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/* -*- Mode:C++; c-file-style:"gnu"; indent-tabs-mode:nil; -*- */
/**
* Copyright (c) 2011-2015 Regents of the University of California.
*
* This file is part of ndnSIM. See AUTHORS for complete list of ndnSIM authors and
* contributors.
*
* ndnSIM 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.
*
* ndnSIM 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
* ndnSIM, e.g., in COPYING.md file. If not, see <http://www.gnu.org/licenses/>.
**/
#if __clang__
#pragma clang diagnostic push
#pragma clang diagnostic ignored "-Wunused-variable"
#pragma clang diagnostic ignored "-Wunneeded-internal-declaration"
#endif
#include "ndn-global-routing-helper.hpp"
#include "model/ndn-l3-protocol.hpp"
#include "helper/ndn-fib-helper.hpp"
#include "model/ndn-net-device-transport.hpp"
#include "model/ndn-global-router.hpp"
#include "daemon/table/fib.hpp"
#include "daemon/fw/forwarder.hpp"
#include "daemon/table/fib-entry.hpp"
#include "daemon/table/fib-nexthop.hpp"
#include "ns3/object.h"
#include "ns3/node.h"
#include "ns3/node-container.h"
#include "ns3/net-device.h"
#include "ns3/channel.h"
#include "ns3/log.h"
#include "ns3/assert.h"
#include "ns3/names.h"
#include "ns3/node-list.h"
#include "ns3/channel-list.h"
#include "ns3/object-factory.h"
#include <boost/lexical_cast.hpp>
#include <boost/foreach.hpp>
#include <boost/concept/assert.hpp>
#include <boost/graph/dijkstra_shortest_paths.hpp>
#include <unordered_map>
#include "boost-graph-ndn-global-routing-helper.hpp"
#include <math.h>
NS_LOG_COMPONENT_DEFINE("ndn.GlobalRoutingHelper");
namespace ns3 {
namespace ndn {
void
GlobalRoutingHelper::Install(Ptr<Node> node)
{
NS_LOG_LOGIC("Node: " << node->GetId());
Ptr<L3Protocol> ndn = node->GetObject<L3Protocol>();
NS_ASSERT_MSG(ndn != 0, "Cannot install GlobalRoutingHelper before Ndn is installed on a node");
Ptr<GlobalRouter> gr = node->GetObject<GlobalRouter>();
if (gr != 0) {
NS_LOG_DEBUG("GlobalRouter is already installed: " << gr);
return; // already installed
}
gr = CreateObject<GlobalRouter>();
node->AggregateObject(gr);
for (auto& face : ndn->getForwarder()->getFaceTable()) {
auto transport = dynamic_cast<NetDeviceTransport*>(face.getTransport());
if (transport == nullptr) {
NS_LOG_DEBUG("Skipping non ndnSIM-specific transport face");
continue;
}
Ptr<NetDevice> nd = transport->GetNetDevice();
if (nd == 0) {
NS_LOG_DEBUG("Not a NetDevice associated with an ndnSIM-specific transport instance");
continue;
}
Ptr<Channel> ch = nd->GetChannel();
if (ch == 0) {
NS_LOG_DEBUG("Channel is not associated with NetDevice");
continue;
}
if (ch->GetNDevices() == 2) // e.g., point-to-point channel
{
for (uint32_t deviceId = 0; deviceId < ch->GetNDevices(); deviceId++) {
Ptr<NetDevice> otherSide = ch->GetDevice(deviceId);
if (nd == otherSide)
continue;
Ptr<Node> otherNode = otherSide->GetNode();
NS_ASSERT(otherNode != 0);
Ptr<GlobalRouter> otherGr = otherNode->GetObject<GlobalRouter>();
if (otherGr == 0) {
Install(otherNode);
}
otherGr = otherNode->GetObject<GlobalRouter>();
NS_ASSERT(otherGr != 0);
gr->AddIncidency(face.shared_from_this(), otherGr);
}
}
else {
Ptr<GlobalRouter> grChannel = ch->GetObject<GlobalRouter>();
if (grChannel == 0) {
Install(ch);
}
grChannel = ch->GetObject<GlobalRouter>();
gr->AddIncidency(face.shared_from_this(), grChannel);
}
}
}
void
GlobalRoutingHelper::Install(Ptr<Channel> channel)
{
NS_LOG_LOGIC("Channel: " << channel->GetId());
Ptr<GlobalRouter> gr = channel->GetObject<GlobalRouter>();
if (gr != 0)
return;
gr = CreateObject<GlobalRouter>();
channel->AggregateObject(gr);
for (uint32_t deviceId = 0; deviceId < channel->GetNDevices(); deviceId++) {
Ptr<NetDevice> dev = channel->GetDevice(deviceId);
Ptr<Node> node = dev->GetNode();
NS_ASSERT(node != 0);
Ptr<GlobalRouter> grOther = node->GetObject<GlobalRouter>();
if (grOther == 0) {
Install(node);
}
grOther = node->GetObject<GlobalRouter>();
NS_ASSERT(grOther != 0);
gr->AddIncidency(0, grOther);
}
}
void
GlobalRoutingHelper::Install(const NodeContainer& nodes)
{
for (NodeContainer::Iterator node = nodes.Begin(); node != nodes.End(); node++) {
Install(*node);
}
}
void
GlobalRoutingHelper::InstallAll()
{
Install(NodeContainer::GetGlobal());
}
void
GlobalRoutingHelper::AddOrigin(const std::string& prefix, Ptr<Node> node)
{
Ptr<GlobalRouter> gr = node->GetObject<GlobalRouter>();
NS_ASSERT_MSG(gr != 0, "GlobalRouter is not installed on the node");
auto name = make_shared<Name>(prefix);
gr->AddLocalPrefix(name);
}
void
GlobalRoutingHelper::AddOrigins(const std::string& prefix, const NodeContainer& nodes)
{
for (NodeContainer::Iterator node = nodes.Begin(); node != nodes.End(); node++) {
AddOrigin(prefix, *node);
}
}
void
GlobalRoutingHelper::AddOrigin(const std::string& prefix, const std::string& nodeName)
{
Ptr<Node> node = Names::Find<Node>(nodeName);
NS_ASSERT_MSG(node != 0, nodeName << "is not a Node");
AddOrigin(prefix, node);
}
void
GlobalRoutingHelper::AddOriginsForAll()
{
for (NodeList::Iterator node = NodeList::Begin(); node != NodeList::End(); node++) {
Ptr<GlobalRouter> gr = (*node)->GetObject<GlobalRouter>();
std::string name = Names::FindName(*node);
if (gr != 0 && !name.empty()) {
AddOrigin("/" + name, *node);
}
}
}
void
GlobalRoutingHelper::CalculateRoutes()
{
/**
* Implementation of route calculation is heavily based on Boost Graph Library
* See http://www.boost.org/doc/libs/1_49_0/libs/graph/doc/table_of_contents.html for more details
*/
BOOST_CONCEPT_ASSERT((boost::VertexListGraphConcept<boost::NdnGlobalRouterGraph>));
BOOST_CONCEPT_ASSERT((boost::IncidenceGraphConcept<boost::NdnGlobalRouterGraph>));
boost::NdnGlobalRouterGraph graph;
// typedef graph_traits < NdnGlobalRouterGraph >::vertex_descriptor vertex_descriptor;
// For now we doing Dijkstra for every node. Can be replaced with Bellman-Ford or Floyd-Warshall.
// Other algorithms should be faster, but they need additional EdgeListGraph concept provided by
// the graph, which
// is not obviously how implement in an efficient manner
for (NodeList::Iterator node = NodeList::Begin(); node != NodeList::End(); node++) {
Ptr<GlobalRouter> source = (*node)->GetObject<GlobalRouter>();
if (source == 0) {
NS_LOG_DEBUG("Node " << (*node)->GetId() << " does not export GlobalRouter interface");
continue;
}
boost::DistancesMap distances;
dijkstra_shortest_paths(graph, source,
// predecessor_map (boost::ref(predecessors))
// .
distance_map(boost::ref(distances))
.distance_inf(boost::WeightInf)
.distance_zero(boost::WeightZero)
.distance_compare(boost::WeightCompare())
.distance_combine(boost::WeightCombine()));
// NS_LOG_DEBUG (predecessors.size () << ", " << distances.size ());
Ptr<L3Protocol> L3protocol = (*node)->GetObject<L3Protocol>();
shared_ptr<nfd::Forwarder> forwarder = L3protocol->getForwarder();
NS_LOG_DEBUG("Reachability from Node: " << source->GetObject<Node>()->GetId());
for (const auto& dist : distances) {
if (dist.first == source)
continue;
else {
// cout << " Node " << dist.first->GetObject<Node> ()->GetId ();
if (std::get<0>(dist.second) == 0) {
// cout << " is unreachable" << endl;
}
else {
for (const auto& prefix : dist.first->GetLocalPrefixes()) {
NS_LOG_DEBUG(" prefix " << prefix << " reachable via face " << *std::get<0>(dist.second)
<< " with distance " << std::get<1>(dist.second) << " with delay "
<< std::get<2>(dist.second));
FibHelper::AddRoute(*node, *prefix, std::get<0>(dist.second),
std::get<1>(dist.second));
}
}
}
}
}
}
void
GlobalRoutingHelper::CalculateAllPossibleRoutes()
{
/**
* Implementation of route calculation is heavily based on Boost Graph Library
* See http://www.boost.org/doc/libs/1_49_0/libs/graph/doc/table_of_contents.html for more details
*/
BOOST_CONCEPT_ASSERT((boost::VertexListGraphConcept<boost::NdnGlobalRouterGraph>));
BOOST_CONCEPT_ASSERT((boost::IncidenceGraphConcept<boost::NdnGlobalRouterGraph>));
boost::NdnGlobalRouterGraph graph;
// typedef graph_traits < NdnGlobalRouterGraph >::vertex_descriptor vertex_descriptor;
// For now we doing Dijkstra for every node. Can be replaced with Bellman-Ford or Floyd-Warshall.
// Other algorithms should be faster, but they need additional EdgeListGraph concept provided by
// the graph, which
// is not obviously how implement in an efficient manner
for (NodeList::Iterator node = NodeList::Begin(); node != NodeList::End(); node++) {
Ptr<GlobalRouter> source = (*node)->GetObject<GlobalRouter>();
if (source == 0) {
NS_LOG_DEBUG("Node " << (*node)->GetId() << " does not export GlobalRouter interface");
continue;
}
Ptr<L3Protocol> L3protocol = (*node)->GetObject<L3Protocol>();
shared_ptr<nfd::Forwarder> forwarder = L3protocol->getForwarder();
NS_LOG_DEBUG("Reachability from Node: " << source->GetObject<Node>()->GetId() << " ("
<< Names::FindName(source->GetObject<Node>()) << ")");
Ptr<L3Protocol> l3 = source->GetObject<L3Protocol>();
NS_ASSERT(l3 != 0);
// remember interface statuses
std::list<nfd::FaceId> faceIds;
std::unordered_map<nfd::FaceId, uint16_t> originalMetrics;
for (auto& nfdFace : l3->getForwarder()->getFaceTable()) {
faceIds.push_back(nfdFace.getId());
originalMetrics[nfdFace.getId()] = nfdFace.getMetric();
nfdFace.setMetric(std::numeric_limits<uint16_t>::max() - 1);
// value std::numeric_limits<uint16_t>::max () MUST NOT be used (reserved)
}
for (auto& faceId : faceIds) {
auto* face = l3->getForwarder()->getFaceTable().get(faceId);
NS_ASSERT(face != nullptr);
auto transport = dynamic_cast<NetDeviceTransport*>(face->getTransport());
if (transport == nullptr) {
NS_LOG_DEBUG("Skipping non ndnSIM-specific transport face");
continue;
}
// enabling only faceId
face->setMetric(originalMetrics[faceId]);
boost::DistancesMap distances;
NS_LOG_DEBUG("-----------");
dijkstra_shortest_paths(graph, source,
// predecessor_map (boost::ref(predecessors))
// .
distance_map(boost::ref(distances))
.distance_inf(boost::WeightInf)
.distance_zero(boost::WeightZero)
.distance_compare(boost::WeightCompare())
.distance_combine(boost::WeightCombine()));
// NS_LOG_DEBUG (predecessors.size () << ", " << distances.size ());
for (const auto& dist : distances) {
if (dist.first == source)
continue;
else {
// cout << " Node " << dist.first->GetObject<Node> ()->GetId ();
if (std::get<0>(dist.second) == 0) {
// cout << " is unreachable" << endl;
}
else {
for (const auto& prefix : dist.first->GetLocalPrefixes()) {
NS_LOG_DEBUG(" prefix " << *prefix << " reachable via face "
<< *std::get<0>(dist.second)
<< " with distance " << std::get<1>(dist.second)
<< " with delay " << std::get<2>(dist.second));
if (std::get<0>(dist.second)->getMetric() == std::numeric_limits<uint16_t>::max() - 1)
continue;
FibHelper::AddRoute(*node, *prefix, std::get<0>(dist.second),
std::get<1>(dist.second));
}
}
}
}
// disabling the face again
face->setMetric(std::numeric_limits<uint16_t>::max() - 1);
}
// recover original interface statuses
for (auto& i : originalMetrics) {
l3->getForwarder()->getFaceTable().get(i.first)->setMetric(i.second);
}
}
}
} // namespace ndn
} // namespace ns3