/* * Copyright (c) 2017 Cisco and/or its affiliates. * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at: * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #ifndef __VOM_ROUTE_H__ #define __VOM_ROUTE_H__ #include "vom/interface.hpp" #include "vom/prefix.hpp" #include "vom/route_domain.hpp" #include "vom/singular_db.hpp" namespace VOM { /** * Types belonging to Routing */ namespace route { /** * A path for IP or MPLS routes */ class path { public: /** * Special path types */ class special_t : public enum_base { public: /** * A standard path type. this includes path types * that use the next-hop and interface */ const static special_t STANDARD; /** * A local/for-us/recieve */ const static special_t LOCAL; /** * drop path */ const static special_t DROP; /** * a path will return ICMP unreachables */ const static special_t UNREACH; /** * a path will return ICMP prohibit */ const static special_t PROHIBIT; private: /** * Private constructor taking the value and the string name */ special_t(int v, const std::string& s); }; /** * Path flags */ class flags_t : public enum_base { public: /** * No flags */ const static flags_t NONE; /** * A path that resolves via a DVR next-hop */ const static flags_t DVR; private: /** * Private constructor taking the value and the string name */ flags_t(int v, const std::string& s); }; /** * constructor for special paths */ path(special_t special); /** * Constructor for standard non-recursive paths */ path(const boost::asio::ip::address& nh, const interface& interface, uint8_t weight = 1, uint8_t preference = 0); /** * Constructor for standard recursive paths */ path(const route_domain& rd, const boost::asio::ip::address& nh, uint8_t weight = 1, uint8_t preference = 0); /** * Constructor for DVR paths or attached paths. */ path(const interface& interface, const nh_proto_t& proto, const flags_t& flags = flags_t::NONE, uint8_t weight = 1, uint8_t preference = 0); /** * Copy Constructor */ path(const path& p); /** * Destructor */ ~path(); /** * comparison operator */ bool operator==(const path& p) const; /** * Less than operator for set insertion */ bool operator<(const path& p) const; /** * convert to string format for debug purposes */ std::string to_string() const; /** * Getters */ special_t type() const; nh_proto_t nh_proto() const; flags_t flags() const; const boost::asio::ip::address& nh() const; std::shared_ptr rd() const; std::shared_ptr itf() const; uint8_t weight() const; uint8_t preference() const; private: /** * The special path tpye */ special_t m_type; /** * The next-hop protocol */ nh_proto_t m_nh_proto; /** * Flags for the path */ flags_t m_flags; /** * The next-hop */ boost::asio::ip::address m_nh; /** * For recursive routes, this is the table in which the * the next-hop exists. */ std::shared_ptr m_rd; /** * The next-hop interface [if present]. */ std::shared_ptr m_interface; /** * UCMP weight */ uint8_t m_weight; /** * Path preference */ uint8_t m_preference; }; class itf_flags_t : public enum_base { public: const static itf_flags_t NONE; /** * Path is accepting multicast traffic */ const static itf_flags_t ACCEPT; /** * A local/for-us/recieve */ const static itf_flags_t FORWARD; static const itf_flags_t& from_vpp(uint32_t val); private: /** * Private constructor taking the value and the string name */ itf_flags_t(int v, const std::string& s); }; /** * A path-list is a set of paths */ typedef std::set path_list_t; /** * A mpath-list is a set of paths and interface flags */ typedef std::set> mpath_list_t; /** * ostream output for iterator */ std::ostream& operator<<(std::ostream& os, const path_list_t& path_list); std::ostream& operator<<(std::ostream& os, const mpath_list_t& path_list); /** * A IP route */ class ip_route : public object_base { public: /** * The key for a route */ typedef std::pair key_t; /** * Construct a route in the default table */ ip_route(const prefix_t& prefix); /** * Construct a route with a path */ ip_route(const prefix_t& prefix, const path& p); /** * Copy Construct */ ip_route(const ip_route& r); /** * Construct a route in the given route domain */ ip_route(const route_domain& rd, const prefix_t& prefix); /** * Construct a route in the given route domain with a path */ ip_route(const route_domain& rd, const prefix_t& prefix, const path& p); /** * Destructor */ ~ip_route(); /** * Get the route's key */ const key_t key() const; /** * Comparison operator */ bool operator==(const ip_route& i) const; /** * Return the matching 'singular instance' */ std::shared_ptr singular() const; /** * Add a path. */ void add(const path& path); /** * remove a path. */ void remove(const path& path); /** * Find the instnace of the route domain in the OM */ static std::shared_ptr find(const ip_route& temp); /** * Dump all route-doamin into the stream provided */ static void dump(std::ostream& os); /** * replay the object to create it in hardware */ void replay(void); /** * Convert to string for debugging */ std::string to_string() const; /** * Return the matching 'singular instance' */ static std::shared_ptr find(const key_t& k); private: /** * Class definition for listeners to OM events */ class event_handler : public OM::listener, public inspect::command_handler { public: event_handler(); virtual ~event_handler() = default; /** * Handle a populate event */ void handle_populate(const client_db::key_t& key); /** * Handle a replay event */ void handle_replay(); /** * Show the object in the Singular DB */ void show(std::ostream& os); /** * Get the sortable Id of the listener */ dependency_t order() const; }; /** * event_handler to register with OM */ static event_handler m_evh; /** * Find or add the instnace of the route domain in the OM */ static std::shared_ptr find_or_add(const ip_route& temp); /* * It's the OM class that updates the objects in HW */ friend class VOM::OM; /** * It's the singular_db class that calls replay() */ friend class singular_db; /** * Commit the acculmulated changes into VPP. i.e. to a 'HW" write. */ void update(const ip_route& obj); /** * Sweep/reap the object if still stale */ void sweep(void); /** * HW configuration for the result of creating the route */ HW::item m_hw; /** * The route domain the route is in. */ std::shared_ptr m_rd; /** * The prefix to match */ prefix_t m_prefix; /** * The set of paths */ path_list_t m_paths; /** * A map of all routes */ static singular_db m_db; }; /** * A IP multicast route */ class ip_mroute : public object_base { public: /** * The key for a route */ typedef std::pair key_t; /** * Construct a route in the default table */ ip_mroute(const mprefix_t& mprefix); /** * Copy Construct */ ip_mroute(const ip_mroute& r); /** * Construct a route in the given route domain */ ip_mroute(const route_domain& rd, const mprefix_t& mprefix); /** * Destructor */ ~ip_mroute(); /** * Get the route's key */ const key_t key() const; /** * Comparison operator */ bool operator==(const ip_mroute& i) const; /** * Return the matching 'singular instance' */ std::shared_ptr singular() const; /** * Find the instnace of the route domain in the OM */ static std::shared_ptr find(const ip_mroute& temp); /** * Dump all route-doamin into the stream provided */ static void dump(std::ostream& os); /** * replay the object to create it in hardware */ void replay(void); /** * Convert to string for debugging */ std::string to_string() const; /** * Return the matching 'singular instance' */ static std::shared_ptr find(const key_t& k); void add(const path& path, const itf_flags_t& flag); private: /** * Class definition for listeners to OM events */ class event_handler : public OM::listener, public inspect::command_handler { public: event_handler(); virtual ~event_handler() = default; /** * Handle a populate event */ void handle_populate(const client_db::key_t& key); /** * Handle a replay event */ void handle_replay(); /** * Show the object in the Singular DB */ void show(std::ostream& os); /** * Get the sortable Id of the listener */ dependency_t order() const; }; /** * event_handler to register with OM */ static event_handler m_evh; /** * Find or add the instnace of the route domain in the OM */ static std::shared_ptr find_or_add(const ip_mroute& temp); /* * It's the OM class that updates the objects in HW */ friend class VOM::OM; /** * It's the singular_db class that calls replay() */ friend class singular_db; /** * Commit the acculmulated changes into VPP. i.e. to a 'HW" write. */ void update(const ip_mroute& obj); /** * Sweep/reap the object if still stale */ void sweep(void); /** * HW configuration for the result of creating the route */ HW::item m_hw; /** * The route domain the route is in. */ std::shared_ptr m_rd; /** * The mprefix to match */ mprefix_t m_mprefix; /** * The set of paths */ mpath_list_t m_paths; /** * A map of all routes */ static singular_db m_db; }; std::ostream& operator<<(std::ostream& os, const ip_route::key_t& key); std::ostream& operator<<(std::ostream& os, const ip_mroute::key_t& key); }; // namespace route }; // namesapce VPP /* * fd.io coding-style-patch-verification: ON * * Local Variables: * eval: (c-set-style "mozilla") * End: */ #endif