premiere-libtorrent/include/libtorrent/ip_voter.hpp

/*

Copyright (c) 2013-2018, Arvid Norberg
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*/

#ifndef TORRENT_IP_VOTER_HPP_INCLUDED
#define TORRENT_IP_VOTER_HPP_INCLUDED

#include <vector>
#include "libtorrent/address.hpp"
#include "libtorrent/bloom_filter.hpp"
#include "libtorrent/time.hpp" // for time_point
#include "libtorrent/aux_/session_interface.hpp" // for ip_source_t

namespace libtorrent {

	// this is an object that keeps the state for a single external IP
	// based on peoples votes
	struct TORRENT_EXTRA_EXPORT ip_voter
	{
		ip_voter();

		// returns true if a different IP is the top vote now
		// i.e. we changed our idea of what our external IP is
		bool cast_vote(address const& ip, aux::ip_source_t source_type, address const& source);

		address external_address() const { return m_external_address; }

	private:

		bool maybe_rotate();

		struct external_ip_t
		{
			bool add_vote(sha1_hash const& k, aux::ip_source_t type);

			// we want to sort descending
			bool operator<(external_ip_t const& rhs) const
			{
				if (num_votes > rhs.num_votes) return true;
				if (num_votes < rhs.num_votes) return false;
				return static_cast<std::uint8_t>(sources) > static_cast<std::uint8_t>(rhs.sources);
			}

			// this is a bloom filter of the IPs that have
			// reported this address
			bloom_filter<16> voters;
			// this is the actual external address
			address addr;
			// a bitmask of sources the reporters have come from
			aux::ip_source_t sources{};
			// the total number of votes for this IP
			std::uint16_t num_votes = 0;
		};

		// this is a bloom filter of all the IPs that have
		// been the first to report an external address. Each
		// IP only gets to add a new item once.
		bloom_filter<32> m_external_address_voters;

		std::vector<external_ip_t> m_external_addresses;
		address m_external_address;

		// the total number of unique IPs that have voted
		int m_total_votes;

		// this is true from the first time we rotate. Before
		// we rotate for the first time, we keep updating the
		// external address as we go, since we don't have any
		// stable setting to fall back on. Once this is true,
		// we stop updating it on the fly, and just use the
		// address from when we rotated.
		bool m_valid_external;

		// the last time we rotated this ip_voter. i.e. threw
		// away all the votes and started from scratch, in case
		// our IP has changed
		time_point m_last_rotate;
	};

	// stores one address for each combination of local/global and ipv4/ipv6
	// use of this class should be avoided, get the IP from the appropriate
	// listen interface wherever possible
	struct TORRENT_EXTRA_EXPORT external_ip
	{
		external_ip()
			: m_addresses{{address_v4(), address_v6()}, {address_v4(), address_v6()}}
		{}

		external_ip(address const& local4, address const& global4
			, address const& local6, address const& global6);

		// the external IP as it would be observed from `ip`
		address external_address(address const& ip) const;

	private:

		// support one local and one global address per address family
		// [0][n] = global [1][n] = local
		// [n][0] = IPv4 [n][1] = IPv6
		// TODO: 1 have one instance per possible subnet, 192.168.x.x, 10.x.x.x, etc.
		address m_addresses[2][2];
	};

}

#endif