// -*- 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/bgp/bgp_trie.hh,v 1.13 2004/06/10 22:40:29 hodson Exp $ #ifndef __BGP_BGP_TRIE_HH__ #define __BGP_BGP_TRIE_HH__ #include "subnet_route.hh" #include <map> #include "libxorp/ref_trie.hh" template <class A> class Path_Att_Ptr_Cmp { public: bool operator() (const PathAttributeList<A> *a, const PathAttributeList<A> *b) const { return *a < *b; } }; template<class A> class ChainedSubnetRoute : public SubnetRoute<A> { public: ChainedSubnetRoute(const IPNet<A> &net, const PathAttributeList<A> *attributes) : SubnetRoute<A>(net, attributes), _prev(0), _next(0) {} ChainedSubnetRoute(const SubnetRoute<A>& route, const ChainedSubnetRoute<A>* prev); ChainedSubnetRoute(const ChainedSubnetRoute& csr); const ChainedSubnetRoute<A> *prev() const { return _prev; } const ChainedSubnetRoute<A> *next() const { return _next; } bool unchain() const; protected: inline void set_next(const ChainedSubnetRoute<A> *next) const { _next = next; } inline void set_prev(const ChainedSubnetRoute<A> *prev) const { _prev = prev; } ChainedSubnetRoute& operator=(const ChainedSubnetRoute& csr); // Not impl. private: //The destructor is private because it's not supposed to be called //directly. Instead, unref() should be used which will only delete //the SubnetRoute when the reference count reaches zero. friend class SubnetRoute<A>; //shut the compiler up. ~ChainedSubnetRoute() {} // it looks odd to have these be mutable and the methods to set // them be const, but that's because the chaining is really // conceptually part of the container, not the payload. It these // aren't mutable we can't modify the chaining and have the payload // be const. mutable const ChainedSubnetRoute<A> *_prev; mutable const ChainedSubnetRoute<A> *_next; }; /** * Template specialization of the RefTrieNode, so that the payload is * not immediately deleted unless the SubnetRoute reference count is * zero. */ template<> inline void RefTrieNode<IPv4, const ChainedSubnetRoute<IPv4> >::delete_payload(const ChainedSubnetRoute<IPv4>* p) { p->unref(); } template<> inline void RefTrieNode<IPv6, const ChainedSubnetRoute<IPv6> >::delete_payload(const ChainedSubnetRoute<IPv6>* p) { p->unref(); } /** * The BgpTrie is an augmented, specialized trie that allows us to * lookup by network address or by path attribute list. We need this * because we can't efficiently extract entries with the same path * attribute list from a regular trie. Each set of nodes with the same * path attribute pointer are linked together into a chain (a circular * doubly-linked list). The BgpTrie holds a pointer to any one of * those nodes. */ template<class A> class BgpTrie : public RefTrie<A, const ChainedSubnetRoute<A> > { public: typedef IPNet<A> IPNet; typedef ChainedSubnetRoute<A> ChainedSubnetRoute; typedef map<const PathAttributeList<A> *, const ChainedSubnetRoute*, Path_Att_Ptr_Cmp<A> > PathmapType; typedef RefTrie<A, const ChainedSubnetRoute> RouteTrie; typedef typename RouteTrie::iterator iterator; BgpTrie(); ~BgpTrie(); iterator insert(const IPNet& net, const SubnetRoute<A>& route); void erase(const IPNet& net); void delete_all_nodes(); const PathmapType& pathmap() const { return _pathmap; } private: PathmapType _pathmap; }; #endif // __BGP_BGP_TRIE_HH__