/* Copyright (c) 2006, 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/pch.hpp" #ifdef _MSC_VER #pragma warning(push, 1) #endif #include #include #ifdef _MSC_VER #pragma warning(pop) #endif #include #include #include #include "libtorrent/peer_connection.hpp" #include "libtorrent/bt_peer_connection.hpp" #include "libtorrent/hasher.hpp" #include "libtorrent/bencode.hpp" #include "libtorrent/torrent.hpp" #include "libtorrent/extensions.hpp" #include "libtorrent/extensions/metadata_transfer.hpp" #include "libtorrent/alert_types.hpp" #include "libtorrent/buffer.hpp" namespace libtorrent { namespace { int div_round_up(int numerator, int denominator) { return (numerator + denominator - 1) / denominator; } std::pair req_to_offset(std::pair req, int total_size) { TORRENT_ASSERT(req.first >= 0); TORRENT_ASSERT(req.second > 0); TORRENT_ASSERT(req.second <= 256); TORRENT_ASSERT(req.first + req.second <= 256); int start = div_round_up(req.first * total_size, 256); int size = div_round_up((req.first + req.second) * total_size, 256) - start; return std::make_pair(start, size); } std::pair offset_to_req(std::pair offset, int total_size) { int start = offset.first * 256 / total_size; int size = (offset.first + offset.second) * 256 / total_size - start; std::pair ret(start, size); TORRENT_ASSERT(start >= 0); TORRENT_ASSERT(size > 0); TORRENT_ASSERT(start <= 256); TORRENT_ASSERT(start + size <= 256); // assert the identity of this function #ifndef NDEBUG std::pair identity = req_to_offset(ret, total_size); TORRENT_ASSERT(offset == identity); #endif return ret; } struct metadata_plugin : torrent_plugin { metadata_plugin(torrent& t) : m_torrent(t) , m_metadata_progress(0) , m_metadata_size(0) { m_requested_metadata.resize(256, 0); } virtual void on_files_checked() { // if the torrent is a seed, make a reference to // the metadata from the torrent before it is deallocated if (m_torrent.is_seed()) metadata(); } virtual boost::shared_ptr new_connection( peer_connection* pc); buffer::const_interval metadata() const { if (!m_metadata) { m_metadata = m_torrent.torrent_file().metadata(); m_metadata_size = m_torrent.torrent_file().metadata_size(); TORRENT_ASSERT(hasher(m_metadata.get(), m_metadata_size).final() == m_torrent.torrent_file().info_hash()); } return buffer::const_interval(m_metadata.get(), m_metadata.get() + m_metadata_size); } bool received_metadata(char const* buf, int size, int offset, int total_size) { if (m_torrent.valid_metadata()) return false; if (!m_metadata || m_metadata_size < total_size) { m_metadata.reset(new char[total_size]); m_metadata_size = total_size; } std::copy(buf, buf + size, &m_metadata[offset]); if (m_have_metadata.empty()) m_have_metadata.resize(256, false); std::pair req = offset_to_req(std::make_pair(offset, size) , total_size); TORRENT_ASSERT(req.first + req.second <= (int)m_have_metadata.size()); std::fill( m_have_metadata.begin() + req.first , m_have_metadata.begin() + req.first + req.second , true); bool have_all = std::count( m_have_metadata.begin() , m_have_metadata.end() , true) == 256; if (!have_all) return false; if (!m_torrent.set_metadata(&m_metadata[0], m_metadata_size)) { std::fill( m_have_metadata.begin() , m_have_metadata.begin() + req.first + req.second , false); m_metadata_progress = 0; m_metadata_size = 0; return false; } // clear the storage for the bitfield std::vector().swap(m_have_metadata); std::vector().swap(m_requested_metadata); return true; } // returns a range of the metadata that // we should request. std::pair metadata_request(); void cancel_metadata_request(std::pair req) { for (int i = req.first; i < req.first + req.second; ++i) { TORRENT_ASSERT(m_requested_metadata[i] > 0); if (m_requested_metadata[i] > 0) --m_requested_metadata[i]; } } // this is called from the peer_connection for // each piece of metadata it receives void metadata_progress(int total_size, int received) { m_metadata_progress += received; m_metadata_size = total_size; } void on_piece_pass(int) { // if we became a seed, copy the metadata from // the torrent before it is deallocated if (m_torrent.is_seed()) metadata(); } private: torrent& m_torrent; // this buffer is filled with the info-section of // the metadata file while downloading it from // peers, and while sending it. // it is mutable because it's generated lazily mutable boost::shared_array m_metadata; int m_metadata_progress; mutable int m_metadata_size; // this is a bitfield of size 256, each bit represents // a piece of the metadata. It is set to one if we // have that piece. This vector may be empty // (size 0) if we haven't received any metadata // or if we already have all metadata std::vector m_have_metadata; // this vector keeps track of how many times each meatdata // block has been requested std::vector m_requested_metadata; }; struct metadata_peer_plugin : peer_plugin { metadata_peer_plugin(torrent& t, peer_connection& pc , metadata_plugin& tp) : m_waiting_metadata_request(false) , m_message_index(0) , m_metadata_progress(0) , m_no_metadata(min_time()) , m_metadata_request(min_time()) , m_torrent(t) , m_pc(pc) , m_tp(tp) {} // can add entries to the extension handshake virtual void add_handshake(entry& h) { entry& messages = h["m"]; messages["LT_metadata"] = 14; } // called when the extension handshake from the other end is received virtual bool on_extension_handshake(lazy_entry const& h) { m_message_index = 0; if (h.type() != lazy_entry::dict_t) return false; lazy_entry const* messages = h.dict_find("m"); if (!messages || messages->type() != lazy_entry::dict_t) return false; int index = messages->dict_find_int_value("LT_metadata", -1); if (index == -1) return false; m_message_index = index; return true; } void write_metadata_request(std::pair req) { TORRENT_ASSERT(req.first >= 0); TORRENT_ASSERT(req.second > 0); TORRENT_ASSERT(req.first + req.second <= 256); TORRENT_ASSERT(!m_pc.associated_torrent().expired()); TORRENT_ASSERT(!m_pc.associated_torrent().lock()->valid_metadata()); int start = req.first; int size = req.second; // abort if the peer doesn't support the metadata extension if (m_message_index == 0) return; #ifdef TORRENT_VERBOSE_LOGGING (*m_pc.m_logger) << time_now_string() << " ==> METADATA_REQUEST [ start: " << start << " | size: " << size << " ]\n"; #endif buffer::interval i = m_pc.allocate_send_buffer(9); detail::write_uint32(1 + 1 + 3, i.begin); detail::write_uint8(bt_peer_connection::msg_extended, i.begin); detail::write_uint8(m_message_index, i.begin); // means 'request data' detail::write_uint8(0, i.begin); detail::write_uint8(start, i.begin); detail::write_uint8(size - 1, i.begin); TORRENT_ASSERT(i.begin == i.end); m_pc.setup_send(); } void write_metadata(std::pair req) { TORRENT_ASSERT(req.first >= 0); TORRENT_ASSERT(req.second > 0); TORRENT_ASSERT(req.second <= 256); TORRENT_ASSERT(req.first + req.second <= 256); TORRENT_ASSERT(!m_pc.associated_torrent().expired()); // abort if the peer doesn't support the metadata extension if (m_message_index == 0) return; if (m_torrent.valid_metadata()) { std::pair offset = req_to_offset(req, (int)m_tp.metadata().left()); // TODO: don't allocate send buffer for the metadata part // just tag it on as a separate buffer like ut_metadata buffer::interval i = m_pc.allocate_send_buffer(15 + offset.second); #ifdef TORRENT_VERBOSE_LOGGING (*m_pc.m_logger) << time_now_string() << " ==> METADATA [ start: " << req.first << " | size: " << req.second << " | offset: " << offset.first << " | byte_size: " << offset.second << " ]\n"; #endif // yes, we have metadata, send it detail::write_uint32(11 + offset.second, i.begin); detail::write_uint8(bt_peer_connection::msg_extended, i.begin); detail::write_uint8(m_message_index, i.begin); // means 'data packet' detail::write_uint8(1, i.begin); detail::write_uint32((int)m_tp.metadata().left(), i.begin); detail::write_uint32(offset.first, i.begin); char const* metadata = m_tp.metadata().begin; std::copy(metadata + offset.first , metadata + offset.first + offset.second, i.begin); i.begin += offset.second; TORRENT_ASSERT(i.begin == i.end); } else { #ifdef TORRENT_VERBOSE_LOGGING (*m_pc.m_logger) << time_now_string() << " ==> DONT HAVE METADATA\n"; #endif buffer::interval i = m_pc.allocate_send_buffer(4 + 3); // we don't have the metadata, reply with // don't have-message detail::write_uint32(1 + 2, i.begin); detail::write_uint8(bt_peer_connection::msg_extended, i.begin); detail::write_uint8(m_message_index, i.begin); // means 'have no data' detail::write_uint8(2, i.begin); TORRENT_ASSERT(i.begin == i.end); } m_pc.setup_send(); } virtual bool on_extended(int length , int msg, buffer::const_interval body) { if (msg != 14) return false; if (m_message_index == 0) return false; if (length > 500 * 1024) { m_pc.disconnect("LT_metadata message larger than 500 kB"); return true; } if (body.left() < 1) return true; int type = detail::read_uint8(body.begin); switch (type) { case 0: // request { if (body.left() < 2) return true; int start = detail::read_uint8(body.begin); int size = detail::read_uint8(body.begin) + 1; #ifdef TORRENT_VERBOSE_LOGGING (*m_pc.m_logger) << time_now_string() << " <== METADATA_REQUEST [ start: " << start << " | size: " << size << " ]\n"; #endif if (length != 3) { // invalid metadata request m_pc.disconnect("invalid metadata request"); return true; } write_metadata(std::make_pair(start, size)); } break; case 1: // data { if (body.left() < 8) return true; int total_size = detail::read_int32(body.begin); int offset = detail::read_int32(body.begin); int data_size = length - 9; #ifdef TORRENT_VERBOSE_LOGGING (*m_pc.m_logger) << time_now_string() << " <== METADATA [ total_size: " << total_size << " | offset: " << offset << " | data_size: " << data_size << " ]\n"; #endif if (total_size > 500 * 1024) { m_pc.disconnect("metadata size larger than 500 kB"); return true; } if (total_size <= 0) { m_pc.disconnect("invalid metadata size"); return true; } if (offset > total_size || offset < 0) { m_pc.disconnect("invalid metadata offset"); return true; } if (offset + data_size > total_size) { m_pc.disconnect("invalid metadata message"); return true; } m_tp.metadata_progress(total_size , body.left() - m_metadata_progress); m_metadata_progress = body.left(); if (body.left() < data_size) return true; m_waiting_metadata_request = false; m_tp.received_metadata(body.begin, data_size , offset, total_size); m_metadata_progress = 0; } break; case 2: // have no data m_no_metadata = time_now(); if (m_waiting_metadata_request) m_tp.cancel_metadata_request(m_last_metadata_request); m_waiting_metadata_request = false; #ifdef TORRENT_VERBOSE_LOGGING (*m_pc.m_logger) << time_now_string() << " <== DONT HAVE METADATA\n"; #endif break; default: { std::stringstream msg; msg << "unknown metadata extension message: " << type; m_pc.disconnect(msg.str().c_str()); } } return true; } virtual void tick() { // if we don't have any metadata, and this peer // supports the request metadata extension // and we aren't currently waiting for a request // reply. Then, send a request for some metadata. if (!m_torrent.valid_metadata() && m_message_index != 0 && !m_waiting_metadata_request && has_metadata()) { m_last_metadata_request = m_tp.metadata_request(); write_metadata_request(m_last_metadata_request); m_waiting_metadata_request = true; m_metadata_request = time_now(); } } bool has_metadata() const { return time_now() - m_no_metadata > minutes(5); } private: // this is set to true when we send a metadata // request to this peer, and reset to false when // we receive a reply to our request. bool m_waiting_metadata_request; // this is the message index the remote peer uses // for metadata extension messages. int m_message_index; // the number of bytes of metadata we have received // so far from this per, only counting the current // request. Any previously finished requests // that have been forwarded to the torrent object // do not count. int m_metadata_progress; // this is set to the current time each time we get a // "I don't have metadata" message. ptime m_no_metadata; // this is set to the time when we last sent // a request for metadata to this peer ptime m_metadata_request; // if we're waiting for a metadata request // this was the request we sent std::pair m_last_metadata_request; torrent& m_torrent; peer_connection& m_pc; metadata_plugin& m_tp; }; boost::shared_ptr metadata_plugin::new_connection( peer_connection* pc) { bt_peer_connection* c = dynamic_cast(pc); if (!c) return boost::shared_ptr(); return boost::shared_ptr(new metadata_peer_plugin(m_torrent, *pc, *this)); } std::pair metadata_plugin::metadata_request() { // count the number of peers that supports the // extension and that has metadata int peers = 0; #ifndef TORRENT_DISABLE_EXTENSIONS for (torrent::peer_iterator i = m_torrent.begin() , end(m_torrent.end()); i != end; ++i) { bt_peer_connection* c = dynamic_cast(*i); if (c == 0) continue; metadata_peer_plugin* p = c->supports_extension(); if (p == 0) continue; if (!p->has_metadata()) continue; ++peers; } #endif // the number of blocks to request int num_blocks = 256 / (peers + 1); if (num_blocks < 1) num_blocks = 1; TORRENT_ASSERT(num_blocks <= 128); int min_element = (std::numeric_limits::max)(); int best_index = 0; for (int i = 0; i < 256 - num_blocks + 1; ++i) { int min = *std::min_element(m_requested_metadata.begin() + i , m_requested_metadata.begin() + i + num_blocks); min += std::accumulate(m_requested_metadata.begin() + i , m_requested_metadata.begin() + i + num_blocks, (int)0); if (min_element > min) { best_index = i; min_element = min; } } std::pair ret(best_index, num_blocks); for (int i = ret.first; i < ret.first + ret.second; ++i) m_requested_metadata[i]++; TORRENT_ASSERT(ret.first >= 0); TORRENT_ASSERT(ret.second > 0); TORRENT_ASSERT(ret.second <= 256); TORRENT_ASSERT(ret.first + ret.second <= 256); return ret; } } } namespace libtorrent { boost::shared_ptr create_metadata_plugin(torrent* t, void*) { // don't add this extension if the torrent is private if (t->valid_metadata() && t->torrent_file().priv()) return boost::shared_ptr(); return boost::shared_ptr(new metadata_plugin(*t)); } }