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|
// Copyright (C) 2013-2023 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_address.h>
#include <cc/data.h>
#include <cc/command_interpreter.h>
#include <dhcp4/json_config_parser.h>
#include <dhcp4/tests/dhcp4_test_utils.h>
#include <dhcp/libdhcp++.h>
#include <dhcp/option4_addrlst.h>
#include <dhcp/option_int.h>
#include <dhcp/option_int_array.h>
#include <dhcp/option_custom.h>
#include <dhcp/iface_mgr.h>
#include <dhcp/tests/iface_mgr_test_config.h>
#include <dhcp/tests/pkt_captures.h>
#include <dhcpsrv/cfg_db_access.h>
#include <dhcpsrv/cfg_multi_threading.h>
#include <dhcpsrv/cfgmgr.h>
#include <dhcpsrv/lease.h>
#include <dhcpsrv/lease_mgr.h>
#include <dhcpsrv/lease_mgr_factory.h>
#include <log/logger_support.h>
#include <stats/stats_mgr.h>
#include <sstream>
using namespace std;
using namespace isc::asiolink;
using namespace isc::data;
using namespace isc::util;
namespace isc {
namespace dhcp {
namespace test {
BaseServerTest::BaseServerTest()
: original_datadir_(CfgMgr::instance().getDataDir()) {
CfgMgr::instance().setDataDir(TEST_DATA_BUILDDIR);
}
BaseServerTest::~BaseServerTest() {
// Remove default lease file.
std::ostringstream s2;
s2 << CfgMgr::instance().getDataDir() << "/kea-leases4.csv";
static_cast<void>(::remove(s2.str().c_str()));
// Revert to original data directory.
CfgMgr::instance().setDataDir(original_datadir_);
// Revert to unit test logging, in case the test reconfigured it.
isc::log::initLogger();
}
Dhcpv4SrvTest::Dhcpv4SrvTest()
: rcode_(-1), srv_(0), multi_threading_(false) {
// Wipe any existing statistics
isc::stats::StatsMgr::instance().removeAll();
subnet_ = Subnet4::create(IOAddress("192.0.2.0"),
24, 1000, 2000, 3000, SubnetID(1));
pool_ = Pool4Ptr(new Pool4(IOAddress("192.0.2.100"), IOAddress("192.0.2.110")));
subnet_->addPool(pool_);
// Add Router option.
Option4AddrLstPtr opt_routers(new Option4AddrLst(DHO_ROUTERS));
opt_routers->setAddress(IOAddress("192.0.2.2"));
subnet_->getCfgOption()->add(opt_routers, false, false,
DHCP4_OPTION_SPACE);
CfgMgr::instance().clear();
CfgMgr::instance().setFamily(AF_INET);
CfgMgr::instance().getStagingCfg()->getCfgSubnets4()->add(subnet_);
CfgMgr::instance().commit();
LibDHCP::clearRuntimeOptionDefs();
// Let's wipe all existing statistics.
isc::stats::StatsMgr::instance().removeAll();
// Reset the thread pool.
MultiThreadingMgr::instance().apply(false, 0, 0);
}
Dhcpv4SrvTest::~Dhcpv4SrvTest() {
// Make sure that we revert to default value
CfgMgr::instance().clear();
LibDHCP::clearRuntimeOptionDefs();
// Let's wipe all existing statistics.
isc::stats::StatsMgr::instance().removeAll();
// Reset the thread pool.
MultiThreadingMgr::instance().apply(false, 0, 0);
}
void Dhcpv4SrvTest::addPrlOption(Pkt4Ptr& pkt) {
OptionUint8ArrayPtr option_prl =
OptionUint8ArrayPtr(new OptionUint8Array(Option::V4,
DHO_DHCP_PARAMETER_REQUEST_LIST));
// Let's request options that have been configured for the subnet.
option_prl->addValue(DHO_DOMAIN_NAME_SERVERS);
option_prl->addValue(DHO_DOMAIN_NAME);
option_prl->addValue(DHO_LOG_SERVERS);
option_prl->addValue(DHO_COOKIE_SERVERS);
// Let's also request the option that hasn't been configured. In such
// case server should ignore request for this particular option.
option_prl->addValue(DHO_LPR_SERVERS);
// And add 'Parameter Request List' option into the DISCOVER packet.
pkt->addOption(option_prl);
}
ConstElementPtr
Dhcpv4SrvTest::configure(Dhcpv4Srv& server, ConstElementPtr config) {
ConstElementPtr const status(configureDhcp4Server(server, config));
// Simulate the application of MT config such as in ControlledDhcpvXSrv::processConfig().
CfgMultiThreading::apply(CfgMgr::instance().getStagingCfg()->getDHCPMultiThreading());
return status;
}
void
Dhcpv4SrvTest::configureRequestedOptions() {
// dns-servers
Option4AddrLstPtr
option_dns_servers(new Option4AddrLst(DHO_DOMAIN_NAME_SERVERS));
option_dns_servers->addAddress(IOAddress("192.0.2.1"));
option_dns_servers->addAddress(IOAddress("192.0.2.100"));
ASSERT_NO_THROW(subnet_->getCfgOption()->add(option_dns_servers, false,
false, DHCP4_OPTION_SPACE));
// domain-name
OptionDefinition def("domain-name", DHO_DOMAIN_NAME, DHCP4_OPTION_SPACE,
OPT_FQDN_TYPE);
OptionCustomPtr option_domain_name(new OptionCustom(def, Option::V4));
option_domain_name->writeFqdn("example.com");
subnet_->getCfgOption()->add(option_domain_name, false, false,
DHCP4_OPTION_SPACE);
// log-servers
Option4AddrLstPtr option_log_servers(new Option4AddrLst(DHO_LOG_SERVERS));
option_log_servers->addAddress(IOAddress("192.0.2.2"));
option_log_servers->addAddress(IOAddress("192.0.2.10"));
ASSERT_NO_THROW(subnet_->getCfgOption()->add(option_log_servers, false,
false, DHCP4_OPTION_SPACE));
// cookie-servers
Option4AddrLstPtr option_cookie_servers(new Option4AddrLst(DHO_COOKIE_SERVERS));
option_cookie_servers->addAddress(IOAddress("192.0.2.1"));
ASSERT_NO_THROW(subnet_->getCfgOption()->add(option_cookie_servers, false,
false, DHCP4_OPTION_SPACE));
}
void
Dhcpv4SrvTest::configureServerIdentifier() {
CfgMgr& cfg_mgr = CfgMgr::instance();
CfgSubnets4Ptr subnets = cfg_mgr.getStagingCfg()->getCfgSubnets4();
// Build and add subnet2.
Subnet4Ptr subnet2(new Subnet4(IOAddress("192.0.2.0"), 24, 1200, 2400, 3600, 2));
Pool4Ptr pool(new Pool4(IOAddress("192.0.2.100"), IOAddress("192.0.2.200")));
// Add server identifier to the pool.
OptionCustomPtr server_id = makeServerIdOption(IOAddress("192.0.2.254"));
CfgOptionPtr cfg_option = pool->getCfgOption();
cfg_option->add(server_id, false, false, DHCP4_OPTION_SPACE);
subnet2->addPool(pool);
// Add a second pool.
pool.reset(new Pool4(IOAddress("192.0.2.201"), IOAddress("192.0.2.220")));
subnet2->addPool(pool);
subnets->add(subnet2);
// Build and add subnet3.
Triplet<uint32_t> unspec;
Subnet4Ptr subnet3(new Subnet4(IOAddress("192.0.3.0"), 24, unspec, unspec, 3600, 3));
pool.reset(new Pool4(IOAddress("192.0.3.100"), IOAddress("192.0.3.200")));
subnet3->addPool(pool);
subnet3->setT1Percent(0.5);
subnet3->setT2Percent(0.75);
subnet3->setCalculateTeeTimes(true);
// Add server identifier.
server_id = makeServerIdOption(IOAddress("192.0.3.254"));
cfg_option = subnet3->getCfgOption();
cfg_option->add(server_id, false, false, DHCP4_OPTION_SPACE);
subnets->add(subnet3);
// Build and add subnet4.
Subnet4Ptr subnet4(new Subnet4(IOAddress("192.0.4.0"), 24, unspec, unspec, 3600, 4));
pool.reset(new Pool4(IOAddress("192.0.4.100"), IOAddress("192.0.4.200")));
subnet4->addPool(pool);
subnet4->setCalculateTeeTimes(false);
subnets->add(subnet4);
// Build and add subnet5.
Subnet4Ptr subnet5(new Subnet4(IOAddress("192.0.5.0"), 24, unspec, unspec, 3600, 5));
pool.reset(new Pool4(IOAddress("192.0.5.100"), IOAddress("192.0.5.200")));
subnet5->addPool(pool);
subnet5->setCalculateTeeTimes(false);
subnets->add(subnet5);
CfgOptionPtr options(new CfgOption());
OptionDescriptor desc(false, false);
desc.option_ = makeServerIdOption(IOAddress("192.0.5.254"));
options->add(desc, DHCP4_OPTION_SPACE);
CfgMgr::instance().getStagingCfg()->getClientClassDictionary()->addClass("foo", ExpressionPtr(), "", true, false, options);
subnet5->requireClientClass("foo");
// Build and add subnet6.
Subnet4Ptr subnet6(new Subnet4(IOAddress("192.0.6.0"), 24, unspec, unspec, 3600, 6));
pool.reset(new Pool4(IOAddress("192.0.6.100"), IOAddress("192.0.6.200")));
subnet6->addPool(pool);
subnet6->setCalculateTeeTimes(false);
subnets->add(subnet6);
options.reset(new CfgOption());
OptionDescriptor desc_other(false, false);
desc_other.option_ = makeFqdnListOption();
options->add(desc_other, DHCP4_OPTION_SPACE);
CfgMgr::instance().getStagingCfg()->getClientClassDictionary()->addClass("bar", ExpressionPtr(), "", true, false, options);
subnet6->requireClientClass("bar");
// Build and add subnet7.
Subnet4Ptr subnet7(new Subnet4(IOAddress("192.0.7.0"), 24, unspec, unspec, 3600, 7));
pool.reset(new Pool4(IOAddress("192.0.7.100"), IOAddress("192.0.7.200")));
subnet7->addPool(pool);
subnet7->setCalculateTeeTimes(false);
subnets->add(subnet7);
options.reset();
CfgMgr::instance().getStagingCfg()->getClientClassDictionary()->addClass("xyz", ExpressionPtr(), "", true, false, options);
subnet7->requireClientClass("xyz");
// Build and add a shared-network.
CfgSharedNetworks4Ptr networks = cfg_mgr.getStagingCfg()->getCfgSharedNetworks4();
SharedNetwork4Ptr network1(new SharedNetwork4("one"));
network1->add(subnet4);
// Add server identifier.
server_id = makeServerIdOption(IOAddress("192.0.4.254"));
cfg_option = network1->getCfgOption();
cfg_option->add(server_id, false, false, DHCP4_OPTION_SPACE);
networks->add(network1);
// Add a global server identifier.
cfg_option = cfg_mgr.getStagingCfg()->getCfgOption();
server_id = makeServerIdOption(IOAddress("10.0.0.254"));
cfg_option->add(server_id, false, false, DHCP4_OPTION_SPACE);
// Commit the config.
cfg_mgr.commit();
}
void
Dhcpv4SrvTest::messageCheck(const Pkt4Ptr& q, const Pkt4Ptr& a) {
ASSERT_TRUE(q);
ASSERT_TRUE(a);
EXPECT_EQ(q->getHops(), a->getHops());
EXPECT_EQ(q->getIface(), a->getIface());
EXPECT_EQ(q->getIndex(), a->getIndex());
EXPECT_EQ(q->getGiaddr(), a->getGiaddr());
// When processing an incoming packet the remote address
// is copied as a src address, and the source address is
// copied as a remote address to the response.
EXPECT_TRUE(q->getLocalHWAddr() == a->getLocalHWAddr());
EXPECT_TRUE(q->getRemoteHWAddr() == a->getRemoteHWAddr());
// Check that the server identifier is present in the response.
// Presence (or absence) of other options is checked elsewhere.
EXPECT_TRUE(a->getOption(DHO_DHCP_SERVER_IDENTIFIER));
// Check that something is offered
EXPECT_NE("0.0.0.0", a->getYiaddr().toText());
}
::testing::AssertionResult
Dhcpv4SrvTest::basicOptionsPresent(const Pkt4Ptr& pkt) {
std::ostringstream errmsg;
errmsg << "option missing in the response";
if (!pkt->getOption(DHO_DOMAIN_NAME)) {
return (::testing::AssertionFailure(::testing::Message()
<< "domain-name " << errmsg.str()));
} else if (!pkt->getOption(DHO_DOMAIN_NAME_SERVERS)) {
return (::testing::AssertionFailure(::testing::Message()
<< "dns-servers " << errmsg.str()));
} else if (!pkt->getOption(DHO_SUBNET_MASK)) {
return (::testing::AssertionFailure(::testing::Message()
<< "subnet-mask " << errmsg.str()));
} else if (!pkt->getOption(DHO_ROUTERS)) {
return (::testing::AssertionFailure(::testing::Message() << "routers "
<< errmsg.str()));
} else if (!pkt->getOption(DHO_DHCP_LEASE_TIME)) {
return (::testing::AssertionFailure(::testing::Message() <<
"dhcp-lease-time " << errmsg.str()));
}
return (::testing::AssertionSuccess());
}
::testing::AssertionResult
Dhcpv4SrvTest::noBasicOptions(const Pkt4Ptr& pkt) {
std::ostringstream errmsg;
errmsg << "option present in the response";
if (pkt->getOption(DHO_DOMAIN_NAME)) {
return (::testing::AssertionFailure(::testing::Message()
<< "domain-name " << errmsg.str()));
} else if (pkt->getOption(DHO_DOMAIN_NAME_SERVERS)) {
return (::testing::AssertionFailure(::testing::Message()
<< "dns-servers " << errmsg.str()));
} else if (pkt->getOption(DHO_SUBNET_MASK)) {
return (::testing::AssertionFailure(::testing::Message()
<< "subnet-mask " << errmsg.str()));
} else if (pkt->getOption(DHO_ROUTERS)) {
return (::testing::AssertionFailure(::testing::Message() << "routers "
<< errmsg.str()));
} else if (pkt->getOption(DHO_DHCP_LEASE_TIME)) {
return (::testing::AssertionFailure(::testing::Message()
<< "dhcp-lease-time " << errmsg.str()));
}
return (::testing::AssertionSuccess());
}
::testing::AssertionResult
Dhcpv4SrvTest::requestedOptionsPresent(const Pkt4Ptr& pkt) {
std::ostringstream errmsg;
errmsg << "option missing in the response";
if (!pkt->getOption(DHO_LOG_SERVERS)) {
return (::testing::AssertionFailure(::testing::Message()
<< "log-servers " << errmsg.str()));
} else if (!pkt->getOption(DHO_COOKIE_SERVERS)) {
return (::testing::AssertionFailure(::testing::Message()
<< "cookie-servers " << errmsg.str()));
}
return (::testing::AssertionSuccess());
}
::testing::AssertionResult
Dhcpv4SrvTest::noRequestedOptions(const Pkt4Ptr& pkt) {
std::ostringstream errmsg;
errmsg << "option present in the response";
if (pkt->getOption(DHO_LOG_SERVERS)) {
return (::testing::AssertionFailure(::testing::Message()
<< "log-servers " << errmsg.str()));
} else if (pkt->getOption(DHO_COOKIE_SERVERS)) {
return (::testing::AssertionFailure(::testing::Message()
<< "cookie-servers " << errmsg.str()));
}
return (::testing::AssertionSuccess());
}
OptionPtr
Dhcpv4SrvTest::generateClientId(size_t size /*= 4*/) {
OptionBuffer clnt_id(size);
for (size_t i = 0; i < size; i++) {
clnt_id[i] = 100 + i;
}
client_id_ = ClientIdPtr(new ClientId(clnt_id));
return (OptionPtr(new Option(Option::V4, DHO_DHCP_CLIENT_IDENTIFIER,
clnt_id.begin(),
clnt_id.begin() + size)));
}
HWAddrPtr
Dhcpv4SrvTest::generateHWAddr(size_t size /*= 6*/) {
const uint8_t hw_type = 123; // Just a fake number (typically 6=HTYPE_ETHER, see dhcp4.h)
OptionBuffer mac(size);
for (size_t i = 0; i < size; ++i) {
mac[i] = 50 + i;
}
return (HWAddrPtr(new HWAddr(mac, hw_type)));
}
OptionCustomPtr
Dhcpv4SrvTest::makeServerIdOption(const IOAddress& address) {
OptionDefinitionPtr option_def = LibDHCP::getOptionDef(DHCP4_OPTION_SPACE,
DHO_DHCP_SERVER_IDENTIFIER);
OptionCustomPtr server_id(new OptionCustom(*option_def, Option::V4));
server_id->writeAddress(address);
return (server_id);
}
OptionPtr
Dhcpv4SrvTest::makeFqdnListOption() {
OptionDefinitionPtr def = LibDHCP::getOptionDef(DHCP4_OPTION_SPACE,
DHO_DOMAIN_SEARCH);
// Prepare buffer holding an array of FQDNs.
const uint8_t fqdn[] = {
8, 109, 121, 100, 111, 109, 97, 105, 110, // "mydomain"
7, 101, 120, 97, 109, 112, 108, 101, // "example"
3, 99, 111, 109, // "com"
0
};
// Initialize a vector with the FQDN data.
std::vector<uint8_t> fqdn_buf(fqdn, fqdn + sizeof(fqdn));
OptionPtr option = def->optionFactory(Option::V4, DHO_DOMAIN_SEARCH,
fqdn_buf.begin(), fqdn_buf.end());
return (option);
}
void
Dhcpv4SrvTest::checkAddressParams(const Pkt4Ptr& rsp,
const Subnet4Ptr subnet,
bool t1_present,
bool t2_present,
uint32_t expected_valid) {
// Technically inPool implies inRange, but let's be on the safe
// side and check both.
EXPECT_TRUE(subnet->inRange(rsp->getYiaddr()));
EXPECT_TRUE(subnet->inPool(Lease::TYPE_V4, rsp->getYiaddr()));
// Check lease time
OptionUint32Ptr opt = boost::dynamic_pointer_cast<
OptionUint32>(rsp->getOption(DHO_DHCP_LEASE_TIME));
if (!opt) {
ADD_FAILURE() << "Lease time option missing in response or the"
" option has unexpected type";
} else if (subnet->getValid().getMin() != subnet->getValid().getMax()) {
EXPECT_GE(opt->getValue(), subnet->getValid().getMin());
EXPECT_LE(opt->getValue(), subnet->getValid().getMax());
} else {
EXPECT_EQ(opt->getValue(), subnet->getValid());
}
// Check expected value when wanted.
if (opt && expected_valid) {
EXPECT_EQ(opt->getValue(), expected_valid);
}
// Check T1 timer
opt = boost::dynamic_pointer_cast<
OptionUint32>(rsp->getOption(DHO_DHCP_RENEWAL_TIME));
if (t1_present) {
ASSERT_TRUE(opt) << "Required T1 option missing or it has"
" an unexpected type";
EXPECT_EQ(opt->getValue(), subnet->getT1());
} else {
EXPECT_FALSE(opt);
}
// Check T2 timer
opt = boost::dynamic_pointer_cast<
OptionUint32>(rsp->getOption(DHO_DHCP_REBINDING_TIME));
if (t2_present) {
ASSERT_TRUE(opt) << "Required T2 option missing or it has"
" an unexpected type";
EXPECT_EQ(opt->getValue(), subnet->getT2());
} else {
EXPECT_FALSE(opt);
}
}
void
Dhcpv4SrvTest::checkResponse(const Pkt4Ptr& rsp, int expected_message_type,
uint32_t expected_transid) {
ASSERT_TRUE(rsp);
EXPECT_EQ(expected_message_type,
static_cast<int>(rsp->getType()));
EXPECT_EQ(expected_transid, rsp->getTransid());
}
Lease4Ptr
Dhcpv4SrvTest::checkLease(const Pkt4Ptr& rsp, const OptionPtr& client_id,
const HWAddrPtr&, const IOAddress& expected_addr) {
ClientIdPtr id;
if (client_id) {
OptionBuffer data = client_id->getData();
id.reset(new ClientId(data));
}
Lease4Ptr lease = LeaseMgrFactory::instance().getLease4(expected_addr);
if (!lease) {
cout << "Lease for " << expected_addr
<< " not found in the database backend.";
return (Lease4Ptr());
}
EXPECT_EQ(rsp->getYiaddr(), expected_addr);
EXPECT_EQ(expected_addr, lease->addr_);
if (client_id) {
EXPECT_TRUE(*lease->client_id_ == *id);
}
EXPECT_EQ(subnet_->getID(), lease->subnet_id_);
return (lease);
}
void
Dhcpv4SrvTest::checkServerId(const Pkt4Ptr& rsp, const OptionPtr& expected_srvid) {
// Check that server included its server-id
OptionPtr opt = rsp->getOption(DHO_DHCP_SERVER_IDENTIFIER);
ASSERT_TRUE(opt);
EXPECT_EQ(opt->getType(), expected_srvid->getType() );
EXPECT_EQ(opt->len(), expected_srvid->len() );
EXPECT_TRUE(opt->getData() == expected_srvid->getData());
}
void
Dhcpv4SrvTest::checkClientId(const Pkt4Ptr& rsp, const OptionPtr& expected_clientid) {
bool include_clientid =
CfgMgr::instance().getCurrentCfg()->getEchoClientId();
// check that server included our own client-id
OptionPtr opt = rsp->getOption(DHO_DHCP_CLIENT_IDENTIFIER);
if (include_clientid) {
// Normal mode: echo back (see RFC6842)
ASSERT_TRUE(opt);
EXPECT_EQ(expected_clientid->getType(), opt->getType());
EXPECT_EQ(expected_clientid->len(), opt->len());
EXPECT_TRUE(expected_clientid->getData() == opt->getData());
} else {
// Backward compatibility mode for pre-RFC6842 devices
ASSERT_FALSE(opt);
}
}
void
Dhcpv4SrvTest::checkServerIdOption(const Pkt4Ptr& packet, const IOAddress& expected_address) {
OptionPtr opt = packet->getOption(DHO_DHCP_SERVER_IDENTIFIER);
ASSERT_TRUE(opt) << "no server-id option";
OptionCustomPtr server_id_opt = boost::dynamic_pointer_cast<OptionCustom>(opt);
ASSERT_TRUE(server_id_opt) << "server-id option is not an instance of OptionCustom";
EXPECT_EQ(expected_address, server_id_opt->readAddress());
}
::testing::AssertionResult
Dhcpv4SrvTest::createPacketFromBuffer(const Pkt4Ptr& src_pkt,
Pkt4Ptr& dst_pkt) {
// Create on-wire format of the packet. If pack() has been called
// on this instance of the packet already, the next call to pack()
// should remove all contents of the output buffer.
try {
src_pkt->pack();
} catch (const Exception& ex) {
return (::testing::AssertionFailure(::testing::Message()
<< "Failed to parse source packet: "
<< ex.what()));
}
// Get the output buffer from the source packet.
const util::OutputBuffer& buf = src_pkt->getBuffer();
// Create a copy of the packet using the output buffer from the source
// packet.
try {
dst_pkt.reset(new Pkt4(static_cast<const uint8_t*>(buf.getData()),
buf.getLength()));
} catch (const Exception& ex) {
return (::testing::AssertionFailure(::testing::Message()
<< "Failed to create a"
" destination packet from"
" the buffer: "
<< ex.what()));
}
// The dst_pkt unpack is performed on processPacket by the server.
return (::testing::AssertionSuccess());
}
void
// cppcheck-suppress unusedFunction
Dhcpv4SrvTest::TearDown() {
CfgMgr::instance().clear();
// Close all open sockets.
IfaceMgr::instance().closeSockets();
// Some unit tests override the default packet filtering class, used
// by the IfaceMgr. The dummy class, called PktFilterTest, reports the
// capability to directly respond to the clients without IP address
// assigned. This capability is not supported by the default packet
// filtering class: PktFilterInet. Therefore setting the dummy class
// allows to test scenarios, when server responds to the broadcast address
// on client's request, despite having support for direct response.
// The following call restores the use of original packet filtering class
// after the test.
try {
IfaceMgr::instance().setPacketFilter(PktFilterPtr(new PktFilterInet()));
} catch (const Exception& ex) {
FAIL() << "Failed to restore the default (PktFilterInet) packet filtering"
<< " class after the test. Exception has been caught: "
<< ex.what();
}
}
void
Dhcpv4SrvTest::testDiscoverRequest(const uint8_t msg_type) {
IfaceMgrTestConfig test_config(true);
IfaceMgr::instance().openSockets4();
// Create an instance of the tested class.
boost::scoped_ptr<NakedDhcpv4Srv> srv(new NakedDhcpv4Srv(0));
// Initialize the source HW address.
vector<uint8_t> mac(6);
for (uint8_t i = 0; i < 6; ++i) {
mac[i] = i * 10;
}
// Initialized the destination HW address.
vector<uint8_t> dst_mac(6);
for (uint8_t i = 0; i < 6; ++i) {
dst_mac[i] = i * 20;
}
// Create a DHCP message. It will be used to simulate the
// incoming message.
boost::shared_ptr<Pkt4> req(new Pkt4(msg_type, 1234));
// Create a response message. It will hold a response packet.
// Initially, set it to NULL.
boost::shared_ptr<Pkt4> rsp;
// Set the name of the interface on which packet is received.
req->setIface("eth0");
// Set the interface index.
req->setIndex(ETH0_INDEX);
// Set the target HW address. This value is normally used to
// construct the data link layer header.
req->setRemoteHWAddr(1, 6, dst_mac);
// Set the HW address. This value is set on DHCP level (in chaddr).
req->setHWAddr(1, 6, mac);
// Set local HW address. It is used to construct the data link layer
// header.
req->setLocalHWAddr(1, 6, mac);
// Set target IP address.
req->setRemoteAddr(IOAddress("192.0.2.55"));
// Set relay address and hops.
req->setGiaddr(IOAddress("192.0.2.10"));
req->setHops(1);
// We are going to test that certain options are returned
// in the response message when requested using 'Parameter
// Request List' option. Let's configure those options that
// are returned when requested.
configureRequestedOptions();
// Create a copy of the original packet by parsing its wire format.
// This simulates the real life scenario when we process the packet
// which was parsed from its wire format.
Pkt4Ptr received;
ASSERT_TRUE(createPacketFromBuffer(req, received));
received->unpack();
// Set interface. It is required for the server to generate server id.
received->setIface("eth0");
received->setIndex(ETH0_INDEX);
if (msg_type == DHCPDISCOVER) {
ASSERT_NO_THROW(rsp = srv->processDiscover(received));
// Should return OFFER
ASSERT_TRUE(rsp);
EXPECT_EQ(DHCPOFFER, rsp->getType());
} else {
ASSERT_NO_THROW(rsp = srv->processRequest(received));
// Should return ACK
ASSERT_TRUE(rsp);
EXPECT_EQ(DHCPACK, rsp->getType());
}
messageCheck(received, rsp);
// Basic options should be present when we got the lease.
EXPECT_TRUE(basicOptionsPresent(rsp));
// We did not request any options so these should not be present
// in the RSP.
EXPECT_TRUE(noRequestedOptions(rsp));
// Repeat the test but request some options.
// Add 'Parameter Request List' option.
addPrlOption(req);
ASSERT_TRUE(createPacketFromBuffer(req, received));
received->unpack();
ASSERT_TRUE(received->getOption(DHO_DHCP_PARAMETER_REQUEST_LIST));
// Set interface. It is required for the server to generate server id.
received->setIface("eth0");
received->setIndex(ETH0_INDEX);
if (msg_type == DHCPDISCOVER) {
ASSERT_NO_THROW(rsp = srv->processDiscover(received));
// Should return non-NULL packet.
ASSERT_TRUE(rsp);
EXPECT_EQ(DHCPOFFER, rsp->getType());
} else {
ASSERT_NO_THROW(rsp = srv->processRequest(received));
// Should return non-NULL packet.
ASSERT_TRUE(rsp);
EXPECT_EQ(DHCPACK, rsp->getType());
}
// Check that the requested options are returned.
EXPECT_TRUE(basicOptionsPresent(rsp));
EXPECT_TRUE(requestedOptionsPresent(rsp));
// The following part of the test will test that the NAK is sent when
// there is no address pool configured. In the same time, we expect
// that the requested options are not included in NAK message, but that
// they are only included when yiaddr is set to non-zero value.
ASSERT_NO_THROW(subnet_->delPools(Lease::TYPE_V4));
// There has been a lease allocated for the particular client. So,
// even though we deleted the subnet, the client would get the
// existing lease (not a NAK). Therefore, we have to change the chaddr
// in the packet so as the existing lease is not returned.
req->setHWAddr(1, 6, std::vector<uint8_t>(2, 6));
ASSERT_TRUE(createPacketFromBuffer(req, received));
received->unpack();
ASSERT_TRUE(received->getOption(DHO_DHCP_PARAMETER_REQUEST_LIST));
// Set interface. It is required for the server to generate server id.
received->setIface("eth0");
received->setIndex(ETH0_INDEX);
if (msg_type == DHCPDISCOVER) {
ASSERT_NO_THROW(rsp = srv->processDiscover(received));
// Should return NULL packet.
ASSERT_FALSE(rsp);
} else {
ASSERT_NO_THROW(rsp = srv->processRequest(received));
// Should return non-NULL packet.
ASSERT_TRUE(rsp);
// We should get the NAK packet with yiaddr set to 0.
EXPECT_EQ(DHCPNAK, rsp->getType());
ASSERT_EQ("0.0.0.0", rsp->getYiaddr().toText());
// Make sure that none of the requested options is returned in NAK.
// Also options such as Routers or Subnet Mask should not be there,
// because lease hasn't been acquired.
EXPECT_TRUE(noRequestedOptions(rsp));
EXPECT_TRUE(noBasicOptions(rsp));
}
}
void
Dhcpv4SrvTest::buildCfgOptionTest(IOAddress expected_server_id,
Pkt4Ptr& query,
IOAddress requested,
IOAddress server_id) {
OptionDefinitionPtr req_addr_def = LibDHCP::getOptionDef(DHCP4_OPTION_SPACE,
DHO_DHCP_REQUESTED_ADDRESS);
ASSERT_TRUE(req_addr_def);
OptionDefinitionPtr sbnsel_def = LibDHCP::getOptionDef(DHCP4_OPTION_SPACE,
DHO_SUBNET_SELECTION);
ASSERT_TRUE(sbnsel_def);
OptionCustomPtr req_addr(new OptionCustom(*req_addr_def, Option::V4));
req_addr->writeAddress(requested);
OptionCustomPtr sbnsel(new OptionCustom(*sbnsel_def, Option::V4));
sbnsel->writeAddress(requested);
query->addOption(req_addr);
query->addOption(sbnsel);
query->addOption(makeServerIdOption(server_id));
Pkt4Ptr response;
ASSERT_NO_THROW(response = srv_.processRequest(query));
checkServerIdOption(response, expected_server_id);
ASSERT_NO_THROW(query->delOption(DHO_DHCP_REQUESTED_ADDRESS));
ASSERT_NO_THROW(query->delOption(DHO_SUBNET_SELECTION));
ASSERT_NO_THROW(query->delOption(DHO_DHCP_SERVER_IDENTIFIER));
}
void
Dhcpv4SrvTest::configure(const std::string& config,
const bool commit,
const bool open_sockets,
const bool create_managers,
const bool test,
const LeaseAffinity lease_affinity) {
configure(config, srv_, commit, open_sockets, create_managers, test,
lease_affinity);
}
void
Dhcpv4SrvTest::configure(const std::string& config,
NakedDhcpv4Srv& srv,
const bool commit,
const bool open_sockets,
const bool create_managers,
const bool test,
const LeaseAffinity lease_affinity) {
setenv("KEA_LFC_EXECUTABLE", KEA_LFC_EXECUTABLE, 1);
MultiThreadingCriticalSection cs;
ConstElementPtr json;
try {
json = parseJSON(config);
} catch (const std::exception& ex){
// Fatal failure on parsing error
FAIL() << "parsing failure:"
<< "config:" << config << std::endl
<< "error: " << ex.what();
}
ConstElementPtr status;
// Disable the re-detect flag
disableIfacesReDetect(json);
// Set up multi-threading
configureMultiThreading(multi_threading_, json);
// Configure the server and make sure the config is accepted
EXPECT_NO_THROW(status = configureDhcp4Server(srv, json, test));
ASSERT_TRUE(status);
int rcode;
ConstElementPtr comment = config::parseAnswerText(rcode, status);
ASSERT_EQ(0, rcode) << "configuration failed, test is broken: "
<< comment->str();
// Use specified lease database backend.
if (create_managers) {
ASSERT_NO_THROW( {
CfgDbAccessPtr cfg_db = CfgMgr::instance().getStagingCfg()->getCfgDbAccess();
cfg_db->setAppendedParameters("universe=4");
cfg_db->createManagers();
} );
}
if (lease_affinity == LEASE_AFFINITY_DISABLED) {
auto expiration_cfg = CfgMgr::instance().getStagingCfg()->getCfgExpiration();
expiration_cfg->setFlushReclaimedTimerWaitTime(0);
expiration_cfg->setHoldReclaimedTime(0);
}
try {
CfgMgr::instance().getStagingCfg()->getCfgSubnets4()->initAllocatorsAfterConfigure();
} catch (const std::exception& ex) {
ADD_FAILURE() << "Error initializing the allocators after configure: "
<< ex.what();
}
try {
CfgMultiThreading::apply(CfgMgr::instance().getStagingCfg()->getDHCPMultiThreading());
} catch (const std::exception& ex) {
ADD_FAILURE() << "Error applying multi threading settings: "
<< ex.what();
}
if (commit) {
CfgMgr::instance().commit();
}
// Opening sockets.
if (open_sockets) {
IfaceMgr::instance().openSockets4();
}
}
std::pair<int, std::string>
Dhcpv4SrvTest::configureWithStatus(const std::string& config, NakedDhcpv4Srv& srv,
const bool commit, const int exp_rcode) {
ConstElementPtr json;
try {
json = parseJSON(config);
} catch (const std::exception& ex){
// Fatal failure on parsing error
std::stringstream tmp;
tmp << "parsing failure:"
<< "config:" << config << std::endl
<< "error: " << ex.what();
ADD_FAILURE() << tmp.str();
return (std::make_pair(-1, tmp.str()));
}
ConstElementPtr status;
// Disable the re-detect flag
disableIfacesReDetect(json);
// Configure the server and make sure the config is accepted
EXPECT_NO_THROW(status = configureDhcp4Server(srv, json));
EXPECT_TRUE(status);
if (!status) {
return (make_pair(-1, "configureDhcp4Server didn't return anything"));
}
int rcode;
ConstElementPtr comment = config::parseAnswerText(rcode, status);
EXPECT_EQ(exp_rcode, rcode) << comment->stringValue();
// Use specified lease database backend.
if (rcode == 0) {
EXPECT_NO_THROW( {
CfgDbAccessPtr cfg_db = CfgMgr::instance().getStagingCfg()->getCfgDbAccess();
cfg_db->setAppendedParameters("universe=4");
cfg_db->createManagers();
} );
if (commit) {
CfgMgr::instance().commit();
}
}
return (std::make_pair(rcode, comment->stringValue()));
}
Dhcpv4Exchange
Dhcpv4SrvTest::createExchange(const Pkt4Ptr& query) {
bool drop = false;
Subnet4Ptr subnet = srv_.selectSubnet(query, drop);
EXPECT_FALSE(drop);
AllocEngine::ClientContext4Ptr context(new AllocEngine::ClientContext4());
EXPECT_TRUE(srv_.earlyGHRLookup(query, context));
Dhcpv4Exchange ex(srv_.alloc_engine_, query, context, subnet, drop);
EXPECT_FALSE(context);
EXPECT_FALSE(drop);
return (ex);
}
void
Dhcpv4SrvTest::pretendReceivingPkt(NakedDhcpv4Srv& srv, const std::string& config,
uint8_t pkt_type, const std::string& stat_name) {
IfaceMgrTestConfig test_config(true);
IfaceMgr::instance().openSockets4();
// Apply the configuration we just received.
configure(config);
// Let's just use one of the actual captured packets that we have.
Pkt4Ptr pkt = PktCaptures::captureRelayedDiscover();
// We just need to tweak it a it, to pretend that its type is as desired.
// Note that when receiving a packet, its on-wire form is stored in data_
// field. Most methods (including setType()) operates on option objects
// (objects stored in options_ after unpack() is called). Finally, outgoing
// packets are stored in out_buffer_. So we need to go through the full
// unpack/tweak/pack cycle and do repack, i.e. move the output buffer back
// to incoming buffer.
pkt->unpack();
pkt->setType(pkt_type); // Set message type.
pkt->pack();
pkt->data_.resize(pkt->getBuffer().getLength());
// Copy out_buffer_ to data_ to pretend that it's what was just received.
memcpy(&pkt->data_[0], pkt->getBuffer().getData(), pkt->getBuffer().getLength());
// Clear options so that they can be recreated on unpack.
pkt->options_.clear();
// Simulate that we have received that traffic
srv.fakeReceive(pkt);
srv.run();
using namespace isc::stats;
StatsMgr& mgr = StatsMgr::instance();
ObservationPtr pkt4_rcvd = mgr.getObservation("pkt4-received");
ObservationPtr tested_stat = mgr.getObservation(stat_name);
// All expected statistics must be present.
ASSERT_TRUE(pkt4_rcvd);
ASSERT_TRUE(tested_stat);
// They also must have expected values.
EXPECT_EQ(1, pkt4_rcvd->getInteger().first);
EXPECT_EQ(1, tested_stat->getInteger().first);
}
} // end of isc::dhcp::test namespace
} // end of isc::dhcp namespace
} // end of isc namespace
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