blob: 7c14d78369113fd5152f8c394b37fc808a7d9c5d [file] [log] [blame]
/* -*- Mode:C++; c-file-style:"gnu"; indent-tabs-mode:nil; -*- */
/**
* Copyright (c) 2014-2017, The University of Memphis,
* Regents of the University of California
*
* This file is part of NLSR (Named-data Link State Routing).
* See AUTHORS.md for complete list of NLSR authors and contributors.
*
* NLSR 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.
*
* NLSR 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
* NLSR, e.g., in COPYING.md file. If not, see <http://www.gnu.org/licenses/>.
**/
#include "fib.hpp"
#include "adjacency-list.hpp"
#include "conf-parameter.hpp"
#include "logger.hpp"
#include "nexthop-list.hpp"
#include <map>
#include <cmath>
namespace nlsr {
INIT_LOGGER("Fib");
const uint64_t Fib::GRACE_PERIOD = 10;
using namespace std;
using namespace ndn;
void
Fib::remove(const ndn::Name& name)
{
_LOG_DEBUG("Fib::remove called");
std::map<ndn::Name, FibEntry>::iterator it = m_table.find(name);
if (it != m_table.end()) {
for (std::set<NextHop, NextHopComparator>::iterator nhit =
(it->second).getNexthopList().getNextHops().begin();
nhit != (it->second).getNexthopList().getNextHops().end(); nhit++) {
//remove entry from NDN-FIB
if (isPrefixUpdatable((it->second).getName())) {
unregisterPrefix((it->second).getName(), nhit->getConnectingFaceUri());
}
}
cancelEntryRefresh(it->second);
m_table.erase(it);
}
}
bool
compareFaceUri(const NextHop& hop, const std::string& faceUri)
{
return hop.getConnectingFaceUri() == faceUri;
}
void
Fib::addNextHopsToFibEntryAndNfd(FibEntry& entry, NexthopList& hopsToAdd)
{
const ndn::Name& name = entry.getName();
for (NexthopList::iterator it = hopsToAdd.begin(); it != hopsToAdd.end(); ++it)
{
// Add nexthop to FIB entry
entry.getNexthopList().addNextHop(*it);
if (isPrefixUpdatable(name)) {
// Add nexthop to NDN-FIB
registerPrefix(name, it->getConnectingFaceUri(),
it->getRouteCostAsAdjustedInteger(),
ndn::time::seconds(m_refreshTime + GRACE_PERIOD),
ndn::nfd::ROUTE_FLAG_CAPTURE, 0);
}
}
}
void
Fib::removeOldNextHopsFromFibEntryAndNfd(FibEntry& entry, const NexthopList& installedHops)
{
_LOG_DEBUG("Fib::removeOldNextHopsFromFibEntryAndNfd Called");
const ndn::Name& name = entry.getName();
NexthopList& entryHopList = entry.getNexthopList();
for (NexthopList::iterator it = entryHopList.begin(); it != entryHopList.end();) {
const std::string& faceUri = it->getConnectingFaceUri();
// See if the nexthop is installed in NFD's FIB
NexthopList::const_iterator foundIt = std::find_if(installedHops.cbegin(),
installedHops.cend(),
std::bind(&compareFaceUri, _1, faceUri));
// The next hop is not installed
if (foundIt == installedHops.cend()) {
if (isPrefixUpdatable(name)) {
// Remove the nexthop from NDN's FIB
unregisterPrefix(name, it->getConnectingFaceUri());
}
// Remove the next hop from the FIB entry
_LOG_DEBUG("Removing " << it->getConnectingFaceUri() << " from " << name);
// Since the iterator will be invalidated on removal, dereference the original
// and increment the copy
entryHopList.removeNextHop(*(it++));
}
else {
++it;
}
}
}
void
Fib::update(const ndn::Name& name, NexthopList& allHops)
{
FibEntry* entry = processUpdate(name, allHops);
if (entry != nullptr && !entry->getRefreshEventId()) {
scheduleEntryRefresh(*entry,
[this] (FibEntry& fibEntry) {
this->scheduleLoop(fibEntry);
});
}
}
FibEntry*
Fib::processUpdate(const ndn::Name& name, NexthopList& allHops)
{
_LOG_DEBUG("Fib::update called");
// Get the max possible faces which is the minumum of the configuration setting and
// the length of the list of all next hops.
unsigned int maxFaces = getNumberOfFacesForName(allHops);
NexthopList hopsToAdd;
unsigned int nFaces = 0;
// Create a list of next hops to be installed with length == maxFaces
for (NexthopList::iterator it = allHops.begin(); it != allHops.end() && nFaces < maxFaces;
++it, ++nFaces) {
hopsToAdd.addNextHop(*it);
}
std::map<ndn::Name, FibEntry>::iterator entryIt = m_table.find(name);
// New FIB entry that has nextHops
if (entryIt == m_table.end() && hopsToAdd.getSize() != 0) {
_LOG_DEBUG("New FIB Entry");
FibEntry entry(name);
addNextHopsToFibEntryAndNfd(entry, hopsToAdd);
m_table.emplace(name, entry);
return &m_table.find(name)->second;
}
// Existing FIB entry that may or may not have nextHops
else {
// Existing FIB entry
_LOG_DEBUG("Existing FIB Entry");
// Remove empty FIB entry
if (hopsToAdd.getSize() == 0) {
remove(name);
return nullptr;
}
FibEntry& entry = (entryIt->second);
addNextHopsToFibEntryAndNfd(entry, hopsToAdd);
removeOldNextHopsFromFibEntryAndNfd(entry, hopsToAdd);
// Increment sequence number
entry.setSeqNo(entry.getSeqNo() + 1);
return &(m_table.find(name)->second);
}
}
void
Fib::clean()
{
_LOG_DEBUG("Fib::clean called");
for (std::map<ndn::Name, FibEntry>::iterator it = m_table.begin();
it != m_table.end();
++it) {
_LOG_DEBUG("Cancelling Scheduled event. Name: " << it->second.getName());
cancelEntryRefresh(it->second);
for (std::set<NextHop, NextHopComparator>::iterator nhit =
(it->second).getNexthopList().getNextHops().begin();
nhit != (it->second).getNexthopList().getNextHops().end(); nhit++) {
//Remove entry from NDN-FIB
unregisterPrefix((it->second).getName(), nhit->getConnectingFaceUri());
}
}
if (m_table.size() > 0) {
m_table.clear();
}
}
unsigned int
Fib::getNumberOfFacesForName(NexthopList& nextHopList)
{
uint32_t nNextHops = static_cast<uint32_t>(nextHopList.getNextHops().size());
uint32_t nMaxFaces = m_confParameter.getMaxFacesPerPrefix();
// Allow all faces
if (nMaxFaces == 0) {
return nNextHops;
}
else {
return std::min(nNextHops, nMaxFaces);
}
}
bool
Fib::isPrefixUpdatable(const ndn::Name& name) {
if (!m_adjacencyList.isNeighbor(name)) {
return true;
}
return false;
}
void
Fib::createFace(const std::string& faceUri,
const CommandSucceedCallback& onSuccess,
const CommandFailCallback& onFailure)
{
m_faceController.createFace(faceUri, onSuccess, onFailure);
}
void
Fib::destroyFace(const std::string& faceUri,
const CommandSucceedCallback& onSuccess,
const CommandFailCallback& onFailure)
{
createFace(faceUri,
std::bind(&Fib::destroyFaceInNfd, this, _1, onSuccess, onFailure),
onFailure);
}
void
Fib::destroyFaceInNfd(const ndn::nfd::ControlParameters& faceDestroyResult,
const CommandSucceedCallback& onSuccess,
const CommandFailCallback& onFailure)
{
ndn::nfd::ControlParameters faceParameters;
faceParameters
.setFaceId(faceDestroyResult.getFaceId());
m_controller.start<ndn::nfd::FaceDestroyCommand>(faceParameters,
onSuccess,
onFailure);
}
void
Fib::registerPrefix(const ndn::Name& namePrefix, const std::string& faceUri,
uint64_t faceCost, const ndn::time::milliseconds& timeout,
uint64_t flags, uint8_t times)
{
uint64_t faceId = m_adjacencyList.getFaceId(faceUri);
if (faceId != 0) {
ndn::nfd::ControlParameters faceParameters;
faceParameters
.setName(namePrefix)
.setFaceId(faceId)
.setFlags(flags)
.setCost(faceCost)
.setExpirationPeriod(timeout)
.setOrigin(ndn::nfd::ROUTE_ORIGIN_NLSR);
_LOG_DEBUG("Registering prefix: " << namePrefix << " Face Uri: " << faceUri
<< " Face Id: " << faceId);
registerPrefixInNfd(faceParameters, faceUri, times);
}
else {
_LOG_DEBUG("Error: No Face Id for face uri: " << faceUri);
}
}
typedef void(Fib::*RegisterPrefixCallback)(const ndn::nfd::ControlParameters&,
const ndn::nfd::ControlParameters&, uint8_t,
const CommandSucceedCallback&,
const CommandFailCallback&);
void
Fib::registerPrefix(const ndn::Name& namePrefix,
const std::string& faceUri,
uint64_t faceCost,
const ndn::time::milliseconds& timeout,
uint64_t flags,
uint8_t times,
const CommandSucceedCallback& onSuccess,
const CommandFailCallback& onFailure)
{
ndn::nfd::ControlParameters parameters;
parameters
.setName(namePrefix)
.setFlags(flags)
.setCost(faceCost)
.setExpirationPeriod(timeout)
.setOrigin(ndn::nfd::ROUTE_ORIGIN_NLSR);
createFace(faceUri,
std::bind(static_cast<RegisterPrefixCallback>(&Fib::registerPrefixInNfd),
this, _1, parameters, times, onSuccess, onFailure),
onFailure);
}
void
Fib::registerPrefixInNfd(ndn::nfd::ControlParameters& parameters,
const std::string& faceUri,
uint8_t times)
{
m_controller.start<ndn::nfd::RibRegisterCommand>(parameters,
std::bind(&Fib::onRegistrationSuccess, this, _1,
"Successful in name registration",
faceUri),
std::bind(&Fib::onRegistrationFailure,
this, _1,
"Failed in name registration",
parameters,
faceUri, times));
}
void
Fib::registerPrefixInNfd(const ndn::nfd::ControlParameters& faceCreateResult,
const ndn::nfd::ControlParameters& parameters,
uint8_t times,
const CommandSucceedCallback& onSuccess,
const CommandFailCallback& onFailure)
{
ndn::nfd::ControlParameters controlParameters;
controlParameters
.setName(parameters.getName())
.setFaceId(faceCreateResult.getFaceId())
.setCost(parameters.getCost())
.setFlags(parameters.getFlags())
.setExpirationPeriod(parameters.getExpirationPeriod())
.setOrigin(ndn::nfd::ROUTE_ORIGIN_NLSR);
m_controller.start<ndn::nfd::RibRegisterCommand>(controlParameters,
onSuccess,
onFailure);
}
void
Fib::unregisterPrefix(const ndn::Name& namePrefix, const std::string& faceUri)
{
uint32_t faceId = m_faceMap.getFaceId(faceUri);
_LOG_DEBUG("Unregister prefix: " << namePrefix << " Face Uri: " << faceUri);
if (faceId > 0) {
ndn::nfd::ControlParameters controlParameters;
controlParameters
.setName(namePrefix)
.setFaceId(faceId)
.setOrigin(ndn::nfd::ROUTE_ORIGIN_NLSR);
m_controller.start<ndn::nfd::RibUnregisterCommand>(controlParameters,
std::bind(&Fib::onUnregistrationSuccess, this, _1,
"Successful in unregistering name"),
std::bind(&Fib::onUnregistrationFailure,
this, _1,
"Failed in unregistering name"));
}
}
void
Fib::setStrategy(const ndn::Name& name, const std::string& strategy, uint32_t count)
{
ndn::nfd::ControlParameters parameters;
parameters
.setName(name)
.setStrategy(strategy);
m_controller.start<ndn::nfd::StrategyChoiceSetCommand>(parameters,
std::bind(&Fib::onSetStrategySuccess, this, _1,
"Successfully set strategy choice"),
std::bind(&Fib::onSetStrategyFailure, this, _1,
parameters,
count,
"Failed to set strategy choice"));
}
void
Fib::onRegistrationSuccess(const ndn::nfd::ControlParameters& commandSuccessResult,
const std::string& message, const std::string& faceUri)
{
_LOG_DEBUG("Register successful Prefix: " << commandSuccessResult.getName() <<
" Face Uri: " << faceUri);
m_faceMap.update(faceUri, commandSuccessResult.getFaceId());
m_faceMap.writeLog();
}
void
Fib::onRegistrationFailure(const ndn::nfd::ControlResponse& response,
const std::string& message,
const ndn::nfd::ControlParameters& parameters,
const std::string& faceUri,
uint8_t times)
{
_LOG_DEBUG(message << ": " << response.getText() << " (code: " << response.getCode() << ")");
_LOG_DEBUG("Prefix: " << parameters.getName() << " failed for: " << times);
if (times < 3) {
_LOG_DEBUG("Trying to register again...");
registerPrefix(parameters.getName(), faceUri,
parameters.getCost(),
parameters.getExpirationPeriod(),
parameters.getFlags(), times+1);
}
else {
_LOG_DEBUG("Registration trial given up");
}
}
void
Fib::onUnregistrationSuccess(const ndn::nfd::ControlParameters& commandSuccessResult,
const std::string& message)
{
_LOG_DEBUG("Unregister successful Prefix: " << commandSuccessResult.getName() <<
" Face Id: " << commandSuccessResult.getFaceId());
}
void
Fib::onUnregistrationFailure(const ndn::nfd::ControlResponse& response,
const std::string& message)
{
_LOG_DEBUG(message << ": " << response.getText() << " (code: " << response.getCode() << ")");
}
void
Fib::onSetStrategySuccess(const ndn::nfd::ControlParameters& commandSuccessResult,
const std::string& message)
{
_LOG_DEBUG(message << ": " << commandSuccessResult.getStrategy() << " "
<< "for name: " << commandSuccessResult.getName());
}
void
Fib::onSetStrategyFailure(const ndn::nfd::ControlResponse& response,
const ndn::nfd::ControlParameters& parameters,
uint32_t count,
const std::string& message)
{
_LOG_DEBUG(message << ": " << parameters.getStrategy() << " "
<< "for name: " << parameters.getName());
if (count < 3) {
setStrategy(parameters.getName(), parameters.getStrategy().toUri(),count+1);
}
}
void
Fib::scheduleEntryRefresh(FibEntry& entry, const afterRefreshCallback& refreshCallback)
{
_LOG_DEBUG("Scheduling refresh for " << entry.getName()
<< " Seq Num: " << entry.getSeqNo()
<< " in " << m_refreshTime << " seconds");
entry.setRefreshEventId(m_scheduler.scheduleEvent(ndn::time::seconds(m_refreshTime),
std::bind(&Fib::refreshEntry, this,
entry.getName(), refreshCallback)));
}
void
Fib::scheduleLoop(FibEntry& entry)
{
scheduleEntryRefresh(entry,
std::bind(&Fib::scheduleLoop, this, _1));
}
void
Fib::cancelEntryRefresh(const FibEntry& entry)
{
_LOG_DEBUG("Cancelling refresh for " << entry.getName() << " Seq Num: " << entry.getSeqNo());
m_scheduler.cancelEvent(entry.getRefreshEventId());
entry.getRefreshEventId().reset();
}
void
Fib::refreshEntry(const ndn::Name& name, afterRefreshCallback refreshCb)
{
std::map<ndn::Name, FibEntry>::iterator it = m_table.find(name);
if (it == m_table.end()) {
return;
}
FibEntry& entry = it->second;
_LOG_DEBUG("Refreshing " << entry.getName() << " Seq Num: " << entry.getSeqNo());
// Increment sequence number
entry.setSeqNo(entry.getSeqNo() + 1);
for (const NextHop& hop : entry) {
registerPrefix(entry.getName(),
hop.getConnectingFaceUri(),
hop.getRouteCostAsAdjustedInteger(),
ndn::time::seconds(m_refreshTime + GRACE_PERIOD),
ndn::nfd::ROUTE_FLAG_CAPTURE, 0);
}
refreshCb(entry);
}
void
Fib::writeLog()
{
_LOG_DEBUG("-------------------FIB-----------------------------");
for (std::map<ndn::Name, FibEntry>::iterator it = m_table.begin();
it != m_table.end();
++it) {
(it->second).writeLog();
}
}
} // namespace nlsr