premiere-libtorrent/src/ut_pex.cpp

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/*
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Copyright (c) 2006-2015, MassaRoddel, Arvid Norberg
All rights reserved.
Redistribution and use in source and binary forms, with or without
modification, are permitted provided that the following conditions
are met:
* Redistributions of source code must retain the above copyright
notice, this list of conditions and the following disclaimer.
* Redistributions in binary form must reproduce the above copyright
notice, this list of conditions and the following disclaimer in
the documentation and/or other materials provided with the distribution.
* Neither the name of the author nor the names of its
contributors may be used to endorse or promote products derived
from this software without specific prior written permission.
THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE
LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
POSSIBILITY OF SUCH DAMAGE.
*/
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#include "libtorrent/config.hpp"
#include "libtorrent/peer_connection.hpp"
#include "libtorrent/bt_peer_connection.hpp"
#include "libtorrent/peer_connection_handle.hpp"
#include "libtorrent/bencode.hpp"
#include "libtorrent/torrent.hpp"
#include "libtorrent/extensions.hpp"
#include "libtorrent/broadcast_socket.hpp"
#include "libtorrent/socket_io.hpp"
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#include "libtorrent/peer_info.hpp"
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#include "libtorrent/random.hpp"
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#include "libtorrent/socket_type.hpp" // for is_utp
#include "libtorrent/performance_counters.hpp" // for counters
#include "libtorrent/extensions/ut_pex.hpp"
#ifndef TORRENT_DISABLE_LOGGING
#include "libtorrent/lazy_entry.hpp"
#endif
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#ifndef TORRENT_DISABLE_EXTENSIONS
#include "libtorrent/aux_/disable_warnings_push.hpp"
#include <boost/shared_ptr.hpp>
#include "libtorrent/aux_/disable_warnings_pop.hpp"
namespace libtorrent { namespace
{
const char extension_name[] = "ut_pex";
enum
{
extension_index = 1,
max_peer_entries = 100
};
bool send_peer(peer_connection const& p)
{
// don't send out those peers that we haven't connected to
// (that have connected to us) and that aren't sharing their
// listening port
if (!p.is_outgoing() && !p.received_listen_port()) return false;
// don't send out peers that we haven't successfully connected to
if (p.is_connecting()) return false;
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if (p.in_handshake()) return false;
return true;
}
struct ut_pex_plugin: torrent_plugin
{
// randomize when we rebuild the pex message
// to evenly spread it out across all torrents
// the more torrents we have, the longer we can
// delay the rebuilding
ut_pex_plugin(torrent& t)
: m_torrent(t)
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, m_last_msg(min_time())
, m_peers_in_message(0) {}
virtual boost::shared_ptr<peer_plugin> new_connection(peer_connection_handle const& pc);
std::vector<char>& get_ut_pex_msg()
{
return m_ut_pex_msg;
}
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int peers_in_msg() const
{
return m_peers_in_message;
}
// the second tick of the torrent
// each minute the new lists of "added" + "added.f" and "dropped"
// are calculated here and the pex message is created
// each peer connection will use this message
// max_peer_entries limits the packet size
virtual void tick()
{
time_point now = aux::time_now();
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if (now - seconds(60) < m_last_msg) return;
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m_last_msg = now;
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int num_peers = m_torrent.num_peers();
if (num_peers == 0) return;
entry pex;
std::string& pla = pex["added"].string();
std::string& pld = pex["dropped"].string();
std::string& plf = pex["added.f"].string();
std::back_insert_iterator<std::string> pla_out(pla);
std::back_insert_iterator<std::string> pld_out(pld);
std::back_insert_iterator<std::string> plf_out(plf);
#if TORRENT_USE_IPV6
std::string& pla6 = pex["added6"].string();
std::string& pld6 = pex["dropped6"].string();
std::string& plf6 = pex["added6.f"].string();
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std::back_insert_iterator<std::string> pla6_out(pla6);
std::back_insert_iterator<std::string> pld6_out(pld6);
std::back_insert_iterator<std::string> plf6_out(plf6);
#endif
std::set<tcp::endpoint> dropped;
m_old_peers.swap(dropped);
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m_peers_in_message = 0;
int num_added = 0;
for (torrent::peer_iterator i = m_torrent.begin()
, end(m_torrent.end()); i != end; ++i)
{
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peer_connection* peer = *i;
if (!send_peer(*peer)) continue;
tcp::endpoint remote = peer->remote();
m_old_peers.insert(remote);
std::set<tcp::endpoint>::iterator di = dropped.find(remote);
if (di == dropped.end())
{
// don't write too big of a package
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if (num_added >= max_peer_entries) break;
// only send proper bittorrent peers
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if (peer->type() != peer_connection::bittorrent_connection)
continue;
bt_peer_connection* p = static_cast<bt_peer_connection*>(peer);
// if the peer has told us which port its listening on,
// use that port. But only if we didn't connect to the peer.
// if we connected to it, use the port we know works
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torrent_peer *pi = 0;
if (!p->is_outgoing() && (pi = peer->peer_info_struct()) && pi->port > 0)
remote.port(pi->port);
// no supported flags to set yet
// 0x01 - peer supports encryption
// 0x02 - peer is a seed
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// 0x04 - supports uTP. This is only a positive flags
// passing 0 doesn't mean the peer doesn't
// support uTP
// 0x08 - supports holepunching protocol. If this
// flag is received from a peer, it can be
// used as a rendezvous point in case direct
// connections to the peer fail
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int flags = p->is_seed() ? 2 : 0;
#if !defined(TORRENT_DISABLE_ENCRYPTION) && !defined(TORRENT_DISABLE_EXTENSIONS)
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flags |= p->supports_encryption() ? 1 : 0;
#endif
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flags |= is_utp(*p->get_socket()) ? 4 : 0;
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flags |= p->supports_holepunch() ? 8 : 0;
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// i->first was added since the last time
if (remote.address().is_v4())
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{
detail::write_endpoint(remote, pla_out);
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detail::write_uint8(flags, plf_out);
}
#if TORRENT_USE_IPV6
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else
{
detail::write_endpoint(remote, pla6_out);
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detail::write_uint8(flags, plf6_out);
}
#endif
++num_added;
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++m_peers_in_message;
}
else
{
// this was in the previous message
// so, it wasn't dropped
dropped.erase(di);
}
}
for (std::set<tcp::endpoint>::const_iterator i = dropped.begin()
, end(dropped.end()); i != end; ++i)
{
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if (i->address().is_v4())
detail::write_endpoint(*i, pld_out);
#if TORRENT_USE_IPV6
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else
detail::write_endpoint(*i, pld6_out);
#endif
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++m_peers_in_message;
}
m_ut_pex_msg.clear();
bencode(std::back_inserter(m_ut_pex_msg), pex);
}
private:
torrent& m_torrent;
std::set<tcp::endpoint> m_old_peers;
time_point m_last_msg;
std::vector<char> m_ut_pex_msg;
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int m_peers_in_message;
};
struct ut_pex_peer_plugin : peer_plugin
{
ut_pex_peer_plugin(torrent& t, peer_connection& pc, ut_pex_plugin& tp)
: m_torrent(t)
, m_pc(pc)
, m_tp(tp)
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, m_last_msg(min_time())
, m_message_index(0)
, m_first_time(true)
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{
const int num_pex_timers = sizeof(m_last_pex)/sizeof(m_last_pex[0]);
for (int i = 0; i < num_pex_timers; ++i)
{
m_last_pex[i]= min_time();
}
}
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virtual char const* type() const { return "ut_pex"; }
virtual void add_handshake(entry& h)
{
entry& messages = h["m"];
messages[extension_name] = extension_index;
}
virtual bool on_extension_handshake(bdecode_node const& h)
{
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m_message_index = 0;
if (h.type() != bdecode_node::dict_t) return false;
bdecode_node messages = h.dict_find_dict("m");
if (!messages) return false;
int index = int(messages.dict_find_int_value(extension_name, -1));
if (index == -1) return false;
m_message_index = index;
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return true;
}
virtual bool on_extended(int length, int msg, buffer::const_interval body)
{
if (msg != extension_index) return false;
if (m_message_index == 0) return false;
if (length > 500 * 1024)
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{
m_pc.disconnect(errors::pex_message_too_large, op_bittorrent, 2);
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return true;
}
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if (body.left() < length) return true;
time_point now = aux::time_now();
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if (now - seconds(60) < m_last_pex[0])
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{
// this client appears to be trying to flood us
// with pex messages. Don't allow that.
m_pc.disconnect(errors::too_frequent_pex, op_bittorrent);
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return true;
}
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const int num_pex_timers = sizeof(m_last_pex)/sizeof(m_last_pex[0]);
for (int i = 0; i < num_pex_timers-1; ++i)
m_last_pex[i] = m_last_pex[i+1];
m_last_pex[num_pex_timers-1] = now;
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bdecode_node pex_msg;
error_code ec;
int ret = bdecode(body.begin, body.end, pex_msg, ec);
if (ret != 0 || pex_msg.type() != bdecode_node::dict_t)
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{
m_pc.disconnect(errors::invalid_pex_message, op_bittorrent, 2);
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return true;
}
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bdecode_node p = pex_msg.dict_find_string("dropped");
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#ifndef TORRENT_DISABLE_LOGGING
int num_dropped = 0;
int num_added = 0;
if (p) num_dropped += p.string_length()/6;
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#endif
if (p)
{
int num_peers = p.string_length() / 6;
char const* in = p.string_ptr();
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for (int i = 0; i < num_peers; ++i)
{
tcp::endpoint adr = detail::read_v4_endpoint<tcp::endpoint>(in);
peers4_t::value_type v(adr.address().to_v4().to_bytes(), adr.port());
peers4_t::iterator j = std::lower_bound(m_peers.begin(), m_peers.end(), v);
if (j != m_peers.end() && *j == v) m_peers.erase(j);
}
}
p = pex_msg.dict_find_string("added");
bdecode_node pf = pex_msg.dict_find_string("added.f");
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#ifndef TORRENT_DISABLE_LOGGING
if (p) num_added += p.string_length() / 6;
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#endif
if (p && pf && pf.string_length() == p.string_length() / 6)
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{
int num_peers = pf.string_length();
char const* in = p.string_ptr();
char const* fin = pf.string_ptr();
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for (int i = 0; i < num_peers; ++i)
{
tcp::endpoint adr = detail::read_v4_endpoint<tcp::endpoint>(in);
char flags = *fin++;
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if (int(m_peers.size()) >= m_torrent.settings().get_int(settings_pack::max_pex_peers))
break;
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// ignore local addresses unless the peer is local to us
if (is_local(adr.address()) && !is_local(m_pc.remote().address())) continue;
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peers4_t::value_type v(adr.address().to_v4().to_bytes(), adr.port());
peers4_t::iterator j = std::lower_bound(m_peers.begin(), m_peers.end(), v);
// do we already know about this peer?
if (j != m_peers.end() && *j == v) continue;
m_peers.insert(j, v);
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m_torrent.add_peer(adr, peer_info::pex, flags);
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}
}
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#if TORRENT_USE_IPV6
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bdecode_node p6 = pex_msg.dict_find("dropped6");
#ifndef TORRENT_DISABLE_LOGGING
if (p6) num_dropped += p6.string_length() / 18;
#endif
if (p6 != 0 && p6.type() == bdecode_node::string_t)
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{
int num_peers = p6.string_length() / 18;
char const* in = p6.string_ptr();
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for (int i = 0; i < num_peers; ++i)
{
tcp::endpoint adr = detail::read_v6_endpoint<tcp::endpoint>(in);
peers6_t::value_type v(adr.address().to_v6().to_bytes(), adr.port());
peers6_t::iterator j = std::lower_bound(m_peers6.begin(), m_peers6.end(), v);
if (j != m_peers6.end() && *j == v) m_peers6.erase(j);
}
}
p6 = pex_msg.dict_find("added6");
#ifndef TORRENT_DISABLE_LOGGING
if (p6) num_added += p6.string_length() / 18;
#endif
bdecode_node p6f = pex_msg.dict_find("added6.f");
if (p6 != 0
&& p6f != 0
&& p6.type() == bdecode_node::string_t
&& p6f.type() == bdecode_node::string_t
&& p6f.string_length() == p6.string_length() / 18)
{
int num_peers = p6f.string_length();
char const* in = p6.string_ptr();
char const* fin = p6f.string_ptr();
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for (int i = 0; i < num_peers; ++i)
{
tcp::endpoint adr = detail::read_v6_endpoint<tcp::endpoint>(in);
char flags = *fin++;
// ignore local addresses unless the peer is local to us
if (is_local(adr.address()) && !is_local(m_pc.remote().address())) continue;
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if (int(m_peers6.size()) >= m_torrent.settings().get_int(settings_pack::max_pex_peers))
break;
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peers6_t::value_type v(adr.address().to_v6().to_bytes(), adr.port());
peers6_t::iterator j = std::lower_bound(m_peers6.begin(), m_peers6.end(), v);
// do we already know about this peer?
if (j != m_peers6.end() && *j == v) continue;
m_peers6.insert(j, v);
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m_torrent.add_peer(adr, peer_info::pex, flags);
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}
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}
#endif
#ifndef TORRENT_DISABLE_LOGGING
m_pc.peer_log(peer_log_alert::incoming_message, "PEX", "dropped: %d added: %d"
, num_dropped, num_added);
#endif
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m_pc.stats_counters().inc_stats_counter(counters::num_incoming_pex);
return true;
}
// the peers second tick
// every minute we send a pex message
virtual void tick()
{
// no handshake yet
if (!m_message_index) return;
time_point now = aux::time_now();
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if (now - seconds(60) < m_last_msg)
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{
#ifndef TORRENT_DISABLE_LOGGING
m_pc.peer_log(peer_log_alert::info, "PEX", "waiting: %d seconds to next msg"
, int(total_seconds(seconds(60) - (now - m_last_msg))));
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#endif
return;
}
static time_point global_last = min_time();
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int num_peers = m_torrent.num_peers();
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if (num_peers <= 1) return;
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// don't send pex messages more often than 1 every 100 ms, and
// allow pex messages to be sent 5 seconds apart if there isn't
// contention
int delay = (std::min)((std::max)(60000 / num_peers, 100), 3000);
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if (now - milliseconds(delay) < global_last)
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{
#ifndef TORRENT_DISABLE_LOGGING
m_pc.peer_log(peer_log_alert::info, "PEX", "global-wait: %d"
, int(total_seconds(milliseconds(delay) - (now - global_last))));
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#endif
return;
}
// this will allow us to catch up, even if our timer
// has lower resolution than delay
if (global_last == min_time())
global_last = now;
else
global_last += milliseconds(delay);
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m_last_msg = now;
if (m_first_time)
{
send_ut_peer_list();
m_first_time = false;
}
else
{
send_ut_peer_diff();
}
}
void send_ut_peer_diff()
{
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// if there's no change in out peer set, don't send anything
if (m_tp.peers_in_msg() == 0) return;
std::vector<char> const& pex_msg = m_tp.get_ut_pex_msg();
char msg[6];
char* ptr = msg;
detail::write_uint32(1 + 1 + pex_msg.size(), ptr);
detail::write_uint8(bt_peer_connection::msg_extended, ptr);
detail::write_uint8(m_message_index, ptr);
m_pc.send_buffer(msg, sizeof(msg));
m_pc.send_buffer(&pex_msg[0], pex_msg.size());
m_pc.stats_counters().inc_stats_counter(counters::num_outgoing_extended);
m_pc.stats_counters().inc_stats_counter(counters::num_outgoing_pex);
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#ifndef TORRENT_DISABLE_LOGGING
bdecode_node m;
error_code ec;
int ret = bdecode(&pex_msg[0], &pex_msg[0] + pex_msg.size(), m, ec);
TORRENT_ASSERT(ret == 0);
TORRENT_ASSERT(!ec);
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TORRENT_UNUSED(ret);
int num_dropped = 0;
int num_added = 0;
bdecode_node e = m.dict_find_string("added");
if (e) num_added += e.string_length() / 6;
e = m.dict_find_string("dropped");
if (e) num_dropped += e.string_length() / 6;
e = m.dict_find_string("added6");
if (e) num_added += e.string_length() / 18;
e = m.dict_find_string("dropped6");
if (e) num_dropped += e.string_length() / 18;
m_pc.peer_log(peer_log_alert::outgoing_message, "PEX_DIFF", "dropped: %d added: %d msg_size: %d"
, num_dropped, num_added, int(pex_msg.size()));
#endif
}
void send_ut_peer_list()
{
entry pex;
// leave the dropped string empty
pex["dropped"].string();
std::string& pla = pex["added"].string();
std::string& plf = pex["added.f"].string();
std::back_insert_iterator<std::string> pla_out(pla);
std::back_insert_iterator<std::string> plf_out(plf);
#if TORRENT_USE_IPV6
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pex["dropped6"].string();
std::string& pla6 = pex["added6"].string();
std::string& plf6 = pex["added6.f"].string();
std::back_insert_iterator<std::string> pla6_out(pla6);
std::back_insert_iterator<std::string> plf6_out(plf6);
#endif
int num_added = 0;
for (torrent::peer_iterator i = m_torrent.begin()
, end(m_torrent.end()); i != end; ++i)
{
peer_connection* peer = *i;
if (!send_peer(*peer)) continue;
// don't write too big of a package
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if (num_added >= max_peer_entries) break;
// only send proper bittorrent peers
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if (peer->type() != peer_connection::bittorrent_connection)
continue;
bt_peer_connection* p = static_cast<bt_peer_connection*>(peer);
// no supported flags to set yet
// 0x01 - peer supports encryption
// 0x02 - peer is a seed
// 0x04 - supports uTP. This is only a positive flags
// passing 0 doesn't mean the peer doesn't
// support uTP
// 0x08 - supports holepunching protocol. If this
// flag is received from a peer, it can be
// used as a rendezvous point in case direct
// connections to the peer fail
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int flags = p->is_seed() ? 2 : 0;
#if !defined(TORRENT_DISABLE_ENCRYPTION) && !defined(TORRENT_DISABLE_EXTENSIONS)
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flags |= p->supports_encryption() ? 1 : 0;
#endif
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flags |= is_utp(*p->get_socket()) ? 4 : 0;
flags |= p->supports_holepunch() ? 8 : 0;
tcp::endpoint remote = peer->remote();
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torrent_peer *pi = 0;
if (!p->is_outgoing() && (pi = peer->peer_info_struct()) && pi->port > 0)
remote.port(pi->port);
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// i->first was added since the last time
if (remote.address().is_v4())
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{
detail::write_endpoint(remote, pla_out);
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detail::write_uint8(flags, plf_out);
}
#if TORRENT_USE_IPV6
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else
{
detail::write_endpoint(remote, pla6_out);
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detail::write_uint8(flags, plf6_out);
}
#endif
++num_added;
}
std::vector<char> pex_msg;
bencode(std::back_inserter(pex_msg), pex);
char msg[6];
char* ptr = msg;
detail::write_uint32(1 + 1 + pex_msg.size(), ptr);
detail::write_uint8(bt_peer_connection::msg_extended, ptr);
detail::write_uint8(m_message_index, ptr);
m_pc.send_buffer(msg, sizeof(msg));
m_pc.send_buffer(&pex_msg[0], pex_msg.size());
m_pc.stats_counters().inc_stats_counter(counters::num_outgoing_extended);
m_pc.stats_counters().inc_stats_counter(counters::num_outgoing_pex);
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#ifndef TORRENT_DISABLE_LOGGING
m_pc.peer_log(peer_log_alert::outgoing_message, "PEX_FULL"
, "added: %d msg_size: %d", num_added, int(pex_msg.size()));
#endif
}
torrent& m_torrent;
peer_connection& m_pc;
ut_pex_plugin& m_tp;
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// stores all peers this this peer is connected to. These lists
// are updated with each pex message and are limited in size
// to protect against malicious clients. These lists are also
// used for looking up which peer a peer that supports holepunch
// came from.
// these are vectors to save memory and keep the items close
// together for performance. Inserting and removing is relatively
// cheap since the lists' size is limited
typedef std::vector<std::pair<address_v4::bytes_type, boost::uint16_t> > peers4_t;
peers4_t m_peers;
#if TORRENT_USE_IPV6
typedef std::vector<std::pair<address_v6::bytes_type, boost::uint16_t> > peers6_t;
peers6_t m_peers6;
#endif
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// the last pex messages we received
// [0] is the oldest one. There is a problem with
// rate limited connections, because we may sit
// for a long time, accumulating pex messages, and
// then once we read from the socket it will look like
// we received them all back to back. That's why
// we look at 6 pex messages back.
time_point m_last_pex[6];
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time_point m_last_msg;
int m_message_index;
// this is initialized to true, and set to
// false after the first pex message has been sent.
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// it is used to know if a diff message or a) ful
// message should be sent.
bool m_first_time;
};
boost::shared_ptr<peer_plugin> ut_pex_plugin::new_connection(peer_connection_handle const& pc)
{
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if (pc.type() != peer_connection::bittorrent_connection)
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return boost::shared_ptr<peer_plugin>();
return boost::shared_ptr<peer_plugin>(new ut_pex_peer_plugin(m_torrent
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, *pc.native_handle(), *this));
}
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} }
namespace libtorrent
{
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boost::shared_ptr<torrent_plugin> create_ut_pex_plugin(torrent_handle th, void*)
{
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torrent* t = th.native_handle().get();
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if (t->torrent_file().priv() || (t->torrent_file().is_i2p()
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&& !t->settings().get_bool(settings_pack::allow_i2p_mixed)))
{
return boost::shared_ptr<torrent_plugin>();
}
return boost::shared_ptr<torrent_plugin>(new ut_pex_plugin(*t));
}
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bool was_introduced_by(peer_plugin const* pp, tcp::endpoint const& ep)
{
ut_pex_peer_plugin* p = (ut_pex_peer_plugin*)pp;
#if TORRENT_USE_IPV6
if (ep.address().is_v4())
{
#endif
ut_pex_peer_plugin::peers4_t::value_type v(ep.address().to_v4().to_bytes(), ep.port());
ut_pex_peer_plugin::peers4_t::const_iterator i
= std::lower_bound(p->m_peers.begin(), p->m_peers.end(), v);
return i != p->m_peers.end() && *i == v;
#if TORRENT_USE_IPV6
}
else
{
ut_pex_peer_plugin::peers6_t::value_type v(ep.address().to_v6().to_bytes(), ep.port());
ut_pex_peer_plugin::peers6_t::iterator i
= std::lower_bound(p->m_peers6.begin(), p->m_peers6.end(), v);
return i != p->m_peers6.end() && *i == v;
}
#endif
}
}
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#endif