/* 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 #include #include #include #include #include #ifdef _MSC_VER #pragma warning(push, 1) #endif #include #include #ifdef _MSC_VER #pragma warning(pop) #endif #include "libtorrent/extensions/ut_pex.hpp" #include "libtorrent/extensions/ut_metadata.hpp" #include "libtorrent/extensions/lt_trackers.hpp" #include "libtorrent/extensions/smart_ban.hpp" #include "libtorrent/peer_id.hpp" #include "libtorrent/torrent_info.hpp" #include "libtorrent/tracker_manager.hpp" #include "libtorrent/bencode.hpp" #include "libtorrent/hasher.hpp" #include "libtorrent/entry.hpp" #include "libtorrent/session.hpp" #include "libtorrent/fingerprint.hpp" #include "libtorrent/entry.hpp" #include "libtorrent/alert_types.hpp" #include "libtorrent/invariant_check.hpp" #include "libtorrent/file.hpp" #include "libtorrent/bt_peer_connection.hpp" #include "libtorrent/ip_filter.hpp" #include "libtorrent/socket.hpp" #include "libtorrent/aux_/session_impl.hpp" #include "libtorrent/kademlia/dht_tracker.hpp" #include "libtorrent/natpmp.hpp" #include "libtorrent/upnp.hpp" #include "libtorrent/magnet_uri.hpp" using boost::shared_ptr; using boost::weak_ptr; using libtorrent::aux::session_impl; #ifdef TORRENT_MEMDEBUG void start_malloc_debug(); void stop_malloc_debug(); #endif namespace libtorrent { #ifdef _MSC_VER namespace aux { eh_initializer::eh_initializer() { ::_set_se_translator(straight_to_debugger); } } #endif TORRENT_EXPORT void TORRENT_LINK_TEST_NAME() {} // this function returns a session_settings object // which will optimize libtorrent for minimum memory // usage, with no consideration of performance. TORRENT_EXPORT session_settings min_memory_usage() { session_settings set; set.alert_queue_size = 100; // setting this to a low limit, means more // peers are more likely to request from the // same piece. Which means fewer partial // pieces and fewer entries in the partial // piece list set.whole_pieces_threshold = 2; set.use_parole_mode = false; set.prioritize_partial_pieces = true; // connect to 5 peers per second set.connection_speed = 5; // be extra nice on the hard drive when running // on embedded devices. This might slow down // torrent checking set.file_checks_delay_per_block = 5; // only have 4 files open at a time set.file_pool_size = 4; // we want to keep the peer list as small as possible set.allow_multiple_connections_per_ip = false; set.max_failcount = 2; set.inactivity_timeout = 120; // whenever a peer has downloaded one block, write // it to disk, and don't read anything from the // socket until the disk write is complete set.max_queued_disk_bytes = 1; // don't keep track of all upnp devices, keep // the device list small set.upnp_ignore_nonrouters = true; // never keep more than one 16kB block in // the send buffer set.send_buffer_watermark = 9; // don't use any disk cache set.cache_size = 0; set.cache_buffer_chunk_size = 1; set.use_read_cache = false; set.use_disk_read_ahead = false; set.close_redundant_connections = true; set.max_peerlist_size = 500; set.max_paused_peerlist_size = 50; // udp trackers are cheaper to talk to set.prefer_udp_trackers = true; set.max_rejects = 10; set.recv_socket_buffer_size = 16 * 1024; set.send_socket_buffer_size = 16 * 1024; // use less memory when checking pieces set.optimize_hashing_for_speed = false; // use less memory when reading and writing // whole pieces set.coalesce_reads = false; set.coalesce_writes = false; // disallow the buffer size to grow for the uTP socket set.utp_dynamic_sock_buf = false; return set; } TORRENT_EXPORT session_settings high_performance_seed() { session_settings set; // don't throttle TCP, assume there is // plenty of bandwidth set.mixed_mode_algorithm = session_settings::prefer_tcp; // we will probably see a high rate of alerts, make it less // likely to loose alerts set.alert_queue_size = 10000; // allow 500 files open at a time set.file_pool_size = 500; // don't update access time for each read/write set.no_atime_storage = true; // as a seed box, we must accept multiple peers behind // the same NAT set.allow_multiple_connections_per_ip = true; // connect to 50 peers per second set.connection_speed = 50; // allow 8000 peer connections set.connections_limit = 8000; // allow lots of peers to try to connect simultaneously set.listen_queue_size = 200; // unchoke many peers set.unchoke_slots_limit = 500; // we need more DHT capacity to ping more peers // candidates before trying to connect set.dht_upload_rate_limit = 100000; // we're more interested in downloading than seeding // only service a read job every 1000 write job (when // disk is congested). Presumably on a big box, writes // are extremely cheap and reads are relatively expensive // so that's the main reason this ratio should be adjusted set.read_job_every = 100; // use 1 GB of cache set.cache_size = 32768 * 2; set.use_read_cache = true; set.cache_buffer_chunk_size = 128; set.read_cache_line_size = 32; set.write_cache_line_size = 32; set.low_prio_disk = false; // one hour expiration set.cache_expiry = 60 * 60; // this is expensive and could add significant // delays when freeing a large number of buffers set.lock_disk_cache = false; // the max number of bytes pending write before we throttle // download rate set.max_queued_disk_bytes = 10 * 1024 * 1024; // flush write cache in a way to minimize the amount we need to // read back once we want to hash-check the piece. i.e. try to // flush all blocks in-order set.disk_cache_algorithm = session_settings::avoid_readback; set.explicit_read_cache = false; // prevent fast pieces to interfere with suggested pieces // since we unchoke everyone, we don't need fast pieces anyway set.allowed_fast_set_size = 0; // suggest pieces in the read cache for higher cache hit rate set.suggest_mode = session_settings::suggest_read_cache; set.close_redundant_connections = true; set.max_rejects = 10; set.optimize_hashing_for_speed = true; // don't let connections linger for too long set.request_timeout = 10; set.peer_timeout = 20; set.inactivity_timeout = 20; set.active_limit = 2000; set.active_tracker_limit = 2000; set.active_dht_limit = 600; set.active_seeds = 2000; set.choking_algorithm = session_settings::fixed_slots_choker; // in order to be able to deliver very high // upload rates, this should be able to cover // the bandwidth delay product. Assuming an RTT // of 500 ms, and a send rate of 20 MB/s, the upper // limit should be 10 MB set.send_buffer_watermark = 2 * 1024 * 1024; // put 1.5 seconds worth of data in the send buffer // this gives the disk I/O more heads-up on disk // reads, and can maximize throughput set.send_buffer_watermark_factor = 150; // don't retry peers if they fail once. Let them // connect to us if they want to set.max_failcount = 1; // allow the buffer size to grow for the uTP socket set.utp_dynamic_sock_buf = true; return set; } // wrapper around a function that's executed in the network thread // ans synchronized in the client thread template void fun_ret(R* ret, bool* done, condition* e, mutex* m, boost::function f) { *ret = f(); mutex::scoped_lock l(*m); *done = true; e->signal_all(l); } void fun_wrap(bool* done, condition* e, mutex* m, boost::function f) { f(); mutex::scoped_lock l(*m); *done = true; e->signal_all(l); } #define TORRENT_ASYNC_CALL(x) \ m_impl->m_io_service.post(boost::bind(&session_impl:: x, m_impl.get())) #define TORRENT_ASYNC_CALL1(x, a1) \ m_impl->m_io_service.post(boost::bind(&session_impl:: x, m_impl.get(), a1)) #define TORRENT_ASYNC_CALL2(x, a1, a2) \ m_impl->m_io_service.post(boost::bind(&session_impl:: x, m_impl.get(), a1, a2)) #define TORRENT_WAIT \ mutex::scoped_lock l(m_impl->mut); \ while (!done) { m_impl->cond.wait(l); }; #define TORRENT_SYNC_CALL(x) \ bool done = false; \ m_impl->m_io_service.post(boost::bind(&fun_wrap, &done, &m_impl->cond, &m_impl->mut, boost::function(boost::bind(&session_impl:: x, m_impl.get())))); \ TORRENT_WAIT #define TORRENT_SYNC_CALL1(x, a1) \ bool done = false; \ m_impl->m_io_service.post(boost::bind(&fun_wrap, &done, &m_impl->cond, &m_impl->mut, boost::function(boost::bind(&session_impl:: x, m_impl.get(), a1)))); \ TORRENT_WAIT #define TORRENT_SYNC_CALL2(x, a1, a2) \ bool done = false; \ m_impl->m_io_service.post(boost::bind(&fun_wrap, &done, &m_impl->cond, &m_impl->mut, boost::function(boost::bind(&session_impl:: x, m_impl.get(), a1, a2)))); \ TORRENT_WAIT #define TORRENT_SYNC_CALL3(x, a1, a2, a3) \ bool done = false; \ m_impl->m_io_service.post(boost::bind(&fun_wrap, &done, &m_impl->cond, &m_impl->mut, boost::function(boost::bind(&session_impl:: x, m_impl.get(), a1, a2, a3)))); \ TORRENT_WAIT #define TORRENT_SYNC_CALL4(x, a1, a2, a3, a4) \ bool done = false; \ m_impl->m_io_service.post(boost::bind(&fun_wrap, &done, &m_impl->cond, &m_impl->mut, boost::function(boost::bind(&session_impl:: x, m_impl.get(), a1, a2, a3, a4)))); \ TORRENT_WAIT #define TORRENT_SYNC_CALL_RET(type, x) \ bool done = false; \ type r; \ m_impl->m_io_service.post(boost::bind(&fun_ret, &r, &done, &m_impl->cond, &m_impl->mut, boost::function(boost::bind(&session_impl:: x, m_impl.get())))); \ TORRENT_WAIT #define TORRENT_SYNC_CALL_RET1(type, x, a1) \ bool done = false; \ type r; \ m_impl->m_io_service.post(boost::bind(&fun_ret, &r, &done, &m_impl->cond, &m_impl->mut, boost::function(boost::bind(&session_impl:: x, m_impl.get(), a1)))); \ TORRENT_WAIT #define TORRENT_SYNC_CALL_RET2(type, x, a1, a2) \ bool done = false; \ type r; \ m_impl->m_io_service.post(boost::bind(&fun_ret, &r, &done, &m_impl->cond, &m_impl->mut, boost::function(boost::bind(&session_impl:: x, m_impl.get(), a1, a2)))); \ TORRENT_WAIT #define TORRENT_SYNC_CALL_RET3(type, x, a1, a2, a3) \ bool done = false; \ type r; \ m_impl->m_io_service.post(boost::bind(&fun_ret, &r, &done, &m_impl->cond, &m_impl->mut, boost::function(boost::bind(&session_impl:: x, m_impl.get(), a1, a2, a3)))); \ TORRENT_WAIT // this is a dummy function that's exported and named based // on the configuration. The session.hpp file will reference // it and if the library and the client are built with different // configurations this will give a link error void TORRENT_EXPORT TORRENT_CFG() {} void session::init(std::pair listen_range, char const* listen_interface , fingerprint const& id, int flags, boost::uint32_t alert_mask TORRENT_LOGPATH_ARG) { m_impl.reset(new session_impl(listen_range, id, listen_interface, alert_mask TORRENT_LOGPATH)); #ifdef TORRENT_MEMDEBUG start_malloc_debug(); #endif #ifndef TORRENT_DISABLE_EXTENSIONS if (flags & add_default_plugins) { add_extension(create_ut_pex_plugin); add_extension(create_ut_metadata_plugin); add_extension(create_lt_trackers_plugin); add_extension(create_smart_ban_plugin); } #endif m_impl->start_session(); if (flags & start_default_features) { start_upnp(); start_natpmp(); #ifndef TORRENT_DISABLE_DHT start_dht(); #endif start_lsd(); } } session::~session() { #ifdef TORRENT_MEMDEBUG stop_malloc_debug(); #endif TORRENT_ASSERT(m_impl); // if there is at least one destruction-proxy // abort the session and let the destructor // of the proxy to syncronize if (!m_impl.unique()) { TORRENT_ASYNC_CALL(abort); } } void session::save_state(entry& e, boost::uint32_t flags) const { TORRENT_SYNC_CALL2(save_state, &e, flags); } void session::load_state(lazy_entry const& e) { // this needs to be synchronized since the lifespan // of e is tied to the caller TORRENT_SYNC_CALL1(load_state, &e); } feed_handle session::add_feed(feed_settings const& feed) { // if you have auto-download enabled, you must specify a download directory! TORRENT_ASSERT(!feed.auto_download || !feed.add_args.save_path.empty()); TORRENT_SYNC_CALL_RET1(feed_handle, add_feed, feed); return r; } void session::remove_feed(feed_handle h) { TORRENT_ASYNC_CALL1(remove_feed, h); } void session::get_feeds(std::vector& f) const { f.clear(); TORRENT_SYNC_CALL1(get_feeds, &f); } #ifndef TORRENT_DISABLE_EXTENSIONS void session::add_extension(boost::function(torrent*, void*)> ext) { TORRENT_ASYNC_CALL1(add_extension, ext); } void session::add_extension(boost::shared_ptr ext) { TORRENT_ASYNC_CALL1(add_ses_extension, ext); } #endif #ifndef TORRENT_DISABLE_GEO_IP void session::load_asnum_db(char const* file) { TORRENT_ASYNC_CALL1(load_asnum_db, std::string(file)); } void session::load_country_db(char const* file) { TORRENT_ASYNC_CALL1(load_country_db, std::string(file)); } int session::as_for_ip(address const& addr) { return m_impl->as_for_ip(addr); } #if TORRENT_USE_WSTRING void session::load_asnum_db(wchar_t const* file) { TORRENT_ASYNC_CALL1(load_asnum_dbw, std::wstring(file)); } void session::load_country_db(wchar_t const* file) { TORRENT_ASYNC_CALL1(load_country_dbw, std::wstring(file)); } #endif // TORRENT_USE_WSTRING #endif // TORRENT_DISABLE_GEO_IP #ifndef TORRENT_NO_DEPRECATE void session::load_state(entry const& ses_state) { if (ses_state.type() == entry::undefined_t) return; std::vector buf; bencode(std::back_inserter(buf), ses_state); lazy_entry e; error_code ec; int ret = lazy_bdecode(&buf[0], &buf[0] + buf.size(), e, ec); TORRENT_ASSERT(ret == 0); TORRENT_SYNC_CALL1(load_state, &e); } entry session::state() const { entry ret; TORRENT_SYNC_CALL2(save_state, &ret, 0xffffffff); return ret; } #endif void session::set_ip_filter(ip_filter const& f) { TORRENT_ASYNC_CALL1(set_ip_filter, f); } ip_filter session::get_ip_filter() const { TORRENT_SYNC_CALL_RET(ip_filter, get_ip_filter); return r; } void session::set_port_filter(port_filter const& f) { TORRENT_ASYNC_CALL1(set_port_filter, f); } void session::set_peer_id(peer_id const& id) { TORRENT_ASYNC_CALL1(set_peer_id, id); } peer_id session::id() const { TORRENT_SYNC_CALL_RET(peer_id, get_peer_id); return r; } io_service& session::get_io_service() { return m_impl->m_io_service; } void session::set_key(int key) { TORRENT_ASYNC_CALL1(set_key, key); } void session::get_torrent_status(std::vector* ret , boost::function const& pred , boost::uint32_t flags) const { TORRENT_SYNC_CALL3(get_torrent_status, ret, boost::ref(pred), flags); } void session::refresh_torrent_status(std::vector* ret , boost::uint32_t flags) const { TORRENT_SYNC_CALL2(refresh_torrent_status, ret, flags); } void session::post_torrent_updates() { TORRENT_ASYNC_CALL(post_torrent_updates); } std::vector session::get_torrents() const { TORRENT_SYNC_CALL_RET(std::vector, get_torrents); return r; } torrent_handle session::find_torrent(sha1_hash const& info_hash) const { TORRENT_SYNC_CALL_RET1(torrent_handle, find_torrent_handle, info_hash); return r; } #ifndef BOOST_NO_EXCEPTIONS torrent_handle session::add_torrent(add_torrent_params const& params) { if (string_begins_no_case("magnet:", params.url.c_str())) { add_torrent_params p(params); p.url.clear(); return add_magnet_uri(*this, params.url, p); } error_code ec; TORRENT_SYNC_CALL_RET2(torrent_handle, add_torrent, params, boost::ref(ec)); if (ec) throw libtorrent_exception(ec); return r; } #endif torrent_handle session::add_torrent(add_torrent_params const& params, error_code& ec) { ec.clear(); if (string_begins_no_case("magnet:", params.url.c_str())) { add_torrent_params p(params); p.url.clear(); return add_magnet_uri(*this, params.url, p, ec); } TORRENT_SYNC_CALL_RET2(torrent_handle, add_torrent, params, boost::ref(ec)); return r; } void session::async_add_torrent(add_torrent_params const& params) { add_torrent_params* p = new add_torrent_params(params); if (params.resume_data) p->resume_data = new std::vector(*params.resume_data); if (params.tracker_url) p->tracker_url = strdup(params.tracker_url); if (params.name) p->name = strdup(params.name); TORRENT_ASYNC_CALL1(async_add_torrent, p); } #ifndef BOOST_NO_EXCEPTIONS #ifndef TORRENT_NO_DEPRECATE // if the torrent already exists, this will throw duplicate_torrent torrent_handle session::add_torrent( torrent_info const& ti , std::string const& save_path , entry const& resume_data , storage_mode_t storage_mode , bool paused , storage_constructor_type sc) { boost::intrusive_ptr tip(new torrent_info(ti)); add_torrent_params p(sc); p.ti = tip; p.save_path = save_path; std::vector buf; if (resume_data.type() != entry::undefined_t) { bencode(std::back_inserter(buf), resume_data); p.resume_data = &buf; } p.storage_mode = storage_mode; p.paused = paused; return add_torrent(p); } torrent_handle session::add_torrent( boost::intrusive_ptr ti , std::string const& save_path , entry const& resume_data , storage_mode_t storage_mode , bool paused , storage_constructor_type sc , void* userdata) { add_torrent_params p(sc); p.ti = ti; p.save_path = save_path; std::vector buf; if (resume_data.type() != entry::undefined_t) { bencode(std::back_inserter(buf), resume_data); p.resume_data = &buf; } p.storage_mode = storage_mode; p.paused = paused; p.userdata = userdata; return add_torrent(p); } torrent_handle session::add_torrent( char const* tracker_url , sha1_hash const& info_hash , char const* name , std::string const& save_path , entry const& e , storage_mode_t storage_mode , bool paused , storage_constructor_type sc , void* userdata) { add_torrent_params p(sc); p.tracker_url = tracker_url; p.info_hash = info_hash; p.save_path = save_path; p.paused = paused; p.userdata = userdata; return add_torrent(p); } #endif // TORRENT_NO_DEPRECATE #endif // BOOST_NO_EXCEPTIONS void session::remove_torrent(const torrent_handle& h, int options) { if (!h.is_valid()) #ifdef BOOST_NO_EXCEPTIONS return; #else throw_invalid_handle(); #endif TORRENT_ASYNC_CALL2(remove_torrent, h, options); } #ifndef TORRENT_NO_DEPRECATE bool session::listen_on( std::pair const& port_range , const char* net_interface, int flags) { error_code ec; TORRENT_SYNC_CALL4(listen_on, port_range, boost::ref(ec), net_interface, flags); return !!ec; } #endif void session::listen_on( std::pair const& port_range , error_code& ec , const char* net_interface, int flags) { TORRENT_SYNC_CALL4(listen_on, port_range, boost::ref(ec), net_interface, flags); } unsigned short session::listen_port() const { TORRENT_SYNC_CALL_RET(unsigned short, listen_port); return r; } session_status session::status() const { TORRENT_SYNC_CALL_RET(session_status, status); return r; } void session::pause() { TORRENT_ASYNC_CALL(pause); } void session::resume() { TORRENT_ASYNC_CALL(resume); } bool session::is_paused() const { TORRENT_SYNC_CALL_RET(bool, is_paused); return r; } void session::get_cache_info(sha1_hash const& ih , std::vector& ret) const { m_impl->m_disk_thread.get_cache_info(ih, ret); } cache_status session::get_cache_status() const { return m_impl->m_disk_thread.status(); } #ifndef TORRENT_DISABLE_DHT void session::start_dht() { // the state is loaded in load_state() TORRENT_ASYNC_CALL(start_dht); } void session::stop_dht() { TORRENT_ASYNC_CALL(stop_dht); } void session::set_dht_settings(dht_settings const& settings) { TORRENT_ASYNC_CALL1(set_dht_settings, settings); } #ifndef TORRENT_NO_DEPRECATE void session::start_dht(entry const& startup_state) { TORRENT_ASYNC_CALL1(start_dht, startup_state); } entry session::dht_state() const { TORRENT_SYNC_CALL_RET(entry, dht_state); return r; } #endif void session::add_dht_node(std::pair const& node) { TORRENT_ASYNC_CALL1(add_dht_node_name, node); } void session::add_dht_router(std::pair const& node) { TORRENT_ASYNC_CALL1(add_dht_router, node); } bool session::is_dht_running() const { TORRENT_SYNC_CALL_RET(bool, is_dht_running); return r; } #endif #ifndef TORRENT_DISABLE_ENCRYPTION void session::set_pe_settings(pe_settings const& settings) { TORRENT_ASYNC_CALL1(set_pe_settings, settings); } pe_settings session::get_pe_settings() const { TORRENT_SYNC_CALL_RET(pe_settings, get_pe_settings); return r; } #endif bool session::is_listening() const { TORRENT_SYNC_CALL_RET(bool, is_listening); return r; } void session::set_settings(session_settings const& s) { TORRENT_ASYNC_CALL1(set_settings, s); } session_settings session::settings() const { TORRENT_SYNC_CALL_RET(session_settings, settings); return r; } void session::set_proxy(proxy_settings const& s) { TORRENT_ASYNC_CALL1(set_proxy, s); } proxy_settings session::proxy() const { TORRENT_SYNC_CALL_RET(proxy_settings, proxy); return r; } #ifndef TORRENT_NO_DEPRECATE void session::set_peer_proxy(proxy_settings const& s) { TORRENT_ASYNC_CALL1(set_peer_proxy, s); } void session::set_web_seed_proxy(proxy_settings const& s) { TORRENT_ASYNC_CALL1(set_web_seed_proxy, s); } void session::set_tracker_proxy(proxy_settings const& s) { TORRENT_ASYNC_CALL1(set_tracker_proxy, s); } proxy_settings session::peer_proxy() const { TORRENT_SYNC_CALL_RET(proxy_settings, peer_proxy); return r; } proxy_settings session::web_seed_proxy() const { TORRENT_SYNC_CALL_RET(proxy_settings, web_seed_proxy); return r; } proxy_settings session::tracker_proxy() const { TORRENT_SYNC_CALL_RET(proxy_settings, tracker_proxy); return r; } #ifndef TORRENT_DISABLE_DHT void session::set_dht_proxy(proxy_settings const& s) { TORRENT_ASYNC_CALL1(set_dht_proxy, s); } proxy_settings session::dht_proxy() const { TORRENT_SYNC_CALL_RET(proxy_settings, dht_proxy); return r; } #endif #endif // TORRENT_NO_DEPRECATE #if TORRENT_USE_I2P void session::set_i2p_proxy(proxy_settings const& s) { TORRENT_ASYNC_CALL1(set_i2p_proxy, s); } proxy_settings session::i2p_proxy() const { TORRENT_SYNC_CALL_RET(proxy_settings, i2p_proxy); return r; } #endif #ifdef TORRENT_STATS void session::enable_stats_logging(bool s) { TORRENT_ASYNC_CALL1(enable_stats_logging, s); } #endif #ifndef TORRENT_NO_DEPRECATE int session::max_uploads() const { TORRENT_SYNC_CALL_RET(int, max_uploads); return r; } void session::set_max_uploads(int limit) { TORRENT_ASYNC_CALL1(set_max_uploads, limit); } int session::max_connections() const { TORRENT_SYNC_CALL_RET(int, max_connections); return r; } void session::set_max_connections(int limit) { TORRENT_ASYNC_CALL1(set_max_connections, limit); } int session::max_half_open_connections() const { TORRENT_SYNC_CALL_RET(int, max_half_open_connections); return r; } void session::set_max_half_open_connections(int limit) { TORRENT_ASYNC_CALL1(set_max_half_open_connections, limit); } int session::local_upload_rate_limit() const { TORRENT_SYNC_CALL_RET(int, local_upload_rate_limit); return r; } int session::local_download_rate_limit() const { TORRENT_SYNC_CALL_RET(int, local_download_rate_limit); return r; } int session::upload_rate_limit() const { TORRENT_SYNC_CALL_RET(int, upload_rate_limit); return r; } int session::download_rate_limit() const { TORRENT_SYNC_CALL_RET(int, download_rate_limit); return r; } void session::set_local_upload_rate_limit(int bytes_per_second) { TORRENT_ASYNC_CALL1(set_local_upload_rate_limit, bytes_per_second); } void session::set_local_download_rate_limit(int bytes_per_second) { TORRENT_ASYNC_CALL1(set_local_download_rate_limit, bytes_per_second); } void session::set_upload_rate_limit(int bytes_per_second) { TORRENT_ASYNC_CALL1(set_upload_rate_limit, bytes_per_second); } void session::set_download_rate_limit(int bytes_per_second) { TORRENT_ASYNC_CALL1(set_download_rate_limit, bytes_per_second); } int session::num_uploads() const { TORRENT_SYNC_CALL_RET(int, num_uploads); return r; } int session::num_connections() const { TORRENT_SYNC_CALL_RET(int, num_connections); return r; } #endif // TORRENT_NO_DEPRECATE void session::set_alert_dispatch(boost::function)> const& fun) { TORRENT_ASYNC_CALL1(set_alert_dispatch, fun); } std::auto_ptr session::pop_alert() { return m_impl->pop_alert(); } void session::pop_alerts(std::deque* alerts) { for (std::deque::iterator i = alerts->begin() , end(alerts->end()); i != end; ++i) delete *i; alerts->clear(); m_impl->pop_alerts(alerts); } alert const* session::wait_for_alert(time_duration max_wait) { return m_impl->wait_for_alert(max_wait); } void session::set_alert_mask(boost::uint32_t m) { TORRENT_ASYNC_CALL1(set_alert_mask, m); } #ifndef TORRENT_NO_DEPRECATE size_t session::set_alert_queue_size_limit(size_t queue_size_limit_) { TORRENT_SYNC_CALL_RET1(size_t, set_alert_queue_size_limit, queue_size_limit_); return r; } void session::set_severity_level(alert::severity_t s) { int m = 0; switch (s) { case alert::debug: m = alert::all_categories; break; case alert::info: m = alert::all_categories & ~(alert::debug_notification | alert::progress_notification | alert::dht_notification); break; case alert::warning: m = alert::all_categories & ~(alert::debug_notification | alert::status_notification | alert::progress_notification | alert::dht_notification); break; case alert::critical: m = alert::error_notification | alert::storage_notification; break; case alert::fatal: m = alert::error_notification; break; default: break; } TORRENT_ASYNC_CALL1(set_alert_mask, m); } #endif void session::start_lsd() { TORRENT_ASYNC_CALL(start_lsd); } natpmp* session::start_natpmp() { TORRENT_SYNC_CALL_RET(natpmp*, start_natpmp); return r; } upnp* session::start_upnp() { TORRENT_SYNC_CALL_RET(upnp*, start_upnp); return r; } void session::stop_lsd() { TORRENT_ASYNC_CALL(stop_lsd); } void session::stop_natpmp() { TORRENT_ASYNC_CALL(stop_natpmp); } void session::stop_upnp() { TORRENT_ASYNC_CALL(stop_upnp); } connection_queue& session::get_connection_queue() { return m_impl->m_half_open; } }