Source: ../../bgp/route_table_cache.hh


 
LOGO
 Annotated List  Files  Globals  Hierarchy  Index  Top
// -*- c-basic-offset: 4; tab-width: 8; indent-tabs-mode: t -*-

// Copyright (c) 2001-2009 XORP, Inc.
//
// This program is free software; you can redistribute it and/or modify
// it under the terms of the GNU General Public License, Version 2, June
// 1991 as published by the Free Software Foundation. Redistribution
// and/or modification of this program under the terms of any other
// version of the GNU General Public License is not permitted.
// 
// This program 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. For more details,
// see the GNU General Public License, Version 2, a copy of which can be
// found in the XORP LICENSE.gpl file.
// 
// XORP Inc, 2953 Bunker Hill Lane, Suite 204, Santa Clara, CA 95054, USA;
// http://xorp.net

// $XORP: xorp/bgp/route_table_cache.hh,v 1.33 2009/01/05 18:30:43 jtc Exp $

#ifndef __BGP_ROUTE_TABLE_CACHE_HH__
#define __BGP_ROUTE_TABLE_CACHE_HH__

#include <queue>
#include "libxorp/timer.hh"
#include "route_table_base.hh"
#include "crash_dump.hh"
#include "libxorp/ref_trie.hh"
#include "peer_handler.hh"

/**
 * Used in CacheTable to store a SubnetRoute and the genid of the
 * RibIn that generated the route.
 */

template<class A>
class CacheRoute {
public:
    CacheRoute(const SubnetRoute<A>* route, uint32_t genid) 
	: _routeref(route), _genid(genid) {}
    const SubnetRoute<A>* route() const { return _routeref.route(); }
    uint32_t genid() const { return _genid; }
private:
    SubnetRouteConstRef<A> _routeref;
    uint32_t _genid;
};


class EventLoop;

/**
 * @short specialized BGPRouteTable that stores routes modified by a
 * FilterTable.
 *
 * The XORP BGP is internally implemented as a set of pipelines
 * consisting of a series of BGPRouteTables.  Each pipeline receives
 * routes from a BGP peer, stores them, and applies filters to them to
 * modify the routes.  Then the pipelines converge on a single
 * decision process, which decides which route wins amongst possible
 * alternative routes.  After decision, the winning routes fanout
 * again along a set of pipelines, again being filtered, before being
 * transmitted to peers.
 *
 * Typically there are two FilterTables for each peer which modify
 * routes passing down the pipeline, one in the input branch from that
 * peer, and one in the output branch to that peer.  A FilterTable
 * does not store the routes it modifies, so a CacheTable is placed
 * downstream of a FilterTable to store routes that are modified.
 *
 * In the current code, a CacheTable isn't strictly necessary, but it
 * simplifies life for all downstream tables, because they know that
 * all routes they receive are stored in stable storage and won't go
 * away without explicit notification.  
 *
 * In the future, it is likely that the CacheTables in the outgoing
 * branches will be removed, as they waste quite a bit of memory for
 * very little gain.  However, they have not yet been removed because
 * their internal sanity checks have served as a valuable debugging
 * device to ensure consistency in the messages travelling down the
 * outgoing branches.
 */

template<class A>
class CacheTable : public BGPRouteTable<A>, CrashDumper {
public:
    CacheTable(string tablename, Safi safi, BGPRouteTable<A> *parent,
	       const PeerHandler *peer);
    ~CacheTable();
    int add_route(InternalMessage<A> &rtmsg,
		  BGPRouteTable<A> *caller);
    int replace_route(InternalMessage<A> &old_rtmsg,
		      InternalMessage<A> &new_rtmsg,
		      BGPRouteTable<A> *caller);
    int delete_route(InternalMessage<A> &rtmsg, 
		     BGPRouteTable<A> *caller);
    int push(BGPRouteTable<A> *caller);
    int route_dump(InternalMessage<A> &rtmsg,
		   BGPRouteTable<A> *caller,
		   const PeerHandler *dump_peer);

    void flush_cache();
    const SubnetRoute<A> *lookup_route(const IPNet<A> &net,
				       uint32_t& genid,
				       FPAListRef& pa_list) const;
    void route_used(const SubnetRoute<A>* route, bool in_use);

    RouteTableType type() const {return CACHE_TABLE;}
    string str() const;

    /* mechanisms to implement flow control in the output plumbing */
    bool get_next_message(BGPRouteTable<A> *next_table);

    int route_count() const {
	return _route_table->route_count();
    }

    string dump_state() const;

    EventLoop& eventloop() const;

private:
    RefTrie<A, const CacheRoute<A> > *_route_table;
    const PeerHandler *_peer;

    // stats to help debugging
    int _unchanged_added, _unchanged_deleted, _changed_added, _changed_deleted;
};

/**
 * @short Delete nodes in the cache table trie.
 *
 * Only one instance of this class exists at any time.
 */
template<class A>
class DeleteAllNodes {
public:
    typedef RefTrie<A, const CacheRoute<A> > RouteTable;
    typedef queue<RouteTable *> RouteTables;

    DeleteAllNodes(const PeerHandler *peer, RouteTable *route_table)
	: _peer(peer) {

 	    bool empty = _route_tables.empty();
	    _route_tables.push(route_table);

 	    if (empty) {
		_deleter_task = 
		    _peer->eventloop().new_task(
			callback(this, &DeleteAllNodes<A>::delete_some_nodes),
			XorpTask::PRIORITY_BACKGROUND,
			XorpTask::WEIGHT_DEFAULT);
 	    } else {
 		delete this;
 	    }
	}
    
    /**
     * Background task that deletes nodes in trie.
     *
     * @return true if there are routes to delete.
     */
    bool delete_some_nodes() {
	RouteTable *route_table = _route_tables.front();
	typename RouteTable::iterator current = route_table->begin();
	for(int i = 0; i < _deletions_per_call; i++) {
	    // In theory if current is invalid then it will move to a
	    // valid entry. Unlike the STL, which this isn't.
	    PAListRef<A> old_pa_list = current.payload().route()->attributes();
	    old_pa_list.deregister_with_attmgr();
	    route_table->erase(current);
	    if (current == route_table->end()) {
		_route_tables.pop();
		route_table->delete_self();
		break;
	    }
	}

	if (_route_tables.empty()) {
	    delete this;
	    return false;
	}

	return true;
    }

    /**
     * @return true if route tables exist and are still being deleted.
     */
    static bool running() {
	return !_route_tables.empty();
    }
private:
    static RouteTables _route_tables;	// Queue of route tables to delete.
    XorpTask _deleter_task;			// 
    const PeerHandler *_peer;		// Handle to the EventLoop.
    static int _deletions_per_call;	// Number of nodes deleted per call.
};

#endif // __BGP_ROUTE_TABLE_CACHE_HH__

Generated by: pavlin on kobe.xorp.net on Wed Jan 7 19:11:04 2009, using kdoc 2.0a54+XORP.