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/* -*- Mode:C++; c-file-style:"gnu"; indent-tabs-mode:nil; -*- */
/*
* Copyright (c) 2014-2018, 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/>.
*/
#ifndef NFD_RIB_RIB_HPP
#define NFD_RIB_RIB_HPP
#include "rib-entry.hpp"
#include "rib-update-batch.hpp"
#include <ndn-cxx/mgmt/nfd/control-parameters.hpp>
namespace nfd {
namespace rib {
using ndn::nfd::ControlParameters;
class FibUpdater;
/** \brief references a route
*/
struct RibRouteRef
{
shared_ptr<RibEntry> entry;
RibEntry::const_iterator route;
};
bool
operator<(const RibRouteRef& lhs, const RibRouteRef& rhs);
/** \brief represents the Routing Information Base
The Routing Information Base contains a collection of Routes, each
represents a piece of static or dynamic routing information
registered by applications, operators, or NFD itself. Routes
associated with the same namespace are collected into a RIB entry.
*/
class Rib : noncopyable
{
public:
typedef std::list<shared_ptr<RibEntry>> RibEntryList;
typedef std::map<Name, shared_ptr<RibEntry>> RibTable;
typedef RibTable::const_iterator const_iterator;
typedef std::map<uint64_t, std::list<shared_ptr<RibEntry>>> FaceLookupTable;
typedef bool (*RouteComparePredicate)(const Route&, const Route&);
typedef std::set<Route, RouteComparePredicate> RouteSet;
Rib();
~Rib();
void
setFibUpdater(FibUpdater* updater);
const_iterator
find(const Name& prefix) const;
Route*
find(const Name& prefix, const Route& route) const;
const_iterator
begin() const;
const_iterator
end() const;
size_t
size() const;
bool
empty() const;
shared_ptr<RibEntry>
findParent(const Name& prefix) const;
/** \brief finds namespaces under the passed prefix
* \return{ a list of entries which are under the passed prefix }
*/
std::list<shared_ptr<RibEntry>>
findDescendants(const Name& prefix) const;
/** \brief finds namespaces under the passed prefix
*
* \note Unlike findDescendants, needs to find where prefix would fit in tree
* before collecting list of descendant prefixes
*
* \return{ a list of entries which would be under the passed prefix if the prefix
* existed in the RIB }
*/
std::list<shared_ptr<RibEntry>>
findDescendantsForNonInsertedName(const Name& prefix) const;
public:
using UpdateSuccessCallback = std::function<void()>;
using UpdateFailureCallback = std::function<void(uint32_t code, const std::string& error)>;
/** \brief passes the provided RibUpdateBatch to FibUpdater to calculate and send FibUpdates.
*
* If the FIB is updated successfully, onFibUpdateSuccess() will be called, and the
* RIB will be updated
*
* If the FIB update fails, onFibUpdateFailure() will be called, and the RIB will not
* be updated.
*/
void
beginApplyUpdate(const RibUpdate& update,
const UpdateSuccessCallback& onSuccess,
const UpdateFailureCallback& onFailure);
/** \brief starts the FIB update process when a face has been destroyed
*/
void
beginRemoveFace(uint64_t faceId);
void
onFibUpdateSuccess(const RibUpdateBatch& batch,
const RibUpdateList& inheritedRoutes,
const Rib::UpdateSuccessCallback& onSuccess);
void
onFibUpdateFailure(const Rib::UpdateFailureCallback& onFailure,
uint32_t code, const std::string& error);
void
onRouteExpiration(const Name& prefix, const Route& route);
void
insert(const Name& prefix, const Route& route);
private:
/** \brief adds the passed update to a RibUpdateBatch and adds the batch to
* the end of the update queue.
*
* If an update is not in progress, the front update batch in the queue will be
* processed by the RIB.
*
* If an update is in progress, the added update will eventually be processed
* when it reaches the front of the queue; after other update batches are
* processed, the queue is advanced.
*/
void
addUpdateToQueue(const RibUpdate& update,
const Rib::UpdateSuccessCallback& onSuccess,
const Rib::UpdateFailureCallback& onFailure);
/** \brief Attempts to send the front update batch in the queue.
*
* If an update is not in progress, the front update batch in the queue will be
* sent to the RIB for processing.
*
* If an update is in progress, nothing will be done.
*/
void
sendBatchFromQueue();
PUBLIC_WITH_TESTS_ELSE_PRIVATE:
// Used by RibManager unit-tests to get sent batch to simulate successful FIB update
std::function<void(RibUpdateBatch)> m_onSendBatchFromQueue;
void
erase(const Name& prefix, const Route& route);
private:
RibTable::iterator
eraseEntry(RibTable::iterator it);
void
updateRib(const RibUpdateBatch& batch);
/** \brief returns routes inherited from the entry's ancestors
*
* \return{ a list of inherited routes }
*/
RouteSet
getAncestorRoutes(const RibEntry& entry) const;
/** \brief returns routes inherited from the parent of the name and the parent's ancestors
*
* \note A parent is first found for the passed name before inherited routes are collected
*
* \return{ a list of inherited routes }
*/
RouteSet
getAncestorRoutes(const Name& name) const;
/** \brief applies the passed inheritedRoutes and their actions to the corresponding RibEntries'
* inheritedRoutes lists
*/
void
modifyInheritedRoutes(const RibUpdateList& inheritedRoutes);
PUBLIC_WITH_TESTS_ELSE_PRIVATE:
using NameAndRoute = std::pair<const Name&, const Route&>;
std::list<NameAndRoute>
findRoutesWithFaceId(uint64_t faceId);
public:
/** \brief signals after a RIB entry is inserted
*
* A RIB entry is inserted when the first route associated with a
* certain namespace is added.
*/
ndn::util::signal::Signal<Rib, Name> afterInsertEntry;
/** \brief signals after a RIB entry is erased
*
* A RIB entry is erased when the last route associated with a
* certain namespace is removed.
*/
ndn::util::signal::Signal<Rib, Name> afterEraseEntry;
/** \brief signals after a Route is added
*/
ndn::util::signal::Signal<Rib, RibRouteRef> afterAddRoute;
/** \brief signals before a route is removed
*/
ndn::util::signal::Signal<Rib, RibRouteRef> beforeRemoveRoute;
private:
RibTable m_rib;
FaceLookupTable m_faceMap;
FibUpdater* m_fibUpdater;
size_t m_nItems;
friend class FibUpdater;
private:
struct UpdateQueueItem
{
RibUpdateBatch batch;
const Rib::UpdateSuccessCallback managerSuccessCallback;
const Rib::UpdateFailureCallback managerFailureCallback;
};
PUBLIC_WITH_TESTS_ELSE_PRIVATE:
typedef std::list<UpdateQueueItem> UpdateQueue;
UpdateQueue m_updateBatches;
private:
bool m_isUpdateInProgress;
};
inline Rib::const_iterator
Rib::begin() const
{
return m_rib.begin();
}
inline Rib::const_iterator
Rib::end() const
{
return m_rib.end();
}
inline size_t
Rib::size() const
{
return m_nItems;
}
inline bool
Rib::empty() const
{
return m_rib.empty();
}
std::ostream&
operator<<(std::ostream& os, const Rib& rib);
} // namespace rib
} // namespace nfd
#endif // NFD_RIB_RIB_HPP