// -*- c-basic-offset: 4; tab-width: 8; indent-tabs-mode: t -*- // vim:set sts=4 ts=8: // 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/rip/output.hh,v 1.14 2008/07/23 05:11:35 pavlin Exp $ #ifndef __RIP_OUTPUT_HH__ #define __RIP_OUTPUT_HH__ // #define DEBUG_LOGGING // #define DEBUG_PRINT_FUNCTION_NAME #include "libxorp/xorp.h" #include "libxorp/debug.h" #include "libxorp/eventloop.hh" #include "policy/backend/policy_filters.hh" #include "port.hh" #include "system.hh" #include "rip_varrw.hh" template <typename A> class PacketQueue; /** * @short Base class for RIP output processing components. * * RIP output processing components generate periodic trains of RIP * response packets. This class and it's children are intended to * generate the packet trains from RIP output processing. Each packet * within the train is temporally separated from it's neighbouring * packets. Timers elsewhere schedule the start of each packet train. */ template <typename A> class OutputBase { public: typedef A Addr; typedef IPNet<A> Net; public: OutputBase(EventLoop& e, Port<A>& port, PacketQueue<A>& pkt_queue, const A& ip_addr, uint16_t ip_port); virtual ~OutputBase() {}; /** * Accessor for destination IP address applied to output packets. */ const A& ip_addr() const { return _ip_addr; } /** * Accessor for destination IP port applied to output packets. */ uint16_t ip_port() const { return _ip_port; } /** * @return true if output process is generating packets. */ bool running() const; /** * Start packet train if sufficient data is available. This instance * will remain in "running" so long as data is available and will * continue to generate packets until the data is exhausted. */ void start(); /** * Stop packet train. */ void stop(); /** * Get number of packets placed on packet queue for output. */ void packets_sent() const { return _pkts_out; } protected: /** * Accessor for the inter-packet gap the output process should when * generating packet trains. */ uint32_t interpacket_gap_ms() const; /** * Derived classes should implement this to start output processing. * It is invoked when start() is called. */ virtual void start_output_processing() = 0; /** * Derived classes should implement this to stop output processing. * It is invoked when stop() is called. */ virtual void stop_output_processing() = 0; /** * Output packet if suitable data is available, and place it in * the PacketQueue associated with this instance. Should data still be * available after packet is generated then implementations of this * method should reschedule a call to output_packet after * interpacket_gap_ms milliseconds. */ virtual void output_packet() = 0; void incr_packets_sent() { _pkts_out++; } /** * Policy filters the route. * * @param r route to filter. * @return true if the route was accepted, false otherwise. */ bool do_filtering(RouteEntry<A>* r); private: OutputBase(const OutputBase<A>& o); // Not implemented OutputBase<A>& operator=(const OutputBase<A>& o); // Not implemented protected: EventLoop& _e; Port<A>& _port; // Port associated with output PacketQueue<A>& _pkt_queue; // Place for generated packets to go const A _ip_addr; // IP address for output packets const uint16_t _ip_port; // IP port for output packets XorpTimer _op_timer; // Timer invoking output_packet() uint32_t _pkts_out; // Packets sent PolicyFilters& _policy_filters; // Global policy filters }; template <typename A> OutputBase<A>::OutputBase(EventLoop& e, Port<A>& port, PacketQueue<A>& pkt_queue, const A& ip_addr, uint16_t ip_port) : _e(e), _port(port), _pkt_queue(pkt_queue), _ip_addr(ip_addr), _ip_port(ip_port), _pkts_out(0), _policy_filters(port.port_manager().system().policy_filters()) { } template <typename A> inline bool OutputBase<A>::running() const { return _op_timer.scheduled(); } template <typename A> inline void OutputBase<A>::start() { if (running() == false) start_output_processing(); } template <typename A> inline void OutputBase<A>::stop() { stop_output_processing(); } template <typename A> inline uint32_t OutputBase<A>::interpacket_gap_ms() const { return _port.constants().interpacket_delay_ms(); } template <typename A> bool OutputBase<A>::do_filtering(RouteEntry<A>* route) { try { RIPVarRW<A> varrw(*route); debug_msg("[RIP] Running export filter on route: %s\n", route->net().str().c_str()); bool accepted = _policy_filters.run_filter(filter::EXPORT, varrw); return accepted; } catch(const PolicyException& e) { XLOG_FATAL("PolicyException: %s", e.str().c_str()); XLOG_UNFINISHED(); } } #endif // __RIP_OUTPUT_HH__