_TRUE(checkCanShutdown(SD_NORMAL));
EXPECT_FALSE(checkCanShutdown(SD_DRAIN_FIRST));
EXPECT_TRUE(checkCanShutdown(SD_NOW));
// Now use update manager to dequeue the request and make a transaction.
// This lets us verify transaction list not empty logic.
const D2UpdateMgrPtr& update_mgr = getD2UpdateMgr();
ASSERT_TRUE(update_mgr);
ASSERT_NO_THROW(update_mgr->sweep());
ASSERT_EQ(0, queue_mgr->getQueueSize());
ASSERT_EQ(1, update_mgr->getTransactionCount());
// Queue Manager is stopped. Queue is empty, one transaction.
// Only SD_NOW should be true.
EXPECT_FALSE(checkCanShutdown(SD_NORMAL));
EXPECT_FALSE(checkCanShutdown(SD_DRAIN_FIRST));
EXPECT_TRUE(checkCanShutdown(SD_NOW));
}
/// @brief Verifies that an "external" call to shutdown causes the run method
/// to exit gracefully.
TEST_F(D2ProcessTest, normalShutdown) {
// Use an asiolink IntervalTimer and callback to generate the
// shutdown invocation. (Note IntervalTimer setup is in milliseconds).
isc::asiolink::IntervalTimer timer(*getIoService());
timer.setup(boost::bind(&D2ProcessTest::genShutdownCallback, this),
2 * 1000);
// Record start time, and invoke run().
ptime start = microsec_clock::universal_time();
EXPECT_NO_THROW(run());
// Record stop time.
ptime stop = microsec_clock::universal_time();
// Verify that duration of the run invocation is the same as the
// timer duration. This demonstrates that the shutdown was driven
// by an io_service event and callback.
time_duration elapsed = stop - start;
EXPECT_TRUE(elapsed.total_milliseconds() >= 1900 &&
elapsed.total_milliseconds() <= 2200);
}
/// @brief Verifies that an "uncaught" exception thrown during event loop
/// execution is treated as a fatal error.
TEST_F(D2ProcessTest, fatalErrorShutdown) {
// Use an asiolink IntervalTimer and callback to generate the
// the exception. (Note IntervalTimer setup is in milliseconds).
isc::asiolink::IntervalTimer timer(*getIoService());
timer.setup(boost::bind(&D2ProcessTest::genFatalErrorCallback, this),
2 * 1000);
// Record start time, and invoke run().
ptime start = microsec_clock::universal_time();
EXPECT_THROW(run(), DProcessBaseError);
// Record stop time.
ptime stop = microsec_clock::universal_time();
// Verify that duration of the run invocation is the same as the
// timer duration. This demonstrates that the anomaly occurred
// during io callback processing.
time_duration elapsed = stop - start;
EXPECT_TRUE(elapsed.total_milliseconds() >= 1900 &&
elapsed.total_milliseconds() <= 2200);
}
/// @brief Used to permit visual inspection of logs to ensure
/// DHCP_DDNS_NOT_ON_LOOPBACK is issued when ip_address is not
/// loopback.
TEST_F(D2ProcessTest, notLoopbackTest) {
const char* config = "{ "
"\"ip-address\" : \"0.0.0.0\" , "
"\"port\" : 53001, "
"\"tsig-keys\": [],"
"\"forward-ddns\" : {},"
"\"reverse-ddns\" : {}"
"}";
// Note we don't care nor can we predict if this
// succeeds or fails. The address and port may or may
// not be valid on the test host.
runWithConfig(config);
}
/// @brief Used to permit visual inspection of logs to ensure
/// DHCP_DDNS_NOT_ON_LOOPBACK is not issued.
TEST_F(D2ProcessTest, v4LoopbackTest) {
const char* config = "{ "
"\"ip-address\" : \"127.0.0.1\" , "
"\"port\" : 53001, "
"\"tsig-keys\": [],"
"\"forward-ddns\" : {},"
"\"reverse-ddns\" : {}"
"}";
ASSERT_TRUE(runWithConfig(config));
}
/// @brief Used to permit visual inspection of logs to ensure
/// DHCP_DDNS_NOT_ON_LOOPBACK is not issued.
TEST_F(D2ProcessTest, v6LoopbackTest) {
const char* config = "{ "
"\"ip-address\" : \"::1\" , "
"\"port\" : 53001, "
"\"tsig-keys\": [],"
"\"forward-ddns\" : {},"
"\"reverse-ddns\" : {}"
"}";
ASSERT_TRUE(runWithConfig(config));
}
} // end of anonymous namespace
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