// -*- c-basic-offset: 4; tab-width: 8; indent-tabs-mode: t -*- // Copyright (c) 2001-2005 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/route_table_deletion.hh,v 1.17 2005/03/25 02:52:46 pavlin Exp $ #ifndef __BGP_ROUTE_TABLE_DELETION_HH__ #define __BGP_ROUTE_TABLE_DELETION_HH__ #include "route_table_base.hh" #include "peer_handler.hh" #include "bgp_trie.hh" class EventLoop; /** * @short DeletionTable is a temporary BGPRouteTable used to delete * routes when a peer goes down * * When a peer goes down, all the routes stored in a RibIn need to be * deleted. However, this can take some time, so it cannot occur in * one atomic operation, so it must be done route-by-route as a * background task. This is complicated by the fact that the peering * may come back up while this background deletion is occuring, and * new routes may appear. To handle the background deletion while * keeping the RibIn simple, we simply create a new DeletionTable * route table, plumb it in directly after the RibIn, and pass the * RibIn's entire route trie to the DeletionTable. RibIn can now * forget these routes ever existed, and DeletionTable can get on with * the background deletion task, unplumbing and deleting itself when * no routes remain. * * Care must be taken to ensure that the downstream routing tables see * consistent information. For example, if there is a route for * subnet X in the DeletionTable that has not yet been deleted, and an * add_route for X comes downstream from rthe RibIn, then this would * need to be propagated downstream as a replace_route. * * Note that if a peering flaps multiple times, multiple * DeletionTables may be plumbed in, one after another, behind a * RibInTable. */ template<class A> class DeletionTable : public BGPRouteTable<A> { public: DeletionTable(string tablename, Safi safi, BgpTrie<A>* route_table, const PeerHandler *peer, uint32_t genid, BGPRouteTable<A> *parent); ~DeletionTable(); int add_route(const InternalMessage<A> &rtmsg, BGPRouteTable<A> *caller); int replace_route(const InternalMessage<A> &old_rtmsg, const InternalMessage<A> &new_rtmsg, BGPRouteTable<A> *caller); int delete_route(const InternalMessage<A> &rtmsg, BGPRouteTable<A> *caller); int route_dump(const InternalMessage<A> &rtmsg, BGPRouteTable<A> *caller, const PeerHandler *dump_peer); int push(BGPRouteTable<A> *caller); const SubnetRoute<A> *lookup_route(const IPNet<A> &net, uint32_t& genid) const; void route_used(const SubnetRoute<A>* route, bool in_use); RouteTableType type() const { return DELETION_TABLE; } string str() const; /* mechanisms to implement flow control in the output plumbing */ void output_state(bool /*busy*/, BGPRouteTable<A> */*next_table*/) { abort(); } bool get_next_message(BGPRouteTable<A> */*next_table*/) { abort(); return false; } void initiate_background_deletion(); /** * @return the generation id. */ uint32_t genid() const {return _genid;} private: void unplumb_self(); void delete_next_chain(); EventLoop& eventloop() const { return _peer->eventloop(); } const PeerHandler *_peer; uint32_t _genid; BgpTrie<A>* _route_table; typename BgpTrie<A>::PathmapType::const_iterator _del_sweep; int _deleted, _chains; XorpTimer _deletion_timer; }; #endif // __BGP_ROUTE_TABLE_DELETION_HH__