blob: 1908cac686100c5dd24f8e05e36560baadcbbb3a [file] [log] [blame]
/* -*- Mode:C++; c-file-style:"gnu"; indent-tabs-mode:nil; -*- */
/*
* Copyright (c) 2014-2023, 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 "ethernet-factory.hpp"
#include "generic-link-service.hpp"
#include "multicast-ethernet-transport.hpp"
#include <boost/range/adaptors.hpp>
#include <boost/range/algorithm/copy.hpp>
namespace nfd::face {
NFD_LOG_INIT(EthernetFactory);
NFD_REGISTER_PROTOCOL_FACTORY(EthernetFactory);
const std::string&
EthernetFactory::getId() noexcept
{
static std::string id("ether");
return id;
}
EthernetFactory::EthernetFactory(const CtorParams& params)
: ProtocolFactory(params)
{
m_netifAddConn = netmon->onInterfaceAdded.connect([this] (const auto& netif) {
applyUnicastConfigToNetif(netif);
applyMcastConfigToNetif(*netif);
});
}
void
EthernetFactory::doProcessConfig(OptionalConfigSection configSection,
FaceSystem::ConfigContext& context)
{
// ether
// {
// listen yes
// idle_timeout 600
// mcast yes
// mcast_group 01:00:5E:00:17:AA
// mcast_ad_hoc no
// whitelist
// {
// *
// }
// blacklist
// {
// }
// }
UnicastConfig unicastConfig;
MulticastConfig mcastConfig;
if (configSection) {
// listen and mcast default to 'yes' but only if face_system.ether section is present
unicastConfig.isEnabled = unicastConfig.wantListen = mcastConfig.isEnabled = true;
for (const auto& pair : *configSection) {
const std::string& key = pair.first;
const ConfigSection& value = pair.second;
if (key == "listen") {
unicastConfig.wantListen = ConfigFile::parseYesNo(pair, "face_system.ether");
}
else if (key == "idle_timeout") {
unicastConfig.idleTimeout = time::seconds(ConfigFile::parseNumber<uint32_t>(pair, "face_system.ether"));
}
else if (key == "mcast") {
mcastConfig.isEnabled = ConfigFile::parseYesNo(pair, "face_system.ether");
}
else if (key == "mcast_group") {
const std::string& valueStr = value.get_value<std::string>();
mcastConfig.group = ethernet::Address::fromString(valueStr);
if (mcastConfig.group.isNull()) {
NDN_THROW(ConfigFile::Error("face_system.ether.mcast_group: '" +
valueStr + "' cannot be parsed as an Ethernet address"));
}
else if (!mcastConfig.group.isMulticast()) {
NDN_THROW(ConfigFile::Error("face_system.ether.mcast_group: '" +
valueStr + "' is not a multicast address"));
}
}
else if (key == "mcast_ad_hoc") {
bool wantAdHoc = ConfigFile::parseYesNo(pair, "face_system.ether");
mcastConfig.linkType = wantAdHoc ? ndn::nfd::LINK_TYPE_AD_HOC : ndn::nfd::LINK_TYPE_MULTI_ACCESS;
}
else if (key == "whitelist") {
mcastConfig.netifPredicate.parseWhitelist(value);
}
else if (key == "blacklist") {
mcastConfig.netifPredicate.parseBlacklist(value);
}
else {
NDN_THROW(ConfigFile::Error("Unrecognized option face_system.ether." + key));
}
}
}
if (context.isDryRun) {
return;
}
if (unicastConfig.isEnabled) {
if (m_unicastConfig.wantListen && !unicastConfig.wantListen && !m_channels.empty()) {
NFD_LOG_WARN("Cannot stop listening on Ethernet channels");
}
if (m_unicastConfig.idleTimeout != unicastConfig.idleTimeout && !m_channels.empty()) {
NFD_LOG_WARN("Idle timeout setting applies to new Ethernet channels only");
}
}
else if (m_unicastConfig.isEnabled && !m_channels.empty()) {
NFD_LOG_WARN("Cannot disable Ethernet channels after initialization");
}
if (m_mcastConfig.isEnabled != mcastConfig.isEnabled) {
if (mcastConfig.isEnabled) {
NFD_LOG_INFO("enabling multicast on " << mcastConfig.group);
}
else {
NFD_LOG_INFO("disabling multicast");
}
}
else if (mcastConfig.isEnabled) {
if (m_mcastConfig.linkType != mcastConfig.linkType && !m_mcastFaces.empty()) {
NFD_LOG_WARN("Cannot change ad hoc setting on existing faces");
}
if (m_mcastConfig.group != mcastConfig.group) {
NFD_LOG_INFO("changing multicast group from " << m_mcastConfig.group <<
" to " << mcastConfig.group);
}
if (m_mcastConfig.netifPredicate != mcastConfig.netifPredicate) {
NFD_LOG_INFO("changing whitelist/blacklist");
}
}
// Even if there are no configuration changes, we still need to re-apply
// the configuration because netifs may have changed.
m_unicastConfig = std::move(unicastConfig);
m_mcastConfig = std::move(mcastConfig);
applyConfig(context);
}
void
EthernetFactory::doCreateFace(const CreateFaceRequest& req,
const FaceCreatedCallback& onCreated,
const FaceCreationFailedCallback& onFailure)
{
if (!req.localUri || req.localUri->getScheme() != "dev") {
NFD_LOG_TRACE("createFace: dev:// LocalUri required");
onFailure(406, "Creation of unicast Ethernet faces requires a LocalUri with dev:// scheme");
return;
}
if (req.params.persistency == ndn::nfd::FACE_PERSISTENCY_ON_DEMAND) {
NFD_LOG_TRACE("createFace: unsupported FacePersistency");
onFailure(406, "Outgoing Ethernet faces do not support on-demand persistency");
return;
}
ethernet::Address remoteEndpoint(ethernet::Address::fromString(req.remoteUri.getHost()));
std::string localEndpoint(req.localUri->getHost());
if (remoteEndpoint.isMulticast()) {
NFD_LOG_TRACE("createFace: unsupported multicast endpoint");
onFailure(406, "Cannot create multicast Ethernet faces");
return;
}
if (req.params.wantLocalFields) {
// Ethernet faces are never local
NFD_LOG_TRACE("createFace: cannot create non-local face with local fields enabled");
onFailure(406, "Local fields can only be enabled on faces with local scope");
return;
}
if (req.params.mtu && *req.params.mtu < MIN_MTU) {
// The specified MTU must be greater than the minimum possible
NFD_LOG_TRACE("createFace: override MTU cannot be less than " << MIN_MTU);
onFailure(406, "Override MTU cannot be less than " + to_string(MIN_MTU));
return;
}
for (const auto& i : m_channels) {
if (i.first == localEndpoint) {
i.second->connect(remoteEndpoint, req.params, onCreated, onFailure);
return;
}
}
NFD_LOG_TRACE("No channels available to connect to " << remoteEndpoint);
onFailure(504, "No channels available to connect");
}
shared_ptr<EthernetChannel>
EthernetFactory::createChannel(const shared_ptr<const ndn::net::NetworkInterface>& localEndpoint,
time::nanoseconds idleTimeout)
{
auto it = m_channels.find(localEndpoint->getName());
if (it != m_channels.end())
return it->second;
auto channel = std::make_shared<EthernetChannel>(localEndpoint, idleTimeout);
m_channels[localEndpoint->getName()] = channel;
return channel;
}
std::vector<shared_ptr<const Channel>>
EthernetFactory::doGetChannels() const
{
return getChannelsFromMap(m_channels);
}
shared_ptr<Face>
EthernetFactory::createMulticastFace(const ndn::net::NetworkInterface& netif,
const ethernet::Address& address)
{
BOOST_ASSERT(address.isMulticast());
std::pair key(netif.getName(), address);
auto found = m_mcastFaces.find(key);
if (found != m_mcastFaces.end()) {
return found->second;
}
GenericLinkService::Options opts;
opts.allowFragmentation = true;
opts.allowReassembly = true;
auto linkService = make_unique<GenericLinkService>(opts);
auto transport = make_unique<MulticastEthernetTransport>(netif, address, m_mcastConfig.linkType);
auto face = make_shared<Face>(std::move(linkService), std::move(transport));
m_mcastFaces[key] = face;
connectFaceClosedSignal(*face, [this, key] { m_mcastFaces.erase(key); });
auto channelIt = m_channels.find(netif.getName());
if (channelIt != m_channels.end()) {
face->setChannel(channelIt->second);
}
return face;
}
shared_ptr<EthernetChannel>
EthernetFactory::applyUnicastConfigToNetif(const shared_ptr<const ndn::net::NetworkInterface>& netif)
{
if (!m_unicastConfig.isEnabled) {
return nullptr;
}
if (!netif->isUp()) {
NFD_LOG_DEBUG("Not creating channel on " << netif->getName() << ": netif is down");
return nullptr;
}
if (netif->getType() != ndn::net::InterfaceType::ETHERNET) {
NFD_LOG_DEBUG("Not creating channel on " << netif->getName() << ": incompatible netif type");
return nullptr;
}
if (netif->getEthernetAddress().isNull()) {
NFD_LOG_DEBUG("Not creating channel on " << netif->getName() << ": invalid Ethernet address");
return nullptr;
}
auto channel = this->createChannel(netif, m_unicastConfig.idleTimeout);
if (m_unicastConfig.wantListen && !channel->isListening()) {
try {
channel->listen(this->addFace, nullptr);
}
catch (const EthernetChannel::Error& e) {
NFD_LOG_WARN("Cannot listen on " << netif->getName() << ": " << e.what());
}
}
return channel;
}
shared_ptr<Face>
EthernetFactory::applyMcastConfigToNetif(const ndn::net::NetworkInterface& netif)
{
if (!m_mcastConfig.isEnabled) {
return nullptr;
}
if (!netif.isUp()) {
NFD_LOG_DEBUG("Not creating multicast face on " << netif.getName() << ": netif is down");
return nullptr;
}
if (netif.getType() != ndn::net::InterfaceType::ETHERNET) {
NFD_LOG_DEBUG("Not creating multicast face on " << netif.getName() << ": incompatible netif type");
return nullptr;
}
if (netif.getEthernetAddress().isNull()) {
NFD_LOG_DEBUG("Not creating multicast face on " << netif.getName() << ": invalid Ethernet address");
return nullptr;
}
if (!netif.canMulticast()) {
NFD_LOG_DEBUG("Not creating multicast face on " << netif.getName() << ": netif cannot multicast");
return nullptr;
}
if (!m_mcastConfig.netifPredicate(netif)) {
NFD_LOG_DEBUG("Not creating multicast face on " << netif.getName() << ": rejected by whitelist/blacklist");
return nullptr;
}
NFD_LOG_DEBUG("Creating multicast face on " << netif.getName());
shared_ptr<Face> face;
try {
face = createMulticastFace(netif, m_mcastConfig.group);
}
catch (const std::runtime_error& e) {
NFD_LOG_WARN("Cannot create multicast face on " << netif.getName() << ": " << e.what());
return nullptr; // not a fatal error
}
if (face->getId() == INVALID_FACEID) {
// new face: register with forwarding
this->addFace(face);
}
return face;
}
void
EthernetFactory::applyConfig(const FaceSystem::ConfigContext&)
{
if (m_unicastConfig.isEnabled) {
providedSchemes.insert("ether");
}
else {
providedSchemes.erase("ether");
}
// collect old multicast faces
std::set<shared_ptr<Face>> oldFaces;
boost::copy(m_mcastFaces | boost::adaptors::map_values, std::inserter(oldFaces, oldFaces.end()));
// create channels and multicast faces if requested by config
for (const auto& netif : netmon->listNetworkInterfaces()) {
applyUnicastConfigToNetif(netif);
auto face = applyMcastConfigToNetif(*netif);
if (face != nullptr) {
// don't destroy face
oldFaces.erase(face);
}
}
// destroy old multicast faces that are not needed in new configuration
for (const auto& face : oldFaces) {
face->close();
}
}
} // namespace nfd::face