blob: f7eb4cdaca33991a72c284cc4ee05c29e4c268df [file] [log] [blame]
/* -*- Mode:C++; c-file-style:"gnu"; indent-tabs-mode:nil; -*- */
/*
* Copyright (c) 2014-2022, 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 "readvertise.hpp"
#include "common/global.hpp"
#include "common/logger.hpp"
#include <ndn-cxx/util/random.hpp>
namespace nfd::rib {
NFD_LOG_INIT(Readvertise);
constexpr time::milliseconds RETRY_DELAY_MIN = 50_s;
constexpr time::milliseconds RETRY_DELAY_MAX = 1_h;
static time::milliseconds
randomizeTimer(time::milliseconds baseTimer)
{
std::uniform_int_distribution<> dist(-5, 5);
auto newTime = baseTimer + time::milliseconds(dist(ndn::random::getRandomNumberEngine()));
return std::max(newTime, 0_ms);
}
Readvertise::Readvertise(Rib& rib,
unique_ptr<ReadvertisePolicy> policy,
unique_ptr<ReadvertiseDestination> destination)
: m_policy(std::move(policy))
, m_destination(std::move(destination))
{
m_addRouteConn = rib.afterAddRoute.connect([this] (const auto& r) { this->afterAddRoute(r); });
m_removeRouteConn = rib.beforeRemoveRoute.connect([this] (const auto& r) { this->beforeRemoveRoute(r); });
m_destination->afterAvailabilityChange.connect([this] (bool isAvailable) {
if (isAvailable) {
this->afterDestinationAvailable();
}
else {
this->afterDestinationUnavailable();
}
});
}
void
Readvertise::afterAddRoute(const RibRouteRef& ribRoute)
{
std::optional<ReadvertiseAction> action = m_policy->handleNewRoute(ribRoute);
if (!action) {
NFD_LOG_DEBUG("add-route " << ribRoute.entry->getName() << '(' << ribRoute.route->faceId <<
',' << ribRoute.route->origin << ") not-readvertising");
return;
}
auto [rrIt, isNewRr] = m_rrs.emplace(action->prefix);
if (!isNewRr && rrIt->signer != action->signer) {
NFD_LOG_WARN("add-route " << ribRoute.entry->getName() << '(' << ribRoute.route->faceId <<
',' << ribRoute.route->origin << ") readvertising-as " << action->prefix <<
" old-signer " << rrIt->signer << " new-signer " << action->signer);
}
rrIt->signer = action->signer;
bool isNewInMap = m_routeToRr.try_emplace(ribRoute, rrIt).second;
BOOST_VERIFY(isNewInMap);
if (rrIt->nRibRoutes++ > 0) {
NFD_LOG_DEBUG("add-route " << ribRoute.entry->getName() << '(' << ribRoute.route->faceId <<
',' << ribRoute.route->origin << ") already-readvertised-as " << action->prefix);
return;
}
NFD_LOG_DEBUG("add-route " << ribRoute.entry->getName() << '(' << ribRoute.route->faceId <<
',' << ribRoute.route->origin << ") readvertising-as " << action->prefix <<
" signer " << action->signer);
rrIt->retryDelay = RETRY_DELAY_MIN;
this->advertise(rrIt);
}
void
Readvertise::beforeRemoveRoute(const RibRouteRef& ribRoute)
{
auto indexIt = m_routeToRr.find(ribRoute);
if (indexIt == m_routeToRr.end()) {
NFD_LOG_DEBUG("remove-route " << ribRoute.entry->getName() << '(' << ribRoute.route->faceId <<
',' << ribRoute.route->origin << ") not-readvertised");
return;
}
auto rrIt = indexIt->second;
m_routeToRr.erase(indexIt);
if (--rrIt->nRibRoutes > 0) {
NFD_LOG_DEBUG("remove-route " << ribRoute.entry->getName() << '(' << ribRoute.route->faceId <<
',' << ribRoute.route->origin << ") needed-by " << rrIt->nRibRoutes);
return;
}
rrIt->retryDelay = RETRY_DELAY_MIN;
this->withdraw(rrIt);
}
void
Readvertise::afterDestinationAvailable()
{
for (auto rrIt = m_rrs.begin(); rrIt != m_rrs.end(); ++rrIt) {
rrIt->retryDelay = RETRY_DELAY_MIN;
this->advertise(rrIt);
}
}
void
Readvertise::afterDestinationUnavailable()
{
for (auto rrIt = m_rrs.begin(); rrIt != m_rrs.end();) {
if (rrIt->nRibRoutes > 0) {
rrIt->retryEvt.cancel(); // stop retrying or refreshing
++rrIt;
}
else {
rrIt = m_rrs.erase(rrIt); // assume withdraw has completed
}
}
}
void
Readvertise::advertise(ReadvertisedRouteContainer::iterator rrIt)
{
BOOST_ASSERT(rrIt->nRibRoutes > 0);
if (!m_destination->isAvailable()) {
NFD_LOG_DEBUG("advertise " << rrIt->prefix << " destination-unavailable");
return;
}
m_destination->advertise(*rrIt,
[=] {
NFD_LOG_DEBUG("advertise " << rrIt->prefix << " success");
rrIt->retryDelay = RETRY_DELAY_MIN;
rrIt->retryEvt = getScheduler().schedule(randomizeTimer(m_policy->getRefreshInterval()),
[=] { advertise(rrIt); });
},
[=] (const std::string& msg) {
NFD_LOG_DEBUG("advertise " << rrIt->prefix << " failure " << msg);
rrIt->retryDelay = std::min(RETRY_DELAY_MAX, rrIt->retryDelay * 2);
rrIt->retryEvt = getScheduler().schedule(randomizeTimer(rrIt->retryDelay),
[=] { advertise(rrIt); });
});
}
void
Readvertise::withdraw(ReadvertisedRouteContainer::iterator rrIt)
{
BOOST_ASSERT(rrIt->nRibRoutes == 0);
if (!m_destination->isAvailable()) {
NFD_LOG_DEBUG("withdraw " << rrIt->prefix << " destination-unavailable");
m_rrs.erase(rrIt);
return;
}
m_destination->withdraw(*rrIt,
[=] {
NFD_LOG_DEBUG("withdraw " << rrIt->prefix << " success");
m_rrs.erase(rrIt);
},
[=] (const std::string& msg) {
NFD_LOG_DEBUG("withdraw " << rrIt->prefix << " failure " << msg);
rrIt->retryDelay = std::min(RETRY_DELAY_MAX, rrIt->retryDelay * 2);
rrIt->retryEvt = getScheduler().schedule(randomizeTimer(rrIt->retryDelay),
[=] { withdraw(rrIt); });
});
}
} // namespace nfd::rib