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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/>.
**/
#ifndef NDNSIM_HELPER_NDN_STACK_HELPER_HPP
#define NDNSIM_HELPER_NDN_STACK_HELPER_HPP
#include "ns3/ndnSIM/model/ndn-common.hpp"
#include "ns3/ptr.h"
#include "ns3/object-factory.h"
#include "ns3/node.h"
#include "ns3/node-container.h"
#include "ndn-face-container.hpp"
#include "ndn-fib-helper.hpp"
#include "ndn-strategy-choice-helper.hpp"
namespace nfd {
namespace cs {
class Policy;
} // namespace cs
} // namespace nfd
namespace ns3 {
class Node;
namespace ndn {
class L3Protocol;
/**
* @ingroup ndn
* @defgroup ndn-helpers Helpers
*/
/**
* @ingroup ndn-helpers
* @brief Helper class to install NDN stack and configure its parameters
*/
class StackHelper : boost::noncopyable {
public:
/**
* \brief Create a new NdnStackHelper with a default NDN_FLOODING forwarding stategy
*/
StackHelper();
/**
* \brief Destroy the NdnStackHelper
*/
virtual ~StackHelper();
/**
* @brief Set parameters of NdnL3Protocol
*/
void
SetStackAttributes(const std::string& attr1 = "", const std::string& value1 = "",
const std::string& attr2 = "", const std::string& value2 = "",
const std::string& attr3 = "", const std::string& value3 = "",
const std::string& attr4 = "", const std::string& value4 = "");
/**
* @brief Set maximum size for NFD's Content Store (in number of packets)
*/
void
setCsSize(size_t maxSize);
/**
* @brief Set the cache replacement policy for NFD's Content Store
*/
void
setPolicy(const std::string& policy);
/**
* @brief Set ndnSIM 1.0 content store implementation and its attributes
* @param contentStoreClass string, representing class of the content store
* @note ndnSIM 1.0 content store implementation have limited support for Interest selectors
* Do not use these implementations if your scenario relies on proper selector processing.
*/
void
SetOldContentStore(const std::string& contentStoreClass, const std::string& attr1 = "",
const std::string& value1 = "", const std::string& attr2 = "",
const std::string& value2 = "", const std::string& attr3 = "",
const std::string& value3 = "", const std::string& attr4 = "",
const std::string& value4 = "");
typedef Callback<shared_ptr<Face>, Ptr<Node>, Ptr<L3Protocol>, Ptr<NetDevice>>
FaceCreateCallback;
/**
* @brief Add callback to create and configure instance of the face, based on supplied Ptr<Node>
*and Ptr<NetDevice>
*
* It is possible to set up several callbacks for different NetDevice types.
*
* If none of the callbacks fit the TypeId of NetDevice, a default callback is used
*(DefaultNetDeviceCallback)
*/
void
AddFaceCreateCallback(TypeId netDeviceType, FaceCreateCallback callback);
/**
* @brief Update callback to create and configure instance of the face, based on supplied
*Ptr<Node> and Ptr<NetDevice>
*
* It is possible to set up several callbacks for different NetDevice types.
*
* Using this method, it is possible to override Face creation for PointToPointNetDevices
*/
void
UpdateFaceCreateCallback(TypeId netDeviceType, FaceCreateCallback callback);
/**
* @brief Remove callback to create and configure instance of the face, based on supplied
* Ptr<Node> and Ptr<NetDevice>
*/
void
RemoveFaceCreateCallback(TypeId netDeviceType, FaceCreateCallback callback);
/**
* \brief Install Ndn stack on the node
*
* This method will assert if called on a node that already has Ndn object
* installed on it
*
* \param nodeName The name of the node on which to install the stack.
*
* \returns list of installed faces in the form of a smart pointer
* to NdnFaceContainer object
*/
Ptr<FaceContainer>
Install(const std::string& nodeName) const;
/**
* \brief Install Ndn stack on the node
*
* This method will assert if called on a node that already has Ndn object
* installed on it
*
* \param node The node on which to install the stack.
*
* \returns list of installed faces in the form of a smart pointer
* to FaceContainer object
*/
Ptr<FaceContainer>
Install(Ptr<Node> node) const;
/**
* \brief Install Ndn stack on each node in the input container
*
* The program will assert if this method is called on a container with a node
* that already has an ndn object aggregated to it.
*
* \param c NodeContainer that holds the set of nodes on which to install the
* new stacks.
*
* \returns list of installed faces in the form of a smart pointer
* to FaceContainer object
*/
Ptr<FaceContainer>
Install(const NodeContainer& c) const;
/**
* \brief Install Ndn stack on all nodes in the simulation
*
* \returns list of installed faces in the form of a smart pointer
* to FaceContainer object
*/
Ptr<FaceContainer>
InstallAll() const;
/**
* \brief Set flag indicating necessity to install default routes in FIB
*/
void
SetDefaultRoutes(bool needSet);
static KeyChain&
getKeyChain();
/**
* \brief Update Ndn stack on a given node (Add faces for new devices)
*
* \param node The node on which to update the stack.
*/
void
Update(Ptr<Node> node);
/**
*\brief Update Ndn stack on given nodes (Add faces for new devices)
*
* \param c The nodes on which to update the stack.
*/
void
Update(const NodeContainer& c);
/**
*\brief Update Ndn stack on a given node name (Add faces for new devices)
*
* \param nodeName The name of the node on which to update the stack.
*/
void
Update(const std::string& nodeName);
/**
*\brief Update Ndn stack on all the nodes (Add faces for new devices)
*/
void
UpdateAll();
/**
*\brief Disable the RIB manager of NFD
*/
void
disableRibManager();
// Cannot be disabled for now
// /**
// * \brief Disable Face Manager
// */
// void
// disableFaceManager();
/**
* \brief Disable Strategy Choice Manager
*/
void
disableStrategyChoiceManager();
/**
* \brief Disable Forwarder Status Manager
*/
void
disableForwarderStatusManager();
private:
shared_ptr<Face>
DefaultNetDeviceCallback(Ptr<Node> node, Ptr<L3Protocol> ndn, Ptr<NetDevice> netDevice) const;
shared_ptr<Face>
PointToPointNetDeviceCallback(Ptr<Node> node, Ptr<L3Protocol> ndn,
Ptr<NetDevice> netDevice) const;
shared_ptr<Face>
createAndRegisterFace(Ptr<Node> node, Ptr<L3Protocol> ndn, Ptr<NetDevice> device) const;
bool m_isRibManagerDisabled;
// bool m_isFaceManagerDisabled;
bool m_isForwarderStatusManagerDisabled;
bool m_isStrategyChoiceManagerDisabled;
public:
void
setCustomNdnCxxClocks();
private:
ObjectFactory m_ndnFactory;
ObjectFactory m_contentStoreFactory;
bool m_needSetDefaultRoutes;
size_t m_maxCsSize;
typedef std::function<std::unique_ptr<nfd::cs::Policy>()> PolicyCreationCallback;
PolicyCreationCallback m_csPolicyCreationFunc;
std::map<std::string, PolicyCreationCallback> m_csPolicies;
typedef std::list<std::pair<TypeId, FaceCreateCallback>> NetDeviceCallbackList;
NetDeviceCallbackList m_netDeviceCallbacks;
};
} // namespace ndn
} // namespace ns3
#endif // NDNSIM_HELPER_NDN_STACK_HELPER_HPP