premiere-libtorrent/src/session_impl.cpp

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/*
Copyright (c) 2006, 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.
*/
#include "libtorrent/pch.hpp"
#include <ctime>
#include <algorithm>
#include <set>
#include <cctype>
#include <algorithm>
#ifdef _MSC_VER
#pragma warning(push, 1)
#endif
#include <boost/limits.hpp>
#include <boost/bind.hpp>
#include <boost/function_equal.hpp>
#ifdef _MSC_VER
#pragma warning(pop)
#endif
// for logging the size of DHT structures
#if defined TORRENT_VERBOSE_LOGGING || defined TORRENT_LOGGING || defined TORRENT_ERROR_LOGGING
#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>
#endif
#endif
#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"
#include "libtorrent/ip_filter.hpp"
#include "libtorrent/socket.hpp"
#include "libtorrent/aux_/session_impl.hpp"
#include "libtorrent/kademlia/dht_tracker.hpp"
#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"
#ifndef TORRENT_WINDOWS
#include <sys/resource.h>
#endif
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#ifdef TORRENT_USE_GCRYPT
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) fprintf(stderr, "libcrypt ERROR: %s\n", gcry_strerror(e));
e = gcry_control(GCRYCTL_INITIALIZATION_FINISHED, 0);
if (e != 0) fprintf(stderr, "initialization finished error: %s\n", gcry_strerror(e));
}
} gcrypt_global_constructor;
}
#endif // TORRENT_USE_GCRYPT
#ifdef TORRENT_USE_OPENSSL
#include <openssl/crypto.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 boost::bind;
using libtorrent::aux::session_impl;
#ifdef BOOST_NO_EXCEPTIONS
namespace boost {
void throw_exception(std::exception const& e) { ::abort(); }
}
#endif
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namespace libtorrent {
namespace detail
{
std::string generate_auth_string(std::string const& user
, std::string const& passwd)
{
if (user.empty()) return std::string();
return user + ":" + passwd;
}
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}
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namespace aux {
struct seed_random_generator
{
seed_random_generator()
{
std::srand(total_microseconds(time_now_hires() - min_time()));
}
};
enum { std_string = 0, character = 1, short_integer = 2
, integer = 3, floating_point = 4, boolean = 5};
// this is used to map struct entries
// to names in a bencoded dictionary to
// save and load the struct
struct bencode_map_entry
{
char const* name;
int offset; // struct offset
int type;
};
#define TORRENT_SETTING(t, x) {#x, offsetof(session_settings,x), t},
bencode_map_entry session_settings_map[] =
{
TORRENT_SETTING(std_string, user_agent)
TORRENT_SETTING(integer, tracker_completion_timeout)
TORRENT_SETTING(integer, tracker_receive_timeout)
TORRENT_SETTING(integer, stop_tracker_timeout)
TORRENT_SETTING(integer, tracker_maximum_response_length)
TORRENT_SETTING(integer, piece_timeout)
TORRENT_SETTING(integer, request_timeout)
TORRENT_SETTING(integer, request_queue_time)
TORRENT_SETTING(integer, max_allowed_in_request_queue)
TORRENT_SETTING(integer, max_out_request_queue)
TORRENT_SETTING(integer, whole_pieces_threshold)
TORRENT_SETTING(integer, peer_timeout)
TORRENT_SETTING(integer, urlseed_timeout)
TORRENT_SETTING(integer, urlseed_pipeline_size)
TORRENT_SETTING(integer, urlseed_wait_retry)
TORRENT_SETTING(integer, file_pool_size)
TORRENT_SETTING(boolean, allow_multiple_connections_per_ip)
TORRENT_SETTING(integer, max_failcount)
TORRENT_SETTING(integer, min_reconnect_time)
TORRENT_SETTING(integer, peer_connect_timeout)
TORRENT_SETTING(boolean, ignore_limits_on_local_network)
TORRENT_SETTING(integer, connection_speed)
TORRENT_SETTING(boolean, send_redundant_have)
TORRENT_SETTING(boolean, lazy_bitfields)
TORRENT_SETTING(integer, inactivity_timeout)
TORRENT_SETTING(integer, unchoke_interval)
TORRENT_SETTING(integer, optimistic_unchoke_interval)
TORRENT_SETTING(std_string, announce_ip)
TORRENT_SETTING(integer, num_want)
TORRENT_SETTING(integer, initial_picker_threshold)
TORRENT_SETTING(integer, allowed_fast_set_size)
TORRENT_SETTING(integer, suggest_mode)
TORRENT_SETTING(integer, max_queued_disk_bytes)
TORRENT_SETTING(integer, handshake_timeout)
#ifndef TORRENT_DISABLE_DHT
TORRENT_SETTING(boolean, use_dht_as_fallback)
#endif
TORRENT_SETTING(boolean, free_torrent_hashes)
TORRENT_SETTING(boolean, upnp_ignore_nonrouters)
TORRENT_SETTING(integer, send_buffer_watermark)
#ifndef TORRENT_NO_DEPRECATE
TORRENT_SETTING(boolean, auto_upload_slots)
TORRENT_SETTING(boolean, auto_upload_slots_rate_based)
#endif
TORRENT_SETTING(integer, choking_algorithm)
TORRENT_SETTING(boolean, use_parole_mode)
TORRENT_SETTING(integer, cache_size)
TORRENT_SETTING(integer, cache_buffer_chunk_size)
TORRENT_SETTING(integer, cache_expiry)
TORRENT_SETTING(boolean, use_read_cache)
TORRENT_SETTING(boolean, explicit_read_cache)
TORRENT_SETTING(integer, disk_io_write_mode)
TORRENT_SETTING(integer, disk_io_read_mode)
TORRENT_SETTING(boolean, coalesce_reads)
TORRENT_SETTING(boolean, coalesce_writes)
TORRENT_SETTING(character, peer_tos)
TORRENT_SETTING(integer, active_downloads)
TORRENT_SETTING(integer, active_seeds)
TORRENT_SETTING(integer, active_limit)
TORRENT_SETTING(boolean, auto_manage_prefer_seeds)
TORRENT_SETTING(boolean, dont_count_slow_torrents)
TORRENT_SETTING(integer, auto_manage_interval)
TORRENT_SETTING(floating_point, share_ratio_limit)
TORRENT_SETTING(floating_point, seed_time_ratio_limit)
TORRENT_SETTING(integer, seed_time_limit)
TORRENT_SETTING(floating_point, peer_turnover)
TORRENT_SETTING(floating_point, peer_turnover_cutoff)
TORRENT_SETTING(boolean, close_redundant_connections)
TORRENT_SETTING(integer, auto_scrape_interval)
TORRENT_SETTING(integer, auto_scrape_min_interval)
TORRENT_SETTING(integer, max_peerlist_size)
TORRENT_SETTING(integer, max_paused_peerlist_size)
TORRENT_SETTING(integer, min_announce_interval)
TORRENT_SETTING(boolean, prioritize_partial_pieces)
TORRENT_SETTING(integer, auto_manage_startup)
TORRENT_SETTING(boolean, rate_limit_ip_overhead)
TORRENT_SETTING(boolean, announce_to_all_trackers)
TORRENT_SETTING(boolean, announce_to_all_tiers)
TORRENT_SETTING(boolean, prefer_udp_trackers)
TORRENT_SETTING(boolean, strict_super_seeding)
TORRENT_SETTING(integer, seeding_piece_quota)
TORRENT_SETTING(integer, max_sparse_regions)
#ifndef TORRENT_DISABLE_MLOCK
TORRENT_SETTING(boolean, lock_disk_cache)
#endif
TORRENT_SETTING(integer, max_rejects)
TORRENT_SETTING(integer, recv_socket_buffer_size)
TORRENT_SETTING(integer, send_socket_buffer_size)
TORRENT_SETTING(boolean, optimize_hashing_for_speed)
TORRENT_SETTING(integer, file_checks_delay_per_block)
TORRENT_SETTING(integer, disk_cache_algorithm)
TORRENT_SETTING(integer, read_cache_line_size)
TORRENT_SETTING(integer, write_cache_line_size)
TORRENT_SETTING(integer, optimistic_disk_retry)
TORRENT_SETTING(boolean, disable_hash_checks)
TORRENT_SETTING(boolean, allow_reordered_disk_operations)
TORRENT_SETTING(boolean, allow_i2p_mixed)
TORRENT_SETTING(integer, max_suggest_pieces)
TORRENT_SETTING(boolean, drop_skipped_requests)
TORRENT_SETTING(boolean, low_prio_disk)
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TORRENT_SETTING(integer, local_service_announce_interval)
TORRENT_SETTING(integer, udp_tracker_token_expiry)
TORRENT_SETTING(boolean, volatile_read_cache)
TORRENT_SETTING(boolean, guided_read_cache)
TORRENT_SETTING(integer, default_cache_min_age)
TORRENT_SETTING(integer, num_optimistic_unchoke_slots)
TORRENT_SETTING(boolean, no_atime_storage)
TORRENT_SETTING(integer, default_est_reciprocation_rate)
TORRENT_SETTING(integer, increase_est_reciprocation_rate)
TORRENT_SETTING(integer, decrease_est_reciprocation_rate)
TORRENT_SETTING(boolean, incoming_starts_queued_torrents)
TORRENT_SETTING(boolean, report_true_downloaded)
TORRENT_SETTING(boolean, strict_end_game_mode)
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TORRENT_SETTING(integer, default_peer_upload_rate)
TORRENT_SETTING(integer, default_peer_download_rate)
};
#undef TORRENT_SETTING
#define TORRENT_SETTING(t, x) {#x, offsetof(proxy_settings,x), t},
bencode_map_entry proxy_settings_map[] =
{
TORRENT_SETTING(std_string, hostname)
TORRENT_SETTING(integer, port)
TORRENT_SETTING(std_string, username)
TORRENT_SETTING(std_string, password)
TORRENT_SETTING(integer, type)
};
#undef TORRENT_SETTING
#ifndef TORRENT_DISABLE_DHT
#define TORRENT_SETTING(t, x) {#x, offsetof(dht_settings,x), t},
bencode_map_entry dht_settings_map[] =
{
TORRENT_SETTING(integer, max_peers_reply)
TORRENT_SETTING(integer, search_branching)
TORRENT_SETTING(integer, service_port)
TORRENT_SETTING(integer, max_fail_count)
TORRENT_SETTING(integer, max_torrent_search_reply)
};
#undef TORRENT_SETTING
#endif
#ifndef TORRENT_DISABLE_ENCRYPTION
#define TORRENT_SETTING(t, x) {#x, offsetof(pe_settings,x), t},
bencode_map_entry pe_settings_map[] =
{
TORRENT_SETTING(integer, out_enc_policy)
TORRENT_SETTING(integer, in_enc_policy)
TORRENT_SETTING(integer, allowed_enc_level)
TORRENT_SETTING(boolean, prefer_rc4)
};
#undef TORRENT_SETTING
#endif
struct session_category
{
char const* name;
bencode_map_entry const* map;
int num_entries;
int flag;
int offset;
};
#define lenof(x) sizeof(x)/sizeof(x[0])
#define TORRENT_CATEGORY(name, flag, member, map) \
{ name, map, lenof(map), session:: flag , offsetof(session_impl, member) },
session_category all_settings[] =
{
TORRENT_CATEGORY("settings", save_settings, m_settings, session_settings_map)
#ifndef TORRENT_DISABLE_DHT
// TORRENT_CATEGORY("dht", save_dht_settings, m_dht_settings, dht_settings_map)
TORRENT_CATEGORY("dht proxy", save_dht_proxy, m_dht_proxy, proxy_settings_map)
#endif
#if TORRENT_USE_I2P
// TORRENT_CATEGORY("i2p", save_i2p_proxy, m_i2p_proxy, proxy_settings_map)
#endif
#ifndef TORRENT_DISABLE_ENCRYPTION
TORRENT_CATEGORY("encryption", save_encryption_settings, m_pe_settings, pe_settings_map)
#endif
TORRENT_CATEGORY("peer proxy", save_peer_proxy, m_peer_proxy, proxy_settings_map)
TORRENT_CATEGORY("web proxy", save_web_proxy, m_web_seed_proxy, proxy_settings_map)
TORRENT_CATEGORY("tracker proxy", save_tracker_proxy, m_tracker_proxy, proxy_settings_map)
};
#undef lenof
void load_struct(lazy_entry const& e, void* s, bencode_map_entry const* m, int num)
{
for (int i = 0; i < num; ++i)
{
lazy_entry const* key = e.dict_find(m[i].name);
if (key == 0) continue;
void* dest = ((char*)s) + m[i].offset;
switch (m[i].type)
{
case std_string:
{
if (key->type() != lazy_entry::string_t) continue;
*((std::string*)dest) = key->string_value();
break;
}
case character:
case boolean:
case integer:
case floating_point:
{
if (key->type() != lazy_entry::int_t) continue;
size_type val = key->int_value();
switch (m[i].type)
{
case character: *((char*)dest) = val; break;
case integer: *((int*)dest) = val; break;
case floating_point: *((float*)dest) = float(val) / 1000.f; break;
case boolean: *((bool*)dest) = val; break;
}
}
}
}
}
void save_struct(entry& e, void const* s, bencode_map_entry const* m, int num)
{
for (int i = 0; i < num; ++i)
{
char const* key = m[i].name;
void const* src = ((char*)s) + m[i].offset;
entry& val = e[key];
TORRENT_ASSERT(val.type() == entry::undefined_t);
switch (m[i].type)
{
case std_string:
{
val = *((std::string*)src);
break;
}
case character: val = *((char*)src); break;
case integer: val = *((int*)src); break;
case floating_point: val = size_type(*((float*)src) * 1000.f); break;
case boolean: val = *((bool*)src); break;
}
}
}
#ifdef TORRENT_STATS
int session_impl::logging_allocator::allocations = 0;
int session_impl::logging_allocator::allocated_bytes = 0;
#endif
session_impl::session_impl(
std::pair<int, int> listen_port_range
, fingerprint const& cl_fprint
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, char const* listen_interface
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#if defined TORRENT_VERBOSE_LOGGING || defined TORRENT_LOGGING || defined TORRENT_ERROR_LOGGING
, std::string const& logpath
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#endif
)
: m_ipv4_peer_pool(500)
#if TORRENT_USE_IPV6
, m_ipv6_peer_pool(500)
#endif
#ifndef TORRENT_DISABLE_POOL_ALLOCATOR
, m_send_buffers(send_buffer_size)
#endif
, m_files(40)
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, m_io_service()
, m_alerts(m_io_service)
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, m_disk_thread(m_io_service, boost::bind(&session_impl::on_disk_queue, this), m_files)
, m_half_open(m_io_service)
, m_download_rate(peer_connection::download_channel)
#ifdef TORRENT_VERBOSE_BANDWIDTH_LIMIT
, m_upload_rate(peer_connection::upload_channel, true)
#else
, m_upload_rate(peer_connection::upload_channel)
#endif
, m_tracker_manager(*this, m_tracker_proxy)
, m_listen_port_retries(listen_port_range.second - listen_port_range.first)
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#if TORRENT_USE_I2P
, m_i2p_conn(m_io_service)
#endif
, m_abort(false)
, m_paused(false)
, m_max_uploads(8)
, m_allowed_upload_slots(8)
, m_max_connections(200)
, m_num_unchoked(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_next_explicit_cache_torrent(0)
, m_cache_rotation_timer(0)
, m_peak_up_rate(0)
, m_peak_down_rate(0)
, m_incoming_connection(false)
, m_created(time_now_hires())
, m_last_tick(m_created)
, m_last_second_tick(m_created)
, m_last_choke(m_created)
#ifndef TORRENT_DISABLE_DHT
, m_dht_same_port(true)
, m_external_udp_port(0)
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, m_dht_socket(m_io_service, bind(&session_impl::on_receive_udp, this, _1, _2, _3, _4)
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, m_half_open)
, m_dht_announce_timer(m_io_service)
#endif
, m_timer(m_io_service)
, m_lsd_announce_timer(m_io_service)
, m_host_resolver(m_io_service)
, m_tick_residual(0)
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#if defined TORRENT_VERBOSE_LOGGING || defined TORRENT_LOGGING || defined TORRENT_ERROR_LOGGING
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, m_logpath(logpath)
#endif
#ifndef TORRENT_DISABLE_GEO_IP
, m_asnum_db(0)
, m_country_db(0)
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#endif
, m_total_failed_bytes(0)
, m_total_redundant_bytes(0)
{
#ifndef TORRENT_DISABLE_DHT
m_next_dht_torrent = m_torrents.begin();
#endif
m_next_lsd_torrent = m_torrents.begin();
m_next_connect_torrent = m_torrents.begin();
TORRENT_ASSERT(listen_interface);
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error_code ec;
m_listen_interface = tcp::endpoint(address::from_string(listen_interface, ec), listen_port_range.first);
TORRENT_ASSERT(!ec);
m_tcp_mapping[0] = -1;
m_tcp_mapping[1] = -1;
m_udp_mapping[0] = -1;
m_udp_mapping[1] = -1;
#ifdef WIN32
// windows XP has a limit on the number of
// simultaneous half-open TCP connections
DWORD windows_version = ::GetVersion();
if ((windows_version & 0xff) >= 6)
{
// on vista the limit is 5 (in home edition)
m_half_open.limit(4);
}
else
{
// on XP SP2 it's 10
m_half_open.limit(8);
}
#endif
m_bandwidth_channel[peer_connection::download_channel] = &m_download_channel;
m_bandwidth_channel[peer_connection::upload_channel] = &m_upload_channel;
#ifdef TORRENT_UPNP_LOGGING
m_upnp_log.open("upnp.log", std::ios::in | std::ios::out | std::ios::trunc);
#endif
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#if defined TORRENT_VERBOSE_LOGGING || defined TORRENT_LOGGING || defined TORRENT_ERROR_LOGGING
m_logger = create_log("main_session", listen_port(), false);
(*m_logger) << time_now_string() << "\n";
#define PRINT_SIZEOF(x) (*m_logger) << "sizeof(" #x "): " << sizeof(x) << "\n";
#define PRINT_OFFSETOF(x, y) (*m_logger) << " offsetof(" #x "," #y "): " << offsetof(x, y) << "\n";
PRINT_SIZEOF(union_endpoint)
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PRINT_SIZEOF(request_callback)
PRINT_SIZEOF(stat)
PRINT_SIZEOF(bandwidth_channel)
PRINT_SIZEOF(policy)
stat_channel::print_size(*m_logger);
torrent::print_size(*m_logger);
PRINT_SIZEOF(peer_connection)
PRINT_SIZEOF(bt_peer_connection)
PRINT_SIZEOF(address)
PRINT_SIZEOF(address_v4)
PRINT_SIZEOF(address_v4::bytes_type)
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#if TORRENT_USE_IPV6
PRINT_SIZEOF(address_v6)
PRINT_SIZEOF(address_v6::bytes_type)
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#endif
PRINT_SIZEOF(void*)
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#ifndef TORRENT_DISABLE_DHT
PRINT_SIZEOF(dht::node_entry)
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#endif
PRINT_SIZEOF(policy::peer)
PRINT_OFFSETOF(policy::peer, connection)
PRINT_OFFSETOF(policy::peer, last_optimistically_unchoked)
PRINT_OFFSETOF(policy::peer, last_connected)
PRINT_OFFSETOF(policy::peer, port)
PRINT_OFFSETOF(policy::peer, hashfails)
PRINT_SIZEOF(policy::ipv4_peer)
#if TORRENT_USE_IPV6
PRINT_SIZEOF(policy::ipv6_peer)
#endif
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#ifndef TORRENT_DISABLE_DHT
PRINT_SIZEOF(dht::find_data_observer)
PRINT_SIZEOF(dht::announce_observer)
PRINT_SIZEOF(dht::null_observer)
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#endif
#undef PRINT_OFFSETOF
#undef PRINT_SIZEOF
#endif
#ifdef TORRENT_STATS
m_stats_logger.open("session_stats.log", std::ios::trunc);
m_stats_logger <<
"second:upload rate:download rate:downloading torrents:seeding torrents"
":peers:connecting peers:disk block buffers:unchoked peers:num list peers"
":peer allocations:peer storage bytes\n\n";
m_buffer_usage_logger.open("buffer_stats.log", std::ios::trunc);
m_second_counter = 0;
m_buffer_allocations = 0;
#endif
#if defined TORRENT_BSD || defined TORRENT_LINUX
// ---- auto-cap open files ----
struct rlimit rl;
if (getrlimit(RLIMIT_NOFILE, &rl) == 0)
{
#if defined TORRENT_VERBOSE_LOGGING || defined TORRENT_LOGGING || defined TORRENT_ERROR_LOGGING
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(*m_logger) << time_now_string() << " max number of open files: " << rl.rlim_cur << "\n";
#endif
// deduct some margin for epoll/kqueue, log files,
// futexes, shared objects etc.
rl.rlim_cur -= 20;
// 80% of the available file descriptors should go
m_max_connections = (std::min)(m_max_connections, int(rl.rlim_cur * 8 / 10));
// 20% goes towards regular files
m_files.resize((std::min)(m_files.size_limit(), int(rl.rlim_cur * 2 / 10)));
#if defined TORRENT_VERBOSE_LOGGING || defined TORRENT_LOGGING || defined TORRENT_ERROR_LOGGING
(*m_logger) << time_now_string() << " max connections: " << m_max_connections << "\n";
(*m_logger) << time_now_string() << " max files: " << m_files.size_limit() << "\n";
#endif
}
#endif // TORRENT_BSD || TORRENT_LINUX
// ---- generate a peer id ----
static seed_random_generator seeder;
m_key = rand() + (rand() << 15) + (rand() << 30);
std::string print = cl_fprint.to_string();
TORRENT_ASSERT(print.length() <= 20);
// the client's fingerprint
std::copy(
print.begin()
, print.begin() + print.length()
, m_peer_id.begin());
// http-accepted characters:
// excluding ', since some buggy trackers don't support that
static char const printable[] = "0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZ"
"abcdefghijklmnopqrstuvwxyz-_.!~*()";
// the random number
for (unsigned char* i = m_peer_id.begin() + print.length();
i != m_peer_id.end(); ++i)
{
*i = printable[rand() % (sizeof(printable)-1)];
}
m_timer.expires_from_now(milliseconds(100), ec);
m_timer.async_wait(bind(&session_impl::on_tick, this, _1));
int delay = (std::max)(m_settings.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(
bind(&session_impl::on_lsd_announce, this, _1));
#ifndef TORRENT_DISABLE_DHT
delay = (std::max)(m_settings.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(
bind(&session_impl::on_dht_announce, this, _1));
#endif
m_thread.reset(new thread(boost::bind(&session_impl::main_thread, this)));
}
void session_impl::save_state(entry& e, boost::uint32_t flags, mutex::scoped_lock& l) const
{
if (flags & session::save_settings)
{
// TODO: move these to session_settings
e["upload_rate_limit"] = upload_rate_limit();
e["download_rate_limit"] = upload_rate_limit();
e["local_upload_rate_limit"] = local_upload_rate_limit();
e["local_download_rate_limit"] = local_upload_rate_limit();
e["max_uploads"] = max_uploads();
e["max_half_open_connections"] = max_half_open_connections();
e["max_connections"] = max_connections();
}
for (int i = 0; i < sizeof(all_settings)/sizeof(all_settings[0]); ++i)
{
session_category const& c = all_settings[i];
if ((flags & c.flag) == 0) continue;
save_struct(e[c.name], reinterpret_cast<char const*>(this) + c.offset, c.map, c.num_entries);
}
#ifndef TORRENT_DISABLE_DHT
if (flags & session::save_dht_settings)
{
save_struct(e["dht"], &m_dht_settings, dht_settings_map
, sizeof(dht_settings_map)/sizeof(dht_settings_map[0]));
}
#endif
#ifndef TORRENT_DISABLE_DHT
if (m_dht && (flags & session::save_dht_state))
{
condition cond;
entry& state = e["dht state"];
bool done = false;
m_io_service.post(boost::bind(&session_impl::on_dht_state_callback
, this, boost::ref(cond), boost::ref(state), boost::ref(done)));
while (!done) cond.wait(l);
}
#endif
#if TORRENT_USE_I2P
if (flags & session::save_i2p_proxy)
{
save_struct(e["i2p"], &i2p_proxy(), proxy_settings_map
, sizeof(proxy_settings_map)/sizeof(proxy_settings_map[0]));
}
#endif
#ifndef TORRENT_DISABLE_GEO_IP
if (flags & session::save_as_map)
{
entry::dictionary_type& as_map = e["AS map"].dict();
char buf[10];
for (std::map<int, int>::const_iterator i = m_as_peak.begin()
, end(m_as_peak.end()); i != end; ++i)
{
if (i->second == 0) continue;
sprintf(buf, "%05d", i->first);
as_map[buf] = i->second;
}
}
#endif
}
void session_impl::load_state(lazy_entry const& e)
{
lazy_entry const* settings;
if (e.type() != lazy_entry::dict_t) return;
set_upload_rate_limit(e.dict_find_int_value("upload_rate_limit", 0));
set_download_rate_limit(e.dict_find_int_value("download_rate_limit", 0));
set_local_upload_rate_limit(e.dict_find_int_value("local_upload_rate_limit", 0));
set_local_download_rate_limit(e.dict_find_int_value("local_download_rate_limit", 0));
set_max_uploads(e.dict_find_int_value("max_uploads", 0));
set_max_half_open_connections(e.dict_find_int_value("max_half_open_connections", 0));
set_max_connections(e.dict_find_int_value("max_connections", 0));
for (int i = 0; i < sizeof(all_settings)/sizeof(all_settings[0]); ++i)
{
session_category const& c = all_settings[i];
settings = e.dict_find_dict(c.name);
if (settings)
{
load_struct(*settings, reinterpret_cast<char*>(this) + c.offset, c.map, c.num_entries);
}
}
#ifndef TORRENT_DISABLE_DHT
settings = e.dict_find_dict("dht");
if (settings)
{
dht_settings s;
load_struct(*settings, &s, dht_settings_map
, sizeof(dht_settings_map)/sizeof(dht_settings_map[0]));
set_dht_settings(s);
}
settings = e.dict_find_dict("dht state");
if (settings)
{
m_dht_state = *settings;
}
#endif
#if TORRENT_USE_I2P
settings = e.dict_find_dict("i2p");
if (settings)
{
proxy_settings s;
load_struct(*settings, &s, proxy_settings_map
, sizeof(proxy_settings_map)/sizeof(proxy_settings_map[0]));
set_i2p_proxy(s);
}
#endif
#ifndef TORRENT_DISABLE_GEO_IP
settings = e.dict_find_dict("AS map");
if (settings)
{
for (int i = 0; i < settings->dict_size(); ++i)
{
std::pair<std::string, lazy_entry const*> item = settings->dict_at(i);
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int as_num = atoi(item.first.c_str());
if (item.second->type() != lazy_entry::int_t || item.second->int_value() == 0) continue;
int& peak = m_as_peak[as_num];
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if (peak < item.second->int_value()) peak = item.second->int_value();
}
}
#endif
}
#ifndef TORRENT_DISABLE_GEO_IP
namespace
{
struct free_ptr
{
void* ptr_;
free_ptr(void* p): ptr_(p) {}
~free_ptr() { free(ptr_); }
};
}
char const* session_impl::country_for_ip(address const& a)
{
if (!a.is_v4() || m_country_db == 0) return 0;
return GeoIP_country_code_by_ipnum(m_country_db, a.to_v4().to_ulong());
}
int session_impl::as_for_ip(address const& a)
{
if (!a.is_v4() || m_asnum_db == 0) return 0;
char* name = GeoIP_name_by_ipnum(m_asnum_db, a.to_v4().to_ulong());
if (name == 0) return 0;
free_ptr p(name);
// GeoIP returns the name as AS??? where ? is the AS-number
return atoi(name + 2);
}
std::string session_impl::as_name_for_ip(address const& a)
{
if (!a.is_v4() || m_asnum_db == 0) return std::string();
char* name = GeoIP_name_by_ipnum(m_asnum_db, a.to_v4().to_ulong());
if (name == 0) return std::string();
free_ptr p(name);
char* tmp = std::strchr(name, ' ');
if (tmp == 0) return std::string();
return tmp + 1;
}
std::pair<const int, int>* session_impl::lookup_as(int as)
{
std::map<int, int>::iterator i = m_as_peak.lower_bound(as);
if (i == m_as_peak.end() || i->first != as)
{
// we don't have any data for this AS, insert a new entry
i = m_as_peak.insert(i, std::pair<int, int>(as, 0));
}
return &(*i);
}
bool session_impl::load_asnum_db(char const* file)
{
if (m_asnum_db) GeoIP_delete(m_asnum_db);
m_asnum_db = GeoIP_open(file, GEOIP_STANDARD);
return m_asnum_db;
}
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#if TORRENT_USE_WSTRING
bool session_impl::load_asnum_db(wchar_t const* file)
{
if (m_asnum_db) GeoIP_delete(m_asnum_db);
std::string utf8;
wchar_utf8(file, utf8);
m_asnum_db = GeoIP_open(utf8.c_str(), GEOIP_STANDARD);
return m_asnum_db;
}
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bool session_impl::load_country_db(wchar_t const* file)
{
if (m_country_db) GeoIP_delete(m_country_db);
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std::string utf8;
wchar_utf8(file, utf8);
m_country_db = GeoIP_open(utf8.c_str(), GEOIP_STANDARD);
return m_country_db;
}
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#endif // TORRENT_USE_WSTRING
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bool session_impl::load_country_db(char const* file)
{
if (m_country_db) GeoIP_delete(m_country_db);
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m_country_db = GeoIP_open(file, GEOIP_STANDARD);
return m_country_db;
}
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#endif // TORRENT_DISABLE_GEO_IP
#ifndef TORRENT_DISABLE_EXTENSIONS
void session_impl::add_extension(
boost::function<boost::shared_ptr<torrent_plugin>(torrent*, void*)> ext)
{
TORRENT_ASSERT(ext);
typedef boost::shared_ptr<torrent_plugin>(*function_t)(torrent*, void*);
function_t const* f = ext.target<function_t>();
if (f)
{
for (extension_list_t::iterator i = m_extensions.begin(); i != m_extensions.end(); ++i)
if (function_equal(*i, *f)) return;
}
m_extensions.push_back(ext);
}
#endif
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#ifndef TORRENT_DISABLE_DHT
void session_impl::add_dht_node(udp::endpoint n)
{
if (m_dht) m_dht->add_node(n);
}
#endif
void session_impl::pause()
{
if (m_paused) return;
#if defined TORRENT_VERBOSE_LOGGING || defined TORRENT_LOGGING
(*m_logger) << time_now_string() << " *** session paused ***\n";
#endif
m_paused = true;
for (torrent_map::iterator i = m_torrents.begin()
, end(m_torrents.end()); i != end; ++i)
{
torrent& t = *i->second;
if (!t.is_torrent_paused()) t.do_pause();
}
}
void session_impl::resume()
{
if (!m_paused) return;
m_paused = false;
for (torrent_map::iterator i = m_torrents.begin()
, end(m_torrents.end()); i != end; ++i)
{
torrent& t = *i->second;
t.do_resume();
}
}
void session_impl::abort()
{
if (m_abort) return;
#if defined TORRENT_LOGGING
(*m_logger) << time_now_string() << " *** ABORT CALLED ***\n";
#endif
// abort the main thread
m_abort = true;
error_code ec;
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#if TORRENT_USE_I2P
m_i2p_conn.close(ec);
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#endif
m_queued_for_checking.clear();
if (m_lsd) m_lsd->close();
if (m_upnp) m_upnp->close();
if (m_natpmp) m_natpmp->close();
#ifndef TORRENT_DISABLE_DHT
if (m_dht) m_dht->stop();
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m_dht_socket.close();
m_dht_announce_timer.cancel(ec);
#endif
m_timer.cancel(ec);
m_lsd_announce_timer.cancel(ec);
// close the listen sockets
for (std::list<listen_socket_t>::iterator i = m_listen_sockets.begin()
, end(m_listen_sockets.end()); i != end; ++i)
{
i->sock->close(ec);
}
#if defined(TORRENT_VERBOSE_LOGGING) || defined(TORRENT_LOGGING)
(*m_logger) << time_now_string() << " aborting all torrents (" << m_torrents.size() << ")\n";
#endif
// abort all torrents
for (torrent_map::iterator i = m_torrents.begin()
, end(m_torrents.end()); i != end; ++i)
{
i->second->abort();
}
#if defined(TORRENT_VERBOSE_LOGGING) || defined(TORRENT_LOGGING)
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(*m_logger) << time_now_string() << " aborting all tracker requests\n";
#endif
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m_tracker_manager.abort_all_requests();
#if defined(TORRENT_VERBOSE_LOGGING) || defined(TORRENT_LOGGING)
(*m_logger) << time_now_string() << " sending event=stopped to trackers\n";
#endif
for (torrent_map::iterator i = m_torrents.begin();
i != m_torrents.end(); ++i)
{
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torrent& t = *i->second;
t.abort();
}
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#if defined(TORRENT_VERBOSE_LOGGING) || defined(TORRENT_LOGGING)
(*m_logger) << time_now_string() << " aborting all connections (" << m_connections.size() << ")\n";
#endif
// closing all the connections needs to be done from a callback,
// when the session mutex is not held
m_io_service.post(boost::bind(&connection_queue::close, &m_half_open));
#if defined(TORRENT_VERBOSE_LOGGING) || defined(TORRENT_LOGGING)
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(*m_logger) << time_now_string() << " connection queue: " << m_half_open.size() << "\n";
#endif
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// abort all connections
while (!m_connections.empty())
{
#ifdef TORRENT_DEBUG
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int conn = m_connections.size();
#endif
(*m_connections.begin())->disconnect(errors::stopping_torrent);
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TORRENT_ASSERT(conn == int(m_connections.size()) + 1);
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}
#if defined(TORRENT_VERBOSE_LOGGING) || defined(TORRENT_LOGGING)
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(*m_logger) << time_now_string() << " connection queue: " << m_half_open.size() << "\n";
#endif
#if defined(TORRENT_VERBOSE_LOGGING) || defined(TORRENT_LOGGING)
(*m_logger) << time_now_string() << " shutting down connection queue\n";
#endif
m_download_rate.close();
m_upload_rate.close();
}
void session_impl::set_port_filter(port_filter const& f)
{
m_port_filter = f;
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// TODO: recalculate all connect candidates for all torrents
}
void session_impl::set_ip_filter(ip_filter const& f)
{
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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->ip_filter_updated();
}
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ip_filter const& session_impl::get_ip_filter() const
{
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return m_ip_filter;
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}
void session_impl::set_settings(session_settings const& s)
{
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INVARIANT_CHECK;
TORRENT_ASSERT(s.file_pool_size > 0);
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// less than 5 seconds unchoke interval is insane
TORRENT_ASSERT(s.unchoke_interval >= 5);
// if disk io thread settings were changed
// post a notification to that thread
bool update_disk_io_thread = false;
if (m_settings.cache_size != s.cache_size
|| m_settings.cache_expiry != s.cache_expiry
|| m_settings.optimize_hashing_for_speed != s.optimize_hashing_for_speed
|| m_settings.file_checks_delay_per_block != s.file_checks_delay_per_block
|| m_settings.disk_cache_algorithm != s.disk_cache_algorithm
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|| m_settings.read_cache_line_size != s.read_cache_line_size
|| m_settings.write_cache_line_size != s.write_cache_line_size
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|| m_settings.coalesce_writes != s.coalesce_writes
|| m_settings.coalesce_reads != s.coalesce_reads
|| m_settings.max_queued_disk_bytes != s.max_queued_disk_bytes
|| m_settings.disable_hash_checks != s.disable_hash_checks
|| m_settings.explicit_read_cache != s.explicit_read_cache
#ifndef TORRENT_DISABLE_MLOCK
|| m_settings.lock_disk_cache != s.lock_disk_cache
#endif
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|| m_settings.use_read_cache != s.use_read_cache
|| m_settings.allow_reordered_disk_operations != s.allow_reordered_disk_operations
|| m_settings.file_pool_size != s.file_pool_size
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|| m_settings.volatile_read_cache != s.volatile_read_cache
|| m_settings.no_atime_storage!= s.no_atime_storage
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|| m_settings.low_prio_disk != s.low_prio_disk)
update_disk_io_thread = true;
#ifndef TORRENT_NO_DEPRECATE
// support deprecated choker settings
if (s.choking_algorithm == session_settings::rate_based_choker)
{
if (s.auto_upload_slots && !s.auto_upload_slots_rate_based)
m_settings.choking_algorithm = session_settings::auto_expand_choker;
else if (!s.auto_upload_slots)
m_settings.choking_algorithm = session_settings::fixed_slots_choker;
}
#endif
// safety check
if (m_settings.volatile_read_cache
&& (m_settings.suggest_mode == session_settings::suggest_read_cache
|| m_settings.explicit_read_cache))
{
// If you hit this assert, you're trying to set your cache to be
// volatile and to suggest pieces out of it (or to make the cache
// explicit) at the same time this is a bad configuration, don't do it
TORRENT_ASSERT(false);
m_settings.volatile_read_cache = false;
}
if (m_settings.choking_algorithm != s.choking_algorithm)
{
// trigger recalculation of the unchoked peers
m_unchoke_time_scaler = 0;
}
#ifndef TORRENT_DISABLE_DHT
if (m_settings.dht_announce_interval != s.dht_announce_interval)
{
error_code ec;
int delay = (std::max)(s.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(
bind(&session_impl::on_dht_announce, this, _1));
}
#endif
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if (m_settings.local_service_announce_interval != s.local_service_announce_interval)
{
error_code ec;
int delay = (std::max)(s.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(
bind(&session_impl::on_lsd_announce, this, _1));
}
// if queuing settings were changed, recalculate
// queued torrents sooner
if ((m_settings.active_downloads != s.active_downloads
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|| m_settings.active_seeds != s.active_seeds
|| m_settings.active_limit != s.active_limit)
&& m_auto_manage_time_scaler > 2)
m_auto_manage_time_scaler = 2;
m_settings = s;
if (m_settings.connection_speed < 0) m_settings.connection_speed = 200;
if (update_disk_io_thread)
{
disk_io_job j;
j.buffer = (char*)&m_settings;
j.action = disk_io_job::update_settings;
m_disk_thread.add_job(j);
}
if (m_allowed_upload_slots <= m_settings.num_optimistic_unchoke_slots / 2)
{
if (m_alerts.should_post<performance_alert>())
m_alerts.post_alert(performance_alert(torrent_handle()
, performance_alert::too_many_optimistic_unchoke_slots));
}
if (s.choking_algorithm == session_settings::fixed_slots_choker)
m_allowed_upload_slots = m_max_uploads;
else if (s.choking_algorithm == session_settings::auto_expand_choker
&& m_allowed_upload_slots < m_max_uploads)
m_allowed_upload_slots = m_max_uploads;
// replace all occurances of '\n' with ' '.
std::string::iterator i = m_settings.user_agent.begin();
while ((i = std::find(i, m_settings.user_agent.end(), '\n'))
!= m_settings.user_agent.end())
*i = ' ';
}
tcp::endpoint session_impl::get_ipv6_interface() const
{
return m_ipv6_interface;
}
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tcp::endpoint session_impl::get_ipv4_interface() const
{
return m_ipv4_interface;
}
session_impl::listen_socket_t session_impl::setup_listener(tcp::endpoint ep
, int retries, bool v6_only)
{
2008-05-03 18:05:42 +02:00
error_code ec;
listen_socket_t s;
s.sock.reset(new socket_acceptor(m_io_service));
s.sock->open(ep.protocol(), ec);
s.sock->set_option(socket_acceptor::reuse_address(true), ec);
#if TORRENT_USE_IPV6
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if (ep.protocol() == tcp::v6())
{
s.sock->set_option(v6only(v6_only), ec);
#ifdef TORRENT_WINDOWS
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#ifndef PROTECTION_LEVEL_UNRESTRICTED
#define PROTECTION_LEVEL_UNRESTRICTED 10
#endif
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// enable Teredo on windows
s.sock->set_option(v6_protection_level(PROTECTION_LEVEL_UNRESTRICTED), ec);
#endif
}
#endif
s.sock->bind(ep, ec);
while (ec && retries > 0)
{
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ec = error_code();
TORRENT_ASSERT(!ec);
--retries;
ep.port(ep.port() + 1);
s.sock->bind(ep, ec);
}
if (ec)
{
// instead of giving up, try
// let the OS pick a port
ep.port(0);
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ec = error_code();
s.sock->bind(ep, ec);
}
if (ec)
{
// not even that worked, give up
if (m_alerts.should_post<listen_failed_alert>())
m_alerts.post_alert(listen_failed_alert(ep, ec));
#if defined(TORRENT_VERBOSE_LOGGING) || defined(TORRENT_LOGGING)
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char msg[200];
snprintf(msg, 200, "cannot bind to interface \"%s\": %s"
, print_endpoint(ep).c_str(), ec.message().c_str());
(*m_logger) << msg << "\n";
#endif
return listen_socket_t();
}
s.external_port = s.sock->local_endpoint(ec).port();
s.sock->listen(5, ec);
if (ec)
{
if (m_alerts.should_post<listen_failed_alert>())
m_alerts.post_alert(listen_failed_alert(ep, ec));
#if defined(TORRENT_VERBOSE_LOGGING) || defined(TORRENT_LOGGING)
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char msg[200];
snprintf(msg, 200, "cannot listen on interface \"%s\": %s"
, print_endpoint(ep).c_str(), ec.message().c_str());
(*m_logger) << msg << "\n";
#endif
return listen_socket_t();
}
if (m_alerts.should_post<listen_succeeded_alert>())
m_alerts.post_alert(listen_succeeded_alert(ep));
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#if defined(TORRENT_VERBOSE_LOGGING) || defined(TORRENT_LOGGING)
(*m_logger) << "listening on: " << ep
<< " external port: " << s.external_port << "\n";
#endif
return s;
}
void session_impl::open_listen_port()
{
// close the open listen sockets
m_listen_sockets.clear();
m_incoming_connection = false;
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m_ipv6_interface = tcp::endpoint();
m_ipv4_interface = tcp::endpoint();
if (is_any(m_listen_interface.address()))
{
// this means we should open two listen sockets
// one for IPv4 and one for IPv6
listen_socket_t s = setup_listener(
tcp::endpoint(address_v4::any(), m_listen_interface.port())
, m_listen_port_retries);
if (s.sock)
{
m_listen_sockets.push_back(s);
async_accept(s.sock);
}
#if TORRENT_USE_IPV6
// only try to open the IPv6 port if IPv6 is installed
if (supports_ipv6())
{
s = setup_listener(
tcp::endpoint(address_v6::any(), m_listen_interface.port())
, m_listen_port_retries, true);
if (s.sock)
{
m_listen_sockets.push_back(s);
async_accept(s.sock);
}
}
#endif // TORRENT_USE_IPV6
2009-04-12 02:37:06 +02:00
// set our main IPv4 and IPv6 interfaces
// used to send to the tracker
error_code ec;
std::vector<ip_interface> ifs = enum_net_interfaces(m_io_service, ec);
for (std::vector<ip_interface>::const_iterator i = ifs.begin()
, end(ifs.end()); i != end; ++i)
{
address const& addr = i->interface_address;
if (addr.is_v6() && !is_local(addr) && !is_loopback(addr))
m_ipv6_interface = tcp::endpoint(addr, m_listen_interface.port());
else if (addr.is_v4() && !is_local(addr) && !is_loopback(addr))
m_ipv4_interface = tcp::endpoint(addr, m_listen_interface.port());
}
}
else
{
// we should only open a single listen socket, that
// binds to the given interface
listen_socket_t s = setup_listener(
m_listen_interface, m_listen_port_retries);
if (s.sock)
{
m_listen_sockets.push_back(s);
async_accept(s.sock);
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if (m_listen_interface.address().is_v6())
m_ipv6_interface = m_listen_interface;
else
m_ipv4_interface = m_listen_interface;
}
}
open_new_incoming_socks_connection();
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#if TORRENT_USE_I2P
open_new_incoming_i2p_connection();
#endif
if (!m_listen_sockets.empty())
{
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error_code ec;
tcp::endpoint local = m_listen_sockets.front().sock->local_endpoint(ec);
if (!ec)
{
if (m_natpmp.get())
{
if (m_tcp_mapping[0] != -1) m_natpmp->delete_mapping(m_tcp_mapping[0]);
m_tcp_mapping[0] = m_natpmp->add_mapping(natpmp::tcp
, local.port(), local.port());
}
if (m_upnp.get())
{
if (m_tcp_mapping[1] != -1) m_upnp->delete_mapping(m_tcp_mapping[1]);
m_tcp_mapping[1] = m_upnp->add_mapping(upnp::tcp
, local.port(), local.port());
}
}
2007-09-10 21:10:38 +02:00
}
#if defined TORRENT_VERBOSE_LOGGING || defined TORRENT_LOGGING || defined TORRENT_ERROR_LOGGING
m_logger = create_log("main_session", listen_port(), false);
#endif
}
void session_impl::open_new_incoming_socks_connection()
{
if (m_peer_proxy.type != proxy_settings::socks5
&& m_peer_proxy.type != proxy_settings::socks5_pw
&& m_peer_proxy.type != proxy_settings::socks4)
return;
if (m_socks_listen_socket) return;
2009-08-18 20:47:44 +02:00
m_socks_listen_socket = boost::shared_ptr<socket_type>(new socket_type(m_io_service));
bool ret = instantiate_connection(m_io_service, m_peer_proxy
, *m_socks_listen_socket);
TORRENT_ASSERT(ret);
socks5_stream& s = *m_socks_listen_socket->get<socks5_stream>();
s.set_command(2); // 2 means BIND (as opposed to CONNECT)
s.async_connect(tcp::endpoint(address_v4::any(), m_listen_interface.port())
, boost::bind(&session_impl::on_socks_accept, this, m_socks_listen_socket, _1));
}
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#if TORRENT_USE_I2P
void session_impl::on_i2p_open(error_code const& ec)
{
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);
TORRENT_ASSERT(ret);
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(address_v4::any(), m_listen_interface.port())
, boost::bind(&session_impl::on_i2p_accept, this, m_i2p_listen_socket, _1));
}
void session_impl::on_i2p_accept(boost::shared_ptr<socket_type> const& s
, error_code const& e)
{
m_i2p_listen_socket.reset();
if (e == asio::error::operation_aborted) return;
if (e)
{
if (m_alerts.should_post<listen_failed_alert>())
m_alerts.post_alert(listen_failed_alert(tcp::endpoint(
address_v4::any(), m_listen_interface.port()), e));
return;
}
open_new_incoming_i2p_connection();
incoming_connection(s);
}
#endif
2008-01-18 03:02:18 +01:00
#ifndef TORRENT_DISABLE_DHT
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void session_impl::on_receive_udp(error_code const& e
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, udp::endpoint const& ep, char const* buf, int len)
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{
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if (e)
{
if (e == asio::error::connection_refused
|| e == asio::error::connection_reset
|| e == asio::error::connection_aborted)
m_dht->on_unreachable(ep);
if (m_alerts.should_post<udp_error_alert>())
m_alerts.post_alert(udp_error_alert(ep, e));
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return;
}
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if (len > 20 && *buf == 'd' && m_dht)
{
// this is probably a dht message
m_dht->on_receive(ep, buf, len);
}
}
2008-01-18 03:02:18 +01:00
#endif
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void session_impl::async_accept(boost::shared_ptr<socket_acceptor> const& listener)
{
shared_ptr<socket_type> c(new socket_type(m_io_service));
c->instantiate<stream_socket>(m_io_service);
listener->async_accept(*c->get<stream_socket>()
, bind(&session_impl::on_accept_connection, this, c
, boost::weak_ptr<socket_acceptor>(listener), _1));
}
void session_impl::on_accept_connection(shared_ptr<socket_type> const& s
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, weak_ptr<socket_acceptor> listen_socket, error_code const& e)
{
boost::shared_ptr<socket_acceptor> listener = listen_socket.lock();
if (!listener) return;
if (e == 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);
#if defined(TORRENT_VERBOSE_LOGGING) || defined(TORRENT_LOGGING)
std::string msg = "error accepting connection on '"
+ print_endpoint(ep) + "' " + e.message();
(*m_logger) << msg << "\n";
#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)
{
async_accept(listener);
return;
}
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#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)
{
async_accept(listener);
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.
if (m_max_connections > 10)
--m_max_connections;
// try again, but still alert the user of the problem
async_accept(listener);
}
if (m_alerts.should_post<listen_failed_alert>())
m_alerts.post_alert(listen_failed_alert(ep, e));
return;
}
async_accept(listener);
incoming_connection(s);
}
void session_impl::incoming_connection(boost::shared_ptr<socket_type> const& s)
{
error_code ec;
// we got a connection request!
tcp::endpoint endp = s->remote_endpoint(ec);
if (ec)
{
#if defined(TORRENT_VERBOSE_LOGGING) || defined(TORRENT_LOGGING)
(*m_logger) << endp << " <== INCOMING CONNECTION FAILED, could "
"not retrieve remote endpoint " << ec.message() << "\n";
#endif
return;
}
#if defined(TORRENT_VERBOSE_LOGGING) || defined(TORRENT_LOGGING)
2007-12-19 22:36:54 +01:00
(*m_logger) << time_now_string() << " <== INCOMING CONNECTION " << endp << "\n";
#endif
// 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()))
m_incoming_connection = true;
if (m_ip_filter.access(endp.address()) & ip_filter::blocked)
{
#if defined(TORRENT_VERBOSE_LOGGING) || defined(TORRENT_LOGGING)
(*m_logger) << "filtered blocked ip\n";
#endif
if (m_alerts.should_post<peer_blocked_alert>())
m_alerts.post_alert(peer_blocked_alert(torrent_handle(), endp.address()));
return;
}
2007-10-27 23:21:44 +02:00
// don't allow more connections than the max setting
bool reject = false;
if (m_settings.ignore_limits_on_local_network && is_local(endp.address()))
reject = max_connections() < INT_MAX / 12
&& num_connections() >= max_connections() * 12 / 10;
else
reject = num_connections() >= max_connections();
if (reject)
2007-10-27 23:21:44 +02:00
{
if (m_alerts.should_post<peer_disconnected_alert>())
{
m_alerts.post_alert(
peer_disconnected_alert(torrent_handle(), endp, peer_id()
, error_code(errors::too_many_connections, get_libtorrent_category())));
}
2007-10-27 23:21:44 +02:00
#if defined(TORRENT_VERBOSE_LOGGING) || defined(TORRENT_LOGGING)
(*m_logger) << "number of connections limit exceeded (conns: "
<< num_connections() << ", limit: " << max_connections()
<< "), connection rejected\n";
#endif
return;
}
2007-09-04 00:27:52 +02:00
// check if we have any active torrents
// if we don't reject the connection
if (m_torrents.empty())
{
#if defined(TORRENT_VERBOSE_LOGGING) || defined(TORRENT_LOGGING)
(*m_logger) << " There are no torrents, disconnect\n";
#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.
if (!m_settings.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
{
if (!i->second->is_paused())
{
has_active_torrent = true;
break;
}
2007-09-04 00:27:52 +02:00
}
if (!has_active_torrent)
{
#if defined(TORRENT_VERBOSE_LOGGING) || defined(TORRENT_LOGGING)
(*m_logger) << " There are no _active_ torrents, disconnect\n";
#endif
return;
}
}
2007-09-04 00:27:52 +02:00
setup_socket_buffers(*s);
boost::intrusive_ptr<peer_connection> c(
new bt_peer_connection(*this, s, endp, 0));
#ifdef TORRENT_DEBUG
c->m_in_constructor = false;
#endif
if (!c->is_disconnecting())
{
m_connections.insert(c);
c->start();
2010-03-03 02:31:31 +01:00
if (m_settings.default_peer_upload_rate)
c->set_upload_limit(m_settings.default_peer_upload_rate);
if (m_settings.default_peer_download_rate)
c->set_download_limit(m_settings.default_peer_download_rate);
}
}
void session_impl::setup_socket_buffers(socket_type& s)
{
error_code ec;
if (m_settings.send_socket_buffer_size)
{
2009-06-03 09:22:43 +02:00
stream_socket::send_buffer_size option(
m_settings.send_socket_buffer_size);
s.set_option(option, ec);
}
if (m_settings.recv_socket_buffer_size)
{
2009-06-03 09:22:43 +02:00
stream_socket::receive_buffer_size option(
m_settings.recv_socket_buffer_size);
s.set_option(option, ec);
}
}
void session_impl::on_socks_accept(boost::shared_ptr<socket_type> const& s
, error_code const& e)
{
m_socks_listen_socket.reset();
if (e == asio::error::operation_aborted) return;
if (e)
{
if (m_alerts.should_post<listen_failed_alert>())
m_alerts.post_alert(listen_failed_alert(tcp::endpoint(
address_v4::any(), m_listen_interface.port()), e));
return;
}
open_new_incoming_socks_connection();
incoming_connection(s);
}
void session_impl::close_connection(peer_connection const* p
, error_code const& ec)
{
2007-08-21 21:18:06 +02:00
// too expensive
// INVARIANT_CHECK;
2007-08-21 20:33:28 +02:00
#ifdef TORRENT_DEBUG
// for (aux::session_impl::torrent_map::const_iterator i = m_torrents.begin()
// , end(m_torrents.end()); i != end; ++i)
// TORRENT_ASSERT(!i->second->has_peer((peer_connection*)p));
#endif
2007-12-19 22:36:54 +01:00
#if defined(TORRENT_LOGGING)
(*m_logger) << time_now_string() << " CLOSING CONNECTION "
<< p->remote() << " : " << ec.message() << "\n";
2007-12-19 22:36:54 +01:00
#endif
TORRENT_ASSERT(p->is_disconnecting());
if (!p->is_choked() && !p->ignore_unchoke_slots()) --m_num_unchoked;
// connection_map::iterator i = std::lower_bound(m_connections.begin(), m_connections.end()
// , p, bind(&boost::intrusive_ptr<peer_connection>::get, _1) < p);
// if (i->get() != p) i == m_connections.end();
connection_map::iterator i = std::find_if(m_connections.begin(), m_connections.end()
, bind(&boost::intrusive_ptr<peer_connection>::get, _1) == p);
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;
}
2008-12-26 08:00:21 +01:00
void session_impl::unchoke_peer(peer_connection& c)
{
TORRENT_ASSERT(!c.ignore_unchoke_slots());
2008-12-26 08:00:21 +01:00
torrent* t = c.associated_torrent().lock().get();
TORRENT_ASSERT(t);
if (t->unchoke_peer(c))
++m_num_unchoked;
}
void session_impl::choke_peer(peer_connection& c)
{
TORRENT_ASSERT(!c.ignore_unchoke_slots());
torrent* t = c.associated_torrent().lock().get();
TORRENT_ASSERT(t);
if (t->choke_peer(c))
--m_num_unchoked;
}
int session_impl::next_port()
{
std::pair<int, int> const& out_ports = m_settings.outgoing_ports;
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;
#if defined TORRENT_LOGGING
(*m_logger) << time_now_string() << " *** BINDING OUTGOING CONNECTION [ "
"port: " << port << " ]\n";
#endif
return port;
}
// this function is called from the disk-io thread
// when the disk queue is low enough to post new
// write jobs to it. It will go through all peer
// connections that are blocked on the disk and
// wake them up
void session_impl::on_disk_queue()
{
mutex::scoped_lock l(m_mutex);
for (connection_map::iterator i = m_connections.begin()
, end(m_connections.end()); i != end; ++i)
{
if ((*i)->m_channel_state[peer_connection::download_channel]
!= peer_info::bw_disk) continue;
(*i)->setup_receive();
}
}
2009-11-30 08:03:34 +01:00
// used to cache the current time
// every 100 ms. This is cheaper
// than a system call and can be
// used where more accurate time
// is not necessary
extern ptime g_current_time;
2009-12-13 17:32:07 +01:00
initialize_timer::initialize_timer()
{
g_current_time = time_now_hires();
}
void session_impl::on_tick(error_code const& e)
{
mutex::scoped_lock l(m_mutex);
ptime now = time_now_hires();
aux::g_current_time = now;
// too expensive
// INVARIANT_CHECK;
2007-08-21 20:33:28 +02:00
if (m_abort) return;
if (e)
{
#if defined TORRENT_LOGGING
(*m_logger) << "*** TICK TIMER FAILED " << e.message() << "\n";
#endif
::abort();
return;
}
2008-05-03 18:05:42 +02:00
error_code ec;
m_timer.expires_at(now + milliseconds(100), ec);
m_timer.async_wait(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;
// only tick the following once per second
if (now - m_last_second_tick < seconds(1)) return;
int tick_interval_ms = total_milliseconds(now - m_last_second_tick);
m_last_second_tick = now;
m_tick_residual += tick_interval_ms - 1000;
int session_time = total_seconds(now - m_created);
if (session_time > 65000)
{
// we're getting close to the point where our timestamps
// in policy::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)
{
policy& p = i->second->get_policy();
for (policy::iterator j = p.begin_peer()
, end(p.end_peer()); j != end; ++j)
{
policy::peer* pe = *j;
if (pe->last_optimistically_unchoked < four_hours)
pe->last_optimistically_unchoked = 0;
else
pe->last_optimistically_unchoked -= four_hours;
if (pe->last_connected < four_hours)
pe->last_connected = 0;
else
pe->last_connected -= four_hours;
}
}
}
#ifdef TORRENT_STATS
++m_second_counter;
int downloading_torrents = 0;
int seeding_torrents = 0;
2008-12-27 03:22:20 +01:00
static size_type downloaded = 0;
static size_type uploaded = 0;
size_type download_rate = (m_stat.total_download() - downloaded) * 1000 / tick_interval_ms;
size_type upload_rate = (m_stat.total_upload() - uploaded) * 1000 / tick_interval_ms;
2008-12-27 03:22:20 +01:00
downloaded = m_stat.total_download();
uploaded = m_stat.total_upload();
size_type num_peers = 0;
for (torrent_map::iterator i = m_torrents.begin()
, end(m_torrents.end()); i != end; ++i)
{
num_peers += i->second->get_policy().num_peers();
if (i->second->is_seed())
++seeding_torrents;
else
++downloading_torrents;
}
int num_complete_connections = 0;
2007-05-14 06:01:30 +02:00
int num_half_open = 0;
2008-12-27 03:22:20 +01:00
int unchoked_peers = 0;
2007-05-14 06:01:30 +02:00
for (connection_map::iterator i = m_connections.begin()
, end(m_connections.end()); i != end; ++i)
{
if ((*i)->is_connecting())
2007-05-14 06:01:30 +02:00
++num_half_open;
else
2008-12-27 03:22:20 +01:00
{
++num_complete_connections;
2008-12-27 03:22:20 +01:00
if (!(*i)->is_choked()) ++unchoked_peers;
}
2007-05-14 06:01:30 +02:00
}
m_stats_logger
<< m_second_counter << "\t"
2008-12-27 03:22:20 +01:00
<< upload_rate << "\t"
<< download_rate << "\t"
<< downloading_torrents << "\t"
<< seeding_torrents << "\t"
<< num_complete_connections << "\t"
2007-05-14 06:01:30 +02:00
<< num_half_open << "\t"
<< m_disk_thread.disk_allocations() << "\t"
2008-12-27 03:22:20 +01:00
<< unchoked_peers << "\t"
<< num_peers << "\t"
<< logging_allocator::allocations << "\t"
<< logging_allocator::allocated_bytes << "\t"
2007-05-14 06:01:30 +02:00
<< std::endl;
#endif
2008-07-10 12:35:11 +02:00
// --------------------------------------------------------------
// 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
2008-07-10 12:35:11 +02:00
if (!p->associated_torrent().expired()) continue;
if (m_last_tick - p->connected_time() > seconds(m_settings.handshake_timeout))
p->disconnect(errors::timed_out);
2008-07-10 12:35:11 +02:00
}
// --------------------------------------------------------------
// second_tick every torrent
// --------------------------------------------------------------
int congested_torrents = 0;
int uncongested_torrents = 0;
// count the number of seeding torrents vs. downloading
// torrents we are running
int num_seeds = 0;
int num_downloads = 0;
// count the number of peers of downloading torrents
int num_downloads_peers = 0;
2009-07-24 10:25:07 +02:00
torrent_map::iterator least_recently_scraped = m_torrents.end();
int num_paused_auto_managed = 0;
int num_checking = 0;
int num_queued = 0;
for (torrent_map::iterator i = m_torrents.begin();
i != m_torrents.end();)
{
torrent& t = *i->second;
TORRENT_ASSERT(!t.is_aborted());
2009-12-29 20:06:27 +01:00
if (t.statistics().upload_rate() > t.upload_limit() * 9 / 10)
++congested_torrents;
else
++uncongested_torrents;
if (t.state() == torrent_status::checking_files) ++num_checking;
2009-11-28 23:47:45 +01:00
else if (t.state() == torrent_status::queued_for_checking && !t.is_paused()) ++num_queued;
if (t.is_auto_managed() && t.is_paused() && !t.has_error())
{
++num_paused_auto_managed;
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if (least_recently_scraped == m_torrents.end()
|| least_recently_scraped->second->seconds_since_last_scrape()
< t.seconds_since_last_scrape())
{
least_recently_scraped = i;
}
}
if (t.is_finished())
{
++num_seeds;
}
else
{
++num_downloads;
num_downloads_peers += t.num_peers();
}
t.second_tick(m_stat, tick_interval_ms);
++i;
}
// some people claim that there sometimes can be cases where
// there is no torrent being checked, but there are torrents
// waiting to be checked. I have never seen this, and I can't
// see a way for it to happen. But, if it does, start one of
// the queued torrents
if (num_checking == 0 && num_queued > 0)
{
TORRENT_ASSERT(false);
check_queue_t::iterator i = std::min_element(m_queued_for_checking.begin()
, m_queued_for_checking.end(), boost::bind(&torrent::queue_position, _1)
< boost::bind(&torrent::queue_position, _2));
if (i != m_queued_for_checking.end())
{
(*i)->start_checking();
}
}
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#ifndef TORRENT_DISABLE_DHT
2008-11-02 11:01:04 +01:00
if (m_dht)
{
int dht_down;
int dht_up;
m_dht->network_stats(dht_up, dht_down);
m_stat.sent_dht_bytes(dht_up);
m_stat.received_dht_bytes(dht_down);
}
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#endif
2008-11-02 11:01:04 +01:00
if (m_settings.rate_limit_ip_overhead)
{
m_download_channel.use_quota(m_stat.download_dht()
+ m_stat.download_tracker());
m_upload_channel.use_quota(m_stat.upload_dht()
+ m_stat.upload_tracker());
int up_limit = m_upload_channel.throttle();
int down_limit = m_download_channel.throttle();
if (down_limit > 0
&& m_stat.download_ip_overhead() >= down_limit
&& m_alerts.should_post<performance_alert>())
{
m_alerts.post_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.post_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);
2009-07-24 10:25:07 +02:00
TORRENT_ASSERT(least_recently_scraped == m_torrents.end()
|| (least_recently_scraped->second->is_paused()
&& least_recently_scraped->second->is_auto_managed()));
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// --------------------------------------------------------------
// scrape paused torrents that are auto managed
2009-07-24 10:25:07 +02:00
// (unless the session is paused)
// --------------------------------------------------------------
if (!is_paused())
{
--m_auto_scrape_time_scaler;
if (m_auto_scrape_time_scaler <= 0)
{
m_auto_scrape_time_scaler = m_settings.auto_scrape_interval
/ (std::max)(1, num_paused_auto_managed);
if (m_auto_scrape_time_scaler < m_settings.auto_scrape_min_interval)
m_auto_scrape_time_scaler = m_settings.auto_scrape_min_interval;
if (least_recently_scraped != m_torrents.end())
{
least_recently_scraped->second->scrape_tracker();
}
}
}
// --------------------------------------------------------------
// refresh explicit disk read cache
// --------------------------------------------------------------
--m_cache_rotation_timer;
if (m_settings.explicit_read_cache
&& m_cache_rotation_timer <= 0)
{
m_cache_rotation_timer = m_settings.explicit_cache_interval;
torrent_map::iterator least_recently_refreshed = m_torrents.begin();
if (m_next_explicit_cache_torrent >= m_torrents.size())
m_next_explicit_cache_torrent = 0;
std::advance(least_recently_refreshed, m_next_explicit_cache_torrent);
// how many blocks does this torrent get?
int cache_size = (std::max)(0, m_settings.cache_size * 9 / 10);
if (m_connections.empty())
{
// if we don't have any connections at all, split the
// cache evenly across all torrents
2010-01-17 22:57:24 +01:00
cache_size = cache_size / (std::max)(int(m_torrents.size()), 1);
}
else
{
cache_size = cache_size * least_recently_refreshed->second->num_peers()
/ m_connections.size();
}
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if (least_recently_refreshed != m_torrents.end())
least_recently_refreshed->second->refresh_explicit_cache(cache_size);
++m_next_explicit_cache_torrent;
}
// --------------------------------------------------------------
// connect new peers
// --------------------------------------------------------------
// let torrents connect to peers if they want to
// if there are any torrents and any free slots
// this loop will "hand out" max(connection_speed
// , half_open.free_slots()) to the torrents, in a
// round robin fashion, so that every torrent is
// equally likely to connect to a peer
int free_slots = m_half_open.free_slots();
if (!m_torrents.empty()
&& free_slots > -m_half_open.limit()
&& num_connections() < m_max_connections
&& !m_abort
&& m_settings.connection_speed > 0)
{
// this is the maximum number of connections we will
// attempt this tick
int max_connections = m_settings.connection_speed;
int average_peers = 0;
if (num_downloads > 0)
average_peers = num_downloads_peers / num_downloads;
if (m_next_connect_torrent == m_torrents.end())
m_next_connect_torrent = m_torrents.begin();
int steps_since_last_connect = 0;
int num_torrents = int(m_torrents.size());
for (;;)
{
torrent& t = *m_next_connect_torrent->second;
if (t.want_more_peers())
{
int connect_points = 100;
// have a bias against torrents with more peers
// than average
if (!t.is_seed() && t.num_peers() > average_peers)
connect_points /= 2;
// if this is a seed and there is a torrent that
// is downloading, lower the rate at which this
// torrent gets connections.
// dividing by num_seeds will have the effect
// that all seed will get as many connections
// together, as a single downloading torrent.
if (t.is_seed() && num_downloads > 0)
connect_points /= num_seeds + 1;
if (connect_points <= 0) connect_points = 1;
t.give_connect_points(connect_points);
#ifndef BOOST_NO_EXCEPTIONS
try
{
#endif
if (t.try_connect_peer())
{
--max_connections;
--free_slots;
steps_since_last_connect = 0;
}
#ifndef BOOST_NO_EXCEPTIONS
}
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_max_connections = num_connections();
if (m_max_connections < 2) m_max_connections = 2;
}
#endif
}
++m_next_connect_torrent;
++steps_since_last_connect;
if (m_next_connect_torrent == m_torrents.end())
m_next_connect_torrent = m_torrents.begin();
// if we have gone two whole loops without
// handing out a single connection, break
if (steps_since_last_connect > num_torrents * 2) break;
// if there are no more free connection slots, abort
if (free_slots <= -m_half_open.limit()) break;
// if we should not make any more connections
// attempts this tick, abort
if (max_connections == 0) break;
// maintain the global limit on number of connections
if (num_connections() >= m_max_connections) break;
}
}
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// --------------------------------------------------------------
// auto managed torrent
// --------------------------------------------------------------
m_auto_manage_time_scaler--;
if (m_auto_manage_time_scaler <= 0)
{
m_auto_manage_time_scaler = settings().auto_manage_interval;
recalculate_auto_managed_torrents();
}
// --------------------------------------------------------------
// unchoke set calculations
// --------------------------------------------------------------
m_unchoke_time_scaler--;
if (m_unchoke_time_scaler <= 0 && !m_connections.empty())
{
m_unchoke_time_scaler = settings().unchoke_interval;
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recalculate_unchoke_slots(congested_torrents
, uncongested_torrents);
}
// --------------------------------------------------------------
// optimistic unchoke calculation
// --------------------------------------------------------------
m_optimistic_unchoke_time_scaler--;
if (m_optimistic_unchoke_time_scaler <= 0)
{
m_optimistic_unchoke_time_scaler
= settings().optimistic_unchoke_interval;
recalculate_optimistic_unchoke_slots();
}
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// --------------------------------------------------------------
// disconnect peers when we have too many
// --------------------------------------------------------------
--m_disconnect_time_scaler;
if (m_disconnect_time_scaler <= 0)
{
m_disconnect_time_scaler = 90;
// every 90 seconds, disconnect the worst peers
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// if we have reached the connection limit
if (num_connections() >= max_connections() * m_settings.peer_turnover_cutoff
&& !m_torrents.empty())
{
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torrent_map::iterator i = std::max_element(m_torrents.begin(), m_torrents.end()
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, boost::bind(&torrent::num_peers, boost::bind(&torrent_map::value_type::second, _1))
< boost::bind(&torrent::num_peers, boost::bind(&torrent_map::value_type::second, _2)));
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TORRENT_ASSERT(i != m_torrents.end());
int peers_to_disconnect = (std::min)((std::max)(int(i->second->num_peers()
* m_settings.peer_turnover), 1)
, i->second->get_policy().num_connect_candidates());
i->second->disconnect_peers(peers_to_disconnect);
}
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;
if (t->num_peers() < t->max_connections() * m_settings.peer_turnover_cutoff)
continue;
int peers_to_disconnect = (std::min)((std::max)(int(i->second->num_peers()
* m_settings.peer_turnover), 1)
, i->second->get_policy().num_connect_candidates());
t->disconnect_peers(peers_to_disconnect);
}
}
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}
while (m_tick_residual >= 1000) m_tick_residual -= 1000;
// m_peer_pool.release_memory();
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}
#ifndef TORRENT_DISABLE_DHT
void session_impl::on_dht_announce(error_code const& e)
{
if (e) return;
mutex::scoped_lock l(m_mutex);
if (m_abort) return;
// announce to DHT every 15 minutes
int delay = (std::max)(m_settings.dht_announce_interval
/ (std::max)(int(m_torrents.size()), 1), 1);
error_code ec;
m_dht_announce_timer.expires_from_now(seconds(delay), ec);
m_dht_announce_timer.async_wait(
bind(&session_impl::on_dht_announce, this, _1));
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();
++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)
{
if (e) return;
mutex::scoped_lock l(m_mutex);
2010-02-13 17:29:17 +01:00
if (m_abort) return;
// announce on local network every 5 minutes
int delay = (std::max)(m_settings.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(
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();
}
2008-06-21 14:31:28 +02:00
namespace
{
bool is_active(torrent* t, session_settings const& s)
{
2008-10-19 06:31:33 +02:00
// if we count slow torrents, every torrent
// is considered active
if (!s.dont_count_slow_torrents) return true;
// if the torrent started less than 2 minutes
// ago (default), let it count as active since
// the rates are probably not accurate yet
if (time_now() - t->started() < seconds(s.auto_manage_startup)) return true;
return t->statistics().upload_payload_rate() != 0.f
|| t->statistics().download_payload_rate() != 0.f;
2008-06-21 14:31:28 +02:00
}
}
int session_impl::auto_manage_torrents(std::vector<torrent*>& list
, int hard_limit, int type_limit)
{
for (std::vector<torrent*>::iterator i = list.begin()
, end(list.end()); i != end; ++i)
{
torrent* t = *i;
if (!t->is_paused() && !is_active(t, settings())
&& hard_limit > 0)
{
--hard_limit;
continue;
}
if (type_limit > 0 && hard_limit > 0)
{
--hard_limit;
--type_limit;
if (t->is_paused()) t->resume();
}
else
{
if (!t->is_paused()) t->pause();
}
}
return hard_limit;
}
2008-06-21 14:31:28 +02:00
2008-04-24 05:28:48 +02:00
void session_impl::recalculate_auto_managed_torrents()
{
// these vectors are filled with auto managed torrents
std::vector<torrent*> downloaders;
downloaders.reserve(m_torrents.size());
std::vector<torrent*> seeds;
seeds.reserve(m_torrents.size());
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
int num_downloaders = settings().active_downloads;
int num_seeds = settings().active_seeds;
2008-06-21 14:31:28 +02:00
int hard_limit = settings().active_limit;
2008-08-29 02:44:55 +02:00
if (num_downloaders == -1)
num_downloaders = (std::numeric_limits<int>::max)();
if (num_seeds == -1)
num_seeds = (std::numeric_limits<int>::max)();
if (hard_limit == -1)
hard_limit = (std::numeric_limits<int>::max)();
2008-04-24 05:28:48 +02:00
for (torrent_map::iterator i = m_torrents.begin()
, end(m_torrents.end()); i != end; ++i)
{
torrent* t = i->second.get();
TORRENT_ASSERT(t);
if (t->is_auto_managed() && !t->has_error())
2008-04-24 05:28:48 +02:00
{
// this torrent is auto managed, add it to
// the list (depending on if it's a seed or not)
if (t->is_finished())
seeds.push_back(t);
else
downloaders.push_back(t);
}
else if (!t->is_paused())
{
2008-06-21 14:31:28 +02:00
--hard_limit;
if (is_active(t, settings()))
{
// this is not an auto managed torrent,
// if it's running and active, decrease the
// counters.
if (t->is_finished())
--num_seeds;
else
--num_downloaders;
2008-06-21 14:31:28 +02:00
}
}
2008-04-24 05:28:48 +02:00
}
bool handled_by_extension = false;
#ifndef TORRENT_DISABLE_EXTENSIONS
// TODO: allow extensions to sort torrents for queuing
#endif
if (!handled_by_extension)
{
std::sort(downloaders.begin(), downloaders.end()
, bind(&torrent::sequence_number, _1) < bind(&torrent::sequence_number, _2));
std::sort(seeds.begin(), seeds.end()
2008-05-06 20:03:41 +02:00
, bind(&torrent::seed_rank, _1, boost::ref(m_settings))
2008-05-07 10:24:16 +02:00
> bind(&torrent::seed_rank, _2, boost::ref(m_settings)));
2008-04-24 05:28:48 +02:00
}
if (settings().auto_manage_prefer_seeds)
2008-04-24 05:28:48 +02:00
{
hard_limit = auto_manage_torrents(seeds, hard_limit, num_seeds);
hard_limit = auto_manage_torrents(downloaders, hard_limit, num_downloaders);
2008-04-24 05:28:48 +02:00
}
else
2008-04-24 05:28:48 +02:00
{
hard_limit = auto_manage_torrents(downloaders, hard_limit, num_downloaders);
hard_limit = auto_manage_torrents(seeds, hard_limit, num_seeds);
2008-04-24 05:28:48 +02:00
}
2008-04-24 05:28:48 +02:00
}
void session_impl::recalculate_optimistic_unchoke_slots()
2008-04-24 05:28:48 +02:00
{
if (m_allowed_upload_slots == 0) return;
std::vector<policy::peer*> opt_unchoke;
2008-04-24 05:28:48 +02:00
for (connection_map::iterator i = m_connections.begin()
, end(m_connections.end()); i != end; ++i)
{
peer_connection* p = i->get();
2008-10-14 04:03:54 +02:00
TORRENT_ASSERT(p);
policy::peer* pi = p->peer_info_struct();
if (!pi) continue;
torrent* t = p->associated_torrent().lock().get();
if (!t) continue;
if (pi->optimistically_unchoked)
{
TORRENT_ASSERT(!p->is_choked());
opt_unchoke.push_back(pi);
}
if (!p->is_connecting()
&& !p->is_disconnecting()
&& p->is_peer_interested()
&& t->free_upload_slots()
&& p->is_choked()
&& !p->ignore_unchoke_slots()
&& t->valid_metadata())
{
opt_unchoke.push_back(pi);
}
}
// find the peers that has been waiting the longest to be optimistically
// unchoked
// avoid having a bias towards peers that happen to be sorted first
std::random_shuffle(opt_unchoke.begin(), opt_unchoke.end());
// sort all candidates based on when they were last optimistically
// unchoked.
std::sort(opt_unchoke.begin(), opt_unchoke.end()
, boost::bind(&policy::peer::last_optimistically_unchoked, _1)
< boost::bind(&policy::peer::last_optimistically_unchoked, _2));
int num_opt_unchoke = m_settings.num_optimistic_unchoke_slots;
if (num_opt_unchoke == 0) num_opt_unchoke = (std::max)(1, m_allowed_upload_slots / 5);
// unchoke the first num_opt_unchoke peers in the candidate set
// and make sure that the others are choked
for (std::vector<policy::peer*>::iterator i = opt_unchoke.begin()
, end(opt_unchoke.end()); i != end; ++i)
{
policy::peer* pi = *i;
if (num_opt_unchoke > 0)
{
--num_opt_unchoke;
if (!pi->optimistically_unchoked)
{
torrent* t = pi->connection->associated_torrent().lock().get();
bool ret = t->unchoke_peer(*pi->connection);
TORRENT_ASSERT(ret);
pi->optimistically_unchoked = true;
++m_num_unchoked;
pi->last_optimistically_unchoked = session_time();
}
}
else
{
if (pi->optimistically_unchoked)
{
torrent* t = pi->connection->associated_torrent().lock().get();
pi->optimistically_unchoked = false;
t->choke_peer(*pi->connection);
--m_num_unchoked;
}
}
}
}
void session_impl::recalculate_unchoke_slots(int congested_torrents
, int uncongested_torrents)
{
INVARIANT_CHECK;
2009-04-04 09:55:34 +02:00
ptime now = time_now();
time_duration unchoke_interval = now - m_last_choke;
m_last_choke = now;
// build list of all peers that are
// unchoke:able.
std::vector<peer_connection*> peers;
for (connection_map::iterator i = m_connections.begin();
i != m_connections.end();)
{
boost::intrusive_ptr<peer_connection> p = *i;
TORRENT_ASSERT(p);
++i;
2008-04-24 05:28:48 +02:00
torrent* t = p->associated_torrent().lock().get();
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policy::peer* pi = p->peer_info_struct();
2009-04-04 09:55:34 +02:00
if (p->ignore_unchoke_slots() || t == 0 || pi == 0) continue;
if (m_settings.choking_algorithm == session_settings::bittyrant_choker)
{
if (!p->is_choked())
{
policy::peer* pi = p->peer_info_struct();
if (!p->has_peer_choked())
{
// we're unchoked, we may want to lower our estimated
// reciprocation rate
p->decrease_est_reciprocation_rate();
}
else
{
// we've unchoked this peer, and it hasn't reciprocated
// we may want to increase our estimated reciprocation rate
p->increase_est_reciprocation_rate();
}
}
}
2009-04-04 09:55:34 +02:00
if (!p->is_peer_interested()
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|| p->is_disconnecting()
|| p->is_connecting()
|| (p->share_diff() < -free_upload_amount
&& !t->is_seed()))
{
2009-04-04 09:55:34 +02:00
// this peer is not unchokable. So, if it's unchoked
// already, make sure to choke it.
if (p->is_choked()) continue;
if (pi && pi->optimistically_unchoked)
{
2009-04-04 09:55:34 +02:00
pi->optimistically_unchoked = false;
// force a new optimistic unchoke
m_optimistic_unchoke_time_scaler = 0;
}
2009-04-04 09:55:34 +02:00
t->choke_peer(*p);
continue;
}
peers.push_back(p.get());
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}
if (m_settings.choking_algorithm == session_settings::rate_based_choker)
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{
m_allowed_upload_slots = 0;
std::sort(peers.begin(), peers.end()
, bind(&peer_connection::upload_rate_compare, _1, _2));
#ifdef TORRENT_DEBUG
for (std::vector<peer_connection*>::const_iterator i = peers.begin()
, end(peers.end()), prev(peers.end()); i != end; ++i)
{
if (prev != end)
{
TORRENT_ASSERT((*prev)->uploaded_since_unchoke() * 1000
/ total_milliseconds(unchoke_interval)
>= (*i)->uploaded_since_unchoke() * 1000
/ total_milliseconds(unchoke_interval));
}
prev = i;
}
#endif
2009-04-04 09:55:34 +02:00
// TODO: make configurable
int rate_threshold = 1024;
for (std::vector<peer_connection*>::const_iterator i = peers.begin()
, end(peers.end()); i != end; ++i)
{
peer_connection const& p = **i;
int rate = p.uploaded_since_unchoke()
* 1000 / total_milliseconds(unchoke_interval);
if (rate < rate_threshold) break;
++m_allowed_upload_slots;
2009-04-04 09:55:34 +02:00
// TODO: make configurable
rate_threshold += 1024;
}
// allow one optimistic unchoke
++m_allowed_upload_slots;
}
if (m_settings.choking_algorithm == session_settings::bittyrant_choker)
{
// if we're using the bittyrant choker, sort peers by their return
// on investment. i.e. download rate / upload rate
std::sort(peers.begin(), peers.end()
, bind(&peer_connection::bittyrant_unchoke_compare, _1, _2));
}
else
{
// sorts the peers that are eligible for unchoke by download rate and secondary
// by total upload. The reason for this is, if all torrents are being seeded,
// the download rate will be 0, and the peers we have sent the least to should
// be unchoked
std::sort(peers.begin(), peers.end()
, bind(&peer_connection::unchoke_compare, _1, _2));
}
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// auto unchoke
int upload_limit = m_bandwidth_channel[peer_connection::upload_channel]->throttle();
if (m_settings.choking_algorithm == session_settings::auto_expand_choker
&& upload_limit > 0)
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{
// if our current upload rate is less than 90% of our
// limit AND most torrents are not "congested", i.e.
// they are not holding back because of a per-torrent
// limit
if (m_stat.upload_rate() < upload_limit * 0.9f
&& m_allowed_upload_slots <= m_num_unchoked + 1
&& congested_torrents < uncongested_torrents
&& m_upload_rate.queue_size() < 2)
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{
++m_allowed_upload_slots;
}
else if (m_upload_rate.queue_size() > 1
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&& m_allowed_upload_slots > m_max_uploads)
{
--m_allowed_upload_slots;
}
}
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int num_opt_unchoke = m_settings.num_optimistic_unchoke_slots;
if (num_opt_unchoke == 0) num_opt_unchoke = (std::max)(1, m_allowed_upload_slots / 5);
// reserve some upload slots for optimistic unchokes
int unchoke_set_size = m_allowed_upload_slots - num_opt_unchoke;
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int upload_capacity_left = 0;
if (m_settings.choking_algorithm == session_settings::bittyrant_choker)
{
upload_capacity_left = m_upload_channel.throttle();
if (upload_capacity_left == 0)
{
// 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
upload_capacity_left = (std::max)(20000, m_peak_up_rate + 10000);
if (m_alerts.should_post<performance_alert>())
m_alerts.post_alert(performance_alert(torrent_handle()
, performance_alert::bittyrant_with_no_uplimit));
}
}
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m_num_unchoked = 0;
// 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
// #error this should be called for all peers!
p->reset_choke_counters();
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torrent* t = p->associated_torrent().lock().get();
TORRENT_ASSERT(t);
// if this peer should be unchoked depends on different things
// in different unchoked schemes
bool unchoke = false;
if (m_settings.choking_algorithm == session_settings::bittyrant_choker)
{
unchoke = p->est_reciprocation_rate() <= upload_capacity_left;
}
else
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{
unchoke = unchoke_set_size > 0;
}
if (unchoke)
{
upload_capacity_left -= p->est_reciprocation_rate();
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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;
++m_num_unchoked;
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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;
}
}
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else
{
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// no, this peer should be shoked
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TORRENT_ASSERT(p->peer_info_struct());
if (!p->is_choked() && !p->peer_info_struct()->optimistically_unchoked)
t->choke_peer(*p);
if (!p->is_choked())
++m_num_unchoked;
}
}
}
void session_impl::main_thread()
{
eh_initializer();
if (m_listen_interface.port() != 0)
{
mutex::scoped_lock l(m_mutex);
open_listen_port();
}
do
{
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error_code ec;
m_io_service.run(ec);
TORRENT_ASSERT(m_abort == true);
if (ec)
{
#ifdef TORRENT_DEBUG
fprintf(stderr, "%s\n", ec.message().c_str());
2008-11-05 06:39:18 +01:00
std::string err = ec.message();
#endif
TORRENT_ASSERT(false);
}
m_io_service.reset();
}
while (!m_abort);
#if defined(TORRENT_VERBOSE_LOGGING) || defined(TORRENT_LOGGING)
(*m_logger) << time_now_string() << " locking mutex\n";
#endif
mutex::scoped_lock l(m_mutex);
/*
#ifdef TORRENT_DEBUG
for (torrent_map::iterator i = m_torrents.begin();
i != m_torrents.end(); ++i)
{
TORRENT_ASSERT(i->second->num_peers() == 0);
}
#endif
*/
#if defined(TORRENT_VERBOSE_LOGGING) || defined(TORRENT_LOGGING)
(*m_logger) << time_now_string() << " cleaning up torrents\n";
#endif
m_torrents.clear();
TORRENT_ASSERT(m_torrents.empty());
TORRENT_ASSERT(m_connections.empty());
}
// 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)
{
std::map<sha1_hash, boost::shared_ptr<torrent> >::iterator i
= m_torrents.find(info_hash);
#ifdef TORRENT_DEBUG
for (std::map<sha1_hash, boost::shared_ptr<torrent> >::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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#if defined TORRENT_VERBOSE_LOGGING || defined TORRENT_LOGGING || defined TORRENT_ERROR_LOGGING
boost::shared_ptr<logger> session_impl::create_log(std::string const& name
, int instance, bool append)
{
// current options are file_logger, cout_logger and null_logger
2007-11-16 22:21:28 +01:00
return boost::shared_ptr<logger>(new logger(m_logpath, name + ".log", instance, append));
}
#endif
std::vector<torrent_handle> session_impl::get_torrents()
{
std::vector<torrent_handle> ret;
for (session_impl::torrent_map::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));
}
torrent_handle session_impl::add_torrent(add_torrent_params const& params
, error_code& ec)
{
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TORRENT_ASSERT(!params.save_path.empty());
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if (params.ti && params.ti->num_files() == 0)
{
ec = errors::no_files_in_torrent;
return torrent_handle();
}
// INVARIANT_CHECK;
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if (is_aborted())
{
ec = errors::session_is_closing;
return torrent_handle();
}
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// figure out the info hash of the torrent
sha1_hash const* ih = 0;
if (params.ti) ih = &params.ti->info_hash();
else ih = &params.info_hash;
// is the torrent already active?
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boost::shared_ptr<torrent> torrent_ptr = find_torrent(*ih).lock();
if (torrent_ptr)
{
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if (!params.duplicate_is_error)
return torrent_handle(torrent_ptr);
ec = errors::duplicate_torrent;
return torrent_handle();
}
int queue_pos = 0;
for (torrent_map::const_iterator i = m_torrents.begin()
, end(m_torrents.end()); i != end; ++i)
{
int pos = i->second->queue_position();
if (pos >= queue_pos) queue_pos = pos + 1;
}
torrent_ptr.reset(new torrent(*this, m_listen_interface
, 16 * 1024, queue_pos, params));
torrent_ptr->start();
#ifndef TORRENT_DISABLE_EXTENSIONS
for (extension_list_t::iterator i = m_extensions.begin()
, end(m_extensions.end()); i != end; ++i)
{
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boost::shared_ptr<torrent_plugin> tp((*i)(torrent_ptr.get(), params.userdata));
if (tp) torrent_ptr->add_extension(tp);
}
#endif
#ifndef TORRENT_DISABLE_DHT
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if (m_dht && params.ti)
{
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torrent_info::nodes_t const& nodes = params.ti->nodes();
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std::for_each(nodes.begin(), nodes.end(), boost::bind(
(void(dht::dht_tracker::*)(std::pair<std::string, int> const&))
&dht::dht_tracker::add_node
, boost::ref(m_dht), _1));
}
#endif
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m_torrents.insert(std::make_pair(*ih, torrent_ptr));
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// if this is an auto managed torrent, force a recalculation
// of which torrents to have active
if (params.auto_managed && m_auto_manage_time_scaler > 2)
m_auto_manage_time_scaler = 2;
return torrent_handle(torrent_ptr);
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}
void session_impl::queue_check_torrent(boost::shared_ptr<torrent> const& t)
2008-03-08 07:06:31 +01:00
{
if (m_abort) return;
TORRENT_ASSERT(t->should_check_files());
TORRENT_ASSERT(t->state() != torrent_status::checking_files);
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if (m_queued_for_checking.empty()) t->start_checking();
else t->set_state(torrent_status::queued_for_checking);
TORRENT_ASSERT(std::find(m_queued_for_checking.begin()
, m_queued_for_checking.end(), t) == m_queued_for_checking.end());
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m_queued_for_checking.push_back(t);
}
void session_impl::dequeue_check_torrent(boost::shared_ptr<torrent> const& t)
2008-03-08 07:06:31 +01:00
{
INVARIANT_CHECK;
TORRENT_ASSERT(t->state() == torrent_status::checking_files
|| t->state() == torrent_status::queued_for_checking);
if (m_queued_for_checking.empty()) return;
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boost::shared_ptr<torrent> next_check = *m_queued_for_checking.begin();
check_queue_t::iterator done = m_queued_for_checking.end();
for (check_queue_t::iterator i = m_queued_for_checking.begin()
, end(m_queued_for_checking.end()); i != end; ++i)
{
TORRENT_ASSERT(*i == t || (*i)->should_check_files());
if (*i == t) done = i;
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if (next_check == t || next_check->queue_position() > (*i)->queue_position())
next_check = *i;
}
// only start a new one if we removed the one that is checking
TORRENT_ASSERT(done != m_queued_for_checking.end());
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if (done == m_queued_for_checking.end()) return;
if (next_check != t && t->state() == torrent_status::checking_files)
next_check->start_checking();
m_queued_for_checking.erase(done);
}
void session_impl::remove_torrent(const torrent_handle& h, int options)
{
boost::shared_ptr<torrent> tptr = h.m_torrent.lock();
if (!tptr)
#ifdef BOOST_NO_EXCEPTIONS
return;
#else
throw_invalid_handle();
#endif
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INVARIANT_CHECK;
session_impl::torrent_map::iterator i =
m_torrents.find(tptr->torrent_file().info_hash());
if (i != m_torrents.end())
{
torrent& t = *i->second;
if (options & session::delete_files)
t.delete_files();
t.abort();
#ifdef TORRENT_DEBUG
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;
if (i == m_next_connect_torrent)
++m_next_connect_torrent;
t.set_queue_position(-1);
m_torrents.erase(i);
#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();
if (m_next_connect_torrent == m_torrents.end())
m_next_connect_torrent = m_torrents.begin();
std::list<boost::shared_ptr<torrent> >::iterator k
= std::find(m_queued_for_checking.begin(), m_queued_for_checking.end(), tptr);
if (k != m_queued_for_checking.end()) m_queued_for_checking.erase(k);
TORRENT_ASSERT(m_torrents.find(i_hash) == m_torrents.end());
return;
}
}
bool session_impl::listen_on(
std::pair<int, int> const& port_range
, const char* net_interface)
{
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INVARIANT_CHECK;
tcp::endpoint new_interface;
if (net_interface && std::strlen(net_interface) > 0)
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{
error_code ec;
new_interface = tcp::endpoint(address::from_string(net_interface, ec), port_range.first);
if (ec)
{
#if defined TORRENT_VERBOSE_LOGGING || defined TORRENT_LOGGING || defined TORRENT_ERROR_LOGGING
(*m_logger) << time_now_string() << "listen_on: " << net_interface
<< " failed: " << ec.message() << "\n";
#endif
return false;
}
}
else
new_interface = tcp::endpoint(address_v4::any(), port_range.first);
m_listen_port_retries = port_range.second - port_range.first;
// if the interface is the same and the socket is open
// don't do anything
if (new_interface == m_listen_interface
&& !m_listen_sockets.empty()) return true;
m_listen_interface = new_interface;
open_listen_port();
bool new_listen_address = m_listen_interface.address() != new_interface.address();
#ifndef TORRENT_DISABLE_DHT
if ((new_listen_address || m_dht_same_port) && m_dht)
{
if (m_dht_same_port)
m_dht_settings.service_port = new_interface.port();
// the listen interface changed, rebind the dht listen socket as well
error_code ec;
m_dht_socket.bind(udp::endpoint(m_listen_interface.address(), m_dht_settings.service_port), ec);
maybe_update_udp_mapping(0, m_dht_settings.service_port, m_dht_settings.service_port);
maybe_update_udp_mapping(1, m_dht_settings.service_port, m_dht_settings.service_port);
}
#endif
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#if defined TORRENT_VERBOSE_LOGGING || defined TORRENT_LOGGING || defined TORRENT_ERROR_LOGGING
m_logger = create_log("main_session", listen_port(), false);
(*m_logger) << time_now_string() << "\n";
#endif
return !m_listen_sockets.empty();
}
unsigned short session_impl::listen_port() const
{
if (m_listen_sockets.empty()) return 0;
2009-01-19 09:31:31 +01:00
return m_listen_sockets.front().external_port;
}
void session_impl::announce_lsd(sha1_hash const& ih)
{
// use internal listen port for local peers
if (m_lsd.get())
m_lsd->announce(ih, m_listen_interface.port());
}
void session_impl::on_lsd_peer(tcp::endpoint peer, sha1_hash const& ih)
{
mutex::scoped_lock l(m_mutex);
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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
2009-08-20 05:19:12 +02:00
if (t->torrent_file().priv() || (t->torrent_file().is_i2p()
&& !m_settings.allow_i2p_mixed)) return;
#if defined(TORRENT_VERBOSE_LOGGING) || defined(TORRENT_LOGGING)
(*m_logger) << time_now_string()
<< ": added peer from local discovery: " << peer << "\n";
#endif
2009-05-16 00:07:19 +02:00
t->get_policy().add_peer(peer, peer_id(0), peer_info::lsd, 0);
}
void session_impl::on_port_map_log(
char const* msg, int map_transport)
{
TORRENT_ASSERT(map_transport >= 0 && map_transport <= 1);
// log message
#ifdef TORRENT_UPNP_LOGGING
char const* transport_names[] = {"NAT-PMP", "UPnP"};
m_upnp_log << time_now_string() << " "
<< transport_names[map_transport] << ": " << msg;
#endif
if (m_alerts.should_post<portmap_log_alert>())
m_alerts.post_alert(portmap_log_alert(map_transport, msg));
}
void session_impl::on_port_mapping(int mapping, int port
, error_code const& ec, int map_transport)
{
mutex::scoped_lock l(m_mutex);
TORRENT_ASSERT(map_transport >= 0 && map_transport <= 1);
#ifndef TORRENT_DISABLE_DHT
if (mapping == m_udp_mapping[map_transport] && port != 0)
{
m_external_udp_port = port;
m_dht_settings.service_port = port;
if (m_alerts.should_post<portmap_alert>())
m_alerts.post_alert(portmap_alert(mapping, port
, map_transport));
return;
}
#endif
if (mapping == m_tcp_mapping[map_transport] && port != 0)
{
if (!m_listen_sockets.empty())
m_listen_sockets.front().external_port = port;
if (m_alerts.should_post<portmap_alert>())
m_alerts.post_alert(portmap_alert(mapping, port
, map_transport));
return;
}
if (ec)
{
if (m_alerts.should_post<portmap_error_alert>())
2008-04-07 01:18:35 +02:00
m_alerts.post_alert(portmap_error_alert(mapping
, map_transport, ec));
}
else
{
if (m_alerts.should_post<portmap_alert>())
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m_alerts.post_alert(portmap_alert(mapping, port
, map_transport));
}
}
session_status session_impl::status() const
{
// INVARIANT_CHECK;
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;
s.num_peers = (int)m_connections.size();
s.num_unchoked = m_num_unchoked;
s.allowed_upload_slots = m_allowed_upload_slots;
s.total_redundant_bytes = m_total_redundant_bytes;
s.total_failed_bytes = m_total_failed_bytes;
s.up_bandwidth_queue = m_upload_rate.queue_size();
s.down_bandwidth_queue = m_download_rate.queue_size();
s.up_bandwidth_bytes_queue = m_upload_rate.queued_bytes();
s.down_bandwidth_bytes_queue = m_download_rate.queued_bytes();
s.has_incoming_connections = m_incoming_connection;
// 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);
#ifndef TORRENT_DISABLE_FULL_STATS
// 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);
// DHT protocol
s.dht_download_rate = m_stat.transfer_rate(stat::download_dht_protocol);
s.total_dht_download = m_stat.total_transfer(stat::download_dht_protocol);
s.dht_upload_rate = m_stat.transfer_rate(stat::upload_dht_protocol);
s.total_dht_upload = m_stat.total_transfer(stat::upload_dht_protocol);
// tracker
s.tracker_download_rate = m_stat.transfer_rate(stat::download_tracker_protocol);
s.total_tracker_download = m_stat.total_transfer(stat::download_tracker_protocol);
s.tracker_upload_rate = m_stat.transfer_rate(stat::upload_tracker_protocol);
s.total_tracker_upload = m_stat.total_transfer(stat::upload_tracker_protocol);
#else
// IP-overhead
s.ip_overhead_download_rate = 0;
s.total_ip_overhead_download = 0;
s.ip_overhead_upload_rate = 0;
s.total_ip_overhead_upload = 0;
// DHT protocol
s.dht_download_rate = 0;
s.total_dht_download = 0;
s.dht_upload_rate = 0;
s.total_dht_upload = 0;
// tracker
s.tracker_download_rate = 0;
s.total_tracker_download = 0;
s.tracker_upload_rate = 0;
s.total_tracker_upload = 0;
#endif
#ifndef TORRENT_DISABLE_DHT
if (m_dht)
{
m_dht->dht_status(s);
}
else
{
s.dht_nodes = 0;
s.dht_node_cache = 0;
s.dht_torrents = 0;
s.dht_global_nodes = 0;
}
#endif
return s;
}
#ifndef TORRENT_DISABLE_DHT
void session_impl::start_dht()
{ start_dht(m_dht_state); }
void session_impl::start_dht(entry const& startup_state)
{
2007-08-21 20:33:28 +02:00
INVARIANT_CHECK;
if (m_dht)
{
m_dht->stop();
m_dht = 0;
}
if (m_dht_settings.service_port == 0
|| m_dht_same_port)
{
m_dht_same_port = true;
if (m_listen_interface.port() > 0)
m_dht_settings.service_port = m_listen_interface.port();
else
m_dht_settings.service_port = 45000 + (rand() % 10000);
}
m_external_udp_port = m_dht_settings.service_port;
maybe_update_udp_mapping(0, m_dht_settings.service_port, m_dht_settings.service_port);
maybe_update_udp_mapping(1, m_dht_settings.service_port, m_dht_settings.service_port);
m_dht = new dht::dht_tracker(*this, m_dht_socket, m_dht_settings, &startup_state);
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if (!m_dht_socket.is_open() || m_dht_socket.local_port() != m_dht_settings.service_port)
{
error_code ec;
m_dht_socket.bind(udp::endpoint(m_listen_interface.address(), m_dht_settings.service_port), ec);
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}
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for (std::list<udp::endpoint>::iterator i = m_dht_router_nodes.begin()
, end(m_dht_router_nodes.end()); i != end; ++i)
{
m_dht->add_router_node(*i);
}
m_dht->start(startup_state);
// announce all torrents we have to the DHT
for (torrent_map::const_iterator i = m_torrents.begin()
, end(m_torrents.end()); i != end; ++i)
{
i->second->dht_announce();
}
}
#ifndef TORRENT_DISABLE_DHT
void session_impl::maybe_update_udp_mapping(int nat, int local_port, int external_port)
{
int local, external, protocol;
if (nat == 0 && m_natpmp.get())
{
if (m_udp_mapping[nat] != -1)
{
if (m_natpmp->get_mapping(m_udp_mapping[nat], local, external, protocol))
{
// we already have a mapping. If it's the same, don't do anything
if (local == local_port && external == external_port && protocol == natpmp::udp)
return;
}
m_natpmp->delete_mapping(m_udp_mapping[nat]);
}
m_udp_mapping[nat] = m_natpmp->add_mapping(natpmp::udp
, local_port, external_port);
return;
}
else if (nat == 1 && m_upnp.get())
{
if (m_udp_mapping[nat] != -1)
{
if (m_upnp->get_mapping(m_udp_mapping[nat], local, external, protocol))
{
// we already have a mapping. If it's the same, don't do anything
if (local == local_port && external == external_port && protocol == natpmp::udp)
return;
}
m_upnp->delete_mapping(m_udp_mapping[nat]);
}
m_udp_mapping[nat] = m_upnp->add_mapping(upnp::udp
, local_port, external_port);
return;
}
}
#endif
void session_impl::stop_dht()
{
if (!m_dht) return;
m_dht->stop();
m_dht = 0;
}
void session_impl::set_dht_settings(dht_settings const& settings)
{
// only change the dht listen port in case the settings
// contains a vaiid port, and if it is different from
// the current setting
if (settings.service_port != 0)
m_dht_same_port = false;
else
m_dht_same_port = true;
if (!m_dht_same_port
&& settings.service_port != m_dht_settings.service_port
&& m_dht)
{
error_code ec;
m_dht_socket.bind(udp::endpoint(m_listen_interface.address(), settings.service_port), ec);
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maybe_update_udp_mapping(0, settings.service_port, settings.service_port);
maybe_update_udp_mapping(1, settings.service_port, settings.service_port);
m_external_udp_port = settings.service_port;
}
m_dht_settings = settings;
if (m_dht_same_port)
m_dht_settings.service_port = m_listen_interface.port();
}
void session_impl::on_dht_state_callback(condition& c
, entry& e, bool& done) const
{
mutex::scoped_lock l(m_mutex);
if (m_dht) e = m_dht->state();
done = true;
c.signal(l);
}
#ifndef TORRENT_NO_DEPRECATE
entry session_impl::dht_state(mutex::scoped_lock& l) const
{
condition cond;
if (!m_dht) return entry();
entry e;
bool done = false;
m_io_service.post(boost::bind(&session_impl::on_dht_state_callback
, this, boost::ref(cond), boost::ref(e), boost::ref(done)));
while (!done) cond.wait(l);
return e;
}
#endif
void session_impl::add_dht_node(std::pair<std::string, int> const& node)
{
TORRENT_ASSERT(m_dht);
m_dht->add_node(node);
}
void session_impl::add_dht_router(std::pair<std::string, int> const& node)
{
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char port[7];
snprintf(port, sizeof(port), "%d", node.second);
tcp::resolver::query q(node.first, port);
m_host_resolver.async_resolve(q,
bind(&session_impl::on_dht_router_name_lookup, this, _1, _2));
}
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void session_impl::on_dht_router_name_lookup(error_code const& e
, tcp::resolver::iterator host)
{
if (e || host == tcp::resolver::iterator()) return;
// router nodes should be added before the DHT is started (and bootstrapped)
udp::endpoint ep(host->endpoint().address(), host->endpoint().port());
if (m_dht) m_dht->add_router_node(ep);
m_dht_router_nodes.push_back(ep);
}
#endif
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#ifndef TORRENT_DISABLE_ENCRYPTION
void session_impl::set_pe_settings(pe_settings const& settings)
{
m_pe_settings = settings;
}
#endif
bool session_impl::is_listening() const
{
return !m_listen_sockets.empty();
}
session_impl::~session_impl()
{
mutex::scoped_lock l(m_mutex);
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#if defined(TORRENT_VERBOSE_LOGGING) || defined(TORRENT_LOGGING)
(*m_logger) << time_now_string() << "\n\n *** shutting down session *** \n\n";
#endif
abort();
TORRENT_ASSERT(m_connections.empty());
l.unlock();
// we need to wait for the disk-io thread to
// die first, to make sure it won't post any
// more messages to the io_service containing references
// to disk_io_pool inside the disk_io_thread. Once
// the main thread has handled all the outstanding requests
// we know it's safe to destruct the disk thread.
#if defined(TORRENT_VERBOSE_LOGGING) || defined(TORRENT_LOGGING)
(*m_logger) << time_now_string() << " waiting for disk io thread\n";
#endif
m_disk_thread.join();
#ifndef TORRENT_DISABLE_GEO_IP
if (m_asnum_db) GeoIP_delete(m_asnum_db);
if (m_country_db) GeoIP_delete(m_country_db);
#endif
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#if defined(TORRENT_VERBOSE_LOGGING) || defined(TORRENT_LOGGING)
(*m_logger) << time_now_string() << " waiting for main thread\n";
#endif
m_thread->join();
TORRENT_ASSERT(m_torrents.empty());
TORRENT_ASSERT(m_connections.empty());
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#if defined(TORRENT_VERBOSE_LOGGING) || defined(TORRENT_LOGGING)
(*m_logger) << time_now_string() << " shutdown complete!\n";
#endif
TORRENT_ASSERT(m_connections.empty());
}
void session_impl::set_max_uploads(int limit)
{
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TORRENT_ASSERT(limit >= 0 || limit == -1);
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INVARIANT_CHECK;
if (limit < 0) limit = (std::numeric_limits<int>::max)();
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if (m_max_uploads == limit) return;
m_max_uploads = limit;
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m_allowed_upload_slots = limit;
if (m_allowed_upload_slots <= m_settings.num_optimistic_unchoke_slots / 2)
{
if (m_alerts.should_post<performance_alert>())
m_alerts.post_alert(performance_alert(torrent_handle()
, performance_alert::too_many_optimistic_unchoke_slots));
}
}
void session_impl::set_max_connections(int limit)
{
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INVARIANT_CHECK;
if (limit <= 0)
{
limit = (std::numeric_limits<int>::max)();
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#if TORRENT_USE_RLIMIT
rlimit l;
if (getrlimit(RLIMIT_NOFILE, &l) == 0
&& l.rlim_cur != RLIM_INFINITY)
{
limit = l.rlim_cur - m_settings.file_pool_size;
if (limit < 5) limit = 5;
}
#endif
}
m_max_connections = limit;
}
void session_impl::set_max_half_open_connections(int limit)
{
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INVARIANT_CHECK;
if (limit <= 0) limit = (std::numeric_limits<int>::max)();
m_half_open.limit(limit);
}
void session_impl::set_local_download_rate_limit(int bytes_per_second)
{
INVARIANT_CHECK;
if (bytes_per_second <= 0) bytes_per_second = 0;
m_local_download_channel.throttle(bytes_per_second);
}
void session_impl::set_local_upload_rate_limit(int bytes_per_second)
{
INVARIANT_CHECK;
if (bytes_per_second <= 0) bytes_per_second = 0;
m_local_upload_channel.throttle(bytes_per_second);
}
void session_impl::set_download_rate_limit(int bytes_per_second)
{
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INVARIANT_CHECK;
if (bytes_per_second <= 0) bytes_per_second = 0;
m_download_channel.throttle(bytes_per_second);
}
void session_impl::set_upload_rate_limit(int bytes_per_second)
{
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INVARIANT_CHECK;
if (bytes_per_second <= 0) bytes_per_second = 0;
m_upload_channel.throttle(bytes_per_second);
}
void session_impl::set_alert_dispatch(boost::function<void(alert const&)> const& fun)
{
m_alerts.set_dispatch_function(fun);
}
std::auto_ptr<alert> session_impl::pop_alert()
{
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// too expensive
// INVARIANT_CHECK;
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if (m_alerts.pending())
return m_alerts.get();
return std::auto_ptr<alert>(0);
}
alert const* session_impl::wait_for_alert(time_duration max_wait)
{
return m_alerts.wait_for_alert(max_wait);
}
void session_impl::set_alert_mask(int m)
{
m_alerts.set_alert_mask(m);
}
size_t session_impl::set_alert_queue_size_limit(size_t queue_size_limit_)
{
return m_alerts.set_alert_queue_size_limit(queue_size_limit_);
}
int session_impl::local_upload_rate_limit() const
{
return m_local_upload_channel.throttle();
}
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int session_impl::local_download_rate_limit() const
{
return m_local_download_channel.throttle();
}
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int session_impl::upload_rate_limit() const
{
return m_upload_channel.throttle();
}
int session_impl::download_rate_limit() const
{
return m_download_channel.throttle();
}
void session_impl::start_lsd()
{
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INVARIANT_CHECK;
if (m_lsd) return;
m_lsd = new lsd(m_io_service
, m_listen_interface.address()
, bind(&session_impl::on_lsd_peer, this, _1, _2));
}
void session_impl::start_natpmp(natpmp* n)
{
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INVARIANT_CHECK;
m_natpmp = n;
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if (m_listen_interface.port() > 0)
{
m_tcp_mapping[0] = m_natpmp->add_mapping(natpmp::tcp
, m_listen_interface.port(), m_listen_interface.port());
}
#ifndef TORRENT_DISABLE_DHT
if (m_dht)
m_udp_mapping[0] = m_natpmp->add_mapping(natpmp::udp
, m_dht_settings.service_port
, m_dht_settings.service_port);
#endif
}
void session_impl::start_upnp(upnp* u)
{
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INVARIANT_CHECK;
m_upnp = u;
m_upnp->discover_device();
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if (m_listen_interface.port() > 0)
{
m_tcp_mapping[1] = m_upnp->add_mapping(upnp::tcp
, m_listen_interface.port(), m_listen_interface.port());
}
#ifndef TORRENT_DISABLE_DHT
if (m_dht)
m_udp_mapping[1] = m_upnp->add_mapping(upnp::udp
, m_dht_settings.service_port
, m_dht_settings.service_port);
#endif
}
void session_impl::stop_lsd()
{
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if (m_lsd.get())
m_lsd->close();
m_lsd = 0;
}
void session_impl::stop_natpmp()
{
if (m_natpmp.get())
m_natpmp->close();
m_natpmp = 0;
}
void session_impl::stop_upnp()
{
if (m_upnp.get())
{
m_upnp->close();
m_udp_mapping[1] = -1;
m_tcp_mapping[1] = -1;
}
m_upnp = 0;
}
void session_impl::set_external_address(address const& ip)
{
TORRENT_ASSERT(ip != address());
if (is_local(ip)) return;
if (is_loopback(ip)) return;
if (m_external_address == ip) return;
m_external_address = ip;
if (m_alerts.should_post<external_ip_alert>())
m_alerts.post_alert(external_ip_alert(ip));
}
void session_impl::free_disk_buffer(char* buf)
{
m_disk_thread.free_buffer(buf);
}
char* session_impl::allocate_disk_buffer(char const* category)
{
return m_disk_thread.allocate_buffer(category);
}
std::pair<char*, int> session_impl::allocate_buffer(int size)
{
TORRENT_ASSERT(size > 0);
int num_buffers = (size + send_buffer_size - 1) / send_buffer_size;
TORRENT_ASSERT(num_buffers > 0);
mutex::scoped_lock l(m_send_buffer_mutex);
#ifdef TORRENT_STATS
TORRENT_ASSERT(m_buffer_allocations >= 0);
m_buffer_allocations += num_buffers;
m_buffer_usage_logger << log_time() << " protocol_buffer: "
<< (m_buffer_allocations * send_buffer_size) << std::endl;
#endif
#ifdef TORRENT_DISABLE_POOL_ALLOCATOR
int num_bytes = num_buffers * send_buffer_size;
return std::make_pair((char*)malloc(num_bytes), num_bytes);
#else
return std::make_pair((char*)m_send_buffers.ordered_malloc(num_buffers)
, num_buffers * send_buffer_size);
#endif
}
#if defined TORRENT_STATS && defined TORRENT_DISK_STATS
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void session_impl::log_buffer_usage()
{
int send_buffer_capacity = 0;
int used_send_buffer = 0;
for (connection_map::const_iterator i = m_connections.begin()
, end(m_connections.end()); i != end; ++i)
{
send_buffer_capacity += (*i)->send_buffer_capacity();
used_send_buffer += (*i)->send_buffer_size();
}
TORRENT_ASSERT(send_buffer_capacity >= used_send_buffer);
m_buffer_usage_logger << log_time() << " send_buffer_size: " << send_buffer_capacity << std::endl;
m_buffer_usage_logger << log_time() << " used_send_buffer: " << used_send_buffer << std::endl;
m_buffer_usage_logger << log_time() << " send_buffer_utilization: "
<< (used_send_buffer * 100.f / send_buffer_capacity) << std::endl;
}
#endif
void session_impl::free_buffer(char* buf, int size)
{
TORRENT_ASSERT(size > 0);
TORRENT_ASSERT(size % send_buffer_size == 0);
int num_buffers = size / send_buffer_size;
TORRENT_ASSERT(num_buffers > 0);
mutex::scoped_lock l(m_send_buffer_mutex);
#ifdef TORRENT_STATS
m_buffer_allocations -= num_buffers;
TORRENT_ASSERT(m_buffer_allocations >= 0);
m_buffer_usage_logger << log_time() << " protocol_buffer: "
<< (m_buffer_allocations * send_buffer_size) << std::endl;
#endif
#ifdef TORRENT_DISABLE_POOL_ALLOCATOR
free(buf);
#else
m_send_buffers.ordered_free(buf, num_buffers);
#endif
}
#ifdef TORRENT_DEBUG
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void session_impl::check_invariant() const
{
int num_checking = 0;
for (check_queue_t::const_iterator i = m_queued_for_checking.begin()
, end(m_queued_for_checking.end()); i != end; ++i)
{
if ((*i)->state() == torrent_status::checking_files) ++num_checking;
}
// the queue is either empty, or it has exactly one checking torrent in it
TORRENT_ASSERT(m_queued_for_checking.empty() || num_checking == 1);
std::set<int> unique;
int total_downloaders = 0;
for (torrent_map::const_iterator i = m_torrents.begin()
, end(m_torrents.end()); i != end; ++i)
{
int pos = i->second->queue_position();
if (pos < 0)
{
TORRENT_ASSERT(pos == -1);
continue;
}
++total_downloaders;
unique.insert(i->second->queue_position());
}
TORRENT_ASSERT(int(unique.size()) == total_downloaders);
std::set<peer_connection*> unique_peers;
TORRENT_ASSERT(m_max_connections > 0);
TORRENT_ASSERT(m_max_uploads >= 0);
if (m_settings.choking_algorithm == session_settings::auto_expand_choker)
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TORRENT_ASSERT(m_allowed_upload_slots >= m_max_uploads);
int unchokes = 0;
int num_optimistic = 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());
peer_connection* p = i->get();
TORRENT_ASSERT(!p->is_disconnecting());
if (p->ignore_unchoke_slots()) continue;
if (!p->is_choked()) ++unchokes;
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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}
if (t && p->peer_info_struct())
{
TORRENT_ASSERT(t->get_policy().has_connection(p));
}
}
if (m_settings.num_optimistic_unchoke_slots)
TORRENT_ASSERT(num_optimistic <= m_settings.num_optimistic_unchoke_slots);
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if (m_num_unchoked != unchokes)
{
TORRENT_ASSERT(false);
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}
for (std::map<sha1_hash, boost::shared_ptr<torrent> >::const_iterator j
= m_torrents.begin(); j != m_torrents.end(); ++j)
{
TORRENT_ASSERT(boost::get_pointer(j->second));
}
}
#endif
}}