Source: ../../rip/port.hh
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// -*- c-basic-offset: 4; tab-width: 8; indent-tabs-mode: t -*-
// vim:set sts=4 ts=8:
// 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/rip/port.hh,v 1.34 2009/01/05 18:31:08 jtc Exp $
#ifndef __RIP_PORT_HH__
#define __RIP_PORT_HH__
#include <list>
#include <string>
#include "libxorp/eventloop.hh"
#include "constants.hh"
#include "port_vars.hh"
#include "port_io.hh"
//
// Forward declarations
//
class AuthHandlerBase;
template <typename A>
class OutputTable;
template <typename A>
class OutputUpdates;
template <typename A>
class PacketRouteEntry;
template <typename A>
class PacketQueue;
template <typename A>
class Peer;
template <typename A>
class PortManagerBase;
template <typename A>
class RouteEntry;
�
/**
* @short Specializable Address Family state for Port classes.
*
* This class exists to be specialized with IPv4 and IPv6 state and
* methods.
*/
template <typename A>
class PortAFSpecState
{};
/**
* @short IPv4 specialized Port state.
*
* This class holds authentication handler state which is IPv4
* specific data for a RIP Port.
*/
template <>
class PortAFSpecState<IPv4>
{
private:
AuthHandlerBase* _ah;
public:
/**
* Constructor.
*
* Instantiates authentication handler as a @ref NullAuthHandler.
*/
PortAFSpecState();
/**
* Destructor.
*
* Deletes authentication handler if non-null.
*/
~PortAFSpecState();
/**
* Set the authentication handler.
*
* @param ah authentication handler to be used.
* @return pointer to former handler.
*/
AuthHandlerBase* set_auth_handler(AuthHandlerBase* ah);
/**
* Get authentication handler.
*/
const AuthHandlerBase* auth_handler() const;
/**
* Get authentication handler.
*/
AuthHandlerBase* auth_handler();
};
�
/**
* @short IPv6 specialized Port state.
*/
template <>
class PortAFSpecState<IPv6>
{
protected:
uint32_t _mepp; // Max route entries per packet
public:
PortAFSpecState() : _mepp(50) {}
/**
* Get the maximum number of route entries placed in each RIPng response
* packet.
*/
uint32_t max_entries_per_packet() const { return _mepp; }
/**
* Set the maximum number of route entries placed in each RIPng response
* packet.
*/
void set_max_entries_per_packet(uint32_t n) { _mepp = n; }
};
�
/**
* @short RIP Port
*
* A RIP Port is an origin and sink of RIP packets. It is uniquely identified
* by the tuplet of <interface, virtual interface, address>. The Port sends
* and receives RIP packets via an attached Port IO object
* (@ref PortIOBase<A>). The Port contains a list of Peers (@ref Peer<A>)
* that it has received communication on and is responsible for updating
* information sent by peers in the RIP route database (@ref RouteDB<A>).
*/
template <typename A>
class Port
: public PortIOUserBase<A>
{
public:
typedef A Addr;
typedef list<Peer<A>*> PeerList;
public:
Port(PortManagerBase<A>& manager);
~Port();
PortManagerBase<A>& port_manager() { return _pm; }
/**
* Set enabled state. When a port is enabled it can perform input
* and output processing. When not enabled, input data is
* discarded and output processing can not occur.
*/
void set_enabled(bool en);
/**
* Get enabled state.
*/
bool enabled() const { return _en; }
/**
* Get timer constants in use for routes received on this port.
*/
PortTimerConstants& constants() { return _constants; }
/**
* Get timer constants in use for routes received on this port.
*/
const PortTimerConstants& constants() const { return _constants; }
/**
* Get Address Family specific state associated with port. This is
* state that only has meaning within the IP address family.
*/
PortAFSpecState<A>& af_state() { return _af_state; }
/**
* Get Address Family specific state associated with port. This is
* state that only has meaning within the IP address family.
*/
const PortAFSpecState<A>& af_state() const { return _af_state; }
/**
* Get cost metric associated with Port.
*/
uint32_t cost() const { return _cost; }
/**
* Set cost metric associated with Port.
*/
void set_cost(uint32_t cost) { _cost = cost; }
/**
* Get horizon type associated with Port.
*/
const RipHorizon& horizon() const { return _horizon; }
/**
* Set horizon type associated with Port.
* @param h horizon type.
*/
void set_horizon(const RipHorizon& h) { _horizon = h; }
/**
* Determine whether Port address should be advertised.
* @return true if port should be advertised to other hosts, false
* otherwise.
*/
bool advertise() const { return _advertise; }
/**
* Set Port advertisement status.
* @param en true if port should be advertised, false otherwise.
*/
void set_advertise(bool en) { _advertise = en; }
/**
* Include default route in RIP response messages.
* @return true if default route is advertised.
*/
bool advertise_default_route() const { return _adv_def_rt; }
/**
* Configure whether default route is advertised in RIP response
* messages.
* @param en true if default route should be advertised.
*/
void set_advertise_default_route(bool en);
/**
* Accept default route if found in RIP response messages.
* @return true if default route should be accepted.
*/
bool accept_default_route() const { return _acc_def_rt; }
/**
* Accept default route if found in RIP response messages.
* @param en true if default route should be accepted.
*/
void set_accept_default_route(bool en);
/**
* Accept routes, but do not advertise them.
* @return true if this port is passive.
*/
bool passive() const { return _passive; }
/**
* Accept routes, but do not advertise them.
* @param passive true if port should receive and not send packets.
*/
void set_passive(bool passive);
/**
* Accept and respond to non-RIP requests. Testing and Debugging
* tools typically send requests from non-RIP IP ports.
*/
bool accept_non_rip_requests() const { return _acc_non_rip_reqs; }
/**
* Accept and respond to non-RIP requests. Testing and Debugging
* tools typically send requests from non-RIP IP ports.
*/
void set_accept_non_rip_requests(bool en);
/**
* Get Peers associated with this Port.
*/
const PeerList& peers() const { return _peers; }
/**
* Get Peers associated with this Port.
*
* NB This method is a backdoor for testing purposes and should
* not be relied upon to exist in future.
*/
PeerList& peers() { return _peers; }
/**
* Get counters associated with Port.
*/
const PortCounters& counters() const { return _counters; }
/**
* Get counters associated with Port.
*/
PortCounters& counters() { return _counters; }
/**
* Get Peer identified by address.
*
* @return pointer to Peer on success, 0 otherwise.
*/
const Peer<A>* peer(const Addr& addr) const;
/**
* Set the maximum packet buffer size.
*/
void set_max_packet_buffer_bytes(uint32_t max_bytes);
/**
* Get the maximum packet buffer size.
*/
uint32_t set_max_packet_buffer_bytes() const;
/**
* Get the current number of bytes buffered in RIP packets.
*/
uint32_t packet_buffer_bytes() const;
/**
* A dummy method to reschedule a non-existing timer.
*/
void reschedule_dummy_timer() {}
/**
* Reschedule request table timer. If the timer was not running,
* then don't schedule it.
*/
void reschedule_request_table_timer();
protected:
/**
* Start request table timer. When there are no peers, this
* schedules the periodic transmission of request table packets.
*/
void start_request_table_timer();
/**
* Stop request table timer.
*/
void stop_request_table_timer();
/**
* Send request packet.
* @return true if packet sent, false if no packet sent.
*/
bool request_table();
/**
* Send request packet if there are no peers.
* @return true if packet sent, false if no packet sent.
*/
bool request_table_timeout();
/**
* Start periodic timer to garbage collect peers. Timer
* deschedules itself when no peers exist.
*/
void start_peer_gc_timer();
/**
* Poll peers and remove those with no routes.
* return true if peers still exist, false otherwise.
*/
bool peer_gc_timeout();
/**
* Kill peer routes. Change cost of routes learned from peers to
* infinity. Typically called when port instance is disabled or
* io system reports that it is not enabled.
*/
void kill_peer_routes();
protected:
/**
* Get Peer identified by address.
* @return pointer to Peer on success, 0 otherwise.
*/
Peer<A>* peer(const Addr& addr);
/**
* Create Peer.
* @return pointer to Peer if created, 0 on failure or peer already exists.
*/
Peer<A>* create_peer(const Addr& addr);
/**
* Record packet arrival. Updates port and peer counters.
*/
void record_packet(Peer<A>* p);
/**
* Record response packet arrival.
*/
void record_response_packet(Peer<A>* p);
/**
* Record request packet arrival.
*/
void record_request_packet(Peer<A>* p);
/**
* Record bad packet.
*
* @param why reason packet marked
*/
void record_bad_packet(const string& why,
const Addr& addr,
uint16_t port,
Peer<A>* p);
/**
* Record bad authentication packet.
*/
void record_bad_auth_packet(const string& why,
const Addr& addr,
uint16_t port,
Peer<A>* p);
/**
* Record bad route.
*
* @param why reason packet marked
*/
void record_bad_route(const string& why,
const Addr& src,
uint16_t port,
Peer<A>* p);
/**
* Parse request message.
*/
void parse_request(const Addr& src_addr,
uint16_t rc_port,
const uint8_t* entries_ptr,
uint32_t n_entries);
/**
* Parse response message.
*/
void parse_response(const Addr& src_addr,
uint16_t src_port,
const uint8_t* entries_ptr,
uint32_t n_entries);
/**
* Block route queries for amount of time determined by
* @ref PortTimerConstants::interquery_delay_ms().
*/
void block_queries();
/**
* Determine whether queries are currently blocked and should be
* discarded.
*/
bool queries_blocked() const;
/**
* Unsolicited update output timer timeout.
*/
void unsolicited_response_timeout();
/**
* Triggered update timeout.
*/
void triggered_update_timeout();
/**
* Query output process policy.
*
* Check whether instance is enabled, whether it is active or
* passive, and whether the associated I/O object is enabled.
*/
bool output_allowed() const;
/**
* Check whether output is allowed and start or stop output
* processing accordingly.
*/
void start_stop_output_processing();
/**
* Start output processing.
*
* Starts timers for unsolicited updates and triggered updates.
*/
void start_output_processing();
/**
* Stop output processing.
*
* Stops timers for unsolicited updates and triggered updates.
*/
void stop_output_processing();
public:
/**
* If I/O handler is not already sending a packet, take a packet from
* packet queue and send it.
*/
void push_packets();
/**
* Check policy on route.
*
* @returns tuple (nexthop,cost). If route should not be
* advertised the cost value will be greater than RIP_INFINITY.
*/
pair<A,uint16_t> route_policy(const RouteEntry<A>& re) const;
/**
* Send completion notification. Called by PortIO instance when a
* send request is completed.
*
* @param success indication of whether send completed successfully.
*/
void port_io_send_completion(bool success);
/**
* Receive RIP packet. Called by PortIO instance when a RIP packet
* arrives.
*
* @param addr source address of packet.
* @param port source port of packet.
* @param rip_packet pointer to RIP packet data.
* @param rip_packet_bytes size of RIP packet data.
*/
void port_io_receive(const Addr& src_addr,
uint16_t src_port,
const uint8_t* rip_packet,
const size_t rip_packet_bytes);
/**
* Notification that PortIO enabled state has changed. Called by
* PortIO when it's enabled status changes.
*
* @param en the enabled status of the I/O system.
*/
void port_io_enabled_change(bool en);
protected:
PortManagerBase<A>& _pm;
PortAFSpecState<A> _af_state; // Address family specific data
PeerList _peers; // Peers on Port
XorpTimer _rt_timer; // Request table timer
XorpTimer _gc_timer; // Peer garbage collection
XorpTimer _ur_timer; // Unsolicited response timer
XorpTimer _tu_timer; // Triggered update timer
XorpTimer _query_blocked_timer; // Rate limiting on queries
bool _en; // enabled state
uint32_t _cost; // Cost metric of port
RipHorizon _horizon; // Port Horizon type
bool _advertise; // Advertise IO port
bool _adv_def_rt; // Advertise default route
bool _acc_def_rt; // Accept default route
bool _passive; // Passive (recv only port)
bool _acc_non_rip_reqs; // Accept non-RIP requests
PacketQueue<A>* _packet_queue; // Outbound packet queue
PortTimerConstants _constants; // Port related timer constants
PortCounters _counters; // Packet counters
OutputTable<A>* _ur_out; // Unsolicited update output
OutputUpdates<A>* _tu_out; // Triggered update output
OutputTable<A>* _su_out; // Solicited update output
};
#endif // __RIP_PORT_HH__
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