562 lines
16 KiB
C++
Executable File
562 lines
16 KiB
C++
Executable File
/*
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Copyright (c) 2003, Arvid Norberg
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All rights reserved.
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Redistribution and use in source and binary forms, with or without
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modification, are permitted provided that the following conditions
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are met:
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* Redistributions of source code must retain the above copyright
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notice, this list of conditions and the following disclaimer.
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* Redistributions in binary form must reproduce the above copyright
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notice, this list of conditions and the following disclaimer in
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the documentation and/or other materials provided with the distribution.
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* Neither the name of the author nor the names of its
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contributors may be used to endorse or promote products derived
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from this software without specific prior written permission.
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THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
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AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
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IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
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ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE
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LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
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CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
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SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
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INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
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CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
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ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
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POSSIBILITY OF SUCH DAMAGE.
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*/
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#ifndef TORRENT_PEER_CONNECTION_HPP_INCLUDED
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#define TORRENT_PEER_CONNECTION_HPP_INCLUDED
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#include <ctime>
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#include <algorithm>
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#include <vector>
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#include <deque>
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#include <string>
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#ifdef _MSC_VER
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#pragma warning(push, 1)
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#endif
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#include <boost/smart_ptr.hpp>
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#include <boost/noncopyable.hpp>
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#include <boost/array.hpp>
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#include <boost/date_time/posix_time/posix_time.hpp>
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#include <boost/optional.hpp>
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#include <boost/cstdint.hpp>
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#ifdef _MSC_VER
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#pragma warning(pop)
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#endif
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#include "libtorrent/socket.hpp"
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#include "libtorrent/peer_id.hpp"
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#include "libtorrent/storage.hpp"
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#include "libtorrent/piece_picker.hpp"
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#include "libtorrent/stat.hpp"
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#include "libtorrent/debug.hpp"
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#include "libtorrent/alert.hpp"
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#include "libtorrent/torrent_handle.hpp"
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#include "libtorrent/torrent.hpp"
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// TODO: each time a block is 'taken over'
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// from another peer. That peer must be given
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// a chance to request another block instead.
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// Where it also could become not-interested.
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namespace libtorrent
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{
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class torrent;
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namespace detail
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{
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struct session_impl;
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}
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struct protocol_error: std::runtime_error
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{
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protocol_error(const std::string& msg): std::runtime_error(msg) {};
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};
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struct peer_request
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{
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int piece;
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int start;
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int length;
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bool operator==(const peer_request& r)
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{ return piece == r.piece && start == r.start && length == r.length; }
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};
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struct piece_block_progress
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{
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// the piece and block index
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// determines exactly which
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// part of the torrent that
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// is currently being downloaded
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int piece_index;
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int block_index;
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// the number of bytes we have received
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// of this block
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int bytes_downloaded;
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// the number of bytes in the block
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int full_block_bytes;
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};
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class peer_connection: public boost::noncopyable
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{
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friend class invariant_access;
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public:
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// this is the constructor where the we are teh active part. The peer_conenction
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// should handshake and verify that the other end has the correct id
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peer_connection(
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detail::session_impl& ses
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, selector& sel
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, torrent* t
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, boost::shared_ptr<libtorrent::socket> s);
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// with this constructor we have been contacted and we still don't know which torrent the
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// connection belongs to
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peer_connection(
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detail::session_impl& ses
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, selector& sel
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, boost::shared_ptr<libtorrent::socket> s);
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~peer_connection();
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// this adds an announcement in the announcement queue
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// it will let the peer know that we have the given piece
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void announce_piece(int index)
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{
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assert(index >= 0 && index < m_torrent->torrent_file().num_pieces());
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m_announce_queue.push_back(index);
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}
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// called from the main loop when this connection has any
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// work to do.
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void send_data();
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void receive_data();
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// tells if this connection has data it want to send
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bool has_data() const;
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bool is_seed() const;
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bool has_timed_out()
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{
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boost::posix_time::time_duration d;
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d = boost::posix_time::second_clock::local_time() - m_last_receive;
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return d.seconds() > m_timeout;
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}
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// will send a keep-alive message to the peer
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void keep_alive();
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const peer_id& id() const { return m_peer_id; }
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bool has_piece(int i) const
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{
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assert(i >= 0);
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assert(i < m_torrent->torrent_file().num_pieces());
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return m_have_piece[i];
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}
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const std::deque<piece_block>& download_queue() const
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{ return m_download_queue; }
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const std::deque<peer_request>& upload_queue() const
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{ return m_requests; }
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// returns the block currently being
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// downloaded. And the progress of that
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// block. If the peer isn't downloading
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// a piece for the moment, the boost::optional
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// will be invalid.
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boost::optional<piece_block_progress> downloading_piece() const;
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bool is_interesting() const { return m_interesting; }
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bool is_choked() const { return m_choked; }
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bool is_peer_interested() const { return m_peer_interested; }
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bool has_peer_choked() const { return m_peer_choked; }
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// returns the torrent this connection is a part of
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// may be zero if the connection is an incoming connection
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// and it hasn't received enough information to determine
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// which torrent it should be associated with
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torrent* associated_torrent() const { return m_attached_to_torrent?m_torrent:0; }
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bool verify_piece(const peer_request& p) const;
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const stat& statistics() const { return m_statistics; }
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// is called once every second by the main loop
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void second_tick();
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boost::shared_ptr<libtorrent::socket> get_socket() const { return m_socket; }
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const peer_id& get_peer_id() const { return m_peer_id; }
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const std::vector<bool>& get_bitfield() const { return m_have_piece; }
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// this will cause this peer_connection to be disconnected.
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// what it does is that it puts a reference to it in
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// m_ses.m_disconnect_peer list, which will be scanned in the
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// mainloop to disconnect peers.
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void disconnect();
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bool is_disconnecting() const
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{ return m_disconnecting; }
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// sets the number of bytes this peer
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// is allowed to send until it should
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// stop sending. When it stops sending
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// it will simply wait for another call
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// to second_tick() where it will get
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// more send quota.
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void set_send_quota(int num_bytes);
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// returns the send quota this peer has
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// left until will stop sending.
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// if the send_quota is -1, it means the
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// quota is unlimited.
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int send_quota_left() const { return m_send_quota_left; }
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size_type total_free_upload() const
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{ return m_free_upload; }
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void add_free_upload(size_type free_upload)
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{ m_free_upload += free_upload; }
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// returns the send quota assigned to this
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// peer.
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int send_quota() const { return m_send_quota; }
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void received_valid_data()
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{
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m_trust_points++;
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if (m_trust_points > 20) m_trust_points = 20;
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}
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void received_invalid_data()
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{
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m_trust_points--;
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if (m_trust_points < -5) m_trust_points = -5;
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}
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int trust_points() const
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{ return m_trust_points; }
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int send_quota_limit() const
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{ return m_send_quota_limit; }
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size_type share_diff() const;
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bool support_extensions() const
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{ return m_supports_extensions; }
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const boost::posix_time::time_duration& last_piece_time() const
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{ return m_last_piece_time; }
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// a connection is local if it was initiated by us.
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// if it was an incoming connection, it is remote
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bool is_local() const
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{ return m_active; }
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#ifndef NDEBUG
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boost::shared_ptr<logger> m_logger;
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#endif
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// the message handlers are called
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// each time a recv() returns some new
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// data, the last time it will be called
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// is when the entire packet has been
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// received, then it will no longer
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// be called. i.e. most handlers need
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// to check how much of the packet they
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// have received before any processing
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void on_choke(int received);
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void on_unchoke(int received);
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void on_interested(int received);
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void on_not_interested(int received);
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void on_have(int received);
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void on_bitfield(int received);
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void on_request(int received);
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void on_piece(int received);
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void on_cancel(int received);
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void on_extension_list(int received);
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void on_extended(int received);
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typedef void (peer_connection::*message_handler)(int received);
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// the following functions appends messages
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// to the send buffer
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void send_choke();
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void send_unchoke();
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void send_interested();
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void send_not_interested();
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void send_request(piece_block block);
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void send_cancel(piece_block block);
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void send_bitfield();
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void send_have(int index);
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void send_handshake();
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void send_extensions();
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void send_chat_message(const std::string& msg);
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private:
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void check_invariant() const;
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bool dispatch_message(int received);
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void send_buffer_updated();
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// is used during handshake
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enum state
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{
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read_protocol_length = 0,
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read_protocol_string,
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read_info_hash,
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read_peer_id,
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read_packet_size,
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read_packet
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};
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state m_state;
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// the timeout in seconds
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int m_timeout;
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enum message_type
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{
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// standard messages
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msg_choke = 0,
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msg_unchoke,
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msg_interested,
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msg_not_interested,
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msg_have,
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msg_bitfield,
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msg_request,
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msg_piece,
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msg_cancel,
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// extension protocol message
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msg_extension_list = 20,
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msg_extended,
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num_supported_messages
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};
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const static message_handler m_message_handler[num_supported_messages];
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int m_packet_size;
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int m_recv_pos;
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std::vector<char> m_recv_buffer;
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// this is the buffer where data that is
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// to be sent is stored until it gets
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// consumed by send()
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std::vector<char> m_send_buffer;
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// this is a queue of ranges that describes
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// where in the send buffer actual payload
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// data is located. This is currently
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// only used to be able to gather statistics
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// seperately on payload and protocol data.
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struct range
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{
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range(int s, int l)
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: start(s)
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, length(l)
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{
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assert(s >= 0);
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assert(l > 0);
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}
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int start;
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int length;
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};
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static bool range_below_zero(const range& r)
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{ return r.start < 0; }
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std::deque<range> m_payloads;
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// timeouts
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boost::posix_time::ptime m_last_receive;
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boost::posix_time::ptime m_last_sent;
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// the selector is used to add and remove this
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// peer's socket from the writability monitor list.
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selector& m_selector;
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boost::shared_ptr<libtorrent::socket> m_socket;
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// this is the torrent this connection is
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// associated with. If the connection is an
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// incoming conncetion, this is set to zero
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// until the info_hash is received. Then it's
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// set to the torrent it belongs to.
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torrent* m_torrent;
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// this is set to false until the peer_id
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// is received from the other end. Or it is
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// true from the start if the conenction
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// was actively opened from our side.
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bool m_attached_to_torrent;
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// a back reference to the session
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// the peer belongs to.
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detail::session_impl& m_ses;
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// is true if it was we that connected to the peer
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// and false if we got an incomming connection
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// could be considered: true = local, false = remote
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bool m_active;
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// this is true as long as this peer's
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// socket is added to the selector to
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// monitor writability. Each time we do
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// something that generates data to be
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// sent to this peer, we check this and
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// if it's not added to the selector we
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// add it. (this is done in send_buffer_updated())
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bool m_added_to_selector;
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// remote peer's id
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peer_id m_peer_id;
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// other side says that it's interested in downloading
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// from us.
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bool m_peer_interested;
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// the other side has told us that it won't send anymore
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// data to us for a while
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bool m_peer_choked;
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// the peer has pieces we are interested in
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bool m_interesting;
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// we have choked the upload to the peer
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bool m_choked;
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// this is set to true if the handshake from
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// the peer indicated that it supports the
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// extension protocol
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bool m_supports_extensions;
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// the pieces the other end have
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std::vector<bool> m_have_piece;
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// the queue of requests we have got
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// from this peer
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std::deque<peer_request> m_requests;
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// a list of pieces that have become available
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// and should be announced as available to
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// the peer
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std::vector<int> m_announce_queue;
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// the queue of blocks we have requested
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// from this peer
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std::deque<piece_block> m_download_queue;
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// statistics about upload and download speeds
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// and total amount of uploads and downloads for
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// this peer
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stat m_statistics;
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// the amount of data this peer has been given
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// as free upload. This is distributed from
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// peers from which we get free download
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// this will be negative on a peer from which
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// we get free download, and positive on peers
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// that we give the free upload, to keep the balance.
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size_type m_free_upload;
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// this is used to limit upload bandwidth.
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// it is reset to the allowed number of
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// bytes to send frequently. Every time
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// thie peer send some data,
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// m_send_quota_left variable will be decreased
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// so it can limit the number of bytes next
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// time it sends data. when it reaches zero
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// the client will stop send data and await
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// more quota. if it is set to -1, the peer
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// will ignore the qouta and send at maximum
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// speed
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int m_send_quota;
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int m_send_quota_left;
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// this is the maximum send quota we should give
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// this peer given the current download rate
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// and the current share ratio with this peer.
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// this limit will maintain a 1:1 share ratio.
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// -1 means no limit
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int m_send_quota_limit;
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// for every valid piece we receive where this
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// peer was one of the participants, we increase
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// this value. For every invalid piece we receive
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// where this peer was a participant, we decrease
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// this value. If it sinks below a threshold, its
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// considered a bad peer and will be banned.
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int m_trust_points;
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enum extension_index
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{
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extended_chat_message,
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num_supported_extensions
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};
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static const char* extension_names[num_supported_extensions];
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int m_extension_messages[num_supported_extensions];
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// the number of invalid piece-requests
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// we have got from this peer. If the request
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// queue gets empty, and there have been
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// invalid requests, we can assume the
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// peer is waiting for those pieces.
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// we can then clear its download queue
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// by sending choke, unchoke.
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int m_num_invalid_requests;
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// the time at which we started to get the last piece
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// message from this peer
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boost::posix_time::ptime m_last_piece;
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// the time it took for the peer to send the piece
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// message
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boost::posix_time::time_duration m_last_piece_time;
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bool m_disconnecting;
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};
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// this is called each time this peer generates some
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// data to be sent. It will add this socket to
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// the writibility monitor in the selector.
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inline void peer_connection::send_buffer_updated()
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{
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if (!has_data())
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{
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if (m_added_to_selector)
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{
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m_selector.remove_writable(m_socket);
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m_added_to_selector = false;
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}
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assert(!m_selector.is_writability_monitored(m_socket));
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return;
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}
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assert(m_send_quota_left > 0 || m_send_quota_left == -1);
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assert(has_data());
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if (!m_added_to_selector)
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{
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m_selector.monitor_writability(m_socket);
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m_added_to_selector = true;
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}
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assert(m_added_to_selector);
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assert(m_selector.is_writability_monitored(m_socket));
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}
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}
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#endif // TORRENT_PEER_CONNECTION_HPP_INCLUDED
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