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1145 | // Copyright (C) 2012-2024 Internet Systems Consortium, Inc. ("ISC")
//
// This Source Code Form is subject to the terms of the Mozilla Public
// License, v. 2.0. If a copy of the MPL was not distributed with this
// file, You can obtain one at http://mozilla.org/MPL/2.0/.
#ifndef TEST_CONTROL_H
#define TEST_CONTROL_H
#include <perfdhcp/packet_storage.h>
#include <perfdhcp/rate_control.h>
#include <perfdhcp/stats_mgr.h>
#include <perfdhcp/receiver.h>
#include <perfdhcp/command_options.h>
#include <perfdhcp/perf_socket.h>
#include <dhcp/iface_mgr.h>
#include <dhcp/dhcp4.h>
#include <dhcp/dhcp6.h>
#include <dhcp/pkt4.h>
#include <dhcp/pkt6.h>
#include <boost/noncopyable.hpp><--- Include file: not found. Please note: Cppcheck does not need standard library headers to get proper results.
#include <boost/shared_ptr.hpp><--- Include file: not found. Please note: Cppcheck does not need standard library headers to get proper results.
#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 <random><--- Include file: not found. Please note: Cppcheck does not need standard library headers to get proper results.
#include <string><--- Include file: not found. Please note: Cppcheck does not need standard library headers to get proper results.
#include <vector><--- Include file: not found. Please note: Cppcheck does not need standard library headers to get proper results.
namespace isc {
namespace perfdhcp {
/// Default transaction id offset in the packet template.
static const size_t DHCPV4_TRANSID_OFFSET = 4;
/// Default offset of MAC's last octet in the packet template..
static const size_t DHCPV4_RANDOMIZATION_OFFSET = 35;
/// Default elapsed time offset in the packet template.
static const size_t DHCPV4_ELAPSED_TIME_OFFSET = 8;
/// Default server id offset in the packet template.
static const size_t DHCPV4_SERVERID_OFFSET = 54;
/// Default requested ip offset in the packet template.
static const size_t DHCPV4_REQUESTED_IP_OFFSET = 240;
/// Default DHCPV6 transaction id offset in t the packet template.
static const size_t DHCPV6_TRANSID_OFFSET = 1;
/// Default DHCPV6 randomization offset (last octet of DUID)
/// in the packet template.
static const size_t DHCPV6_RANDOMIZATION_OFFSET = 21;
/// Default DHCPV6 elapsed time offset in the packet template.
static const size_t DHCPV6_ELAPSED_TIME_OFFSET = 84;
/// Default DHCPV6 server id offset in the packet template.
static const size_t DHCPV6_SERVERID_OFFSET = 22;
/// Default DHCPV6 IA_NA offset in the packet template.
static const size_t DHCPV6_IA_NA_OFFSET = 40;
/// \brief Test Control class.
///
/// This class is used to run the performance test with
/// with \ref TestControl::runWrapped function. This function can be executed
/// multiple times if desired because it resets TestControl's internal
/// state every time it is executed. Prior to running \ref TestControl::runWrapped,
/// one must make sure to parse command line options by calling
/// \ref CommandOptions::parse. Failing to do this will result in an exception.
///
/// The following major stages of the test are performed by this class:
/// - set default transaction id and MAC address generators - the generator
/// is an object of \ref TestControl::NumberGenerator type and it provides
/// the custom randomization algorithms,
/// - print command line arguments,
/// - register option factory functions which are used to generate DHCP options
/// being sent to a server,
/// - create the socket for communication with a server,
/// - read packet templates if user specified template files with '-T' command
/// line option,
/// - set the interrupt handler (invoked when ^C is pressed) which makes
/// perfdhcp stop gracefully and print the test results before exiting,
/// - executes an external command (if specified '-w' option), e.g. if user
/// specified -w ./foo in the command line then program will execute
/// "./foo start" at the beginning of the test and "./foo stop" when the test
/// ends,
/// - initialize the Statistics Manager,
/// - executes the main loop:
/// - calculate how many packets must be send to satisfy desired rate,
/// - receive incoming packets from the server,
/// - check the exit conditions - terminate the program if the exit criteria
/// are fulfilled, e.g. reached maximum number of packet drops,
/// - send the number of packets appropriate to satisfy the desired rate,
/// - optionally print intermediate reports,
/// - print statistics, e.g. achieved rate,
/// - optionally print some diagnostics.
///
/// With the '-w' command line option user may specify the external application
/// or script to be executed. This is executed twice, first when the test starts
/// and second time when the test ends. This external script or application must
/// accept 'start' and 'stop' arguments. The first time it is called, it is
/// called with the argument 'start' and the second time with the argument
/// 'stop'.
///
/// The application is executed by calling fork() to fork the current perfdhcp
/// process and then call execlp() to replace the current process image with
/// the new one.
///
/// Option factory functions are registered using
/// \ref dhcp::LibDHCP::OptionFactoryRegister. Registered factory functions
/// provide a way to create options of the same type in the same way.
/// When a new option instance is needed, the corresponding factory
/// function is called to create it. This is done by calling
/// \ref dhcp::Option::factory with DHCP message type specified as one of
/// parameters. Some of the parameters passed to factory function
/// may be ignored (e.g. option buffer).
/// Please note that naming convention for factory functions within this
/// class is as follows:
/// - factoryABC4 - factory function for DHCPv4 option,
/// - factoryDEF6 - factory function for DHCPv6 option,
/// - factoryGHI - factory function that can be used to create either
/// DHCPv4 or DHCPv6 option.
class TestControl : public boost::noncopyable {
public:
/// \brief Default constructor.
TestControl(CommandOptions& options, BasePerfSocket& socket);
/// Packet template buffer.
typedef std::vector<uint8_t> TemplateBuffer;
/// Packet template buffers list.
typedef std::vector<TemplateBuffer> TemplateBufferCollection;
/// @brief Delay the exit by a fixed given time to catch up to all exchanges
/// that were already started.
/// @return true if need to wait, false = ok to exit now
bool waitToExit();
/// @brief Checks if all expected packets were already received
bool haveAllPacketsBeenReceived() const;
/// \brief Number generator class.
///
/// This is default numbers generator class. The member function is
/// used to generate uint32_t values. Other generator classes should
/// derive from this one to implement generation algorithms
/// (e.g. sequential or based on random function).
class NumberGenerator {
public:
/// \brief Destructor.
virtual ~NumberGenerator() { }
/// \brief Generate number.
///
/// \return Generate number.
virtual uint32_t generate() = 0;
};
/// The default generator pointer.
typedef boost::shared_ptr<NumberGenerator> NumberGeneratorPtr;
/// \brief Sequential numbers generator class.
class SequentialGenerator : public NumberGenerator {
public:
/// \brief Constructor.
///
/// \param range maximum number generated. If 0 is given then
/// range defaults to maximum uint32_t value.
SequentialGenerator(uint32_t range = 0xFFFFFFFF) :<--- Class 'SequentialGenerator' has a constructor with 1 argument that is not explicit. [+]Class 'SequentialGenerator' has a constructor with 1 argument that is not explicit. Such, so called "Converting constructors", should in general be explicit for type safety reasons as that prevents unintended implicit conversions.
NumberGenerator(),
num_(0),
range_(range) {
if (range_ == 0) {
range_ = 0xFFFFFFFF;
}
}
/// \brief Generate number sequentially.
///
/// \return generated number.
virtual uint32_t generate() {
uint32_t num = num_;
num_ = (num_ + 1) % range_;
return (num);
}
private:
uint32_t num_; ///< Current number.
uint32_t range_; ///< Number of unique numbers generated.
};
/// \brief Random numbers generator class. The generated numbers
/// are uniformly distributed in the range of [min, max].
class RandomGenerator : public NumberGenerator {
public:
/// \brief Constructor.
///
/// \param min minimum number generated.
/// \param max maximum number generated.
RandomGenerator(uint32_t min, uint32_t max) :
NumberGenerator(),
distribution_(min, max) {
// Initialize the randomness source with the current time.
randomness_generator_.seed(time(0));
}
/// \brief Generate number in range of [min, max].
///
/// \return generated number.
virtual uint32_t generate() {
return distribution_(randomness_generator_);
}
private:
/// \brief The random values will be uniformly distributed in
/// the range provided in the constructor.
std::uniform_int_distribution<> distribution_;
/// \brief It is a high quality general-purpose random
/// generator. It isn't suitable for cryptographic use but is
/// good enough for testing.
std::mt19937 randomness_generator_;
};
/// \brief Length of the Ethernet HW address (MAC) in bytes.
///
/// \todo Make this variable length as there are cases when HW
/// address is longer than this (e.g. 20 bytes).
static const uint8_t HW_ETHER_LEN = 6;
/// \brief Set new transaction id generator.
///
/// \param generator generator object to be used.
void setTransidGenerator(const NumberGeneratorPtr& generator) {
transid_gen_.reset();
transid_gen_ = generator;
}
/// \brief Set new MAC address generator.
///
/// Set numbers generator that will be used to generate various
/// MAC addresses to simulate number of clients.
///
/// \param generator object to be used.
void setMacAddrGenerator(const NumberGeneratorPtr& generator) {
macaddr_gen_.reset();
macaddr_gen_ = generator;
}
/// \brief Removes cached DHCPv6 Reply packets every second.
///
/// This function wipes cached Reply packets from the storage.
/// The number of packets left in the storage after the call
/// to this function should guarantee that the Renew packets
/// can be sent at the given rate. Note that the Renew packets
/// are generated for the existing leases, represented here as
/// replies from the server.
/// @todo Instead of cleaning packets periodically we could
/// just stop adding new packets when the certain threshold
/// has been reached.
void cleanCachedPackets();
/// \brief Get interrupted flag.
bool interrupted() const { return interrupted_; }
/// \brief Get stats manager.
StatsMgr& getStatsMgr() { return stats_mgr_; };
/// \brief Start receiver.
void start() { receiver_.start(); }
/// \brief Stop receiver.
void stop() { receiver_.stop(); }
/// \brief Run wrapped command.
///
/// \param do_stop execute wrapped command with "stop" argument.
void runWrapped(bool do_stop = false) const;
/// \brief Get received server id flag.
bool serverIdReceived() const { return first_packet_serverid_.size() > 0; }
/// \brief Get received server id.
std::string getServerId() const { return vector2Hex(first_packet_serverid_); }
/// \brief Send number of packets to initiate new exchanges.
///
/// Method initiates the new DHCP exchanges by sending number
/// of DISCOVER (DHCPv4) or SOLICIT (DHCPv6) packets. If preload
/// mode was requested sent packets will not be counted in
/// the statistics. The responses from the server will be
/// received and counted as orphans because corresponding sent
/// packets are not included in StatsMgr for match.
/// When preload mode is disabled and diagnostics flag 'i' is
/// specified then function will be trying to receive late packets
/// before new packets are sent to the server. Statistics of
/// late received packets is updated accordingly.
///
/// \todo do not count responses in preload mode as orphans.
///
/// \param packets_num number of packets to be sent.
/// \param preload preload mode, packets not included in statistics.
/// \throw isc::Unexpected if thrown by packet sending method.
/// \throw isc::InvalidOperation if thrown by packet sending method.
/// \throw isc::OutOfRange if thrown by packet sending method.
void sendPackets(const uint64_t packets_num,
const bool preload = false);
/// \brief Send number of DHCPREQUEST (renew) messages to a server.
///
/// \param msg_type A type of the messages to be sent (DHCPREQUEST or
/// DHCPRELEASE).
/// \param msg_num A number of messages to be sent.
///
/// \return A number of messages actually sent.
uint64_t sendMultipleMessages4(const uint32_t msg_type,
const uint64_t msg_num);
/// \brief Send number of DHCPv6 Renew or Release messages to the server.
///
/// \param msg_type A type of the messages to be sent (DHCPV6_RENEW or
/// DHCPV6_RELEASE).
/// \param msg_num A number of messages to be sent.
///
/// \return A number of messages actually sent.
uint64_t sendMultipleMessages6(const uint32_t msg_type,
const uint64_t msg_num);
/// \brief Pull packets from receiver and process them.
///
/// It runs in a loop until there are no packets in receiver.
unsigned int consumeReceivedPackets();
/// \brief Print intermediate statistics.
///
/// Print brief statistics regarding number of sent packets,
/// received packets and dropped packets so far.
void printIntermediateStats();
/// \brief Print performance statistics.
///
/// Method prints performance statistics.
/// \throws isc::InvalidOperation if Statistics Manager was
/// not initialized.
void printStats() const;
/// \brief Print templates information.
///
/// Method prints information about data offsets
/// in packet templates and their contents.
void printTemplates() const;
/// \brief Get set of unique replied addresses.
std::set<std::string>& getAllUniqueAddrReply() {
return unique_reply_address_;
}
/// \brief Get set of unique advertised addresses.
std::set<std::string>& getAllUniqueAddrAdvert() {
return unique_address_;
}
/// \brief Convert binary value to hex string.
///
/// \todo Consider moving this function to src/lib/util.
///
/// \param b byte to convert.
/// \return hex string.
static std::string byte2Hex(const uint8_t b);
/// \brief Convert vector in hexadecimal string.
///
/// \todo Consider moving this function to src/lib/util.
///
/// \param vec vector to be converted.
/// \param separator separator.
static std::string vector2Hex(const std::vector<uint8_t>& vec,
const std::string& separator = "");
/// \brief Initialized at first exit condition with the time perfdhcp
/// should exit
boost::posix_time::ptime exit_time_;
// We would really like following methods and members to be private but
// they have to be accessible for unit-testing. Another, possibly better,
// solution is to make this class friend of test class but this is not
// what's followed in other classes.
protected:
/// \brief Creates DHCPREQUEST from a DHCPACK message.
///
/// @param msg_type the message type to be created (DHCPREQUEST or DHCPRELEASE)
/// \param ack An instance of the DHCPACK message to be used to
/// create a new message.
///
/// \return Pointer to the created message.
dhcp::Pkt4Ptr createMessageFromAck(const uint16_t msg_type,
const dhcp::Pkt4Ptr& ack);
/// \brief Creates DHCPv6 message from the Reply packet.
///
/// This function creates DHCPv6 Renew or Release message using the
/// data from the Reply message by copying options from the Reply
/// message.
///
/// \param msg_type A type of the message to be created.
/// \param reply An instance of the Reply packet which contents should
/// be used to create an instance of the new message.
///
/// \return created Release or Renew message
/// \throw isc::BadValue if the msg_type is neither DHCPV6_RENEW nor
/// DHCPV6_RELEASE or if the reply is NULL.
/// \throw isc::Unexpected if mandatory options are missing in the
/// Reply message.
dhcp::Pkt6Ptr createMessageFromReply(const uint16_t msg_type,
const dhcp::Pkt6Ptr& reply);
/// \brief Factory function to create DHCPv6 ELAPSED_TIME option.
///
/// This factory function creates DHCPv6 ELAPSED_TIME option instance.
/// If empty buffer is passed the option buffer will be initialized
/// to length 2 and values will be initialized to zeros. Otherwise
/// function will initialize option buffer with values in passed buffer.
///
/// \param u universe (ignored)
/// \param type option-type (ignored).
/// \param buf option-buffer containing option content (2 bytes) or
/// empty buffer if option content has to be set to default (0) value.
/// \throw if elapsed time buffer size is neither 2 nor 0.
/// \return instance o the option.
static dhcp::OptionPtr
factoryElapsedTime6(dhcp::Option::Universe u,
uint16_t type,
const dhcp::OptionBuffer& buf);
/// \brief Factory function to create generic option.
///
/// This factory function creates option with specified universe,
/// type and buf. It does not have any additional logic validating
/// the buffer contents, size etc.
///
/// \param u universe (V6 or V4).
/// \param type option-type (ignored).
/// \param buf option-buffer.
/// \return instance o the option.
static dhcp::OptionPtr factoryGeneric(dhcp::Option::Universe u,
uint16_t type,
const dhcp::OptionBuffer& buf);
/// \brief Factory function to create IA_NA option.
///
/// This factory function creates DHCPv6 IA_NA option instance.
///
/// \todo add support for IA Address options.
///
/// \param u universe (ignored).
/// \param type option-type (ignored).
/// \param buf option-buffer carrying IANA suboptions.
/// \return instance of IA_NA option.
static dhcp::OptionPtr factoryIana6(dhcp::Option::Universe u,
uint16_t type,
const dhcp::OptionBuffer& buf);
/// \brief Factory function to create IA_PD option.
///
/// this factory function creates DHCPv6 IA_PD option instance.
///
/// \param u universe (ignored).
/// \param type option-type (ignored).
/// \param buf option-buffer carrying sub-options.
static dhcp::OptionPtr factoryIapd6(dhcp::Option::Universe u,
uint16_t type,
const dhcp::OptionBuffer& buf);
/// \brief Factory function to create DHCPv6 ORO option.
///
/// This factory function creates DHCPv6 Option Request Option instance.
/// The created option will contain the following set of requested options:
/// - D6O_NAME_SERVERS
/// - D6O_DOMAIN_SEARCH
///
/// \param u universe (ignored).
/// \param type option-type (ignored).
/// \param buf option-buffer (ignored).
/// \return instance of ORO option.
static dhcp::OptionPtr
factoryOptionRequestOption6(dhcp::Option::Universe u,
uint16_t type,
const dhcp::OptionBuffer& buf);
/// \brief Factory function to create DHCPv6 RAPID_COMMIT option instance.
///
/// This factory function creates DHCPv6 RAPID_COMMIT option instance.
/// The buffer passed to this option must be empty because option does
/// not have any payload.
///
/// \param u universe (ignored).
/// \param type option-type (ignored).
/// \param buf option-buffer (ignored).
/// \return instance of RAPID_COMMIT option..
static dhcp::OptionPtr factoryRapidCommit6(dhcp::Option::Universe u,
uint16_t type,
const dhcp::OptionBuffer& buf);
/// \brief Factory function to create DHCPv4 Request List option.
///
/// This factory function creates DHCPv4 PARAMETER_REQUEST_LIST option
/// instance with the following set of requested options:
/// - DHO_SUBNET_MASK,
/// - DHO_BROADCAST_ADDRESS,
/// - DHO_TIME_OFFSET,
/// - DHO_ROUTERS,
/// - DHO_DOMAIN_NAME,
/// - DHO_DOMAIN_NAME_SERVERS,
/// - DHO_HOST_NAME.
///
/// \param u universe (ignored).
/// \param type option-type (ignored).
/// \param buf option-buffer (ignored).
/// \return instance o the generic option.
static dhcp::OptionPtr factoryRequestList4(dhcp::Option::Universe u,
uint16_t type,
const dhcp::OptionBuffer& buf);
/// \brief Generate DHCPv4 client identifier from HW address.
///
/// This method generates DHCPv4 client identifier option from a
/// HW address.
///
/// \param hwaddr HW address.
///
/// \return Pointer to an instance of the generated option.
dhcp::OptionPtr generateClientId(const dhcp::HWAddrPtr& hwaddr) const;
/// \brief Generate DUID.
///
/// Method generates unique DUID. The number of DUIDs it can generate
/// depends on the number of simulated clients, which is specified
/// from the command line. It uses \ref CommandOptions object to retrieve
/// number of clients. Since the last six octets of DUID are constructed
/// from the MAC address, this function uses \ref generateMacAddress
/// internally to randomize the DUID.
///
/// \todo add support for other types of DUID.
///
/// \param [out] randomized number of bytes randomized (initial value
/// is ignored).
/// \throw isc::BadValue if \ref generateMacAddress throws.
/// \return vector representing DUID.
std::vector<uint8_t> generateDuid(uint8_t& randomized);
/// \brief Generate MAC address.
///
/// This method generates MAC address. The number of unique
/// MAC addresses it can generate is determined by the number
/// simulated DHCP clients specified from command line. It uses
/// \ref CommandOptions object to retrieve number of clients.
/// Based on this the random value is generated and added to
/// the MAC address template (default MAC address).
///
/// \param [out] randomized number of bytes randomized (initial
/// value is ignored).
/// \throw isc::BadValue if MAC address template (default or specified
/// from the command line) has invalid size (expected 6 octets).
/// \return generated MAC address.
std::vector<uint8_t> generateMacAddress(uint8_t& randomized);
/// \brief generate transaction id.
///
/// Generate transaction id value (32-bit for DHCPv4,
/// 24-bit for DHCPv6).
///
/// \return generated transaction id.
uint32_t generateTransid() {
return (transid_gen_->generate());
}
/// \brief Return template buffer.
///
/// Method returns template buffer at specified index.
///
/// \param idx index of template buffer.
/// \throw isc::OutOfRange if buffer index out of bounds.
/// \return reference to template buffer.
TemplateBuffer getTemplateBuffer(const size_t idx) const;
/// \brief Reads packet templates from files.
///
/// Method iterates through all specified template files, reads
/// their content and stores it in class internal buffers. Template
/// file names are specified from the command line with -T option.
///
/// \throw isc::BadValue if any of the template files does not exist,
/// contains characters other than hexadecimal digits or spaces.
/// \throw OutOfRange if any of the template files is empty or has
/// odd number of hexadecimal digits.
void initPacketTemplates();
/// \brief Print rate statistics.
///
/// Method print packet exchange rate statistics.
void printRate() const;
/// \brief Process received DHCPv4 packet.
///
/// Method performs processing of the received DHCPv4 packet,
/// updates statistics and responds to the server if required,
/// e.g. when OFFER packet arrives, this function will initiate
/// REQUEST message to the server.
///
/// \warning this method does not check if provided socket is
/// valid (specifically if v4 socket for received v4 packet).
///
/// \param [in] pkt4 object representing DHCPv4 packet received.
/// \throw isc::BadValue if unknown message type received.
/// \throw isc::Unexpected if unexpected error occurred.
void processReceivedPacket4(const dhcp::Pkt4Ptr& pkt4);
/// \brief Process IA in received DHCPv6 packet.
///
/// Process IA in received message to check if it contain proper
/// address and/or prefix
///
/// \param [in] pkt6 object representing DHCPv6 packet received.
/// \return true if the message include correct IA, false otherwise.
bool validateIA(const dhcp::Pkt6Ptr& pkt6);
/// \brief Process received v6 addresses uniqueness.
///
/// Generate list of addresses and check for uniqueness.
///
/// \param pkt6 object representing received DHCPv6 packet
/// \param xchg_type ExchangeType enum value.
void address6Uniqueness(const dhcp::Pkt6Ptr& pkt6, ExchangeType xchg_type);
/// \brief Process received v4 addresses uniqueness.
///
/// Generate list of addresses and check for uniqueness.
///
/// \param pkt4 object representing received DHCPv4 packet
/// \param xchg_type ExchangeType enum value.
void address4Uniqueness(const dhcp::Pkt4Ptr& pkt4, ExchangeType xchg_type);
/// \brief add unique address to already assigned list.
///
/// Add address and/or prefix to unique set if it's not already there,
/// otherwise increment the number of non unique addresses.
///
/// \param current set of addresses that should be added to unique list
/// \param xchg_type ExchangeType enum value.
void addUniqeAddr(const std::set<std::string>& current, ExchangeType xchg_type) {
switch(xchg_type) {
case ExchangeType::SA: {
for (auto const& current_it : current) {
// addresses should be unique cross packets
auto ret = unique_address_.emplace(current_it);
if (!ret.second) {
stats_mgr_.updateNonUniqueAddrNum(ExchangeType::SA);
}
}
break;
}
case ExchangeType::RR: {
for (auto const& current_it : current) {
// addresses should be unique cross packets
auto ret = unique_reply_address_.emplace(current_it);
if (!ret.second) {
stats_mgr_.updateNonUniqueAddrNum(ExchangeType::RR);
}
}
break;
}
case ExchangeType::RLA:
case ExchangeType::RL: {
removeUniqueAddr(current);
break;
}
case ExchangeType::DO: {
for (auto const& current_it : current) {
// addresses should be unique cross packets
auto ret = unique_address_.emplace(current_it);
if (!ret.second) {
stats_mgr_.updateNonUniqueAddrNum(ExchangeType::DO);
}
}
break;
}
case ExchangeType::RA: {
for (auto const& current_it : current) {
// addresses should be unique cross packets
auto ret = unique_reply_address_.emplace(current_it);
if (!ret.second) {
stats_mgr_.updateNonUniqueAddrNum(ExchangeType::RA);
}
}
break;
}
case ExchangeType::RNA:
case ExchangeType::RN:
default:
break;
}
}
/// \brief remove unique address from list.
///
/// If address is released we should remove it from both
/// advertised (offered) and assigned sets.
///
/// \param addr holding value of unique address.
void removeUniqueAddr(const std::set<std::string>& addr) {
for (auto const& addr_it : addr) {
auto it = unique_address_.find(addr_it);
if (it != unique_address_.end()) {
unique_address_.erase(it);
}
auto it2 = unique_reply_address_.find(addr_it);
if (it2 != unique_reply_address_.end()) {
unique_reply_address_.erase(it2);
}
}
}
/// \brief Process received DHCPv6 packet.
///
/// Method performs processing of the received DHCPv6 packet,
/// updates statistics and responds to the server if required,
/// e.g. when ADVERTISE packet arrives, this function will initiate
/// REQUEST message to the server.
///
/// \param [in] pkt6 object representing DHCPv6 packet received.
/// \throw isc::BadValue if unknown message type received.
/// \throw isc::Unexpected if unexpected error occurred.
void processReceivedPacket6(const dhcp::Pkt6Ptr& pkt6);
/// \brief Register option factory functions for DHCPv4.
///
/// Method registers option factory functions for DHCPv4.
/// These functions are called to create instances of DHCPv4
/// options. Call \ref dhcp::Option::factory to invoke factory
/// function for particular option. Don't use this function directly.
/// Use \ref registerOptionFactories instead.
void registerOptionFactories4() const;
/// \brief Register option factory functions for DHCPv6.
///
/// Method registers option factory functions for DHCPv6.
/// These functions are called to create instances of DHCPv6
/// options. Call \ref dhcp::Option::factory to invoke factory
/// function for particular option. Don't use this function directly.
/// Use \ref registerOptionFactories instead.
void registerOptionFactories6() const;
/// \brief Register option factory functions for DHCPv4 or DHCPv6.
///
/// Method registers option factory functions for DHCPv4 or DHCPv6,
/// depending in which mode test is currently running.
void registerOptionFactories() const;
/// \brief Resets internal state of the object.
///
/// Method resets internal state of the object. It has to be
/// called before new test is started.
void reset();
/// \brief Save the first DHCPv4 sent packet of the specified type.
///
/// This method saves first packet of the specified being sent
/// to the server if user requested diagnostics flag 'T'. In
/// such case program has to print contents of selected packets
/// being sent to the server. It collects first packets of each
/// type and keeps them around until test finishes. Then they
/// are printed to the user. If packet of specified type has
/// been already stored this function performs no operation.
/// This function does not perform sanity check if packet
/// pointer is valid. Make sure it is before calling it.
///
/// \param pkt packet to be stored.
inline void saveFirstPacket(const dhcp::Pkt4Ptr& pkt);
/// \brief Save the first DHCPv6 sent packet of the specified type.
///
/// This method saves first packet of the specified being sent
/// to the server if user requested diagnostics flag 'T'. In
/// such case program has to print contents of selected packets
/// being sent to the server. It collects first packets of each
/// type and keeps them around until test finishes. Then they
/// are printed to the user. If packet of specified type has
/// been already stored this function performs no operation.
/// This function does not perform sanity check if packet
/// pointer is valid. Make sure it is before calling it.
///
/// \param pkt packet to be stored.
inline void saveFirstPacket(const dhcp::Pkt6Ptr& pkt);
/// \brief Send DHCPv4 DISCOVER message.
///
/// Method creates and sends DHCPv4 DISCOVER message to the server
/// with the following options:
/// - MESSAGE_TYPE set to DHCPDISCOVER
/// - PARAMETER_REQUEST_LIST with the same list of requested options
/// as described in \ref factoryRequestList4.
/// The transaction id and MAC address are randomly generated for
/// the message. Range of unique MAC addresses generated depends
/// on the number of clients specified from the command line.
/// Copy of sent packet is stored in the stats_mgr_ object to
/// update statistics.
///
/// \param preload preload mode, packets not included in statistics.
///
/// \throw isc::Unexpected if failed to create new packet instance.
/// \throw isc::BadValue if MAC address has invalid length.
/// \throw isc::dhcp::SocketWriteError if failed to send the packet.
void sendDiscover4(const bool preload = false);
/// \brief Send DHCPv4 DISCOVER message from template.
///
/// Method sends DHCPv4 DISCOVER message from template. The
/// template data is expected to be in binary format. Provided
/// buffer is copied and parts of it are replaced with actual
/// data (e.g. MAC address, transaction id etc.).
/// Copy of sent packet is stored in the stats_mgr_ object to
/// update statistics.
///
/// \param template_buf buffer holding template packet.
/// \param preload preload mode, packets not included in statistics.
///
/// \throw isc::OutOfRange if randomization offset is out of bounds.
/// \throw isc::dhcp::SocketWriteError if failed to send the packet.
void sendDiscover4(const std::vector<uint8_t>& template_buf,
const bool preload = false);
/// \brief Send DHCPv4 renew (DHCPREQUEST).
///
/// \param msg_type A type of the message to be sent (DHCPREQUEST or
/// DHCPRELEASE).
///
/// \return true if the message has been sent, false otherwise.
bool sendMessageFromAck(const uint16_t msg_type);
/// \brief Send DHCPv6 Renew or Release message.
///
/// This method will select an existing lease from the Reply packet cache
/// If there is no lease that can be renewed or released this method will
/// return false.
///
/// \param msg_type A type of the message to be sent (DHCPV6_RENEW or
/// DHCPV6_RELEASE).
///
/// \return true if the message has been sent, false otherwise.
bool sendMessageFromReply(const uint16_t msg_type);
/// \brief Send DHCPv4 REQUEST message.
///
/// Method creates and sends DHCPv4 REQUEST message to the server.
/// Copy of sent packet is stored in the stats_mgr_ object to
/// update statistics.
///
/// \param discover_pkt4 DISCOVER packet sent.
/// \param offer_pkt4 OFFER packet object.
///
/// \throw isc::Unexpected if unexpected error occurred.
/// \throw isc::InvalidOperation if Statistics Manager has not been
/// initialized.
/// \throw isc::dhcp::SocketWriteError if failed to send the packet.
void sendRequest4(const dhcp::Pkt4Ptr& discover_pkt4,
const dhcp::Pkt4Ptr& offer_pkt4);
/// \brief Send DHCPv4 REQUEST message from template.
///
/// Method sends DHCPv4 REQUEST message from template.
/// Copy of sent packet is stored in the stats_mgr_ object to
/// update statistics.
///
/// \param template_buf buffer holding template packet.
/// \param discover_pkt4 DISCOVER packet sent.
/// \param offer_pkt4 OFFER packet received.
///
/// \throw isc::dhcp::SocketWriteError if failed to send the packet.
void sendRequest4(const std::vector<uint8_t>& template_buf,
const dhcp::Pkt4Ptr& discover_pkt4,
const dhcp::Pkt4Ptr& offer_pkt4);
/// \brief Send DHCPv6 REQUEST message.
///
/// Method creates and sends DHCPv6 REQUEST message to the server
/// with the following options:
/// - D6O_ELAPSED_TIME
/// - D6O_CLIENTID
/// - D6O_SERVERID
/// Copy of sent packet is stored in the stats_mgr_ object to
/// update statistics.
///
/// \param advertise_pkt6 ADVERTISE packet object.
/// \throw isc::Unexpected if unexpected error occurred.
/// \throw isc::InvalidOperation if Statistics Manager has not been
/// initialized.
///
/// \throw isc::dhcp::SocketWriteError if failed to send the packet.
void sendRequest6(const dhcp::Pkt6Ptr& advertise_pkt6);
/// \brief Send DHCPv6 REQUEST message from template.
///
/// Method sends DHCPv6 REQUEST message from template.
/// Copy of sent packet is stored in the stats_mgr_ object to
/// update statistics.
///
/// \param template_buf packet template buffer.
/// \param advertise_pkt6 ADVERTISE packet object.
///
/// \throw isc::dhcp::SocketWriteError if failed to send the packet.
void sendRequest6(const std::vector<uint8_t>& template_buf,
const dhcp::Pkt6Ptr& advertise_pkt6);
/// \brief Send DHCPv6 SOLICIT message.
///
/// Method creates and sends DHCPv6 SOLICIT message to the server
/// with the following options:
/// - D6O_ELAPSED_TIME,
/// - D6O_RAPID_COMMIT if rapid commit is requested in command line,
/// - D6O_CLIENTID,
/// - D6O_ORO (Option Request Option),
/// - D6O_IA_NA.
/// Copy of sent packet is stored in the stats_mgr_ object to
/// update statistics.
///
/// \param preload mode, packets not included in statistics.
///
/// \throw isc::Unexpected if failed to create new packet instance.
/// \throw isc::dhcp::SocketWriteError if failed to send the packet.
void sendSolicit6(const bool preload = false);
/// \brief Send DHCPv6 SOLICIT message from template.
///
/// Method sends DHCPv6 SOLICIT message from template.
/// Copy of sent packet is stored in the stats_mgr_ object to
/// update statistics.
///
/// \param template_buf packet template buffer.
/// \param preload mode, packets not included in statistics.
///
/// \throw isc::dhcp::SocketWriteError if failed to send the packet.
void sendSolicit6(const std::vector<uint8_t>& template_buf,
const bool preload = false);
/// \brief Set default DHCPv4 packet parameters.
///
/// This method sets default parameters on the DHCPv4 packet:
/// - interface name,
/// - local port = 68 (DHCP client port),
/// - remote port = 67 (DHCP server port),
/// - server's address,
/// - GIADDR = local address where socket is bound to,
/// - hops = 1 (pretending that we are a relay)
///
/// \param pkt reference to packet to be configured.
void setDefaults4(const dhcp::Pkt4Ptr& pkt);
/// \brief Set default DHCPv6 packet parameters.
///
/// This method sets default parameters on the DHCPv6 packet:
/// - interface name,
/// - interface index,
/// - local port,
/// - remote port,
/// - local address,
/// - remote address (server).
///
/// \param pkt reference to packet to be configured.
void setDefaults6(const dhcp::Pkt6Ptr& pkt);
/// @brief Inserts extra options specified by user.
///
/// Note: addExtraOpts for v4 and v6 could easily be turned into a template.
/// However, this would require putting code here that uses CommandOptions,
/// and that would create dependency between test_control.h and
/// command_options.h.
///
/// @param pkt4 options will be added here.
void addExtraOpts(const dhcp::Pkt4Ptr& pkt4);
/// @brief Inserts extra options specified by user.
///
/// Note: addExtraOpts for v4 and v6 could easily be turned into a template.
/// However, this would require putting code here that uses CommandOptions,
/// and that would create dependency between test_control.h and
/// command_options.h.
///
/// @param pkt6 options will be added here.
void addExtraOpts(const dhcp::Pkt6Ptr& pkt6);
/// \brief Copies IA_NA or IA_PD option from one packet to another.
///
/// This function checks the lease-type specified in the command line
/// with option -e<lease-type>. If 'address-only' value has been specified
/// this function expects that IA_NA option is present in the packet
/// encapsulated by pkt_from object. If 'prefix-only' value has been
/// specified, this function expects that IA_PD option is present in the
/// packet encapsulated by pkt_to object.
///
/// \param [in] pkt_from A packet from which options should be copied.
/// \param [out] pkt_to A packet to which options should be copied.
///
/// \throw isc::NotFound if a required option is not found in the
/// packet from which options should be copied.
/// \throw isc::BadValue if any of the specified pointers to packets
/// is NULL.
void copyIaOptions(const dhcp::Pkt6Ptr& pkt_from, dhcp::Pkt6Ptr& pkt_to);
/// \brief Calculate elapsed time between two packets.
///
/// This function calculates the time elapsed between two packets. If
/// the timestamp of the pkt2 is greater than timestamp of the pkt1,
/// the positive value is returned. If the pkt2 timestamp is equal or
/// less than pkt1 timestamp, 0 is returned.
///
/// \tparam T Pkt4Ptr or Pkt6Ptr class.
/// \param pkt1 first packet.
/// \param pkt2 second packet.
/// \throw InvalidOperation if packet timestamps are invalid.
/// \return elapsed time in milliseconds between pkt1 and pkt2.
template<class T>
uint32_t getElapsedTime(const T& pkt1, const T& pkt2);
/// \brief Return elapsed time offset in a packet.
///
/// \return elapsed time offset in packet.
int getElapsedTimeOffset() const;
/// \brief Return randomization offset in a packet.
///
/// \return randomization offset in packet.
int getRandomOffset(const int arg_idx) const;
/// \brief Return requested ip offset in a packet.
///
/// \return randomization offset in a packet.
int getRequestedIpOffset() const;
/// \brief Return server id offset in a packet.
///
/// \return server id offset in packet.
int getServerIdOffset() const;
/// \brief Return transaction id offset in a packet.
///
/// \param arg_idx command line argument index to be used.
/// If multiple -X parameters specified it points to the
/// one to be used.
/// \return transaction id offset in packet.
int getTransactionIdOffset(const int arg_idx) const;
/// \brief Handle child signal.
///
/// Function handles child signal by waiting for
/// the process to complete.
///
/// \param sig signal (ignored).
static void handleChild(int sig);
/// \brief Handle interrupt signal.
///
/// Function sets flag indicating that program has been
/// interrupted.
///
/// \param sig signal (ignored).
static void handleInterrupt(int sig);
/// \brief Print main diagnostics data.
///
/// Method prints main diagnostics data.
void printDiagnostics() const;
/// \brief Print template information.
///
/// \param packet_type packet type.
void printTemplate(const uint8_t packet_type) const;
/// \brief Read DHCP message template from file.
///
/// Method reads DHCP message template from file and
/// converts it to binary format. Read data is appended
/// to template_buffers_ vector.
///
/// \param file_name name of the packet template file.
/// \throw isc::OutOfRange if file is empty or has odd number
/// of hexadecimal digits.
/// \throw isc::BadValue if file contains characters other than
/// spaces or hexadecimal digits.
void readPacketTemplate(const std::string& file_name);
/// \brief Keep addresses and prefixes from advertise msg for uniqueness checks.
std::set<std::string> unique_address_;
/// \brief Keep addresses and prefixes from reply msg for uniqueness checks.
std::set<std::string> unique_reply_address_;
/// \brief Socket used for DHCP traffic.
BasePerfSocket &socket_;
/// \brief Receiver used to receive DHCP traffic.
Receiver receiver_;
/// \brief Last intermediate report time.
boost::posix_time::ptime last_report_;
/// \brief Statistics Manager.
StatsMgr stats_mgr_;
/// \brief Storage for DHCPACK messages.
PacketStorage<dhcp::Pkt4> ack_storage_;
/// \brief Storage for reply messages.
PacketStorage<dhcp::Pkt6> reply_storage_;
/// \brief Generate uniformly distributed integers in range of
/// [min, max].
NumberGeneratorPtr random_generator_;
/// \brief Transaction id generator.
NumberGeneratorPtr transid_gen_;
/// \brief Numbers generator for MAC address.
NumberGeneratorPtr macaddr_gen_;
/// \brief Buffer holding server id received in first packet
dhcp::OptionBuffer first_packet_serverid_;
/// \brief Packet template buffers.
TemplateBufferCollection template_buffers_;
/// First packets send. They are used at the end of the test
/// to print packet templates when diagnostics flag T is specified.
/// \brief Template for v4.
std::map<uint8_t, dhcp::Pkt4Ptr> template_packets_v4_;
/// \brief Template for v6.
std::map<uint8_t, dhcp::Pkt6Ptr> template_packets_v6_;
/// \brief Program interrupted flag.
static bool interrupted_;
/// \brief Command options.
CommandOptions& options_;
};
} // namespace perfdhcp
} // namespace isc
#endif // TEST_CONTROL_H
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