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/* -*- Mode:C++; c-file-style:"gnu"; indent-tabs-mode:nil; -*- */
/**
* Copyright (c) 2014-2017, 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 "generic-link-service.hpp"
#include <ndn-cxx/lp/tags.hpp>
namespace nfd {
namespace face {
NFD_LOG_INIT("GenericLinkService");
GenericLinkServiceCounters::GenericLinkServiceCounters(const LpReassembler& reassembler)
: nReassembling(reassembler)
{
}
GenericLinkService::Options::Options()
: allowLocalFields(false)
, allowFragmentation(false)
, allowReassembly(false)
{
}
GenericLinkService::GenericLinkService(const GenericLinkService::Options& options)
: GenericLinkServiceCounters(m_reassembler)
, m_options(options)
, m_fragmenter(m_options.fragmenterOptions, this)
, m_reassembler(m_options.reassemblerOptions, this)
, m_reliability(m_options.reliabilityOptions, this)
, m_lastSeqNo(-2)
{
m_reassembler.beforeTimeout.connect(bind([this] { ++this->nReassemblyTimeouts; }));
}
void
GenericLinkService::setOptions(const GenericLinkService::Options& options)
{
m_options = options;
m_fragmenter.setOptions(m_options.fragmenterOptions);
m_reassembler.setOptions(m_options.reassemblerOptions);
m_reliability.setOptions(m_options.reliabilityOptions);
}
void
GenericLinkService::requestIdlePacket()
{
// No need to request Acks to attach to this packet from LpReliability, as they are already
// attached in sendLpPacket
this->sendLpPacket({});
}
void
GenericLinkService::sendLpPacket(lp::Packet&& pkt)
{
const ssize_t mtu = this->getTransport()->getMtu();
if (m_options.reliabilityOptions.isEnabled) {
m_reliability.piggyback(pkt, mtu);
}
Transport::Packet tp(pkt.wireEncode());
if (mtu != MTU_UNLIMITED && tp.packet.size() > static_cast<size_t>(mtu)) {
++this->nOutOverMtu;
NFD_LOG_FACE_WARN("attempted to send packet over MTU limit");
return;
}
this->sendPacket(std::move(tp));
}
void
GenericLinkService::doSendInterest(const Interest& interest)
{
lp::Packet lpPacket(interest.wireEncode());
encodeLpFields(interest, lpPacket);
this->sendNetPacket(std::move(lpPacket));
}
void
GenericLinkService::doSendData(const Data& data)
{
lp::Packet lpPacket(data.wireEncode());
encodeLpFields(data, lpPacket);
this->sendNetPacket(std::move(lpPacket));
}
void
GenericLinkService::doSendNack(const lp::Nack& nack)
{
lp::Packet lpPacket(nack.getInterest().wireEncode());
lpPacket.add<lp::NackField>(nack.getHeader());
encodeLpFields(nack, lpPacket);
this->sendNetPacket(std::move(lpPacket));
}
void
GenericLinkService::encodeLpFields(const ndn::TagHost& netPkt, lp::Packet& lpPacket)
{
if (m_options.allowLocalFields) {
shared_ptr<lp::IncomingFaceIdTag> incomingFaceIdTag = netPkt.getTag<lp::IncomingFaceIdTag>();
if (incomingFaceIdTag != nullptr) {
lpPacket.add<lp::IncomingFaceIdField>(*incomingFaceIdTag);
}
}
shared_ptr<lp::CongestionMarkTag> congestionMarkTag = netPkt.getTag<lp::CongestionMarkTag>();
if (congestionMarkTag != nullptr) {
lpPacket.add<lp::CongestionMarkField>(*congestionMarkTag);
}
}
void
GenericLinkService::sendNetPacket(lp::Packet&& pkt)
{
std::vector<lp::Packet> frags;
const ssize_t mtu = this->getTransport()->getMtu();
if (m_options.allowFragmentation && mtu != MTU_UNLIMITED) {
bool isOk = false;
std::tie(isOk, frags) = m_fragmenter.fragmentPacket(pkt, mtu);
if (!isOk) {
// fragmentation failed (warning is logged by LpFragmenter)
++this->nFragmentationErrors;
return;
}
}
else {
frags.push_back(std::move(pkt));
}
if (frags.size() == 1) {
// even if indexed fragmentation is enabled, the fragmenter should not
// fragment the packet if it can fit in MTU
BOOST_ASSERT(!frags.front().has<lp::FragIndexField>());
BOOST_ASSERT(!frags.front().has<lp::FragCountField>());
}
// Only assign sequences to fragments if reliability enabled and packet contains a fragment,
// or there is more than 1 fragment
if ((m_options.reliabilityOptions.isEnabled && frags.front().has<lp::FragmentField>()) ||
frags.size() > 1) {
// Assign sequences to all fragments
this->assignSequences(frags);
}
if (m_options.reliabilityOptions.isEnabled && frags.front().has<lp::FragmentField>()) {
m_reliability.observeOutgoing(frags);
}
for (lp::Packet& frag : frags) {
this->sendLpPacket(std::move(frag));
}
}
void
GenericLinkService::assignSequence(lp::Packet& pkt)
{
pkt.set<lp::SequenceField>(++m_lastSeqNo);
}
void
GenericLinkService::assignSequences(std::vector<lp::Packet>& pkts)
{
std::for_each(pkts.begin(), pkts.end(), bind(&GenericLinkService::assignSequence, this, _1));
}
void
GenericLinkService::doReceivePacket(Transport::Packet&& packet)
{
try {
lp::Packet pkt(packet.packet);
if (m_options.reliabilityOptions.isEnabled) {
m_reliability.processIncomingPacket(pkt);
}
if (!pkt.has<lp::FragmentField>()) {
NFD_LOG_FACE_TRACE("received IDLE packet: DROP");
return;
}
if ((pkt.has<lp::FragIndexField>() || pkt.has<lp::FragCountField>()) &&
!m_options.allowReassembly) {
NFD_LOG_FACE_WARN("received fragment, but reassembly disabled: DROP");
return;
}
bool isReassembled = false;
Block netPkt;
lp::Packet firstPkt;
std::tie(isReassembled, netPkt, firstPkt) = m_reassembler.receiveFragment(packet.remoteEndpoint,
pkt);
if (isReassembled) {
this->decodeNetPacket(netPkt, firstPkt);
}
}
catch (const tlv::Error& e) {
++this->nInLpInvalid;
NFD_LOG_FACE_WARN("packet parse error (" << e.what() << "): DROP");
}
}
void
GenericLinkService::decodeNetPacket(const Block& netPkt, const lp::Packet& firstPkt)
{
try {
switch (netPkt.type()) {
case tlv::Interest:
if (firstPkt.has<lp::NackField>()) {
this->decodeNack(netPkt, firstPkt);
}
else {
this->decodeInterest(netPkt, firstPkt);
}
break;
case tlv::Data:
this->decodeData(netPkt, firstPkt);
break;
default:
++this->nInNetInvalid;
NFD_LOG_FACE_WARN("unrecognized network-layer packet TLV-TYPE " << netPkt.type() << ": DROP");
return;
}
}
catch (const tlv::Error& e) {
++this->nInNetInvalid;
NFD_LOG_FACE_WARN("packet parse error (" << e.what() << "): DROP");
}
}
void
GenericLinkService::decodeInterest(const Block& netPkt, const lp::Packet& firstPkt)
{
BOOST_ASSERT(netPkt.type() == tlv::Interest);
BOOST_ASSERT(!firstPkt.has<lp::NackField>());
// forwarding expects Interest to be created with make_shared
auto interest = make_shared<Interest>(netPkt);
if (firstPkt.has<lp::NextHopFaceIdField>()) {
if (m_options.allowLocalFields) {
interest->setTag(make_shared<lp::NextHopFaceIdTag>(firstPkt.get<lp::NextHopFaceIdField>()));
}
else {
NFD_LOG_FACE_WARN("received NextHopFaceId, but local fields disabled: DROP");
return;
}
}
if (firstPkt.has<lp::CachePolicyField>()) {
++this->nInNetInvalid;
NFD_LOG_FACE_WARN("received CachePolicy with Interest: DROP");
return;
}
if (firstPkt.has<lp::IncomingFaceIdField>()) {
NFD_LOG_FACE_WARN("received IncomingFaceId: IGNORE");
}
if (firstPkt.has<lp::CongestionMarkField>()) {
interest->setTag(make_shared<lp::CongestionMarkTag>(firstPkt.get<lp::CongestionMarkField>()));
}
this->receiveInterest(*interest);
}
void
GenericLinkService::decodeData(const Block& netPkt, const lp::Packet& firstPkt)
{
BOOST_ASSERT(netPkt.type() == tlv::Data);
// forwarding expects Data to be created with make_shared
auto data = make_shared<Data>(netPkt);
if (firstPkt.has<lp::NackField>()) {
++this->nInNetInvalid;
NFD_LOG_FACE_WARN("received Nack with Data: DROP");
return;
}
if (firstPkt.has<lp::NextHopFaceIdField>()) {
++this->nInNetInvalid;
NFD_LOG_FACE_WARN("received NextHopFaceId with Data: DROP");
return;
}
if (firstPkt.has<lp::CachePolicyField>()) {
if (m_options.allowLocalFields) {
// In case of an invalid CachePolicyType, get<lp::CachePolicyField> will throw,
// so it's unnecessary to check here.
data->setTag(make_shared<lp::CachePolicyTag>(firstPkt.get<lp::CachePolicyField>()));
}
else {
NFD_LOG_FACE_WARN("received CachePolicy, but local fields disabled: IGNORE");
}
}
if (firstPkt.has<lp::IncomingFaceIdField>()) {
NFD_LOG_FACE_WARN("received IncomingFaceId: IGNORE");
}
if (firstPkt.has<lp::CongestionMarkField>()) {
data->setTag(make_shared<lp::CongestionMarkTag>(firstPkt.get<lp::CongestionMarkField>()));
}
this->receiveData(*data);
}
void
GenericLinkService::decodeNack(const Block& netPkt, const lp::Packet& firstPkt)
{
BOOST_ASSERT(netPkt.type() == tlv::Interest);
BOOST_ASSERT(firstPkt.has<lp::NackField>());
lp::Nack nack((Interest(netPkt)));
nack.setHeader(firstPkt.get<lp::NackField>());
if (firstPkt.has<lp::NextHopFaceIdField>()) {
++this->nInNetInvalid;
NFD_LOG_FACE_WARN("received NextHopFaceId with Nack: DROP");
return;
}
if (firstPkt.has<lp::CachePolicyField>()) {
++this->nInNetInvalid;
NFD_LOG_FACE_WARN("received CachePolicy with Nack: DROP");
return;
}
if (firstPkt.has<lp::IncomingFaceIdField>()) {
NFD_LOG_FACE_WARN("received IncomingFaceId: IGNORE");
}
if (firstPkt.has<lp::CongestionMarkField>()) {
nack.setTag(make_shared<lp::CongestionMarkTag>(firstPkt.get<lp::CongestionMarkField>()));
}
this->receiveNack(nack);
}
} // namespace face
} // namespace nfd