Source: ../../contrib/olsr/route_manager.hh
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// -*- c-basic-offset: 4; tab-width: 8; indent-tabs-mode: t -*-
// vim:set sts=4 ts=8 sw=4:
// Copyright (c) 2001-2008 XORP, Inc.
//
// 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/contrib/olsr/route_manager.hh,v 1.2 2008/07/23 05:09:52 pavlin Exp $
#ifndef __OLSR_ROUTE_MANAGER_HH__
#define __OLSR_ROUTE_MANAGER_HH__
class Olsr;
class FaceManager;
class Neighborhood;
class TopologyManager;
class ExternalRoutes;
/**
* @short An OLSR internal route entry.
*
* OLSRv1, unlike OSPF, does not implement areas, therefore there is no
* need in the current design to have logical separation between the routes
* which it processes internally and those which it exports to the RIB.
*
* It also has no concept of network LSAs [HNA routes are not used in
* calculating reachability in the OLSR topology] therefore the address
* property is not present here, nor is the 'discard' flag, nor is the
* path type.
*
* TODO: Import this definition into UML.
* TODO: Templatize to hold IPv6.
*/
class RouteEntry {
public:
RouteEntry()
: _destination_type(OlsrTypes::VT_UNKNOWN),
_direct(false),
_nexthop(IPv4::ZERO()),
_faceid(OlsrTypes::UNUSED_FACE_ID),
_cost(0),
_originator(IPv4::ZERO()),
_main_address(IPv4::ZERO()),
_filtered(false)
{}
/*
* @return An integer which identifies the part of OLSR from which we
* have learned this route: neighborhood, TC, HNA, MID.
*/
inline OlsrTypes::VertexType destination_type() const {
return _destination_type;
}
/**
* Set the type of the destination in this route entry.
* The VertexType is re-used for this.
*
* @param vt destination type.
*/
inline void set_destination_type(const OlsrTypes::VertexType vt) {
_destination_type = vt;
}
/**
* @return true if the destination is directly connected.
*
* Strictly speaking, we should still add it to the RIB; the local
* node MAY use ARP for L2 resolution, but we may still wish to
* redistribute routes for these destinations, in order to see OLSR
* protocol specific information for those destinations.
*/
inline bool direct() const { return _direct; }
/**
* Set if the destination is directly connected.
*
* @param is_direct true if destination is directly connected.
*/
inline void set_direct(bool is_direct) { _direct = is_direct; }
/**
* @return protocol address of next hop.
*/
inline IPv4 nexthop() const { return _nexthop; }
/**
* Set protocol address of next hop.
*
* @param nexthop address of next hop.
*/
inline void set_nexthop(const IPv4& nexthop) { _nexthop = nexthop; }
/**
* @return the ID of the interface used to reach the destination.
*/
inline OlsrTypes::FaceID faceid() { return _faceid; }
/**
* Set the ID of the interface used to reach the destination.
*
* @param faceid the ID of the outward interface.
*/
inline void set_faceid(const OlsrTypes::FaceID faceid) {
_faceid = faceid;
}
/**
* @return OLSR protocol cost of route.
*/
inline uint32_t cost() const { return _cost; }
/**
* Set OLSR protocol cost of route.
*
* @param cost OLSR protocol cost of route.
*/
inline void set_cost(const uint32_t cost) { _cost = cost; }
/**
* @return main address of node which originated this route.
*/
inline IPv4 originator() const { return _originator; }
/**
* Set the originator of this route.
*
* @param originator main address of node originating this route.
*/
inline void set_originator(const IPv4& originator) {
_originator = originator;
}
/**
* @return the OLSR main address of the destination.
* May be unset.
*/
inline IPv4 main_address() const { return _main_address; }
/**
* Set the main address of the destination.
* Applicable only if if this is a route which is tagged with such
* information (N1, N2, TC, MID).
* May be the same as the destination.
*
* @param main_addr the OLSR main address of the destination.
*/
inline void set_main_address(const IPv4& main_addr) {
_main_address = main_addr;
}
/**
* @return true if this route has been filtered by policy filters.
*/
inline bool filtered() const { return _filtered; }
/**
* Set if this route has been filtered by policy filters.
* @param was_filtered true if the route has been filtered.
*/
inline void set_filtered(const bool was_filtered) {
_filtered = was_filtered;
}
/**
* @return a string representation of the route entry.
*/
string str();
private:
OlsrTypes::VertexType _destination_type; // MID, TC, HNA. neighbor, etc.
bool _direct; // destination is directly connected
IPv4 _nexthop;
OlsrTypes::FaceID _faceid; // face used to reach nexthop
uint32_t _cost; // OLSR link cost.
IPv4 _originator; // advertising router
IPv4 _main_address; // If this is an N1, N2, TC or MID
// route, this is the main address
// of the destination; similar to
// OSPF router ID.
bool _filtered; // true if policy filtered this route.
};
/**
* @short Routing table manager.
*
* Performs incremental and/or deferred update of the OLSR routing table
* for the domain which this routing process interacts with.
*
* Whilst incremental updates are possible, the code does not
* currently do this because the incremental shortest-path-tree code
* does not yet support incremental updates. The interface is however
* written with this in mind as it may turn out to offer faster convergence
* for link-state MANET protocols like OLSR.
*
* Classes which produce artifacts for RouteManager to turn into routes
* therefore call schedule_route_update() whenever their state changes.
* RouteManager will call them back. We do not use polymorphism for this
* as the relationships do not significantly change.
*/
class RouteManager {
public:
RouteManager(Olsr& olsr, EventLoop& eventloop,
FaceManager* fm, Neighborhood* nh,
TopologyManager* tm, ExternalRoutes* er);
~RouteManager();
/**
* Schedule a recalculation of the entire routing table.
*/
void schedule_route_update();
/**
* Schedule a recalculation of external routes.
*/
void schedule_external_route_update();
/**
* Add a link to a one-hop neighbor to the SPT.
*
* Given a link at radius 1 in the routing graph from this node,
* add its endpoint node and the edge to the SPT graph.
*
* TODO: Bias for MPRs and willingness correctly.
*
* @param l pointer to a link between the origin and the Neighbor n.
* @param n pointer to the Neighbor n.
* @return true if the link was added OK.
*/
bool add_onehop_link(const LogicalLink* l, const Neighbor* n);
/**
* Add a two-hop link and neighbor to the SPT.
*
* Given a link at radius 2 in the routing graph from the origin,
* add its endpoint nodes and the edge to the SPT graph.
*
* In the absence of ETX measurements, the only possible cost for a 2-hop
* link which we can infer from link state is 1 (just the hop), and
* this is what we get from Neighborhood.
*
* @param n pointer to the Neighbor n, which must already have been added
* to the SPT graph.
* @param l2 pointer to a link between Neighbor n and TwoHopNeighbor n2.
* @param n2 pointer to a TwoHopNeighbor.
* @return true if the two-hop link was added OK.
*/
bool add_twohop_link(const Neighbor* n, const TwoHopLink* l2,
const TwoHopNeighbor* n2);
/**
* Add a TC-derived link and neighbor to the SPT.
*
* Given a link at radius > 2 in the routing graph from the origin,
* add its far endpoint nodes and the edge to the SPT graph.
* In the absence of ETX measurements, the only possible cost for a TC
* link which we can infer from link state is 1 (just the hop), and
* this is what we get from TopologyManager.
*
* @param tc The topology entry being considered for SPT add.
* @return true if a link and vertex for the far endpoint was added
* to the SPT, otherwise false.
*/
bool add_tc_link(const TopologyEntry* tc);
/**
* Add an external route, possibly HNA derived, to the current trie.
*
* Section 12: Non-OLSR Interfaces.
* The metric of an HNA route in RFC-compliant OLSR is identical to
* that of its last-hop. If the origin of the HNA route is not reachable
* in the OLSR SPT, the HNA route will be rejected; see NOTES.
*
* @param dest the destination prefix.
* @param lasthop the last hop advertising @param dest
* Note: This is a main address, not an interface address.
* @param distance the number of OLSR hops to @param lasthop
* @return true if the route was added OK.
*/
bool add_hna_route(const IPv4Net& dest,
const IPv4& lasthop,
const uint16_t distance);
/**
* Backend method to: push all the routes through the policy filters
* whenever they are updated.
*/
void push_routes();
protected:
/**
* Recompute the OLSR domain portion of the routing table.
*
* Until incremental computation is implemented, we perform the SPT
* computation fully every time a recomputation is triggered. Producers
* of routes call us back to populate the graph.
*/
void recompute_all_routes();
inline Vertex make_origin_vertex() {
Vertex v;
v.set_is_origin(true);
v.set_main_addr(_fm->get_main_addr());
return v;
}
//
// Route table transactions.
//
/**
* Begin the route computation transaction.
*
* This must be called before any routes are recomputed, to take
* snapshots of the state which is present in the RIB.
*/
void begin();
/**
* End the route computation transaction.
*
* This must be called after all routes are recomputed in order for
* them to propagate to the RIB.
*/
void end();
//
// Route table manipulation.
//
/**
* Internal method to: Add a route entry to the current
* internal trie.
*
* @param net the destination prefix.
* @param rt the entry to add.
* @return true if the entry was added OK.
*/
bool add_entry(const IPv4Net& net, const RouteEntry& rt);
/**
* Internal method to: Delete a route entry from the current
* internal trie.
*
* @param net the destination prefix.
* @param rt the entry to delete.
* @return true if the entry was deleted OK.
*/
bool delete_entry(const IPv4Net& net, const RouteEntry& rt);
/**
* Internal method to: Replace a route entry in the current
* internal trie.
*
* @param net the destination prefix.
* @param rt the new route entry which replaces @param previous_rt
* @param previous_rt the entry to replace.
* @return true if the entry was replaced OK.
*/
bool replace_entry(const IPv4Net& net, const RouteEntry& rt,
const RouteEntry& previous_rt);
//
// RIB interaction.
//
/**
* Backend method to: add a route to the RIB with policy filtering.
*
* @param net the destination prefix.
* @param nexthop the next-hop.
* @param metric the computed metric of the route.
* @param rt the route entry to add, containing all other fields.
* @return true if the route was added to the RIB OK, otherwise false.
*/
bool add_route(IPv4Net net, IPv4 nexthop,
uint32_t metric, RouteEntry& rt);
/**
* Backend method to: withdraw a route from the RIB.
*
* @param net the destination prefix.
* @param rt the route entry to delete, containing all other fields.
* @return true if the route was withdrawn from the RIB OK,
* otherwise false.
*/
bool delete_route(const IPv4Net& net, const RouteEntry& rt);
/**
* Backend method to: replace a route that has been sent to the RIB.
*
* @param net the destination prefix.
* @param nexthop the new next-hop.
* @param metric the new computed metric of the route.
* @param rt the route entry to add, containing all other fields.
* @param previous_rt the route entry to replace.
* @return true if the route was replaced in the RIB OK, otherwise false.
*/
bool replace_route(IPv4Net net, IPv4 nexthop,
uint32_t metric,
RouteEntry& rt,
RouteEntry& previous_rt);
//
// Policy interaction.
//
/**
* Backend method to: perform policy filtering when a route may be
* plumbed to the RIB.
* May not be declared const; policy may modify fields.
*
* @param net the destination prefix.
* @param nexthop the next-hop.
* @param metric the metric.
* @param rt the route entry to filter, containing all other fields.
* @param policytags the tags presented to us by the policy engine.
* @return true if the route was accepted by the policy engine,
* otherwise false if any error occurred.
*/
bool do_filtering(IPv4Net& net, IPv4& nexthop,
uint32_t& metric, RouteEntry& rt,
PolicyTags& policytags);
private:
Olsr& _olsr;
EventLoop& _eventloop;
FaceManager* _fm;
Neighborhood* _nh;
TopologyManager* _tm;
ExternalRoutes* _er;
Spt<Vertex> _spt;
Vertex _origin;
bool _in_transaction;
XorpTask _route_update_task;
Trie<IPv4, RouteEntry>* _current;
Trie<IPv4, RouteEntry>* _previous;
};
#endif // __OLSR_ROUTE_MANAGER_HH__
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