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799 | // Copyright (C) 2022-2023 Internet Systems Consortium, Inc. ("ISC")
//
// This Source Code Form is subject to the terms of the Kea Hooks Basic
// Commercial End User License Agreement v2.0. See COPYING file in the premium/
// directory.
/// @file This file contains tests which ddns tuning library components.
#include <config.h>
#include <asiolink/io_address.h>
#include <ddns_tuning.h><--- Include file: not found. Please note: Cppcheck does not need standard library headers to get proper results.
#include <ddns_tuning_log.h><--- Include file: not found. Please note: Cppcheck does not need standard library headers to get proper results.
#include <dhcp/libdhcp++.h>
#include <dhcp/option_string.h>
#include <dhcpsrv/cfgmgr.h>
#include <dhcpsrv/subnet.h>
#include <eval/eval_context.h>
#include <hooks/callout_manager.h>
#include <hooks/hooks.h>
#include <testutils/gtest_utils.h>
#include <testutils/multi_threading_utils.h>
#include <boost/date_time/posix_time/posix_time.hpp><--- Include file: not found. Please note: Cppcheck does not need standard library headers to get proper results.
#include <gtest/gtest.h><--- Include file: not found. Please note: Cppcheck does not need standard library headers to get proper results.
#include <sstream><--- Include file: not found. Please note: Cppcheck does not need standard library headers to get proper results.
using namespace std;
using namespace isc;
using namespace isc::asiolink;
using namespace isc::data;
using namespace isc::dhcp;
using namespace isc::eval;
using namespace isc::hooks;
using namespace isc::ddns_tuning;
using namespace isc::test;
using namespace boost::posix_time;
namespace {
/// @brief Test derivation of DdnsTuningImpl that allows flush time to be modified.
class TestDdnsTuningImpl : public DdnsTuningImpl {
public:
/// @brief Constructor
///
/// @param family protocol family AF_INET or AF_INET6
TestDdnsTuningImpl (int family) : DdnsTuningImpl(family) {
}
/// @brief Destructor
virtual ~TestDdnsTuningImpl() {
}
/// @brief Adjusts the expression cache's last flush time.
///
/// This is used to ease verifying if and when flushes have occurred.
/// @param offset signed number of seconds by which to adjust the
/// last flush time value.
void tweakLastFlushTime(int offset) {
subnet_exprs_.setModificationTime(getLastFlushTime() + seconds(offset));
}
};
/// @brief Test fixture for testing the DDNS Tuning library.
class DdnsTuningImplTest : public ::testing::Test {
public:
/// @brief Enum that describes the expected expression returned by the cache.
enum ExpExpressionType {
EXPR_NULL, // Pointer is null
EXPR_EMPTY, // Points to an empty Expression
EXPR_VALID // Points to an Expression
};
/// @brief Mnemonic constants used in test scenarios.
const int offset_older = -50;
const int offset_newer = 50;
const bool flush = true;
const bool no_flush = false;
/// @brief Describes a subnet expression test scenario.
struct Scenario {
std::string desc_; // Scenario description
std::string orig_expr_; // Subnet's pre-existing expression string
std::string new_expr_; // Subnet's new expression string
int mod_time_offset; // Offset from last_flush_time of subnet modification time
std::string exp_hostname_; // Expected calculated hostname
bool exp_flush_; // True if the cached should get flushed
ExpExpressionType exp_type_; // Expected state of the subnet's cached expression
};
/// @brief Constructor.
DdnsTuningImplTest(int family) {
impl_.reset(new TestDdnsTuningImpl(family));
}
/// @brief Destructor.
virtual ~DdnsTuningImplTest() {
}
/// @brief Fetches a specific test subnet instance.
///
/// @param index index of the desired subnet.
/// @return a reference to the desired subnet.
/// @throw OutOfRange if the index is out of range.
virtual SubnetPtr getSubnet(size_t index) {
if (index > test_subnets_.size()) {
isc_throw(OutOfRange, "subnet index: " << index << " is out of range");
}
return (test_subnets_[index]);
}
/// @brief Fetches a protocol specific packet.
///
/// @return a pointer to the packet.
virtual PktPtr getPacket() = 0;
/// @brief Updates a subnet's expression.
///
/// Stores the given expression string in the subnet's user context. If the
/// string value is "<null>" then the user context is set to an empty map.
///
/// @param subnet reference to the subnet.
/// @param expression_str string containing the desired expression or "<null>".
/// @mod_time_offset if not zero, the subnet's modification time will be set
/// to the cache's last_flush_time adjusted by this signed value. A negative
/// offset makes the subnet older than the flush time, a positive offset makes
/// the subnet newer than the flush time.
void setSubnetExpression(SubnetPtr subnet, const std::string expression_str,
int mod_time_offset = 0) {
ASSERT_TRUE(subnet);
ElementPtr user_context = Element::createMap();
if (expression_str != "<null>") {
ElementPtr ddns_tuning = Element::createMap();
ddns_tuning->set("hostname-expr", Element::create(expression_str));
user_context->set("ddns-tuning", ddns_tuning);
}
subnet->setContext(user_context);
if (mod_time_offset) {
subnet->setModificationTime(impl_->getLastFlushTime() + seconds(mod_time_offset));
}
}
std::string evaluateExpression(SubnetID subnet_id) {
PktPtr pkt = getPacket();
// Look for a hostname expression first by subnet, then globally.
auto hostname_expr = impl_->getHostnameExpression(subnet_id);
// If there isn't an expression or the expression is empty
// return an empty string.
if (!hostname_expr || (hostname_expr->empty())) {
return (std::string(""));
}
// We have an expression use it to calculate the hostname.
return (isc::dhcp::evaluateString(*hostname_expr, *pkt));
}
/// @brief Tests DdnsTuningImpl::configure() with invalid configurations.
void testInvalidConfigs() {
// Config cannot be an empty pointer.
ElementPtr config;
ASSERT_THROW_MSG(impl_->configure(config), BadValue, "params must not be null");
ASSERT_FALSE(impl_->getGlobalHostnameExpression());
// Config must be a map element.
config = Element::create("bogus");
ASSERT_THROW_MSG(impl_->configure(config), BadValue, "params must be an Element::map");
ASSERT_FALSE(impl_->getGlobalHostnameExpression());
// hostname-expr must be a string.
config = Element::createMap();
config->set("hostname-expr", Element::create(false));
ASSERT_THROW_MSG(impl_->configure(config), BadValue, "'hostname-expr' must be a string");
ASSERT_FALSE(impl_->getGlobalHostnameExpression());
// An expression parsing error should be detected.
config = Element::createMap();
config->set("hostname-expr", Element::create("bogus expression"));
ASSERT_THROW_MSG(impl_->configure(config), BadValue,
"global expression parsing failed: error parsing expression:"
" [bogus expression] : <string>:1.1: Invalid character: b");
ASSERT_FALSE(impl_->getGlobalHostnameExpression());
}
/// @brief Verifies that an empty map or an empty hostname-expr is OK.
void testEmptyConfigs() {
// An empty map should be OK.
ElementPtr config = Element::createMap();
ASSERT_NO_THROW_LOG(impl_->configure(config));
EXPECT_FALSE(impl_->getGlobalHostnameExpression());
// An empty string for global hostname-expr should be OK. It should not
// create a global expression.
config = Element::createMap();
config->set("hostname-expr", Element::create(""));
ASSERT_NO_THROW_LOG(impl_->configure(config));
ASSERT_FALSE(impl_->getGlobalHostnameExpression());
}
/// @brief Verify that a global expression can be configured and used.
void testValidGlobalExpression() {
// Configure a global expression.
ElementPtr config = Element::createMap();
config->set("hostname-expr", Element::create("'global'"));
ASSERT_NO_THROW_LOG(impl_->configure(config));
// We should be able to fetch the expression directly.
ExpressionPtr global_expr = impl_->getGlobalHostnameExpression();
ASSERT_TRUE(global_expr);
EXPECT_FALSE(global_expr->empty());
// Scoped fetch should point to the global expression. We pass in a subnet which
// does not define an expression.
ExpressionPtr also_global;
ASSERT_NO_THROW_LOG(also_global = impl_->fetchScopedHostnameExpression(getSubnet(0)));
EXPECT_EQ(also_global, global_expr);
// Now let's make a packet without the hostname option.
PktPtr pkt = getPacket();
std::string calculated_name = "orig_text";
ASSERT_NO_THROW_LOG(calculated_name = impl_->calculateHostname(pkt, (getSubnet(0))));
EXPECT_EQ(calculated_name, "global");
}
/// @brief Verify that a subnet expression can be configured and used.
void testValidSubnetExpression() {
// Configure with no global expression.
ElementPtr config = Element::createMap();
ASSERT_NO_THROW_LOG(impl_->configure(config));
// We should not have a global expression.
ASSERT_FALSE(impl_->getGlobalHostnameExpression());
// Add a valid expression string to the subnet.
SubnetPtr subnet = getSubnet(0);
setSubnetExpression(subnet, "'subnet_100'");
// Verify there is no subnet expression for our subnet.
ASSERT_FALSE(impl_->getHostnameExpression(subnet->getID()));
// A scoped fetch should return the expression.
ExpressionPtr subnet_expr;
ASSERT_NO_THROW_LOG(subnet_expr = impl_->fetchScopedHostnameExpression(subnet));
ASSERT_TRUE(subnet_expr);
// A subsequent scoped fetch should return the same expression.
ExpressionPtr also_subnet;
ASSERT_NO_THROW_LOG(also_subnet = impl_->fetchScopedHostnameExpression(subnet));
EXPECT_EQ(*also_subnet, *subnet_expr);
// Now let's make a packet without the hostname option.
PktPtr pkt = getPacket();
std::string calculated_name = "orig_text";
// Calculating the hostname based on the packet and subnet use subnet expression.
ASSERT_NO_THROW_LOG(calculated_name = impl_->calculateHostname(pkt, subnet));
EXPECT_EQ(calculated_name, "subnet_100");
// Now try it with a different subnet that has no expression.
ASSERT_NO_THROW_LOG(calculated_name = impl_->calculateHostname(pkt, getSubnet(1)));
EXPECT_EQ(calculated_name, "");
// Now try it with a different subnet that has a different expression.
setSubnetExpression(getSubnet(2), "'subnet_300'");
ASSERT_NO_THROW_LOG(calculated_name = impl_->calculateHostname(pkt, getSubnet(2)));
EXPECT_EQ(calculated_name, "subnet_300");
}
/// @brief Verify that global and subnet expressions work together properly.
void testGlobalAndSubnetExpressions() {
// Configure a simple global expression.
ElementPtr config = Element::createMap();
config->set("hostname-expr", Element::create("'global'"));
ASSERT_NO_THROW_LOG(impl_->configure(config));
// We should have a global expression.
ASSERT_TRUE(impl_->getGlobalHostnameExpression());
// Make a packet.
PktPtr pkt = getPacket();
std::string calculated_name = "orig_text";
// Calculating for a subnet without an expression should use the global expression.
ASSERT_NO_THROW_LOG(calculated_name = impl_->calculateHostname(pkt, getSubnet(0)));
EXPECT_EQ(calculated_name, "global");
// Calculating with a subnet that has an expression, should use the subnet's expression.
setSubnetExpression(getSubnet(1), "'subnet_200'");
ASSERT_NO_THROW_LOG(calculated_name = impl_->calculateHostname(pkt, getSubnet(1)));
EXPECT_EQ(calculated_name, "subnet_200");
// Calculating with a subnet with an empty expression should override the global expression.
setSubnetExpression(getSubnet(2), "");
ASSERT_NO_THROW_LOG(calculated_name = impl_->calculateHostname(pkt, getSubnet(2)));
EXPECT_EQ(calculated_name, "");
}
/// @brief Verifies that expression caching and selection responds properly when exposed
/// to a subnet that does not have an pre-existing entry in the cache.
void testNewSubnetScenarios() {
// Scenarios for the first time a subnet is seen.
std::vector<Scenario> first_exposure_scenarios = {
{
"1 older than lft, no expression",
"<null>", "<null>", offset_older, "global", no_flush, EXPR_NULL
},
{
"2 older than lft, expression",
"<null>", "'use me'", offset_older, "use me", no_flush, EXPR_VALID
},
{
"3 older than lft, empty expression",
"<null>", "", offset_older, "", no_flush, EXPR_EMPTY
},
{
"4 newer than lft, no expression",
"<null>", "<null>", offset_newer, "global", flush, EXPR_NULL
},
{
"5 newer than lft, expression",
"<null>", "'me too'", offset_newer, "me too", flush, EXPR_VALID
},
{
"6 newer than lft, empty expression",
"<null>", "", offset_newer, "", flush, EXPR_EMPTY
}
};
// Iterate over the scenarios.
for (auto const& scenario : first_exposure_scenarios) {
SCOPED_TRACE(scenario.desc_);
testSubnetExpressionScenario(scenario, false);
}
}
/// @brief Verifies that expression caching and selection responds properly
/// when exposed to a subnet that has a pre-existing entry in the cache.
void testExistingSubnetScenarios() {
// Scenarios for the first time a subnet is seen.
std::vector<Scenario> second_exposure_scenarios = {
{
"1 older than lft, no existing expression, no expression",
"<null>", "<null>", offset_older, "global", no_flush, EXPR_NULL
},
{
"2 older than lft, no existing expression, expression",
"<null>", "'not me'", offset_older, "global", no_flush, EXPR_NULL
},
{
"3 older than lft, no existing expression, empty expression",
"<null>", "", offset_older, "global", no_flush, EXPR_NULL
},
{
"4 older than lft, existing expression, expression",
"'one'", "'two'", offset_older, "one", no_flush, EXPR_VALID
},
{
"5 newer than lft, no existing expression, no expression",
"<null>", "<null>", offset_newer, "global", flush, EXPR_NULL
},
{
"6 newer than lft, no existing expression, expression",
"<null>", "'use me'", offset_newer, "use me", flush, EXPR_VALID
},
{
"7 newer than lft, no existing expression, empty expression",
"<null>", "", offset_newer, "", flush, EXPR_EMPTY
},
{
"8 newer than lft, existing expression, expression",
"'one'", "'two'", offset_newer, "two", flush, EXPR_VALID
}
};
// Iterate over the scenarios.
for (auto const& scenario : second_exposure_scenarios) {
SCOPED_TRACE(scenario.desc_);
testSubnetExpressionScenario(scenario, true);
}
}
/// @brief Verifies expression caching and use are correct for a given subnet and packet.
///
/// Prior to executing the scenario, it configures the DdnsTuningImpl with a global literal
/// expression. If make_pre_existing is true, it will pre-populate the cache with the
/// expression specified in Scenario::orig_expr_ by making an initial call to
/// @c DdnsTuningImpl::calculateHostname. Finally, it invokes calculateHostname with the
/// expression specified in Scenario::new_expr_, then verifies that the calculated name
/// and cache state is as expected.
///
/// @param scenario Scenario structure which describes the test scenario to execute.
/// @param make_pre_existing when true, the expression cache is pre-populated with an
/// expression for the given subnet.
void testSubnetExpressionScenario(struct Scenario const& scenario, bool make_pre_existing = false) {
SubnetPtr subnet = getSubnet(0);
PktPtr pkt = getPacket();
// Configure a simple global expression.
ElementPtr config = Element::createMap();
config->set("hostname-expr", Element::create("'global'"));
ASSERT_NO_THROW_LOG(impl_->configure(config));
// We should have a global expression.
ASSERT_EQ(impl_->getCacheSize(), 1); // global only
ASSERT_TRUE(impl_->getGlobalHostnameExpression());
// Flush the cache. Verify it contains only the global expression.
impl_->flushCache();
ASSERT_EQ(impl_->getCacheSize(), 1); // global only
ASSERT_TRUE(impl_->getGlobalHostnameExpression());
if (make_pre_existing) {
// Create first exposure of subnet. This should create the desired
// cache entry for the subnet.
setSubnetExpression(subnet, scenario.orig_expr_, offset_newer);
// Calling calculate should cache the appropriate expression for the subnet.
ASSERT_NO_THROW_LOG(impl_->calculateHostname(pkt, subnet));
// Verify we added an entry to the cache. We'll take it on faith that the
// expression content is correct. First exposure tests should cover this.
ASSERT_EQ(impl_->getCacheSize(), 2);
}
// Wind clock back 10 seconds. This ensures we can verify whether
// or not a flush occurs.
impl_->tweakLastFlushTime(-10);
ptime last_flush_time = impl_->getLastFlushTime();
// Replace the subnet expression.
setSubnetExpression(subnet, scenario.new_expr_, scenario.mod_time_offset);
// Calculate the hostname.
std::string calculated_name = "orig_text";
ASSERT_NO_THROW_LOG(calculated_name = impl_->calculateHostname(pkt, subnet));
// Verify that the calculated hostname is correct.
EXPECT_EQ(calculated_name, scenario.exp_hostname_);
if (scenario.exp_flush_) {
EXPECT_GT(impl_->getLastFlushTime(), last_flush_time);
} else {
EXPECT_EQ(impl_->getLastFlushTime(), last_flush_time);
}
// Verify cache size is correct: global + subnet.
EXPECT_EQ(impl_->getCacheSize(), 2);
// Verify the cached expression is what we expect.
ExpressionPtr cached_expr = impl_->getHostnameExpression(subnet->getID());
switch (scenario.exp_type_) {
case EXPR_NULL:
EXPECT_FALSE(cached_expr);
break;
case EXPR_EMPTY:
ASSERT_TRUE(cached_expr);
EXPECT_TRUE(cached_expr->empty());
break;
case EXPR_VALID:
ASSERT_TRUE(cached_expr);
EXPECT_FALSE(cached_expr->empty());
break;
}
}
/// @brief Exercises repopulateCache() function
///
/// Makes successive calls to DdnsTuningImpl::repopulateCache() and verifies the
/// cache content and expression errors encountered (if any).
///
/// @tparam CfgSubnetPtrType pointer type of the subnet configuration (CfgSubnets4Ptr or
/// CfgSubnets6Ptr)
/// @tparam CfgSubnetType class type of the subnet configuration (CfgSubnets4 or CfgSubnets6)
/// @tparam SubnetType class type of the subnets in the configuration (Subnet4 or Subnet6)
template<typename CfgSubnetPtrType, typename CfgSubnetType, typename SubnetType>
void testRepopulateCache() {
// First we prepopulate the cached with a global expression and an expression
// for a soon to be non-existent subnet.
// Add a global expression.
ExpressionPtr expression = impl_->parseExpression("'global'");
impl_->setGlobalHostnameExpression(expression);
// Add an expression for subnet 999.
expression = impl_->parseExpression("'999'");
impl_->setHostnameExpression(999, expression);
// Cache size should be two.
EXPECT_EQ(2, impl_->getCacheSize());
// Verify both expressions are cached correctly.
ASSERT_EQ(evaluateExpression(0), "global");
ASSERT_EQ(evaluateExpression(999), "999");
// Create an empty subnet configuration.
CfgSubnetPtrType cfg_subnets(new CfgSubnetType());
// Call repopulateCache() with an empty list of subnets.
// This should succeed and leave the cache with only the global
// expression.
int err_count = 0;
ASSERT_NO_THROW(err_count = impl_->repopulateCache(cfg_subnets));
EXPECT_EQ(0, err_count);
// Make sure global is still there.
ASSERT_EQ(evaluateExpression(0), "global");
// Make sure 999 is no longer there.
ASSERT_EQ(evaluateExpression(999), "");
// Now let's add four subnets to the configuration.
cfg_subnets->add(boost::dynamic_pointer_cast<SubnetType>(getSubnet(0)));
cfg_subnets->add(boost::dynamic_pointer_cast<SubnetType>(getSubnet(1)));
cfg_subnets->add(boost::dynamic_pointer_cast<SubnetType>(getSubnet(2)));
cfg_subnets->add(boost::dynamic_pointer_cast<SubnetType>(getSubnet(3)));
// Add valid expression to each subnet.
setSubnetExpression(getSubnet(0), "'one'");
setSubnetExpression(getSubnet(1), "'two'");
setSubnetExpression(getSubnet(2), "'three'");
setSubnetExpression(getSubnet(3), "'four'");
// Verify that we repopulate without any errors.
ASSERT_NO_THROW(err_count = impl_->repopulateCache(cfg_subnets));
EXPECT_EQ(0, err_count);
// Make sure global expresion is still there.
ASSERT_EQ(evaluateExpression(0), "global");
// Verify the expression cached for each subnet is correct.
ASSERT_EQ(evaluateExpression(getSubnet(0)->getID()), "one");
ASSERT_EQ(evaluateExpression(getSubnet(1)->getID()), "two");
ASSERT_EQ(evaluateExpression(getSubnet(2)->getID()), "three");
ASSERT_EQ(evaluateExpression(getSubnet(3)->getID()), "four");
// Now let's update the subnet expressions, two of which are invalid.
setSubnetExpression(getSubnet(0), "'one-ok'");
setSubnetExpression(getSubnet(1), "two-broken");
setSubnetExpression(getSubnet(2), "'three-ok'");
setSubnetExpression(getSubnet(3), "four-broken");
// Verify that we repopulate with two errors reported.
ASSERT_NO_THROW(err_count = impl_->repopulateCache(cfg_subnets));
EXPECT_EQ(2, err_count);
// Make sure global is still there.
ASSERT_EQ(evaluateExpression(0), "global");
// Verify the expressions cached for one and three are updated,
// and two and four are empty.
ASSERT_EQ(evaluateExpression(getSubnet(0)->getID()), "one-ok");
ASSERT_EQ(evaluateExpression(getSubnet(1)->getID()), "");
ASSERT_EQ(evaluateExpression(getSubnet(2)->getID()), "three-ok");
ASSERT_EQ(evaluateExpression(getSubnet(3)->getID()), "");
}
/// @brief Flex Option implementation.
boost::shared_ptr<TestDdnsTuningImpl> impl_;
/// @brief Holds pointers to subnets used in tests.
std::vector<SubnetPtr> test_subnets_;
};
/// @brief Test fixture for testing the DDNS Tuning library.
class DdnsTuningImplTest4 : public DdnsTuningImplTest {
public:
/// @brief Constructor.
DdnsTuningImplTest4() : DdnsTuningImplTest(AF_INET) {
}
/// @brief Initializes the test after construction.
virtual void SetUp() {
ASSERT_EQ(impl_->getFamily(), AF_INET);
initTestSubnets();
}
/// @brief Destructor.
virtual ~DdnsTuningImplTest4() {
}
/// @brief Construct a new V4 packet.
/// @return Pointer to the new packet.
virtual PktPtr getPacket() {
return (Pkt4Ptr(new Pkt4(DHCPDISCOVER, 12345)));
}
/// @brief Initialize the subnets used during testing.
void initTestSubnets() {
ElementPtr user_context = Element::createMap();
Subnet4Ptr subnet(new Subnet4(IOAddress("192.0.10.0"), 24, 30, 40, 60, 100));
subnet->setContext(user_context);
test_subnets_.push_back(subnet);
user_context = Element::createMap();
subnet.reset(new Subnet4(IOAddress("192.0.20.0"), 24, 30, 40, 60, 200));
subnet->setContext(user_context);
test_subnets_.push_back(subnet);
user_context = Element::createMap();
subnet.reset(new Subnet4(IOAddress("192.0.30.0"), 24, 30, 40, 60, 300));
subnet->setContext(user_context);
test_subnets_.push_back(subnet);
user_context = Element::createMap();
subnet.reset(new Subnet4(IOAddress("192.0.40.0"), 24, 30, 40, 60, 400));
subnet->setContext(user_context);
test_subnets_.push_back(subnet);
}
};
/// @brief Test fixture for testing the DDNS Tuning library.
class DdnsTuningImplTest6 : public DdnsTuningImplTest {
public:
/// @brief Constructor.
DdnsTuningImplTest6() : DdnsTuningImplTest(AF_INET6) {
}
/// @brief Initializes the test after construction.
virtual void SetUp() {
ASSERT_EQ(impl_->getFamily(), AF_INET6);
initTestSubnets();
}
/// @brief Destructor.
virtual ~DdnsTuningImplTest6() {
}
/// @brief Construct a new V6 packet.
/// @return Pointer to the new packet.
virtual PktPtr getPacket() {
return (Pkt6Ptr(new Pkt6(DHCPV6_SOLICIT, 12345)));
}
/// @brief Initialize the subnets used during testing.
void initTestSubnets() {
ElementPtr user_context = Element::createMap();
Subnet6Ptr subnet(new Subnet6(IOAddress("3001:1::"), 64, 30, 40, 50, 60, 100));
subnet->setContext(user_context);
test_subnets_.push_back(subnet);
user_context = Element::createMap();
subnet.reset(new Subnet6(IOAddress("3001:2::"), 64, 30, 40, 50, 60, 200));
subnet->setContext(user_context);
test_subnets_.push_back(subnet);
user_context = Element::createMap();
subnet.reset(new Subnet6(IOAddress("3001:3::"), 64, 30, 40, 50, 60, 300));
subnet->setContext(user_context);
test_subnets_.push_back(subnet);
user_context = Element::createMap();
subnet.reset(new Subnet6(IOAddress("3001:4::"), 64, 30, 40, 50, 60, 400));
subnet->setContext(user_context);
test_subnets_.push_back(subnet);
}
};
TEST_F(DdnsTuningImplTest4, invalidConfigs) {<--- syntax error
testInvalidConfigs();
}
TEST_F(DdnsTuningImplTest4, invalidConfigsMultiThreading) {
MultiThreadingTest mt(true);
testInvalidConfigs();
}
TEST_F(DdnsTuningImplTest6, invalidConfigs) {
testInvalidConfigs();
}
TEST_F(DdnsTuningImplTest6, invalidConfigsMultiThreading) {
MultiThreadingTest mt(true);
testInvalidConfigs();
}
TEST_F(DdnsTuningImplTest4, emptyConfig) {
testEmptyConfigs();
}
TEST_F(DdnsTuningImplTest4, emptyConfigMultiThreading) {
MultiThreadingTest mt(true);
testEmptyConfigs();
}
TEST_F(DdnsTuningImplTest6, emptyConfig) {
testEmptyConfigs();
}
TEST_F(DdnsTuningImplTest6, emptyConfigMultiThreading) {
MultiThreadingTest mt(true);
testEmptyConfigs();
}
TEST_F(DdnsTuningImplTest4, validGlobalExpression) {
testValidGlobalExpression();
}
TEST_F(DdnsTuningImplTest4, validGlobalExpressionMultiThreading) {
MultiThreadingTest mt(true);
testValidGlobalExpression();
}
TEST_F(DdnsTuningImplTest6, validGlobalExpression) {
testValidGlobalExpression();
}
TEST_F(DdnsTuningImplTest6, validGlobalExpressionMultiThreading) {
MultiThreadingTest mt(true);
testValidGlobalExpression();
}
TEST_F(DdnsTuningImplTest4, validSubnetExpression) {
testValidSubnetExpression();
}
TEST_F(DdnsTuningImplTest4, validSubnetExpressionMultiThreading) {
MultiThreadingTest mt(true);
testValidSubnetExpression();
}
TEST_F(DdnsTuningImplTest6, validSubnetExpression) {
testValidSubnetExpression();
}
TEST_F(DdnsTuningImplTest6, validSubnetExpressionMultiThreading) {
MultiThreadingTest mt(true);
testValidSubnetExpression();
}
TEST_F(DdnsTuningImplTest4, globalAndSubnetExpressions) {
testGlobalAndSubnetExpressions();
}
TEST_F(DdnsTuningImplTest4, globalAndSubnetExpressionsMultiThreading) {
MultiThreadingTest mt(true);
testGlobalAndSubnetExpressions();
}
TEST_F(DdnsTuningImplTest6, globalAndSubnetExpressions) {
testGlobalAndSubnetExpressions();
}
TEST_F(DdnsTuningImplTest6, globalAndSubnetExpressionsMultiThreading) {
MultiThreadingTest mt(true);
testGlobalAndSubnetExpressions();
}
TEST_F(DdnsTuningImplTest4, newSubnetScenarios) {
testNewSubnetScenarios();
}
TEST_F(DdnsTuningImplTest4, newSubnetScenariosMultiThreading) {
MultiThreadingTest mt(true);
testNewSubnetScenarios();
}
TEST_F(DdnsTuningImplTest6, newSubnetScenarios) {
testNewSubnetScenarios();
}
TEST_F(DdnsTuningImplTest6, newSubnetScenariosMultiThreading) {
MultiThreadingTest mt(true);
testNewSubnetScenarios();
}
TEST_F(DdnsTuningImplTest4, existingSubnetScenarios) {
testExistingSubnetScenarios();
}
TEST_F(DdnsTuningImplTest4, existingSubnetScenariosMultiThreading) {
MultiThreadingTest mt(true);
testExistingSubnetScenarios();
}
TEST_F(DdnsTuningImplTest6, existingSubnetScenarios) {
testExistingSubnetScenarios();
}
TEST_F(DdnsTuningImplTest6, existingSubnetScenariosMultiThreading) {
MultiThreadingTest mt(true);
testExistingSubnetScenarios();
}
TEST_F(DdnsTuningImplTest4, repopulateCache) {
testRepopulateCache<CfgSubnets4Ptr, CfgSubnets4, Subnet4>();
}
TEST_F(DdnsTuningImplTest4, repopulateCacheMultiThreading) {
MultiThreadingTest mt(true);
testRepopulateCache<CfgSubnets4Ptr, CfgSubnets4, Subnet4>();
}
TEST_F(DdnsTuningImplTest6, repopulateCache) {
testRepopulateCache<CfgSubnets6Ptr, CfgSubnets6, Subnet6>();
}
TEST_F(DdnsTuningImplTest6, repopulateCacheMuliThreading) {
MultiThreadingTest mt(true);
testRepopulateCache<CfgSubnets6Ptr, CfgSubnets6, Subnet6>();
}
} // end of anonymous namespace
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