// -*- c-basic-offset: 4; tab-width: 8; indent-tabs-mode: t -*- // Copyright (c) 2001-2004 International Computer Science Institute // // Permission is hereby granted, free of charge, to any person obtaining a // copy of this software and associated documentation files (the "Software") // to deal in the Software without restriction, subject to the conditions // listed in the XORP LICENSE file. These conditions include: you must // preserve this copyright notice, and you cannot mention the copyright // holders in advertising related to the Software without their permission. // The Software is provided WITHOUT ANY WARRANTY, EXPRESS OR IMPLIED. This // notice is a summary of the XORP LICENSE file; the license in that file is // legally binding. // $XORP: xorp/libxorp/nexthop.hh,v 1.3 2004/06/10 22:41:17 hodson Exp $ #ifndef __LIBXORP_NEXTHOP_HH__ #define __LIBXORP_NEXTHOP_HH__ #include "xorp.h" #include "ipv4.hh" #include "ipv6.hh" #include "ipvx.hh" // NextHop is a generic next hop object. // PeerNextHop is for next hops that are local peers. // EncapsNextHop is for "next hops" that are non-local, and require // encapsulation to reach. Eg. PIM Register Encaps. // ExternalNextHop An IP nexthop that is not an intermediate neighbor. // DiscardNextHop is a discard interface. // // there will probably be more needed at some point #define GENERIC_NEXTHOP 0 #define PEER_NEXTHOP 1 #define ENCAPS_NEXTHOP 2 #define EXTERNAL_NEXTHOP 3 #define DISCARD_NEXTHOP 4 /** * @short Generic class for next-hop information. * * NextHop is the generic class for holding information about routing * next hops. NextHops can be of many types, including immediate * neighbors, remote routers (with IBGP), discard interfaces, * encapsulation endpoints, etc. NextHop itself doesn't really do * anything useful, except to provide a generic handle for the * specialized subclasses. */ class NextHop { public: /** * Default constructor */ NextHop() {} /** * Destructor */ virtual ~NextHop() {} /** * Get the nexthop type. * * @return the type of the nexthop. One of: <pre> GENERIC_NEXTHOP 0 PEER_NEXTHOP 1 ENCAPS_NEXTHOP 2 EXTERNAL_NEXTHOP 3 DISCARD_NEXTHOP 4 </pre> */ virtual int type() = 0; /** * Convert this nexthop from binary form to presentation format. * * @return C++ string with the human-readable ASCII representation * of the nexthop. */ virtual string str() const = 0; }; /** * @short Template class for nexthop information. * * The information contained is the nexthop address. */ template<class A> class IPNextHop : public NextHop { public: /** * Constructor from an address. * * @param from_ipaddr @ref IPv4 or @ref IPv6 or @ref IPvX address * to initialize nexthop. */ IPNextHop(const A &from_ipaddr); /** * Get the address of the nexthop. * * @return the address of the nexthop. */ inline const A& addr() { return _addr; } protected: A _addr; }; typedef IPNextHop<IPv4> IPv4NextHop; typedef IPNextHop<IPv6> IPv6NextHop; typedef IPNextHop<IPvX> IPvXNextHop; /** * @short A nexthop that is an immediate neighbor. * * Specialization of @ref IPNextHop for gateways that are the immediate * neighbors of this router. Most IGP nexthops should be PeerNextHops. */ template<class A> class IPPeerNextHop : public IPNextHop<A> { public: /** * Constructor from an address. * * @param ipv4 @ref IPv4 or @ref IPv6 or @ref IPvX address * to initialize nexthop. */ IPPeerNextHop(const A &from_addr); /** * Get the type of the nexthop. * * @return the nexthop type. In this case, it is PEER_NEXTHOP. */ int type() { return PEER_NEXTHOP; } /** * Convert this nexthop from binary form to presentation format. * * @return C++ string with the human-readable ASCII representation * of the nexthop. */ string str() const; private: }; typedef IPPeerNextHop<IPv4> IPv4PeerNextHop; typedef IPPeerNextHop<IPv6> IPv6PeerNextHop; typedef IPPeerNextHop<IPvX> IPvXPeerNextHop; /** * @short An IP nexthop that is an encapsulation tunnel. * * Specialization of @ref IPNextHop for gateways that are encapsulation * tunnels. */ template<class A> class IPEncapsNextHop : public IPNextHop<A> { public: /** * Constructor from an address. * * @param from_addr @ref IPv4 or @ref IPv6 or @ref IPvX address * to initialize nexthop. */ IPEncapsNextHop(const A &from_addr); /** * Get the type of the nexthop. * * @return the nexthop type. In this case, it is ENCAPS_NEXTHOP. */ int type() { return ENCAPS_NEXTHOP; } /** * Convert this nexthop from binary form to presentation format. * * @return C++ string with the human-readable ASCII representation * of the nexthop. */ string str() const; private: //_cached_peer is the cached copy of the local peer we send the //encapsulated packet to. IPPeerNextHop<A> *_cached_peer; }; typedef IPEncapsNextHop<IPv4> IPv4EncapsNextHop; typedef IPEncapsNextHop<IPv6> IPv6EncapsNextHop; typedef IPEncapsNextHop<IPvX> IPvXEncapsNextHop; /** * @short An IP nexthop that is not an intermediate neighbor. * * The nexthop that is a regular router's address, but the router * is not one of our immediate neighbors. * * Specialization of @ref IPNextHop for a regular router's address, but * the router is not one of our immediate neighbors. The normal case * when this will happen is with IBGP, where the nexthop is either the * exit router from the AS, or the entry router to the next AS. */ template<class A> class IPExternalNextHop : public IPNextHop<A> { public: /** * Constructor from an address. * * @param from_addr @ref IPv4 or @ref IPv6 or @ref IPvX address * to initialize nexthop. */ IPExternalNextHop(const A &from_addr); /** * Get the type of the nexthop. * * @return the nexthop type. In this case, it is EXTERNAL_NEXTHOP. */ int type() { return EXTERNAL_NEXTHOP; } /** * Convert this nexthop from binary form to presentation format. * * @return C++ string with the human-readable ASCII representation * of the nexthop. */ string str() const; private: }; typedef IPExternalNextHop<IPv4> IPv4ExternalNextHop; typedef IPExternalNextHop<IPv6> IPv6ExternalNextHop; typedef IPExternalNextHop<IPvX> IPvXExternalNextHop; /** * @short A nexthop that is the discard interface. * * Specialization of @ref NextHop for blackholing traffic efficiently. */ class DiscardNextHop : public NextHop { public: /** * Default constructor */ DiscardNextHop(); /** * Get the type of the nexthop. * * @return the nexthop type. In this case, it is DISCARD_NEXTHOP. */ int type() { return DISCARD_NEXTHOP; } /** * Convert this nexthop from binary form to presentation format. * * @return C++ string with the human-readable ASCII representation * of the nexthop. */ string str() const; private: }; #endif // __LIBXORP_NEXTHOP_HH__