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gerrit.named-data.net / ndn-tools / 6677762595918ef14afbcb583cbb3ab5ce16807d / . / tests / dump / ndndump.t.cpp
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/* -*- Mode:C++; c-file-style:"gnu"; indent-tabs-mode:nil; -*- */
/*
* Copyright (c) 2014-2020, University of Memphis,
* University Pierre & Marie Curie, Sorbonne University.
*
* This file is part of ndn-tools (Named Data Networking Essential Tools).
* See AUTHORS.md for complete list of ndn-tools authors and contributors.
*
* ndn-tools is free software: you can redistribute it and/or modify it under the terms
* of the GNU General Public License as published by the Free Software Foundation,
* either version 3 of the License, or (at your option) any later version.
*
* ndn-tools is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY;
* without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR
* PURPOSE. See the GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License along with
* ndn-tools, e.g., in COPYING.md file. If not, see <http://www.gnu.org/licenses/>.
*/
#include "tools/dump/ndndump.hpp"
#include "tests/test-common.hpp"
#include <net/ethernet.h>
#include <netinet/ip.h>
#include <netinet/ip6.h>
#include <netinet/tcp.h>
#include <netinet/udp.h>
#include <boost/endian/conversion.hpp>
#if BOOST_VERSION >= 105900
#include <boost/test/tools/output_test_stream.hpp>
#else
#include <boost/test/output_test_stream.hpp>
#endif
#include <ndn-cxx/encoding/encoding-buffer.hpp>
#include <ndn-cxx/lp/packet.hpp>
#include <ndn-cxx/net/ethernet.hpp>
namespace ndn {
namespace dump {
namespace tests {
namespace endian = boost::endian;
using namespace ndn::tests;
class StdCoutRedirector
{
public:
StdCoutRedirector(std::ostream& os)
{
// Redirect std::cout to the specified output stream
originalBuffer = std::cout.rdbuf(os.rdbuf());
}
~StdCoutRedirector()
{
// Revert state for std::cout
std::cout.rdbuf(originalBuffer);
}
private:
std::streambuf* originalBuffer;
};
class NdnDumpFixture
{
protected:
NdnDumpFixture()
{
dump.m_dataLinkType = DLT_EN10MB;
}
template<typename Packet>
void
receive(const Packet& packet)
{
EncodingBuffer buffer(packet.wireEncode());
receiveEthernet(buffer);
}
void
receiveEthernet(EncodingBuffer& buffer, uint16_t ethertype = s_ethertypeNdn)
{
ethernet::Address host;
// Ethernet header
buffer.prependByteArray(reinterpret_cast<const uint8_t*>(&ethertype), ethernet::TYPE_LEN);
buffer.prependByteArray(host.data(), host.size());
buffer.prependByteArray(host.data(), host.size());
// pcap header
pcap_pkthdr pkthdr{};
pkthdr.caplen = pkthdr.len = buffer.size();
{
StdCoutRedirector redirect(output);
dump.printPacket(&pkthdr, buffer.buf());
}
}
void
receiveIp4(EncodingBuffer& buffer, const ip* ipHeader)
{
buffer.prependByteArray(reinterpret_cast<const uint8_t*>(ipHeader), sizeof(ip));
receiveEthernet(buffer, s_ethertypeIp4);
}
void
receiveIp6(EncodingBuffer& buffer, const ip6_hdr* ip6Header)
{
buffer.prependByteArray(reinterpret_cast<const uint8_t*>(ip6Header), sizeof(ip6_hdr));
receiveEthernet(buffer, s_ethertypeIp6);
}
void
receiveTcp4(EncodingBuffer& buffer, const tcphdr* tcpHeader)
{
buffer.prependByteArray(reinterpret_cast<const uint8_t*>(tcpHeader), sizeof(tcphdr));
ip ipHeader{};
ipHeader.ip_v = 4;
ipHeader.ip_hl = 5;
ipHeader.ip_len = endian::native_to_big(static_cast<uint16_t>(buffer.size() + sizeof(ipHeader)));
ipHeader.ip_ttl = 1;
ipHeader.ip_p = IPPROTO_TCP;
receiveIp4(buffer, &ipHeader);
}
void
receiveUdp4(EncodingBuffer& buffer, const udphdr* udpHeader)
{
buffer.prependByteArray(reinterpret_cast<const uint8_t*>(udpHeader), sizeof(udphdr));
ip ipHeader{};
ipHeader.ip_v = 4;
ipHeader.ip_hl = 5;
ipHeader.ip_len = endian::native_to_big(static_cast<uint16_t>(buffer.size() + sizeof(ipHeader)));
ipHeader.ip_ttl = 1;
ipHeader.ip_p = IPPROTO_UDP;
receiveIp4(buffer, &ipHeader);
}
void
readFile(const std::string& filename)
{
StdCoutRedirector redirect(output);
dump.inputFile = filename;
dump.run();
}
protected:
NdnDump dump;
boost::test_tools::output_test_stream output;
static const uint16_t s_ethertypeNdn;
static const uint16_t s_ethertypeIp4;
static const uint16_t s_ethertypeIp6;
};
const uint16_t NdnDumpFixture::s_ethertypeNdn = endian::native_to_big(ethernet::ETHERTYPE_NDN);
const uint16_t NdnDumpFixture::s_ethertypeIp4 = endian::native_to_big(uint16_t(ETHERTYPE_IP));
const uint16_t NdnDumpFixture::s_ethertypeIp6 = endian::native_to_big(uint16_t(ETHERTYPE_IPV6));
BOOST_AUTO_TEST_SUITE(Dump)
BOOST_FIXTURE_TEST_SUITE(TestNdnDump, NdnDumpFixture)
BOOST_AUTO_TEST_CASE(Interest)
{
auto interest = makeInterest("/test", false, DEFAULT_INTEREST_LIFETIME, 1);
this->receive(*interest);
BOOST_CHECK(output.is_equal("0.000000 Ethernet, INTEREST: /test?Nonce=00000001\n"));
this->receive(interest->setCanBePrefix(true));
BOOST_CHECK(output.is_equal("0.000000 Ethernet, INTEREST: /test?CanBePrefix&Nonce=00000001\n"));
this->receive(interest->setInterestLifetime(50_ms));
BOOST_CHECK(output.is_equal("0.000000 Ethernet, INTEREST: /test?CanBePrefix&Nonce=00000001&Lifetime=50\n"));
}
BOOST_AUTO_TEST_CASE(Data)
{
auto data = makeData("/test");
this->receive(*data);
BOOST_CHECK(output.is_equal("0.000000 Ethernet, DATA: /test\n"));
this->receive(data->setContentType(tlv::ContentType_Key));
BOOST_CHECK(output.is_equal("0.000000 Ethernet, DATA: /test\n"));
this->receive(data->setFreshnessPeriod(42_h));
BOOST_CHECK(output.is_equal("0.000000 Ethernet, DATA: /test\n"));
}
BOOST_AUTO_TEST_CASE(Nack)
{
auto interest = makeInterest("/test", false, DEFAULT_INTEREST_LIFETIME, 1);
auto nack = makeNack(*interest, lp::NackReason::DUPLICATE);
lp::Packet lpPacket(interest->wireEncode());
lpPacket.add<lp::NackField>(nack.getHeader());
this->receive(lpPacket);
BOOST_CHECK(output.is_equal("0.000000 Ethernet, NDNLPv2, NACK (Duplicate): /test?Nonce=00000001\n"));
}
BOOST_AUTO_TEST_CASE(LpFragment)
{
const uint8_t data[10] = {
0x06, 0x08, // Data packet
0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08,
};
Buffer buffer(data, 4);
lp::Packet lpPacket;
lpPacket.add<lp::FragmentField>(std::make_pair(buffer.begin(), buffer.end()));
lpPacket.add<lp::FragIndexField>(0);
lpPacket.add<lp::FragCountField>(2);
lpPacket.add<lp::SequenceField>(1000);
this->receive(lpPacket);
BOOST_CHECK(output.is_equal("0.000000 Ethernet, NDNLPv2 fragment\n"));
}
BOOST_AUTO_TEST_CASE(LpIdle)
{
lp::Packet lpPacket;
this->receive(lpPacket);
BOOST_CHECK(output.is_equal("0.000000 Ethernet, NDNLPv2 idle\n"));
}
BOOST_AUTO_TEST_CASE(IncompleteNdnPacket)
{
const uint8_t interest[] = {
0x05, 0x0E, // Interest
0x07, 0x06, // Name
0x08, 0x04, // NameComponent
0x74, 0x65, 0x73, 0x74,
0x0a, 0x04, // Nonce
0x00, 0x00, 0x00, 0x01
};
EncodingBuffer buffer;
buffer.prependByteArray(interest, 4);
this->receiveEthernet(buffer);
BOOST_CHECK(output.is_equal("0.000000 Ethernet, NDN truncated packet, length 4\n"));
}
BOOST_AUTO_TEST_CASE(UnsupportedNdnPacket)
{
EncodingBuffer buffer(encoding::makeEmptyBlock(tlv::Name));
this->receiveEthernet(buffer);
BOOST_CHECK(output.is_equal("0.000000 Ethernet, [Unsupported NDN packet type 7]\n"));
}
BOOST_AUTO_TEST_CASE(UnsupportedEtherType)
{
EncodingBuffer pkt;
uint16_t type = ETHERTYPE_ARP;
endian::native_to_big_inplace(type);
this->receiveEthernet(pkt, type);
BOOST_CHECK(output.is_equal("0.000000 [Unsupported ethertype 0x806]\n"));
}
BOOST_AUTO_TEST_CASE(MalformedIpv4Header)
{
dump.wantTimestamp = false;
uint8_t theAnswer = 42;
EncodingBuffer pkt1;
pkt1.prependByte(theAnswer);
this->receiveEthernet(pkt1, s_ethertypeIp4);
BOOST_CHECK(output.is_equal("IP truncated header, length 1\n"));
ip ipHdr2{};
ipHdr2.ip_v = 7;
EncodingBuffer pkt2;
this->receiveIp4(pkt2, &ipHdr2);
BOOST_CHECK(output.is_equal("IP bad version 7\n"));
ip ipHdr3{};
ipHdr3.ip_v = 4;
ipHdr3.ip_hl = 2;
EncodingBuffer pkt3;
this->receiveIp4(pkt3, &ipHdr3);
BOOST_CHECK(output.is_equal("IP bad header length 8\n"));
ip ipHdr4{};
ipHdr4.ip_v = 4;
ipHdr4.ip_hl = 5;
ipHdr4.ip_len = 10;
endian::native_to_big_inplace(ipHdr4.ip_len);
EncodingBuffer pkt4;
this->receiveIp4(pkt4, &ipHdr4);
BOOST_CHECK(output.is_equal("IP bad length 10\n"));
ip ipHdr5{};
ipHdr5.ip_v = 4;
ipHdr5.ip_hl = 5;
ipHdr5.ip_len = 1000;
endian::native_to_big_inplace(ipHdr5.ip_len);
EncodingBuffer pkt5;
this->receiveIp4(pkt5, &ipHdr5);
BOOST_CHECK(output.is_equal("IP truncated packet, 980 bytes missing\n"));
}
BOOST_AUTO_TEST_CASE(MalformedIpv6Header)
{
dump.wantTimestamp = false;
uint8_t theAnswer = 42;
EncodingBuffer pkt1;
pkt1.prependByte(theAnswer);
this->receiveEthernet(pkt1, s_ethertypeIp6);
BOOST_CHECK(output.is_equal("IP6 truncated header, length 1\n"));
ip6_hdr ip6Hdr2{};
ip6Hdr2.ip6_vfc = 10 << 4;
EncodingBuffer pkt2;
this->receiveIp6(pkt2, &ip6Hdr2);
BOOST_CHECK(output.is_equal("IP6 bad version 10\n"));
ip6_hdr ip6Hdr3{};
ip6Hdr3.ip6_vfc = 6 << 4;
ip6Hdr3.ip6_plen = 1400;
endian::native_to_big_inplace(ip6Hdr3.ip6_plen);
EncodingBuffer pkt3;
this->receiveIp6(pkt3, &ip6Hdr3);
BOOST_CHECK(output.is_equal("IP6 truncated payload, 1400 bytes missing\n"));
}
BOOST_AUTO_TEST_CASE(UnsupportedIpProto)
{
dump.wantTimestamp = false;
ip ipHdr{};
ipHdr.ip_v = 4;
ipHdr.ip_hl = 5;
ipHdr.ip_len = sizeof(ipHdr);
endian::native_to_big_inplace(ipHdr.ip_len);
ipHdr.ip_p = IPPROTO_SCTP;
EncodingBuffer pkt1;
this->receiveIp4(pkt1, &ipHdr);
BOOST_CHECK(output.is_equal("IP 0.0.0.0 > 0.0.0.0, [Unsupported IP proto 132]\n"));
ip6_hdr ip6Hdr{};
ip6Hdr.ip6_vfc = 6 << 4;
ip6Hdr.ip6_nxt = IPPROTO_NONE;
EncodingBuffer pkt2;
this->receiveIp6(pkt2, &ip6Hdr);
BOOST_CHECK(output.is_equal("IP6 :: > ::, [No next header]\n"));
}
BOOST_AUTO_TEST_CASE(MalformedTcpHeader)
{
dump.wantTimestamp = false;
tcphdr tcpHdr1{};
tcpHdr1.TH_OFF = 0x2;
EncodingBuffer pkt1;
this->receiveTcp4(pkt1, &tcpHdr1);
BOOST_CHECK(output.is_equal("IP 0.0.0.0 > 0.0.0.0, TCP bad header length 8\n"));
tcphdr tcpHdr2{};
tcpHdr2.TH_OFF = 0xf;
EncodingBuffer pkt2;
this->receiveTcp4(pkt2, &tcpHdr2);
BOOST_CHECK(output.is_equal("IP 0.0.0.0 > 0.0.0.0, TCP truncated header, 40 bytes missing\n"));
}
BOOST_AUTO_TEST_CASE(MalformedUdpHeader)
{
dump.wantTimestamp = false;
udphdr udpHdr1{};
udpHdr1.UH_LEN = 3;
endian::native_to_big_inplace(udpHdr1.UH_LEN);
EncodingBuffer pkt1;
this->receiveUdp4(pkt1, &udpHdr1);
BOOST_CHECK(output.is_equal("IP 0.0.0.0 > 0.0.0.0, UDP bad length 3\n"));
udphdr udpHdr2{};
udpHdr2.UH_LEN = 1000;
endian::native_to_big_inplace(udpHdr2.UH_LEN);
EncodingBuffer pkt2;
this->receiveUdp4(pkt2, &udpHdr2);
BOOST_CHECK(output.is_equal("IP 0.0.0.0 > 0.0.0.0, UDP truncated packet, 992 bytes missing\n"));
}
BOOST_AUTO_TEST_CASE(InvalidTlvLength)
{
dump.wantTimestamp = false;
this->readFile("tests/dump/invalid-tlv-length.pcap");
const std::string expected =
"IP 128.196.203.36 > 128.187.81.12, TCP, length 147, NDNLPv2 invalid packet: "
"TLV-LENGTH of sub-element of type 5 exceeds TLV-VALUE boundary of parent block\n";
BOOST_CHECK(output.is_equal(expected));
}
BOOST_AUTO_TEST_CASE(UnrecognizedLpField)
{
dump.wantTimestamp = false;
this->readFile("tests/dump/unrecognized-lp-field.pcap");
const std::string expected =
"IP 128.196.203.36 > 128.187.81.12, TCP, length 800, "
"NDNLPv2 invalid packet: unrecognized field 4 cannot be ignored\n";
BOOST_CHECK(output.is_equal(expected));
}
BOOST_AUTO_TEST_CASE(NoTimestamp)
{
dump.wantTimestamp = false;
lp::Packet lpPacket;
this->receive(lpPacket);
BOOST_CHECK(output.is_equal("Ethernet, NDNLPv2 idle\n"));
}
BOOST_AUTO_TEST_CASE(FromFile)
{
dump.pcapFilter = "";
this->readFile("tests/dump/nack.pcap");
const std::string expected =
"1571091605.129263 IP 127.0.0.1 > 127.0.0.1, TCP, length 36, "
"INTEREST: /producer/nack/no-route?Nonce=827bcac4\n"
"1571091605.129702 IP 127.0.0.1 > 127.0.0.1, TCP, length 49, "
"NDNLPv2, NACK (NoRoute): /producer/nack/no-route?Nonce=827bcac4\n";
BOOST_CHECK(output.is_equal(expected));
}
BOOST_AUTO_TEST_CASE(LinuxSllTcp4)
{
dump.wantTimestamp = false;
this->readFile("tests/dump/linux-sll-tcp4.pcap");
const std::string expected =
"IP 162.211.64.84 > 131.179.196.46, TCP, length 41, INTEREST: /ndn/edu/arizona/ping/8202?Nonce=cf062c3f\n"
"IP 131.179.196.46 > 162.211.64.84, TCP, length 403, DATA: /ndn/edu/arizona/ping/8202\n";
BOOST_CHECK(output.is_equal(expected));
}
BOOST_AUTO_TEST_CASE(LinuxSllUdp4)
{
dump.wantTimestamp = false;
this->readFile("tests/dump/linux-sll-udp4.pcap");
const std::string expected =
"IP 162.211.64.84 > 131.179.196.46, UDP, length 42, INTEREST: /ndn/edu/arizona/ping/31044?Nonce=f33c0bbd\n"
"IP 131.179.196.46 > 162.211.64.84, UDP, length 404, DATA: /ndn/edu/arizona/ping/31044\n";
BOOST_CHECK(output.is_equal(expected));
}
BOOST_AUTO_TEST_CASE(LinuxSllTcp6)
{
dump.wantTimestamp = false;
this->readFile("tests/dump/linux-sll-tcp6.pcap");
const std::string expected =
"IP6 2602:fff6:d:b317::39f8 > 2001:660:3302:282c:160::163, TCP, length 42, "
"INTEREST: /ndn/edu/arizona/ping/19573?Nonce=7b9e5b2e\n"
"IP6 2001:660:3302:282c:160::163 > 2602:fff6:d:b317::39f8, TCP, length 404, "
"DATA: /ndn/edu/arizona/ping/19573\n"
"IP6 2001:660:3302:282c:160::163 > 2602:fff6:d:b317::39f8, TCP, length 56, "
"invalid network packet: Unrecognized element of critical type 9\n";
BOOST_CHECK(output.is_equal(expected));
}
BOOST_AUTO_TEST_CASE(LinuxSllUdp6)
{
dump.wantTimestamp = false;
this->readFile("tests/dump/linux-sll-udp6.pcap");
const std::string expected =
"IP6 2602:fff6:d:b317::39f8 > 2001:660:3302:282c:160::163, UDP, length 39, "
"INTEREST: /ndn/edu/arizona/ping/18?Nonce=7e351222\n"
"IP6 2001:660:3302:282c:160::163 > 2602:fff6:d:b317::39f8, UDP, length 401, "
"DATA: /ndn/edu/arizona/ping/18\n"
"IP6 2001:660:3302:282c:160::163 > 2602:fff6:d:b317::39f8, UDP, length 56, "
"invalid network packet: Unrecognized element of critical type 9\n";
BOOST_CHECK(output.is_equal(expected));
}
BOOST_AUTO_TEST_SUITE_END() // TestNdnDump
BOOST_AUTO_TEST_SUITE_END() // Dump
} // namespace tests
} // namespace dump
} // namespace ndn