premiere-libtorrent/src/session_impl.cpp

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/*
Copyright (c) 2006-2016, Arvid Norberg, Magnus Jonsson
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 <ctime>
#include <algorithm>
#include <cctype>
#include <algorithm>
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#include <cstdio> // for snprintf
#include <cinttypes> // for PRId64 et.al.
#include <functional>
#if TORRENT_USE_INVARIANT_CHECKS
#include <unordered_set>
#endif
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#include "libtorrent/aux_/disable_warnings_push.hpp"
#include <boost/limits.hpp>
#include <boost/function_equal.hpp>
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#include <boost/make_shared.hpp>
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#include <boost/asio/ip/v6_only.hpp>
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#if TORRENT_USE_RLIMIT
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#include <sys/resource.h>
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// capture this here where warnings are disabled (the macro generates warnings)
const rlim_t rlim_infinity = RLIM_INFINITY;
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#endif // TORRENT_USE_RLIMIT
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#include "libtorrent/aux_/disable_warnings_pop.hpp"
#include "libtorrent/aux_/openssl.hpp"
#include "libtorrent/peer_id.hpp"
#include "libtorrent/torrent_info.hpp"
#include "libtorrent/tracker_manager.hpp"
#include "libtorrent/bencode.hpp"
#include "libtorrent/hasher.hpp"
#include "libtorrent/entry.hpp"
#include "libtorrent/session.hpp"
#include "libtorrent/fingerprint.hpp"
#include "libtorrent/entry.hpp"
#include "libtorrent/alert_types.hpp"
#include "libtorrent/invariant_check.hpp"
#include "libtorrent/file.hpp"
#include "libtorrent/bt_peer_connection.hpp"
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#include "libtorrent/peer_connection_handle.hpp"
#include "libtorrent/ip_filter.hpp"
#include "libtorrent/socket.hpp"
#include "libtorrent/session_stats.hpp"
#include "libtorrent/aux_/session_impl.hpp"
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#ifndef TORRENT_DISABLE_DHT
#include "libtorrent/kademlia/dht_tracker.hpp"
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#endif
#include "libtorrent/enum_net.hpp"
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#include "libtorrent/config.hpp"
#include "libtorrent/utf8.hpp"
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#include "libtorrent/upnp.hpp"
#include "libtorrent/natpmp.hpp"
#include "libtorrent/lsd.hpp"
#include "libtorrent/instantiate_connection.hpp"
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#include "libtorrent/peer_info.hpp"
#include "libtorrent/build_config.hpp"
#include "libtorrent/extensions.hpp"
#include "libtorrent/random.hpp"
#include "libtorrent/magnet_uri.hpp"
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#include "libtorrent/aux_/session_settings.hpp"
#include "libtorrent/torrent_peer.hpp"
#include "libtorrent/torrent_handle.hpp"
#include "libtorrent/choker.hpp"
#include "libtorrent/error.hpp"
#include "libtorrent/platform_util.hpp"
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#include "libtorrent/aux_/bind_to_device.hpp"
#include "libtorrent/hex.hpp" // to_hex, from_hex
#ifndef TORRENT_DISABLE_LOGGING
#include "libtorrent/socket_io.hpp"
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// for logging stat layout
#include "libtorrent/stat.hpp"
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// for logging the size of DHT structures
#ifndef TORRENT_DISABLE_DHT
#include <libtorrent/kademlia/find_data.hpp>
#include <libtorrent/kademlia/refresh.hpp>
#include <libtorrent/kademlia/node.hpp>
#include <libtorrent/kademlia/observer.hpp>
#include <libtorrent/kademlia/item.hpp>
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#endif // TORRENT_DISABLE_DHT
#include "libtorrent/http_tracker_connection.hpp"
#include "libtorrent/udp_tracker_connection.hpp"
#endif // TORRENT_DISABLE_LOGGING
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#ifdef TORRENT_USE_LIBGCRYPT
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extern "C" {
GCRY_THREAD_OPTION_PTHREAD_IMPL;
}
namespace
{
// libgcrypt requires this to initialize the library
struct gcrypt_setup
{
gcrypt_setup()
{
gcry_check_version(0);
gcry_error_t e = gcry_control(GCRYCTL_SET_THREAD_CBS, &gcry_threads_pthread);
if (e != 0) std::fprintf(stderr, "libcrypt ERROR: %s\n", gcry_strerror(e));
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e = gcry_control(GCRYCTL_INITIALIZATION_FINISHED, 0);
if (e != 0) std::fprintf(stderr, "initialization finished error: %s\n", gcry_strerror(e));
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}
} gcrypt_global_constructor;
}
#endif // TORRENT_USE_LIBGCRYPT
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#ifdef TORRENT_USE_OPENSSL
#include <openssl/crypto.h>
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#include <openssl/rand.h>
namespace
{
// openssl requires this to clean up internal
// structures it allocates
struct openssl_cleanup
{
~openssl_cleanup() { CRYPTO_cleanup_all_ex_data(); }
} openssl_global_destructor;
}
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#endif // TORRENT_USE_OPENSSL
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#ifdef TORRENT_WINDOWS
// for ERROR_SEM_TIMEOUT
#include <winerror.h>
#endif
using boost::shared_ptr;
using boost::weak_ptr;
using libtorrent::aux::session_impl;
using namespace std::placeholders;
#ifdef BOOST_NO_EXCEPTIONS
namespace boost {
void throw_exception(std::exception const& e) { ::abort(); }
}
#endif
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namespace libtorrent {
#if defined TORRENT_ASIO_DEBUGGING
std::map<std::string, async_t> _async_ops;
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std::deque<wakeup_t> _wakeups;
int _async_ops_nthreads = 0;
std::mutex _async_ops_mutex;
#endif
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namespace aux {
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void session_impl::init_peer_class_filter(bool unlimited_local)
{
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// set the default peer_class_filter to use the local peer class
// for peers on local networks
std::uint32_t lfilter = 1 << m_local_peer_class;
std::uint32_t gfilter = 1 << m_global_class;
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struct class_mapping
{
char const* first;
char const* last;
std::uint32_t filter;
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};
static const class_mapping v4_classes[] =
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{
// everything
{"0.0.0.0", "255.255.255.255", gfilter},
// local networks
{"10.0.0.0", "10.255.255.255", lfilter},
{"172.16.0.0", "172.16.255.255", lfilter},
{"192.168.0.0", "192.168.255.255", lfilter},
// link-local
{"169.254.0.0", "169.254.255.255", lfilter},
// loop-back
{"127.0.0.0", "127.255.255.255", lfilter},
};
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#if TORRENT_USE_IPV6
static const class_mapping v6_classes[] =
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{
// everything
{"::0", "ffff:ffff:ffff:ffff:ffff:ffff:ffff:ffff", gfilter},
// link-local
{"fe80::", "febf::ffff:ffff:ffff:ffff:ffff:ffff:ffff", lfilter},
// loop-back
{"::1", "::1", lfilter},
};
#endif
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class_mapping const* p = v4_classes;
int len = sizeof(v4_classes) / sizeof(v4_classes[0]);
if (!unlimited_local) len = 1;
for (int i = 0; i < len; ++i)
{
error_code ec;
address_v4 begin = address_v4::from_string(p[i].first, ec);
address_v4 end = address_v4::from_string(p[i].last, ec);
if (ec) continue;
m_peer_class_filter.add_rule(begin, end, p[i].filter);
}
#if TORRENT_USE_IPV6
p = v6_classes;
len = sizeof(v6_classes) / sizeof(v6_classes[0]);
if (!unlimited_local) len = 1;
for (int i = 0; i < len; ++i)
{
error_code ec;
address_v6 begin = address_v6::from_string(p[i].first, ec);
address_v6 end = address_v6::from_string(p[i].last, ec);
if (ec) continue;
m_peer_class_filter.add_rule(begin, end, p[i].filter);
}
#endif
}
#if defined TORRENT_USE_OPENSSL && BOOST_VERSION >= 104700 && OPENSSL_VERSION_NUMBER >= 0x90812f
namespace {
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// when running bittorrent over SSL, the SNI (server name indication)
// extension is used to know which torrent the incoming connection is
// trying to connect to. The 40 first bytes in the name is expected to
// be the hex encoded info-hash
int servername_callback(SSL* s, int* ad, void* arg)
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{
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TORRENT_UNUSED(ad);
session_impl* ses = reinterpret_cast<session_impl*>(arg);
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const char* servername = SSL_get_servername(s, TLSEXT_NAMETYPE_host_name);
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if (!servername || strlen(servername) < 40)
return SSL_TLSEXT_ERR_ALERT_FATAL;
sha1_hash info_hash;
bool valid = from_hex(servername, 40, info_hash.data());
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// the server name is not a valid hex-encoded info-hash
if (!valid)
return SSL_TLSEXT_ERR_ALERT_FATAL;
// see if there is a torrent with this info-hash
boost::shared_ptr<torrent> t = ses->find_torrent(info_hash).lock();
// if there isn't, fail
if (!t) return SSL_TLSEXT_ERR_ALERT_FATAL;
// if the torrent we found isn't an SSL torrent, also fail.
if (!t->is_ssl_torrent()) return SSL_TLSEXT_ERR_ALERT_FATAL;
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// if the torrent doesn't have an SSL context and should not allow
// incoming SSL connections
if (!t->ssl_ctx()) return SSL_TLSEXT_ERR_ALERT_FATAL;
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// use this torrent's certificate
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SSL_CTX *torrent_context = t->ssl_ctx()->native_handle();
SSL_set_SSL_CTX(s, torrent_context);
SSL_set_verify(s, SSL_CTX_get_verify_mode(torrent_context), SSL_CTX_get_verify_callback(torrent_context));
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return SSL_TLSEXT_ERR_OK;
}
} // anonymous namesoace
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#endif
session_impl::session_impl(io_service& ios)
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:
#ifndef TORRENT_DISABLE_POOL_ALLOCATOR
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m_send_buffers(send_buffer_size())
,
#endif
m_io_service(ios)
#ifdef TORRENT_USE_OPENSSL
, m_ssl_ctx(m_io_service, boost::asio::ssl::context::sslv23)
#endif
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, m_alerts(m_settings.get_int(settings_pack::alert_queue_size), alert::all_categories)
#ifndef TORRENT_NO_DEPRECATE
, m_alert_pointer_pos(0)
#endif
, m_disk_thread(m_io_service, m_stats_counters
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, static_cast<uncork_interface*>(this))
, m_download_rate(peer_connection::download_channel)
, m_upload_rate(peer_connection::upload_channel)
, m_global_class(0)
, m_tcp_peer_class(0)
, m_local_peer_class(0)
, m_tracker_manager(
std::bind(&session_impl::send_udp_packet, this, false, _1, _2, _3, _4)
, std::bind(&session_impl::send_udp_packet_hostname, this, _1, _2, _3, _4, _5)
, m_stats_counters
, m_host_resolver
, m_settings
#if !defined TORRENT_DISABLE_LOGGING || TORRENT_USE_ASSERTS
, *this
#endif
)
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, m_work(io_service::work(m_io_service))
, m_max_queue_pos(-1)
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, m_key(0)
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#if TORRENT_USE_I2P
, m_i2p_conn(m_io_service)
#endif
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, m_socks_listen_port(0)
, m_interface_index(0)
, m_unchoke_time_scaler(0)
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, m_auto_manage_time_scaler(0)
, m_optimistic_unchoke_time_scaler(0)
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, m_disconnect_time_scaler(90)
, m_auto_scrape_time_scaler(180)
, m_peak_up_rate(0)
, m_peak_down_rate(0)
, m_created(clock_type::now())
, m_last_tick(m_created)
, m_last_second_tick(m_created - milliseconds(900))
, m_last_choke(m_created)
, m_last_auto_manage(m_created)
, m_next_port(0)
#ifndef TORRENT_DISABLE_DHT
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, m_dht_storage_constructor(dht::dht_default_storage_constructor)
, m_dht_announce_timer(m_io_service)
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, m_dht_interval_update_torrents(0)
, m_outstanding_router_lookups(0)
#endif
, m_utp_socket_manager(
std::bind(&session_impl::send_udp_packet, this, false, _1, _2, _3, _4)
, std::bind(&session_impl::incoming_connection, this, _1)
, m_io_service
, m_settings, m_stats_counters, nullptr)
#ifdef TORRENT_USE_OPENSSL
, m_ssl_utp_socket_manager(
std::bind(&session_impl::send_udp_packet, this, true, _1, _2, _3, _4)
, std::bind(&session_impl::on_incoming_utp_ssl, this, _1)
, m_io_service
, m_settings, m_stats_counters
, &m_ssl_ctx)
#endif
, m_boost_connections(0)
, m_timer(m_io_service)
, m_lsd_announce_timer(m_io_service)
, m_host_resolver(m_io_service)
, m_next_downloading_connect_torrent(0)
, m_next_finished_connect_torrent(0)
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, m_download_connect_attempts(0)
, m_next_scrape_torrent(0)
, m_tick_residual(0)
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, m_deferred_submit_disk_jobs(false)
, m_pending_auto_manage(false)
, m_need_auto_manage(false)
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, m_abort(false)
, m_paused(false)
{
#if TORRENT_USE_ASSERTS
m_posting_torrent_updates = false;
#endif
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update_time_now();
}
// This function is called by the creating thread, not in the message loop's
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// io_service thread.
// TODO: 2 is there a reason not to move all of this into init()? and just
// post it to the io_service?
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void session_impl::start_session(settings_pack const& pack)
{
if (pack.has_val(settings_pack::alert_mask))
{
m_alerts.set_alert_mask(pack.get_int(settings_pack::alert_mask));
}
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#ifndef TORRENT_DISABLE_LOGGING
session_log("start session");
#endif
error_code ec;
#ifdef TORRENT_USE_OPENSSL
m_ssl_ctx.set_verify_mode(boost::asio::ssl::context::verify_none, ec);
#if BOOST_VERSION >= 104700
#if OPENSSL_VERSION_NUMBER >= 0x90812f
aux::openssl_set_tlsext_servername_callback(m_ssl_ctx.native_handle()
, servername_callback);
aux::openssl_set_tlsext_servername_arg(m_ssl_ctx.native_handle(), this);
#endif // OPENSSL_VERSION_NUMBER
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#endif // BOOST_VERSION
#endif
#ifndef TORRENT_DISABLE_DHT
m_next_dht_torrent = m_torrents.begin();
#endif
m_next_lsd_torrent = m_torrents.begin();
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m_global_class = m_classes.new_peer_class("global");
m_tcp_peer_class = m_classes.new_peer_class("tcp");
m_local_peer_class = m_classes.new_peer_class("local");
// local peers are always unchoked
m_classes.at(m_local_peer_class)->ignore_unchoke_slots = true;
// local peers are allowed to exceed the normal connection
// limit by 50%
m_classes.at(m_local_peer_class)->connection_limit_factor = 150;
TORRENT_ASSERT(m_global_class == session::global_peer_class_id);
TORRENT_ASSERT(m_tcp_peer_class == session::tcp_peer_class_id);
TORRENT_ASSERT(m_local_peer_class == session::local_peer_class_id);
init_peer_class_filter(true);
// TCP, SSL/TCP and I2P connections should be assigned the TCP peer class
m_peer_class_type_filter.add(peer_class_type_filter::tcp_socket, m_tcp_peer_class);
m_peer_class_type_filter.add(peer_class_type_filter::ssl_tcp_socket, m_tcp_peer_class);
m_peer_class_type_filter.add(peer_class_type_filter::i2p_socket, m_tcp_peer_class);
// TODO: there's no rule here to make uTP connections not have the global or
// local rate limits apply to it. This used to be the default.
#ifndef TORRENT_DISABLE_LOGGING
session_log("config: %s version: %s revision: %s"
, TORRENT_CFG_STRING
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, LIBTORRENT_VERSION
, LIBTORRENT_REVISION);
#endif // TORRENT_DISABLE_LOGGING
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// ---- auto-cap max connections ----
int max_files = max_open_files();
// deduct some margin for epoll/kqueue, log files,
// futexes, shared objects etc.
// 80% of the available file descriptors should go to connections
m_settings.set_int(settings_pack::connections_limit, (std::min)(
m_settings.get_int(settings_pack::connections_limit)
, (std::max)(5, (max_files - 20) * 8 / 10)));
// 20% goes towards regular files (see disk_io_thread)
#ifndef TORRENT_DISABLE_LOGGING
session_log(" max connections: %d", m_settings.get_int(settings_pack::connections_limit));
session_log(" max files: %d", max_files);
session_log(" generated peer ID: %s", m_peer_id.to_string().c_str());
#endif
boost::shared_ptr<settings_pack> copy = boost::make_shared<settings_pack>(pack);
m_io_service.post(std::bind(&session_impl::init, this, copy));
}
void session_impl::init(boost::shared_ptr<settings_pack> pack)
{
// this is a debug facility
// see single_threaded in debug.hpp
thread_started();
TORRENT_ASSERT(is_single_thread());
#ifndef TORRENT_DISABLE_LOGGING
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// this alert is a bit special. Since it's so verbose it's not only
// filtered by its own alert type (log_alert) but also whether session
// stats alerts are actually enabled. Without session_stats alerts the
// headers aren't very useful anyway
if (m_alerts.should_post<log_alert>()
&& m_alerts.should_post<session_stats_alert>())
{
session_log(" *** session thread init");
// this specific output is parsed by tools/parse_session_stats.py
// if this is changed, that parser should also be changed
std::string stats_header = "session stats header: ";
std::vector<stats_metric> stats = session_stats_metrics();
std::sort(stats.begin(), stats.end()
, [] (stats_metric const& lhs, stats_metric const& rhs)
{ return lhs.value_index < rhs.value_index; });
for (int i = 0; i < stats.size(); ++i)
{
if (i > 0) stats_header += ", ";
stats_header += stats[i].name;
}
m_alerts.emplace_alert<log_alert>(stats_header.c_str());
}
#endif
// this is where we should set up all async operations. This
// is called from within the network thread as opposed to the
// constructor which is called from the main thread
#if defined TORRENT_ASIO_DEBUGGING
async_inc_threads();
add_outstanding_async("session_impl::on_tick");
#endif
error_code ec;
m_io_service.post(std::bind(&session_impl::on_tick, this, ec));
ADD_OUTSTANDING_ASYNC("session_impl::on_lsd_announce");
int delay = (std::max)(m_settings.get_int(settings_pack::local_service_announce_interval)
/ (std::max)(int(m_torrents.size()), 1), 1);
m_lsd_announce_timer.expires_from_now(seconds(delay), ec);
m_lsd_announce_timer.async_wait(
std::bind(&session_impl::on_lsd_announce, this, _1));
TORRENT_ASSERT(!ec);
#ifndef TORRENT_DISABLE_LOGGING
session_log(" done starting session");
#endif
apply_settings_pack_impl(*pack, true);
// call update_* after settings set initialized
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#ifndef TORRENT_NO_DEPRECATE
update_local_download_rate();
update_local_upload_rate();
#endif
update_download_rate();
update_upload_rate();
update_connections_limit();
update_unchoke_limit();
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update_disk_threads();
update_upnp();
update_natpmp();
update_lsd();
update_dht();
update_peer_fingerprint();
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#ifndef TORRENT_DISABLE_DHT
update_dht_announce_interval();
#endif
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}
void session_impl::async_resolve(std::string const& host, int flags
, session_interface::callback_t const& h)
{
m_host_resolver.async_resolve(host, flags, h);
}
void session_impl::save_state(entry* eptr, std::uint32_t flags) const
{
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TORRENT_ASSERT(is_single_thread());
entry& e = *eptr;
// make it a dict
e.dict();
if (flags & session::save_settings)
{
entry::dictionary_type& sett = e["settings"].dict();
save_settings_to_dict(m_settings, sett);
}
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#ifndef TORRENT_DISABLE_DHT
if (flags & session::save_dht_settings)
{
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entry::dictionary_type& dht_sett = e["dht"].dict();
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dht_sett["max_peers_reply"] = m_dht_settings.max_peers_reply;
dht_sett["search_branching"] = m_dht_settings.search_branching;
dht_sett["max_fail_count"] = m_dht_settings.max_fail_count;
dht_sett["max_torrents"] = m_dht_settings.max_torrents;
dht_sett["max_dht_items"] = m_dht_settings.max_dht_items;
dht_sett["max_peers"] = m_dht_settings.max_peers;
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dht_sett["max_torrent_search_reply"] = m_dht_settings.max_torrent_search_reply;
dht_sett["restrict_routing_ips"] = m_dht_settings.restrict_routing_ips;
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dht_sett["restrict_search_ips"] = m_dht_settings.restrict_search_ips;
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dht_sett["extended_routing_table"] = m_dht_settings.extended_routing_table;
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dht_sett["aggressive_lookups"] = m_dht_settings.aggressive_lookups;
dht_sett["privacy_lookups"] = m_dht_settings.privacy_lookups;
dht_sett["enforce_node_id"] = m_dht_settings.enforce_node_id;
dht_sett["ignore_dark_internet"] = m_dht_settings.ignore_dark_internet;
dht_sett["block_timeout"] = m_dht_settings.block_timeout;
dht_sett["block_ratelimit"] = m_dht_settings.block_ratelimit;
dht_sett["read_only"] = m_dht_settings.read_only;
dht_sett["item_lifetime"] = m_dht_settings.item_lifetime;
}
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if (m_dht && (flags & session::save_dht_state))
{
e["dht state"] = m_dht->state();
}
#endif
#ifndef TORRENT_DISABLE_EXTENSIONS
for (auto& ext : m_ses_extensions[plugins_all_idx])
{
TORRENT_TRY {
ext->save_state(*eptr);
} TORRENT_CATCH(std::exception&) {}
}
#endif
}
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proxy_settings session_impl::proxy() const
{
return proxy_settings(m_settings);
}
void session_impl::load_state(bdecode_node const* e
, std::uint32_t const flags = 0xffffffff)
{
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TORRENT_ASSERT(is_single_thread());
bdecode_node settings;
if (e->type() != bdecode_node::dict_t) return;
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#ifndef TORRENT_DISABLE_DHT
bool need_update_dht = false;
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// load from the old settings names
if (flags & session::save_dht_settings)
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{
settings = e->dict_find_dict("dht");
if (settings)
{
bdecode_node val;
val = settings.dict_find_int("max_peers_reply");
if (val) m_dht_settings.max_peers_reply = val.int_value();
val = settings.dict_find_int("search_branching");
if (val) m_dht_settings.search_branching = val.int_value();
val = settings.dict_find_int("max_fail_count");
if (val) m_dht_settings.max_fail_count = val.int_value();
val = settings.dict_find_int("max_torrents");
if (val) m_dht_settings.max_torrents = val.int_value();
val = settings.dict_find_int("max_dht_items");
if (val) m_dht_settings.max_dht_items = val.int_value();
val = settings.dict_find_int("max_peers");
if (val) m_dht_settings.max_peers = val.int_value();
val = settings.dict_find_int("max_torrent_search_reply");
if (val) m_dht_settings.max_torrent_search_reply = val.int_value();
val = settings.dict_find_int("restrict_routing_ips");
if (val) m_dht_settings.restrict_routing_ips = (val.int_value() != 0);
val = settings.dict_find_int("restrict_search_ips");
if (val) m_dht_settings.restrict_search_ips = (val.int_value() != 0);
val = settings.dict_find_int("extended_routing_table");
if (val) m_dht_settings.extended_routing_table = (val.int_value() != 0);
val = settings.dict_find_int("aggressive_lookups");
if (val) m_dht_settings.aggressive_lookups = (val.int_value() != 0);
val = settings.dict_find_int("privacy_lookups");
if (val) m_dht_settings.privacy_lookups = (val.int_value() != 0);
val = settings.dict_find_int("enforce_node_id");
if (val) m_dht_settings.enforce_node_id = (val.int_value() != 0);
val = settings.dict_find_int("ignore_dark_internet");
if (val) m_dht_settings.ignore_dark_internet = (val.int_value() != 0);
val = settings.dict_find_int("block_timeout");
if (val) m_dht_settings.block_timeout = val.int_value();
val = settings.dict_find_int("block_ratelimit");
if (val) m_dht_settings.block_ratelimit = val.int_value();
val = settings.dict_find_int("read_only");
if (val) m_dht_settings.read_only = (val.int_value() != 0);
val = settings.dict_find_int("item_lifetime");
if (val) m_dht_settings.item_lifetime = val.int_value();
}
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}
if (flags & session::save_dht_state)
{
settings = e->dict_find_dict("dht state");
if (settings)
{
m_dht_state = settings;
need_update_dht = true;
}
}
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#endif
#ifndef TORRENT_NO_DEPRECATE
bool need_update_proxy = false;
if (flags & session::save_proxy)
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{
settings = e->dict_find_dict("proxy");
if (settings)
{
bdecode_node val;
val = settings.dict_find_int("port");
if (val) m_settings.set_int(settings_pack::proxy_port, val.int_value());
val = settings.dict_find_int("type");
if (val) m_settings.set_int(settings_pack::proxy_type, val.int_value());
val = settings.dict_find_int("proxy_hostnames");
if (val) m_settings.set_bool(settings_pack::proxy_hostnames, val.int_value() != 0);
val = settings.dict_find_int("proxy_peer_connections");
if (val) m_settings.set_bool(settings_pack::proxy_peer_connections, val.int_value() != 0);
val = settings.dict_find_string("hostname");
if (val) m_settings.set_str(settings_pack::proxy_hostname, val.string_value());
val = settings.dict_find_string("password");
if (val) m_settings.set_str(settings_pack::proxy_password, val.string_value());
val = settings.dict_find_string("username");
if (val) m_settings.set_str(settings_pack::proxy_username, val.string_value());
need_update_proxy = true;
}
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}
settings = e->dict_find_dict("encryption");
if (settings)
{
bdecode_node val;
val = settings.dict_find_int("prefer_rc4");
if (val) m_settings.set_bool(settings_pack::prefer_rc4, val.int_value() != 0);
val = settings.dict_find_int("out_enc_policy");
if (val) m_settings.set_int(settings_pack::out_enc_policy, val.int_value());
val = settings.dict_find_int("in_enc_policy");
if (val) m_settings.set_int(settings_pack::in_enc_policy, val.int_value());
val = settings.dict_find_int("allowed_enc_level");
if (val) m_settings.set_int(settings_pack::allowed_enc_level, val.int_value());
}
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#endif
if (flags & session::save_settings)
{
settings = e->dict_find_dict("settings");
if (settings)
{
// apply_settings_pack will update dht and proxy
boost::shared_ptr<settings_pack> pack = load_pack_from_dict(settings);
apply_settings_pack(pack);
#ifndef TORRENT_DISABLE_DHT
need_update_dht = false;
#endif
#ifndef TORRENT_NO_DEPRECATE
need_update_proxy = false;
#endif
}
}
#ifndef TORRENT_DISABLE_DHT
if (need_update_dht) update_dht();
#endif
#ifndef TORRENT_NO_DEPRECATE
if (need_update_proxy) update_proxy();
#endif
#ifndef TORRENT_DISABLE_EXTENSIONS
for (auto& ext : m_ses_extensions[plugins_all_idx])
{
TORRENT_TRY {
ext->load_state(*e);
} TORRENT_CATCH(std::exception&) {}
}
#endif
}
#ifndef TORRENT_DISABLE_EXTENSIONS
typedef boost::function<boost::shared_ptr<torrent_plugin>(torrent_handle const&, void*)> ext_function_t;
struct session_plugin_wrapper : plugin
{
session_plugin_wrapper(ext_function_t const& f) : m_f(f) {}
2016-07-10 02:10:38 +02:00
boost::shared_ptr<torrent_plugin> new_torrent(torrent_handle const& t, void* user) override
{ return m_f(t, user); }
ext_function_t m_f;
};
void session_impl::add_extension(ext_function_t ext)
{
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TORRENT_ASSERT(is_single_thread());
TORRENT_ASSERT_VAL(ext, ext);
boost::shared_ptr<plugin> p(new session_plugin_wrapper(ext));
add_ses_extension(p);
}
void session_impl::add_ses_extension(boost::shared_ptr<plugin> ext)
{
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TORRENT_ASSERT(is_single_thread());
TORRENT_ASSERT_VAL(ext, ext);
std::uint32_t const features = ext->implemented_features();
m_ses_extensions[plugins_all_idx].push_back(ext);
if (features & plugin::optimistic_unchoke_feature)
m_ses_extensions[plugins_optimistic_unchoke_idx].push_back(ext);
if (features & plugin::tick_feature)
m_ses_extensions[plugins_tick_idx].push_back(ext);
if (features & plugin::dht_request_feature)
m_ses_extensions[plugins_dht_request_idx].push_back(ext);
if (features & plugin::alert_feature)
m_alerts.add_extension(ext);
ext->added(session_handle(this));
}
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#endif // TORRENT_DISABLE_EXTENSIONS
void session_impl::pause()
{
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TORRENT_ASSERT(is_single_thread());
if (m_paused) return;
#ifndef TORRENT_DISABLE_LOGGING
session_log(" *** session paused ***");
#endif
m_paused = true;
for (auto& te : m_torrents)
{
te.second->set_session_paused(true);
}
}
void session_impl::resume()
{
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TORRENT_ASSERT(is_single_thread());
if (!m_paused) return;
m_paused = false;
for (auto& te : m_torrents)
{
te.second->set_session_paused(false);
}
}
void session_impl::abort()
{
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TORRENT_ASSERT(is_single_thread());
if (m_abort) return;
#ifndef TORRENT_DISABLE_LOGGING
session_log(" *** ABORT CALLED ***");
#endif
// this will cancel requests that are not critical for shutting down
// cleanly. i.e. essentially tracker hostname lookups that we're not
// about to send event=stopped to
m_host_resolver.abort();
// abort the main thread
m_abort = true;
error_code ec;
2009-08-20 05:19:12 +02:00
#if TORRENT_USE_I2P
m_i2p_conn.close(ec);
2009-08-20 05:19:12 +02:00
#endif
stop_lsd();
stop_upnp();
stop_natpmp();
#ifndef TORRENT_DISABLE_DHT
stop_dht();
m_dht_announce_timer.cancel(ec);
#endif
m_lsd_announce_timer.cancel(ec);
2013-08-21 17:55:24 +02:00
for (std::set<boost::shared_ptr<socket_type> >::iterator i = m_incoming_sockets.begin()
, end(m_incoming_sockets.end()); i != end; ++i)
{
(*i)->close(ec);
TORRENT_ASSERT(!ec);
2013-08-21 17:55:24 +02:00
}
m_incoming_sockets.clear();
// close the listen sockets
for (std::list<listen_socket_t>::iterator i = m_listen_sockets.begin()
, end(m_listen_sockets.end()); i != end; ++i)
{
if (i->sock)
{
i->sock->close(ec);
TORRENT_ASSERT(!ec);
}
// TODO: 3 closing the udp sockets here means that
// the uTP connections cannot be closed gracefully
if (i->udp_sock)
{
i->udp_sock->close();
}
}
if (m_socks_listen_socket && m_socks_listen_socket->is_open())
{
m_socks_listen_socket->close(ec);
TORRENT_ASSERT(!ec);
}
m_socks_listen_socket.reset();
2012-07-31 18:53:37 +02:00
#if TORRENT_USE_I2P
if (m_i2p_listen_socket && m_i2p_listen_socket->is_open())
{
m_i2p_listen_socket->close(ec);
TORRENT_ASSERT(!ec);
}
m_i2p_listen_socket.reset();
2012-07-31 18:53:37 +02:00
#endif
#ifndef TORRENT_DISABLE_LOGGING
session_log(" aborting all torrents (%d)", int(m_torrents.size()));
#endif
// abort all torrents
for (torrent_map::iterator i = m_torrents.begin()
, end(m_torrents.end()); i != end; ++i)
{
i->second->abort();
}
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m_torrents.clear();
#ifndef TORRENT_DISABLE_LOGGING
session_log(" aborting all tracker requests");
#endif
2007-11-02 01:27:53 +01:00
m_tracker_manager.abort_all_requests();
#ifndef TORRENT_DISABLE_LOGGING
session_log(" aborting all connections (%d)", int(m_connections.size()));
2007-11-02 01:27:53 +01:00
#endif
// abort all connections
while (!m_connections.empty())
{
#if TORRENT_USE_ASSERTS
int conn = int(m_connections.size());
2007-11-02 01:27:53 +01:00
#endif
(*m_connections.begin())->disconnect(errors::stopping_torrent, op_bittorrent);
TORRENT_ASSERT_VAL(conn == int(m_connections.size()) + 1, conn);
2007-11-02 01:27:53 +01:00
}
// we need to give all the sockets an opportunity to actually have their handlers
// called and cancelled before we continue the shutdown. This is a bit
// complicated, if there are no "undead" peers, it's safe tor resume the
// shutdown, but if there are, we have to wait for them to be cleared out
// first. In session_impl::on_tick() we check them periodically. If we're
// shutting down and we remove the last one, we'll initiate
// shutdown_stage2 from there.
if (m_undead_peers.empty())
{
m_io_service.post(std::bind(&session_impl::abort_stage2, this));
}
}
void session_impl::abort_stage2()
{
m_download_rate.close();
m_upload_rate.close();
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// it's OK to detach the threads here. The disk_io_thread
// has an internal counter and won't release the network
// thread until they're all dead (via m_work).
m_disk_thread.abort(false);
// now it's OK for the network thread to exit
m_work.reset();
2014-07-06 21:18:00 +02:00
}
bool session_impl::has_connection(peer_connection* p) const
{
return m_connections.find(p->self()) != m_connections.end();
}
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void session_impl::insert_peer(boost::shared_ptr<peer_connection> const& c)
{
TORRENT_ASSERT(!c->m_in_constructor);
m_connections.insert(c);
}
void session_impl::set_port_filter(port_filter const& f)
{
m_port_filter = f;
2014-07-06 21:18:00 +02:00
if (m_settings.get_bool(settings_pack::no_connect_privileged_ports))
m_port_filter.add_rule(0, 1024, port_filter::blocked);
// Close connections whose endpoint is filtered
// by the new ip-filter
for (torrent_map::iterator i = m_torrents.begin()
, end(m_torrents.end()); i != end; ++i)
i->second->port_filter_updated();
}
void session_impl::set_ip_filter(boost::shared_ptr<ip_filter> const& f)
{
2007-08-21 20:33:28 +02:00
INVARIANT_CHECK;
m_ip_filter = f;
// Close connections whose endpoint is filtered
// by the new ip-filter
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for (torrent_map::iterator i = m_torrents.begin()
, end(m_torrents.end()); i != end; ++i)
i->second->set_ip_filter(m_ip_filter);
}
void session_impl::ban_ip(address addr)
2009-07-21 03:52:37 +02:00
{
TORRENT_ASSERT(is_single_thread());
if (!m_ip_filter) m_ip_filter = boost::make_shared<ip_filter>();
m_ip_filter->add_rule(addr, addr, ip_filter::blocked);
for (torrent_map::iterator i = m_torrents.begin()
, end(m_torrents.end()); i != end; ++i)
i->second->set_ip_filter(m_ip_filter);
}
ip_filter const& session_impl::get_ip_filter()
{
TORRENT_ASSERT(is_single_thread());
return *m_ip_filter;
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}
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port_filter const& session_impl::get_port_filter() const
{
TORRENT_ASSERT(is_single_thread());
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return m_port_filter;
}
namespace
{
template <class Socket>
void set_socket_buffer_size(Socket& s, session_settings const& sett, error_code& ec)
{
int const snd_size = sett.get_int(settings_pack::send_socket_buffer_size);
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if (snd_size)
{
typename Socket::send_buffer_size prev_option;
s.get_option(prev_option, ec);
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if (!ec && prev_option.value() != snd_size)
{
typename Socket::send_buffer_size option(snd_size);
s.set_option(option, ec);
if (ec)
{
// restore previous value
s.set_option(prev_option, ec);
return;
}
}
}
int const recv_size = sett.get_int(settings_pack::recv_socket_buffer_size);
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if (recv_size)
{
typename Socket::receive_buffer_size prev_option;
s.get_option(prev_option, ec);
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if (!ec && prev_option.value() != recv_size)
{
typename Socket::receive_buffer_size option(recv_size);
s.set_option(option, ec);
if (ec)
{
// restore previous value
s.set_option(prev_option, ec);
return;
}
}
}
}
} // anonymous namespace
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int session_impl::create_peer_class(char const* name)
{
TORRENT_ASSERT(is_single_thread());
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return m_classes.new_peer_class(name);
}
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void session_impl::delete_peer_class(int cid)
{
TORRENT_ASSERT(is_single_thread());
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// if you hit this assert, you're deleting a non-existent peer class
TORRENT_ASSERT(m_classes.at(cid));
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if (m_classes.at(cid) == nullptr) return;
2014-07-06 21:18:00 +02:00
m_classes.decref(cid);
}
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peer_class_info session_impl::get_peer_class(int cid)
{
peer_class_info ret;
peer_class* pc = m_classes.at(cid);
// if you hit this assert, you're passing in an invalid cid
TORRENT_ASSERT(pc);
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if (pc == nullptr)
{
#if TORRENT_USE_INVARIANT_CHECKS
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// make it obvious that the return value is undefined
ret.upload_limit = 0xf0f0f0f;
ret.download_limit = 0xf0f0f0f;
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ret.label.resize(20);
url_random(&ret.label[0], &ret.label[0] + 20);
ret.ignore_unchoke_slots = false;
ret.connection_limit_factor = 0xf0f0f0f;
ret.upload_priority = 0xf0f0f0f;
ret.download_priority = 0xf0f0f0f;
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#endif
return ret;
}
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pc->get_info(&ret);
return ret;
}
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void session_impl::queue_tracker_request(tracker_request& req
, boost::weak_ptr<request_callback> c)
2014-07-06 21:18:00 +02:00
{
req.listen_port = listen_port();
if (m_key) req.key = m_key;
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#ifdef TORRENT_USE_OPENSSL
// SSL torrents use the SSL listen port
// TODO: 2 this need to be more thought through. There isn't necessarily
// just _one_ SSL listen port, which one we use depends on which interface
// we announce from.
2014-07-06 21:18:00 +02:00
if (req.ssl_ctx) req.listen_port = ssl_listen_port();
req.ssl_ctx = &m_ssl_ctx;
#endif
#if TORRENT_USE_I2P
if (!m_settings.get_str(settings_pack::i2p_hostname).empty())
{
req.i2pconn = &m_i2p_conn;
}
#endif
//TODO: should there be an option to announce once per listen interface?
m_tracker_manager.queue_request(get_io_service(), req, c);
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}
2010-02-13 17:29:17 +01:00
2014-07-06 21:18:00 +02:00
void session_impl::set_peer_class(int cid, peer_class_info const& pci)
{
peer_class* pc = m_classes.at(cid);
// if you hit this assert, you're passing in an invalid cid
TORRENT_ASSERT(pc);
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if (pc == nullptr) return;
2014-07-06 21:18:00 +02:00
pc->set_info(&pci);
}
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void session_impl::set_peer_class_filter(ip_filter const& f)
{
INVARIANT_CHECK;
m_peer_class_filter = f;
}
2014-07-06 21:18:00 +02:00
ip_filter const& session_impl::get_peer_class_filter() const
{
return m_peer_class_filter;
}
2011-03-14 08:47:24 +01:00
2014-07-06 21:18:00 +02:00
void session_impl::set_peer_class_type_filter(peer_class_type_filter f)
{
m_peer_class_type_filter = f;
}
peer_class_type_filter session_impl::get_peer_class_type_filter()
{
return m_peer_class_type_filter;
}
void session_impl::set_peer_classes(peer_class_set* s, address const& a, int st)
{
std::uint32_t peer_class_mask = m_peer_class_filter.access(a);
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// assign peer class based on socket type
static const int mapping[] = { 0, 0, 0, 0, 1, 4, 2, 2, 2, 3};
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int socket_type = mapping[st];
// filter peer classes based on type
peer_class_mask = m_peer_class_type_filter.apply(socket_type, peer_class_mask);
for (peer_class_t i = 0; peer_class_mask; peer_class_mask >>= 1, ++i)
{
2014-07-06 21:18:00 +02:00
if ((peer_class_mask & 1) == 0) continue;
// if you hit this assert, your peer class filter contains
// a bitmask referencing a non-existent peer class
TORRENT_ASSERT_PRECOND(m_classes.at(i));
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if (m_classes.at(i) == nullptr) continue;
2014-07-06 21:18:00 +02:00
s->add_class(m_classes, i);
}
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}
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bool session_impl::ignore_unchoke_slots_set(peer_class_set const& set) const
{
int num = set.num_classes();
for (int i = 0; i < num; ++i)
{
peer_class const* pc = m_classes.at(set.class_at(i));
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if (pc == nullptr) continue;
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if (pc->ignore_unchoke_slots) return true;
}
return false;
}
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bandwidth_manager* session_impl::get_bandwidth_manager(int channel)
{
return (channel == peer_connection::download_channel)
? &m_download_rate : &m_upload_rate;
}
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// the back argument determines whether this bump causes the torrent
// to be the most recently used or the least recently used. Putting
// the torrent at the back of the queue makes it the most recently
// used and the least likely to be evicted. This is the default.
// if back is false, the torrent is moved to the front of the queue,
// and made the most likely to be evicted. This is used for torrents
// that are paused, to give up their slot among the loaded torrents
void session_impl::bump_torrent(torrent* t, bool back)
{
if (t->is_aborted()) return;
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bool new_torrent = false;
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// if t is the only torrent in the LRU list, both
// its prev and next links will be nullptr, even though
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// it's already in the list. Cover this case by also
// checking to see if it's the first item
if (t->next != nullptr || t->prev != nullptr || m_torrent_lru.front() == t)
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{
#if TORRENT_USE_ASSERTS
torrent* i = m_torrent_lru.front();
while (i != nullptr && i != t) i = i->next;
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TORRENT_ASSERT(i == t);
#endif
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// this torrent is in the list already.
// first remove it
m_torrent_lru.erase(t);
}
else
{
new_torrent = true;
}
// pinned torrents should not be part of the LRU, since
// the LRU is only used to evict torrents
if (t->is_pinned()) return;
if (back)
m_torrent_lru.push_back(t);
else
m_torrent_lru.push_front(t);
if (new_torrent) evict_torrents_except(t);
}
void session_impl::evict_torrent(torrent* t)
{
TORRENT_ASSERT(!t->is_pinned());
// if there's no user-load function set, we cannot evict
// torrents. The feature is not enabled
if (!m_user_load_torrent) return;
// if it's already evicted, there's nothing to do
if (!t->is_loaded() || !t->should_be_loaded()) return;
TORRENT_ASSERT(t->next != nullptr || t->prev != nullptr || m_torrent_lru.front() == t);
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#if TORRENT_USE_ASSERTS
torrent* i = m_torrent_lru.front();
while (i != nullptr && i != t) i = i->next;
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TORRENT_ASSERT(i == t);
#endif
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int loaded_limit = m_settings.get_int(settings_pack::active_loaded_limit);
// 0 means unlimited, never evict anything
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if (loaded_limit == 0) return;
if (m_torrent_lru.size() > loaded_limit)
{
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// just evict the torrent
m_stats_counters.inc_stats_counter(counters::torrent_evicted_counter);
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TORRENT_ASSERT(t->is_pinned() == false);
t->unload();
m_torrent_lru.erase(t);
return;
}
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// move this torrent to be the first to be evicted whenever
// another torrent need its slot
bump_torrent(t, false);
}
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void session_impl::evict_torrents_except(torrent* ignore)
{
if (!m_user_load_torrent) return;
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int loaded_limit = m_settings.get_int(settings_pack::active_loaded_limit);
// 0 means unlimited, never evict anything
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if (loaded_limit == 0) return;
// if the torrent we're ignoring (i.e. making room for), allow
// one more torrent in the list.
if (ignore->next != nullptr || ignore->prev != nullptr || m_torrent_lru.front() == ignore)
{
#if TORRENT_USE_ASSERTS
torrent* i = m_torrent_lru.front();
while (i != nullptr && i != ignore) i = i->next;
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TORRENT_ASSERT(i == ignore);
#endif
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++loaded_limit;
}
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while (m_torrent_lru.size() >= loaded_limit)
{
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// we're at the limit of loaded torrents. Find the least important
// torrent and unload it. This is done with an LRU.
torrent* i = m_torrent_lru.front();
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if (i == ignore)
{
i = i->next;
if (i == nullptr) break;
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}
m_stats_counters.inc_stats_counter(counters::torrent_evicted_counter);
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TORRENT_ASSERT(i->is_pinned() == false);
i->unload();
m_torrent_lru.erase(i);
}
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}
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bool session_impl::load_torrent(torrent* t)
{
TORRENT_ASSERT(is_single_thread());
evict_torrents_except(t);
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// we wouldn't be loading the torrent if it was already
// in the LRU (and loaded)
TORRENT_ASSERT(t->next == nullptr && t->prev == nullptr && m_torrent_lru.front() != t);
TORRENT_ASSERT(m_user_load_torrent);
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// now, load t into RAM
std::vector<char> buffer;
error_code ec;
m_user_load_torrent(t->info_hash(), buffer, ec);
if (ec)
{
t->set_error(ec, torrent_status::error_file_metadata);
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t->pause(false);
return false;
}
bool ret = t->load(buffer);
if (ret) bump_torrent(t);
return ret;
}
void session_impl::deferred_submit_jobs()
{
if (m_deferred_submit_disk_jobs) return;
m_deferred_submit_disk_jobs = true;
m_io_service.post(std::bind(&session_impl::submit_disk_jobs, this));
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}
void session_impl::submit_disk_jobs()
{
TORRENT_ASSERT(m_deferred_submit_disk_jobs);
m_deferred_submit_disk_jobs = false;
m_disk_thread.submit_jobs();
}
// copies pointers to bandwidth channels from the peer classes
// into the array. Only bandwidth channels with a bandwidth limit
// is considered pertinent and copied
// returns the number of pointers copied
// channel is upload_channel or download_channel
int session_impl::copy_pertinent_channels(peer_class_set const& set
, int channel, bandwidth_channel** dst, int max)
{
int num_channels = set.num_classes();
int num_copied = 0;
for (int i = 0; i < num_channels; ++i)
{
peer_class* pc = m_classes.at(set.class_at(i));
TORRENT_ASSERT(pc);
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if (pc == nullptr) continue;
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bandwidth_channel* chan = &pc->channel[channel];
// no need to include channels that don't have any bandwidth limits
if (chan->throttle() == 0) continue;
dst[num_copied] = chan;
++num_copied;
if (num_copied == max) break;
}
return num_copied;
}
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bool session_impl::use_quota_overhead(bandwidth_channel* ch, int amount)
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{
ch->use_quota(amount);
return (ch->throttle() > 0 && ch->throttle() < amount);
}
int session_impl::use_quota_overhead(peer_class_set& set, int amount_down, int amount_up)
{
int ret = 0;
int num = set.num_classes();
for (int i = 0; i < num; ++i)
{
peer_class* p = m_classes.at(set.class_at(i));
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if (p == nullptr) continue;
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bandwidth_channel* ch = &p->channel[peer_connection::download_channel];
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if (use_quota_overhead(ch, amount_down))
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ret |= 1 << peer_connection::download_channel;
ch = &p->channel[peer_connection::upload_channel];
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if (use_quota_overhead(ch, amount_up))
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ret |= 1 << peer_connection::upload_channel;
}
return ret;
}
// session_impl is responsible for deleting 'pack'
void session_impl::apply_settings_pack(boost::shared_ptr<settings_pack> pack)
{
apply_settings_pack_impl(*pack);
}
settings_pack session_impl::get_settings() const
{
settings_pack ret;
// TODO: it would be nice to reserve() these vectors up front
for (int i = settings_pack::string_type_base;
i < settings_pack::max_string_setting_internal; ++i)
{
ret.set_str(i, m_settings.get_str(i));
}
for (int i = settings_pack::int_type_base;
i < settings_pack::max_int_setting_internal; ++i)
{
ret.set_int(i, m_settings.get_int(i));
}
for (int i = settings_pack::bool_type_base;
i < settings_pack::max_bool_setting_internal; ++i)
{
ret.set_bool(i, m_settings.get_bool(i));
}
return ret;
}
void session_impl::apply_settings_pack_impl(settings_pack const& pack
, bool const init)
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{
bool const reopen_listen_port =
#ifndef TORRENT_NO_DEPRECATE
(pack.has_val(settings_pack::ssl_listen)
&& pack.get_int(settings_pack::ssl_listen)
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!= m_settings.get_int(settings_pack::ssl_listen))
||
#endif
(pack.has_val(settings_pack::listen_interfaces)
&& pack.get_str(settings_pack::listen_interfaces)
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!= m_settings.get_str(settings_pack::listen_interfaces));
apply_pack(&pack, m_settings, this);
m_disk_thread.set_settings(&pack, m_alerts);
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if (init)
update_listen_interfaces();
if (init || reopen_listen_port)
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{
reopen_listen_sockets();
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}
}
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#ifndef TORRENT_NO_DEPRECATE
void session_impl::set_settings(libtorrent::session_settings const& s)
{
INVARIANT_CHECK;
TORRENT_ASSERT(is_single_thread());
boost::shared_ptr<settings_pack> p = load_pack_from_struct(m_settings, s);
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apply_settings_pack(p);
}
libtorrent::session_settings session_impl::deprecated_settings() const
{
libtorrent::session_settings ret;
load_struct_from_settings(m_settings, ret);
return ret;
}
#endif
// TODO: 3 try to remove these functions. They are misleading and not very
// useful. Anything using these should probably be fixed to do something more
// multi-homed friendly
tcp::endpoint session_impl::get_ipv6_interface() const
{
#if TORRENT_USE_IPV6
for (std::list<listen_socket_t>::const_iterator i = m_listen_sockets.begin()
, end(m_listen_sockets.end()); i != end; ++i)
{
if (!i->local_endpoint.address().is_v6()) continue;
return tcp::endpoint(i->local_endpoint.address(), i->tcp_external_port);
}
#endif
return tcp::endpoint();
}
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tcp::endpoint session_impl::get_ipv4_interface() const
{
for (std::list<listen_socket_t>::const_iterator i = m_listen_sockets.begin()
, end(m_listen_sockets.end()); i != end; ++i)
{
if (!i->local_endpoint.address().is_v4()) continue;
return tcp::endpoint(i->local_endpoint.address(), i->tcp_external_port);
}
return tcp::endpoint();
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}
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enum { listen_no_system_port = 0x02 };
listen_socket_t session_impl::setup_listener(std::string const& device
, tcp::endpoint bind_ep, int flags, error_code& ec)
{
int retries = m_settings.get_int(settings_pack::max_retry_port_bind);
#ifndef TORRENT_DISABLE_LOGGING
session_log("attempting to to open listen socket to: %s on device: %s flags: %x"
, print_endpoint(bind_ep).c_str(), device.c_str(), flags);
#endif
listen_socket_t ret;
ret.ssl = (flags & open_ssl_socket) != 0;
int last_op = 0;
listen_failed_alert::socket_type_t const sock_type
= (flags & open_ssl_socket)
? listen_failed_alert::tcp_ssl
: listen_failed_alert::tcp;
// if we're in force-proxy mode, don't open TCP listen sockets. We cannot
// accept connections on our local machine in this case.
// TODO: 3 the logic in this if-block should be factored out into a
// separate function. At least most of it
if (!m_settings.get_bool(settings_pack::force_proxy))
{
ret.sock = boost::make_shared<tcp::acceptor>(boost::ref(m_io_service));
ret.sock->open(bind_ep.protocol(), ec);
last_op = listen_failed_alert::open;
if (ec)
{
#ifndef TORRENT_DISABLE_LOGGING
session_log("failed to open socket: %s"
, ec.message().c_str());
#endif
if (m_alerts.should_post<listen_failed_alert>())
m_alerts.emplace_alert<listen_failed_alert>(device, bind_ep, last_op
, ec, sock_type);
return ret;
}
#ifdef TORRENT_WINDOWS
{
// this is best-effort. ignore errors
error_code err;
ret.sock->set_option(exclusive_address_use(true), err);
#ifndef TORRENT_DISABLE_LOGGING
if (err)
{
session_log("failed enable exclusive address use on listen socket: %s"
, err.message().c_str());
}
#endif // TORRENT_DISABLE_LOGGING
}
#endif // TORRENT_WINDOWS
{
// this is best-effort. ignore errors
error_code err;
ret.sock->set_option(tcp::acceptor::reuse_address(true), err);
#ifndef TORRENT_DISABLE_LOGGING
if (err)
{
session_log("failed enable reuse-address on listen socket: %s"
, err.message().c_str());
}
#endif // TORRENT_DISABLE_LOGGING
}
#if TORRENT_USE_IPV6
if (bind_ep.address().is_v6())
{
error_code err; // ignore errors here
ret.sock->set_option(boost::asio::ip::v6_only(true), err);
#ifndef TORRENT_DISABLE_LOGGING
if (err)
{
session_log("failed enable v6 only on listen socket: %s"
, err.message().c_str());
}
#endif // LOGGING
2009-01-21 02:39:13 +01:00
#ifdef TORRENT_WINDOWS
// enable Teredo on windows
ret.sock->set_option(v6_protection_level(PROTECTION_LEVEL_UNRESTRICTED), err);
#ifndef TORRENT_DISABLE_LOGGING
if (err)
{
session_log("failed enable IPv6 unrestricted protection level on "
"listen socket: %s", err.message().c_str());
}
#endif // TORRENT_DISABLE_LOGGING
#endif // TORRENT_WINDOWS
}
2014-07-06 21:18:00 +02:00
#endif // TORRENT_USE_IPV6
if (!device.empty())
{
// we have an actual device we're interested in listening on, if we
// have SO_BINDTODEVICE functionality, use it now.
#if TORRENT_HAS_BINDTODEVICE
ret.sock->set_option(bind_to_device(device.c_str()), ec);
if (ec)
{
#ifndef TORRENT_DISABLE_LOGGING
session_log("bind to device failed (device: %s): %s"
, device.c_str(), ec.message().c_str());
#endif // TORRENT_DISABLE_LOGGING
last_op = listen_failed_alert::bind_to_device;
if (m_alerts.should_post<listen_failed_alert>())
{
m_alerts.emplace_alert<listen_failed_alert>(device, bind_ep
, last_op, ec, sock_type);
}
return ret;
}
#endif
}
ret.sock->bind(bind_ep, ec);
last_op = listen_failed_alert::bind;
while (ec == error_code(error::address_in_use) && retries > 0)
{
TORRENT_ASSERT_VAL(ec, ec);
#ifndef TORRENT_DISABLE_LOGGING
error_code ignore;
session_log("failed to bind listen socket to: %s on device: %s :"
" [%s] (%d) %s (retries: %d)"
, print_endpoint(bind_ep).c_str()
, device.c_str()
, ec.category().name(), ec.value(), ec.message().c_str()
, retries);
#endif
ec.clear();
--retries;
bind_ep.port(bind_ep.port() + 1);
ret.sock->bind(bind_ep, ec);
}
if (ec == error_code(error::address_in_use)
&& !(flags & listen_no_system_port))
{
// instead of giving up, try let the OS pick a port
bind_ep.port(0);
ec.clear();
ret.sock->bind(bind_ep, ec);
last_op = listen_failed_alert::bind;
}
if (ec)
{
// not even that worked, give up
#ifndef TORRENT_DISABLE_LOGGING
error_code ignore;
session_log("failed to bind listen socket to: %s on device: %s :"
" [%s] (%d) %s (giving up)"
, print_endpoint(bind_ep).c_str()
, device.c_str()
, ec.category().name(), ec.value(), ec.message().c_str());
#endif
if (m_alerts.should_post<listen_failed_alert>())
{
m_alerts.emplace_alert<listen_failed_alert>(device, bind_ep
, last_op, ec, sock_type);
}
ret.sock.reset();
return ret;
}
ret.local_endpoint = ret.sock->local_endpoint(ec);
last_op = listen_failed_alert::get_socket_name;
if (ec)
{
#ifndef TORRENT_DISABLE_LOGGING
session_log("get_sockname failed on listen socket: %s"
, ec.message().c_str());
#endif
if (m_alerts.should_post<listen_failed_alert>())
{
m_alerts.emplace_alert<listen_failed_alert>(device, bind_ep
, last_op, ec, sock_type);
}
return ret;
}
ret.tcp_external_port = ret.local_endpoint.port();
TORRENT_ASSERT(ret.tcp_external_port == bind_ep.port()
|| bind_ep.port() == 0);
ret.sock->listen(m_settings.get_int(settings_pack::listen_queue_size), ec);
last_op = listen_failed_alert::listen;
if (ec)
{
#ifndef TORRENT_DISABLE_LOGGING
session_log("cannot listen on interface \"%s\": %s"
, device.c_str(), ec.message().c_str());
#endif
if (m_alerts.should_post<listen_failed_alert>())
{
m_alerts.emplace_alert<listen_failed_alert>(device, bind_ep
, last_op, ec, sock_type);
}
return ret;
}
} // force-proxy mode
ret.udp_sock = boost::make_shared<udp_socket>(boost::ref(m_io_service));
#if TORRENT_HAS_BINDTODEVICE
2016-02-09 00:11:00 +01:00
if (!device.empty())
{
ret.udp_sock->set_option(bind_to_device(device.c_str()), ec);
2016-02-09 00:11:00 +01:00
if (ec)
{
#ifndef TORRENT_DISABLE_LOGGING
session_log("bind to device failed (device: %s): %s"
, device.c_str(), ec.message().c_str());
#endif // TORRENT_DISABLE_LOGGING
last_op = listen_failed_alert::bind_to_device;
if (m_alerts.should_post<listen_failed_alert>())
{
m_alerts.emplace_alert<listen_failed_alert>(device, bind_ep
, last_op, ec, sock_type);
}
return ret;
}
}
#endif
ret.udp_sock->bind(udp::endpoint(bind_ep.address(), bind_ep.port())
, ec);
2016-02-09 00:11:00 +01:00
last_op = listen_failed_alert::bind;
if (ec)
{
#ifndef TORRENT_DISABLE_LOGGING
session_log("failed to open UDP socket: %s: %s"
, device.c_str(), ec.message().c_str());
#endif
listen_failed_alert::socket_type_t const udp_sock_type
= (flags & open_ssl_socket)
? listen_failed_alert::utp_ssl
: listen_failed_alert::udp;
if (m_alerts.should_post<listen_failed_alert>())
m_alerts.emplace_alert<listen_failed_alert>(device
, bind_ep, last_op, ec, udp_sock_type);
return ret;
}
ret.udp_external_port = ret.udp_sock->local_port();
error_code err;
set_socket_buffer_size(*ret.udp_sock, m_settings, err);
if (err)
{
if (m_alerts.should_post<udp_error_alert>())
m_alerts.emplace_alert<udp_error_alert>(ret.udp_sock->local_endpoint(ec), err);
}
ret.udp_sock->set_force_proxy(m_settings.get_bool(settings_pack::force_proxy));
// TODO: 2 use a handler allocator here
ADD_OUTSTANDING_ASYNC("session_impl::on_udp_packet");
ret.udp_sock->async_read(std::bind(&session_impl::on_udp_packet
, this, boost::weak_ptr<udp_socket>(ret.udp_sock), ret.ssl, _1));
#ifndef TORRENT_DISABLE_LOGGING
session_log(" listening on: %s TCP port: %d UDP port: %d"
, bind_ep.address().to_string().c_str()
, ret.tcp_external_port, ret.udp_external_port);
#endif
return ret;
}
void session_impl::reopen_listen_sockets()
{
#ifndef TORRENT_DISABLE_LOGGING
session_log("open listen port");
2014-07-06 21:18:00 +02:00
#endif
TORRENT_ASSERT(is_single_thread());
2012-10-15 08:20:42 +02:00
TORRENT_ASSERT(!m_abort);
int flags = m_settings.get_bool(settings_pack::listen_system_port_fallback)
? 0 : listen_no_system_port;
2014-07-06 21:18:00 +02:00
error_code ec;
// close the open listen sockets
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// close the listen sockets
#ifndef TORRENT_DISABLE_LOGGING
session_log("closing all listen sockets");
#endif
2012-10-15 08:20:42 +02:00
for (std::list<listen_socket_t>::iterator i = m_listen_sockets.begin()
, end(m_listen_sockets.end()); i != end; ++i)
{
if (i->sock) i->sock->close(ec);
if (i->udp_sock) i->udp_sock->close();
}
m_listen_sockets.clear();
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m_stats_counters.set_value(counters::has_incoming_connections, 0);
2012-10-15 08:20:42 +02:00
ec.clear();
if (m_abort) return;
for (int i = 0; i < m_listen_interfaces.size(); ++i)
{
std::string const& device = m_listen_interfaces[i].device;
int const port = m_listen_interfaces[i].port;
bool const ssl = m_listen_interfaces[i].ssl;
2012-01-14 17:04:25 +01:00
#ifndef TORRENT_USE_OPENSSL
if (ssl)
{
#ifndef TORRENT_DISABLE_LOGGING
session_log("attempted to listen ssl with no library support on device: \"%s\""
, device.c_str());
#endif
if (m_alerts.should_post<listen_failed_alert>())
{
m_alerts.emplace_alert<listen_failed_alert>(device
, listen_failed_alert::open
, boost::asio::error::operation_not_supported
, listen_failed_alert::tcp_ssl);
}
continue;
}
#endif
// now we have a device to bind to. This device may actually just be an
// IP address or a device name. In case it's a device name, we want to
// (potentially) end up binding a socket for each IP address associated
// with that device.
// First, check to see if it's an IP address
error_code err;
address const adr = address::from_string(device.c_str(), err);
if (!err)
{
listen_socket_t const s = setup_listener("", tcp::endpoint(adr, port)
, flags | (ssl ? open_ssl_socket : 0), ec);
if (!ec && s.sock)
{
m_listen_sockets.push_back(s);
}
}
else
2014-07-06 21:18:00 +02:00
{
// this is the case where device names a network device. We need to
// enumerate all IPs associated with this device
// TODO: 3 only run this once, not every turn through the loop
std::vector<ip_interface> ifs = enum_net_interfaces(m_io_service, ec);
if (ec)
{
#ifndef TORRENT_DISABLE_LOGGING
session_log("failed to enumerate IPs on device: \"%s\": %s"
, device.c_str(), ec.message().c_str());
2014-07-06 21:18:00 +02:00
#endif
if (m_alerts.should_post<listen_failed_alert>())
{
m_alerts.emplace_alert<listen_failed_alert>(device
, listen_failed_alert::enum_if, ec
, listen_failed_alert::tcp);
}
continue;
}
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for (int k = 0; k < int(ifs.size()); ++k)
2014-07-06 21:18:00 +02:00
{
// we're looking for a specific interface, and its address
// (which must be of the same family as the address we're
// connecting to)
if (device != ifs[k].name) continue;
2009-04-12 02:37:06 +02:00
listen_socket_t const s = setup_listener(device
, tcp::endpoint(ifs[k].interface_address, port)
, flags | (ssl ? open_ssl_socket : 0), ec);
2014-07-06 21:18:00 +02:00
if (!ec && s.sock)
2014-07-06 21:18:00 +02:00
{
m_listen_sockets.push_back(s);
}
}
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}
}
if (m_listen_sockets.empty())
2014-08-16 09:46:06 +02:00
{
#ifndef TORRENT_DISABLE_LOGGING
session_log("giving up on binding listen sockets");
2014-08-16 09:46:06 +02:00
#endif
return;
}
// now, send out listen_succeeded_alert for the listen sockets we are
// listening on
if (m_alerts.should_post<listen_succeeded_alert>())
{
for (std::list<listen_socket_t>::iterator i = m_listen_sockets.begin()
, end(m_listen_sockets.end()); i != end; ++i)
2015-01-06 09:16:03 +01:00
{
error_code err;
if (i->sock)
{
tcp::endpoint const tcp_ep = i->sock->local_endpoint(err);
if (!err)
{
listen_succeeded_alert::socket_type_t const socket_type
= i->ssl
? listen_succeeded_alert::tcp_ssl
: listen_succeeded_alert::tcp;
m_alerts.emplace_alert<listen_succeeded_alert>(
tcp_ep , socket_type);
}
}
if (i->udp_sock)
{
udp::endpoint const udp_ep = i->udp_sock->local_endpoint(err);
if (!err && i->udp_sock->is_open())
{
listen_succeeded_alert::socket_type_t const socket_type
= i->ssl
? listen_succeeded_alert::utp_ssl
: listen_succeeded_alert::udp;
m_alerts.emplace_alert<listen_succeeded_alert>(
udp_ep, socket_type);
}
}
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}
}
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if (m_settings.get_int(settings_pack::peer_tos) != 0)
{
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update_peer_tos();
}
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ec.clear();
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// initiate accepting on the listen sockets
for (std::list<listen_socket_t>::iterator i = m_listen_sockets.begin()
, end(m_listen_sockets.end()); i != end; ++i)
{
if (i->sock) async_accept(i->sock, i->ssl);
remap_ports(remap_natpmp_and_upnp, *i);
}
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open_new_incoming_socks_connection();
2009-08-20 05:19:12 +02:00
#if TORRENT_USE_I2P
open_new_incoming_i2p_connection();
#endif
}
namespace {
template <typename MapProtocol, typename ProtoType, typename EndpointType>
void map_port(MapProtocol& m, ProtoType protocol, EndpointType const& ep
, int& map_handle)
{
if (map_handle != -1) m.delete_mapping(map_handle);
map_handle = -1;
// only update this mapping if we actually have a socket listening
if (ep.address() != address())
map_handle = m.add_mapping(protocol, ep.port(), ep.port());
}
}
void session_impl::remap_ports(remap_port_mask_t const mask
, listen_socket_t& s)
2012-01-14 17:04:25 +01:00
{
error_code ec;
tcp::endpoint const tcp_ep = s.sock ? s.sock->local_endpoint(ec) : tcp::endpoint();
udp::endpoint const udp_ep = s.udp_sock ? s.udp_sock->local_endpoint(ec) : udp::endpoint();
if ((mask & remap_natpmp) && m_natpmp)
2012-01-14 17:04:25 +01:00
{
map_port(*m_natpmp, natpmp::tcp, tcp_ep, s.tcp_port_mapping[0]);
map_port(*m_natpmp, natpmp::udp, udp_ep, s.udp_port_mapping[0]);
2012-01-14 17:04:25 +01:00
}
if ((mask & remap_upnp) && m_upnp)
2012-01-14 17:04:25 +01:00
{
map_port(*m_upnp, upnp::tcp, tcp_ep, s.tcp_port_mapping[1]);
map_port(*m_upnp, upnp::udp, udp_ep, s.udp_port_mapping[1]);
2012-01-14 17:04:25 +01:00
}
}
void session_impl::open_new_incoming_socks_connection()
{
int const proxy_type = m_settings.get_int(settings_pack::proxy_type);
2014-07-06 21:18:00 +02:00
if (proxy_type != settings_pack::socks5
&& proxy_type != settings_pack::socks5_pw
&& proxy_type != settings_pack::socks4)
return;
if (m_socks_listen_socket) return;
m_socks_listen_socket = boost::make_shared<socket_type>(boost::ref(m_io_service));
bool const ret = instantiate_connection(m_io_service, proxy()
, *m_socks_listen_socket, nullptr, nullptr, false, false);
TORRENT_ASSERT_VAL(ret, ret);
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TORRENT_UNUSED(ret);
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ADD_OUTSTANDING_ASYNC("session_impl::on_socks_listen");
socks5_stream& s = *m_socks_listen_socket->get<socks5_stream>();
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m_socks_listen_port = listen_port();
if (m_socks_listen_port == 0) m_socks_listen_port = 2000 + random() % 60000;
s.async_listen(tcp::endpoint(address_v4::any(), m_socks_listen_port)
, std::bind(&session_impl::on_socks_listen, this
, m_socks_listen_socket, _1));
}
void session_impl::on_socks_listen(boost::shared_ptr<socket_type> const& sock
, error_code const& e)
{
#if defined TORRENT_ASIO_DEBUGGING
complete_async("session_impl::on_socks_listen");
#endif
TORRENT_ASSERT(sock == m_socks_listen_socket || !m_socks_listen_socket);
if (e)
{
m_socks_listen_socket.reset();
if (e == boost::asio::error::operation_aborted) return;
if (m_alerts.should_post<listen_failed_alert>())
m_alerts.emplace_alert<listen_failed_alert>("socks5"
, listen_failed_alert::accept, e
, listen_failed_alert::socks5);
return;
}
error_code ec;
tcp::endpoint ep = sock->local_endpoint(ec);
TORRENT_ASSERT(!ec);
TORRENT_UNUSED(ec);
if (m_alerts.should_post<listen_succeeded_alert>())
m_alerts.emplace_alert<listen_succeeded_alert>(
ep, listen_succeeded_alert::socks5);
#if defined TORRENT_ASIO_DEBUGGING
add_outstanding_async("session_impl::on_socks_accept");
#endif
socks5_stream& s = *m_socks_listen_socket->get<socks5_stream>();
s.async_accept(std::bind(&session_impl::on_socks_accept, this
, m_socks_listen_socket, _1));
}
void session_impl::on_socks_accept(boost::shared_ptr<socket_type> const& s
, error_code const& e)
{
2016-05-06 07:08:05 +02:00
COMPLETE_ASYNC("session_impl::on_socks_accept");
TORRENT_ASSERT(s == m_socks_listen_socket || !m_socks_listen_socket);
m_socks_listen_socket.reset();
if (e == boost::asio::error::operation_aborted) return;
if (e)
{
if (m_alerts.should_post<listen_failed_alert>())
m_alerts.emplace_alert<listen_failed_alert>("socks5"
, listen_failed_alert::accept, e
, listen_failed_alert::socks5);
return;
}
open_new_incoming_socks_connection();
incoming_connection(s);
}
2014-07-06 21:18:00 +02:00
void session_impl::update_i2p_bridge()
2013-10-27 20:56:37 +01:00
{
// we need this socket to be open before we
// can make name lookups for trackers for instance.
// pause the session now and resume it once we've
// established the i2p SAM connection
2014-07-06 21:18:00 +02:00
#if TORRENT_USE_I2P
2014-09-02 08:28:27 +02:00
if (m_settings.get_str(settings_pack::i2p_hostname).empty())
{
error_code ec;
m_i2p_conn.close(ec);
return;
}
2014-07-06 21:18:00 +02:00
m_i2p_conn.open(m_settings.get_str(settings_pack::i2p_hostname)
, m_settings.get_int(settings_pack::i2p_port)
, std::bind(&session_impl::on_i2p_open, this, _1));
2014-07-06 21:18:00 +02:00
#endif
}
#if TORRENT_USE_I2P
proxy_settings session_impl::i2p_proxy() const
{
proxy_settings ret;
ret.hostname = m_settings.get_str(settings_pack::i2p_hostname);
ret.type = settings_pack::i2p_proxy;
ret.port = m_settings.get_int(settings_pack::i2p_port);
return ret;
2013-10-27 20:56:37 +01:00
}
2009-08-20 05:19:12 +02:00
void session_impl::on_i2p_open(error_code const& ec)
{
2013-10-27 20:56:37 +01:00
if (ec)
{
2014-03-15 23:20:19 +01:00
if (m_alerts.should_post<i2p_alert>())
m_alerts.emplace_alert<i2p_alert>(ec);
2014-03-15 23:20:19 +01:00
#ifndef TORRENT_DISABLE_LOGGING
session_log("i2p open failed (%d) %s", ec.value(), ec.message().c_str());
2013-10-27 20:56:37 +01:00
#endif
}
2013-10-28 03:41:54 +01:00
// now that we have our i2p connection established
// it's OK to start torrents and use this socket to
// do i2p name lookups
2013-10-27 20:56:37 +01:00
2009-08-20 05:19:12 +02:00
open_new_incoming_i2p_connection();
}
void session_impl::open_new_incoming_i2p_connection()
{
if (!m_i2p_conn.is_open()) return;
if (m_i2p_listen_socket) return;
m_i2p_listen_socket = boost::shared_ptr<socket_type>(new socket_type(m_io_service));
bool ret = instantiate_connection(m_io_service, m_i2p_conn.proxy()
, *m_i2p_listen_socket, nullptr, nullptr, true, false);
TORRENT_ASSERT_VAL(ret, ret);
2015-05-19 06:59:31 +02:00
TORRENT_UNUSED(ret);
2009-08-20 05:19:12 +02:00
ADD_OUTSTANDING_ASYNC("session_impl::on_i2p_accept");
2009-08-20 05:19:12 +02:00
i2p_stream& s = *m_i2p_listen_socket->get<i2p_stream>();
s.set_command(i2p_stream::cmd_accept);
s.set_session_id(m_i2p_conn.session_id());
s.async_connect(tcp::endpoint()
, std::bind(&session_impl::on_i2p_accept, this, m_i2p_listen_socket, _1));
2009-08-20 05:19:12 +02:00
}
void session_impl::on_i2p_accept(boost::shared_ptr<socket_type> const& s
, error_code const& e)
{
COMPLETE_ASYNC("session_impl::on_i2p_accept");
2009-08-20 05:19:12 +02:00
m_i2p_listen_socket.reset();
if (e == boost::asio::error::operation_aborted) return;
2009-08-20 05:19:12 +02:00
if (e)
{
if (m_alerts.should_post<listen_failed_alert>())
{
m_alerts.emplace_alert<listen_failed_alert>("i2p"
, listen_failed_alert::accept
, e, listen_failed_alert::i2p);
}
#ifndef TORRENT_DISABLE_LOGGING
session_log("i2p SAM connection failure: %s", e.message().c_str());
#endif
2009-08-20 05:19:12 +02:00
return;
}
open_new_incoming_i2p_connection();
incoming_connection(s);
}
#endif
void session_impl::send_udp_packet_hostname(char const* hostname
, int const port
, array_view<char const> p
, error_code& ec
, int const flags)
2007-12-09 05:15:24 +01:00
{
// for now, just pick the first socket with a matching address family
// TODO: 3 for proper multi-homed support, we may want to do something
// else here. Probably let the caller decide which interface to send over
for (std::list<listen_socket_t>::iterator i = m_listen_sockets.begin()
, end(m_listen_sockets.end()); i != end; ++i)
{
if (!i->udp_sock) continue;
if (i->ssl) continue;
i->udp_sock->send_hostname(hostname, port, p, ec, flags);
if ((ec == error::would_block
|| ec == error::try_again)
&& !i->udp_write_blocked)
{
i->udp_write_blocked = true;
ADD_OUTSTANDING_ASYNC("session_impl::on_udp_writeable");
i->udp_sock->async_write(std::bind(&session_impl::on_udp_writeable
, this, boost::weak_ptr<udp_socket>(i->udp_sock), _1));
}
return;
}
ec = boost::asio::error::operation_not_supported;
}
void session_impl::send_udp_packet(bool const ssl
, udp::endpoint const& ep
, array_view<char const> p
, error_code& ec
, int const flags)
{
// for now, just pick the first socket with a matching address family
// TODO: 3 for proper multi-homed support, we may want to do something
// else here. Probably let the caller decide which interface to send over
for (std::list<listen_socket_t>::iterator i = m_listen_sockets.begin()
, end(m_listen_sockets.end()); i != end; ++i)
{
if (i->ssl != ssl) continue;
if (!i->udp_sock) continue;
if (i->local_endpoint.address().is_v4() != ep.address().is_v4())
continue;
i->udp_sock->send(ep, p, ec, flags);
if ((ec == error::would_block
|| ec == error::try_again)
&& !i->udp_write_blocked)
{
i->udp_write_blocked = true;
ADD_OUTSTANDING_ASYNC("session_impl::on_udp_writeable");
i->udp_sock->async_write(std::bind(&session_impl::on_udp_writeable
, this, boost::weak_ptr<udp_socket>(i->udp_sock), _1));
}
return;
}
ec = boost::asio::error::operation_not_supported;
}
void session_impl::on_udp_writeable(boost::weak_ptr<udp_socket> s, error_code const& ec)
{
COMPLETE_ASYNC("session_impl::on_udp_writeable");
if (ec) return;
boost::shared_ptr<udp_socket> sock = s.lock();
if (!sock) return;
std::list<listen_socket_t>::iterator i = std::find_if(
m_listen_sockets.begin(), m_listen_sockets.end()
, [&sock] (listen_socket_t const& ls) { return ls.udp_sock == sock; });
if (i == m_listen_sockets.end()) return;
i->udp_write_blocked = false;
// notify the utp socket manager it can start sending on the socket again
struct utp_socket_manager& mgr =
#ifdef TORRENT_USE_OPENSSL
i->ssl ? m_ssl_utp_socket_manager :
#endif
m_utp_socket_manager;
mgr.writable();
}
void session_impl::on_udp_packet(boost::weak_ptr<udp_socket> const& socket
, bool const ssl, error_code const& ec)
{
COMPLETE_ASYNC("session_impl::on_udp_packet");
if (ec)
{
boost::shared_ptr<udp_socket> s = socket.lock();
udp::endpoint ep;
error_code best_effort;
if (s) ep = s->local_endpoint(best_effort);
// don't bubble up operation aborted errors to the user
if (ec != boost::asio::error::operation_aborted
&& ec != boost::asio::error::bad_descriptor
&& m_alerts.should_post<udp_error_alert>())
{
m_alerts.emplace_alert<udp_error_alert>(ep, ec);
}
#ifndef TORRENT_DISABLE_LOGGING
session_log("UDP error: %s (%d) %s"
, print_endpoint(ep).c_str(), ec.value(), ec.message().c_str());
#endif
return;
2010-08-03 11:08:37 +02:00
}
m_stats_counters.inc_stats_counter(counters::on_udp_counter);
boost::shared_ptr<udp_socket> s = socket.lock();
if (!s) return;
struct utp_socket_manager& mgr =
#ifdef TORRENT_USE_OPENSSL
ssl ? m_ssl_utp_socket_manager :
#endif
m_utp_socket_manager;
for (;;)
{
2016-05-01 05:10:47 +02:00
std::array<udp_socket::packet, 50> p;
error_code err;
int const num_packets = s->read(p, err);
for (int i = 0; i < num_packets; ++i)
{
udp_socket::packet& packet = p[i];
if (packet.error)
{
// TODO: 3 it would be neat if the utp socket manager would
// handle ICMP errors too
#ifndef TORRENT_DISABLE_DHT
if (m_dht)
m_dht->incoming_error(packet.error, packet.from);
#endif
m_tracker_manager.incoming_error(packet.error, packet.from);
continue;
}
aux::array_view<char const> const buf = packet.data;
// give the uTP socket manager first dis on the packet. Presumably
// the majority of packets are uTP packets.
if (!mgr.incoming_packet(packet.from, buf))
{
// if it wasn't a uTP packet, try the other users of the UDP
// socket
bool handled = false;
#ifndef TORRENT_DISABLE_DHT
if (m_dht && buf.size() > 20 && buf.front() == 'd' && buf.back() == 'e')
{
handled = m_dht->incoming_packet(packet.from, buf.data(), int(buf.size()));
}
#endif
if (!handled)
{
m_tracker_manager.incoming_packet(packet.from, buf);
}
}
}
if (err == error::would_block || err == error::try_again)
{
// there are no more packets on the socket
break;
}
if (err)
{
error_code best_effort;
udp::endpoint ep = s->local_endpoint(best_effort);
if (err != boost::asio::error::operation_aborted
&& m_alerts.should_post<udp_error_alert>())
m_alerts.emplace_alert<udp_error_alert>(ep, err);
#ifndef TORRENT_DISABLE_LOGGING
session_log("UDP error: %s (%d) %s"
, print_endpoint(ep).c_str(), ec.value(), ec.message().c_str());
#endif
// any error other than these ones are considered fatal errors, and
// we won't read from the socket again
if (err != boost::asio::error::host_unreachable
&& err != boost::asio::error::fault
&& err != boost::asio::error::connection_reset
&& err != boost::asio::error::connection_refused
&& err != boost::asio::error::connection_aborted
&& err != boost::asio::error::operation_aborted
&& err != boost::asio::error::network_reset
&& err != boost::asio::error::network_unreachable
2016-05-27 21:35:53 +02:00
#ifdef _WIN32
// ERROR_MORE_DATA means the same thing as EMSGSIZE
&& err != error_code(ERROR_MORE_DATA, system_category())
&& err != error_code(ERROR_HOST_UNREACHABLE, system_category())
&& err != error_code(ERROR_PORT_UNREACHABLE, system_category())
&& err != error_code(ERROR_RETRY, system_category())
&& err != error_code(ERROR_NETWORK_UNREACHABLE, system_category())
&& err != error_code(ERROR_CONNECTION_REFUSED, system_category())
&& err != error_code(ERROR_CONNECTION_ABORTED, system_category())
#endif
&& err != boost::asio::error::message_size)
{
// fatal errors. Don't try to read from this socket again
mgr.socket_drained();
return;
}
// non-fatal UDP errors get here, we should re-issue the read.
continue;
}
}
mgr.socket_drained();
ADD_OUTSTANDING_ASYNC("session_impl::on_udp_packet");
s->async_read(std::bind(&session_impl::on_udp_packet
, this, socket, ssl, _1));
2010-08-03 11:08:37 +02:00
}
void session_impl::async_accept(boost::shared_ptr<tcp::acceptor> const& listener, bool ssl)
{
TORRENT_ASSERT(!m_abort);
shared_ptr<socket_type> c(new socket_type(m_io_service));
2016-07-09 22:26:26 +02:00
tcp::socket* str = nullptr;
2012-01-14 17:04:25 +01:00
#ifdef TORRENT_USE_OPENSSL
if (ssl)
{
// accept connections initializing the SSL connection to
// use the generic m_ssl_ctx context. However, since it has
// the servername callback set on it, we will switch away from
// this context into a specific torrent once we start handshaking
c->instantiate<ssl_stream<tcp::socket> >(m_io_service, &m_ssl_ctx);
str = &c->get<ssl_stream<tcp::socket> >()->next_layer();
2012-01-14 17:04:25 +01:00
}
else
#endif
{
c->instantiate<tcp::socket>(m_io_service);
str = c->get<tcp::socket>();
2012-01-14 17:04:25 +01:00
}
ADD_OUTSTANDING_ASYNC("session_impl::on_accept_connection");
2015-01-04 02:04:56 +01:00
#ifdef TORRENT_USE_OPENSSL
TORRENT_ASSERT(ssl == is_ssl(*c));
#endif
2012-01-14 17:04:25 +01:00
listener->async_accept(*str
, std::bind(&session_impl::on_accept_connection, this, c
, boost::weak_ptr<tcp::acceptor>(listener), _1, ssl));
}
void session_impl::on_accept_connection(shared_ptr<socket_type> const& s
, weak_ptr<tcp::acceptor> listen_socket, error_code const& e
, bool const ssl)
{
COMPLETE_ASYNC("session_impl::on_accept_connection");
m_stats_counters.inc_stats_counter(counters::on_accept_counter);
2014-07-06 21:18:00 +02:00
TORRENT_ASSERT(is_single_thread());
boost::shared_ptr<tcp::acceptor> listener = listen_socket.lock();
if (!listener) return;
if (e == boost::asio::error::operation_aborted) return;
if (m_abort) return;
2008-05-03 18:05:42 +02:00
error_code ec;
if (e)
{
tcp::endpoint ep = listener->local_endpoint(ec);
#ifndef TORRENT_DISABLE_LOGGING
session_log("error accepting connection on '%s': %s"
, print_endpoint(ep).c_str(), e.message().c_str());
#endif
2008-04-24 05:28:48 +02:00
#ifdef TORRENT_WINDOWS
// Windows sometimes generates this error. It seems to be
// non-fatal and we have to do another async_accept.
if (e.value() == ERROR_SEM_TIMEOUT)
{
2012-01-14 17:04:25 +01:00
async_accept(listener, ssl);
return;
}
2008-04-03 06:35:56 +02:00
#endif
#ifdef TORRENT_BSD
// Leopard sometimes generates an "invalid argument" error. It seems to be
// non-fatal and we have to do another async_accept.
if (e.value() == EINVAL)
{
2012-01-14 17:04:25 +01:00
async_accept(listener, ssl);
2008-04-03 06:35:56 +02:00
return;
}
#endif
if (e == boost::system::errc::too_many_files_open)
{
// if we failed to accept an incoming connection
// because we have too many files open, try again
// and lower the number of file descriptors used
// elsewere.
2014-07-06 21:18:00 +02:00
if (m_settings.get_int(settings_pack::connections_limit) > 10)
{
// now, disconnect a random peer
torrent_map::iterator i = std::max_element(m_torrents.begin(), m_torrents.end()
, [](torrent_map::value_type const& lhs, torrent_map::value_type const& rhs)
{ return lhs.second->num_peers() < rhs.second->num_peers(); });
if (m_alerts.should_post<performance_alert>())
m_alerts.emplace_alert<performance_alert>(
torrent_handle(), performance_alert::too_few_file_descriptors);
if (i != m_torrents.end())
{
i->second->disconnect_peers(1, e);
}
m_settings.set_int(settings_pack::connections_limit, int(m_connections.size()));
}
// try again, but still alert the user of the problem
2012-01-14 17:04:25 +01:00
async_accept(listener, ssl);
}
if (m_alerts.should_post<listen_failed_alert>())
2014-07-06 21:18:00 +02:00
{
error_code err;
m_alerts.emplace_alert<listen_failed_alert>(ep.address().to_string(err)
, ep, listen_failed_alert::accept, e
, ssl ? listen_failed_alert::tcp_ssl : listen_failed_alert::tcp);
2014-07-06 21:18:00 +02:00
}
return;
}
2012-01-14 17:04:25 +01:00
async_accept(listener, ssl);
#ifdef TORRENT_USE_OPENSSL
if (ssl)
{
2015-01-04 02:04:56 +01:00
TORRENT_ASSERT(is_ssl(*s));
2012-01-14 17:04:25 +01:00
// for SSL connections, incoming_connection() is called
// after the handshake is done
ADD_OUTSTANDING_ASYNC("session_impl::ssl_handshake");
s->get<ssl_stream<tcp::socket> >()->async_accept_handshake(
std::bind(&session_impl::ssl_handshake, this, _1, s));
2013-08-21 17:55:24 +02:00
m_incoming_sockets.insert(s);
2012-01-14 17:04:25 +01:00
}
else
#endif
{
incoming_connection(s);
}
}
#ifdef TORRENT_USE_OPENSSL
2015-01-04 02:04:56 +01:00
void session_impl::on_incoming_utp_ssl(boost::shared_ptr<socket_type> const& s)
{
TORRENT_ASSERT(is_ssl(*s));
// for SSL connections, incoming_connection() is called
// after the handshake is done
ADD_OUTSTANDING_ASYNC("session_impl::ssl_handshake");
2015-01-04 02:04:56 +01:00
s->get<ssl_stream<utp_stream> >()->async_accept_handshake(
std::bind(&session_impl::ssl_handshake, this, _1, s));
2015-01-04 02:04:56 +01:00
m_incoming_sockets.insert(s);
}
2012-01-14 17:04:25 +01:00
// to test SSL connections, one can use this openssl command template:
//
// openssl s_client -cert <client-cert>.pem -key <client-private-key>.pem
// -CAfile <torrent-cert>.pem -debug -connect 127.0.0.1:4433 -tls1
2012-01-14 17:04:25 +01:00
// -servername <hex-encoded-info-hash>
void session_impl::ssl_handshake(error_code const& ec, boost::shared_ptr<socket_type> s)
{
COMPLETE_ASYNC("session_impl::ssl_handshake");
2015-01-04 02:04:56 +01:00
TORRENT_ASSERT(is_ssl(*s));
2013-08-21 17:55:24 +02:00
m_incoming_sockets.erase(s);
2012-01-14 17:04:25 +01:00
error_code e;
tcp::endpoint endp = s->remote_endpoint(e);
if (e) return;
#ifndef TORRENT_DISABLE_LOGGING
session_log(" *** peer SSL handshake done [ ip: %s ec: %s socket: %s ]"
, print_endpoint(endp).c_str(), ec.message().c_str(), s->type_name());
2012-01-14 17:04:25 +01:00
#endif
if (ec)
{
if (m_alerts.should_post<peer_error_alert>())
{
m_alerts.emplace_alert<peer_error_alert>(torrent_handle(), endp
, peer_id(), op_ssl_handshake, ec);
2012-01-14 17:04:25 +01:00
}
return;
}
incoming_connection(s);
}
2012-01-14 17:04:25 +01:00
#endif // TORRENT_USE_OPENSSL
void session_impl::incoming_connection(boost::shared_ptr<socket_type> const& s)
{
2014-07-06 21:18:00 +02:00
TORRENT_ASSERT(is_single_thread());
#ifdef TORRENT_USE_OPENSSL
// add the current time to the PRNG, to add more unpredictability
std::uint64_t now = clock_type::now().time_since_epoch().count();
// assume 12 bits of entropy (i.e. about 8 milliseconds)
RAND_add(&now, 8, 1.5);
#endif
if (m_paused)
{
#ifndef TORRENT_DISABLE_LOGGING
session_log(" <== INCOMING CONNECTION [ ignored, paused ]");
#endif
return;
}
error_code ec;
// we got a connection request!
tcp::endpoint endp = s->remote_endpoint(ec);
if (ec)
{
#ifndef TORRENT_DISABLE_LOGGING
2015-04-29 07:48:09 +02:00
session_log(" <== INCOMING CONNECTION FAILED, could "
"not retrieve remote endpoint: %s"
, ec.message().c_str());
#endif
return;
}
#ifndef TORRENT_DISABLE_LOGGING
session_log(" <== INCOMING CONNECTION %s type: %s"
, print_endpoint(endp).c_str(), s->type_name());
#endif
2014-07-06 21:18:00 +02:00
if (!m_settings.get_bool(settings_pack::enable_incoming_utp)
&& is_utp(*s))
2010-11-29 02:33:05 +01:00
{
#ifndef TORRENT_DISABLE_LOGGING
session_log(" rejected uTP connection");
2010-11-29 02:33:05 +01:00
#endif
if (m_alerts.should_post<peer_blocked_alert>())
m_alerts.emplace_alert<peer_blocked_alert>(torrent_handle()
, endp, peer_blocked_alert::utp_disabled);
2010-11-29 02:33:05 +01:00
return;
}
2014-07-06 21:18:00 +02:00
if (!m_settings.get_bool(settings_pack::enable_incoming_tcp)
&& s->get<tcp::socket>())
2010-11-29 02:33:05 +01:00
{
#ifndef TORRENT_DISABLE_LOGGING
session_log(" rejected TCP connection");
2010-11-29 02:33:05 +01:00
#endif
if (m_alerts.should_post<peer_blocked_alert>())
m_alerts.emplace_alert<peer_blocked_alert>(torrent_handle()
, endp, peer_blocked_alert::tcp_disabled);
2010-11-29 02:33:05 +01:00
return;
}
2014-07-06 21:18:00 +02:00
// if there are outgoing interfaces specified, verify this
// peer is correctly bound to on of them
if (!m_settings.get_str(settings_pack::outgoing_interfaces).empty())
{
tcp::endpoint local = s->local_endpoint(ec);
if (ec)
{
#ifndef TORRENT_DISABLE_LOGGING
2014-07-06 21:18:00 +02:00
session_log(" rejected connection: (%d) %s", ec.value()
, ec.message().c_str());
#endif
return;
}
if (!verify_bound_address(local.address()
, is_utp(*s), ec))
{
if (ec)
{
#ifndef TORRENT_DISABLE_LOGGING
2014-07-06 21:18:00 +02:00
session_log(" rejected connection, not allowed local interface: (%d) %s"
, ec.value(), ec.message().c_str());
#endif
return;
}
#ifndef TORRENT_DISABLE_LOGGING
2016-02-02 07:57:56 +01:00
error_code err;
2014-07-06 21:18:00 +02:00
session_log(" rejected connection, not allowed local interface: %s"
2016-02-02 07:57:56 +01:00
, local.address().to_string(err).c_str());
2014-07-06 21:18:00 +02:00
#endif
if (m_alerts.should_post<peer_blocked_alert>())
m_alerts.emplace_alert<peer_blocked_alert>(torrent_handle()
, endp, peer_blocked_alert::invalid_local_interface);
2014-07-06 21:18:00 +02:00
return;
}
}
// local addresses do not count, since it's likely
// coming from our own client through local service discovery
// and it does not reflect whether or not a router is open
// for incoming connections or not.
if (!is_local(endp.address()))
2014-07-06 21:18:00 +02:00
m_stats_counters.set_value(counters::has_incoming_connections, 1);
2011-03-02 18:37:10 +01:00
// this filter is ignored if a single torrent
// is set to ignore the filter, since this peer might be
// for that torrent
2014-07-06 21:18:00 +02:00
if (m_stats_counters[counters::non_filter_torrents] == 0
&& m_ip_filter
&& (m_ip_filter->access(endp.address()) & ip_filter::blocked))
{
#ifndef TORRENT_DISABLE_LOGGING
session_log("filtered blocked ip");
#endif
if (m_alerts.should_post<peer_blocked_alert>())
m_alerts.emplace_alert<peer_blocked_alert>(torrent_handle()
, endp, peer_blocked_alert::ip_filter);
return;
}
// check if we have any active torrents
// if we don't reject the connection
if (m_torrents.empty())
{
#ifndef TORRENT_DISABLE_LOGGING
session_log(" There are no torrents, disconnect");
#endif
return;
}
2014-07-06 21:18:00 +02:00
// figure out which peer classes this is connections has,
// to get connection_limit_factor
peer_class_set pcs;
set_peer_classes(&pcs, endp.address(), s->type());
int connection_limit_factor = 0;
for (int i = 0; i < pcs.num_classes(); ++i)
{
int pc = pcs.class_at(i);
if (m_classes.at(pc) == nullptr) continue;
2014-07-06 21:18:00 +02:00
int f = m_classes.at(pc)->connection_limit_factor;
if (connection_limit_factor < f) connection_limit_factor = f;
}
if (connection_limit_factor == 0) connection_limit_factor = 100;
std::uint64_t limit = m_settings.get_int(settings_pack::connections_limit);
2014-07-06 21:18:00 +02:00
limit = limit * 100 / connection_limit_factor;
2007-10-27 23:21:44 +02:00
// don't allow more connections than the max setting
2014-07-06 21:18:00 +02:00
// weighed by the peer class' setting
bool reject = num_connections() >= limit + m_settings.get_int(settings_pack::connections_slack);
if (reject)
2007-10-27 23:21:44 +02:00
{
if (m_alerts.should_post<peer_disconnected_alert>())
{
m_alerts.emplace_alert<peer_disconnected_alert>(torrent_handle(), endp, peer_id()
, op_bittorrent, s->type()
, error_code(errors::too_many_connections, get_libtorrent_category())
, close_no_reason);
}
#ifndef TORRENT_DISABLE_LOGGING
2014-07-06 21:18:00 +02:00
session_log("number of connections limit exceeded (conns: %d, limit: %d, slack: %d), connection rejected"
, num_connections(), m_settings.get_int(settings_pack::connections_limit)
, m_settings.get_int(settings_pack::connections_slack));
2007-10-27 23:21:44 +02:00
#endif
return;
}
// if we don't have any active torrents, there's no
// point in accepting this connection. If, however,
// the setting to start up queued torrents when they
// get an incoming connection is enabled, we cannot
// perform this check.
2014-07-06 21:18:00 +02:00
if (!m_settings.get_bool(settings_pack::incoming_starts_queued_torrents))
2007-09-04 00:27:52 +02:00
{
bool has_active_torrent = false;
for (torrent_map::iterator i = m_torrents.begin()
, end(m_torrents.end()); i != end; ++i)
2007-09-04 00:27:52 +02:00
{
2016-06-01 07:05:32 +02:00
if (!i->second->is_torrent_paused())
{
has_active_torrent = true;
break;
}
2007-09-04 00:27:52 +02:00
}
if (!has_active_torrent)
{
#ifndef TORRENT_DISABLE_LOGGING
session_log(" There are no _active_ torrents, disconnect");
#endif
return;
}
}
2007-09-04 00:27:52 +02:00
2014-07-06 21:18:00 +02:00
m_stats_counters.inc_stats_counter(counters::incoming_connections);
if (m_alerts.should_post<incoming_connection_alert>())
m_alerts.emplace_alert<incoming_connection_alert>(s->type(), endp);
2014-07-06 21:18:00 +02:00
setup_socket_buffers(*s);
peer_connection_args pack;
pack.ses = this;
pack.sett = &m_settings;
pack.stats_counters = &m_stats_counters;
pack.allocator = this;
pack.disk_thread = &m_disk_thread;
pack.ios = &m_io_service;
pack.tor = boost::weak_ptr<torrent>();
pack.s = s;
2014-09-28 06:05:44 +02:00
pack.endp = endp;
2016-07-09 22:26:26 +02:00
pack.peerinfo = nullptr;
2014-07-06 21:18:00 +02:00
boost::shared_ptr<peer_connection> c
= boost::make_shared<bt_peer_connection>(boost::cref(pack)
2014-07-06 21:18:00 +02:00
, get_peer_id());
#if TORRENT_USE_ASSERTS
c->m_in_constructor = false;
#endif
if (!c->is_disconnecting())
{
// in case we've exceeded the limit, let this peer know that
// as soon as it's received the handshake, it needs to either
// disconnect or pick another peer to disconnect
2014-07-06 21:18:00 +02:00
if (num_connections() >= limit)
c->peer_exceeds_limit();
TORRENT_ASSERT(!c->m_in_constructor);
m_connections.insert(c);
c->start();
}
}
void session_impl::setup_socket_buffers(socket_type& s)
{
error_code ec;
set_socket_buffer_size(s, m_settings, ec);
}
2014-07-06 21:18:00 +02:00
// if cancel_with_cq is set, the peer connection is
// currently expected to be scheduled for a connection
// with the connection queue, and should be cancelled
// TODO: should this function take a shared_ptr instead?
void session_impl::close_connection(peer_connection* p
, error_code const& ec)
{
2014-07-06 21:18:00 +02:00
TORRENT_ASSERT(is_single_thread());
boost::shared_ptr<peer_connection> sp(p->self());
// someone else is holding a reference, it's important that
// it's destructed from the network thread. Make sure the
// last reference is held by the network thread.
2014-07-06 21:18:00 +02:00
if (!sp.unique())
m_undead_peers.push_back(sp);
#ifndef TORRENT_DISABLE_LOGGING
session_log(" CLOSING CONNECTION %s : %s"
, print_endpoint(p->remote()).c_str(), ec.message().c_str());
2015-08-22 00:28:12 +02:00
#else
TORRENT_UNUSED(ec);
2007-12-19 22:36:54 +01:00
#endif
TORRENT_ASSERT(p->is_disconnecting());
2014-07-06 21:18:00 +02:00
TORRENT_ASSERT(sp.use_count() > 0);
connection_map::iterator i = m_connections.find(sp);
// make sure the next disk peer round-robin cursor stays valid
if (i != m_connections.end()) m_connections.erase(i);
}
void session_impl::set_peer_id(peer_id const& id)
{
m_peer_id = id;
}
void session_impl::set_key(int key)
{
m_key = key;
}
2014-07-06 21:18:00 +02:00
int session_impl::next_port() const
{
2014-07-06 21:18:00 +02:00
int start = m_settings.get_int(settings_pack::outgoing_port);
int num = m_settings.get_int(settings_pack::num_outgoing_ports);
std::pair<int, int> out_ports(start, start + num);
if (m_next_port < out_ports.first || m_next_port > out_ports.second)
m_next_port = out_ports.first;
int port = m_next_port;
++m_next_port;
if (m_next_port > out_ports.second) m_next_port = out_ports.first;
#ifndef TORRENT_DISABLE_LOGGING
session_log(" *** BINDING OUTGOING CONNECTION [ port: %d ]", port);
#endif
return port;
}
2014-07-06 21:18:00 +02:00
int session_impl::rate_limit(peer_class_t c, int channel) const
{
2014-07-06 21:18:00 +02:00
TORRENT_ASSERT(channel >= 0 && channel <= 1);
if (channel < 0 || channel > 1) return 0;
2014-07-06 21:18:00 +02:00
peer_class const* pc = m_classes.at(c);
2016-07-09 22:26:26 +02:00
if (pc == nullptr) return 0;
2014-07-06 21:18:00 +02:00
return pc->channel[channel].throttle();
}
2014-07-06 21:18:00 +02:00
int session_impl::upload_rate_limit(peer_class_t c) const
{
return rate_limit(c, peer_connection::upload_channel);
}
int session_impl::download_rate_limit(peer_class_t c) const
{
return rate_limit(c, peer_connection::download_channel);
}
void session_impl::set_rate_limit(peer_class_t c, int channel, int limit)
{
TORRENT_ASSERT(is_single_thread());
TORRENT_ASSERT(limit >= -1);
TORRENT_ASSERT(channel >= 0 && channel <= 1);
if (channel < 0 || channel > 1) return;
peer_class* pc = m_classes.at(c);
2016-07-09 22:26:26 +02:00
if (pc == nullptr) return;
2014-07-06 21:18:00 +02:00
if (limit <= 0) limit = 0;
pc->channel[channel].throttle(limit);
}
void session_impl::set_upload_rate_limit(peer_class_t c, int limit)
{
set_rate_limit(c, peer_connection::upload_channel, limit);
}
void session_impl::set_download_rate_limit(peer_class_t c, int limit)
{
set_rate_limit(c, peer_connection::download_channel, limit);
}
#if TORRENT_USE_ASSERTS
bool session_impl::has_peer(peer_connection const* p) const
{
TORRENT_ASSERT(is_single_thread());
return std::any_of(m_connections.begin(), m_connections.end()
, [p] (boost::shared_ptr<peer_connection> const& pr)
{ return pr.get() == p; });
2014-07-06 21:18:00 +02:00
}
bool session_impl::any_torrent_has_peer(peer_connection const* p) const
{
for (auto& pe : m_torrents)
if (pe.second->has_peer(p)) return true;
2014-07-06 21:18:00 +02:00
return false;
}
#endif
void session_impl::sent_bytes(int bytes_payload, int bytes_protocol)
{
m_stats_counters.inc_stats_counter(counters::sent_bytes
, bytes_payload + bytes_protocol);
m_stats_counters.inc_stats_counter(counters::sent_payload_bytes
, bytes_payload);
2014-07-06 21:18:00 +02:00
m_stat.sent_bytes(bytes_payload, bytes_protocol);
}
void session_impl::received_bytes(int bytes_payload, int bytes_protocol)
{
m_stats_counters.inc_stats_counter(counters::recv_bytes
, bytes_payload + bytes_protocol);
m_stats_counters.inc_stats_counter(counters::recv_payload_bytes
, bytes_payload);
2014-07-06 21:18:00 +02:00
m_stat.received_bytes(bytes_payload, bytes_protocol);
}
void session_impl::trancieve_ip_packet(int bytes, bool ipv6)
{
m_stat.trancieve_ip_packet(bytes, ipv6);
}
void session_impl::sent_syn(bool ipv6)
{
m_stat.sent_syn(ipv6);
}
void session_impl::received_synack(bool ipv6)
{
m_stat.received_synack(ipv6);
}
void session_impl::on_tick(error_code const& e)
{
COMPLETE_ASYNC("session_impl::on_tick");
m_stats_counters.inc_stats_counter(counters::on_tick_counter);
2014-07-06 21:18:00 +02:00
TORRENT_ASSERT(is_single_thread());
// submit all disk jobs when we leave this function
deferred_submit_jobs();
2015-05-16 20:35:47 +02:00
aux::update_time_now();
time_point now = aux::time_now();
// remove undead peers that only have this list as their reference keeping them alive
if (!m_undead_peers.empty())
{
std::vector<boost::shared_ptr<peer_connection> >::iterator remove_it
= std::remove_if(m_undead_peers.begin(), m_undead_peers.end()
, std::bind(&boost::shared_ptr<peer_connection>::unique, _1));
m_undead_peers.erase(remove_it, m_undead_peers.end());
if (m_undead_peers.empty())
{
// we just removed our last "undead" peer (i.e. a peer connection
// that had some external reference to it). It's now safe to
// shut-down
if (m_abort)
{
m_io_service.post(std::bind(&session_impl::abort_stage2, this));
}
}
}
2014-07-06 21:18:00 +02:00
// too expensive
// INVARIANT_CHECK;
2007-08-21 20:33:28 +02:00
2012-01-23 06:02:12 +01:00
// we have to keep ticking the utp socket manager
// until they're all closed
2014-07-06 21:18:00 +02:00
if (m_abort)
2012-01-23 06:02:12 +01:00
{
if (m_utp_socket_manager.num_sockets() == 0
#ifdef TORRENT_USE_OPENSSL
&& m_ssl_utp_socket_manager.num_sockets() == 0
#endif
&& m_undead_peers.empty())
{
2014-07-06 21:18:00 +02:00
return;
}
2012-01-23 06:02:12 +01:00
#if defined TORRENT_ASIO_DEBUGGING
std::fprintf(stderr, "uTP sockets: %d ssl-uTP sockets: %d undead-peers left: %d\n"
, m_utp_socket_manager.num_sockets()
#ifdef TORRENT_USE_OPENSSL
, m_ssl_utp_socket_manager.num_sockets()
#else
, 0
#endif
, int(m_undead_peers.size()));
2012-01-23 06:02:12 +01:00
#endif
}
if (e == boost::asio::error::operation_aborted) return;
2010-03-17 20:01:08 +01:00
if (e)
{
#ifndef TORRENT_DISABLE_LOGGING
session_log("*** TICK TIMER FAILED %s", e.message().c_str());
#endif
2015-08-18 16:42:03 +02:00
std::abort();
}
ADD_OUTSTANDING_ASYNC("session_impl::on_tick");
2008-05-03 18:05:42 +02:00
error_code ec;
2014-07-06 21:18:00 +02:00
m_timer.expires_at(now + milliseconds(m_settings.get_int(settings_pack::tick_interval)), ec);
m_timer.async_wait(make_tick_handler(std::bind(&session_impl::on_tick, this, _1)));
m_download_rate.update_quotas(now - m_last_tick);
m_upload_rate.update_quotas(now - m_last_tick);
m_last_tick = now;
2010-11-29 02:33:05 +01:00
m_utp_socket_manager.tick(now);
2016-04-09 16:50:45 +02:00
#ifdef TORRENT_USE_OPENSSL
m_ssl_utp_socket_manager.tick(now);
#endif
2010-11-29 02:33:05 +01:00
// only tick the following once per second
if (now - m_last_second_tick < seconds(1)) return;
2012-08-03 07:13:40 +02:00
#ifndef TORRENT_DISABLE_DHT
if (m_dht
&& m_dht_interval_update_torrents < 40
&& m_dht_interval_update_torrents != int(m_torrents.size()))
2012-08-03 07:13:40 +02:00
update_dht_announce_interval();
#endif
2014-05-10 05:23:05 +02:00
int tick_interval_ms = int(total_milliseconds(now - m_last_second_tick));
m_last_second_tick = now;
m_tick_residual += tick_interval_ms - 1000;
std::int32_t const stime = session_time();
if (stime > 65000)
{
// we're getting close to the point where our timestamps
2014-07-06 21:18:00 +02:00
// in torrent_peer are wrapping. We need to step all counters back
// four hours. This means that any timestamp that refers to a time
// more than 18.2 - 4 = 14.2 hours ago, will be incremented to refer to
// 14.2 hours ago.
m_created += hours(4);
const int four_hours = 60 * 60 * 4;
for (torrent_map::iterator i = m_torrents.begin()
, end(m_torrents.end()); i != end; ++i)
{
2014-07-06 21:18:00 +02:00
i->second->step_session_time(four_hours);
}
}
#ifndef TORRENT_DISABLE_EXTENSIONS
for (auto& ext : m_ses_extensions[plugins_tick_idx])
{
TORRENT_TRY {
ext->on_tick();
} TORRENT_CATCH(std::exception&) {}
}
#endif
2012-02-21 00:44:34 +01:00
// don't do any of the following while we're shutting down
if (m_abort) return;
2014-07-06 21:18:00 +02:00
switch (m_settings.get_int(settings_pack::mixed_mode_algorithm))
2010-11-29 02:33:05 +01:00
{
2014-07-06 21:18:00 +02:00
case settings_pack::prefer_tcp:
set_upload_rate_limit(m_tcp_peer_class, 0);
set_download_rate_limit(m_tcp_peer_class, 0);
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break;
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case settings_pack::peer_proportional:
2010-11-29 02:33:05 +01:00
{
int num_peers[2][2] = {{0, 0}, {0, 0}};
2010-11-29 02:33:05 +01:00
for (connection_map::iterator i = m_connections.begin()
, end(m_connections.end());i != end; ++i)
{
peer_connection& p = *(*i);
if (p.in_handshake()) continue;
int protocol = 0;
2012-10-05 05:20:40 +02:00
if (is_utp(*p.get_socket())) protocol = 1;
2010-11-29 02:33:05 +01:00
if (p.download_queue().size() + p.request_queue().size() > 0)
++num_peers[protocol][peer_connection::download_channel];
if (p.upload_queue().size() > 0)
++num_peers[protocol][peer_connection::upload_channel];
2010-11-29 02:33:05 +01:00
}
2014-07-06 21:18:00 +02:00
peer_class* pc = m_classes.at(m_tcp_peer_class);
bandwidth_channel* tcp_channel = pc->channel;
int stat_rate[] = {m_stat.upload_rate(), m_stat.download_rate() };
// never throttle below this
int lower_limit[] = {5000, 30000};
for (int i = 0; i < 2; ++i)
2010-11-29 02:33:05 +01:00
{
// if there are no uploading uTP peers, don't throttle TCP up
if (num_peers[1][i] == 0)
{
2014-07-06 21:18:00 +02:00
tcp_channel[i].throttle(0);
}
else
{
if (num_peers[0][i] == 0) num_peers[0][i] = 1;
int total_peers = num_peers[0][i] + num_peers[1][i];
// this are 64 bits since it's multiplied by the number
// of peers, which otherwise might overflow an int
std::uint64_t rate = stat_rate[i];
2014-07-06 21:18:00 +02:00
tcp_channel[i].throttle((std::max)(int(rate * num_peers[0][i] / total_peers), lower_limit[i]));
}
2010-11-29 02:33:05 +01:00
}
}
break;
}
// --------------------------------------------------------------
// auto managed torrent
// --------------------------------------------------------------
if (!m_paused) m_auto_manage_time_scaler--;
if (m_auto_manage_time_scaler < 0)
{
2014-07-06 21:18:00 +02:00
INVARIANT_CHECK;
m_auto_manage_time_scaler = settings().get_int(settings_pack::auto_manage_interval);
recalculate_auto_managed_torrents();
}
// --------------------------------------------------------------
// check for incoming connections that might have timed out
// --------------------------------------------------------------
for (connection_map::iterator i = m_connections.begin();
i != m_connections.end();)
{
peer_connection* p = (*i).get();
++i;
// ignore connections that already have a torrent, since they
// are ticked through the torrents' second_tick
if (!p->associated_torrent().expired()) continue;
2014-07-06 21:18:00 +02:00
2013-02-07 07:41:11 +01:00
// TODO: have a separate list for these connections, instead of having to loop through all of them
2015-06-17 07:18:38 +02:00
int timeout = m_settings.get_int(settings_pack::handshake_timeout);
#if TORRENT_USE_I2P
timeout *= is_i2p(*p->get_socket()) ? 4 : 1;
#endif
if (m_last_tick - p->connected_time () > seconds(timeout))
p->disconnect(errors::timed_out, op_bittorrent);
}
// --------------------------------------------------------------
2014-07-06 21:18:00 +02:00
// second_tick every torrent (that wants it)
// --------------------------------------------------------------
#if TORRENT_DEBUG_STREAMING > 0
std::printf("\033[2J\033[0;0H");
#endif
2014-07-06 21:18:00 +02:00
std::vector<torrent*>& want_tick = m_torrent_lists[torrent_want_tick];
for (int i = 0; i < int(want_tick.size()); ++i)
{
2014-07-06 21:18:00 +02:00
torrent& t = *want_tick[i];
TORRENT_ASSERT(t.want_tick());
TORRENT_ASSERT(!t.is_aborted());
2015-08-29 22:07:19 +02:00
t.second_tick(tick_interval_ms);
2014-07-06 21:18:00 +02:00
// if the call to second_tick caused the torrent
// to no longer want to be ticked (i.e. it was
// removed from the list) we need to back up the counter
// to not miss the torrent after it
if (!t.want_tick()) --i;
}
2014-07-06 21:18:00 +02:00
// TODO: this should apply to all bandwidth channels
if (m_settings.get_bool(settings_pack::rate_limit_ip_overhead))
{
2014-07-06 21:18:00 +02:00
int up_limit = upload_rate_limit(m_global_class);
int down_limit = download_rate_limit(m_global_class);
if (down_limit > 0
&& m_stat.download_ip_overhead() >= down_limit
&& m_alerts.should_post<performance_alert>())
{
m_alerts.emplace_alert<performance_alert>(torrent_handle()
, performance_alert::download_limit_too_low);
}
if (up_limit > 0
&& m_stat.upload_ip_overhead() >= up_limit
&& m_alerts.should_post<performance_alert>())
{
m_alerts.emplace_alert<performance_alert>(torrent_handle()
, performance_alert::upload_limit_too_low);
}
}
m_peak_up_rate = (std::max)(m_stat.upload_rate(), m_peak_up_rate);
m_peak_down_rate = (std::max)(m_stat.download_rate(), m_peak_down_rate);
m_stat.second_tick(tick_interval_ms);
// --------------------------------------------------------------
// scrape paused torrents that are auto managed
// (unless the session is paused)
// --------------------------------------------------------------
if (!m_paused)
{
2014-07-06 21:18:00 +02:00
INVARIANT_CHECK;
--m_auto_scrape_time_scaler;
if (m_auto_scrape_time_scaler <= 0)
{
2014-07-06 21:18:00 +02:00
std::vector<torrent*>& want_scrape = m_torrent_lists[torrent_want_scrape];
m_auto_scrape_time_scaler = m_settings.get_int(settings_pack::auto_scrape_interval)
/ (std::max)(1, int(want_scrape.size()));
if (m_auto_scrape_time_scaler < m_settings.get_int(settings_pack::auto_scrape_min_interval))
m_auto_scrape_time_scaler = m_settings.get_int(settings_pack::auto_scrape_min_interval);
2014-07-06 21:18:00 +02:00
if (!want_scrape.empty() && !m_abort)
{
2014-07-06 21:18:00 +02:00
if (m_next_scrape_torrent >= int(want_scrape.size()))
m_next_scrape_torrent = 0;
torrent& t = *want_scrape[m_next_scrape_torrent];
TORRENT_ASSERT(t.is_paused() && t.is_auto_managed());
// false means it's not triggered by the user, but automatically
// by libtorrent
t.scrape_tracker(-1, false);
2014-07-06 21:18:00 +02:00
++m_next_scrape_torrent;
if (m_next_scrape_torrent >= int(want_scrape.size()))
m_next_scrape_torrent = 0;
}
}
}
// --------------------------------------------------------------
// connect new peers
// --------------------------------------------------------------
2011-02-03 07:22:22 +01:00
2014-07-06 21:18:00 +02:00
try_connect_more_peers();
// --------------------------------------------------------------
// unchoke set calculations
// --------------------------------------------------------------
m_unchoke_time_scaler--;
if (m_unchoke_time_scaler <= 0 && !m_connections.empty())
{
2014-07-06 21:18:00 +02:00
m_unchoke_time_scaler = settings().get_int(settings_pack::unchoke_interval);
recalculate_unchoke_slots();
2008-04-24 05:28:48 +02:00
}
// --------------------------------------------------------------
// optimistic unchoke calculation
// --------------------------------------------------------------
m_optimistic_unchoke_time_scaler--;
if (m_optimistic_unchoke_time_scaler <= 0)
{
m_optimistic_unchoke_time_scaler
2014-07-06 21:18:00 +02:00
= settings().get_int(settings_pack::optimistic_unchoke_interval);
recalculate_optimistic_unchoke_slots();
}
2008-04-24 05:28:48 +02:00
// --------------------------------------------------------------
// disconnect peers when we have too many
// --------------------------------------------------------------
--m_disconnect_time_scaler;
if (m_disconnect_time_scaler <= 0)
{
2014-07-06 21:18:00 +02:00
m_disconnect_time_scaler = m_settings.get_int(settings_pack::peer_turnover_interval);
2008-04-24 05:28:48 +02:00
2014-08-16 09:46:06 +02:00
// if the connections_limit is too low, the disconnect
// logic is disabled, since it is too disruptive
if (m_settings.get_int(settings_pack::connections_limit) > 5)
{
2014-08-16 09:46:06 +02:00
if (num_connections() >= m_settings.get_int(settings_pack::connections_limit)
* m_settings.get_int(settings_pack::peer_turnover_cutoff) / 100
&& !m_torrents.empty())
{
2014-08-16 09:46:06 +02:00
// every 90 seconds, disconnect the worst peers
// if we have reached the connection limit
torrent_map::iterator i = std::max_element(m_torrents.begin(), m_torrents.end()
, [] (torrent_map::value_type const& lhs, torrent_map::value_type const& rhs)
{ return lhs.second->num_peers() < rhs.second->num_peers(); });
2014-08-16 09:46:06 +02:00
TORRENT_ASSERT(i != m_torrents.end());
int peers_to_disconnect = (std::min)((std::max)(
int(i->second->num_peers() * m_settings.get_int(settings_pack::peer_turnover) / 100), 1)
2014-07-06 21:18:00 +02:00
, i->second->num_connect_candidates());
2014-08-16 09:46:06 +02:00
i->second->disconnect_peers(peers_to_disconnect
, error_code(errors::optimistic_disconnect, get_libtorrent_category()));
}
2014-08-16 09:46:06 +02:00
else
{
// if we haven't reached the global max. see if any torrent
// has reached its local limit
for (torrent_map::iterator i = m_torrents.begin()
, end(m_torrents.end()); i != end; ++i)
{
boost::shared_ptr<torrent> t = i->second;
// ths disconnect logic is disabled for torrents with
// too low connection limit
if (t->num_peers() < t->max_connections()
* m_settings.get_int(settings_pack::peer_turnover_cutoff) / 100
|| t->max_connections() < 6)
continue;
int peers_to_disconnect = (std::min)((std::max)(int(t->num_peers()
* m_settings.get_int(settings_pack::peer_turnover) / 100), 1)
, t->num_connect_candidates());
t->disconnect_peers(peers_to_disconnect
, error_code(errors::optimistic_disconnect, get_libtorrent_category()));
}
}
}
2008-04-24 05:28:48 +02:00
}
2014-07-06 21:18:00 +02:00
m_tick_residual = m_tick_residual % 1000;
// m_peer_pool.release_memory();
2008-04-24 05:28:48 +02:00
}
2015-04-20 02:01:27 +02:00
namespace {
2014-07-06 21:18:00 +02:00
// returns the index of the first set bit.
int log2(std::uint32_t v)
2014-07-06 21:18:00 +02:00
{
// http://graphics.stanford.edu/~seander/bithacks.html#IntegerLogDeBruijn
static const int MultiplyDeBruijnBitPosition[32] =
2014-07-06 21:18:00 +02:00
{
0, 9, 1, 10, 13, 21, 2, 29, 11, 14, 16, 18, 22, 25, 3, 30,
8, 12, 20, 28, 15, 17, 24, 7, 19, 27, 23, 6, 26, 5, 4, 31
};
v |= v >> 1; // first round down to one less than a power of 2
2014-07-06 21:18:00 +02:00
v |= v >> 2;
v |= v >> 4;
v |= v >> 8;
v |= v >> 16;
return MultiplyDeBruijnBitPosition[std::uint32_t(v * 0x07C4ACDDU) >> 27];
2014-07-06 21:18:00 +02:00
}
2015-04-20 02:01:27 +02:00
} // anonymous namespace
2014-07-06 21:18:00 +02:00
void session_impl::received_buffer(int s)
{
int index = (std::min)(log2(s >> 3), 17);
m_stats_counters.inc_stats_counter(counters::socket_recv_size3 + index);
}
void session_impl::sent_buffer(int s)
{
int index = (std::min)(log2(s >> 3), 17);
m_stats_counters.inc_stats_counter(counters::socket_send_size3 + index);
}
void session_impl::prioritize_connections(boost::weak_ptr<torrent> t)
{
m_prio_torrents.push_back(std::make_pair(t, 10));
}
#ifndef TORRENT_DISABLE_DHT
void session_impl::add_dht_node(udp::endpoint n)
{
2014-07-06 21:18:00 +02:00
TORRENT_ASSERT(is_single_thread());
if (m_dht) m_dht->add_node(n);
else m_dht_nodes.push_back(n);
}
2014-07-06 21:18:00 +02:00
bool session_impl::has_dht() const
{
return m_dht.get() != nullptr;
2014-07-06 21:18:00 +02:00
}
void session_impl::prioritize_dht(boost::weak_ptr<torrent> t)
{
2014-07-06 21:18:00 +02:00
TORRENT_ASSERT(!m_abort);
if (m_abort) return;
TORRENT_ASSERT(m_dht);
m_dht_torrents.push_back(t);
#ifndef TORRENT_DISABLE_LOGGING
2014-07-06 21:18:00 +02:00
boost::shared_ptr<torrent> tor = t.lock();
if (tor)
session_log("prioritizing DHT announce: \"%s\"", tor->name().c_str());
#endif
2014-11-01 23:47:56 +01:00
// trigger a DHT announce right away if we just added a new torrent and
// there's no back-log. in the timer handler, as long as there are more
// high priority torrents to be announced to the DHT, it will keep the
// timer interval short until all torrents have been announced.
if (m_dht_torrents.size() == 1)
{
ADD_OUTSTANDING_ASYNC("session_impl::on_dht_announce");
error_code ec;
m_dht_announce_timer.expires_from_now(seconds(0), ec);
m_dht_announce_timer.async_wait(
std::bind(&session_impl::on_dht_announce, this, _1));
}
}
void session_impl::on_dht_announce(error_code const& e)
{
COMPLETE_ASYNC("session_impl::on_dht_announce");
2014-07-06 21:18:00 +02:00
TORRENT_ASSERT(is_single_thread());
if (e)
{
#ifndef TORRENT_DISABLE_LOGGING
2014-07-06 21:18:00 +02:00
session_log("aborting DHT announce timer (%d): %s"
, e.value(), e.message().c_str());
#endif
return;
}
2014-07-06 21:18:00 +02:00
if (m_abort)
{
#ifndef TORRENT_DISABLE_LOGGING
2014-07-06 21:18:00 +02:00
session_log("aborting DHT announce timer: m_abort set");
#endif
return;
}
if (!m_dht)
{
m_dht_torrents.clear();
return;
}
TORRENT_ASSERT(m_dht);
// announce to DHT every 15 minutes
2014-07-06 21:18:00 +02:00
int delay = (std::max)(m_settings.get_int(settings_pack::dht_announce_interval)
/ (std::max)(int(m_torrents.size()), 1), 1);
if (!m_dht_torrents.empty())
{
// we have prioritized torrents that need
// an initial DHT announce. Don't wait too long
// until we announce those.
delay = (std::min)(4, delay);
}
ADD_OUTSTANDING_ASYNC("session_impl::on_dht_announce");
error_code ec;
m_dht_announce_timer.expires_from_now(seconds(delay), ec);
m_dht_announce_timer.async_wait(
std::bind(&session_impl::on_dht_announce, this, _1));
2012-08-03 07:13:40 +02:00
if (!m_dht_torrents.empty())
{
boost::shared_ptr<torrent> t;
do
{
t = m_dht_torrents.front().lock();
2012-08-03 07:13:40 +02:00
m_dht_torrents.pop_front();
2014-07-06 21:18:00 +02:00
} while (!t && !m_dht_torrents.empty());
2012-08-03 07:13:40 +02:00
if (t)
{
t->dht_announce();
return;
}
}
2010-02-14 18:24:53 +01:00
if (m_torrents.empty()) return;
if (m_next_dht_torrent == m_torrents.end())
m_next_dht_torrent = m_torrents.begin();
m_next_dht_torrent->second->dht_announce();
2014-07-06 21:18:00 +02:00
// TODO: 2 make a list for torrents that want to be announced on the DHT so we
// don't have to loop over all torrents, just to find the ones that want to announce
++m_next_dht_torrent;
if (m_next_dht_torrent == m_torrents.end())
m_next_dht_torrent = m_torrents.begin();
}
#endif
void session_impl::on_lsd_announce(error_code const& e)
{
COMPLETE_ASYNC("session_impl::on_lsd_announce");
m_stats_counters.inc_stats_counter(counters::on_lsd_counter);
2014-07-06 21:18:00 +02:00
TORRENT_ASSERT(is_single_thread());
if (e) return;
2010-02-13 17:29:17 +01:00
if (m_abort) return;
ADD_OUTSTANDING_ASYNC("session_impl::on_lsd_announce");
// announce on local network every 5 minutes
2014-07-06 21:18:00 +02:00
int delay = (std::max)(m_settings.get_int(settings_pack::local_service_announce_interval)
/ (std::max)(int(m_torrents.size()), 1), 1);
error_code ec;
m_lsd_announce_timer.expires_from_now(seconds(delay), ec);
m_lsd_announce_timer.async_wait(
std::bind(&session_impl::on_lsd_announce, this, _1));
2010-02-14 18:24:53 +01:00
if (m_torrents.empty()) return;
2010-02-13 17:29:17 +01:00
if (m_next_lsd_torrent == m_torrents.end())
m_next_lsd_torrent = m_torrents.begin();
m_next_lsd_torrent->second->lsd_announce();
++m_next_lsd_torrent;
if (m_next_lsd_torrent == m_torrents.end())
m_next_lsd_torrent = m_torrents.begin();
}
void session_impl::auto_manage_checking_torrents(std::vector<torrent*>& list
, int& limit)
{
for (std::vector<torrent*>::iterator i = list.begin()
, end(list.end()); i != end; ++i)
{
torrent* t = *i;
TORRENT_ASSERT(t->state() == torrent_status::checking_files);
TORRENT_ASSERT(t->is_auto_managed());
if (limit <= 0)
{
t->pause();
2014-07-06 21:18:00 +02:00
}
else
{
t->resume();
t->start_checking();
--limit;
}
}
}
void session_impl::auto_manage_torrents(std::vector<torrent*>& list
, int& dht_limit, int& tracker_limit
, int& lsd_limit, int& hard_limit, int type_limit)
{
for (std::vector<torrent*>::iterator i = list.begin()
, end(list.end()); i != end; ++i)
{
torrent* t = *i;
TORRENT_ASSERT(t->state() != torrent_status::checking_files);
// inactive torrents don't count (and if you configured them to do so,
// the torrent won't say it's inactive)
if (hard_limit > 0 && t->is_inactive())
{
t->set_announce_to_dht(--dht_limit >= 0);
t->set_announce_to_trackers(--tracker_limit >= 0);
t->set_announce_to_lsd(--lsd_limit >= 0);
--hard_limit;
#ifndef TORRENT_DISABLE_LOGGING
2016-06-01 07:05:32 +02:00
if (t->is_torrent_paused())
t->log_to_all_peers("auto manager starting (inactive) torrent");
#endif
2016-06-01 07:05:32 +02:00
t->set_paused(false);
continue;
}
if (type_limit > 0 && hard_limit > 0)
{
t->set_announce_to_dht(--dht_limit >= 0);
t->set_announce_to_trackers(--tracker_limit >= 0);
t->set_announce_to_lsd(--lsd_limit >= 0);
--hard_limit;
--type_limit;
#ifndef TORRENT_DISABLE_LOGGING
2016-06-01 07:05:32 +02:00
if (t->is_torrent_paused())
t->log_to_all_peers("auto manager starting torrent");
2010-08-18 19:14:40 +02:00
#endif
2016-06-01 07:05:32 +02:00
t->set_paused(false);
continue;
}
#ifndef TORRENT_DISABLE_LOGGING
2016-06-01 07:05:32 +02:00
if (!t->is_torrent_paused())
t->log_to_all_peers("auto manager pausing torrent");
#endif
// use graceful pause for auto-managed torrents
2016-06-01 07:05:32 +02:00
t->set_paused(true, torrent::flag_graceful_pause
| torrent::flag_clear_disk_cache);
t->set_announce_to_dht(false);
t->set_announce_to_trackers(false);
t->set_announce_to_lsd(false);
}
}
2008-06-21 14:31:28 +02:00
2016-03-27 18:09:53 +02:00
int session_impl::get_int_setting(int n) const
{
int const v = settings().get_int(n);
if (v < 0) return (std::numeric_limits<int>::max)();
return v;
}
2008-04-24 05:28:48 +02:00
void session_impl::recalculate_auto_managed_torrents()
{
INVARIANT_CHECK;
2015-04-06 02:06:26 +02:00
m_last_auto_manage = time_now();
m_need_auto_manage = false;
if (m_paused) return;
2014-07-06 21:18:00 +02:00
2015-05-25 23:46:42 +02:00
// make copies of the lists of torrents that we want to consider for auto
// management. We need copies because they will be sorted.
std::vector<torrent*> checking
= torrent_list(session_interface::torrent_checking_auto_managed);
std::vector<torrent*> downloaders
= torrent_list(session_interface::torrent_downloading_auto_managed);
std::vector<torrent*> seeds
= torrent_list(session_interface::torrent_seeding_auto_managed);
2008-04-24 05:28:48 +02:00
// these counters are set to the number of torrents
// of each kind we're allowed to have active
2016-03-27 18:09:53 +02:00
int downloading_limit = get_int_setting(settings_pack::active_downloads);
int seeding_limit = get_int_setting(settings_pack::active_seeds);
int checking_limit = get_int_setting(settings_pack::active_checking);
int dht_limit = get_int_setting(settings_pack::active_dht_limit);
int tracker_limit = get_int_setting(settings_pack::active_tracker_limit);
int lsd_limit = get_int_setting(settings_pack::active_lsd_limit);
int hard_limit = get_int_setting(settings_pack::active_limit);
// if hard_limit is <= 0, all torrents in these lists should be paused.
// The order is not relevant
if (hard_limit > 0)
{
// we only need to sort the first n torrents here, where n is the number
// of checking torrents we allow. The rest of the list is still used to
// make sure the remaining torrents are paused, but their order is not
// relevant
std::partial_sort(checking.begin(), checking.begin() +
(std::min)(checking_limit, int(checking.size())), checking.end()
, [](torrent const* lhs, torrent const* rhs)
{ return lhs->sequence_number() < rhs->sequence_number(); });
2008-04-24 05:28:48 +02:00
std::partial_sort(downloaders.begin(), downloaders.begin() +
(std::min)(hard_limit, int(downloaders.size())), downloaders.end()
, [](torrent const* lhs, torrent const* rhs)
{ return lhs->sequence_number() < rhs->sequence_number(); });
2008-04-24 05:28:48 +02:00
std::partial_sort(seeds.begin(), seeds.begin() +
(std::min)(hard_limit, int(seeds.size())), seeds.end()
, [this](torrent const* lhs, torrent const* rhs)
{ return lhs->seed_rank(m_settings) > rhs->seed_rank(m_settings); });
}
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auto_manage_checking_torrents(checking, checking_limit);
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if (settings().get_bool(settings_pack::auto_manage_prefer_seeds))
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{
auto_manage_torrents(seeds, dht_limit, tracker_limit, lsd_limit
, hard_limit, seeding_limit);
auto_manage_torrents(downloaders, dht_limit, tracker_limit, lsd_limit
, hard_limit, downloading_limit);
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}
else
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{
auto_manage_torrents(downloaders, dht_limit, tracker_limit, lsd_limit
, hard_limit, downloading_limit);
auto_manage_torrents(seeds, dht_limit, tracker_limit, lsd_limit
, hard_limit, seeding_limit);
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}
}
namespace {
uint64_t const priority_undetermined = std::numeric_limits<uint64_t>::max() - 1;
struct opt_unchoke_candidate
{
opt_unchoke_candidate(boost::shared_ptr<peer_connection> const* tp)
: peer(tp)
{}
boost::shared_ptr<peer_connection> const* peer;
#ifndef TORRENT_DISABLE_EXTENSIONS
// this is mutable because comparison functors passed to std::partial_sort
// are not supposed to modify the elements they are sorting. Here the mutation
// being applied is idempotent so it should not pose a problem.
mutable uint64_t ext_priority = priority_undetermined;
#endif
};
struct last_optimistic_unchoke_cmp
{
#ifndef TORRENT_DISABLE_EXTENSIONS
last_optimistic_unchoke_cmp(std::vector<boost::shared_ptr<plugin>>& ps)
: plugins(ps)
{}
std::vector<boost::shared_ptr<plugin>>& plugins;
#endif
uint64_t get_ext_priority(opt_unchoke_candidate const& peer) const
{
#ifndef TORRENT_DISABLE_EXTENSIONS
if (peer.ext_priority == priority_undetermined)
{
peer.ext_priority = std::numeric_limits<uint64_t>::max();
for (auto& e : plugins)
{
uint64_t const priority = e->get_unchoke_priority(peer_connection_handle(*peer.peer));
peer.ext_priority = (std::min)(priority, peer.ext_priority);
}
}
return peer.ext_priority;
#else
TORRENT_UNUSED(peer);
return std::numeric_limits<uint64_t>::max();
#endif
}
bool operator()(opt_unchoke_candidate const& l
, opt_unchoke_candidate const& r) const
{
torrent_peer* pil = (*l.peer)->peer_info_struct();
torrent_peer* pir = (*r.peer)->peer_info_struct();
if (pil->last_optimistically_unchoked
!= pir->last_optimistically_unchoked)
{
return pil->last_optimistically_unchoked
< pir->last_optimistically_unchoked;
}
else
{
return get_ext_priority(l) < get_ext_priority(r);
}
}
};
}
void session_impl::recalculate_optimistic_unchoke_slots()
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{
INVARIANT_CHECK;
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TORRENT_ASSERT(is_single_thread());
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if (m_stats_counters[counters::num_unchoke_slots] == 0) return;
std::vector<opt_unchoke_candidate> opt_unchoke;
// collect the currently optimistically unchoked peers here, so we can
// choke them when we've found new optimistic unchoke candidates.
std::vector<torrent_peer*> prev_opt_unchoke;
// TODO: 3 it would probably make sense to have a separate list of peers
// that are eligible for optimistic unchoke, similar to the torrents
// perhaps this could even iterate over the pool allocators of
// torrent_peer objects. It could probably be done in a single pass and
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// collect the n best candidates. maybe just a queue of peers would make
// even more sense, just pick the next peer in the queue for unchoking. It
// would be O(1).
for (auto& i : m_connections)
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{
peer_connection* p = i.get();
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TORRENT_ASSERT(p);
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torrent_peer* pi = p->peer_info_struct();
if (!pi) continue;
if (pi->web_seed) continue;
if (pi->optimistically_unchoked)
{
prev_opt_unchoke.push_back(pi);
}
torrent* t = p->associated_torrent().lock().get();
if (!t) continue;
// TODO: 3 peers should know whether their torrent is paused or not,
// instead of having to ask it over and over again
if (t->is_paused()) continue;
if (!p->is_connecting()
&& !p->is_disconnecting()
&& p->is_peer_interested()
&& t->free_upload_slots()
&& (p->is_choked() || pi->optimistically_unchoked)
&& !p->ignore_unchoke_slots()
&& t->valid_metadata())
{
opt_unchoke.emplace_back(&i);
}
}
// find the peers that has been waiting the longest to be optimistically
// unchoked
int num_opt_unchoke = m_settings.get_int(settings_pack::num_optimistic_unchoke_slots);
int const allowed_unchoke_slots = m_stats_counters[counters::num_unchoke_slots];
if (num_opt_unchoke == 0) num_opt_unchoke = (std::max)(1, allowed_unchoke_slots / 5);
if (num_opt_unchoke > int(opt_unchoke.size())) num_opt_unchoke =
int(opt_unchoke.size());
// find the n best optimistic unchoke candidates
std::partial_sort(opt_unchoke.begin()
, opt_unchoke.begin() + num_opt_unchoke
, opt_unchoke.end()
#ifndef TORRENT_DISABLE_EXTENSIONS
, last_optimistic_unchoke_cmp(m_ses_extensions[plugins_optimistic_unchoke_idx])
#else
, last_optimistic_unchoke_cmp()
#endif
);
// unchoke the first num_opt_unchoke peers in the candidate set
// and make sure that the others are choked
auto opt_unchoke_end = opt_unchoke.begin()
+ num_opt_unchoke;
for (auto i = opt_unchoke.begin(); i != opt_unchoke_end; ++i)
{
torrent_peer* pi = (*i->peer)->peer_info_struct();
peer_connection* p = static_cast<peer_connection*>(pi->connection);
if (pi->optimistically_unchoked)
{
#ifndef TORRENT_DISABLE_LOGGING
p->peer_log(peer_log_alert::info, "OPTIMISTIC UNCHOKE"
, "already unchoked | session-time: %d"
, pi->last_optimistically_unchoked);
#endif
TORRENT_ASSERT(!pi->connection->is_choked());
// remove this peer from prev_opt_unchoke, to prevent us from
// choking it later. This peer gets another round of optimistic
// unchoke
std::vector<torrent_peer*>::iterator existing =
std::find(prev_opt_unchoke.begin(), prev_opt_unchoke.end(), pi);
TORRENT_ASSERT(existing != prev_opt_unchoke.end());
prev_opt_unchoke.erase(existing);
}
else
{
TORRENT_ASSERT(p->is_choked());
boost::shared_ptr<torrent> t = p->associated_torrent().lock();
bool ret = t->unchoke_peer(*p, true);
TORRENT_ASSERT(ret);
if (ret)
{
pi->optimistically_unchoked = true;
m_stats_counters.inc_stats_counter(counters::num_peers_up_unchoked_optimistic);
pi->last_optimistically_unchoked = std::uint16_t(session_time());
#ifndef TORRENT_DISABLE_LOGGING
p->peer_log(peer_log_alert::info, "OPTIMISTIC UNCHOKE"
, "session-time: %d", pi->last_optimistically_unchoked);
#endif
}
}
}
// now, choke all the previous optimistically unchoked peers
for (torrent_peer* pi : prev_opt_unchoke)
{
TORRENT_ASSERT(pi->optimistically_unchoked);
peer_connection* p = static_cast<peer_connection*>(pi->connection);
boost::shared_ptr<torrent> t = p->associated_torrent().lock();
pi->optimistically_unchoked = false;
m_stats_counters.inc_stats_counter(counters::num_peers_up_unchoked_optimistic, -1);
t->choke_peer(*p);
}
// if we have too many unchoked peers now, we need to trigger the regular
// choking logic to choke some
if (m_stats_counters[counters::num_unchoke_slots]
< m_stats_counters[counters::num_peers_up_unchoked_all])
{
m_unchoke_time_scaler = 0;
}
}
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void session_impl::try_connect_more_peers()
{
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if (m_abort) return;
if (num_connections() >= m_settings.get_int(settings_pack::connections_limit))
return;
// this is the maximum number of connections we will
// attempt this tick
int max_connections = m_settings.get_int(settings_pack::connection_speed);
// zero connections speeds are allowed, we just won't make any connections
if (max_connections <= 0) return;
// this loop will "hand out" connection_speed to the torrents, in a round
// robin fashion, so that every torrent is equally likely to connect to a
// peer
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// boost connections are connections made by torrent connection
// boost, which are done immediately on a tracker response. These
// connections needs to be deducted from this second
if (m_boost_connections > 0)
{
if (m_boost_connections > max_connections)
{
m_boost_connections -= max_connections;
max_connections = 0;
}
else
{
max_connections -= m_boost_connections;
m_boost_connections = 0;
}
}
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// TODO: use a lower limit than m_settings.connections_limit
// to allocate the to 10% or so of connection slots for incoming
// connections
int limit = m_settings.get_int(settings_pack::connections_limit)
- num_connections();
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// this logic is here to smooth out the number of new connection
// attempts over time, to prevent connecting a large number of
// sockets, wait 10 seconds, and then try again
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if (m_settings.get_bool(settings_pack::smooth_connects) && max_connections > (limit+1) / 2)
max_connections = (limit+1) / 2;
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std::vector<torrent*>& want_peers_download = m_torrent_lists[torrent_want_peers_download];
std::vector<torrent*>& want_peers_finished = m_torrent_lists[torrent_want_peers_finished];
// if no torrent want any peers, just return
if (want_peers_download.empty() && want_peers_finished.empty()) return;
// if we don't have any connection attempt quota, return
if (max_connections <= 0) return;
INVARIANT_CHECK;
int steps_since_last_connect = 0;
int num_torrents = int(want_peers_finished.size() + want_peers_download.size());
for (;;)
{
if (m_next_downloading_connect_torrent >= int(want_peers_download.size()))
m_next_downloading_connect_torrent = 0;
if (m_next_finished_connect_torrent >= int(want_peers_finished.size()))
m_next_finished_connect_torrent = 0;
torrent* t = nullptr;
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// there are prioritized torrents. Pick one of those
while (!m_prio_torrents.empty())
{
t = m_prio_torrents.front().first.lock().get();
--m_prio_torrents.front().second;
if (m_prio_torrents.front().second > 0
&& t != nullptr
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&& t->want_peers()) break;
m_prio_torrents.pop_front();
t = nullptr;
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}
if (t == nullptr)
{
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if ((m_download_connect_attempts >= m_settings.get_int(
settings_pack::connect_seed_every_n_download)
&& want_peers_finished.size())
|| want_peers_download.empty())
{
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// pick a finished torrent to give a peer to
t = want_peers_finished[m_next_finished_connect_torrent];
TORRENT_ASSERT(t->want_peers_finished());
m_download_connect_attempts = 0;
++m_next_finished_connect_torrent;
}
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else
{
// pick a downloading torrent to give a peer to
t = want_peers_download[m_next_downloading_connect_torrent];
TORRENT_ASSERT(t->want_peers_download());
++m_download_connect_attempts;
++m_next_downloading_connect_torrent;
}
}
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TORRENT_ASSERT(t->want_peers());
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TORRENT_ASSERT(!t->is_torrent_paused());
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TORRENT_TRY
{
if (t->try_connect_peer())
{
--max_connections;
steps_since_last_connect = 0;
m_stats_counters.inc_stats_counter(counters::connection_attempts);
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}
}
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TORRENT_CATCH(std::bad_alloc&)
{
// we ran out of memory trying to connect to a peer
// lower the global limit to the number of peers
// we already have
m_settings.set_int(settings_pack::connections_limit, num_connections());
if (m_settings.get_int(settings_pack::connections_limit) < 2)
m_settings.set_int(settings_pack::connections_limit, 2);
}
++steps_since_last_connect;
// if there are no more free connection slots, abort
if (max_connections == 0) return;
// there are no more torrents that want peers
if (want_peers_download.empty() && want_peers_finished.empty()) break;
// if we have gone a whole loop without
// handing out a single connection, break
if (steps_since_last_connect > num_torrents + 1) break;
// maintain the global limit on number of connections
if (num_connections() >= m_settings.get_int(settings_pack::connections_limit)) break;
}
}
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void session_impl::recalculate_unchoke_slots()
{
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TORRENT_ASSERT(is_single_thread());
INVARIANT_CHECK;
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time_point const now = aux::time_now();
time_duration const unchoke_interval = now - m_last_choke;
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m_last_choke = now;
// build list of all peers that are
// unchokable.
// TODO: 3 there should be a pre-calculated list of all peers eligible for
// unchoking
std::vector<peer_connection*> peers;
for (connection_map::iterator i = m_connections.begin();
i != m_connections.end();)
{
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boost::shared_ptr<peer_connection> p = *i;
TORRENT_ASSERT(p);
++i;
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torrent* const t = p->associated_torrent().lock().get();
torrent_peer* const pi = p->peer_info_struct();
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if (p->ignore_unchoke_slots() || t == nullptr || pi == nullptr
|| pi->web_seed || t->is_paused())
{
p->reset_choke_counters();
continue;
}
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if (!p->is_peer_interested()
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|| p->is_disconnecting()
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|| p->is_connecting())
{
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// this peer is not unchokable. So, if it's unchoked
// already, make sure to choke it.
if (p->is_choked())
{
p->reset_choke_counters();
continue;
}
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if (pi && pi->optimistically_unchoked)
{
m_stats_counters.inc_stats_counter(counters::num_peers_up_unchoked_optimistic, -1);
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pi->optimistically_unchoked = false;
// force a new optimistic unchoke
m_optimistic_unchoke_time_scaler = 0;
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// TODO: post a message to have this happen
// immediately instead of waiting for the next tick
}
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t->choke_peer(*p);
p->reset_choke_counters();
continue;
}
peers.push_back(p.get());
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}
// the unchoker wants an estimate of our upload rate capacity
// (used by bittyrant)
int max_upload_rate = upload_rate_limit(m_global_class);
if (m_settings.get_int(settings_pack::choking_algorithm)
== settings_pack::bittyrant_choker
&& max_upload_rate == 0)
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{
// we don't know at what rate we can upload. If we have a
// measurement of the peak, use that + 10kB/s, otherwise
// assume 20 kB/s
max_upload_rate = (std::max)(20000, m_peak_up_rate + 10000);
if (m_alerts.should_post<performance_alert>())
m_alerts.emplace_alert<performance_alert>(torrent_handle()
, performance_alert::bittyrant_with_no_uplimit);
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}
int const allowed_upload_slots = unchoke_sort(peers, max_upload_rate
, unchoke_interval, m_settings);
m_stats_counters.set_value(counters::num_unchoke_slots
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, allowed_upload_slots);
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#ifndef TORRENT_DISABLE_LOGGING
session_log("RECALCULATE UNCHOKE SLOTS: [ peers: %d "
"eligible-peers: %d"
" max_upload_rate: %d"
" allowed-slots: %d ]"
, int(m_connections.size())
, int(peers.size())
, max_upload_rate
, allowed_upload_slots);
#endif
2016-03-27 18:09:53 +02:00
int const unchoked_counter_optimistic
= m_stats_counters[counters::num_peers_up_unchoked_optimistic];
int const num_opt_unchoke = (unchoked_counter_optimistic == 0)
? (std::max)(1, allowed_upload_slots / 5) : unchoked_counter_optimistic;
int unchoke_set_size = allowed_upload_slots - num_opt_unchoke;
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// go through all the peers and unchoke the first ones and choke
// all the other ones.
for (std::vector<peer_connection*>::iterator i = peers.begin()
, end(peers.end()); i != end; ++i)
{
peer_connection* p = *i;
TORRENT_ASSERT(p);
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TORRENT_ASSERT(!p->ignore_unchoke_slots());
// this will update the m_uploaded_at_last_unchoke
p->reset_choke_counters();
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torrent* t = p->associated_torrent().lock().get();
TORRENT_ASSERT(t);
if (unchoke_set_size > 0)
{
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// yes, this peer should be unchoked
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if (p->is_choked())
{
if (!t->unchoke_peer(*p))
continue;
}
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--unchoke_set_size;
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TORRENT_ASSERT(p->peer_info_struct());
if (p->peer_info_struct()->optimistically_unchoked)
{
// force a new optimistic unchoke
// since this one just got promoted into the
// proper unchoke set
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m_optimistic_unchoke_time_scaler = 0;
p->peer_info_struct()->optimistically_unchoked = false;
m_stats_counters.inc_stats_counter(counters::num_peers_up_unchoked_optimistic, -1);
}
}
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else
{
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// no, this peer should be choked
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TORRENT_ASSERT(p->peer_info_struct());
if (!p->is_choked() && !p->peer_info_struct()->optimistically_unchoked)
t->choke_peer(*p);
}
}
}
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void session_impl::cork_burst(peer_connection* p)
{
TORRENT_ASSERT(is_single_thread());
if (p->is_corked()) return;
p->cork_socket();
m_delayed_uncorks.push_back(p);
}
void session_impl::do_delayed_uncork()
{
m_stats_counters.inc_stats_counter(counters::on_disk_counter);
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TORRENT_ASSERT(is_single_thread());
for (std::vector<peer_connection*>::iterator i = m_delayed_uncorks.begin()
, end(m_delayed_uncorks.end()); i != end; ++i)
{
(*i)->uncork_socket();
}
m_delayed_uncorks.clear();
}
boost::shared_ptr<torrent> session_impl::delay_load_torrent(sha1_hash const& info_hash
, peer_connection* pc)
{
#ifndef TORRENT_DISABLE_EXTENSIONS
for (auto& e : m_ses_extensions[plugins_all_idx])
2014-07-06 21:18:00 +02:00
{
add_torrent_params p;
if (e->on_unknown_torrent(info_hash, peer_connection_handle(pc->self()), p))
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{
error_code ec;
torrent_handle handle = add_torrent(p, ec);
return handle.native_handle();
}
}
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#else
TORRENT_UNUSED(pc);
TORRENT_UNUSED(info_hash);
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#endif
return boost::shared_ptr<torrent>();
}
// the return value from this function is valid only as long as the
// session is locked!
boost::weak_ptr<torrent> session_impl::find_torrent(sha1_hash const& info_hash) const
{
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TORRENT_ASSERT(is_single_thread());
torrent_map::const_iterator i = m_torrents.find(info_hash);
#if TORRENT_USE_INVARIANT_CHECKS
for (torrent_map::const_iterator j
= m_torrents.begin(); j != m_torrents.end(); ++j)
{
torrent* p = boost::get_pointer(j->second);
TORRENT_ASSERT(p);
}
#endif
if (i != m_torrents.end()) return i->second;
return boost::weak_ptr<torrent>();
}
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void session_impl::insert_torrent(sha1_hash const& ih, boost::shared_ptr<torrent> const& t
, std::string uuid)
{
m_torrents.insert(std::make_pair(ih, t));
#ifndef TORRENT_NO_DEPRECATE
//deprecated in 1.2
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if (!uuid.empty()) m_uuids.insert(std::make_pair(uuid, t));
#else
TORRENT_UNUSED(uuid);
#endif
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TORRENT_ASSERT(m_torrents.size() >= m_torrent_lru.size());
}
void session_impl::set_queue_position(torrent* me, int p)
{
if (p >= 0 && me->queue_position() == -1)
{
for (session_impl::torrent_map::iterator i = m_torrents.begin()
, end(m_torrents.end()); i != end; ++i)
{
torrent* t = i->second.get();
if (t->queue_position() >= p)
{
t->set_queue_position_impl(t->queue_position()+1);
t->state_updated();
}
if (t->queue_position() >= p) t->set_queue_position_impl(t->queue_position()+1);
}
++m_max_queue_pos;
me->set_queue_position_impl((std::min)(m_max_queue_pos, p));
}
else if (p < 0)
{
TORRENT_ASSERT(me->queue_position() >= 0);
TORRENT_ASSERT(p == -1);
for (session_impl::torrent_map::iterator i = m_torrents.begin()
, end(m_torrents.end()); i != end; ++i)
{
torrent* t = i->second.get();
if (t == me) continue;
if (t->queue_position() == -1) continue;
if (t->queue_position() >= me->queue_position())
{
t->set_queue_position_impl(t->queue_position()-1);
t->state_updated();
}
}
--m_max_queue_pos;
me->set_queue_position_impl(p);
}
else if (p < me->queue_position())
{
for (session_impl::torrent_map::iterator i = m_torrents.begin()
, end(m_torrents.end()); i != end; ++i)
{
torrent* t = i->second.get();
if (t == me) continue;
if (t->queue_position() == -1) continue;
if (t->queue_position() >= p
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&& t->queue_position() < me->queue_position())
{
t->set_queue_position_impl(t->queue_position()+1);
t->state_updated();
}
}
me->set_queue_position_impl(p);
}
else if (p > me->queue_position())
{
for (session_impl::torrent_map::iterator i = m_torrents.begin()
, end(m_torrents.end()); i != end; ++i)
{
torrent* t = i->second.get();
int pos = t->queue_position();
if (t == me) continue;
if (pos == -1) continue;
if (pos <= p
&& pos > me->queue_position()
&& pos != -1)
{
t->set_queue_position_impl(t->queue_position()-1);
t->state_updated();
}
}
me->set_queue_position_impl((std::min)(m_max_queue_pos, p));
}
trigger_auto_manage();
}
#if !defined(TORRENT_DISABLE_ENCRYPTION) && !defined(TORRENT_DISABLE_EXTENSIONS)
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torrent const* session_impl::find_encrypted_torrent(sha1_hash const& info_hash
, sha1_hash const& xor_mask)
{
sha1_hash obfuscated = info_hash;
obfuscated ^= xor_mask;
torrent_map::iterator i = m_obfuscated_torrents.find(obfuscated);
if (i == m_obfuscated_torrents.end()) return nullptr;
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return i->second.get();
}
#endif
#ifndef TORRENT_NO_DEPRECATE
//deprecated in 1.2
boost::weak_ptr<torrent> session_impl::find_torrent(std::string const& uuid) const
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{
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TORRENT_ASSERT(is_single_thread());
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std::map<std::string, boost::shared_ptr<torrent> >::const_iterator i
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= m_uuids.find(uuid);
if (i != m_uuids.end()) return i->second;
return boost::weak_ptr<torrent>();
}
#endif
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#ifndef TORRENT_DISABLE_MUTABLE_TORRENTS
std::vector<boost::shared_ptr<torrent> > session_impl::find_collection(
std::string const& collection) const
{
std::vector<boost::shared_ptr<torrent> > ret;
for (session_impl::torrent_map::const_iterator i = m_torrents.begin()
, end(m_torrents.end()); i != end; ++i)
{
boost::shared_ptr<torrent> t = i->second;
if (!t) continue;
std::vector<std::string> const& c = t->torrent_file().collections();
if (std::count(c.begin(), c.end(), collection) == 0) continue;
ret.push_back(t);
}
return ret;
}
#endif //TORRENT_DISABLE_MUTABLE_TORRENTS
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namespace {
// returns true if lhs is a better disconnect candidate than rhs
bool compare_disconnect_torrent(session_impl::torrent_map::value_type const& lhs
, session_impl::torrent_map::value_type const& rhs)
{
// a torrent with 0 peers is never a good disconnect candidate
// since there's nothing to disconnect
if ((lhs.second->num_peers() == 0) != (rhs.second->num_peers() == 0))
return lhs.second->num_peers() != 0;
// other than that, always prefer to disconnect peers from seeding torrents
// in order to not harm downloading ones
if (lhs.second->is_seed() != rhs.second->is_seed())
return lhs.second->is_seed();
return lhs.second->num_peers() > rhs.second->num_peers();
}
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} // anonymous namespace
boost::weak_ptr<torrent> session_impl::find_disconnect_candidate_torrent() const
{
aux::session_impl::torrent_map::const_iterator i = std::min_element(m_torrents.begin(), m_torrents.end()
2015-12-25 21:59:50 +01:00
, &compare_disconnect_torrent);
TORRENT_ASSERT(i != m_torrents.end());
if (i == m_torrents.end()) return boost::shared_ptr<torrent>();
return i->second;
}
#ifndef TORRENT_DISABLE_LOGGING
TORRENT_FORMAT(2,3)
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void session_impl::session_log(char const* fmt, ...) const
{
if (!m_alerts.should_post<log_alert>()) return;
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va_list v;
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va_start(v, fmt);
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session_vlog(fmt, v);
va_end(v);
}
TORRENT_FORMAT(2, 0)
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void session_impl::session_vlog(char const* fmt, va_list& v) const
{
if (!m_alerts.should_post<log_alert>()) return;
m_alerts.emplace_alert<log_alert>(fmt, v);
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}
#endif
void session_impl::get_torrent_status(std::vector<torrent_status>* ret
, boost::function<bool(torrent_status const&)> const& pred
, std::uint32_t flags) const
{
for (torrent_map::const_iterator i
= m_torrents.begin(), end(m_torrents.end());
i != end; ++i)
{
if (i->second->is_aborted()) continue;
torrent_status st;
i->second->status(&st, flags);
if (!pred(st)) continue;
ret->push_back(st);
}
}
void session_impl::refresh_torrent_status(std::vector<torrent_status>* ret
, std::uint32_t flags) const
{
for (std::vector<torrent_status>::iterator i
= ret->begin(), end(ret->end()); i != end; ++i)
{
boost::shared_ptr<torrent> t = i->handle.m_torrent.lock();
if (!t) continue;
t->status(&*i, flags);
}
}
void session_impl::post_torrent_updates(std::uint32_t flags)
{
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INVARIANT_CHECK;
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TORRENT_ASSERT(is_single_thread());
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std::vector<torrent*>& state_updates
= m_torrent_lists[aux::session_impl::torrent_state_updates];
#if TORRENT_USE_ASSERTS
m_posting_torrent_updates = true;
#endif
std::vector<torrent_status> status;
status.reserve(state_updates.size());
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// TODO: it might be a nice feature here to limit the number of torrents
// to send in a single update. By just posting the first n torrents, they
// would nicely be round-robined because the torrent lists are always
// pushed back. Perhaps the status_update_alert could even have a fixed
// array of n entries rather than a vector, to further improve memory
// locality.
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for (std::vector<torrent*>::iterator i = state_updates.begin()
, end(state_updates.end()); i != end; ++i)
{
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torrent* t = *i;
TORRENT_ASSERT(t->m_links[aux::session_impl::torrent_state_updates].in_list());
status.push_back(torrent_status());
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// querying accurate download counters may require
// the torrent to be loaded. Loading a torrent, and evicting another
// one will lead to calling state_updated(), which screws with
// this list while we're working on it, and break things
t->status(&status.back(), flags);
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t->clear_in_state_update();
}
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state_updates.clear();
#if TORRENT_USE_ASSERTS
m_posting_torrent_updates = false;
#endif
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m_alerts.emplace_alert<state_update_alert>(std::move(status));
}
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void session_impl::post_session_stats()
{
m_disk_thread.update_stats_counters(m_stats_counters);
#ifndef TORRENT_DISABLE_DHT
if (m_dht)
m_dht->update_stats_counters(m_stats_counters);
#endif
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m_stats_counters.set_value(counters::sent_ip_overhead_bytes
, m_stat.total_transfer(stat::upload_ip_protocol));
m_stats_counters.set_value(counters::recv_ip_overhead_bytes
, m_stat.total_transfer(stat::download_ip_protocol));
m_stats_counters.set_value(counters::limiter_up_queue
, m_upload_rate.queue_size());
m_stats_counters.set_value(counters::limiter_down_queue
, m_download_rate.queue_size());
m_stats_counters.set_value(counters::limiter_up_bytes
, m_upload_rate.queued_bytes());
m_stats_counters.set_value(counters::limiter_down_bytes
, m_download_rate.queued_bytes());
m_alerts.emplace_alert<session_stats_alert>(m_stats_counters);
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}
void session_impl::post_dht_stats()
{
std::vector<dht_lookup> requests;
std::vector<dht_routing_bucket> table;
#ifndef TORRENT_DISABLE_DHT
if (m_dht)
m_dht->dht_status(table, requests);
#endif
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m_alerts.emplace_alert<dht_stats_alert>(std::move(table), std::move(requests));
}
std::vector<torrent_handle> session_impl::get_torrents() const
{
std::vector<torrent_handle> ret;
for (torrent_map::const_iterator i
= m_torrents.begin(), end(m_torrents.end());
i != end; ++i)
{
if (i->second->is_aborted()) continue;
ret.push_back(torrent_handle(i->second));
}
return ret;
}
torrent_handle session_impl::find_torrent_handle(sha1_hash const& info_hash)
{
return torrent_handle(find_torrent(info_hash));
}
void session_impl::async_add_torrent(add_torrent_params* params)
{
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if (string_begins_no_case("file://", params->url.c_str()) && !params->ti)
{
m_disk_thread.async_load_torrent(params
, std::bind(&session_impl::on_async_load_torrent, this, _1));
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return;
}
error_code ec;
torrent_handle handle = add_torrent(*params, ec);
delete params;
}
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void session_impl::on_async_load_torrent(disk_io_job const* j)
{
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add_torrent_params* params = static_cast<add_torrent_params*>(j->requester);
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error_code ec;
torrent_handle handle;
if (j->error.ec)
{
ec = j->error.ec;
m_alerts.emplace_alert<add_torrent_alert>(handle, *params, ec);
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}
else
{
params->url.clear();
params->ti = boost::shared_ptr<torrent_info>(j->buffer.torrent_file);
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handle = add_torrent(*params, ec);
}
delete params;
}
#ifndef TORRENT_DISABLE_EXTENSIONS
void session_impl::add_extensions_to_torrent(
boost::shared_ptr<torrent> const& torrent_ptr, void* userdata)
{
for (auto& e : m_ses_extensions[plugins_all_idx])
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{
boost::shared_ptr<torrent_plugin> tp(e->new_torrent(
torrent_ptr->get_handle(), userdata));
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if (tp) torrent_ptr->add_extension(tp);
}
}
#endif
torrent_handle session_impl::add_torrent(add_torrent_params const& p
, error_code& ec)
{
// params is updated by add_torrent_impl()
add_torrent_params params = p;
boost::shared_ptr<torrent> torrent_ptr;
bool added;
boost::tie(torrent_ptr, added) = add_torrent_impl(params, ec);
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torrent_handle const handle(torrent_ptr);
m_alerts.emplace_alert<add_torrent_alert>(handle, params, ec);
if (!torrent_ptr) return handle;
// params.info_hash should have been initialized by add_torrent_impl()
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TORRENT_ASSERT(params.info_hash != sha1_hash(nullptr));
#ifndef TORRENT_DISABLE_DHT
if (params.ti)
{
torrent_info::nodes_t const& nodes = params.ti->nodes();
for (std::vector<std::pair<std::string, int> >::const_iterator i = nodes.begin()
, end(nodes.end()); i != end; ++i)
{
add_dht_node_name(*i);
}
}
#endif
if (m_alerts.should_post<torrent_added_alert>())
m_alerts.emplace_alert<torrent_added_alert>(handle);
// if this was an existing torrent, we can't start it again, or add
// another set of plugins etc. we're done
if (!added) return handle;
torrent_ptr->set_ip_filter(m_ip_filter);
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torrent_ptr->start(params);
#ifndef TORRENT_DISABLE_EXTENSIONS
typedef std::vector<boost::function<
boost::shared_ptr<torrent_plugin>(torrent_handle const&, void*)> >
torrent_plugins_t;
for (torrent_plugins_t::const_iterator i = params.extensions.begin()
, end(params.extensions.end()); i != end; ++i)
{
torrent_ptr->add_extension((*i)(handle, params.userdata));
}
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add_extensions_to_torrent(torrent_ptr, params.userdata);
#endif
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sha1_hash next_lsd(nullptr);
sha1_hash next_dht(nullptr);
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if (m_next_lsd_torrent != m_torrents.end())
next_lsd = m_next_lsd_torrent->first;
#ifndef TORRENT_DISABLE_DHT
if (m_next_dht_torrent != m_torrents.end())
next_dht = m_next_dht_torrent->first;
#endif
float load_factor = m_torrents.load_factor();
m_torrents.insert(std::make_pair(params.info_hash, torrent_ptr));
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TORRENT_ASSERT(m_torrents.size() >= m_torrent_lru.size());
#if !defined(TORRENT_DISABLE_ENCRYPTION) && !defined(TORRENT_DISABLE_EXTENSIONS)
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hasher h;
h.update("req2", 4);
h.update(params.info_hash.data(), 20);
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// this is SHA1("req2" + info-hash), used for
// encrypted hand shakes
m_obfuscated_torrents.insert(std::make_pair(h.final(), torrent_ptr));
#endif
if (torrent_ptr->is_pinned() == false)
{
evict_torrents_except(torrent_ptr.get());
bump_torrent(torrent_ptr.get());
}
// if this insert made the hash grow, the iterators became invalid
// we need to reset them
if (m_torrents.load_factor() < load_factor)
{
// this indicates the hash table re-hashed
if (!next_lsd.is_all_zeros())
m_next_lsd_torrent = m_torrents.find(next_lsd);
#ifndef TORRENT_DISABLE_DHT
if (!next_dht.is_all_zeros())
m_next_dht_torrent = m_torrents.find(next_dht);
#endif
}
#ifndef TORRENT_NO_DEPRECATE
//deprecated in 1.2
2011-01-18 04:41:54 +01:00
if (!params.uuid.empty() || !params.url.empty())
m_uuids.insert(std::make_pair(params.uuid.empty()
? params.url : params.uuid, torrent_ptr));
#endif
2008-03-08 07:06:31 +01:00
// recalculate auto-managed torrents sooner (or put it off)
// if another torrent will be added within one second from now
// we want to put it off again anyway. So that while we're adding
// a boat load of torrents, we postpone the recalculation until
// we're done adding them all (since it's kind of an expensive operation)
if (params.flags & add_torrent_params::flag_auto_managed)
{
const int max_downloading = settings().get_int(settings_pack::active_downloads);
const int max_seeds = settings().get_int(settings_pack::active_seeds);
const int max_active = settings().get_int(settings_pack::active_limit);
const int num_downloading
= int(torrent_list(session_interface::torrent_downloading_auto_managed).size());
const int num_seeds
= int(torrent_list(session_interface::torrent_seeding_auto_managed).size());
const int num_active = num_downloading + num_seeds;
// there's no point in triggering the auto manage logic early if we
// don't have a reason to believe anything will change. It's kind of
// expensive.
if ((num_downloading < max_downloading
|| num_seeds < max_seeds)
&& num_active < max_active)
{
trigger_auto_manage();
}
}
return handle;
}
std::pair<boost::shared_ptr<torrent>, bool>
session_impl::add_torrent_impl(
add_torrent_params& params
, error_code& ec)
{
TORRENT_ASSERT(!params.save_path.empty());
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using ptr_t = boost::shared_ptr<torrent>;
if (string_begins_no_case("magnet:", params.url.c_str()))
{
parse_magnet_uri(params.url, params, ec);
if (ec) return std::make_pair(ptr_t(), false);
params.url.clear();
}
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if (string_begins_no_case("file://", params.url.c_str()) && !params.ti)
{
std::string const filename = resolve_file_url(params.url);
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boost::shared_ptr<torrent_info> t = boost::make_shared<torrent_info>(filename, boost::ref(ec), 0);
if (ec) return std::make_pair(ptr_t(), false);
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params.url.clear();
params.ti = t;
}
if (params.ti && !params.ti->is_valid())
{
ec = errors::no_metadata;
return std::make_pair(ptr_t(), false);
}
if (params.ti && params.ti->is_valid() && params.ti->num_files() == 0)
{
ec = errors::no_files_in_torrent;
return std::make_pair(ptr_t(), false);
}
#ifndef TORRENT_DISABLE_DHT
// add params.dht_nodes to the DHT, if enabled
if (!params.dht_nodes.empty())
{
for (std::vector<std::pair<std::string, int> >::const_iterator i = params.dht_nodes.begin()
, end(params.dht_nodes.end()); i != end; ++i)
{
add_dht_node_name(*i);
}
}
#endif
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INVARIANT_CHECK;
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if (is_aborted())
{
ec = errors::session_is_closing;
return std::make_pair(ptr_t(), false);
}
// figure out the info hash of the torrent and make sure params.info_hash
// is set correctly
if (params.ti) params.info_hash = params.ti->info_hash();
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#ifndef TORRENT_NO_DEPRECATE
//deprecated in 1.2
else if (!params.url.empty())
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{
// in order to avoid info-hash collisions, for
// torrents where we don't have an info-hash, but
// just a URL, set the temporary info-hash to the
// hash of the URL. This will be changed once we
// have the actual .torrent file
params.info_hash = hasher(&params.url[0], int(params.url.size())).final();
}
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#endif
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if (params.info_hash == sha1_hash(nullptr))
{
ec = errors::missing_info_hash_in_uri;
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return std::make_pair(ptr_t(), false);
}
// is the torrent already active?
boost::shared_ptr<torrent> torrent_ptr = find_torrent(params.info_hash).lock();
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#ifndef TORRENT_NO_DEPRECATE
//deprecated in 1.2
2011-01-18 04:41:54 +01:00
if (!torrent_ptr && !params.uuid.empty()) torrent_ptr = find_torrent(params.uuid).lock();
// if we still can't find the torrent, look for it by url
if (!torrent_ptr && !params.url.empty())
{
torrent_map::iterator i = std::find_if(m_torrents.begin(), m_torrents.end()
, [&params](torrent_map::value_type const& te)
{ return te.second->url() == params.url; });
if (i != m_torrents.end())
torrent_ptr = i->second;
}
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#endif
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2008-04-24 05:28:48 +02:00
if (torrent_ptr)
{
if ((params.flags & add_torrent_params::flag_duplicate_is_error) == 0)
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{
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#ifndef TORRENT_NO_DEPRECATE
//deprecated in 1.2
2011-03-23 03:46:22 +01:00
if (!params.uuid.empty() && torrent_ptr->uuid().empty())
torrent_ptr->set_uuid(params.uuid);
if (!params.url.empty() && torrent_ptr->url().empty())
torrent_ptr->set_url(params.url);
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#endif
return std::make_pair(torrent_ptr, false);
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}
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ec = errors::duplicate_torrent;
return std::make_pair(ptr_t(), false);
}
2014-07-06 21:18:00 +02:00
int queue_pos = ++m_max_queue_pos;
torrent_ptr = boost::make_shared<torrent>(boost::ref(*this)
, 16 * 1024, queue_pos, m_paused
, boost::cref(params), boost::cref(params.info_hash));
return std::make_pair(torrent_ptr, true);
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}
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void session_impl::update_outgoing_interfaces()
2008-03-08 07:06:31 +01:00
{
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INVARIANT_CHECK;
std::string net_interfaces = m_settings.get_str(settings_pack::outgoing_interfaces);
// declared in string_util.hpp
parse_comma_separated_string(net_interfaces, m_outgoing_interfaces);
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}
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tcp::endpoint session_impl::bind_outgoing_socket(socket_type& s, address
const& remote_address, error_code& ec) const
2008-03-08 07:06:31 +01:00
{
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tcp::endpoint bind_ep(address_v4(), 0);
if (m_settings.get_int(settings_pack::outgoing_port) > 0)
{
#ifdef TORRENT_WINDOWS
s.set_option(exclusive_address_use(true), ec);
#endif
s.set_option(tcp::acceptor::reuse_address(true), ec);
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// ignore errors because the underlying socket may not
// be opened yet. This happens when we're routing through
// a proxy. In that case, we don't yet know the address of
// the proxy server, and more importantly, we don't know
// the address family of its address. This means we can't
// open the socket yet. The socks abstraction layer defers
// opening it.
ec.clear();
bind_ep.port(next_port());
}
if (!m_outgoing_interfaces.empty())
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{
if (m_interface_index >= m_outgoing_interfaces.size()) m_interface_index = 0;
std::string const& ifname = m_outgoing_interfaces[m_interface_index++];
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if (ec) return bind_ep;
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bind_ep.address(bind_socket_to_device(m_io_service, s
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, remote_address.is_v4()
? boost::asio::ip::tcp::v4()
: boost::asio::ip::tcp::v6()
2014-07-06 21:18:00 +02:00
, ifname.c_str(), bind_ep.port(), ec));
return bind_ep;
}
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// if we're not binding to a specific interface, bind
// to the same protocol family as the target endpoint
if (is_any(bind_ep.address()))
{
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#if TORRENT_USE_IPV6
if (remote_address.is_v6())
bind_ep.address(address_v6::any());
else
#endif
bind_ep.address(address_v4::any());
}
2009-02-03 18:35:41 +01:00
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s.bind(bind_ep, ec);
return bind_ep;
}
// verify that the given local address satisfies the requirements of
// the outgoing interfaces. i.e. that one of the allowed outgoing
// interfaces has this address. For uTP sockets, which are all backed
// by an unconnected udp socket, we won't be able to tell what local
// address is used for this peer's packets, in that case, just make
// sure one of the allowed interfaces exists and maybe that it's the
// default route. For systems that have SO_BINDTODEVICE, it should be
// enough to just know that one of the devices exist
bool session_impl::verify_bound_address(address const& addr, bool utp
, error_code& ec)
{
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TORRENT_UNUSED(utp);
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// we have specific outgoing interfaces specified. Make sure the
// local endpoint for this socket is bound to one of the allowed
// interfaces. the list can be a mixture of interfaces and IP
// addresses.
for (int i = 0; i < int(m_outgoing_interfaces.size()); ++i)
{
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error_code err;
address ip = address::from_string(m_outgoing_interfaces[i].c_str(), err);
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if (err) continue;
if (ip == addr) return true;
}
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// we didn't find the address as an IP in the interface list. Now,
// resolve which device (if any) has this IP address.
std::string device = device_for_address(addr, m_io_service, ec);
if (ec) return false;
// if no device was found to have this address, we fail
if (device.empty()) return false;
for (int i = 0; i < int(m_outgoing_interfaces.size()); ++i)
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{
if (m_outgoing_interfaces[i] == device) return true;
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}
return false;
}
void session_impl::remove_torrent(const torrent_handle& h, int options)
{
INVARIANT_CHECK;
boost::shared_ptr<torrent> tptr = h.m_torrent.lock();
if (!tptr) return;
m_alerts.emplace_alert<torrent_removed_alert>(tptr->get_handle()
, tptr->info_hash());
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remove_torrent_impl(tptr, options);
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tptr->abort();
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tptr->set_queue_position(-1);
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}
void session_impl::remove_torrent_impl(boost::shared_ptr<torrent> tptr
, int options)
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{
#ifndef TORRENT_NO_DEPRECATE
// deprecated in 1.2
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// remove from uuid list
if (!tptr->uuid().empty())
{
std::map<std::string, boost::shared_ptr<torrent> >::iterator j
= m_uuids.find(tptr->uuid());
if (j != m_uuids.end()) m_uuids.erase(j);
}
#endif
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torrent_map::iterator i =
m_torrents.find(tptr->torrent_file().info_hash());
#ifndef TORRENT_NO_DEPRECATE
// deprecated in 1.2
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// this torrent might be filed under the URL-hash
if (i == m_torrents.end() && !tptr->url().empty())
{
std::string const& url = tptr->url();
sha1_hash urlhash = hasher(&url[0], int(url.size())).final();
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i = m_torrents.find(urlhash);
}
#endif
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if (i == m_torrents.end()) return;
torrent& t = *i->second;
if (options)
{
if (!t.delete_files(options))
{
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if (m_alerts.should_post<torrent_delete_failed_alert>())
m_alerts.emplace_alert<torrent_delete_failed_alert>(t.get_handle()
, error_code(), t.torrent_file().info_hash());
}
}
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if (m_torrent_lru.size() > 0
&& (t.prev != nullptr || t.next != nullptr || m_torrent_lru.front() == &t))
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m_torrent_lru.erase(&t);
TORRENT_ASSERT(t.prev == nullptr && t.next == nullptr);
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tptr->update_gauge();
#if TORRENT_USE_ASSERTS
sha1_hash i_hash = t.torrent_file().info_hash();
#endif
#ifndef TORRENT_DISABLE_DHT
if (i == m_next_dht_torrent)
++m_next_dht_torrent;
#endif
if (i == m_next_lsd_torrent)
++m_next_lsd_torrent;
m_torrents.erase(i);
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TORRENT_ASSERT(m_torrents.size() >= m_torrent_lru.size());
#if !defined(TORRENT_DISABLE_ENCRYPTION) && !defined(TORRENT_DISABLE_EXTENSIONS)
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hasher h;
h.update("req2", 4);
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h.update(tptr->info_hash().data(), 20);
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m_obfuscated_torrents.erase(h.final());
#endif
#ifndef TORRENT_DISABLE_DHT
if (m_next_dht_torrent == m_torrents.end())
m_next_dht_torrent = m_torrents.begin();
#endif
if (m_next_lsd_torrent == m_torrents.end())
m_next_lsd_torrent = m_torrents.begin();
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// this torrent may open up a slot for a queued torrent
trigger_auto_manage();
TORRENT_ASSERT(m_torrents.find(i_hash) == m_torrents.end());
}
#ifndef TORRENT_NO_DEPRECATE
namespace
{
listen_interface_t set_ssl_flag(listen_interface_t in)
{
in.ssl = true;
return in;
}
}
void session_impl::update_ssl_listen()
{
INVARIANT_CHECK;
// this function maps the previous functionality of just setting the ssl
// listen port in order to enable the ssl listen sockets, to the new
// mechanism where SSL sockets are specified in listen_interfaces.
std::vector<listen_interface_t> current_ifaces;
parse_listen_interfaces(m_settings.get_str(settings_pack::listen_interfaces)
, current_ifaces);
// these are the current interfaces we have, first remove all the SSL
// interfaces
current_ifaces.erase(std::remove_if(current_ifaces.begin(), current_ifaces.end()
, std::bind(&listen_interface_t::ssl, _1)), current_ifaces.end());
int const ssl_listen_port = m_settings.get_int(settings_pack::ssl_listen);
// setting a port of 0 means to disable listening on SSL, so just update
// the interface list with the new list, and we're done
if (ssl_listen_port == 0)
{
m_settings.set_str(settings_pack::listen_interfaces
, print_listen_interfaces(current_ifaces));
return;
}
std::vector<listen_interface_t> new_ifaces;
std::transform(current_ifaces.begin(), current_ifaces.end()
, std::back_inserter(new_ifaces), &set_ssl_flag);
current_ifaces.insert(current_ifaces.end(), new_ifaces.begin(), new_ifaces.end());
m_settings.set_str(settings_pack::listen_interfaces
, print_listen_interfaces(current_ifaces));
}
#endif // TORRENT_NO_DEPRECATE
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void session_impl::update_listen_interfaces()
{
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INVARIANT_CHECK;
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std::string net_interfaces = m_settings.get_str(settings_pack::listen_interfaces);
std::vector<listen_interface_t> new_listen_interfaces;
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// declared in string_util.hpp
parse_listen_interfaces(net_interfaces, new_listen_interfaces);
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#ifndef TORRENT_DISABLE_LOGGING
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session_log("update listen interfaces: %s", net_interfaces.c_str());
#endif
m_listen_interfaces = new_listen_interfaces;
}
void session_impl::update_privileged_ports()
{
if (m_settings.get_bool(settings_pack::no_connect_privileged_ports))
{
m_port_filter.add_rule(0, 1024, port_filter::blocked);
// Close connections whose endpoint is filtered
// by the new ip-filter
for (torrent_map::iterator i = m_torrents.begin()
, end(m_torrents.end()); i != end; ++i)
i->second->port_filter_updated();
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}
else
{
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m_port_filter.add_rule(0, 1024, 0);
}
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}
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void session_impl::update_auto_sequential()
{
for (torrent_map::iterator i = m_torrents.begin()
, end(m_torrents.end()); i != end; ++i)
i->second->update_auto_sequential();
}
void session_impl::update_max_failcount()
{
for (torrent_map::iterator i = m_torrents.begin()
, end(m_torrents.end()); i != end; ++i)
{
i->second->update_max_failcount();
}
}
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void session_impl::update_proxy()
{
// in case we just set a socks proxy, we might have to
// open the socks incoming connection
if (!m_socks_listen_socket) open_new_incoming_socks_connection();
for (std::list<listen_socket_t>::iterator i = m_listen_sockets.begin()
, end(m_listen_sockets.end()); i != end; ++i)
{
i->udp_sock->set_proxy_settings(proxy());
}
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}
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void session_impl::update_upnp()
{
if (m_settings.get_bool(settings_pack::enable_upnp))
start_upnp();
else
stop_upnp();
}
void session_impl::update_natpmp()
{
if (m_settings.get_bool(settings_pack::enable_natpmp))
start_natpmp();
else
stop_natpmp();
}
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void session_impl::update_lsd()
{
if (m_settings.get_bool(settings_pack::enable_lsd))
start_lsd();
else
stop_lsd();
}
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void session_impl::update_dht()
{
#ifndef TORRENT_DISABLE_DHT
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if (m_settings.get_bool(settings_pack::enable_dht))
start_dht();
else
stop_dht();
#endif
}
void session_impl::update_peer_fingerprint()
{
// ---- generate a peer id ----
std::string print = m_settings.get_str(settings_pack::peer_fingerprint);
if (print.size() > 20) print.resize(20);
// the client's fingerprint
std::copy(print.begin(), print.begin() + print.length(), m_peer_id.begin());
if (print.length() < 20)
{
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url_random(m_peer_id.data() + print.length(), m_peer_id.data() + 20);
}
}
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void session_impl::update_count_slow()
{
error_code ec;
for (torrent_map::const_iterator i = m_torrents.begin()
, end(m_torrents.end()); i != end; ++i)
{
i->second->on_inactivity_tick(ec);
}
}
std::uint16_t session_impl::listen_port() const
{
// if peer connections are set up to be received over a socks
// proxy, and it's the same one as we're using for the tracker
// just tell the tracker the socks5 port we're listening on
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if (m_socks_listen_socket && m_socks_listen_socket->is_open())
return m_socks_listen_socket->local_endpoint().port();
// if not, don't tell the tracker anything if we're in force_proxy
// mode. We don't want to leak our listen port since it can
// potentially identify us if it is leaked elsewere
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if (m_settings.get_bool(settings_pack::force_proxy)) return 0;
if (m_listen_sockets.empty()) return 0;
return m_listen_sockets.front().tcp_external_port;
}
// TODO: 2 this function should be removed and users need to deal with the
// more generic case of having multiple ssl ports
std::uint16_t session_impl::ssl_listen_port() const
2012-01-14 17:04:25 +01:00
{
#ifdef TORRENT_USE_OPENSSL
// if peer connections are set up to be received over a socks
// proxy, and it's the same one as we're using for the tracker
// just tell the tracker the socks5 port we're listening on
if (m_socks_listen_socket && m_socks_listen_socket->is_open())
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return m_socks_listen_port;
// if not, don't tell the tracker anything if we're in force_proxy
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// mode. We don't want to leak our listen port since it can
// potentially identify us if it is leaked elsewere
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if (m_settings.get_bool(settings_pack::force_proxy)) return 0;
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for (std::list<listen_socket_t>::const_iterator i = m_listen_sockets.begin()
, end(m_listen_sockets.end()); i != end; ++i)
{
if (i->ssl) return i->tcp_external_port;
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}
#endif
return 0;
}
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void session_impl::announce_lsd(sha1_hash const& ih, int port, bool broadcast)
{
// use internal listen port for local peers
if (m_lsd)
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m_lsd->announce(ih, port, broadcast);
}
void session_impl::on_lsd_peer(tcp::endpoint peer, sha1_hash const& ih)
{
m_stats_counters.inc_stats_counter(counters::on_lsd_peer_counter);
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TORRENT_ASSERT(is_single_thread());
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INVARIANT_CHECK;
boost::shared_ptr<torrent> t = find_torrent(ih).lock();
if (!t) return;
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// don't add peers from lsd to private torrents
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if (t->torrent_file().priv() || (t->torrent_file().is_i2p()
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&& !m_settings.get_bool(settings_pack::allow_i2p_mixed))) return;
#ifndef TORRENT_DISABLE_LOGGING
session_log("added peer from local discovery: %s", print_endpoint(peer).c_str());
#endif
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t->add_peer(peer, peer_info::lsd);
t->do_connect_boost();
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if (m_alerts.should_post<lsd_peer_alert>())
m_alerts.emplace_alert<lsd_peer_alert>(t->get_handle(), peer);
}
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// TODO: perhaps this function should not exist when logging is disabled
void session_impl::on_port_map_log(
char const* msg, int map_transport)
{
#ifndef TORRENT_DISABLE_LOGGING
TORRENT_ASSERT(map_transport >= 0 && map_transport <= 1);
// log message
if (m_alerts.should_post<portmap_log_alert>())
m_alerts.emplace_alert<portmap_log_alert>(map_transport, msg);
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#else
TORRENT_UNUSED(msg);
TORRENT_UNUSED(map_transport);
#endif
}
namespace {
bool find_tcp_port_mapping(int transport, int mapping, listen_socket_t const& ls)
{
return ls.tcp_port_mapping[transport] == mapping;
}
bool find_udp_port_mapping(int transport, int mapping, listen_socket_t const& ls)
{
return ls.udp_port_mapping[transport] == mapping;
}
}
// transport is 0 for NAT-PMP and 1 for UPnP
void session_impl::on_port_mapping(int mapping, address const& ip, int port
2016-02-24 05:48:29 +01:00
, int const protocol, error_code const& ec, int map_transport)
{
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TORRENT_ASSERT(is_single_thread());
TORRENT_ASSERT(map_transport >= 0 && map_transport <= 1);
if (ec && m_alerts.should_post<portmap_error_alert>())
{
m_alerts.emplace_alert<portmap_error_alert>(mapping
, map_transport, ec);
}
// look through our listen sockets to see if this mapping is for one of
// them (it could also be a user mapping)
std::list<listen_socket_t>::iterator ls
= std::find_if(m_listen_sockets.begin(), m_listen_sockets.end()
, std::bind(find_tcp_port_mapping, map_transport, mapping, _1));
bool tcp = true;
if (ls == m_listen_sockets.end())
{
ls = std::find_if(m_listen_sockets.begin(), m_listen_sockets.end()
, std::bind(find_udp_port_mapping, map_transport, mapping, _1));
tcp = false;
}
if (ls != m_listen_sockets.end())
{
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if (ip != address())
{
// TODO: 1 report the proper address of the router as the source IP of
// this vote of our external address, instead of the empty address
2013-01-21 02:40:59 +01:00
set_external_address(ip, source_router, address());
}
ls->external_address = ip;
if (tcp) ls->tcp_external_port = port;
else ls->udp_external_port = port;
}
if (!ec && m_alerts.should_post<portmap_alert>())
{
m_alerts.emplace_alert<portmap_alert>(mapping, port
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, map_transport, protocol == natpmp::udp
? portmap_alert::udp : portmap_alert::tcp);
}
}
#ifndef TORRENT_NO_DEPRECATE
session_status session_impl::status() const
{
// INVARIANT_CHECK;
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TORRENT_ASSERT(is_single_thread());
2007-08-21 20:33:28 +02:00
session_status s;
s.optimistic_unchoke_counter = m_optimistic_unchoke_time_scaler;
s.unchoke_counter = m_unchoke_time_scaler;
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s.num_dead_peers = int(m_undead_peers.size());
s.num_peers = m_stats_counters[counters::num_peers_connected];
s.num_unchoked = m_stats_counters[counters::num_peers_up_unchoked_all];
s.allowed_upload_slots = m_stats_counters[counters::num_unchoke_slots];
s.num_torrents
= m_stats_counters[counters::num_checking_torrents]
+ m_stats_counters[counters::num_stopped_torrents]
+ m_stats_counters[counters::num_queued_seeding_torrents]
+ m_stats_counters[counters::num_queued_download_torrents]
+ m_stats_counters[counters::num_upload_only_torrents]
+ m_stats_counters[counters::num_downloading_torrents]
+ m_stats_counters[counters::num_seeding_torrents]
+ m_stats_counters[counters::num_error_torrents];
s.num_paused_torrents
= m_stats_counters[counters::num_stopped_torrents]
+ m_stats_counters[counters::num_error_torrents]
+ m_stats_counters[counters::num_queued_seeding_torrents]
+ m_stats_counters[counters::num_queued_download_torrents];
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s.total_redundant_bytes = m_stats_counters[counters::recv_redundant_bytes];
s.total_failed_bytes = m_stats_counters[counters::recv_failed_bytes];
s.up_bandwidth_queue = m_stats_counters[counters::limiter_up_queue];
s.down_bandwidth_queue = m_stats_counters[counters::limiter_down_queue];
s.up_bandwidth_bytes_queue = m_stats_counters[counters::limiter_up_bytes];
s.down_bandwidth_bytes_queue = m_stats_counters[counters::limiter_down_bytes];
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s.disk_write_queue = m_stats_counters[counters::num_peers_down_disk];
s.disk_read_queue = m_stats_counters[counters::num_peers_up_disk];
s.has_incoming_connections = m_stats_counters[counters::has_incoming_connections] != 0;
// total
s.download_rate = m_stat.download_rate();
s.total_upload = m_stat.total_upload();
s.upload_rate = m_stat.upload_rate();
s.total_download = m_stat.total_download();
// payload
s.payload_download_rate = m_stat.transfer_rate(stat::download_payload);
s.total_payload_download = m_stat.total_transfer(stat::download_payload);
s.payload_upload_rate = m_stat.transfer_rate(stat::upload_payload);
s.total_payload_upload = m_stat.total_transfer(stat::upload_payload);
// IP-overhead
s.ip_overhead_download_rate = m_stat.transfer_rate(stat::download_ip_protocol);
s.total_ip_overhead_download = m_stat.total_transfer(stat::download_ip_protocol);
s.ip_overhead_upload_rate = m_stat.transfer_rate(stat::upload_ip_protocol);
s.total_ip_overhead_upload = m_stat.total_transfer(stat::upload_ip_protocol);
// tracker
s.total_tracker_download = m_stats_counters[counters::recv_tracker_bytes];
s.total_tracker_upload = m_stats_counters[counters::sent_tracker_bytes];
// dht
s.total_dht_download = m_stats_counters[counters::dht_bytes_in];
s.total_dht_upload = m_stats_counters[counters::dht_bytes_out];
// deprecated
s.tracker_download_rate = 0;
s.tracker_upload_rate = 0;
s.dht_download_rate = 0;
s.dht_upload_rate = 0;
#ifndef TORRENT_DISABLE_DHT
if (m_dht)
{
m_dht->dht_status(s);
}
else
#endif
{
s.dht_nodes = 0;
s.dht_node_cache = 0;
s.dht_torrents = 0;
s.dht_global_nodes = 0;
s.dht_total_allocations = 0;
}
s.utp_stats.packet_loss = m_stats_counters[counters::utp_packet_loss];
s.utp_stats.timeout = m_stats_counters[counters::utp_timeout];
s.utp_stats.packets_in = m_stats_counters[counters::utp_packets_in];
s.utp_stats.packets_out = m_stats_counters[counters::utp_packets_out];
s.utp_stats.fast_retransmit = m_stats_counters[counters::utp_fast_retransmit];
s.utp_stats.packet_resend = m_stats_counters[counters::utp_packet_resend];
s.utp_stats.samples_above_target = m_stats_counters[counters::utp_samples_above_target];
s.utp_stats.samples_below_target = m_stats_counters[counters::utp_samples_below_target];
s.utp_stats.payload_pkts_in = m_stats_counters[counters::utp_payload_pkts_in];
s.utp_stats.payload_pkts_out = m_stats_counters[counters::utp_payload_pkts_out];
s.utp_stats.invalid_pkts_in = m_stats_counters[counters::utp_invalid_pkts_in];
s.utp_stats.redundant_pkts_in = m_stats_counters[counters::utp_redundant_pkts_in];
s.utp_stats.num_idle = m_stats_counters[counters::num_utp_idle];
s.utp_stats.num_syn_sent = m_stats_counters[counters::num_utp_syn_sent];
s.utp_stats.num_connected = m_stats_counters[counters::num_utp_connected];
s.utp_stats.num_fin_sent = m_stats_counters[counters::num_utp_fin_sent];
s.utp_stats.num_close_wait = m_stats_counters[counters::num_utp_close_wait];
2010-11-29 02:33:05 +01:00
2014-07-06 21:18:00 +02:00
// this loop is potentially expensive. It could be optimized by
// simply keeping a global counter
int peerlist_size = 0;
for (torrent_map::const_iterator i = m_torrents.begin()
, end(m_torrents.end()); i != end; ++i)
{
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peerlist_size += i->second->num_known_peers();
}
s.peerlist_size = peerlist_size;
return s;
}
#endif // TORRENT_NO_DEPRECATE
#ifndef TORRENT_DISABLE_DHT
void session_impl::start_dht()
{ start_dht(m_dht_state); }
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namespace {
void on_bootstrap(alert_manager& alerts)
{
if (alerts.should_post<dht_bootstrap_alert>())
alerts.emplace_alert<dht_bootstrap_alert>();
}
}
void session_impl::start_dht(entry const& startup_state)
{
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INVARIANT_CHECK;
stop_dht();
// postpone starting the DHT if we're still resolving the DHT router
if (m_outstanding_router_lookups > 0) return;
m_dht_storage = m_dht_storage_constructor(m_dht_settings);
m_dht = boost::make_shared<dht::dht_tracker>(
static_cast<dht_observer*>(this)
, boost::ref(m_io_service)
, std::bind(&session_impl::send_udp_packet, this, false, _1, _2, _3, _4)
, boost::cref(m_dht_settings)
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, boost::ref(m_stats_counters)
, *m_dht_storage
, startup_state);
for (std::vector<udp::endpoint>::iterator i = m_dht_router_nodes.begin()
, end(m_dht_router_nodes.end()); i != end; ++i)
{
m_dht->add_router_node(*i);
}
for (std::vector<udp::endpoint>::iterator i = m_dht_nodes.begin()
, end(m_dht_nodes.end()); i != end; ++i)
{
m_dht->add_node(*i);
}
m_dht_nodes.clear();
m_dht->start(startup_state, std::bind(&on_bootstrap, boost::ref(m_alerts)));
}
void session_impl::stop_dht()
{
if (m_dht)
{
m_dht->stop();
m_dht.reset();
}
m_dht_storage.reset();
}
void session_impl::set_dht_settings(dht_settings const& settings)
{
m_dht_settings = settings;
}
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void session_impl::set_dht_storage(dht::dht_storage_constructor_type sc)
{
m_dht_storage_constructor = sc;
}
#ifndef TORRENT_NO_DEPRECATE
entry session_impl::dht_state() const
{
if (!m_dht) return entry();
return m_dht->state();
}
void session_impl::start_dht_deprecated(entry const& startup_state)
{
m_settings.set_bool(settings_pack::enable_dht, true);
start_dht(startup_state);
}
#endif
void session_impl::add_dht_node_name(std::pair<std::string, int> const& node)
{
ADD_OUTSTANDING_ASYNC("session_impl::on_dht_name_lookup");
m_host_resolver.async_resolve(node.first, resolver_interface::abort_on_shutdown
, std::bind(&session_impl::on_dht_name_lookup
, this, _1, _2, node.second));
}
void session_impl::on_dht_name_lookup(error_code const& e
, std::vector<address> const& addresses, int port)
{
COMPLETE_ASYNC("session_impl::on_dht_name_lookup");
if (e)
{
if (m_alerts.should_post<dht_error_alert>())
m_alerts.emplace_alert<dht_error_alert>(
dht_error_alert::hostname_lookup, e);
return;
}
for (std::vector<address>::const_iterator i = addresses.begin()
, end(addresses.end()); i != end; ++i)
{
udp::endpoint ep(*i, port);
add_dht_node(ep);
}
}
void session_impl::add_dht_router(std::pair<std::string, int> const& node)
{
ADD_OUTSTANDING_ASYNC("session_impl::on_dht_router_name_lookup");
++m_outstanding_router_lookups;
m_host_resolver.async_resolve(node.first, resolver_interface::abort_on_shutdown
, std::bind(&session_impl::on_dht_router_name_lookup
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, this, _1, _2, node.second));
}
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void session_impl::on_dht_router_name_lookup(error_code const& e
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, std::vector<address> const& addresses, int port)
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{
COMPLETE_ASYNC("session_impl::on_dht_router_name_lookup");
--m_outstanding_router_lookups;
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if (e)
{
if (m_alerts.should_post<dht_error_alert>())
m_alerts.emplace_alert<dht_error_alert>(
dht_error_alert::hostname_lookup, e);
if (m_outstanding_router_lookups == 0) update_dht();
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return;
}
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for (std::vector<address>::const_iterator i = addresses.begin()
, end(addresses.end()); i != end; ++i)
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{
// router nodes should be added before the DHT is started (and bootstrapped)
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udp::endpoint ep(*i, port);
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if (m_dht) m_dht->add_router_node(ep);
m_dht_router_nodes.push_back(ep);
}
if (m_outstanding_router_lookups == 0) update_dht();
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}
// callback for dht_immutable_get
void session_impl::get_immutable_callback(sha1_hash target
, dht::item const& i)
{
TORRENT_ASSERT(!i.is_mutable());
m_alerts.emplace_alert<dht_immutable_item_alert>(target, i.value());
}
void session_impl::dht_get_immutable_item(sha1_hash const& target)
{
if (!m_dht) return;
m_dht->get_item(target, std::bind(&session_impl::get_immutable_callback
, this, target, _1));
}
// callback for dht_mutable_get
void session_impl::get_mutable_callback(dht::item const& i, bool authoritative)
{
TORRENT_ASSERT(i.is_mutable());
m_alerts.emplace_alert<dht_mutable_item_alert>(i.pk(), i.sig(), i.seq()
, i.salt(), i.value(), authoritative);
}
// key is a 32-byte binary string, the public key to look up.
// the salt is optional
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void session_impl::dht_get_mutable_item(std::array<char, 32> key
, std::string salt)
{
if (!m_dht) return;
m_dht->get_item(key.data(), std::bind(&session_impl::get_mutable_callback
, this, _1, _2), salt);
}
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namespace {
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void on_dht_put_immutable_item(alert_manager& alerts, sha1_hash target, int num)
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{
if (alerts.should_post<dht_put_alert>())
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alerts.emplace_alert<dht_put_alert>(target, num);
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}
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void on_dht_put_mutable_item(alert_manager& alerts, dht::item const& i, int num)
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{
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std::array<char, 64> sig = i.sig();
std::array<char, 32> pk = i.pk();
std::uint64_t seq = i.seq();
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std::string salt = i.salt();
if (alerts.should_post<dht_put_alert>())
alerts.emplace_alert<dht_put_alert>(pk, sig, salt, seq, num);
}
void put_mutable_callback(dht::item& i
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, boost::function<void(entry&, std::array<char,64>&
, std::uint64_t&, std::string const&)> cb)
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{
entry value = i.value();
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std::array<char, 64> sig = i.sig();
std::array<char, 32> pk = i.pk();
std::uint64_t seq = i.seq();
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std::string salt = i.salt();
cb(value, sig, seq, salt);
i.assign(value, salt, seq, pk.data(), sig.data());
}
void on_dht_get_peers(alert_manager& alerts, sha1_hash info_hash, std::vector<tcp::endpoint> const& peers)
{
if (alerts.should_post<dht_get_peers_reply_alert>())
alerts.emplace_alert<dht_get_peers_reply_alert>(info_hash, peers);
}
void on_direct_response(alert_manager& alerts, void* userdata, dht::msg const& msg)
{
if (msg.message.type() == bdecode_node::none_t)
alerts.emplace_alert<dht_direct_response_alert>(userdata, msg.addr);
else
alerts.emplace_alert<dht_direct_response_alert>(userdata, msg.addr, msg.message);
}
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} // anonymous namespace
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void session_impl::dht_put_immutable_item(entry const& data, sha1_hash target)
{
if (!m_dht) return;
m_dht->put_item(data, std::bind(&on_dht_put_immutable_item, boost::ref(m_alerts)
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, target, _1));
}
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void session_impl::dht_put_mutable_item(std::array<char, 32> key
, boost::function<void(entry&, std::array<char,64>&
, std::uint64_t&, std::string const&)> cb
, std::string salt)
{
if (!m_dht) return;
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m_dht->put_item(key.data(),
std::bind(&on_dht_put_mutable_item, boost::ref(m_alerts), _1, _2),
std::bind(&put_mutable_callback, _1, cb), salt);
}
void session_impl::dht_get_peers(sha1_hash const& info_hash)
{
if (!m_dht) return;
m_dht->get_peers(info_hash, std::bind(&on_dht_get_peers, boost::ref(m_alerts), info_hash, _1));
}
void session_impl::dht_announce(sha1_hash const& info_hash, int port, int flags)
{
if (!m_dht) return;
m_dht->announce(info_hash, port, flags, std::bind(&on_dht_get_peers, boost::ref(m_alerts), info_hash, _1));
}
void session_impl::dht_direct_request(udp::endpoint ep, entry& e, void* userdata)
{
if (!m_dht) return;
m_dht->direct_request(ep, e, std::bind(&on_direct_response, boost::ref(m_alerts), userdata, _1));
}
#endif
#if !defined(TORRENT_DISABLE_ENCRYPTION) && !defined(TORRENT_DISABLE_EXTENSIONS)
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void session_impl::add_obfuscated_hash(sha1_hash const& obfuscated
, boost::weak_ptr<torrent> const& t)
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{
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m_obfuscated_torrents.insert(std::make_pair(obfuscated, t.lock()));
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}
#endif // !defined(TORRENT_DISABLE_ENCRYPTION) && !defined(TORRENT_DISABLE_EXTENSIONS)
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bool session_impl::is_listening() const
{
return !m_listen_sockets.empty();
}
session_impl::~session_impl()
{
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// this is not allowed to be the network thread!
// TORRENT_ASSERT(is_not_thread());
TORRENT_ASSERT(m_torrents.empty());
TORRENT_ASSERT(m_connections.empty());
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#if defined TORRENT_ASIO_DEBUGGING
FILE* f = fopen("wakeups.log", "w+");
if (f != nullptr)
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{
time_point m = min_time();
if (!_wakeups.empty()) m = _wakeups[0].timestamp;
time_point prev = m;
std::uint64_t prev_csw = 0;
if (!_wakeups.empty()) prev_csw = _wakeups[0].context_switches;
std::fprintf(f, "abs. time\trel. time\tctx switch\tidle-wakeup\toperation\n");
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for (int i = 0; i < _wakeups.size(); ++i)
{
wakeup_t const& w = _wakeups[i];
bool idle_wakeup = w.context_switches > prev_csw;
std::fprintf(f, "%" PRId64 "\t%" PRId64 "\t%" PRId64 "\t%c\t%s\n"
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, total_microseconds(w.timestamp - m)
, total_microseconds(w.timestamp - prev)
, w.context_switches
, idle_wakeup ? '*' : '.'
, w.operation);
prev = w.timestamp;
prev_csw = w.context_switches;
}
fclose(f);
}
#endif
// clear the torrent LRU. We do this to avoid having the torrent
// destructor assert because it's still linked into the lru list
#if TORRENT_USE_ASSERTS
list_node<torrent>* i = m_torrent_lru.get_all();
// clear the prev and next pointers in all torrents
// to avoid the assert when destructing them
while (i)
{
list_node<torrent>* tmp = i;
i = i->next;
tmp->next = nullptr;
tmp->prev = nullptr;
}
#endif
}
#ifndef TORRENT_NO_DEPRECATE
int session_impl::max_connections() const
{
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return m_settings.get_int(settings_pack::connections_limit);
}
int session_impl::max_uploads() const
{
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return m_settings.get_int(settings_pack::unchoke_slots_limit);
}
void session_impl::set_local_download_rate_limit(int bytes_per_second)
{
settings_pack p;
p.set_int(settings_pack::local_download_rate_limit, bytes_per_second);
apply_settings_pack_impl(p);
}
void session_impl::set_local_upload_rate_limit(int bytes_per_second)
{
settings_pack p;
p.set_int(settings_pack::local_upload_rate_limit, bytes_per_second);
apply_settings_pack_impl(p);
}
void session_impl::set_download_rate_limit_depr(int bytes_per_second)
{
settings_pack p;
p.set_int(settings_pack::download_rate_limit, bytes_per_second);
apply_settings_pack_impl(p);
}
void session_impl::set_upload_rate_limit_depr(int bytes_per_second)
{
settings_pack p;
p.set_int(settings_pack::upload_rate_limit, bytes_per_second);
apply_settings_pack_impl(p);
}
void session_impl::set_max_connections(int limit)
{
settings_pack p;
p.set_int(settings_pack::connections_limit, limit);
apply_settings_pack_impl(p);
}
void session_impl::set_max_uploads(int limit)
{
settings_pack p;
p.set_int(settings_pack::unchoke_slots_limit, limit);
apply_settings_pack_impl(p);
}
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int session_impl::local_upload_rate_limit() const
{
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return upload_rate_limit(m_local_peer_class);
}
int session_impl::local_download_rate_limit() const
{
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return download_rate_limit(m_local_peer_class);
}
int session_impl::upload_rate_limit_depr() const
{
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return upload_rate_limit(m_global_class);
}
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int session_impl::download_rate_limit_depr() const
{
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return download_rate_limit(m_global_class);
}
#endif
namespace {
template <typename Socket>
void set_tos(Socket& s, int v, error_code& ec)
{
#if TORRENT_USE_IPV6
if (s.local_endpoint(ec).address().is_v6())
s.set_option(traffic_class(v), ec);
else if (!ec)
#endif
s.set_option(type_of_service(v), ec);
}
}
// TODO: 2 this should be factored into the udp socket, so we only have the
// code once
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void session_impl::update_peer_tos()
{
int const tos = m_settings.get_int(settings_pack::peer_tos);
for (std::list<listen_socket_t>::iterator i = m_listen_sockets.begin()
, end(m_listen_sockets.end()); i != end; ++i)
{
error_code ec;
set_tos(*i->sock, tos, ec);
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#ifndef TORRENT_DISABLE_LOGGING
error_code err;
session_log(">>> SET_TOS [ tcp (%s %d) tos: %x e: %s ]"
, i->sock->local_endpoint(err).address().to_string().c_str()
, i->sock->local_endpoint(err).port(), tos, ec.message().c_str());
#endif
ec.clear();
set_tos(*i->udp_sock, tos, ec);
#ifndef TORRENT_DISABLE_LOGGING
session_log(">>> SET_TOS [ udp (%s %d) tos: %x e: %s ]"
, i->udp_sock->local_endpoint(err).address().to_string().c_str()
, i->udp_sock->local_port()
, tos, ec.message().c_str());
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#endif
}
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}
void session_impl::update_user_agent()
{
// replace all occurrences of '\n' with ' '.
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std::string agent = m_settings.get_str(settings_pack::user_agent);
std::string::iterator i = agent.begin();
while ((i = std::find(i, agent.end(), '\n'))
!= agent.end())
*i = ' ';
m_settings.set_str(settings_pack::user_agent, agent);
}
void session_impl::update_unchoke_limit()
{
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int const allowed_upload_slots = get_int_setting(settings_pack::unchoke_slots_limit);
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m_stats_counters.set_value(counters::num_unchoke_slots
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, allowed_upload_slots);
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if (m_settings.get_int(settings_pack::num_optimistic_unchoke_slots)
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>= allowed_upload_slots / 2)
{
if (m_alerts.should_post<performance_alert>())
m_alerts.emplace_alert<performance_alert>(torrent_handle()
, performance_alert::too_many_optimistic_unchoke_slots);
}
}
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void session_impl::update_connection_speed()
{
if (m_settings.get_int(settings_pack::connection_speed) < 0)
m_settings.set_int(settings_pack::connection_speed, 200);
}
void session_impl::update_queued_disk_bytes()
{
std::uint64_t cache_size = m_settings.get_int(settings_pack::cache_size);
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if (m_settings.get_int(settings_pack::max_queued_disk_bytes) / 16 / 1024
> cache_size / 2
&& cache_size > 5
&& m_alerts.should_post<performance_alert>())
{
m_alerts.emplace_alert<performance_alert>(torrent_handle()
, performance_alert::too_high_disk_queue_limit);
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}
}
void session_impl::update_alert_queue_size()
{
m_alerts.set_alert_queue_size_limit(m_settings.get_int(settings_pack::alert_queue_size));
}
bool session_impl::preemptive_unchoke() const
{
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return m_stats_counters[counters::num_peers_up_unchoked]
< m_stats_counters[counters::num_unchoke_slots]
|| m_settings.get_int(settings_pack::unchoke_slots_limit) < 0;
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}
#ifndef TORRENT_NO_DEPRECATE
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void session_impl::update_dht_upload_rate_limit()
{
#ifndef TORRENT_DISABLE_DHT
m_dht_settings.upload_rate_limit
= m_settings.get_int(settings_pack::dht_upload_rate_limit);
#endif
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}
#endif
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void session_impl::update_disk_threads()
{
if (m_settings.get_int(settings_pack::aio_threads) < 0)
m_settings.set_int(settings_pack::aio_threads, 0);
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#if !TORRENT_USE_PREAD && !TORRENT_USE_PREADV
// if we don't have pread() nor preadv() there's no way
// to perform concurrent file operations on the same file
// handle, so we must limit the disk thread to a single one
if (m_settings.get_int(settings_pack::aio_threads) > 1)
m_settings.set_int(settings_pack::aio_threads, 1);
#endif
m_disk_thread.set_num_threads(m_settings.get_int(settings_pack::aio_threads));
}
void session_impl::update_cache_buffer_chunk_size()
{
if (m_settings.get_int(settings_pack::cache_buffer_chunk_size) <= 0)
m_settings.set_int(settings_pack::cache_buffer_chunk_size, 1);
}
void session_impl::update_report_web_seed_downloads()
{
// if this flag changed, update all web seed connections
bool report = m_settings.get_bool(settings_pack::report_web_seed_downloads);
for (connection_map::iterator i = m_connections.begin()
, end(m_connections.end()); i != end; ++i)
{
int type = (*i)->type();
if (type == peer_connection::url_seed_connection
|| type == peer_connection::http_seed_connection)
(*i)->ignore_stats(!report);
}
}
void session_impl::trigger_auto_manage()
{
if (m_pending_auto_manage || m_abort) return;
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// we recalculated auto-managed torrents less than a second ago,
// put it off one second.
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if (time_now() - m_last_auto_manage < seconds(1))
{
m_auto_manage_time_scaler = 0;
return;
}
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m_pending_auto_manage = true;
m_need_auto_manage = true;
m_io_service.post(std::bind(&session_impl::on_trigger_auto_manage, this));
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}
void session_impl::on_trigger_auto_manage()
{
TORRENT_ASSERT(m_pending_auto_manage);
if (!m_need_auto_manage || m_abort)
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{
m_pending_auto_manage = false;
return;
}
// don't clear m_pending_auto_manage until after we've
// recalculated the auto managed torrents. The auto-managed
// logic may trigger another auto-managed event otherwise
recalculate_auto_managed_torrents();
m_pending_auto_manage = false;
}
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void session_impl::update_socket_buffer_size()
{
for (std::list<listen_socket_t>::iterator i = m_listen_sockets.begin()
, end(m_listen_sockets.end()); i != end; ++i)
{
error_code ec;
set_socket_buffer_size(*i->udp_sock, m_settings, ec);
#ifndef TORRENT_DISABLE_LOGGING
if (ec)
{
error_code err;
session_log("socket buffer size [ udp %s %d]: (%d) %s"
, i->udp_sock->local_endpoint(err).address().to_string(err).c_str()
, i->udp_sock->local_port(), ec.value(), ec.message().c_str());
}
#endif
ec.clear();
set_socket_buffer_size(*i->sock, m_settings, ec);
#ifndef TORRENT_DISABLE_LOGGING
if (ec)
{
error_code err;
session_log("socket buffer size [ udp %s %d]: (%d) %s"
, i->sock->local_endpoint(err).address().to_string(err).c_str()
, i->sock->local_endpoint(err).port(), ec.value(), ec.message().c_str());
}
#endif
}
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}
void session_impl::update_dht_announce_interval()
{
#ifndef TORRENT_DISABLE_DHT
if (!m_dht)
{
#ifndef TORRENT_DISABLE_LOGGING
session_log("not starting DHT announce timer: m_dht == nullptr");
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#endif
return;
}
m_dht_interval_update_torrents = int(m_torrents.size());
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if (m_abort)
{
#ifndef TORRENT_DISABLE_LOGGING
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session_log("not starting DHT announce timer: m_abort set");
#endif
return;
}
ADD_OUTSTANDING_ASYNC("session_impl::on_dht_announce");
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error_code ec;
int delay = (std::max)(m_settings.get_int(settings_pack::dht_announce_interval)
/ (std::max)(int(m_torrents.size()), 1), 1);
m_dht_announce_timer.expires_from_now(seconds(delay), ec);
m_dht_announce_timer.async_wait(
std::bind(&session_impl::on_dht_announce, this, _1));
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#endif
}
void session_impl::update_anonymous_mode()
{
if (!m_settings.get_bool(settings_pack::anonymous_mode)) return;
m_settings.set_str(settings_pack::user_agent, "");
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url_random(m_peer_id.data(), m_peer_id.data() + 20);
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}
void session_impl::update_force_proxy()
{
for (std::list<listen_socket_t>::iterator i = m_listen_sockets.begin()
, end(m_listen_sockets.end()); i != end; ++i)
{
i->udp_sock->set_force_proxy(m_settings.get_bool(settings_pack::force_proxy));
// close the TCP listen sockets
if (i->sock)
{
error_code ec;
i->sock->close(ec);
i->sock.reset();
}
}
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if (!m_settings.get_bool(settings_pack::force_proxy)) return;
// enable force_proxy mode. We don't want to accept any incoming
// connections, except through a proxy.
stop_lsd();
stop_upnp();
stop_natpmp();
#ifndef TORRENT_DISABLE_DHT
stop_dht();
#endif
}
#ifndef TORRENT_NO_DEPRECATE
void session_impl::update_local_download_rate()
{
if (m_settings.get_int(settings_pack::local_download_rate_limit) < 0)
m_settings.set_int(settings_pack::local_download_rate_limit, 0);
set_download_rate_limit(m_local_peer_class
, m_settings.get_int(settings_pack::local_download_rate_limit));
}
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void session_impl::update_local_upload_rate()
{
if (m_settings.get_int(settings_pack::local_upload_rate_limit) < 0)
m_settings.set_int(settings_pack::local_upload_rate_limit, 0);
set_upload_rate_limit(m_local_peer_class
, m_settings.get_int(settings_pack::local_upload_rate_limit));
}
#endif
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void session_impl::update_download_rate()
{
if (m_settings.get_int(settings_pack::download_rate_limit) < 0)
m_settings.set_int(settings_pack::download_rate_limit, 0);
set_download_rate_limit(m_global_class
, m_settings.get_int(settings_pack::download_rate_limit));
}
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void session_impl::update_upload_rate()
{
if (m_settings.get_int(settings_pack::upload_rate_limit) < 0)
m_settings.set_int(settings_pack::upload_rate_limit, 0);
set_upload_rate_limit(m_global_class
, m_settings.get_int(settings_pack::upload_rate_limit));
}
void session_impl::update_connections_limit()
{
int limit = m_settings.get_int(settings_pack::connections_limit);
if (limit <= 0)
limit = (std::numeric_limits<int>::max)();
limit = (std::max)(5, (std::min)(limit
, max_open_files() - 20 - m_settings.get_int(settings_pack::file_pool_size)));
m_settings.set_int(settings_pack::connections_limit, limit);
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if (num_connections() > m_settings.get_int(settings_pack::connections_limit)
&& !m_torrents.empty())
{
// if we have more connections that we're allowed, disconnect
// peers from the torrents so that they are all as even as possible
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int to_disconnect = num_connections() - m_settings.get_int(settings_pack::connections_limit);
int last_average = 0;
int average = int(m_settings.get_int(settings_pack::connections_limit) / m_torrents.size());
// the number of slots that are unused by torrents
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int extra = m_settings.get_int(settings_pack::connections_limit) % m_torrents.size();
// run 3 iterations of this, then we're probably close enough
for (int iter = 0; iter < 4; ++iter)
{
// the number of torrents that are above average
int num_above = 0;
for (torrent_map::iterator i = m_torrents.begin()
, end(m_torrents.end()); i != end; ++i)
{
int num = i->second->num_peers();
if (num <= last_average) continue;
if (num > average) ++num_above;
if (num < average) extra += average - num;
}
// distribute extra among the torrents that are above average
if (num_above == 0) num_above = 1;
last_average = average;
average += extra / num_above;
if (extra == 0) break;
// save the remainder for the next iteration
extra = extra % num_above;
}
for (torrent_map::iterator i = m_torrents.begin()
, end(m_torrents.end()); i != end; ++i)
{
int num = i->second->num_peers();
if (num <= average) continue;
// distribute the remainder
int my_average = average;
if (extra > 0)
{
++my_average;
--extra;
}
int disconnect = (std::min)(to_disconnect, num - my_average);
to_disconnect -= disconnect;
i->second->disconnect_peers(disconnect
, error_code(errors::too_many_connections, get_libtorrent_category()));
}
}
}
void session_impl::update_alert_mask()
{
m_alerts.set_alert_mask(m_settings.get_int(settings_pack::alert_mask));
}
void session_impl::pop_alerts(std::vector<alert*>* alerts)
{
m_alerts.get_all(*alerts);
}
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#ifndef TORRENT_NO_DEPRECATE
void session_impl::update_rate_limit_utp()
{
if (m_settings.get_bool(settings_pack::rate_limit_utp))
{
// allow the global or local peer class to limit uTP peers
m_peer_class_type_filter.add(peer_class_type_filter::utp_socket
, m_local_peer_class);
m_peer_class_type_filter.add(peer_class_type_filter::utp_socket
, m_global_class);
m_peer_class_type_filter.add(peer_class_type_filter::ssl_utp_socket
, m_local_peer_class);
m_peer_class_type_filter.add(peer_class_type_filter::ssl_utp_socket
, m_global_class);
}
else
{
// don't add the global or local peer class to limit uTP peers
m_peer_class_type_filter.remove(peer_class_type_filter::utp_socket
, m_local_peer_class);
m_peer_class_type_filter.remove(peer_class_type_filter::utp_socket
, m_global_class);
m_peer_class_type_filter.remove(peer_class_type_filter::ssl_utp_socket
, m_local_peer_class);
m_peer_class_type_filter.remove(peer_class_type_filter::ssl_utp_socket
, m_global_class);
}
}
void session_impl::update_ignore_rate_limits_on_local_network()
{
init_peer_class_filter(
m_settings.get_bool(settings_pack::ignore_limits_on_local_network));
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}
// this function is called on the user's thread
// not the network thread
void session_impl::pop_alerts()
{
// if we don't have any alerts in our local cache, we have to ask
// the alert_manager for more. It will swap our vector with its and
// destruct eny left-over alerts in there.
if (m_alert_pointer_pos >= m_alert_pointers.size())
{
pop_alerts(&m_alert_pointers);
m_alert_pointer_pos = 0;
}
}
alert const* session_impl::pop_alert()
{
if (m_alert_pointer_pos >= m_alert_pointers.size())
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{
pop_alerts();
if (m_alert_pointers.empty())
return nullptr;
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}
if (m_alert_pointers.empty()) return nullptr;
// clone here to be backwards compatible, to make the client delete the
// alert object
return m_alert_pointers[m_alert_pointer_pos++];
}
#endif
alert* session_impl::wait_for_alert(time_duration max_wait)
{
return m_alerts.wait_for_alert(max_wait);
}
#ifndef TORRENT_NO_DEPRECATE
size_t session_impl::set_alert_queue_size_limit(size_t queue_size_limit_)
{
m_settings.set_int(settings_pack::alert_queue_size, int(queue_size_limit_));
return m_alerts.set_alert_queue_size_limit(int(queue_size_limit_));
}
#endif
void session_impl::start_lsd()
{
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INVARIANT_CHECK;
if (m_lsd) return;
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m_lsd = boost::make_shared<lsd>(boost::ref(m_io_service)
, std::bind(&session_impl::on_lsd_peer, this, _1, _2)
#ifndef TORRENT_DISABLE_LOGGING
, std::bind(&session_impl::on_lsd_log, this, _1)
#endif
);
error_code ec;
m_lsd->start(ec);
if (ec && m_alerts.should_post<lsd_error_alert>())
m_alerts.emplace_alert<lsd_error_alert>(ec);
}
#ifndef TORRENT_DISABLE_LOGGING
void session_impl::on_lsd_log(char const* log)
{
if (!m_alerts.should_post<log_alert>()) return;
m_alerts.emplace_alert<log_alert>(log);
}
#endif
natpmp* session_impl::start_natpmp()
{
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INVARIANT_CHECK;
if (m_natpmp) return m_natpmp.get();
// the natpmp constructor may fail and call the callbacks
// into the session_impl.
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m_natpmp = boost::make_shared<natpmp>(boost::ref(m_io_service)
, std::bind(&session_impl::on_port_mapping
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, this, _1, _2, _3, _4, _5, 0)
, std::bind(&session_impl::on_port_map_log
, this, _1, 0));
m_natpmp->start();
for (std::list<listen_socket_t>::iterator i = m_listen_sockets.begin()
, end(m_listen_sockets.end()); i != end; ++i)
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{
remap_ports(remap_natpmp, *i);
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}
return m_natpmp.get();
}
upnp* session_impl::start_upnp()
{
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INVARIANT_CHECK;
if (m_upnp) return m_upnp.get();
// the upnp constructor may fail and call the callbacks
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m_upnp = boost::make_shared<upnp>(boost::ref(m_io_service)
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, m_settings.get_str(settings_pack::user_agent)
, std::bind(&session_impl::on_port_mapping
2016-02-22 01:16:00 +01:00
, this, _1, _2, _3, _4, _5, 1)
, std::bind(&session_impl::on_port_map_log
, this, _1, 1)
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, m_settings.get_bool(settings_pack::upnp_ignore_nonrouters));
m_upnp->start();
m_upnp->discover_device();
for (std::list<listen_socket_t>::iterator i = m_listen_sockets.begin()
, end(m_listen_sockets.end()); i != end; ++i)
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{
remap_ports(remap_upnp, *i);
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}
return m_upnp.get();
}
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int session_impl::add_port_mapping(int t, int external_port
, int local_port)
{
int ret = 0;
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if (m_upnp) ret = m_upnp->add_mapping(static_cast<upnp::protocol_type>(t), external_port
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, local_port);
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if (m_natpmp) ret = m_natpmp->add_mapping(static_cast<natpmp::protocol_type>(t), external_port
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, local_port);
return ret;
}
void session_impl::delete_port_mapping(int handle)
{
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if (m_upnp) m_upnp->delete_mapping(handle);
if (m_natpmp) m_natpmp->delete_mapping(handle);
}
void session_impl::stop_lsd()
{
if (m_lsd)
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m_lsd->close();
m_lsd.reset();
}
void session_impl::stop_natpmp()
{
if (!m_natpmp) return;
m_natpmp->close();
for (std::list<listen_socket_t>::iterator i = m_listen_sockets.begin()
, end(m_listen_sockets.end()); i != end; ++i)
{
i->tcp_port_mapping[0] = -1;
i->udp_port_mapping[0] = -1;
}
m_natpmp.reset();
}
void session_impl::stop_upnp()
{
if (!m_upnp) return;
m_upnp->close();
for (std::list<listen_socket_t>::iterator i = m_listen_sockets.begin()
, end(m_listen_sockets.end()); i != end; ++i)
{
i->tcp_port_mapping[1] = -1;
i->udp_port_mapping[1] = -1;
}
m_upnp.reset();
}
external_ip const& session_impl::external_address() const
{
return m_external_ip;
}
// this is the DHT observer version. DHT is the implied source
void session_impl::set_external_address(address const& ip
, address const& source)
{
set_external_address(ip, source_dht, source);
}
address session_impl::external_address(udp proto)
{
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#if !TORRENT_USE_IPV6
TORRENT_UNUSED(proto);
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#endif
address addr;
#if TORRENT_USE_IPV6
if (proto == udp::v6())
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addr = address_v6();
else
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#endif
addr = address_v4();
return m_external_ip.external_address(addr);
}
void session_impl::get_peers(sha1_hash const& ih)
{
if (!m_alerts.should_post<dht_get_peers_alert>()) return;
m_alerts.emplace_alert<dht_get_peers_alert>(ih);
}
void session_impl::announce(sha1_hash const& ih, address const& addr
, int port)
{
if (!m_alerts.should_post<dht_announce_alert>()) return;
m_alerts.emplace_alert<dht_announce_alert>(addr, port, ih);
}
void session_impl::outgoing_get_peers(sha1_hash const& target
, sha1_hash const& sent_target, udp::endpoint const& ep)
{
if (!m_alerts.should_post<dht_outgoing_get_peers_alert>()) return;
m_alerts.emplace_alert<dht_outgoing_get_peers_alert>(target, sent_target, ep);
}
#ifndef TORRENT_DISABLE_LOGGING
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TORRENT_FORMAT(3,4)
void session_impl::log(libtorrent::dht::dht_logger::module_t m, char const* fmt, ...)
{
if (!m_alerts.should_post<dht_log_alert>()) return;
va_list v;
va_start(v, fmt);
m_alerts.emplace_alert<dht_log_alert>(
static_cast<dht_log_alert::dht_module_t>(m), fmt, v);
va_end(v);
}
void session_impl::log_packet(message_direction_t dir, char const* pkt, int len
, udp::endpoint node)
{
if (!m_alerts.should_post<dht_pkt_alert>()) return;
dht_pkt_alert::direction_t d = dir == dht_logger::incoming_message
? dht_pkt_alert::incoming : dht_pkt_alert::outgoing;
m_alerts.emplace_alert<dht_pkt_alert>(pkt, len, d, node);
}
#endif
bool session_impl::on_dht_request(char const* query, int query_len
, dht::msg const& request, entry& response)
{
#ifndef TORRENT_DISABLE_EXTENSIONS
for (auto& ext : m_ses_extensions[plugins_dht_request_idx])
{
if (ext->on_dht_request(query, query_len
, request.addr, request.message, response))
return true;
}
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#else
TORRENT_UNUSED(query);
TORRENT_UNUSED(query_len);
TORRENT_UNUSED(request);
TORRENT_UNUSED(response);
#endif
return false;
}
void session_impl::set_external_address(address const& ip
, int source_type, address const& source)
{
#ifndef TORRENT_DISABLE_LOGGING
session_log(": set_external_address(%s, %d, %s)", print_address(ip).c_str()
, source_type, print_address(source).c_str());
#endif
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if (!m_external_ip.cast_vote(ip, source_type, source)) return;
#ifndef TORRENT_DISABLE_LOGGING
session_log(" external IP updated");
#endif
2010-12-12 10:15:54 +01:00
if (m_alerts.should_post<external_ip_alert>())
m_alerts.emplace_alert<external_ip_alert>(ip);
for (torrent_map::iterator i = m_torrents.begin()
, end(m_torrents.end()); i != end; ++i)
{
i->second->new_external_ip();
}
// since we have a new external IP now, we need to
// restart the DHT with a new node ID
#ifndef TORRENT_DISABLE_DHT
if (m_dht) m_dht->update_node_id();
#endif
}
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// decrement the refcount of the block in the disk cache
// since the network thread doesn't need it anymore
void session_impl::reclaim_block(block_cache_reference ref)
{
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m_disk_thread.reclaim_block(ref);
}
disk_buffer_holder session_impl::allocate_disk_buffer(char const* category)
{
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return m_disk_thread.allocate_disk_buffer(category);
}
void session_impl::free_disk_buffer(char* buf)
{
m_disk_thread.free_disk_buffer(buf);
}
disk_buffer_holder session_impl::allocate_disk_buffer(bool& exceeded
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, boost::shared_ptr<disk_observer> o
, char const* category)
{
return m_disk_thread.allocate_disk_buffer(exceeded, o, category);
}
char* session_impl::allocate_buffer()
{
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TORRENT_ASSERT(is_single_thread());
#ifdef TORRENT_DISABLE_POOL_ALLOCATOR
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int num_bytes = send_buffer_size();
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return static_cast<char*>(malloc(num_bytes));
#else
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return static_cast<char*>(m_send_buffers.malloc());
#endif
}
void session_impl::free_buffer(char* buf)
{
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TORRENT_ASSERT(is_single_thread());
#ifdef TORRENT_DISABLE_POOL_ALLOCATOR
free(buf);
#else
m_send_buffers.free(buf);
#endif
}
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#if TORRENT_USE_INVARIANT_CHECKS
2007-08-21 20:33:28 +02:00
void session_impl::check_invariant() const
{
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TORRENT_ASSERT(is_single_thread());
TORRENT_ASSERT(m_torrents.size() >= m_torrent_lru.size());
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if (m_settings.get_int(settings_pack::unchoke_slots_limit) < 0
&& m_settings.get_int(settings_pack::choking_algorithm) == settings_pack::fixed_slots_choker)
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TORRENT_ASSERT(m_stats_counters[counters::num_unchoke_slots] == (std::numeric_limits<int>::max)());
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2014-07-06 21:18:00 +02:00
for (int l = 0; l < num_torrent_lists; ++l)
{
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std::vector<torrent*> const& list = m_torrent_lists[l];
for (std::vector<torrent*>::const_iterator i = list.begin()
, end(list.end()); i != end; ++i)
{
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TORRENT_ASSERT((*i)->m_links[l].in_list());
}
}
std::unordered_set<torrent*> unique_torrents;
for (list_iterator<torrent> i = m_torrent_lru.iterate(); i.get(); i.next())
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{
torrent* t = i.get();
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TORRENT_ASSERT(t->is_loaded());
TORRENT_ASSERT(unique_torrents.count(t) == 0);
unique_torrents.insert(t);
}
TORRENT_ASSERT(unique_torrents.size() == m_torrent_lru.size());
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int torrent_state_gauges[counters::num_error_torrents - counters::num_checking_torrents + 1];
memset(torrent_state_gauges, 0, sizeof(torrent_state_gauges));
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#if defined TORRENT_EXPENSIVE_INVARIANT_CHECKS
std::unordered_set<int> unique;
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#endif
int num_active_downloading = 0;
int num_active_finished = 0;
int total_downloaders = 0;
for (torrent_map::const_iterator i = m_torrents.begin()
, end(m_torrents.end()); i != end; ++i)
{
boost::shared_ptr<torrent> t = i->second;
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if (t->want_peers_download()) ++num_active_downloading;
if (t->want_peers_finished()) ++num_active_finished;
TORRENT_ASSERT(!(t->want_peers_download() && t->want_peers_finished()));
++torrent_state_gauges[t->current_stats_state() - counters::num_checking_torrents];
int pos = t->queue_position();
if (pos < 0)
{
TORRENT_ASSERT(pos == -1);
continue;
}
++total_downloaders;
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#if defined TORRENT_EXPENSIVE_INVARIANT_CHECKS
unique.insert(t->queue_position());
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#endif
}
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for (int i = 0, j = counters::num_checking_torrents;
j < counters::num_error_torrents + 1; ++i, ++j)
{
TORRENT_ASSERT(torrent_state_gauges[i] == m_stats_counters[j]);
}
#if defined TORRENT_EXPENSIVE_INVARIANT_CHECKS
TORRENT_ASSERT(int(unique.size()) == total_downloaders);
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#endif
TORRENT_ASSERT(num_active_downloading == m_torrent_lists[torrent_want_peers_download].size());
TORRENT_ASSERT(num_active_finished == m_torrent_lists[torrent_want_peers_finished].size());
std::unordered_set<peer_connection*> unique_peers;
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TORRENT_ASSERT(m_settings.get_int(settings_pack::connections_limit) > 0);
int unchokes = 0;
int unchokes_all = 0;
int num_optimistic = 0;
int disk_queue[2] = {0, 0};
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for (connection_map::const_iterator i = m_connections.begin();
i != m_connections.end(); ++i)
{
TORRENT_ASSERT(*i);
boost::shared_ptr<torrent> t = (*i)->associated_torrent().lock();
TORRENT_ASSERT(unique_peers.find(i->get()) == unique_peers.end());
unique_peers.insert(i->get());
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if ((*i)->m_channel_state[0] & peer_info::bw_disk) ++disk_queue[0];
if ((*i)->m_channel_state[1] & peer_info::bw_disk) ++disk_queue[1];
peer_connection* p = i->get();
TORRENT_ASSERT(!p->is_disconnecting());
if (p->ignore_unchoke_slots())
{
if (!p->is_choked()) ++unchokes_all;
continue;
}
if (!p->is_choked())
{
++unchokes;
++unchokes_all;
}
if (p->peer_info_struct()
&& p->peer_info_struct()->optimistically_unchoked)
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{
++num_optimistic;
TORRENT_ASSERT(!p->is_choked());
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}
}
for (std::vector<boost::shared_ptr<peer_connection> >::const_iterator i
= m_undead_peers.begin(); i != m_undead_peers.end(); ++i)
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{
peer_connection* p = i->get();
if (p->ignore_unchoke_slots())
{
if (!p->is_choked()) ++unchokes_all;
continue;
}
if (!p->is_choked())
{
++unchokes_all;
++unchokes;
}
if (p->peer_info_struct()
&& p->peer_info_struct()->optimistically_unchoked)
{
++num_optimistic;
TORRENT_ASSERT(!p->is_choked());
}
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}
TORRENT_ASSERT(disk_queue[peer_connection::download_channel]
== m_stats_counters[counters::num_peers_down_disk]);
TORRENT_ASSERT(disk_queue[peer_connection::upload_channel]
== m_stats_counters[counters::num_peers_up_disk]);
if (m_settings.get_int(settings_pack::num_optimistic_unchoke_slots))
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{
TORRENT_ASSERT(num_optimistic <= m_settings.get_int(
settings_pack::num_optimistic_unchoke_slots));
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}
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int const unchoked_counter_all = m_stats_counters[counters::num_peers_up_unchoked_all];
int const unchoked_counter = m_stats_counters[counters::num_peers_up_unchoked];
int const unchoked_counter_optimistic
= m_stats_counters[counters::num_peers_up_unchoked_optimistic];
TORRENT_ASSERT_VAL(unchoked_counter_all == unchokes_all, unchokes_all);
TORRENT_ASSERT_VAL(unchoked_counter == unchokes, unchokes);
TORRENT_ASSERT_VAL(unchoked_counter_optimistic == num_optimistic, num_optimistic);
for (torrent_map::const_iterator j
= m_torrents.begin(); j != m_torrents.end(); ++j)
{
TORRENT_ASSERT(boost::get_pointer(j->second));
}
}
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#endif // TORRENT_USE_INVARIANT_CHECKS
#ifndef TORRENT_DISABLE_LOGGING
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tracker_logger::tracker_logger(session_interface& ses): m_ses(ses) {}
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void tracker_logger::tracker_warning(tracker_request const&
, std::string const& str)
{
debug_log("*** tracker warning: %s", str.c_str());
}
void tracker_logger::tracker_response(tracker_request const&
, libtorrent::address const& tracker_ip
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, std::list<address> const& tracker_ips
, struct tracker_response const& resp)
{
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TORRENT_UNUSED(tracker_ips);
debug_log("TRACKER RESPONSE\n"
"interval: %d\n"
"external ip: %s\n"
"we connected to: %s\n"
"peers:"
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, resp.interval
, print_address(resp.external_ip).c_str()
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, print_address(tracker_ip).c_str());
for (std::vector<peer_entry>::const_iterator i = resp.peers.begin();
i != resp.peers.end(); ++i)
{
debug_log(" %16s %5d %s %s", i->hostname.c_str(), i->port
, i->pid.is_all_zeros()?"":to_hex(i->pid.to_string()).c_str()
, identify_client(i->pid).c_str());
}
for (std::vector<ipv4_peer_entry>::const_iterator i = resp.peers4.begin();
i != resp.peers4.end(); ++i)
{
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debug_log(" %s:%d", print_address(address_v4(i->ip)).c_str(), i->port);
}
#if TORRENT_USE_IPV6
for (std::vector<ipv6_peer_entry>::const_iterator i = resp.peers6.begin();
i != resp.peers6.end(); ++i)
{
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debug_log(" [%s]:%d", print_address(address_v6(i->ip)).c_str(), i->port);
}
#endif
}
void tracker_logger::tracker_request_timed_out(
tracker_request const&)
{
debug_log("*** tracker timed out");
}
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void tracker_logger::tracker_request_error(tracker_request const&
, int response_code, error_code const& ec, const std::string& str
, int retry_interval)
{
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TORRENT_UNUSED(retry_interval);
debug_log("*** tracker error: %d: %s %s"
, response_code, ec.message().c_str(), str.c_str());
}
void tracker_logger::debug_log(const char* fmt, ...) const
{
va_list v;
va_start(v, fmt);
m_ses.session_vlog(fmt, v);
va_end(v);
}
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#endif // TORRENT_DISABLE_LOGGING
}}