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598 | // 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/.
#include <config.h>
#include "command_options_helper.h"
#include <perfdhcp/stats_mgr.h>
#include <exceptions/exceptions.h>
#include <dhcp/dhcp4.h>
#include <dhcp/dhcp6.h>
#include <dhcp/pkt4.h>
#include <dhcp/pkt6.h>
#include <gtest/gtest.h><--- 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 <boost/scoped_ptr.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.
using namespace std;
using namespace isc;
using namespace isc::dhcp;
using namespace isc::perfdhcp;
namespace {
const uint32_t common_transid = 123;
/// @brief Number of packets to be used for testing packets collecting.
const size_t TEST_COLLECTED_PKT_NUM = 10;
/// @brief DHCPv4 packet with modifiable internal values.
///
/// Currently the only additional modifiable value is a packet
/// timestamp.
class Pkt4Modifiable : public Pkt4 {
public:
/// @brief Constructor.
///
/// @param msg_type DHCPv4 message type.
/// @param transid Transaction id.
Pkt4Modifiable(const uint8_t msg_type, const uint32_t transid)
: Pkt4(msg_type, transid) {
}
/// @brief Modifies packet timestamp.
///
/// @param delta Number of seconds to be added to the current
/// packet time. If this number is negative, the new timestamp
/// will point to earlier time than the original timestamp.
void modifyTimestamp(const long delta) {
timestamp_ += boost::posix_time::seconds(delta);
}
};
/// @brief Pointer to the Pkt4Modifiable.
typedef boost::shared_ptr<Pkt4Modifiable> Pkt4ModifiablePtr;
class StatsMgrTest : public ::testing::Test {
public:
StatsMgrTest() {
}
/// \brief Create DHCPv4 packet.
///
/// Method creates DHCPv4 packet and updates its timestamp.
///
/// \param msg_type DHCPv4 message type.
/// \param transid transaction id for the packet.
/// \return DHCPv4 packet.
Pkt4Modifiable* createPacket4(const uint8_t msg_type,
const uint32_t transid) {
Pkt4Modifiable* pkt = new Pkt4Modifiable(msg_type, transid);
// Packet timestamp is normally updated by interface
// manager on packets reception or send. Unit tests
// do not use interface manager so we need to do it
// ourselves.
pkt->updateTimestamp();
return (pkt);
}
/// \brief Create DHCPv6 packet.
///
/// Method creates DHCPv6 packet and updates its timestamp.
///
/// \param msg_type DHCPv6 message type.
/// \param transid transaction id.
/// \return DHCPv6 packet.
Pkt6* createPacket6(const uint8_t msg_type,
const uint32_t transid) {
Pkt6* pkt = new Pkt6(msg_type, transid);
// Packet timestamp is normally updated by interface
// manager on packets reception or send. Unit tests
// do not use interface manager so we need to do it
// ourselves.
pkt->updateTimestamp();
return pkt;
}
/// \brief Pass multiple DHCPv6 packets to Statistics Manager.
///
/// Method simulates sending or receiving multiple DHCPv6 packets.
///
/// \note The xchg_type parameter is passed as non-const value to avoid
/// false cppcheck errors which expect enum value being passed by reference.
/// This error is not reported when non-const enum is passed by value.
///
/// \param stats_mgr Statistics Manager instance to be used.
/// \param xchg_type packet exchange types.
/// \param packet_type DHCPv6 packet type.
/// \param num_packets packets to be passed to Statistics Manager.
/// \param receive simulated packets are received (if true)
/// or sent (if false)
void passMultiplePackets6(const boost::shared_ptr<StatsMgr> stats_mgr,
ExchangeType xchg_type,
const uint8_t packet_type,
const int num_packets,
const bool receive = false) {
for (int i = 0; i < num_packets; ++i) {
boost::shared_ptr<Pkt6>
packet(createPacket6(packet_type, i));
if (receive) {
ASSERT_NO_THROW(<--- There is an unknown macro here somewhere. Configuration is required. If ASSERT_NO_THROW is a macro then please configure it.
stats_mgr->passRcvdPacket(xchg_type, packet);
);
} else {
ASSERT_NO_THROW(
stats_mgr->passSentPacket(xchg_type, packet)
);
}
}
}
/// \brief Simulate DHCPv4 DISCOVER-OFFER with delay.
///
/// Method simulates DHCPv4 DISCOVER-OFFER exchange. The OFFER packet
/// creation is delayed by the specified number of seconds. This imposes
/// different packet timestamps and affects delay counters in Statistics
/// Manager.
///
/// \param stats_mgr Statistics Manager instance.
/// \param delay delay in seconds between DISCOVER and OFFER packets.
void passDOPacketsWithDelay(const boost::shared_ptr<StatsMgr> stats_mgr,
unsigned int delay,
uint32_t transid) {
boost::shared_ptr<Pkt4> sent_packet(createPacket4(DHCPDISCOVER,
transid));
ASSERT_NO_THROW(
stats_mgr->passSentPacket(ExchangeType::DO, sent_packet)
);
// Simulate time difference by changing time of sent packet
auto ts = sent_packet->getTimestamp() - boost::posix_time::seconds(delay);
sent_packet->setTimestamp(ts);
boost::shared_ptr<Pkt4> rcvd_packet(createPacket4(DHCPOFFER,
transid));
ASSERT_NO_THROW(
stats_mgr->passRcvdPacket(ExchangeType::DO, rcvd_packet);
);
// Calculate period between packets.
boost::posix_time::ptime sent_time = sent_packet->getTimestamp();
boost::posix_time::ptime rcvd_time = rcvd_packet->getTimestamp();
ASSERT_FALSE(sent_time.is_not_a_date_time());
ASSERT_FALSE(rcvd_time.is_not_a_date_time());
}
/// @brief This test verifies that timed out packets are collected.
///
/// @param transid_index Index in the table of transaction ids which
/// points to the transaction id to be selected for the DHCPOFFER.
void testSendReceiveCollected(const size_t transid_index) {
CommandOptions opt;
boost::scoped_ptr<StatsMgr> stats_mgr(new StatsMgr(opt));
// The second parameter indicates that transactions older than
// 2 seconds should be removed and respective packets collected.
stats_mgr->addExchangeStats(ExchangeType::DO, 2);
// Transaction ids of packets to be sent. All transaction ids
// belong to the same bucket (match the transid & 1023 hashing
// function).
uint32_t transid[TEST_COLLECTED_PKT_NUM] =
{ 1, 1025, 2049, 3073, 4097, 5121, 6145, 7169, 8193, 9217 };
// Simulate sending a number of packets.
for (unsigned int i = 0; i < TEST_COLLECTED_PKT_NUM; ++i) {
Pkt4ModifiablePtr sent_packet(createPacket4(DHCPDISCOVER,
transid[i]));
// For packets with low indexes we set the timestamps to
// 10s in the past. When DHCPOFFER is processed, the
// packets with timestamps older than 2s should be collected.
if (i < TEST_COLLECTED_PKT_NUM / 2) {
sent_packet->modifyTimestamp(-10);
}
ASSERT_NO_THROW(
stats_mgr->passSentPacket(ExchangeType::DO, sent_packet)
) << "failure for transaction id " << transid[i];
}
// Create a server response for one of the packets sent.
Pkt4ModifiablePtr rcvd_packet(createPacket4(DHCPOFFER,
transid[transid_index]));
ASSERT_NO_THROW(
stats_mgr->passRcvdPacket(ExchangeType::DO, rcvd_packet);
);
// There is exactly one case (transaction id) for which perfdhcp
// will find a packet using ordered lookup. In this case, no
// packets will be collected. Otherwise, for any unordered lookup
// all packets from a bucket should be collected.
if (stats_mgr->getUnorderedLookups(ExchangeType::DO) > 0) {
// All packets in the bucket having transaction id
// index below TEST_COLLECTED_PKT_NUM / 2 should be removed.
EXPECT_EQ(TEST_COLLECTED_PKT_NUM / 2,
stats_mgr->getCollectedNum(ExchangeType::DO));
}
// Make sure that we can still use the StatsMgr. It is possible
// that the pointer to 'next sent' packet was invalidated
// during packet removal.
for (unsigned int i = 0; i < TEST_COLLECTED_PKT_NUM; ++i) {
// Increase transaction ids by 1 so as they don't duplicate
// with transaction ids of already sent packets.
Pkt4ModifiablePtr sent_packet(createPacket4(DHCPDISCOVER,
transid[i] + 1));
Pkt4ModifiablePtr rcvd_packet2(createPacket4(DHCPOFFER,
transid[i] + 1));
ASSERT_NO_THROW(
stats_mgr->passSentPacket(ExchangeType::DO, sent_packet)
) << "failure for transaction id " << transid[i];
ASSERT_NO_THROW(
stats_mgr->passRcvdPacket(ExchangeType::DO, rcvd_packet2);
) << "failure for transaction id " << transid[i];
}
// We should have processed TEST_COLLECTED_PKT_NUM but it is possible
// that one of them we couldn't match (orphan packet), because
// the matched packet had to be collected because of the transaction
// timeout. Therefore, we have to count both received packets and
// orphans.
EXPECT_EQ(TEST_COLLECTED_PKT_NUM + 1,
stats_mgr->getRcvdPacketsNum(ExchangeType::DO) +
stats_mgr->getOrphans(ExchangeType::DO));
}
};
TEST_F(StatsMgrTest, Constructor) {
CommandOptions opt;
boost::scoped_ptr<StatsMgr> stats_mgr(new StatsMgr(opt));
stats_mgr->addExchangeStats(ExchangeType::DO);
EXPECT_DOUBLE_EQ(
std::numeric_limits<double>::max(),
stats_mgr->getMinDelay(ExchangeType::DO)
);
EXPECT_DOUBLE_EQ(0, stats_mgr->getMaxDelay(ExchangeType::DO));
EXPECT_EQ(0, stats_mgr->getOrphans(ExchangeType::DO));
EXPECT_EQ(0, stats_mgr->getOrderedLookups(ExchangeType::DO));
EXPECT_EQ(0, stats_mgr->getUnorderedLookups(ExchangeType::DO));
EXPECT_EQ(0, stats_mgr->getSentPacketsNum(ExchangeType::DO));
EXPECT_EQ(0, stats_mgr->getRcvdPacketsNum(ExchangeType::DO));
EXPECT_EQ(0, stats_mgr->getCollectedNum(ExchangeType::DO));
EXPECT_THROW(stats_mgr->getAvgDelay(ExchangeType::DO), InvalidOperation);
EXPECT_THROW(stats_mgr->getStdDevDelay(ExchangeType::DO),
InvalidOperation);
EXPECT_THROW(stats_mgr->getAvgUnorderedLookupSetSize(ExchangeType::DO),
InvalidOperation);
}
TEST_F(StatsMgrTest, Exchange) {
CommandOptions opt;
boost::scoped_ptr<StatsMgr> stats_mgr(new StatsMgr(opt));
boost::shared_ptr<Pkt4> sent_packet(createPacket4(DHCPDISCOVER,
common_transid));
boost::shared_ptr<Pkt4> rcvd_packet(createPacket4(DHCPOFFER,
common_transid));
// This is expected to throw because XCHG_DO was not yet
// added to Stats Manager for tracking.
ASSERT_FALSE(stats_mgr->hasExchangeStats(ExchangeType::DO));
ASSERT_FALSE(stats_mgr->hasExchangeStats(ExchangeType::RA));
EXPECT_THROW(
stats_mgr->passSentPacket(ExchangeType::DO, sent_packet),
BadValue
);
EXPECT_THROW(
stats_mgr->passRcvdPacket(ExchangeType::DO, rcvd_packet),
BadValue
);
// Adding DISCOVER-OFFER exchanges to be tracked by Stats Manager.
stats_mgr->addExchangeStats(ExchangeType::DO);
ASSERT_TRUE(stats_mgr->hasExchangeStats(ExchangeType::DO));
ASSERT_FALSE(stats_mgr->hasExchangeStats(ExchangeType::RA));
// The following two attempts are expected to throw because
// invalid exchange types are passed (XCHG_RA instead of XCHG_DO)
EXPECT_THROW(
stats_mgr->passSentPacket(ExchangeType::RA, sent_packet),
BadValue
);
EXPECT_THROW(
stats_mgr->passRcvdPacket(ExchangeType::RA, rcvd_packet),
BadValue
);
// The following two attempts are expected to run fine because
// right exchange type is specified.
EXPECT_NO_THROW(
stats_mgr->passSentPacket(ExchangeType::DO, sent_packet)
);
EXPECT_NO_THROW(
stats_mgr->passRcvdPacket(ExchangeType::DO, rcvd_packet)
);
}
TEST_F(StatsMgrTest, MultipleExchanges) {
CommandOptions opt;
boost::shared_ptr<StatsMgr> stats_mgr(new StatsMgr(opt));
stats_mgr->addExchangeStats(ExchangeType::SA);
stats_mgr->addExchangeStats(ExchangeType::RR);
// Simulate sending number of solicit packets.
const int solicit_packets_num = 10;
passMultiplePackets6(stats_mgr, ExchangeType::SA, DHCPV6_SOLICIT,
solicit_packets_num);
// Simulate sending number of request packets. It is important that
// number of request packets is different then number of solicit
// packets. We can now check if right number packets went to
// the right exchange type group.
const int request_packets_num = 5;
passMultiplePackets6(stats_mgr, ExchangeType::RR, DHCPV6_REQUEST,
request_packets_num);
// Check if all packets are successfully passed to packet lists.
EXPECT_EQ(solicit_packets_num,
stats_mgr->getSentPacketsNum(ExchangeType::SA));
EXPECT_EQ(request_packets_num,
stats_mgr->getSentPacketsNum(ExchangeType::RR));
// Simulate reception of multiple packets for both SOLICIT-ADVERTISE
// and REQUEST-REPLY exchanges. Assume no packet drops.
const bool receive_packets = true;
passMultiplePackets6(stats_mgr, ExchangeType::SA, DHCPV6_ADVERTISE,
solicit_packets_num, receive_packets);
passMultiplePackets6(stats_mgr, ExchangeType::RR, DHCPV6_REPLY,
request_packets_num, receive_packets);
// Verify that all received packets are counted.
EXPECT_EQ(solicit_packets_num,
stats_mgr->getRcvdPacketsNum(ExchangeType::SA));
EXPECT_EQ(request_packets_num,
stats_mgr->getRcvdPacketsNum(ExchangeType::RR));
}
TEST_F(StatsMgrTest, SendReceiveSimple) {
CommandOptions opt;
boost::scoped_ptr<StatsMgr> stats_mgr(new StatsMgr(opt));
boost::shared_ptr<Pkt4> sent_packet(createPacket4(DHCPDISCOVER,
common_transid));
boost::shared_ptr<Pkt4> rcvd_packet(createPacket4(DHCPOFFER,
common_transid));
stats_mgr->addExchangeStats(ExchangeType::DO);
// The following attempt is expected to pass because the right
// exchange type is used.
ASSERT_NO_THROW(
stats_mgr->passSentPacket(ExchangeType::DO, sent_packet)
);
// It is ok, to pass to received packets here. First one will
// be matched with sent packet. The latter one will not be
// matched with sent packet but orphans counter will simply
// increase.
ASSERT_NO_THROW(
stats_mgr->passRcvdPacket(ExchangeType::DO, rcvd_packet)
);
ASSERT_NO_THROW(
stats_mgr->passRcvdPacket(ExchangeType::DO, rcvd_packet)
);
EXPECT_EQ(1, stats_mgr->getOrphans(ExchangeType::DO));
}
TEST_F(StatsMgrTest, SendReceiveUnordered) {
CommandOptions opt;
const int packets_num = 10;
boost::scoped_ptr<StatsMgr> stats_mgr(new StatsMgr(opt));
stats_mgr->addExchangeStats(ExchangeType::DO);
// Transaction ids of 10 packets to be sent and received.
uint32_t transid[packets_num] =
{ 1, 1024, 2, 1025, 3, 1026, 4, 1027, 5, 1028 };
for (int i = 0; i < packets_num; ++i) {
boost::shared_ptr<Pkt4> sent_packet(createPacket4(DHCPDISCOVER,
transid[i]));
ASSERT_NO_THROW(
stats_mgr->passSentPacket(ExchangeType::DO, sent_packet)
);
}
// We are simulating that received packets are coming in reverse order:
// 1028, 5, 1027 ....
for (int i = 0; i < packets_num; ++i) {
boost::shared_ptr<Pkt4>
rcvd_packet(createPacket4(DHCPDISCOVER,
transid[packets_num - 1 - i]));
ASSERT_NO_THROW(
stats_mgr->passRcvdPacket(ExchangeType::DO, rcvd_packet);
);
}
// All packets are expected to match (we did not drop any)
EXPECT_EQ(0, stats_mgr->getOrphans(ExchangeType::DO));
// Most of the time we have to do unordered lookups except for the last
// one. Packets are removed from the sent list every time we have a match
// so eventually we come up with the single packet that caching iterator
// is pointing to. This is counted as ordered lookup.
EXPECT_EQ(1, stats_mgr->getOrderedLookups(ExchangeType::DO));
EXPECT_EQ(9, stats_mgr->getUnorderedLookups(ExchangeType::DO));
}
TEST_F(StatsMgrTest, SendReceiveCollected) {
// Check that the packet collection mechanism works fine
// for any packet returned by the server.
for (unsigned int i = 0; i < TEST_COLLECTED_PKT_NUM; ++i) {
testSendReceiveCollected(i);
}
}
TEST_F(StatsMgrTest, Orphans) {
CommandOptions opt;
const int packets_num = 6;
boost::scoped_ptr<StatsMgr> stats_mgr(new StatsMgr(opt));
stats_mgr->addExchangeStats(ExchangeType::DO);
// We skip every second packet to simulate drops.
for (int i = 0; i < packets_num; i += 2) {
boost::shared_ptr<Pkt4> sent_packet(createPacket4(DHCPDISCOVER, i));
ASSERT_NO_THROW(
stats_mgr->passSentPacket(ExchangeType::DO, sent_packet)
);
}
// We pass all received packets.
for (int i = 0; i < packets_num; ++i) {
boost::shared_ptr<Pkt4> rcvd_packet(createPacket4(DHCPOFFER, i));
ASSERT_NO_THROW(
stats_mgr->passRcvdPacket(ExchangeType::DO, rcvd_packet);
);
}
// The half of received packets are expected not to have matching
// sent packet.
EXPECT_EQ(packets_num / 2, stats_mgr->getOrphans(ExchangeType::DO));
}
TEST_F(StatsMgrTest, Delays) {
CommandOptions opt;
boost::shared_ptr<StatsMgr> stats_mgr(new StatsMgr(opt));
stats_mgr->addExchangeStats(ExchangeType::DO, 5);
// Send DISCOVER, wait 2s and receive OFFER. This will affect
// counters in Stats Manager.
passDOPacketsWithDelay(stats_mgr, 2, common_transid);
// Initially min delay is equal to MAX_DOUBLE. After first packets
// are passed, it is expected to set to actual value.
EXPECT_LT(stats_mgr->getMinDelay(ExchangeType::DO),
std::numeric_limits<double>::max());
EXPECT_GT(stats_mgr->getMinDelay(ExchangeType::DO), 1);
// Max delay is supposed to the same value as minimum
// or maximum delay.
EXPECT_GT(stats_mgr->getMaxDelay(ExchangeType::DO), 1);
// Delay sums are now the same as minimum or maximum delay.
EXPECT_GT(stats_mgr->getAvgDelay(ExchangeType::DO), 1);
// Simulate another DISCOVER-OFFER exchange with delay between
// sent and received packets. Delay is now shorter than earlier
// so standard deviation of delay will now increase.
const unsigned int delay2 = 1;
passDOPacketsWithDelay(stats_mgr, delay2, common_transid + 1);
// Standard deviation is expected to be non-zero.
EXPECT_GT(stats_mgr->getStdDevDelay(ExchangeType::DO), 0);
}
TEST_F(StatsMgrTest, CustomCounters) {
CommandOptions opt;
boost::scoped_ptr<StatsMgr> stats_mgr(new StatsMgr(opt));
// Specify counter keys and names.
const std::string too_short_key("tooshort");
const std::string too_short_name("Too short packets");
const std::string too_late_key("toolate");
const std::string too_late_name("Packets sent too late");
// Add two custom counters.
stats_mgr->addCustomCounter(too_short_key, too_short_name);
stats_mgr->addCustomCounter(too_late_key, too_late_name);
// Increment one of the counters 10 times.
const uint64_t tooshort_num = 10;
for (uint64_t i = 0; i < tooshort_num; ++i) {
stats_mgr->incrementCounter(too_short_key);
}
// Increment another counter by 5 times.
const uint64_t toolate_num = 5;
for (uint64_t i = 0; i < toolate_num; ++i) {
stats_mgr->incrementCounter(too_late_key);
}
// Check counter's current value and name.
CustomCounterPtr tooshort_counter =
stats_mgr->getCounter(too_short_key);
EXPECT_EQ(too_short_name, tooshort_counter->getName());
EXPECT_EQ(tooshort_num, tooshort_counter->getValue());
// Check counter's current value and name.
CustomCounterPtr toolate_counter =
stats_mgr->getCounter(too_late_key);
EXPECT_EQ(too_late_name, toolate_counter->getName());
EXPECT_EQ(toolate_num, toolate_counter->getValue());
}
TEST_F(StatsMgrTest, PrintStats) {
std::cout << "This unit test is checking statistics printing "
<< "capabilities. It is expected that some counters "
<< "will be printed during this test. It may also "
<< "cause spurious errors." << std::endl;
CommandOptions opt;
boost::shared_ptr<StatsMgr> stats_mgr(new StatsMgr(opt));
stats_mgr->addExchangeStats(ExchangeType::SA);
// Simulate sending and receiving one packet. Otherwise printing
// functions will complain about lack of packets.
const int packets_num = 1;
passMultiplePackets6(stats_mgr, ExchangeType::SA, DHCPV6_SOLICIT,
packets_num);
passMultiplePackets6(stats_mgr, ExchangeType::SA, DHCPV6_ADVERTISE,
packets_num, true);
// This function will print statistics even if packets are not
// archived because it relies on counters. There is at least one
// exchange needed to count the average delay and std deviation.
EXPECT_NO_THROW(stats_mgr->printStats());
// Printing timestamps is expected to fail because by default we
// disable packets archiving mode. Without packets we can't get
// timestamps.
EXPECT_THROW(stats_mgr->printTimestamps(), isc::InvalidOperation);
// Now, we create another statistics manager instance and enable timestamp
// printing, thus also enabling packets archiving mode.
CommandOptionsHelper::process(opt, "perfdhcp -x t 127.0.0.1");
stats_mgr.reset(new StatsMgr(opt));
stats_mgr->addExchangeStats(ExchangeType::SA);
// Timestamps should now get printed because packets have been preserved.
EXPECT_NO_THROW(stats_mgr->printTimestamps());
// Create another statistics manager instance and enable lease printing for
// v4, thus also enabling packets archiving mode.
CommandOptionsHelper::process(opt, "perfdhcp -4 -x l 127.0.0.1");
stats_mgr.reset(new StatsMgr(opt));
stats_mgr->addExchangeStats(ExchangeType::RNA);
stats_mgr->addExchangeStats(ExchangeType::RLA);
ASSERT_TRUE(stats_mgr->hasExchangeStats(ExchangeType::DO));
ASSERT_TRUE(stats_mgr->hasExchangeStats(ExchangeType::RA));
ASSERT_TRUE(stats_mgr->hasExchangeStats(ExchangeType::RNA));
ASSERT_TRUE(stats_mgr->hasExchangeStats(ExchangeType::RLA));
// Leases should now get printed because packets have been preserved.
EXPECT_NO_THROW(stats_mgr->printLeases());
// For v6 this time.
CommandOptionsHelper::process(opt, "perfdhcp -6 -x l 127.0.0.1");
stats_mgr.reset(new StatsMgr(opt));
stats_mgr->addExchangeStats(ExchangeType::RN);
stats_mgr->addExchangeStats(ExchangeType::RL);
ASSERT_TRUE(stats_mgr->hasExchangeStats(ExchangeType::SA));
ASSERT_TRUE(stats_mgr->hasExchangeStats(ExchangeType::RR));
ASSERT_TRUE(stats_mgr->hasExchangeStats(ExchangeType::RN));
ASSERT_TRUE(stats_mgr->hasExchangeStats(ExchangeType::RL));
// Leases should now get printed because packets have been preserved.
EXPECT_NO_THROW(stats_mgr->printLeases());
}
} // namespace
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