/* Copyright (c) 2007-2013, Arvid Norberg All rights reserved. Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: * Redistributions of source code must retain the above copyright notice, this list of conditions and the following disclaimer. * Redistributions in binary form must reproduce the above copyright notice, this list of conditions and the following disclaimer in the documentation and/or other materials provided with the distribution. * Neither the name of the author nor the names of its contributors may be used to endorse or promote products derived from this software without specific prior written permission. THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #include "libtorrent/config.hpp" #if defined TORRENT_OS2 #include #endif #include "libtorrent/pch.hpp" #include #include #include "libtorrent/natpmp.hpp" #include "libtorrent/io.hpp" #include "libtorrent/assert.hpp" #include "libtorrent/enum_net.hpp" #include "libtorrent/socket_io.hpp" #include "libtorrent/io_service.hpp" //#include "libtorrent/random.hpp" #if BOOST_VERSION < 103500 #include #else #include #endif //#define NATPMP_LOG #ifdef NATPMP_LOG #include #endif #if defined TORRENT_ASIO_DEBUGGING #include "libtorrent/debug.hpp" #endif using namespace libtorrent; natpmp::natpmp(io_service& ios, address const& listen_interface , portmap_callback_t const& cb, log_callback_t const& lcb) : m_callback(cb) , m_log_callback(lcb) , m_currently_mapping(-1) , m_retry_count(0) , m_socket(ios) , m_send_timer(ios) , m_refresh_timer(ios) , m_next_refresh(-1) , m_disabled(false) , m_abort(false) { // unfortunately async operations rely on the storage // for this array not to be reallocated, by passing // around pointers to its elements. so reserve size for now m_mappings.reserve(10); rebind(listen_interface); } void natpmp::rebind(address const& listen_interface) { mutex::scoped_lock l(m_mutex); error_code ec; address gateway = get_default_gateway(m_socket.get_io_service(), ec); if (ec) { char msg[200]; snprintf(msg, sizeof(msg), "failed to find default route: %s" , convert_from_native(ec.message()).c_str()); log(msg, l); disable(ec, l); return; } m_disabled = false; udp::endpoint nat_endpoint(gateway, 5351); if (nat_endpoint == m_nat_endpoint) return; m_nat_endpoint = nat_endpoint; char msg[200]; snprintf(msg, sizeof(msg), "found router at: %s" , print_address(m_nat_endpoint.address()).c_str()); log(msg, l); m_socket.open(udp::v4(), ec); if (ec) { disable(ec, l); return; } m_socket.bind(udp::endpoint(address_v4::any(), 0), ec); if (ec) { disable(ec, l); return; } #if defined TORRENT_ASIO_DEBUGGING add_outstanding_async("natpmp::on_reply"); #endif m_socket.async_receive_from(asio::buffer(&m_response_buffer, 16) , m_remote, boost::bind(&natpmp::on_reply, self(), _1, _2)); send_get_ip_address_request(l); for (std::vector::iterator i = m_mappings.begin() , end(m_mappings.end()); i != end; ++i) { if (i->protocol != none || i->action != mapping_t::action_none) continue; i->action = mapping_t::action_add; update_mapping(i - m_mappings.begin(), l); } } void natpmp::send_get_ip_address_request(mutex::scoped_lock& l) { using namespace libtorrent::detail; char buf[2]; char* out = buf; write_uint8(0, out); // NAT-PMP version write_uint8(0, out); // public IP address request opcode log("==> get public IP address", l); error_code ec; m_socket.send_to(asio::buffer(buf, sizeof(buf)), m_nat_endpoint, 0, ec); } bool natpmp::get_mapping(int index, int& local_port, int& external_port, int& protocol) const { mutex::scoped_lock l(m_mutex); TORRENT_ASSERT(index < int(m_mappings.size()) && index >= 0); if (index >= int(m_mappings.size()) || index < 0) return false; mapping_t const& m = m_mappings[index]; if (m.protocol == none) return false; local_port = m.local_port; external_port = m.external_port; protocol = m.protocol; return true; } void natpmp::log(char const* msg, mutex::scoped_lock& l) { l.unlock(); m_log_callback(msg); l.lock(); } void natpmp::disable(error_code const& ec, mutex::scoped_lock& l) { m_disabled = true; for (std::vector::iterator i = m_mappings.begin() , end(m_mappings.end()); i != end; ++i) { if (i->protocol == none) continue; i->protocol = none; int index = i - m_mappings.begin(); l.unlock(); m_callback(index, address(), 0, ec); l.lock(); } close_impl(l); } void natpmp::delete_mapping(int index) { mutex::scoped_lock l(m_mutex); TORRENT_ASSERT(index < int(m_mappings.size()) && index >= 0); if (index >= int(m_mappings.size()) || index < 0) return; mapping_t& m = m_mappings[index]; if (m.protocol == none) return; if (!m.map_sent) { m.action = mapping_t::action_none; m.protocol = none; return; } m.action = mapping_t::action_delete; update_mapping(index, l); } int natpmp::add_mapping(protocol_type p, int external_port, int local_port) { mutex::scoped_lock l(m_mutex); if (m_disabled) return -1; std::vector::iterator i = std::find_if(m_mappings.begin() , m_mappings.end(), boost::bind(&mapping_t::protocol, _1) == int(none)); if (i == m_mappings.end()) { m_mappings.push_back(mapping_t()); i = m_mappings.end() - 1; } i->protocol = p; i->external_port = external_port; i->local_port = local_port; i->action = mapping_t::action_add; int mapping_index = i - m_mappings.begin(); #ifdef NATPMP_LOG ptime now = time_now(); for (std::vector::iterator m = m_mappings.begin() , end(m_mappings.end()); m != end; ++m) { std::cout << " ADD MAPPING: " << mapping_index << " [ " "proto: " << (i->protocol == none ? "none" : i->protocol == tcp ? "tcp" : "udp") << " port: " << i->external_port << " local-port: " << i->local_port << " action: " << (i->action == mapping_t::action_none ? "none" : i->action == mapping_t::action_add ? "add" : "delete") << " ttl: " << total_seconds(i->expires - now) << " ]" << std::endl; } #endif update_mapping(mapping_index, l); return mapping_index; } void natpmp::try_next_mapping(int i, mutex::scoped_lock& l) { #ifdef NATPMP_LOG ptime now = time_now(); for (std::vector::iterator m = m_mappings.begin() , end(m_mappings.end()); m != end; ++m) { std::cout << " " << (m - m_mappings.begin()) << " [ " "proto: " << (m->protocol == none ? "none" : m->protocol == tcp ? "tcp" : "udp") << " port: " << m->external_port << " local-port: " << m->local_port << " action: " << (m->action == mapping_t::action_none ? "none" : m->action == mapping_t::action_add ? "add" : "delete") << " ttl: " << total_seconds(m->expires - now) << " ]" << std::endl; } #endif if (i < int(m_mappings.size()) - 1) { update_mapping(i + 1, l); return; } std::vector::iterator m = std::find_if( m_mappings.begin(), m_mappings.end() , boost::bind(&mapping_t::action, _1) != int(mapping_t::action_none)); if (m == m_mappings.end()) { if (m_abort) { error_code ec; m_send_timer.cancel(ec); m_socket.close(ec); } #ifdef NATPMP_LOG std::cout << " done" << (m_abort?" shutting down":"") << std::endl; #endif return; } #ifdef NATPMP_LOG std::cout << " updating " << (m - m_mappings.begin()) << std::endl; #endif update_mapping(m - m_mappings.begin(), l); } void natpmp::update_mapping(int i, mutex::scoped_lock& l) { if (i == int(m_mappings.size())) { if (m_abort) { error_code ec; m_send_timer.cancel(ec); m_socket.close(ec); } #ifdef NATPMP_LOG std::cout << " done" << (m_abort?" shutting down":"") << std::endl; #endif return; } natpmp::mapping_t& m = m_mappings[i]; if (m.action == mapping_t::action_none || m.protocol == none) { try_next_mapping(i, l); return; } if (m_currently_mapping == -1) { // the socket is not currently in use // send out a mapping request m_retry_count = 0; send_map_request(i, l); } } void natpmp::send_map_request(int i, mutex::scoped_lock& l) { using namespace libtorrent::detail; TORRENT_ASSERT(m_currently_mapping == -1 || m_currently_mapping == i); m_currently_mapping = i; mapping_t& m = m_mappings[i]; TORRENT_ASSERT(m.action != mapping_t::action_none); char buf[12]; char* out = buf; write_uint8(0, out); // NAT-PMP version write_uint8(m.protocol, out); // map "protocol" write_uint16(0, out); // reserved write_uint16(m.local_port, out); // private port write_uint16(m.external_port, out); // requested public port int ttl = m.action == mapping_t::action_add ? 3600 : 0; write_uint32(ttl, out); // port mapping lifetime char msg[200]; snprintf(msg, sizeof(msg), "==> port map [ mapping: %d action: %s" " proto: %s local: %u external: %u ttl: %u ]" , i, m.action == mapping_t::action_add ? "add" : "delete" , m.protocol == udp ? "udp" : "tcp" , m.local_port, m.external_port, ttl); log(msg, l); error_code ec; m_socket.send_to(asio::buffer(buf, sizeof(buf)), m_nat_endpoint, 0, ec); m.map_sent = true; m.outstanding_request = true; if (m_abort) { // when we're shutting down, ignore the // responses and just remove all mappings // immediately m_currently_mapping = -1; m.action = mapping_t::action_none; try_next_mapping(i, l); } else { #if defined TORRENT_ASIO_DEBUGGING add_outstanding_async("natpmp::resend_request"); #endif // linear back-off instead of exponential ++m_retry_count; m_send_timer.expires_from_now(milliseconds(250 * m_retry_count), ec); m_send_timer.async_wait(boost::bind(&natpmp::resend_request, self(), i, _1)); } } void natpmp::resend_request(int i, error_code const& e) { #if defined TORRENT_ASIO_DEBUGGING complete_async("natpmp::resend_request"); #endif if (e) return; mutex::scoped_lock l(m_mutex); if (m_currently_mapping != i) return; // if we're shutting down, don't retry, just move on // to the next mapping if (m_retry_count >= 9 || m_abort) { m_currently_mapping = -1; m_mappings[i].action = mapping_t::action_none; // try again in two hours m_mappings[i].expires = time_now() + hours(2); try_next_mapping(i, l); return; } send_map_request(i, l); } void natpmp::on_reply(error_code const& e , std::size_t bytes_transferred) { mutex::scoped_lock l(m_mutex); #if defined TORRENT_ASIO_DEBUGGING complete_async("natpmp::on_reply"); #endif using namespace libtorrent::detail; if (e) { char msg[200]; snprintf(msg, sizeof(msg), "error on receiving reply: %s" , convert_from_native(e.message()).c_str()); log(msg, l); return; } #if defined TORRENT_ASIO_DEBUGGING add_outstanding_async("natpmp::on_reply"); #endif // make a copy of the response packet buffer // to avoid overwriting it in the next receive call char msg_buf[16]; memcpy(msg_buf, m_response_buffer, bytes_transferred); m_socket.async_receive_from(asio::buffer(&m_response_buffer, 16) , m_remote, boost::bind(&natpmp::on_reply, self(), _1, _2)); // simulate packet loss /* if ((random() % 2) == 0) { log(" simulating drop", l); return; } */ if (m_remote != m_nat_endpoint) { char msg[200]; snprintf(msg, sizeof(msg), "received packet from wrong IP: %s" , print_endpoint(m_remote).c_str()); log(msg, l); return; } error_code ec; m_send_timer.cancel(ec); if (bytes_transferred < 12) { char msg[200]; snprintf(msg, sizeof(msg), "received packet of invalid size: %d", int(bytes_transferred)); log(msg, l); return; } char* in = msg_buf; int version = read_uint8(in); int cmd = read_uint8(in); int result = read_uint16(in); int time = read_uint32(in); if (cmd == 128) { // public IP request response m_external_ip = read_v4_address(in); char msg[200]; snprintf(msg, sizeof(msg), "<== public IP address [ %s ]", print_address(m_external_ip).c_str()); log(msg, l); return; } if (bytes_transferred < 16) { char msg[200]; snprintf(msg, sizeof(msg), "received packet of invalid size: %d", int(bytes_transferred)); log(msg, l); return; } int private_port = read_uint16(in); int public_port = read_uint16(in); int lifetime = read_uint32(in); (void)time; // to remove warning int protocol = (cmd - 128 == 1)?udp:tcp; char msg[200]; int num_chars = snprintf(msg, sizeof(msg), "<== port map [" " protocol: %s local: %u external: %u ttl: %u ]" , (cmd - 128 == 1 ? "udp" : "tcp") , private_port, public_port, lifetime); if (version != 0) { snprintf(msg + num_chars, sizeof(msg) - num_chars, "unexpected version: %u" , version); log(msg, l); } mapping_t* m = 0; int index = -1; for (std::vector::iterator i = m_mappings.begin() , end(m_mappings.end()); i != end; ++i) { if (private_port != i->local_port) continue; if (protocol != i->protocol) continue; if (!i->map_sent) continue; if (!i->outstanding_request) continue; m = &*i; index = i - m_mappings.begin(); break; } if (m == 0) { snprintf(msg + num_chars, sizeof(msg) - num_chars, " not found in map table"); log(msg, l); return; } m->outstanding_request = false; log(msg, l); if (public_port == 0 || lifetime == 0) { // this means the mapping was // successfully closed m->protocol = none; } else { m->expires = time_now() + seconds(int(lifetime * 0.7f)); m->external_port = public_port; } if (result != 0) { int errors[] = { errors::unsupported_protocol_version, errors::natpmp_not_authorized, errors::network_failure, errors::no_resources, errors::unsupported_opcode, }; int ev = errors::no_error; if (result >= 1 && result <= 5) ev = errors[result - 1]; m->expires = time_now() + hours(2); l.unlock(); m_callback(index, address(), 0, error_code(ev, get_libtorrent_category())); l.lock(); } else if (m->action == mapping_t::action_add) { l.unlock(); m_callback(index, m_external_ip, m->external_port, error_code(errors::no_error, get_libtorrent_category())); l.lock(); } if (m_abort) return; m_currently_mapping = -1; m->action = mapping_t::action_none; m_send_timer.cancel(ec); update_expiration_timer(l); try_next_mapping(index, l); } void natpmp::update_expiration_timer(mutex::scoped_lock& l) { if (m_abort) return; ptime now = time_now() + milliseconds(100); #ifdef NATPMP_LOG std::cout << time_now_string() << " update_expiration_timer " << std::endl; for (std::vector::iterator i = m_mappings.begin() , end(m_mappings.end()); i != end; ++i) { std::cout << " " << (i - m_mappings.begin()) << " [ " "proto: " << (i->protocol == none ? "none" : i->protocol == tcp ? "tcp" : "udp") << " port: " << i->external_port << " local-port: " << i->local_port << " action: " << (i->action == mapping_t::action_none ? "none" : i->action == mapping_t::action_add ? "add" : "delete") << " ttl: " << total_seconds(i->expires - now) << " ]" << std::endl; } #endif ptime min_expire = now + seconds(3600); int min_index = -1; for (std::vector::iterator i = m_mappings.begin() , end(m_mappings.end()); i != end; ++i) { if (i->protocol == none || i->action != mapping_t::action_none) continue; int index = i - m_mappings.begin(); if (i->expires < now) { char msg[200]; snprintf(msg, sizeof(msg), "mapping %u expired", index); log(msg, l); i->action = mapping_t::action_add; if (m_next_refresh == index) m_next_refresh = -1; update_mapping(index, l); } else if (i->expires < min_expire) { min_expire = i->expires; min_index = index; } } // this is already the mapping we're waiting for if (m_next_refresh == min_index) return; if (min_index >= 0) { #ifdef NATPMP_LOG std::cout << time_now_string() << " next expiration [" " i: " << min_index << " ttl: " << total_seconds(min_expire - time_now()) << " ]" << std::endl; #endif error_code ec; if (m_next_refresh >= 0) m_refresh_timer.cancel(ec); #if defined TORRENT_ASIO_DEBUGGING add_outstanding_async("natpmp::mapping_expired"); #endif m_refresh_timer.expires_from_now(min_expire - now, ec); m_refresh_timer.async_wait(boost::bind(&natpmp::mapping_expired, self(), _1, min_index)); m_next_refresh = min_index; } } void natpmp::mapping_expired(error_code const& e, int i) { #if defined TORRENT_ASIO_DEBUGGING complete_async("natpmp::mapping_expired"); #endif if (e) return; mutex::scoped_lock l(m_mutex); char msg[200]; snprintf(msg, sizeof(msg), "mapping %u expired", i); log(msg, l); m_mappings[i].action = mapping_t::action_add; if (m_next_refresh == i) m_next_refresh = -1; update_mapping(i, l); } void natpmp::close() { mutex::scoped_lock l(m_mutex); close_impl(l); } void natpmp::close_impl(mutex::scoped_lock& l) { m_abort = true; log("closing", l); #ifdef NATPMP_LOG std::cout << time_now_string() << " close" << std::endl; ptime now = time_now(); #endif if (m_disabled) return; for (std::vector::iterator i = m_mappings.begin() , end(m_mappings.end()); i != end; ++i) { #ifdef NATPMP_LOG std::cout << " " << (i - m_mappings.begin()) << " [ " "proto: " << (i->protocol == none ? "none" : i->protocol == tcp ? "tcp" : "udp") << " port: " << i->external_port << " local-port: " << i->local_port << " action: " << (i->action == mapping_t::action_none ? "none" : i->action == mapping_t::action_add ? "add" : "delete") << " ttl: " << total_seconds(i->expires - now) << " ]" << std::endl; #endif if (i->protocol == none) continue; i->action = mapping_t::action_delete; } error_code ec; m_refresh_timer.cancel(ec); m_currently_mapping = -1; update_mapping(0, l); }