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/* -*- Mode:C++; c-file-style:"gnu"; indent-tabs-mode:nil; -*- */
/*
* Copyright (c) 2014-2018, Regents of the University of California,
* Arizona Board of Regents,
* Colorado State University,
* University Pierre & Marie Curie, Sorbonne University,
* Washington University in St. Louis,
* Beijing Institute of Technology,
* The University of Memphis.
*
* This file is part of NFD (Named Data Networking Forwarding Daemon).
* See AUTHORS.md for complete list of NFD authors and contributors.
*
* NFD 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.
*
* NFD 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
* NFD, e.g., in COPYING.md file. If not, see <http://www.gnu.org/licenses/>.
*/
#include "face/lp-reassembler.hpp"
#include "tests/test-common.hpp"
namespace nfd {
namespace face {
namespace tests {
using namespace nfd::tests;
class LpReassemblerFixture : public UnitTestTimeFixture
{
protected:
LpReassemblerFixture()
{
reassembler.beforeTimeout.connect(
[this] (Transport::EndpointId remoteEp, size_t nDroppedFragments) {
timeoutHistory.push_back({remoteEp, nDroppedFragments});
});
}
protected:
LpReassembler reassembler{{}};
std::vector<std::pair<Transport::EndpointId, size_t>> timeoutHistory;
static const uint8_t data[10];
};
const uint8_t LpReassemblerFixture::data[10] = {
0x06, 0x08, // Data
0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08,
};
BOOST_AUTO_TEST_SUITE(Face)
BOOST_FIXTURE_TEST_SUITE(TestLpReassembler, LpReassemblerFixture)
BOOST_AUTO_TEST_SUITE(SingleFragment)
BOOST_AUTO_TEST_CASE(Normal)
{
ndn::Buffer dataBuffer(data, sizeof(data));
lp::Packet received;
received.add<lp::FragmentField>(std::make_pair(dataBuffer.begin(), dataBuffer.end()));
received.add<lp::FragIndexField>(0);
received.add<lp::FragCountField>(1);
received.add<lp::SequenceField>(1000);
received.add<lp::NextHopFaceIdField>(200);
bool isComplete = false;
Block netPacket;
lp::Packet packet;
std::tie(isComplete, netPacket, packet) = reassembler.receiveFragment(0, received);
BOOST_REQUIRE(isComplete);
BOOST_CHECK(packet.has<lp::NextHopFaceIdField>());
BOOST_CHECK_EQUAL_COLLECTIONS(data, data + sizeof(data), netPacket.begin(), netPacket.end());
BOOST_CHECK_EQUAL(reassembler.size(), 0);
}
BOOST_AUTO_TEST_CASE(OmitFragIndex)
{
ndn::Buffer dataBuffer(data, sizeof(data));
lp::Packet received;
received.add<lp::FragmentField>(std::make_pair(dataBuffer.begin(), dataBuffer.end()));
received.add<lp::FragCountField>(1);
received.add<lp::SequenceField>(1000);
received.add<lp::NextHopFaceIdField>(200);
bool isComplete = false;
Block netPacket;
lp::Packet packet;
std::tie(isComplete, netPacket, packet) = reassembler.receiveFragment(0, received);
BOOST_REQUIRE(isComplete);
BOOST_CHECK(packet.has<lp::NextHopFaceIdField>());
BOOST_CHECK_EQUAL_COLLECTIONS(data, data + sizeof(data), netPacket.begin(), netPacket.end());
}
BOOST_AUTO_TEST_CASE(OmitFragCount)
{
ndn::Buffer dataBuffer(data, sizeof(data));
lp::Packet received;
received.add<lp::FragmentField>(std::make_pair(dataBuffer.begin(), dataBuffer.end()));
received.add<lp::FragIndexField>(0);
received.add<lp::SequenceField>(1000);
received.add<lp::NextHopFaceIdField>(200);
bool isComplete = false;
Block netPacket;
lp::Packet packet;
std::tie(isComplete, netPacket, packet) = reassembler.receiveFragment(0, received);
BOOST_REQUIRE(isComplete);
BOOST_CHECK(packet.has<lp::NextHopFaceIdField>());
BOOST_CHECK_EQUAL_COLLECTIONS(data, data + sizeof(data), netPacket.begin(), netPacket.end());
}
BOOST_AUTO_TEST_CASE(OmitFragIndexAndFragCount)
{
ndn::Buffer dataBuffer(data, sizeof(data));
lp::Packet received;
received.add<lp::FragmentField>(std::make_pair(dataBuffer.begin(), dataBuffer.end()));
received.add<lp::SequenceField>(1000);
received.add<lp::NextHopFaceIdField>(200);
bool isComplete = false;
Block netPacket;
lp::Packet packet;
std::tie(isComplete, netPacket, packet) = reassembler.receiveFragment(0, received);
BOOST_REQUIRE(isComplete);
BOOST_CHECK(packet.has<lp::NextHopFaceIdField>());
BOOST_CHECK_EQUAL_COLLECTIONS(data, data + sizeof(data), netPacket.begin(), netPacket.end());
}
BOOST_AUTO_TEST_SUITE_END() // SingleFragment
BOOST_AUTO_TEST_SUITE(MultiFragment)
BOOST_AUTO_TEST_CASE(Normal)
{
ndn::Buffer data1Buffer(data, 4);
ndn::Buffer data2Buffer(data + 4, 4);
ndn::Buffer data3Buffer(data + 8, 2);
lp::Packet received1;
received1.add<lp::FragmentField>(std::make_pair(data1Buffer.begin(), data1Buffer.end()));
received1.add<lp::FragIndexField>(0);
received1.add<lp::FragCountField>(3);
received1.add<lp::SequenceField>(1000);
received1.add<lp::NextHopFaceIdField>(200);
lp::Packet received2;
received2.add<lp::FragmentField>(std::make_pair(data2Buffer.begin(), data2Buffer.end()));
received2.add<lp::FragIndexField>(1);
received2.add<lp::FragCountField>(3);
received2.add<lp::SequenceField>(1001);
lp::Packet received3;
received3.add<lp::FragmentField>(std::make_pair(data3Buffer.begin(), data3Buffer.end()));
received3.add<lp::FragIndexField>(2);
received3.add<lp::FragCountField>(3);
received3.add<lp::SequenceField>(1002);
bool isComplete = false;
Block netPacket;
lp::Packet packet;
std::tie(isComplete, std::ignore, std::ignore) = reassembler.receiveFragment(0, received1);
BOOST_REQUIRE(!isComplete);
BOOST_CHECK_EQUAL(reassembler.size(), 1);
std::tie(isComplete, std::ignore, std::ignore) = reassembler.receiveFragment(0, received2);
BOOST_REQUIRE(!isComplete);
BOOST_CHECK_EQUAL(reassembler.size(), 1);
std::tie(isComplete, netPacket, packet) = reassembler.receiveFragment(0, received3);
BOOST_REQUIRE(isComplete);
BOOST_CHECK(packet.has<lp::NextHopFaceIdField>());
BOOST_CHECK_EQUAL_COLLECTIONS(data, data + sizeof(data), netPacket.begin(), netPacket.end());
BOOST_CHECK_EQUAL(reassembler.size(), 0);
}
BOOST_AUTO_TEST_CASE(OmitFragIndex0)
{
ndn::Buffer data1Buffer(data, 4);
ndn::Buffer data2Buffer(data + 4, 4);
ndn::Buffer data3Buffer(data + 8, 2);
lp::Packet received1;
received1.add<lp::FragmentField>(std::make_pair(data1Buffer.begin(), data1Buffer.end()));
received1.add<lp::FragCountField>(3);
received1.add<lp::SequenceField>(1000);
received1.add<lp::NextHopFaceIdField>(200);
lp::Packet received2;
received2.add<lp::FragmentField>(std::make_pair(data2Buffer.begin(), data2Buffer.end()));
received2.add<lp::FragIndexField>(1);
received2.add<lp::FragCountField>(3);
received2.add<lp::SequenceField>(1001);
lp::Packet received3;
received3.add<lp::FragmentField>(std::make_pair(data3Buffer.begin(), data3Buffer.end()));
received3.add<lp::FragIndexField>(2);
received3.add<lp::FragCountField>(3);
received3.add<lp::SequenceField>(1002);
bool isComplete = false;
Block netPacket;
lp::Packet packet;
std::tie(isComplete, std::ignore, std::ignore) = reassembler.receiveFragment(0, received1);
BOOST_REQUIRE(!isComplete);
std::tie(isComplete, std::ignore, std::ignore) = reassembler.receiveFragment(0, received2);
BOOST_REQUIRE(!isComplete);
std::tie(isComplete, netPacket, packet) = reassembler.receiveFragment(0, received3);
BOOST_REQUIRE(isComplete);
BOOST_CHECK(packet.has<lp::NextHopFaceIdField>());
BOOST_CHECK_EQUAL_COLLECTIONS(data, data + sizeof(data), netPacket.begin(), netPacket.end());
}
BOOST_AUTO_TEST_CASE(OutOfOrder)
{
ndn::Buffer data0Buffer(data, 4);
ndn::Buffer data1Buffer(data + 4, 4);
ndn::Buffer data2Buffer(data + 8, 2);
lp::Packet frag0;
frag0.add<lp::FragmentField>(std::make_pair(data0Buffer.begin(), data0Buffer.end()));
frag0.add<lp::FragIndexField>(0);
frag0.add<lp::FragCountField>(3);
frag0.add<lp::SequenceField>(1000);
frag0.add<lp::NextHopFaceIdField>(200);
lp::Packet frag1;
frag1.add<lp::FragmentField>(std::make_pair(data1Buffer.begin(), data1Buffer.end()));
frag1.add<lp::FragIndexField>(1);
frag1.add<lp::FragCountField>(3);
frag1.add<lp::SequenceField>(1001);
lp::Packet frag2;
frag2.add<lp::FragmentField>(std::make_pair(data2Buffer.begin(), data2Buffer.end()));
frag2.add<lp::FragIndexField>(2);
frag2.add<lp::FragCountField>(3);
frag2.add<lp::SequenceField>(1002);
bool isComplete = false;
std::tie(isComplete, std::ignore, std::ignore) = reassembler.receiveFragment(0, frag2);
BOOST_REQUIRE(!isComplete);
std::tie(isComplete, std::ignore, std::ignore) = reassembler.receiveFragment(0, frag0);
BOOST_REQUIRE(!isComplete);
std::tie(isComplete, std::ignore, std::ignore) = reassembler.receiveFragment(0, frag1);
BOOST_REQUIRE(isComplete);
}
BOOST_AUTO_TEST_CASE(Duplicate)
{
ndn::Buffer data0Buffer(data, 5);
lp::Packet frag0;
frag0.add<lp::FragmentField>(std::make_pair(data0Buffer.begin(), data0Buffer.end()));
frag0.add<lp::FragIndexField>(0);
frag0.add<lp::FragCountField>(2);
frag0.add<lp::SequenceField>(1000);
bool isComplete = false;
std::tie(isComplete, std::ignore, std::ignore) = reassembler.receiveFragment(0, frag0);
BOOST_REQUIRE(!isComplete);
std::tie(isComplete, std::ignore, std::ignore) = reassembler.receiveFragment(1, frag0);
BOOST_REQUIRE(!isComplete);
}
BOOST_AUTO_TEST_CASE(Timeout)
{
ndn::Buffer data1Buffer(data, 5);
ndn::Buffer data2Buffer(data + 5, 5);
lp::Packet received1;
received1.add<lp::FragmentField>(std::make_pair(data1Buffer.begin(), data1Buffer.end()));
received1.add<lp::FragIndexField>(0);
received1.add<lp::FragCountField>(2);
received1.add<lp::SequenceField>(1000);
received1.add<lp::NextHopFaceIdField>(200);
lp::Packet received2;
received2.add<lp::FragmentField>(std::make_pair(data2Buffer.begin(), data2Buffer.end()));
received2.add<lp::FragIndexField>(1);
received2.add<lp::FragCountField>(2);
received2.add<lp::SequenceField>(1001);
const Transport::EndpointId REMOTE_EP = 11028;
bool isComplete = false;
std::tie(isComplete, std::ignore, std::ignore) = reassembler.receiveFragment(REMOTE_EP, received1);
BOOST_REQUIRE(!isComplete);
BOOST_CHECK_EQUAL(reassembler.size(), 1);
BOOST_CHECK(timeoutHistory.empty());
advanceClocks(time::milliseconds(1), 600);
BOOST_CHECK_EQUAL(reassembler.size(), 0);
BOOST_REQUIRE_EQUAL(timeoutHistory.size(), 1);
BOOST_CHECK_EQUAL(std::get<0>(timeoutHistory.back()), REMOTE_EP);
BOOST_CHECK_EQUAL(std::get<1>(timeoutHistory.back()), 1);
std::tie(isComplete, std::ignore, std::ignore) = reassembler.receiveFragment(REMOTE_EP, received2);
BOOST_REQUIRE(!isComplete);
}
BOOST_AUTO_TEST_CASE(MissingSequence)
{
ndn::Buffer data1Buffer(data, 4);
ndn::Buffer data2Buffer(data + 4, 4);
ndn::Buffer data3Buffer(data + 8, 2);
lp::Packet received1;
received1.add<lp::FragmentField>(std::make_pair(data1Buffer.begin(), data1Buffer.end()));
received1.add<lp::FragIndexField>(0);
received1.add<lp::FragCountField>(3);
received1.add<lp::SequenceField>(1000);
received1.add<lp::NextHopFaceIdField>(200);
lp::Packet received2;
received2.add<lp::FragmentField>(std::make_pair(data2Buffer.begin(), data2Buffer.end()));
received2.add<lp::FragIndexField>(1);
received2.add<lp::FragCountField>(3);
lp::Packet received3;
received3.add<lp::FragmentField>(std::make_pair(data3Buffer.begin(), data3Buffer.end()));
received3.add<lp::FragIndexField>(2);
received3.add<lp::FragCountField>(3);
received3.add<lp::SequenceField>(1002);
bool isComplete = false;
std::tie(isComplete, std::ignore, std::ignore) = reassembler.receiveFragment(0, received1);
BOOST_REQUIRE(!isComplete);
std::tie(isComplete, std::ignore, std::ignore) = reassembler.receiveFragment(0, received2);
BOOST_REQUIRE(!isComplete);
std::tie(isComplete, std::ignore, std::ignore) = reassembler.receiveFragment(0, received3);
BOOST_REQUIRE(!isComplete);
advanceClocks(time::milliseconds(1), 600);
std::tie(isComplete, std::ignore, std::ignore) = reassembler.receiveFragment(0, received2);
BOOST_REQUIRE(!isComplete);
}
BOOST_AUTO_TEST_CASE(FragCountOverLimit)
{
ndn::Buffer data1Buffer(data, sizeof(data));
lp::Packet received1;
received1.add<lp::FragmentField>(std::make_pair(data1Buffer.begin(), data1Buffer.end()));
received1.add<lp::FragIndexField>(0);
received1.add<lp::FragCountField>(256);
received1.add<lp::SequenceField>(1000);
received1.add<lp::NextHopFaceIdField>(200);
bool isComplete = false;
std::tie(isComplete, std::ignore, std::ignore) = reassembler.receiveFragment(0, received1);
BOOST_REQUIRE(!isComplete);
}
BOOST_AUTO_TEST_CASE(MissingFragCount)
{
ndn::Buffer data1Buffer(data, 4);
ndn::Buffer data2Buffer(data + 4, 4);
ndn::Buffer data3Buffer(data + 8, 2);
lp::Packet received1;
received1.add<lp::FragmentField>(std::make_pair(data1Buffer.begin(), data1Buffer.end()));
received1.add<lp::FragIndexField>(0);
received1.add<lp::FragCountField>(3);
received1.add<lp::SequenceField>(1000);
received1.add<lp::NextHopFaceIdField>(200);
lp::Packet received2;
received2.add<lp::FragmentField>(std::make_pair(data2Buffer.begin(), data2Buffer.end()));
received2.add<lp::FragIndexField>(1);
received2.add<lp::FragCountField>(50);
received2.add<lp::SequenceField>(1001);
lp::Packet received3;
received3.add<lp::FragmentField>(std::make_pair(data3Buffer.begin(), data3Buffer.end()));
received3.add<lp::FragIndexField>(2);
received3.add<lp::FragCountField>(3);
received3.add<lp::SequenceField>(1002);
bool isComplete = false;
std::tie(isComplete, std::ignore, std::ignore) = reassembler.receiveFragment(0, received1);
BOOST_REQUIRE(!isComplete);
std::tie(isComplete, std::ignore, std::ignore) = reassembler.receiveFragment(0, received2);
BOOST_REQUIRE(!isComplete);
std::tie(isComplete, std::ignore, std::ignore) = reassembler.receiveFragment(0, received3);
BOOST_REQUIRE(!isComplete);
}
BOOST_AUTO_TEST_CASE(OverFragCount)
{
LpReassembler::Options options;
options.nMaxFragments = 2;
reassembler.setOptions(options);
ndn::Buffer data1Buffer(data, 4);
ndn::Buffer data2Buffer(data + 4, 4);
ndn::Buffer data3Buffer(data + 8, 2);
lp::Packet received1;
received1.add<lp::FragmentField>(std::make_pair(data1Buffer.begin(), data1Buffer.end()));
received1.add<lp::FragIndexField>(0);
received1.add<lp::FragCountField>(3);
received1.add<lp::SequenceField>(1000);
received1.add<lp::NextHopFaceIdField>(200);
lp::Packet received2;
received2.add<lp::FragmentField>(std::make_pair(data2Buffer.begin(), data2Buffer.end()));
received2.add<lp::FragIndexField>(1);
received2.add<lp::FragCountField>(3);
received2.add<lp::SequenceField>(1001);
lp::Packet received3;
received3.add<lp::FragmentField>(std::make_pair(data3Buffer.begin(), data3Buffer.end()));
received3.add<lp::FragIndexField>(2);
received3.add<lp::FragCountField>(3);
received3.add<lp::SequenceField>(1002);
bool isComplete = false;
std::tie(isComplete, std::ignore, std::ignore) = reassembler.receiveFragment(0, received1);
BOOST_REQUIRE(!isComplete);
std::tie(isComplete, std::ignore, std::ignore) = reassembler.receiveFragment(0, received2);
BOOST_REQUIRE(!isComplete);
std::tie(isComplete, std::ignore, std::ignore) = reassembler.receiveFragment(0, received3);
BOOST_REQUIRE(!isComplete);
}
BOOST_AUTO_TEST_SUITE_END() // MultiFragment
BOOST_AUTO_TEST_SUITE(MultipleRemoteEndpoints)
BOOST_AUTO_TEST_CASE(Normal)
{
ndn::Buffer data1Buffer(data, 5);
ndn::Buffer data2Buffer(data + 5, 5);
lp::Packet frag1_1;
frag1_1.add<lp::FragmentField>(std::make_pair(data1Buffer.begin(), data1Buffer.end()));
frag1_1.add<lp::FragIndexField>(0);
frag1_1.add<lp::FragCountField>(2);
frag1_1.add<lp::SequenceField>(2000);
frag1_1.add<lp::NextHopFaceIdField>(200);
lp::Packet frag1_2;
frag1_2.add<lp::FragmentField>(std::make_pair(data2Buffer.begin(), data2Buffer.end()));
frag1_2.add<lp::FragIndexField>(1);
frag1_2.add<lp::FragCountField>(2);
frag1_2.add<lp::SequenceField>(2001);
lp::Packet frag2_1;
frag2_1.add<lp::FragmentField>(std::make_pair(data1Buffer.begin(), data1Buffer.end()));
frag2_1.add<lp::FragIndexField>(0);
frag2_1.add<lp::FragCountField>(2);
frag2_1.add<lp::SequenceField>(2000);
frag2_1.add<lp::NextHopFaceIdField>(200);
lp::Packet frag2_2;
frag2_2.add<lp::FragmentField>(std::make_pair(data2Buffer.begin(), data2Buffer.end()));
frag2_2.add<lp::FragIndexField>(1);
frag2_2.add<lp::FragCountField>(2);
frag2_2.add<lp::SequenceField>(2001);
bool isComplete = false;
std::tie(isComplete, std::ignore, std::ignore) = reassembler.receiveFragment(1, frag1_1);
BOOST_REQUIRE(!isComplete);
BOOST_CHECK_EQUAL(reassembler.size(), 1);
std::tie(isComplete, std::ignore, std::ignore) = reassembler.receiveFragment(2, frag2_2);
BOOST_REQUIRE(!isComplete);
BOOST_CHECK_EQUAL(reassembler.size(), 2);
std::tie(isComplete, std::ignore, std::ignore) = reassembler.receiveFragment(1, frag1_2);
BOOST_REQUIRE(isComplete);
BOOST_CHECK_EQUAL(reassembler.size(), 1);
std::tie(isComplete, std::ignore, std::ignore) = reassembler.receiveFragment(2, frag2_1);
BOOST_REQUIRE(isComplete);
BOOST_CHECK_EQUAL(reassembler.size(), 0);
}
BOOST_AUTO_TEST_SUITE_END() // MultipleRemoteEndpoints
BOOST_AUTO_TEST_SUITE_END() // TestLpReassembler
BOOST_AUTO_TEST_SUITE_END() // Face
} // namespace tests
} // namespace face
} // namespace nfd