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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/.
/// @file dhcp6_test_utils.h
///
/// @brief This file contains utility classes used for DHCPv6 server testing
#ifndef DHCP6_TEST_UTILS_H
#define DHCP6_TEST_UTILS_H
#include <gtest/gtest.h>
#include <dhcp6/dhcp6_srv.h>
#include <dhcp6/parser_context.h>
#include <dhcp/pkt6.h>
#include <dhcp/option6_ia.h>
#include <dhcp/option6_iaaddr.h>
#include <dhcp/option6_iaprefix.h>
#include <dhcp/option6_status_code.h>
#include <dhcp/option_int_array.h>
#include <dhcp/option_custom.h>
#include <dhcp/option.h>
#include <dhcp/iface_mgr.h>
#include <dhcp/tests/iface_mgr_test_config.h>
#include <dhcpsrv/cfgmgr.h>
#include <dhcpsrv/lease_mgr.h>
#include <dhcpsrv/lease_mgr_factory.h>
#include <hooks/hooks_manager.h>
#include <util/multi_threading_mgr.h>
#include <list>
namespace isc {
namespace dhcp {
namespace test {
/// @brief Generic wrapper to provide strongly typed values.
///
/// In many cases, the test fixture class methods require providing many
/// parameters, of which some are optional. Some of the parameters may also
/// be implicitly converted to other types. Non-careful test implementer
/// may often "shift by one" or swap two values on the arguments list, which
/// will be accepted by the compiler but will result in troubles running the
/// function. Sometimes it takes non trivial amount of debugging to find out
/// why the particular function fails until we find that the arguments were
/// swapped or shifted. In addition, the use of classes wrapping simple types
/// results in better readability of the test code.
///
/// @tparam ValueType Type of the wrapped value.
template<typename ValueType>
struct SpecializedTypeWrapper {
/// @brief Constructor
///
/// @param value Wrapped value
explicit SpecializedTypeWrapper(const ValueType& value)
: value_(value) { }
/// @brief Operator returning a wrapped value.
operator ValueType () const {
return (value_);
}
/// @brief Wrapped value.
ValueType value_;
};
/// @brief Class representing strongly typed IAID.
struct IAID : public SpecializedTypeWrapper<uint32_t> {
/// @brief Constructor
///
/// @param iaid IAID.
explicit IAID(const uint32_t iaid)
: SpecializedTypeWrapper<uint32_t>(iaid) { }
};
/// @brief Class representing strongly typed value for strict IAID checks.
///
/// Strict IAID checks are used to verify that the particular address has been
/// assign to a specific IA. In many cases we don't check that because it may
/// not be possible to predict to which IA the specific lease will be assigned.
struct StrictIAIDChecking : public SpecializedTypeWrapper<bool> {
/// @brief Constructor.
///
/// @param strict_check Boolean value indicating if strict checking should
/// be performed.
explicit StrictIAIDChecking(const bool strict_check)
: SpecializedTypeWrapper<bool>(strict_check) { }
/// @brief Convenience function returning an object indicating that strict
/// checks should be performed.
static const StrictIAIDChecking YES() {
static StrictIAIDChecking strict_check(true);
return (strict_check);
}
/// @brief Convenience function returning an object indicating that strict
/// checks should not be performed.
static StrictIAIDChecking NO() {
static StrictIAIDChecking strict_check(false);
return (strict_check);
}
};
/// @brief Base class for DHCPv6 server testing.
///
/// Currently it configures the test data path directory in
/// the @c CfgMgr. When the object is destroyed, the original
/// path is reverted.
class BaseServerTest : public ::testing::Test {
public:
/// @brief Location of a test DUID file
static const char* DUID_FILE;
/// @brief Constructor.
BaseServerTest();
/// @brief Destructor.
virtual ~BaseServerTest();
private:
/// @brief Holds the original data directory.
std::string original_datadir_;
};
/// @brief "naked" Dhcpv6Srv class that exposes internal members
class NakedDhcpv6Srv: public isc::dhcp::Dhcpv6Srv {
public:
NakedDhcpv6Srv(uint16_t port) : isc::dhcp::Dhcpv6Srv(port) {
// Open the "memfile" database for leases
std::string memfile = "type=memfile universe=6 persist=false";
isc::dhcp::LeaseMgrFactory::create(memfile);
LeaseMgr::setIOService(getIOService());
}
/// @brief fakes packet reception
/// @param timeout ignored
///
/// The method receives all packets queued in receive
/// queue, one after another. Once the queue is empty,
/// it initiates the shutdown procedure.
///
/// See fake_received_ field for description
virtual isc::dhcp::Pkt6Ptr receivePacket(int /*timeout*/) {
// If there is anything prepared as fake incoming
// traffic, use it
if (!fake_received_.empty()) {
isc::dhcp::Pkt6Ptr pkt = fake_received_.front();
fake_received_.pop_front();
return (pkt);
}
// Make sure the server processed all packets in MT.
isc::util::MultiThreadingMgr::instance().getThreadPool().wait(3);
// If not, just trigger shutdown and
// return immediately
shutdown();
return (isc::dhcp::Pkt6Ptr());
}
/// @brief fake packet sending
///
/// Pretend to send a packet, but instead just store
/// it in fake_send_ list where test can later inspect
/// server's response.
virtual void sendPacket(const isc::dhcp::Pkt6Ptr& pkt) {
isc::util::MultiThreadingLock lock(mutex_);
fake_sent_.push_back(pkt);
}
/// @brief fake receive packet from server
///
/// The client uses this packet as a reply from the server.
///
/// @return The received packet.
Pkt6Ptr receiveOneMsg() {
// Make sure the server processed all packets.
isc::util::MultiThreadingMgr::instance().getThreadPool().wait(2);
// Lock the mutex for the rest of the function.
isc::util::MultiThreadingLock lock(mutex_);
// Return empty pointer if server hasn't responded.
if (fake_sent_.empty()) {
return (Pkt6Ptr());
}
Pkt6Ptr msg = fake_sent_.front();
fake_sent_.pop_front();
return (msg);
}
/// @brief adds a packet to fake receive queue
///
/// See fake_received_ field for description
void fakeReceive(const isc::dhcp::Pkt6Ptr& pkt) {
fake_received_.push_back(pkt);
}
virtual ~NakedDhcpv6Srv() {
// Close the lease database
isc::dhcp::LeaseMgrFactory::destroy();
}
/// @brief Processes incoming Solicit message.
///
/// @param request a message received from client
/// @return REPLY message or null
Pkt6Ptr processSolicit(const Pkt6Ptr& solicit) {
AllocEngine::ClientContext6 ctx;
bool drop = !earlyGHRLookup(solicit, ctx);
initContext(solicit, ctx, drop);
if (drop) {
return (Pkt6Ptr());
}
return (processSolicit(ctx));
}
/// @brief Processes incoming Request message.
///
/// @param request a message received from client
/// @return REPLY message or null
Pkt6Ptr processRequest(const Pkt6Ptr& request) {
AllocEngine::ClientContext6 ctx;
bool drop = !earlyGHRLookup(request, ctx);
initContext(request, ctx, drop);
if (drop) {
return (Pkt6Ptr());
}
return (processRequest(ctx));
}
/// @brief Processes incoming Renew message.
///
/// @param renew a message received from client
/// @return REPLY message or null
Pkt6Ptr processRenew(const Pkt6Ptr& renew) {
AllocEngine::ClientContext6 ctx;
bool drop = !earlyGHRLookup(renew, ctx);
initContext(renew, ctx, drop);
if (drop) {
return (Pkt6Ptr());
}
return (processRenew(ctx));
}
/// @brief Processes incoming Rebind message.
///
/// @param rebind a message received from client
/// @return REPLY message or null
Pkt6Ptr processRebind(const Pkt6Ptr& rebind) {
AllocEngine::ClientContext6 ctx;
bool drop = !earlyGHRLookup(rebind, ctx);
initContext(rebind, ctx, drop);
if (drop) {
return (Pkt6Ptr());
}
return (processRebind(ctx));
}
/// @brief Processes incoming Release message.
///
/// @param release a message received from client
/// @return REPLY message or null
Pkt6Ptr processRelease(const Pkt6Ptr& release) {
AllocEngine::ClientContext6 ctx;
bool drop = !earlyGHRLookup(release, ctx);
initContext(release, ctx, drop);
if (drop) {
return (Pkt6Ptr());
}
return (processRelease(ctx));
}
/// @brief Processes incoming Decline message.
///
/// @param decline a message received from client
/// @return REPLY message or null
Pkt6Ptr processDecline(const Pkt6Ptr& decline) {
AllocEngine::ClientContext6 ctx;
bool drop = !earlyGHRLookup(decline, ctx);
initContext(decline, ctx, drop);
if (drop) {
return (Pkt6Ptr());
}
return (processDecline(ctx));
}
using Dhcpv6Srv::processSolicit;
using Dhcpv6Srv::processRequest;
using Dhcpv6Srv::processRenew;
using Dhcpv6Srv::processRebind;
using Dhcpv6Srv::processConfirm;
using Dhcpv6Srv::processRelease;
using Dhcpv6Srv::processDecline;
using Dhcpv6Srv::processInfRequest;
using Dhcpv6Srv::processClientFqdn;
using Dhcpv6Srv::createNameChangeRequests;
using Dhcpv6Srv::selectSubnet;
using Dhcpv6Srv::testServerID;
using Dhcpv6Srv::testUnicast;
using Dhcpv6Srv::sanityCheck;
using Dhcpv6Srv::classifyPacket;
using Dhcpv6Srv::shutdown_;
using Dhcpv6Srv::name_change_reqs_;
using Dhcpv6Srv::VENDOR_CLASS_PREFIX;
using Dhcpv6Srv::earlyGHRLookup;
using Dhcpv6Srv::initContext;
using Dhcpv6Srv::server_port_;
using Dhcpv6Srv::client_port_;
/// @brief packets we pretend to receive.
///
/// Instead of setting up sockets on interfaces that change between
/// OSes, it is much easier to fake packet reception. This is a list
/// of packets that we pretend to have received. You can schedule
/// new packets to be received using fakeReceive() and
/// NakedDhcpv6Srv::receivePacket() methods.
std::list<isc::dhcp::Pkt6Ptr> fake_received_;
/// @brief packets we pretend to send.
std::list<isc::dhcp::Pkt6Ptr> fake_sent_;
/// @brief Mutex to protect the packet buffers.
std::mutex mutex_;
};
/// @brief Test fixture for any tests requiring blank/empty configuration
/// serves as base class for additional tests
class NakedDhcpv6SrvTest : public BaseServerTest {
public:
/// @brief Constructor
NakedDhcpv6SrvTest();
/// @brief Generate IA_NA or IA_PD option with specified parameters
///
/// @param type The option type (usually 4 for IA_NA, 25 for IA_PD)
/// @param iaid The identity association identifier (id of IA)
/// @param t1 The T1 time
/// @param t2 The t2 time
/// @return The generated option
boost::shared_ptr<isc::dhcp::Option6IA> generateIA(uint16_t type,
uint32_t iaid,
uint32_t t1,
uint32_t t2);
/// @brief generates interface-id option, based on text
///
/// @param iface_id textual representation of the interface-id content
///
/// @return pointer to the option object
isc::dhcp::OptionPtr generateInterfaceId(const std::string& iface_id) {
isc::dhcp::OptionBuffer tmp(iface_id.begin(), iface_id.end());
return (isc::dhcp::OptionPtr(new isc::dhcp::Option(isc::dhcp::Option::V6,
D6O_INTERFACE_ID, tmp)));
}
/// @brief Generate binary data option
///
/// Creates an Option in the V6 space with the given type and binary data
/// of the given number of bytes. The data is initialized to the values
/// 100 to 100 + n, where n is the desired number of bytes.
///
/// @param type option type for the new option
/// @param data_size number of bytes of data to generate
///
/// @return Pointer to the new option
isc::dhcp::OptionPtr generateBinaryOption(const DHCPv6OptionType type,
size_t data_size) {
if (data_size == 0) {
return (isc::dhcp::OptionPtr
(new isc::dhcp::Option(isc::dhcp::Option::V6, type)));
}
isc::dhcp::OptionBuffer data_data(data_size);
for (size_t i = 0; i < data_size; i++) {
data_data[i] = 100 + i;
}
return (isc::dhcp::OptionPtr
(new isc::dhcp::Option(isc::dhcp::Option::V6, type,
data_data.begin(),
data_data.begin() + data_size)));
}
// Generate client-id option
isc::dhcp::OptionPtr generateClientId(size_t duid_size = 32) {
isc::dhcp::OptionPtr opt = generateBinaryOption(D6O_CLIENTID, duid_size);
duid_ = isc::dhcp::DuidPtr(new isc::dhcp::DUID(opt->getData()));
return (opt);
}
/// Generate server-id option
/// @param duid_size size of the duid
isc::dhcp::OptionPtr generateServerId(size_t duid_size = 32) {
isc::dhcp::OptionPtr opt = generateBinaryOption(D6O_SERVERID, duid_size);
duid_ = isc::dhcp::DuidPtr(new isc::dhcp::DUID(opt->getData()));
return (opt);
}
// Checks if server response (ADVERTISE or REPLY) includes proper
// server-id.
void checkServerId(const isc::dhcp::Pkt6Ptr& rsp,
const isc::dhcp::OptionPtr& expected_srvid) {
// check that server included its server-id
isc::dhcp::OptionPtr tmp = rsp->getOption(D6O_SERVERID);
EXPECT_EQ(tmp->getType(), expected_srvid->getType() );
ASSERT_EQ(tmp->len(), expected_srvid->len() );
EXPECT_TRUE(tmp->getData() == expected_srvid->getData());
}
// Checks if server response (ADVERTISE or REPLY) includes proper
// client-id.
void checkClientId(const isc::dhcp::Pkt6Ptr& rsp,
const isc::dhcp::OptionPtr& expected_clientid) {
// check that server included our own client-id
isc::dhcp::OptionPtr tmp = rsp->getOption(D6O_CLIENTID);
ASSERT_TRUE(tmp);
EXPECT_EQ(expected_clientid->getType(), tmp->getType());
ASSERT_EQ(expected_clientid->len(), tmp->len());
// check that returned client-id is valid
EXPECT_TRUE(expected_clientid->getData() == tmp->getData());
}
// Checks if server response is a NAK
void checkNakResponse(const isc::dhcp::Pkt6Ptr& rsp,
uint8_t expected_message_type,
uint32_t expected_transid,
uint16_t expected_status_code,
uint32_t expected_t1, uint32_t expected_t2) {
// Check if we get response at all
checkResponse(rsp, expected_message_type, expected_transid);
// Check that IA_NA was returned
isc::dhcp::OptionPtr option_ia_na = rsp->getOption(D6O_IA_NA);
ASSERT_TRUE(option_ia_na);
// check that the status is no address available
boost::shared_ptr<isc::dhcp::Option6IA> ia =
boost::dynamic_pointer_cast<isc::dhcp::Option6IA>(option_ia_na);
ASSERT_TRUE(ia);
checkIA_NAStatusCode(ia, expected_status_code, expected_t1,
expected_t2);
}
/// @brief Checks that the server inserted expected status code in IA_NA
///
/// Check that the server used status code as expected, i.e. that it has
/// no addresses (if status code is non-zero) and that expected status
/// code really appears there. In some limited cases (reply to RELEASE)
/// it may be used to verify positive case, where IA_NA response is
/// expected to not include address.
///
/// Status code indicates type of error encountered (in theory it can also
/// indicate success, but servers typically don't send success status
/// as this is the default result and it saves bandwidth)
/// @param ia IA_NA container to be checked
/// @param expected_status_code expected value in status-code option
/// @param expected_t1 expected T1 in IA_NA option
/// @param expected_t2 expected T2 in IA_NA option
/// @param check_addr whether to check for address with 0 lifetimes
void checkIA_NAStatusCode(const boost::shared_ptr<isc::dhcp::Option6IA>& ia,
uint16_t expected_status_code,
uint32_t expected_t1,
uint32_t expected_t2,
bool check_addr = true);
void checkMsgStatusCode(const isc::dhcp::Pkt6Ptr& msg,
uint16_t expected_status) {
isc::dhcp::Option6StatusCodePtr status =
boost::dynamic_pointer_cast<isc::dhcp::Option6StatusCode>
(msg->getOption(D6O_STATUS_CODE));
// It is ok to not include status success as this is the default
// behavior
if (expected_status == STATUS_Success && !status) {
return;
}
EXPECT_TRUE(status);
if (status) {
// We don't have dedicated class for status code, so let's
// just interpret first 2 bytes as status. Remainder of the
// status code option content is just a text explanation
// what went wrong.
EXPECT_EQ(static_cast<uint16_t>(expected_status),
status->getStatusCode());
}
}
// Basic checks for generated response (message type and transaction-id).
void checkResponse(const isc::dhcp::Pkt6Ptr& rsp,
uint8_t expected_message_type,
uint32_t expected_transid) {
ASSERT_TRUE(rsp);
EXPECT_EQ(expected_message_type, rsp->getType());
EXPECT_EQ(expected_transid, rsp->getTransid());
}
virtual ~NakedDhcpv6SrvTest();
// A DUID used in most tests (typically as client-id)
isc::dhcp::DuidPtr duid_;
int rcode_;
isc::data::ConstElementPtr comment_;
// Name of a valid network interface
std::string valid_iface_;
// Index of a valid network interface
uint32_t valid_ifindex_;
};
// We need to pass one reference to the Dhcp6Client, which is defined in
// dhcp6_client.h. That header includes this file. To avoid circular
// dependencies, we use forward declaration here.
class Dhcp6Client;
// Provides support for tests against a preconfigured subnet6
// extends upon NakedDhcp6SrvTest
class Dhcpv6SrvTest : public NakedDhcpv6SrvTest {
public:
/// @brief Specifies expected outcome
enum ExpectedResult {
SHOULD_PASS, // pass = accept decline, move lease to declined state.
SHOULD_FAIL // fail = reject the decline
};
/// @brief Specifies what address should the client include in its Decline
enum AddressInclusion {
VALID_ADDR, // Client will include its own, valid address
BOGUS_ADDR, // Client will include an address it doesn't own
NO_ADDR, // Client will send empty IA_NA (without address)
NO_IA // Client will not send IA_NA at all
};
/// @brief Specifies if lease affinity is enabled or disabled
enum LeaseAffinity {
LEASE_AFFINITY_ENABLED,
LEASE_AFFINITY_DISABLED
};
class Dhcpv6SrvMTTestGuard {
public:
Dhcpv6SrvMTTestGuard(Dhcpv6SrvTest& test, bool mt_enabled) : test_(test) {
test_.setMultiThreading(mt_enabled);
}
~Dhcpv6SrvMTTestGuard() {
test_.setMultiThreading(false);
}
Dhcpv6SrvTest& test_;
};
/// @brief Constructor that initializes a simple default configuration
///
/// Sets up a single subnet6 with one pool for addresses and second
/// pool for prefixes.
Dhcpv6SrvTest();
/// @brief Destructor
///
/// Removes existing configuration.
~Dhcpv6SrvTest();
/// @brief Used to configure a server for tests.
///
/// A wrapper over configureDhcp6Server() to which any other
/// simulations of production code are added.
///
/// @brief server the server being tested
/// @brief config the configuration the server is configured with
///
/// @return a JSON-formatted status of the reconfiguration
static ConstElementPtr configure(Dhcpv6Srv& server, isc::data::ConstElementPtr config);
/// @brief Runs DHCPv6 configuration from the JSON string.
///
/// @param config String holding server configuration in JSON format.
/// @param commit A boolean flag indicating if the new configuration
/// should be committed (if true), or not (if false).
/// @param open_sockets A boolean flag indicating if sockets should
/// be opened (if true), or not (if false).
/// @param create_managers A boolean flag indicating if managers should be
/// recreated.
/// @param test A boolean flag which indicates if only testing config.
/// @param lease_affinity A flag which indicates if lease affinity should
/// be enabled or disabled.
void configure(const std::string& config,
const bool commit = true,
const bool open_sockets = false,
const bool create_managers = true,
const bool test = false,
const LeaseAffinity lease_affinity = LEASE_AFFINITY_DISABLED);
/// @brief Configure the DHCPv6 server using the JSON string.
///
/// @param config String holding server configuration in JSON format.
/// @param srv Server to be configured.
/// @param commit A boolean flag indicating if the new configuration
/// should be committed (if true), or not (if false).
/// @param open_sockets A boolean flag indicating if sockets should
/// be opened (if true), or not (if false).
/// @param create_managers A boolean flag indicating if managers should be
/// recreated.
/// @param test A boolean flag which indicates if only testing config.
/// @param lease_affinity A flag which indicates if lease affinity should
/// be enabled or disabled.
void configure(const std::string& config,
NakedDhcpv6Srv& srv,
const bool commit = true,
const bool open_sockets = false,
const bool create_managers = true,
const bool test = false,
const LeaseAffinity lease_affinity = LEASE_AFFINITY_DISABLED);
/// @brief Checks that server response (ADVERTISE or REPLY) contains proper
/// IA_NA option
///
/// @param rsp server's response
/// @param expected_iaid expected IAID value
/// @param expected_t1 expected T1 value
/// @param expected_t2 expected T2 value
/// @return IAADDR option for easy chaining with checkIAAddr method
boost::shared_ptr<isc::dhcp::Option6IAAddr>
checkIA_NA(const isc::dhcp::Pkt6Ptr& rsp, uint32_t expected_iaid,
uint32_t expected_t1, uint32_t expected_t2);
/// @brief Checks that server response (ADVERTISE or REPLY) contains proper
/// IA_PD option
///
/// @param rsp server's response
/// @param expected_iaid expected IAID value
/// @param expected_t1 expected T1 value
/// @param expected_t2 expected T2 value
/// @return IAPREFIX option for easy chaining with checkIAAddr method
boost::shared_ptr<isc::dhcp::Option6IAPrefix>
checkIA_PD(const isc::dhcp::Pkt6Ptr& rsp, uint32_t expected_iaid,
uint32_t expected_t1, uint32_t expected_t2);
// Check that generated IAADDR option contains expected address
// and lifetime values match the configured subnet
/// @param expected_pref check that lease preferedlifetime has the not-zero
/// expected value (zero value means that do not check).
/// @param expected_valid check that lease valid lifetime has the not-zero
/// expected value (zero value means that do not check).
void checkIAAddr(const boost::shared_ptr<isc::dhcp::Option6IAAddr>& addr,
const isc::asiolink::IOAddress& expected_addr,
isc::dhcp::Lease::Type type,
uint32_t expected_pref = 0,
uint32_t expected_valid = 0) {
// Check that the assigned address is indeed from the configured pool.
// Note that when comparing addresses, we compare the textual
// representation. IOAddress does not support being streamed to
// an ostream, which means it can't be used in EXPECT_EQ.
EXPECT_TRUE(subnet_->inPool(type, addr->getAddress()));
EXPECT_EQ(expected_addr.toText(), addr->getAddress().toText());
if (subnet_->getPreferred().getMin() != subnet_->getPreferred().getMax()) {
EXPECT_LE(subnet_->getPreferred().getMin(), addr->getPreferred());
EXPECT_GE(subnet_->getPreferred().getMax(), addr->getPreferred());
} else {
EXPECT_EQ(subnet_->getPreferred(), addr->getPreferred());
}
if (subnet_->getValid().getMin() != subnet_->getValid().getMax()) {
EXPECT_LE(subnet_->getValid().getMin(), addr->getValid());
EXPECT_GE(subnet_->getValid().getMax(), addr->getValid());
} else {
EXPECT_EQ(subnet_->getValid(), addr->getValid());
}
if (expected_pref) {
EXPECT_EQ(expected_pref, addr->getPreferred());
}
if (expected_valid) {
EXPECT_EQ(expected_valid, addr->getValid());
}
}
// Checks if the lease sent to client is present in the database
// and is valid when checked against the configured subnet
isc::dhcp::Lease6Ptr
checkLease(const isc::dhcp::DuidPtr& duid,
const isc::dhcp::OptionPtr& ia_na,
boost::shared_ptr<isc::dhcp::Option6IAAddr> addr);
/// @brief Check if the specified lease is present in the data base.
///
/// @param lease Lease to be searched in the database.
/// @return Pointer to the lease in the database.
isc::dhcp::Lease6Ptr checkLease(const isc::dhcp::Lease6& lease);
/// @brief Verifies received IAPrefix option
///
/// Verifies if the received IAPrefix option matches the lease in the
/// database.
///
/// @param duid client's DUID
/// @param ia_pd IA_PD option that contains the IAPRefix option
/// @param prefix pointer to the IAPREFIX option
/// @return corresponding IPv6 lease (if found)
isc::dhcp::Lease6Ptr
checkPdLease(const isc::dhcp::DuidPtr& duid,
const isc::dhcp::OptionPtr& ia_pd,
boost::shared_ptr<isc::dhcp::Option6IAPrefix> prefix);
/// @brief Creates a message with specified IA
///
/// A utility function that creates a message of the specified type with
/// a specified container (IA_NA or IA_PD) and an address or prefix
/// inside it.
///
/// @param message_type type of the message (e.g. DHCPV6_SOLICIT)
/// @param lease_type type of a lease (TYPE_NA or TYPE_PD)
/// @param addr address or prefix to use in IADDRESS or IAPREFIX options
/// @param prefix_len length of the prefix (used for prefixes only)
/// @param iaid IA identifier (used in IA_XX option)
/// @return created message
isc::dhcp::Pkt6Ptr
createMessage(uint8_t message_type, isc::dhcp::Lease::Type lease_type,
const isc::asiolink::IOAddress& addr,
const uint8_t prefix_len, const uint32_t iaid);
/// @brief Creates instance of IA option holding single address or prefix.
///
/// Utility function that creates an IA option instance with a single
/// IPv6 address or prefix. This function is internally called by the
/// @c createMessage function. It may be also used to add additional
/// IA options to the message generated by @c createMessage (which adds
/// a single IA option by itself.).
///
/// @param lease_type type of the lease (TYPE_NA or TYPE_PD).
/// @param addr address or prefix to use in IADDRESS or IAPREFIX options.
/// @param prefix_len length of the prefix (used for PD, ignored for NA).
/// @param iaid IA identifier.
///
/// @return Created instance of the IA option.
isc::dhcp::Option6IAPtr
createIA(isc::dhcp::Lease::Type lease_type,
const isc::asiolink::IOAddress& addr,
const uint8_t prefix_len, const uint32_t iaid);
/// @brief Compare options
///
/// This method compares whether options content is identical. It writes
/// both options to a buffer and then compares the buffers. Comparing
/// two different instances of an option that has identical content
/// will return true.
///
/// It is safe to pass null pointers. Two null pointers are equal.
/// null pointer and non-null pointers are obviously non-equal.
///
/// @param option1 pointer to the first option
/// @param option2
/// @return true, if content is identical
bool compareOptions(const isc::dhcp::OptionPtr& option1,
const isc::dhcp::OptionPtr& option2);
/// @brief Tests if the acquired lease is or is not declined.
///
/// @param client Dhcp6Client instance
/// @param duid1 DUID used during lease acquisition
/// @param iaid1 IAID used during lease acquisition
/// @param duid2 DUID used during Decline exchange
/// @param iaid2 IAID used during Decline exchange
/// @param addr_type specify what sort of address the client should
/// include (its own, a bogus one or no address at all)
/// @param expected_result SHOULD_PASS if the lease is expected to
/// be successfully declined, or SHOULD_FAIL if the lease is expected
/// to not be declined.
void acquireAndDecline(Dhcp6Client& client,
const std::string& duid1,
const uint32_t iaid1,
const std::string& duid2,
const uint32_t iaid2,
AddressInclusion addr_type,
ExpectedResult expected_result);
/// @brief Performs basic (positive) RENEW test
///
/// See renewBasic and pdRenewBasic tests for detailed explanation.
/// In essence the test attempts to perform a successful RENEW scenario.
///
/// This method does not throw, but uses gtest macros to signify failures.
///
/// @param type type (TYPE_NA or TYPE_PD)
/// @param existing_addr address to be preinserted into the database
/// @param renew_addr address being sent in RENEW
/// @param prefix_len length of the prefix (128 for addresses)
/// @param insert_before_renew should the lease be inserted into the database
/// before we try renewal?
/// @param expire_before_renew should the lease be expired before we try
/// renewal?
/// @param hint_pref preferred lifetime hint (default is 300)
/// @param hint_valid valid lifetime hint (default is 500)
/// @param expected_pref expected preferred lifetime (zero means not check)
/// @param expected_valid expected valid lifetime (zero means not check)
void
testRenewBasic(isc::dhcp::Lease::Type type,
const std::string& existing_addr,
const std::string& renew_addr, const uint8_t prefix_len,
bool insert_before_renew = true,
bool expire_before_renew = false,
uint32_t hint_pref = 300, uint32_t hint_valid = 500,
uint32_t expected_pref = 0, uint32_t expected_valid = 0);
/// @brief Checks if RENEW with invalid IAID is processed correctly.
///
/// @param type lease type (currently only IA_NA is supported)
/// @param addr address to be renewed
void
testRenewWrongIAID(isc::dhcp::Lease::Type type,
const asiolink::IOAddress& addr);
/// @brief Checks if client A can renew address used by client B
///
/// @param type lease type (currently only IA_NA is supported)
/// @param addr address to be renewed
void
testRenewSomeoneElsesLease(isc::dhcp::Lease::Type type,
const asiolink::IOAddress& addr);
/// @brief Performs basic (positive) RELEASE test
///
/// See releaseBasic and pdReleaseBasic tests for detailed explanation.
/// In essence the test attempts to perform a successful RELEASE scenario.
///
/// This method does not throw, but uses gtest macros to signify failures.
///
/// @param type type (TYPE_NA or TYPE_PD)
/// @param existing address to be preinserted into the database
/// @param release_addr address being sent in RELEASE
/// @param lease_affinity A flag which indicates if lease affinity should
/// be enabled or disabled.
void
testReleaseBasic(isc::dhcp::Lease::Type type,
const isc::asiolink::IOAddress& existing,
const isc::asiolink::IOAddress& release_addr,
const LeaseAffinity lease_affinity);
/// @brief Checks that reassignement of a released-expired lease
/// does not lead to zero lifetimes.
///
/// This method does not throw, but uses gtest macros to signify failures.
///
/// @param type lease type (TYPE_NA or TYPE_PD).
/// @param addr lease address.
/// @param qtype query type.
void
testReleaseNoDelete(isc::dhcp::Lease::Type type,
const isc::asiolink::IOAddress& addr,
uint8_t qtype);
/// @brief Performs negative RELEASE test
///
/// See releaseReject and pdReleaseReject tests for detailed
/// explanation. In essence the test attempts to perform couple
/// failed RELEASE scenarios.
///
/// This method does not throw, but uses gtest macros to signify failures.
///
/// @param type type (TYPE_NA or TYPE_PD)
/// @param addr address being sent in RELEASE
void
testReleaseReject(isc::dhcp::Lease::Type type,
const isc::asiolink::IOAddress& addr);
/// @brief simulates reception of a packet of specified type and checks statistic
///
/// @param pkt_type reception of a packet of this type will be simulated
/// @param stat_name this statistic is expected to be set to 1
void testReceiveStats(uint8_t pkt_type, const std::string& stat_name);
/// @brief Set multi-threading mode.
void setMultiThreading(bool enabled) {
multi_threading_ = enabled;
}
/// @brief Check if example files contain valid configuration.
void checkConfigFiles();
/// @brief Check if the server configuration stored in file is valid.
///
/// @param path The path to the configuration file.
void loadConfigFile(const std::string& path);
/// A subnet used in most tests.
isc::dhcp::Subnet6Ptr subnet_;
/// A normal, non-temporary pool used in most tests.
isc::dhcp::Pool6Ptr pool_;
/// A prefix pool used in most tests.
isc::dhcp::Pool6Ptr pd_pool_;
/// @brief Server object under test.
NakedDhcpv6Srv srv_;
/// @brief The multi-threading flag.
bool multi_threading_;
};
/// @brief Patch the server config to add interface-config/re-detect=false
/// @param json the server config
inline void
disableIfacesReDetect(isc::data::ConstElementPtr json) {
isc::data::ConstElementPtr ifaces_cfg = json->get("interfaces-config");
if (ifaces_cfg) {
isc::data::ElementPtr mutable_cfg =
boost::const_pointer_cast<isc::data::Element>(ifaces_cfg);
mutable_cfg->set("re-detect", isc::data::Element::create(false));
}
}
/// @brief Patch the server config to add multi-threading/enable-multi-threading
/// @param json the server config
inline void
configureMultiThreading(bool enabled, isc::data::ConstElementPtr json) {
isc::data::ConstElementPtr multi_threading = json->get("multi-threading");
if (!multi_threading) {
isc::data::ElementPtr mutable_cfg =
boost::const_pointer_cast<isc::data::Element>(json);
multi_threading = isc::data::Element::createMap();
mutable_cfg->set("multi-threading", multi_threading);
}
isc::data::ElementPtr mutable_cfg =
boost::const_pointer_cast<isc::data::Element>(multi_threading);
if (enabled) {
mutable_cfg->set("enable-multi-threading", isc::data::Element::create(true));
mutable_cfg->set("thread-pool-size", isc::data::Element::create(4));
mutable_cfg->set("packet-queue-size", isc::data::Element::create(4));
} else {
mutable_cfg->set("enable-multi-threading", isc::data::Element::create(false));
}
}
/// @brief Runs parser in JSON mode, useful for parser testing
///
/// @param in string to be parsed
/// @return ElementPtr structure representing parsed JSON
inline isc::data::ElementPtr
parseJSON(const std::string& in) {
isc::dhcp::Parser6Context ctx;
return (ctx.parseString(in, isc::dhcp::Parser6Context::PARSER_JSON));
}
/// @brief Runs parser in Dhcp6 mode
///
/// This is a simplified Dhcp6 mode, so no outer { } and "Dhcp6" is
/// needed. This format is used by most of the tests.
///
/// @param in string to be parsed
/// @param verbose display the exception message when it fails
/// @return ElementPtr structure representing parsed JSON
inline isc::data::ElementPtr
parseDHCP6(const std::string& in, bool verbose = false) {
try {
isc::dhcp::Parser6Context ctx;
isc::data::ElementPtr json;
json = ctx.parseString(in, isc::dhcp::Parser6Context::SUBPARSER_DHCP6);
disableIfacesReDetect(json);
return (json);
}
catch (const std::exception& ex) {
if (verbose) {
std::cout << "EXCEPTION: " << ex.what() << std::endl;
}
throw;
}
}
/// @brief Runs parser in option definition mode
///
/// This function parses specified text as JSON that defines option definitions.
///
/// @param in string to be parsed
/// @param verbose display the exception message when it fails
/// @return ElementPtr structure representing parsed JSON
inline isc::data::ElementPtr
parseOPTION_DEFS(const std::string& in, bool verbose = false) {
try {
isc::dhcp::Parser6Context ctx;
return (ctx.parseString(in, isc::dhcp::Parser6Context::PARSER_OPTION_DEFS));
}
catch (const std::exception& ex) {
if (verbose) {
std::cout << "EXCEPTION: " << ex.what() << std::endl;
}
throw;
}
}
} // end of isc::dhcp::test namespace
} // end of isc::dhcp namespace
} // end of isc namespace
#endif // DHCP6_TEST_UTILS_H
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