extras/deprecated/vom/vom/route.cpp - fdio/vpp - Gitiles

 /*
  * 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.
  */

 #include "vom/route.hpp"
 #include "vom/api_types.hpp"
 #include "vom/mroute_cmds.hpp"
 #include "vom/route_api_types.hpp"
 #include "vom/route_cmds.hpp"
 #include "vom/singular_db_funcs.hpp"

 namespace VOM {
 namespace route {
 ip_route::event_handler ip_route::m_evh;
 ip_mroute::event_handler ip_mroute::m_evh;
 singular_db<ip_route::key_t, ip_route> ip_route::m_db;
 singular_db<ip_mroute::key_t, ip_mroute> ip_mroute::m_db;

 const path::special_t path::special_t::STANDARD(0, "standard");
 const path::special_t path::special_t::LOCAL(1, "local");
 const path::special_t path::special_t::DROP(2, "standard");
 const path::special_t path::special_t::UNREACH(3, "unreachable");
 const path::special_t path::special_t::PROHIBIT(4, "prohibit");

 path::special_t::special_t(int v, const std::string& s)
   : enum_base<path::special_t>(v, s)
 {
 }

 const path::flags_t path::flags_t::NONE(0, "none");
 const path::flags_t path::flags_t::DVR((1 << 0), "dvr");

 path::flags_t::flags_t(int v, const std::string& s)
   : enum_base<path::flags_t>(v, s)
 {
 }

 const itf_flags_t itf_flags_t::NONE(0, "none");
 const itf_flags_t itf_flags_t::ACCEPT((1 << 1), "accept");
 const itf_flags_t itf_flags_t::FORWARD((1 << 2), "forward");

 itf_flags_t::itf_flags_t(int v, const std::string& s)
   : enum_base<itf_flags_t>(v, s)
 {
 }

 path::path(special_t special, const nh_proto_t& proto)
   : m_type(special)
   , m_nh_proto(proto)
   , m_flags(flags_t::NONE)
   , m_nh()
   , m_rd(nullptr)
   , m_interface(nullptr)
   , m_weight(1)
   , m_preference(0)
 {
 }

 path::path(const boost::asio::ip::address& nh,
            const interface& interface,
            uint8_t weight,
            uint8_t preference)
   : m_type(special_t::STANDARD)
   , m_nh_proto(nh_proto_t::from_address(nh))
   , m_flags(flags_t::NONE)
   , m_nh(nh)
   , m_rd(nullptr)
   , m_interface(interface.singular())
   , m_weight(weight)
   , m_preference(preference)
 {
 }

 path::path(const route_domain& rd,
            const boost::asio::ip::address& nh,
            uint8_t weight,
            uint8_t preference)
   : m_type(special_t::STANDARD)
   , m_nh_proto(nh_proto_t::from_address(nh))
   , m_flags(flags_t::NONE)
   , m_nh(nh)
   , m_rd(rd.singular())
   , m_interface(nullptr)
   , m_weight(weight)
   , m_preference(preference)
 {
 }

 path::path(const interface& interface,
            const nh_proto_t& proto,
            const flags_t& flags,
            uint8_t weight,
            uint8_t preference)
   : m_type(special_t::STANDARD)
   , m_nh_proto(proto)
   , m_flags(flags)
   , m_nh()
   , m_rd(nullptr)
   , m_interface(interface.singular())
   , m_weight(weight)
   , m_preference(preference)
 {
 }

 path::path(const path& p)
   : m_type(p.m_type)
   , m_nh_proto(p.m_nh_proto)
   , m_flags(p.m_flags)
   , m_nh(p.m_nh)
   , m_rd(p.m_rd)
   , m_interface(p.m_interface)
   , m_weight(p.m_weight)
   , m_preference(p.m_preference)
 {
 }

 bool
 path::operator<(const path& p) const
 {
   if (m_nh_proto < p.m_nh_proto)
     return true;
   if (m_flags < p.m_flags)
     return true;
   if (m_type < p.m_type)
     return true;
   if (m_rd && !p.m_rd)
     return false;
   if (!m_rd && p.m_rd)
     return true;
   if (m_rd && p.m_rd) {
     if (m_rd->table_id() < p.m_rd->table_id())
       return true;
     else if (m_rd->table_id() > p.m_rd->table_id())
       return false;
   }
   if (m_nh < p.m_nh)
     return true;
   if (m_interface && !p.m_interface)
     return false;
   if (!m_interface && p.m_interface)
     return true;
   if (m_interface && p.m_interface) {
     if (m_interface->handle() < p.m_interface->handle())
       return true;
     if (p.m_interface->handle() < m_interface->handle())
       return false;
   }

   return (false);
 }

 path::~path()
 {
 }

 bool
 path::operator==(const path& p) const
 {
   bool result = true;
   if (m_rd && !p.m_rd)
     return false;
   if (!m_rd && p.m_rd)
     return false;
   if (m_rd && p.m_rd)
     result &= (*m_rd == *p.m_rd);
   if (m_interface && !p.m_interface)
     return false;
   if (!m_interface && p.m_interface)
     return false;
   if (m_interface && p.m_interface)
     result &= (*m_interface == *p.m_interface);
   return (result && (m_type == p.m_type) && (m_nh == p.m_nh) &&
           (m_nh_proto == p.m_nh_proto) && (m_flags == p.m_flags));
 }

 std::string
 path::to_string() const
 {
   std::ostringstream s;

   s << "path:["
     << "type:" << m_type.to_string() << " proto:" << m_nh_proto.to_string()
     << " flags:" << m_flags.to_string() << " neighbour:" << m_nh.to_string();
   if (m_rd) {
     s << " " << m_rd->to_string();
   }
   if (m_interface) {
     s << " " << m_interface->to_string();
   }
   s << " weight:" << static_cast<int>(m_weight)
     << " preference:" << static_cast<int>(m_preference) << "]";

   return (s.str());
 }

 path::special_t
 path::type() const
 {
   return m_type;
 }

 nh_proto_t
 path::nh_proto() const
 {
   return m_nh_proto;
 }

 path::flags_t
 path::flags() const
 {
   return m_flags;
 }

 const boost::asio::ip::address&
 path::nh() const
 {
   return m_nh;
 }

 std::shared_ptr<route_domain>
 path::rd() const
 {
   return m_rd;
 }

 std::shared_ptr<interface>
 path::itf() const
 {
   return m_interface;
 }

 uint8_t
 path::weight() const
 {
   return m_weight;
 }

 uint8_t
 path::preference() const
 {
   return m_preference;
 }

 ip_route::ip_route(const prefix_t& prefix, const path& p)
   : m_hw(false)
   , m_rd(route_domain::get_default())
   , m_prefix(prefix)
   , m_paths({ p })
 {
 }

 ip_route::ip_route(const prefix_t& prefix)
   : m_hw(false)
   , m_rd(route_domain::get_default())
   , m_prefix(prefix)
   , m_paths()
 {
 }

 ip_route::ip_route(const ip_route& r)
   : m_hw(r.m_hw)
   , m_rd(r.m_rd)
   , m_prefix(r.m_prefix)
   , m_paths(r.m_paths)
 {
 }

 ip_route::ip_route(const route_domain& rd, const prefix_t& prefix)
   : m_hw(false)
   , m_rd(rd.singular())
   , m_prefix(prefix)
   , m_paths()
 {
 }

 ip_route::ip_route(const route_domain& rd,
                    const prefix_t& prefix,
                    const path& p)
   : m_hw(false)
   , m_rd(rd.singular())
   , m_prefix(prefix)
   , m_paths({ p })
 {
 }

 ip_route::~ip_route()
 {
   sweep();

   // not in the DB anymore.
   m_db.release(key(), this);
   m_paths.clear();
 }

 const ip_route::key_t
 ip_route::key() const
 {
   return (std::make_pair(m_rd->table_id(), m_prefix));
 }

 bool
 ip_route::operator==(const ip_route& i) const
 {
   return ((key() == i.key()) && (m_paths == i.m_paths));
 }

 void
 ip_route::add(const path& path)
 {
   m_paths.insert(path);
 }

 void
 ip_route::remove(const path& path)
 {
   m_paths.erase(path);
 }

 void
 ip_route::sweep()
 {
   if (m_hw) {
     HW::enqueue(
       new ip_route_cmds::delete_cmd(m_hw, m_rd->table_id(), m_prefix));
   }
   HW::write();
 }

 void
 ip_route::replay()
 {
   if (m_hw) {
     HW::enqueue(
       new ip_route_cmds::update_cmd(m_hw, m_rd->table_id(), m_prefix, m_paths));
   }
 }
 std::string
 ip_route::to_string() const
 {
   std::ostringstream s;
   s << "route:[" << m_rd->to_string() << ", " << m_prefix.to_string() << " ["
     << m_paths << "]"
     << "]";

   return (s.str());
 }

 void
 ip_route::update(const ip_route& r)
 {
   m_paths = r.m_paths;
   HW::enqueue(
     new ip_route_cmds::update_cmd(m_hw, m_rd->table_id(), m_prefix, m_paths));
 }

 std::shared_ptr<ip_route>
 ip_route::find_or_add(const ip_route& temp)
 {
   return (m_db.find_or_add(temp.key(), temp));
 }

 std::shared_ptr<ip_route>
 ip_route::find(const key_t& k)
 {
   return (m_db.find(k));
 }

 std::shared_ptr<ip_route>
 ip_route::singular() const
 {
   return find_or_add(*this);
 }

 void
 ip_route::dump(std::ostream& os)
 {
   db_dump(m_db, os);
 }

 ip_route::event_handler::event_handler()
 {
   OM::register_listener(this);
   inspect::register_handler({ "ip-route" }, "ip route configurations", this);
 }

 void
 ip_route::event_handler::handle_replay()
 {
   m_db.replay();
 }

 void
 ip_route::event_handler::handle_populate(const client_db::key_t& key)
 {
   // for each known route-domain
   auto it = route_domain::cbegin();

   while (it != route_domain::cend()) {

     std::vector<l3_proto_t> l3s = { l3_proto_t::IPV4, l3_proto_t::IPV4 };

     for (auto l3 : l3s) {
       std::shared_ptr<ip_route_cmds::dump_cmd> cmd =
         std::make_shared<ip_route_cmds::dump_cmd>(it->second.lock()->table_id(),
                                                   l3);

       HW::enqueue(cmd);
       HW::write();

       for (auto& record : *cmd) {
         auto& payload = record.get_payload();

         std::shared_ptr<route_domain> rd =
           route_domain::find(payload.route.table_id);

         if (!rd) {
           continue;
         }

         prefix_t pfx = from_api(payload.route.prefix);
         ip_route ip_r(*rd, pfx);

         for (unsigned int i = 0; i < payload.route.n_paths; i++) {
           ip_r.add(from_api(payload.route.paths[i]));
         }

         VOM_LOG(log_level_t::DEBUG) << "ip-route-dump: " << ip_r.to_string();

         /*
          * Write each of the discovered interfaces into the OM,
          * but disable the HW Command q whilst we do, so that no
          * commands are sent to VPP
          */
         OM::commit(key, ip_r);
       }
     }
     ++it;
   }
 }

 dependency_t
 ip_route::event_handler::order() const
 {
   return (dependency_t::TABLE);
 }

 void
 ip_route::event_handler::show(std::ostream& os)
 {
   db_dump(m_db, os);
 }

 ip_mroute::ip_mroute(const mprefix_t& mprefix)
   : m_hw(false)
   , m_rd(route_domain::get_default())
   , m_mprefix(mprefix)
   , m_paths()
 {
 }

 ip_mroute::ip_mroute(const ip_mroute& r)
   : m_hw(r.m_hw)
   , m_rd(r.m_rd)
   , m_mprefix(r.m_mprefix)
   , m_paths(r.m_paths)
 {
 }

 ip_mroute::ip_mroute(const route_domain& rd, const mprefix_t& mprefix)
   : m_hw(false)
   , m_rd(rd.singular())
   , m_mprefix(mprefix)
   , m_paths()
 {
 }

 void
 ip_mroute::add(const path& path, const itf_flags_t& flag)
 {
   m_paths.insert(std::make_pair(path, flag));
 }

 ip_mroute::~ip_mroute()
 {
   sweep();
   m_db.release(key(), this);
 }

 const ip_mroute::key_t
 ip_mroute::key() const
 {
   return (std::make_pair(m_rd->table_id(), m_mprefix));
 }

 bool
 ip_mroute::operator==(const ip_mroute& i) const
 {
   return ((key() == i.key()) && (m_paths == i.m_paths));
 }

 void
 ip_mroute::sweep()
 {
   if (m_hw) {
     for (auto& p : m_paths)
       HW::enqueue(new ip_mroute_cmds::delete_cmd(m_hw, m_rd->table_id(),
                                                  m_mprefix, p.first, p.second));
   }
   HW::write();
 }

 void
 ip_mroute::replay()
 {
   if (m_hw) {
     for (auto& p : m_paths)
       HW::enqueue(new ip_mroute_cmds::update_cmd(m_hw, m_rd->table_id(),
                                                  m_mprefix, p.first, p.second));
   }
 }
 std::string
 ip_mroute::to_string() const
 {
   std::ostringstream s;
   s << "route:[" << m_rd->to_string() << ", " << m_mprefix.to_string() << " ["
     << m_paths << "]"
     << "]";

   return (s.str());
 }

 void
 ip_mroute::update(const ip_mroute& r)
 {
   if (rc_t::OK != m_hw.rc()) {
     for (auto& p : m_paths)
       HW::enqueue(new ip_mroute_cmds::update_cmd(m_hw, m_rd->table_id(),
                                                  m_mprefix, p.first, p.second));
   }
 }

 std::shared_ptr<ip_mroute>
 ip_mroute::find_or_add(const ip_mroute& temp)
 {
   return (m_db.find_or_add(temp.key(), temp));
 }

 std::shared_ptr<ip_mroute>
 ip_mroute::find(const key_t& k)
 {
   return (m_db.find(k));
 }

 std::shared_ptr<ip_mroute>
 ip_mroute::singular() const
 {
   return find_or_add(*this);
 }

 void
 ip_mroute::dump(std::ostream& os)
 {
   db_dump(m_db, os);
 }

 ip_mroute::event_handler::event_handler()
 {
   OM::register_listener(this);
   inspect::register_handler({ "ip-mroute" },
                             "ip multicast route configurations", this);
 }

 void
 ip_mroute::event_handler::handle_replay()
 {
   m_db.replay();
 }

 void
 ip_mroute::event_handler::handle_populate(const client_db::key_t& key)
 {
   // for each known route-domain
   auto it = route_domain::cbegin();

   while (it != route_domain::cend()) {

     std::vector<l3_proto_t> l3s = { l3_proto_t::IPV4, l3_proto_t::IPV4 };

     for (auto l3 : l3s) {
       std::shared_ptr<ip_mroute_cmds::dump_cmd> cmd =
         std::make_shared<ip_mroute_cmds::dump_cmd>(
           it->second.lock()->table_id(), l3);

       HW::enqueue(cmd);
       HW::write();

       VOM_LOG(log_level_t::DEBUG) << "ip-mroute-dump: ";

       for (auto& record : *cmd) {
         auto& payload = record.get_payload();

         std::shared_ptr<route_domain> rd =
           route_domain::find(payload.route.table_id);

         if (!rd) {
           continue;
         }

         mprefix_t pfx = from_api(payload.route.prefix);
         ip_mroute ip_r(*rd, pfx);

         for (unsigned int i = 0; i < payload.route.n_paths; i++) {
           ip_r.add(from_api(payload.route.paths[i].path),
                    from_api(payload.route.paths[i].itf_flags));
         }

         VOM_LOG(log_level_t::DEBUG) << "ip-mroute-dump: " << ip_r.to_string();

         /*
          * Write each of the discovered interfaces into the OM,
          * but disable the HW Command q whilst we do, so that no
          * commands are sent to VPP
          */
         OM::commit(key, ip_r);
       }
     }
     ++it;
   }
 }

 dependency_t
 ip_mroute::event_handler::order() const
 {
   return (dependency_t::TABLE);
 }

 void
 ip_mroute::event_handler::show(std::ostream& os)
 {
   db_dump(m_db, os);
 }

 std::ostream&
 operator<<(std::ostream& os, const ip_route::key_t& key)
 {
   os << "[" << key.first << ", " << key.second.to_string() << "]";

   return (os);
 }

 std::ostream&
 operator<<(std::ostream& os, const ip_mroute::key_t& key)
 {
   os << "[" << key.first << ", " << key.second.to_string() << "]";

   return (os);
 }

 std::ostream&
 operator<<(std::ostream& os, const path_list_t& key)
 {
   os << "[";
   for (auto k : key) {
     os << k.to_string() << " ";
   }
   os << "]";

   return (os);
 }

 std::ostream&
 operator<<(std::ostream& os, const mpath_list_t& key)
 {
   os << "[";
   for (auto k : key) {
     os << "[" << k.first.to_string() << ", " << k.second.to_string() << "]";
   }
   os << "]";

   return (os);
 }

 }; // namespace route
 }; // namespace VOM

 /*
  * fd.io coding-style-patch-verification: OFF
  *
  * Local Variables:
  * eval: (c-set-style "mozilla")
  * End:
  */
	/*
	* 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.
	*/

	#include "vom/route.hpp"
	#include "vom/api_types.hpp"
	#include "vom/mroute_cmds.hpp"
	#include "vom/route_api_types.hpp"
	#include "vom/route_cmds.hpp"
	#include "vom/singular_db_funcs.hpp"

	namespace VOM {
	namespace route {
	ip_route::event_handler ip_route::m_evh;
	ip_mroute::event_handler ip_mroute::m_evh;
	singular_db<ip_route::key_t, ip_route> ip_route::m_db;
	singular_db<ip_mroute::key_t, ip_mroute> ip_mroute::m_db;

	const path::special_t path::special_t::STANDARD(0, "standard");
	const path::special_t path::special_t::LOCAL(1, "local");
	const path::special_t path::special_t::DROP(2, "standard");
	const path::special_t path::special_t::UNREACH(3, "unreachable");
	const path::special_t path::special_t::PROHIBIT(4, "prohibit");

	path::special_t::special_t(int v, const std::string& s)
	: enum_base<path::special_t>(v, s)
	{
	}

	const path::flags_t path::flags_t::NONE(0, "none");
	const path::flags_t path::flags_t::DVR((1 << 0), "dvr");

	path::flags_t::flags_t(int v, const std::string& s)
	: enum_base<path::flags_t>(v, s)
	{
	}

	const itf_flags_t itf_flags_t::NONE(0, "none");
	const itf_flags_t itf_flags_t::ACCEPT((1 << 1), "accept");
	const itf_flags_t itf_flags_t::FORWARD((1 << 2), "forward");

	itf_flags_t::itf_flags_t(int v, const std::string& s)
	: enum_base<itf_flags_t>(v, s)
	{
	}

	path::path(special_t special, const nh_proto_t& proto)
	: m_type(special)
	, m_nh_proto(proto)
	, m_flags(flags_t::NONE)
	, m_nh()
	, m_rd(nullptr)
	, m_interface(nullptr)
	, m_weight(1)
	, m_preference(0)
	{
	}

	path::path(const boost::asio::ip::address& nh,
	const interface& interface,
	uint8_t weight,
	uint8_t preference)
	: m_type(special_t::STANDARD)
	, m_nh_proto(nh_proto_t::from_address(nh))
	, m_flags(flags_t::NONE)
	, m_nh(nh)
	, m_rd(nullptr)
	, m_interface(interface.singular())
	, m_weight(weight)
	, m_preference(preference)
	{
	}

	path::path(const route_domain& rd,
	const boost::asio::ip::address& nh,
	uint8_t weight,
	uint8_t preference)
	: m_type(special_t::STANDARD)
	, m_nh_proto(nh_proto_t::from_address(nh))
	, m_flags(flags_t::NONE)
	, m_nh(nh)
	, m_rd(rd.singular())
	, m_interface(nullptr)
	, m_weight(weight)
	, m_preference(preference)
	{
	}

	path::path(const interface& interface,
	const nh_proto_t& proto,
	const flags_t& flags,
	uint8_t weight,
	uint8_t preference)
	: m_type(special_t::STANDARD)
	, m_nh_proto(proto)
	, m_flags(flags)
	, m_nh()
	, m_rd(nullptr)
	, m_interface(interface.singular())
	, m_weight(weight)
	, m_preference(preference)
	{
	}

	path::path(const path& p)
	: m_type(p.m_type)
	, m_nh_proto(p.m_nh_proto)
	, m_flags(p.m_flags)
	, m_nh(p.m_nh)
	, m_rd(p.m_rd)
	, m_interface(p.m_interface)
	, m_weight(p.m_weight)
	, m_preference(p.m_preference)
	{
	}

	bool
	path::operator<(const path& p) const
	{
	if (m_nh_proto < p.m_nh_proto)
	return true;
	if (m_flags < p.m_flags)
	return true;
	if (m_type < p.m_type)
	return true;
	if (m_rd && !p.m_rd)
	return false;
	if (!m_rd && p.m_rd)
	return true;
	if (m_rd && p.m_rd) {
	if (m_rd->table_id() < p.m_rd->table_id())
	return true;
	else if (m_rd->table_id() > p.m_rd->table_id())
	return false;
	}
	if (m_nh < p.m_nh)
	return true;
	if (m_interface && !p.m_interface)
	return false;
	if (!m_interface && p.m_interface)
	return true;
	if (m_interface && p.m_interface) {
	if (m_interface->handle() < p.m_interface->handle())
	return true;
	if (p.m_interface->handle() < m_interface->handle())
	return false;
	}

	return (false);
	}

	path::~path()
	{
	}

	bool
	path::operator==(const path& p) const
	{
	bool result = true;
	if (m_rd && !p.m_rd)
	return false;
	if (!m_rd && p.m_rd)
	return false;
	if (m_rd && p.m_rd)
	result &= (m_rd == p.m_rd);
	if (m_interface && !p.m_interface)
	return false;
	if (!m_interface && p.m_interface)
	return false;
	if (m_interface && p.m_interface)
	result &= (m_interface == p.m_interface);
	return (result && (m_type == p.m_type) && (m_nh == p.m_nh) &&
	(m_nh_proto == p.m_nh_proto) && (m_flags == p.m_flags));
	}

	std::string
	path::to_string() const
	{
	std::ostringstream s;

	s << "path:["
	<< "type:" << m_type.to_string() << " proto:" << m_nh_proto.to_string()
	<< " flags:" << m_flags.to_string() << " neighbour:" << m_nh.to_string();
	if (m_rd) {
	s << " " << m_rd->to_string();
	}
	if (m_interface) {
	s << " " << m_interface->to_string();
	}
	s << " weight:" << static_cast<int>(m_weight)
	<< " preference:" << static_cast<int>(m_preference) << "]";

	return (s.str());
	}

	path::special_t
	path::type() const
	{
	return m_type;
	}

	nh_proto_t
	path::nh_proto() const
	{
	return m_nh_proto;
	}

	path::flags_t
	path::flags() const
	{
	return m_flags;
	}

	const boost::asio::ip::address&
	path::nh() const
	{
	return m_nh;
	}

	std::shared_ptr<route_domain>
	path::rd() const
	{
	return m_rd;
	}

	std::shared_ptr<interface>
	path::itf() const
	{
	return m_interface;
	}

	uint8_t
	path::weight() const
	{
	return m_weight;
	}

	uint8_t
	path::preference() const
	{
	return m_preference;
	}

	ip_route::ip_route(const prefix_t& prefix, const path& p)
	: m_hw(false)
	, m_rd(route_domain::get_default())
	, m_prefix(prefix)
	, m_paths({ p })
	{
	}

	ip_route::ip_route(const prefix_t& prefix)
	: m_hw(false)
	, m_rd(route_domain::get_default())
	, m_prefix(prefix)
	, m_paths()
	{
	}

	ip_route::ip_route(const ip_route& r)
	: m_hw(r.m_hw)
	, m_rd(r.m_rd)
	, m_prefix(r.m_prefix)
	, m_paths(r.m_paths)
	{
	}

	ip_route::ip_route(const route_domain& rd, const prefix_t& prefix)
	: m_hw(false)
	, m_rd(rd.singular())
	, m_prefix(prefix)
	, m_paths()
	{
	}

	ip_route::ip_route(const route_domain& rd,
	const prefix_t& prefix,
	const path& p)
	: m_hw(false)
	, m_rd(rd.singular())
	, m_prefix(prefix)
	, m_paths({ p })
	{
	}

	ip_route::~ip_route()
	{
	sweep();

	// not in the DB anymore.
	m_db.release(key(), this);
	m_paths.clear();
	}

	const ip_route::key_t
	ip_route::key() const
	{
	return (std::make_pair(m_rd->table_id(), m_prefix));
	}

	bool
	ip_route::operator==(const ip_route& i) const
	{
	return ((key() == i.key()) && (m_paths == i.m_paths));
	}

	void
	ip_route::add(const path& path)
	{
	m_paths.insert(path);
	}

	void
	ip_route::remove(const path& path)
	{
	m_paths.erase(path);
	}

	void
	ip_route::sweep()
	{
	if (m_hw) {
	HW::enqueue(
	new ip_route_cmds::delete_cmd(m_hw, m_rd->table_id(), m_prefix));
	}
	HW::write();
	}

	void
	ip_route::replay()
	{
	if (m_hw) {
	HW::enqueue(
	new ip_route_cmds::update_cmd(m_hw, m_rd->table_id(), m_prefix, m_paths));
	}
	}
	std::string
	ip_route::to_string() const
	{
	std::ostringstream s;
	s << "route:[" << m_rd->to_string() << ", " << m_prefix.to_string() << " ["
	<< m_paths << "]"
	<< "]";

	return (s.str());
	}

	void
	ip_route::update(const ip_route& r)
	{
	m_paths = r.m_paths;
	HW::enqueue(
	new ip_route_cmds::update_cmd(m_hw, m_rd->table_id(), m_prefix, m_paths));
	}

	std::shared_ptr<ip_route>
	ip_route::find_or_add(const ip_route& temp)
	{
	return (m_db.find_or_add(temp.key(), temp));
	}

	std::shared_ptr<ip_route>
	ip_route::find(const key_t& k)
	{
	return (m_db.find(k));
	}

	std::shared_ptr<ip_route>
	ip_route::singular() const
	{
	return find_or_add(*this);
	}

	void
	ip_route::dump(std::ostream& os)
	{
	db_dump(m_db, os);
	}

	ip_route::event_handler::event_handler()
	{
	OM::register_listener(this);
	inspect::register_handler({ "ip-route" }, "ip route configurations", this);
	}

	void
	ip_route::event_handler::handle_replay()
	{
	m_db.replay();
	}

	void
	ip_route::event_handler::handle_populate(const client_db::key_t& key)
	{
	// for each known route-domain
	auto it = route_domain::cbegin();

	while (it != route_domain::cend()) {

	std::vector<l3_proto_t> l3s = { l3_proto_t::IPV4, l3_proto_t::IPV4 };

	for (auto l3 : l3s) {
	std::shared_ptr<ip_route_cmds::dump_cmd> cmd =
	std::make_shared<ip_route_cmds::dump_cmd>(it->second.lock()->table_id(),
	l3);

	HW::enqueue(cmd);
	HW::write();

	for (auto& record : *cmd) {
	auto& payload = record.get_payload();

	std::shared_ptr<route_domain> rd =
	route_domain::find(payload.route.table_id);

	if (!rd) {
	continue;
	}

	prefix_t pfx = from_api(payload.route.prefix);
	ip_route ip_r(*rd, pfx);

	for (unsigned int i = 0; i < payload.route.n_paths; i++) {
	ip_r.add(from_api(payload.route.paths[i]));
	}

	VOM_LOG(log_level_t::DEBUG) << "ip-route-dump: " << ip_r.to_string();

	/*
	* Write each of the discovered interfaces into the OM,
	* but disable the HW Command q whilst we do, so that no
	* commands are sent to VPP
	*/
	OM::commit(key, ip_r);
	}
	}
	++it;
	}
	}

	dependency_t
	ip_route::event_handler::order() const
	{
	return (dependency_t::TABLE);
	}

	void
	ip_route::event_handler::show(std::ostream& os)
	{
	db_dump(m_db, os);
	}

	ip_mroute::ip_mroute(const mprefix_t& mprefix)
	: m_hw(false)
	, m_rd(route_domain::get_default())
	, m_mprefix(mprefix)
	, m_paths()
	{
	}

	ip_mroute::ip_mroute(const ip_mroute& r)
	: m_hw(r.m_hw)
	, m_rd(r.m_rd)
	, m_mprefix(r.m_mprefix)
	, m_paths(r.m_paths)
	{
	}

	ip_mroute::ip_mroute(const route_domain& rd, const mprefix_t& mprefix)
	: m_hw(false)
	, m_rd(rd.singular())
	, m_mprefix(mprefix)
	, m_paths()
	{
	}

	void
	ip_mroute::add(const path& path, const itf_flags_t& flag)
	{
	m_paths.insert(std::make_pair(path, flag));
	}

	ip_mroute::~ip_mroute()
	{
	sweep();
	m_db.release(key(), this);
	}

	const ip_mroute::key_t
	ip_mroute::key() const
	{
	return (std::make_pair(m_rd->table_id(), m_mprefix));
	}

	bool
	ip_mroute::operator==(const ip_mroute& i) const
	{
	return ((key() == i.key()) && (m_paths == i.m_paths));
	}

	void
	ip_mroute::sweep()
	{
	if (m_hw) {
	for (auto& p : m_paths)
	HW::enqueue(new ip_mroute_cmds::delete_cmd(m_hw, m_rd->table_id(),
	m_mprefix, p.first, p.second));
	}
	HW::write();
	}

	void
	ip_mroute::replay()
	{
	if (m_hw) {
	for (auto& p : m_paths)
	HW::enqueue(new ip_mroute_cmds::update_cmd(m_hw, m_rd->table_id(),
	m_mprefix, p.first, p.second));
	}
	}
	std::string
	ip_mroute::to_string() const
	{
	std::ostringstream s;
	s << "route:[" << m_rd->to_string() << ", " << m_mprefix.to_string() << " ["
	<< m_paths << "]"
	<< "]";

	return (s.str());
	}

	void
	ip_mroute::update(const ip_mroute& r)
	{
	if (rc_t::OK != m_hw.rc()) {
	for (auto& p : m_paths)
	HW::enqueue(new ip_mroute_cmds::update_cmd(m_hw, m_rd->table_id(),
	m_mprefix, p.first, p.second));
	}
	}

	std::shared_ptr<ip_mroute>
	ip_mroute::find_or_add(const ip_mroute& temp)
	{
	return (m_db.find_or_add(temp.key(), temp));
	}

	std::shared_ptr<ip_mroute>
	ip_mroute::find(const key_t& k)
	{
	return (m_db.find(k));
	}

	std::shared_ptr<ip_mroute>
	ip_mroute::singular() const
	{
	return find_or_add(*this);
	}

	void
	ip_mroute::dump(std::ostream& os)
	{
	db_dump(m_db, os);
	}

	ip_mroute::event_handler::event_handler()
	{
	OM::register_listener(this);
	inspect::register_handler({ "ip-mroute" },
	"ip multicast route configurations", this);
	}

	void
	ip_mroute::event_handler::handle_replay()
	{
	m_db.replay();
	}

	void
	ip_mroute::event_handler::handle_populate(const client_db::key_t& key)
	{
	// for each known route-domain
	auto it = route_domain::cbegin();

	while (it != route_domain::cend()) {

	std::vector<l3_proto_t> l3s = { l3_proto_t::IPV4, l3_proto_t::IPV4 };

	for (auto l3 : l3s) {
	std::shared_ptr<ip_mroute_cmds::dump_cmd> cmd =
	std::make_shared<ip_mroute_cmds::dump_cmd>(
	it->second.lock()->table_id(), l3);

	HW::enqueue(cmd);
	HW::write();

	VOM_LOG(log_level_t::DEBUG) << "ip-mroute-dump: ";

	for (auto& record : *cmd) {
	auto& payload = record.get_payload();

	std::shared_ptr<route_domain> rd =
	route_domain::find(payload.route.table_id);

	if (!rd) {
	continue;
	}

	mprefix_t pfx = from_api(payload.route.prefix);
	ip_mroute ip_r(*rd, pfx);

	for (unsigned int i = 0; i < payload.route.n_paths; i++) {
	ip_r.add(from_api(payload.route.paths[i].path),
	from_api(payload.route.paths[i].itf_flags));
	}

	VOM_LOG(log_level_t::DEBUG) << "ip-mroute-dump: " << ip_r.to_string();

	/*
	* Write each of the discovered interfaces into the OM,
	* but disable the HW Command q whilst we do, so that no
	* commands are sent to VPP
	*/
	OM::commit(key, ip_r);
	}
	}
	++it;
	}
	}

	dependency_t
	ip_mroute::event_handler::order() const
	{
	return (dependency_t::TABLE);
	}

	void
	ip_mroute::event_handler::show(std::ostream& os)
	{
	db_dump(m_db, os);
	}

	std::ostream&
	operator<<(std::ostream& os, const ip_route::key_t& key)
	{
	os << "[" << key.first << ", " << key.second.to_string() << "]";

	return (os);
	}

	std::ostream&
	operator<<(std::ostream& os, const ip_mroute::key_t& key)
	{
	os << "[" << key.first << ", " << key.second.to_string() << "]";

	return (os);
	}

	std::ostream&
	operator<<(std::ostream& os, const path_list_t& key)
	{
	os << "[";
	for (auto k : key) {
	os << k.to_string() << " ";
	}
	os << "]";

	return (os);
	}

	std::ostream&
	operator<<(std::ostream& os, const mpath_list_t& key)
	{
	os << "[";
	for (auto k : key) {
	os << "[" << k.first.to_string() << ", " << k.second.to_string() << "]";
	}
	os << "]";

	return (os);
	}

	}; // namespace route
	}; // namespace VOM

	/*
	* fd.io coding-style-patch-verification: OFF
	*
	* Local Variables:
	* eval: (c-set-style "mozilla")
	* End:
	*/